This is the capacity of a link usually measured in bits-per-second (bps).
Information carrying capacity of a communication channel within a time period. It is measured by bits per second (bps). For example, 56K bps means 56K bit of data can be transmitted in 1 second.
Bandwidth is the amount of information your connection to the Internet can carry. For large amount of web traffic you would want to have something of web AutoBahn instead of a country back road.
The amount of information that can be transmitted over the Internet during a second. Essentially, the size of the pipe.
Bandwidth may be defined as the difference between the highest and lowest frequencies available for network signals. It is also used to describe the amount of data that can be transmitted in a fixed amount of time.
the amount of information, mainly compressed in bits per second (bps), that can be sent through a connection within a specific amount of time; depending on how fast your modem is, 15,000 bits (roughly one page of text) can be transferred per second
(2005-03-08) Chris Limb The amount of data that can be sent from one computer to another through a network connection in a certain amount of time, measured in its er econd
Communications capacity of a specific path or transmission line through a network, measured in bits per second (bps). Refers to the frequency range transmitted by an analog system. In video systems, specifying the highest frequency value is sufficient, since all video systems must transmit frequencies down to 30 Hz or lower.
The range of frequencies within which the performance of the antenna, with respect to some characteristic, conforms to a specified standard. Greater bandwidth generally provides for a more robust system because changes in the installation environment will not degrade antenna performance.
The information capacity, measured in bits per second, that a channel can transmit. The bandwidth of Ethernet is 10 Mbps, the bandwidth of Fast Ethernet is 100 Mbps, and the bandwidth of Gigabit Ethernet is 1000 Mbps.
The frequency range across which an audio system can reproduce sound. In most cases, bandwidth is given as plus or minus some level of decibels (usually 3 dB). See also Frequency Response.
The total information flow over a given period of time, usually measured in Kbps (Kilobits/second or Mbps (Megabits / second). Otherwise understood as the difference between the minimum and the maximum frequencies that can be passed by a communications system.
The Bandwidth is the maximum speed at which data can be transmitted between computers in a network. A common unit of bandwidth is the "baud."
The width of frequencies required to transmit a communications signal without undue distortion. Television signals require a bandwidth of three million hertz (cycles per second) while telephone conversation needs only 3,000 hertz. Generally, the greater the bandwidth, the more information that can be sent through the channel in a given amount of time.
The range of frequencies over which an electronic system can function with minimal signal loss. The higher the bandwidth the greater the resolution. (detail)
The width of a communication channel, measured in Herz (analog) or bits per second – bit/s - (digital) or the capacity to move information, as in ‘high bandwidth’.
This refers to the amount of electronic traffic that can flow through a connection. For example, a 14.4 modem has very little bandwidth, a 28.8 modem has twice as much and AT&T’s main fiber optic trunklines that connect cities have huge bandwidth. The more bandwidth, the faster the words, images and sound appear on your screen as you travel the Net.
The speed at which data moves across a network.
Usually described in terms of transmission level, the bandwidth is the spectral range over which an interference filter transmits.
A data transmission rate; the maximum amount of information (bits/second) that can be transmitted along a channel.
The Internet's transmission capacity, measured in bits-per-second (bps). A full page of standard text contains requires about 16 kilobits; full motion digital video requires Full-motion video requires about 10 megabits for every second of video.
This is a measure of the amount of data that can be transmitted over communication or network lines via the Internet. The higher the bandwidth, the great the amount of information that can be transmissed.
A measure of capacity. Greater bandwidth allows more information to be communicated in a given period of time.
commonly used to indicate how much, or how fast, data can be transmitted across a telecommunications line or network connection in a period of time, usually one second; used synonymously with data transfer rate, throughput, and line speed.
The standard method of measuring data transfer over the internet, generally referred to in GigaBytes (also GB or Gigs). One GB is 1000 MB (megabytes). When someone views a page that has a size of 10k, that uses up 10k of bandwidth. Any hosting package comes with a specified amount of bandwidth, and there are generally hefty charges for going over.
Measurement in cycles per second (hertz) or in bits per second (bps) of the quantity of information that is able to flow through a channel.
This is the amount of information that can be transferred through your internet connection. It is usually measured in bits per second. The more bandwidth you have the faster you can upload and download files and information.
The spectral width of a filter measured at half of the peak transmission, Also referred to as Full Width at Half Maximum (FWHM)
This is the data transfer capacity of a transmission medium - the higher the bandwidth the faster the data can be transferred. In digital communications, the transfer capacity expressed in bits per second (bps) or megabits per second (Mbps).
The common measure of transmission capacity. For analog transmission, it is measured in cycles per second; for digital transmission, it is measured in bits per second.
Frequency range that can be accommodated by a transmission line. The bandwidth determines the rate at which data can be transmitted. A bigger bandwidth will increase the amount of traffic your connection can accommodate.
This is a reflection of the size or the capacity of a given transmission channel.
a term used to express the amount of information that can flow through a given point at any given time. (See survey item 12)
A relative measure of how much data can pass through a certain connection during a given amount of time.
A measurement of the data-carrying capacity of a bus or other data transmission medium.
Measure of the carrying capacity, or size, of a communication channel. For an analog circuit, the bandwidth is the difference between the highest and lowest frequencies that a medium can transmit and is expressed in hertz. (Hz - is equal to one cycle per second)
Bandwidth is to do with hosting. It's a commodity that can't be seen - a bit like electricity. Every time someone downloads a picture from your website, bandwidth is used. (Just like every time you turn on a light, electricity is used). Bandwidth is measured in the same way as file sizes are. Example: If a surfer downloads a picture from your webspace, and the picture is 25kb in size, you have used 25kb of bandwidth.
The total amount of date passed through a connection. Usually quoted as Kbs (kilobits per second) or Mbs (megabits per second).
The range of signal frequencies that a piece of audio or video equipment can encode or decode; the difference between the limiting frequencies of a continuous frequency band. Video uses higher frequency than audio, thus requires a wider bandwidth.
Measure of information-carrying capacity of a circuit. In analog systems, bandwidth refers to the total available frequency measured in Hertz (Hz), while in digital systems, bandwidth refers to the number of binary data bits transmitted per second (bps).
Bandwidth refers to the amount of information that can be transmitted over a network in a given amount of time, usually expressed in bits per second or bps. It is often confused with speed. Speed is the time it takes for one piece of information to get from point A to point B. Think of two moving carpets or "bands" of different widths, both moving at identical speeds. Two boxes, one placed on each moving carpet will both reach the end at the same time, but the wider carpet can carry more boxes than the narrow one. Thus, a network with more bandwidth can carry more information per second than one with less bandwidth. This is the units used by Volodata: 1 Kb/s = 1 kilobit/second = 1 x 1.000 bits/second 1 Mb/s = 1 megabit/second = 1 x 1.000.000 bits/second 1 Gb/s = 1 gigabit/second = 1 x 1.000.000.000 bits/second 1 KB/s = 1 kilobyte/second = 8 x 1.024 (210) bits/second 1 MB/s = 1 megabyte/second = 8 x 1.048.576 (220) bits/second 1 GB/s = 1 gigabyte/second = 8 x 1.073.741.824 (230) bits/second
Refer to the maximum amount of data that can be transmitted within a channel in a given time. Depending on the transfer and I/O type, bandwidth is usually expressed in terms of bit (byte) per second or Hertz.
A measure of data sent through a connection. Usually measured in bits per second. A full page of English text is about 16,000bits. A fast modem can move about 15,000 bits in one second. Full-motion,full-screen video would require roughly 10,000,000 bits-per-second,depending on compression.
The amount of data any transmission medium such as voice grade telephone lines can transmit in total.
The capacity of a communications channel either measured in frequency range eg 3 kHz, or transmission rate (in bits per second) eg 63 Kps.
The difference between the lowest and the highest frequencies of a transmission channel, usually expressd in hertz (Hz). For instance, a voice transmission by telephone requires a bandwidth of about 3000 cycles per second (3KHz). A TV channel occupies a bandwidth of 6 million cycles per second (6 MHz) in terrestrial Systems. In satellite based systems a larger bandwidth of 17.5 to 72 MHz is used to spread or "dither" the television signal in order to prevent interference.
The amount of information that can simultaneously be transferred through a communication channel.
The electronic data capacity of transmissions in media. It can be local cable delivery via coaxial cable or fiber, radio frequency signals, telephone or network wiring as well as system buses and monitors. The bandwidth of the average television channel is 6 million cycles per second (6 MHZ)and internet it is bits or bytes per second. Technically, the numerical difference between the highest and lowest frequency in use.
The amount of data which can be sent through a particular point in a connection. It is typically measured in MegaBits per second. The greater the available bandwidth, the greater the amount of data which can be transmitted in one second.
In network communications, the amount of data that can be sent across a wire in a given time. Each communication that passes along the wire decreases the amount of available bandwidth.
Amount of data that can pass within a given time period. This is usually terms of seconds. Think of bandwidth as a pipe of water -- the larger the pipe -- the more water can pass in a given time period. Table of Contents
the oscilloscope frequency range within which performance of a particular characteristic falls within specified limits, commonly defined as the difference between the upper and lower frequency at which the response is .707 (-3dB) of the response at the reference frequency.
The capacity of a telecommunications link - how fast data can be moved around. Measured in hertz (Hz) and megahertz (MHz) - the more the better.
The amount of spectrum available to broadcast a TV signal. With DTV, TV stations can broadcast one HDTV signal or several SDTV signals using the same amount of bandwidth, with room left over for additional features in the future.
refers to the amount of information that can flow through a specific location at at any given time
The capacity of a network connection, measured in bits or bytes per second, for carrying data.
The maximum available transmission capacity, which is the rate information travels from one PC to another. This is typically expressed in terms of the network speed, such as 1 Mbps (megabit-per-second).
The frequency range to which the amplitude of the stage's motion is dropped by 3dB with a small input scanning signal. It reflects how well the stage can follow the driving signal for a particular frequency range.
Bandwidth, or 'transfer', is how much information can be sent to people looking at your website. When someone looks at your webpage, they're actually downloading it - so, if your page is 1MB in size, it uses 1MB of bandwidth to look at it each time. Go to top
Describes the capacity of a modem or cable to transmit data. Bandwidth is directly proportional to the amount (and type) of data transmitted or received per unit time. For instance, it takes more bandwidth to download an image than it takes to download a page of text in the same time.
Often used to describe an operating range between two points that are down by a certain amount, usually -3dB.
Capacity of the circuit measured in frequency for analog circuits and in bits per second (bps) on digital circuits.
A measure of the communication capacity or data transmission rate of a Circuit. The total frequency spectrum (in Hertz - cycles per second) that is allocated or available to a channel, or the amount of data that can be carried (in bits per second) by a channel.
The speed or capacity of a network connection. The more bandwidth a particular medium has, the faster data can be transmitted across it.
The frequency range in which an audio device operates, i.e., amplifiers, equalizers, speakers, etc.
In audio, the range of frequencies that a device can processor pass; the human ear has a bandwidth of 20 Hz–20k Hz. In radio and television transmission, the range of frequencies occupied by one channel of information; a television broadcast channel occupies a band of frequencies 6M Hz wide. In digital, the maximum bit rate a system is capable of conveying; the bandwidth of a FireWire 400 connection is 400 Mbps.
transmission capacity of a telecommunications link, such as a television line or a computer line, i.e., capacity to carry information.
a term to describe how much information a network connection can transfer in a given time. Bandwidth is typically measured in some form of bits per second, where larger numbers indicate a faster connection. The bandwidth of a modem connection is typically 28.8 kbps, while the fastest networks can now (in theory) exceed 1 gbps
Network transmission speed. The greater the bandwidth, the more information can be transferred at a time.
A measurement, expressed in cycles per second or bits per second (bps), of the amount of information that can flow through a channel.
The capacity of a medium to transmit a signal. More informally, the mythical 'size' of The Net, and its ability to carry the files and messages of those that use it. Some view certain kinds of traffic (FTPing hundreds of graphics images, for example) as a 'waste of bandwidth' and look down on them. Usually measured in bits-per-second. A full page of english text is about 16,000 bits. A fast modem can move about 15,000 bits in one second. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression. See also: Bps, Bit, T-1
Usually measured in 1000 bits per second (kbps), it is the amount of data that can be carried from one point to another in a given time period.
the rate at which data can be sent through any given data connection - usually expressed in Mbit/s (megabits per second)
The range of light frequencies the CCTV camera light sensor is sensitive to.
Measured in bits-per-second, the maximum amount of data that can flow through an Internet connection. Broadband A service or connection allowing a considerable amount of information to be conveyed. Generally defined at bandwidth greater than 2Mbit/s. Call Collection Area The geographic area from which Telstra will collect telephone calls and interconnect them with another network.
The width of electric frequencies necessary to transmit communications signals quickly and clearly. The more information a signal contains--photographs, moving images, sound, text--the more bandwidth it uses. Text alone uses little bandwidth.
Data transfer, or bandwidth, refers to the amount of electronic data sent over the network each month. Such data includes a visitor's request for a page, the page sent in response to the request, and any updates you publish to your site. The amount of data transferred is also affected by the size of the Web pages and the number of visitors to the site. If your site begins to exceed the data transfer allotted by your hosting plan, you may want to consider purchasing additional blocks of bandwidth.
The amount of frequency space occupied by a signal, and required for effective transfer of the information to be carried by that signal
The range (or band) of frequencies occupied by a system. Measured in Hertz (Hz).
Range of frequencies in which a specific device will properly operate
Range on frequency the transponder can transmit, in MHz Give a measure of capacity
The capacity of a communications channel. Analogue bandwidth is measured in hertz (hz). Digital bandwidth is measured in Bits Per Second (Bps). The higher the network's bandwidth, the greater the volume of data that can be transmitted.
A measure of how much information or data can be sent in a set amount of time, usually measured in kbps (kilobits per second). Broadband or cable connections allow high bandwidth, so you can transfer information faster than if you are connected to the Internet via a standard 56k modem. Large files, e.g. movies or music require high bandwidth to be downloaded quickly, whereas small files, e.g. text, can generally be download quickly, even over slower connections, such as a modem. See also: streaming. Note the Code of Conduct states that mc² staff reserve the right to... remove without notice... any file using excessive bandwidth.
Amount of frequency space (spectrum) needed to send information.
Bandwidth measures the amount of data that can be transferred between computers over the Internet. It is typically measured in bytes (kilobytes, gigabytes, etc.) and is an important consideration for anyone who has a Website or page published to the Internet.
the process throughput of the given device usually measured in bits or bytes per second.
The capacity of a channel or line to carry signals without distortion or loss of information.
The amount of space in a given part of the spectrum needed to carry communication signals.
The data-carrying capacity of a transmission medium, usually measured in hertz, which equals cycles per second. (See Fibre Bandwidth)
The range of frequencies used to transmit the television signal, including picture and sound. Analog television signals have been allocated at 6 Megahertz for each over-the-air channel. Digital channels are allocated the same 6 Megahertz by Industry Canada. However, by the use of digital compression, a combination of up to 5 SDTV programs and/or one HDTV program can be carried in this 6 MHz digital channel.
1. n. The difference, expressed in hertz, between the highest and the lowest frequencies of a range of frequencies. 2. n. In asynchronous transfer mode (ATM), the capacity of a virtual channel, expressed in terms of peak cell rate (PCR), sustainable cell rate (SCR), and maximum burst size (MBS). 3. n. A measure of the capacity of a communication transport medium (such as a TV cable) to convey data.
Is a measurement of the capacity of a transmission system. It is typically measured in Hertz.
The data-carrying capacity of a transmission medium measured in bits per second (bps) or in cycles per second or Hertz (Hz).
In internet terms, bandwidth describes the capacity of the connection (measured in Kilobits or Megabits per second) to the internet and hence indicates the speed at which you can download web pages and files.
The bandwidth is a way of measuring the capacity of a communication channel. The wider (larger) the bandwidth, the more data simultaniously can be transported over this particular channel. The expression bandwidth originates from the analog communication world expressed in Hertz (Hz). In the current digital world the expression Bandwordth is wrongfully used and expressed in bits per second.
The range of frequencies over which something is measured. Typically used in regard to electromagnetic compatibility (EMC) testing and the measurement of output noise.
Its basic meaning is the width of a specified frequency spectrum. As it applies to sound, the human ear hears sound in the range of 20Hz to 20,000Hz (20KHz). The term is also used synonymously with bit rate and refers to the number of bits per second. It relates to data transfer and refers to the quantity of data that can be transferred. !-- google_ad_client = "pub-6351068995715539"; google_alternate_color = "CCFFCC"; google_ad_width = 120; google_ad_height = 240; google_ad_format = "120x240_as"; google_ad_type = "text_image"; google_ad_channel ="3135690862"; google_color_border = "FFFFFF"; google_color_bg = "FFFFFF"; google_color_link = "336633"; google_color_url = "000000"; google_color_text = "000000";
A data transmission rate. A measurement of the amount of data that can flow between computers in a given amount of time. It is usually measured in bps. Often mistaken for data transfer.
Bandwidth is the rate at which data that can be transferred through a connection. A standard PC modem has a very low bandwidth of about 3,000 to 5,000 bytes per second. The very high speed lines that make up the backbone of the Internet are much faster, at least 1,000,000 bytes per second! Note that bandwidth is not exactly the same as speed. If you only want to transfer one byte, it may not get where it is going any faster with high-bandwidth than it would with low-bandwidth. However, if you want to transfer a million bytes, then high-bandwidth will definitely help! You can think of high-bandwidth as like drinking juice with a fat straw, whereas low bandwidth is like drinking juice with one of those thin coffee straws.
1) When used in reference to digital systems, bandwidth describes the amount of data that can be transmitted on a given path. The standard measurement in the digital transmission context is a multiple of bits per second. 2) In analog systems, bandwidth refers to the difference between the highest and lowest Frequency State (number of cycles per second or Hertz) used on any given signal within a band.
The difference between the highest and lowest frequencies passed by an analog communications channel, device or system. A data communication system's data transfer capacity.
The volume of infomation sent through a connection. This volume is measured in bites per second (bps).
A measure of how much stuff can be stuffed through a transmission medium such as a phone line or network cable. Bandwidth is measured in baud or bits per second. The range of transmission frequencies that a network can use. The greater the bandwidth, the greater the amount of data that can travel on the network at one time.
How much stuff you can send through a connection, measured in bits-per-second. A fast modem can move about 15,000 bits in one second. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression as opposed to a page of English text which is about 16,000 bits. See also: bit, modem
Bandwith describes the amount of data able to be sent through a communications circuit per second. It's come to signify the measurement of waste on the net -- people are admonished to keep their posts short and meaningful in order to save bandwidth.
The quantity of spectrum required for a specific purpose.
The capacity of a network or data connection to transmit data.
Internet parlance for capacity to carry or transfer information such as email and Web pages.
The amount or capacity of data that can be transmitted over a unit of time. Usually described in bits per second ( bps) for digital transfers and cycles per seconds (Hertz, Hz) in analog systems.
Also referred to as your Monthly Traffic. The monthly measurement of data coming in and out of the server, and specifically your Web site. Sites are given a guide amount of potential traffic they can receive. Bandwidth is measured in gigabytes (GB) and is calculated and recorded when a file is downloaded. 1 GB of bandwidth provides approximately 100,000 hits (which are individual requests for files including images, web pages and multimedia) a month. Additional bandwidth can be added to your account as needed.
Amount of data that your web server has to load each time someone visits your Web pages from your site, or each time you start upload images or pages via FTP (File Transfer Protocal). Is the total size of images or pages transferred by an hosting account/month. Sites with a lots of images, graphics, JPG, GIF or FLASH, downloads, or streaming audio-video and a lot of visitors will require plans with more available transfer. Most Website host companies offer unlimited bandidth (data transfer) because 97% of their clients do not abuse their servers with outrageous data transfers anyway. For exemple: a hosting plan might come with, "3 GB of bandith (data transfer): " 500 MB of data transfer is equivilant to about 25,000 page views.
The rate at which data can passed through a network or link. cf latency
The range of frequencies occupied by a signal, or passed by a transmission channel. Services requiring a bandwidth greater than 20 kHz, such as TV transmissions, are known as "broadband". Those requiring less capacity, such as audio transmissions, are known as "narrowband".
A measure of the amount of data that can travel through a network. Usually measured in kilobits per second (Kbps). For example, a modem line often has a bandwidth of 56.6 Kbps, and an Ethernet line has a bandwidth of 10 Mbps (10 million bits per second).
Measure of the information-carrying capacity of an optical fiber Note: This term is often used to specify the normalized modal bandwidth (MHz-km) of a multimode fiber.
The information carrying capacity (speed) of various communications networks. The wider the bandwidth, the more information can be carried. A T1 line has a bandwidth of 1.544 Mbps. It is also used to describe an executive's capacity to think about many things at once.
The data-carrying capacity of a network connection, used as an indication of speed. See also Ethernet, Fast Ethernet, and Gigabit Ethernet.
the amount of digital signals that can travel per second (p 93)
A description for the amount of information that pass through any given point. A bandwidth can be wide or narrow. The wider the bandwidth, the more information that can travel through it.
There are physical constraints on the amount of data that can be transferred through a specific medium. The constraint is measured in terms of the amount of data that can be transferred over a measure of time, and is known as the bandwidth of the particular medium. Bandwidth is measured in bps (bits per second).
The range of frequencies used for a particular radio transmission (e.g. 36 MHz). It is the difference between the lowest and highest transmission frequencies used by a signal.
The amount of information that can be sent and processed in a certain amount of time over networks. Digital video requires a high bandwidth rate.
Range of frequencies occupied by a signal or allowed by receiving equipment (basically, what a receiver is capable of receiving).
Refers to the "space" in the frequency response of a device through which audio signals can pass (between lower and upper frequency limits, those points where the signal level has rolled off 3 dB).
A measure of the amount of data that can fit on a network. Measured in Hertz or bits per second. For example, a regular Ethernet line has a bandwidth of 10 Mbps (10 million bits per second)
Measured in Megabytes (see Bytes), bandwidth describes the capacity (and by implication the speed) of a line that carries digital information from computer to computer across the internet. The more traffic (TCP/IP vehicles - see TCP/IP), the faster this will flow if the roads are wider.
The range of signals that can be transmitted by a switching device, transmission facility or a transmission medium. Bandwidth is expressed in Hertz (Hz) for analog and bits per second (bps) for digital.
The total amount of traffic generated by your site. If you deliver 100,000 pages a day of 10.0 kilobytes each, then your website will consume 1 gigabyte of data per day, or about 30 gigabytes per month. Over 90% of all websites never go above 5GB of data transfer per month.
Measured in bps, Bandwidth refers to a telecommunications link's transmission capacity. The bandwidth available in a connection plays a large role in the speed of an Internet connection.
The range between the lowest and highest limiting frequencies in an electronic system. In digital audio, the term represents the maximum digital information which can be stored in a system.
The capacity in a network for data transmission. Bandwidth is measured in the number of data bit s that can be handled per second (bps, Kbps, Mbps or Gbps).
The amount of data (bits) which passes through a connection over a given time - usually measured in bits-per-second (bps).
One of the major problems on the Net; everyone wants more bandwidth. Bandwidth is the carrying capacity of any communications technology, the amount of information (usually measured in bits-per-second) that can be sent through the Internet (or other network) connection.
In simplistic terms, bandwidth is the amount of information travelling through a single channel at any one moment in time. On web servers, there is usually a limited amount of bandwidth that any one particular web site can use. So if you get more "hits" on your site continually over a period of time, your ISP will probably ask you to pay for a higher bandwidth allowance.
meaning ability or capacity, notable for having nothing to do with the internet. E.g. Do you have the bandwidth to have this project ready for the 5pm meeting
A measure of the information carrying capacity of a communications channel; a practical limit to the size, cost, and capability of a telemedicine service.
The amount of data that can be sent through a connection; usually measured in bits per second. A fast modem can move about 15,000 bits in one second (about a page of English text).
A way of measuring how much data can pass through a network at a given time and workload.
A frequency range. For example the bandwidth of the human ear is around 20kHz.
The path size for digital or traditional information to flow. The improved compression used with digital signals allows for more and varying types of information to be sent and received simultaneously.
The maximum size of information that can be sent through a connection at a given time. Usually measured in bits per second (bps). See also bps, bit, T-1.
The amount of information that can be sent through a particular communications channel.
The range of frequencies available for signaling; the difference between the highest and lowest frequencies of a band, expressed in hertz.
The amount of data that can be transmitted between two points in a fixed amount of time.
this has slightly differing meanings depending on the technical context in which it is used. In computing and networking, bandwidth is used to indicate the digital capacity of a particular link per second – typical measures being bits per second, kilobits per second, megabits per second etc. In other areas of telecommunications bandwidth refers to the amount of electromagnetic spectrum which a signal occupies and is expressed in Hertz (Hz) or KiloHertz (kHz) Binary – The binary number system is a system where each digit can have one of two possible values, 0 or 1. Thus the number 5 would be expressed as 101 in binary notation (i.e. 1x4 + 0x2 + 1x1)
A measure of the amount of network traffic the transmission medium can handle at one time. In a LAN, bandwidth describes the amount of data that can be transmitted over the line in bits per seco nd.
A measure of the amount of data that can be delivered during a given period of time.
A high-tech term used to describe the amount of data (webpages, text, graphics, video, sound, etc.) that can travel in a given time, usually one second, across a network or a connection to a network such as a modem. When you send a message across the internet, you are using part of its bandwidth, just as your car takes up space on the freeway. The management of a customer's website is based on the amount of data transfer used per month.
The bandwidth is the theoretical maximal flow of a communication channel. It's defined in bit/second (bps).
In terms of signal frequency, the range between the lowest and the highest frequencies used to transmit a signal from one site to another. Bandwidth as a measure of an analog signal is measured in cycles per second. Contemporary units are Hertz (one cycle equals one Hertz). Bandwidth as a measure of a digital signal is measured in bits per second, and is usually referred to as data rate. For example, a regular Ethernet line has a bandwidth of 10 Mbps. High bandwidth allows fast transmission or the transmission of many signals at once. [Source: York Telecom
Refers to the amount of data that can pass through a transmission channel while transmitting data from one computer to another in a given period of time. The standard measurement for bandwidth is "bits per second" (bps), it is also known as the maximum data trasfer rate.
The ability of a connection to handle data. Usually measured in bits-per-second. Internet connections commonly vary from a fast modem at about 57,000 bps to many DSL or Cable connections at over 1,000,000 bps.
In audio this refers to the range of frequencies that a system can reproduce. It can also refer to how fast data flows on a given transmission path (phone line, cable line, satellite feed, etc.). Any digital or analog signal has a bandwidth and the greater the bandwidth, the greater the connection speed.
The volume of data per second that can pass through a network link, line, or device.
The bandwidth of an antenna is the range of radio frequencies it can transmit or receive efficiently. The bandwidth of the communication device, such as an access point, is the range of frequencies used by or allocated to the communication device. Bandwidth is sometimes also used to describe the throughput of an information network. Networks with higher data rates have higher throughput and may be said to have more bandwidth. Higher information content typically demands more bandwidth.
In the semiconductor context, the rate at which data is transferred from one part of a system to another (e.g. from memory to the processor). For example, in a PC using PC100 SDRAM clocked at 100 MHz, the 8 byte (64-bit) wide bus has a bandwidth of 800 MBytes/second. In the telecommunications context, the rate at which data is transferred between systems.
The information-carrying capacity of the wires and channels that connect everyone in cyberspace. are sent along with an electronic message.
The amount of information that can be carried through a phone line, cable line, satellite feed, or other Internet hook-up. The greater the bandwidth, the greater the speed of your connection, the more data you can receive and your images are of a higher quality.
The amount of data that can be transferred in a given amount of time. Usually expressed in bps (bits per second), Kbps, or Mbps. Synomyn for throughput.
The maximum amount of electronic throughput on a connection, at the slowest point (usually expressed in Kbps or Mbps - higher is better and 1 Mbps = 1000Kbps)
signal transmission capacity with regard to how much information can be moved per unit of time
Difference between the highest and lowest frequencies that an analog communications signal can pass
The information carrying capacity of the fiber. The bandwidth for a given wavelength is the lowest frequency at which optical power has decreased by 3 dB, expressed in MHz-km. At frequencies higher than the recommended bandwidth, modal dispersion creates distortion making signals unreadable.
The rate at which a network can transfer data, usually expressed in Megabits per second (Mbps) Standard Ethernet operates at 10 Mbps. Fast Ethernet operates at 100Mbps.
The amount of data that can be transmitted across a network in a certain amount of time.
Refers to the rate at which information can move across a connection. The greater the bandwidth the faster the information moves.
Bandwidth is the amount of data sent through a connection. The wider the bandwidth, more the data can flow through the connection. A dial-up connection through (28.8 and 56k) modems provides a narrow bandwidth. ISDN, Cable-modem, DSL line, and satellite connection provides broadband connections.
Also called capacity. The volume of data that an Internet connection (modem or transmission line) can handle. The data is usually measured in bits per second (bps). Visualize bandwidth as a road. The wider the road, the more traffic will be able to get through. Although the Internet itself is huge, only a certain amount of data can pass through at a time. Technologies, such as DSL, may increase the volume of data that can be transmitted to or received from the Internet.
Data transmission capacity of an electronic communications channel. This corresponds to the maximum quantity of data this channel can transmit per second.
The range of frequencies (data) a transmission line can carry and defined in bit/s (BPS). The larger the bandwidth, the greater the information capacity of a channel.
(Data transfer or traffic) This is the amount of data that is transferred each time someone views your website or you upload or download files to or from your web space. Each time a webpage, an image or other file is accessed, bandwidth is generated.
The capacity of a communication line to carry information (measure in bits/sec).
A figure stated for a communications device (specified in Hz, kHz, MHz, GHz) that ultimately dictates the amount of information that it can convey.
The capacity of an Internet (i.e. phone) connection. Measured in bits per second, or the SI multiples: kilobits (thousands), Megabits (millions) or Gigabits (thousand millions)
Bandwidth primarily relates to how much information can be transferred at any given time on the Internet.
Measured in bps, it is the amount of data that a network connection (cable, DSL, or dial-up) is capable of sending.
Literally, the frequency width of a transmission channel, but often used as an expression of the amount of data that can be sent through a circuit in a fixed amount of time.
the physical capacity of the transmission equipment in a network. Bandwidth refers to the amount of information that can be transmitted at a time, usually in bits per second.
A measure of how much information can be sent through any given connection. Bandwidth is usually measured in bits per second.
The frequency of a data signal. The higher the frequency (bandwidth), the higher the data rate and consequently the greater amount of data that can be carried. Also used to describe the portion of a given data transport resource that is being used; i.e., two DS3's use two thirds of the total bandwidth of an OC-3.
refers to the data capacity of the connection between your computer and the server. High bandwidth means lots of data can flow quickly. Low bandwidth means a smaller amount of data moves more slowly.
Also called "transfer" or "traffic", bandwidth is the number of megabytes/gigabytes handled by a web server. Sending or receiving email, viewing pages, transferring files to or from your account with FTP, stored databases all are counted in determining how much bandwidth you use in a given month.
The amount of data that can be sent over a network connection in a fixed amount of time.
Capacity to carry information. It can apply to telephone or network wiring as well as system buses, radio frequency signals and monitors. Bandwidth is most accurately measured in cycles per second or hertz (Hz), also as bits or bytes per second.
Range between the minimum and maximum frequency.
Describes how fast data flows from one computer to another usually over the Internet. The transfer rate is usually measured in bits per second (bps). The higher the bps, the faster the transmission. For example a 57,600 bps modem has twice the bandwidth and therefore has the potential to be twice as fast as a 28,800 bps modem.
The amount of throughput available to or used by a given connection. For example, often ADSL is quoted as having a bandwidth of 512 kbps, or modems as 56 kbps (whilst this is the theoretical maximum bandwidth, in reality the atual throughput is normally less due to various overheads and contention ratios). Whilst it is not a proper definition, many people use the word bandwith to convey the amount of data transfer in a given period of time.
This refers to the amount of data that can be sent through a given communications circuit in a given amount of time. In general, greater bandwidth means a faster transfer of data from one point to another on the Internet.
1) the transmission rate of a communications line or system, expressed either as cycles per second/hertz for analog lines, or as bits (bps) or kilobits per second (Kbps) for digital systems; 2) line speed; 3) the amount of information that can be transmitted over communications lines at one time.
A measure of the amount of data that can be sent across a connection per unit of time. Bandwidth is normally measured in megabits per sec (Mbps); a megabit being one million bits. The amount of bandwidth a Web server requires depends on the applications that will be running on the Web server. Simple HTML Web pages do not require a large amount of bandwidth, but full-motion video requires a large amount of bandwidth.
The information-carrying capacity of a communications channel measured in bits-per-second for digital systems or in megaHertz for analog systems.
Sometimes you'll see this mentioned when talking about a radio. Some radios have a switch for narrow and wide bandwidth. This is usually referring to clarity and deals with the frequency response of the radio. A narrow bandwidth radio will pull in only the center of the signal to try to reject interference from the signals that are right on the next frequency. But the signal may be muddy. It takes more bandwidth to give more clarity to the signal. But that also brings in a wider signal and may increase interference from adjacent channels.
Bandwidth is the term used to indicate the volume of data transmitted in a unit time (usually a second). Both digital and analogue signals have a bandwidth. In analogue systems, it is measured in cycles per second (Hertz) and in digital systems usually in binary bits per second. (Bit/s or bps)
Refers to how much data can pass through a connection, expressed in Hertz.
How much data you can send through a connection. Measured in bits-per-second. A full page of English text is about 16,000 bits. Full-motion full-screen video is roughly 10,000,000 bits-per-second, depending on compression. Bandwidth had steadly increased especially with avent of emerging technologies like DSL.
The amount of data stream allocated to your internet or network connection. The more (or higher) bandwidth you have available the faster your downloads or the more computers able to call for Web pages at the same time.
The carrying capacity of a wire attached from one computer to another. It is usually measured in the amount of bits carried. For example, a 56k modem will allow a bandwidth of 56,000 bits per second.
The capacity of a medium to carry data bits. Measured in Hz
The amount of data that can be sent from one computer connection to another at any given time.
The range of frequencies over which a device is capable of operating within a specified performance limit.
The measurement of the capacity of a transmission. The terms for measurement vary from analog (hertz-"S" cycles per second) and digital (bits per second). Common measurements include: Kbps (kilobits per second), Mbps (megabits per second), and Gbps (gigabits per second).
The amount of data transferred from one server to another over the internet. Usually measured in bits-per-second.
A measure of the range of a channel's frequency limits. Broader bandwidth enables transmission of faster and more varied data. For example, a wideband circuit can carry a TV channel; the bandwidth used for one video channel is roughly equal to 1,200 voice telephone channels.
The amount of information that one can send through a connection, measures in bits-per-second (Bps). A standard page of English text contains about 16,000 bits.
The amount of data that can be transmitted per second over a wire or network
The amount of data sent through a network connection measured in BPS (bits per second). It's important to look into the limitations of bandwidth when choosing a host whether it is free or paid. The total bandwidth will affect your monthly cost greatly if you choose to use a paid hosting service.
The difference between the top and bottom limiting frequencies of a continuous frequency band or indicator of the information-carrying capacity of a channel. The greater the bandwidth, the greater the information-carrying capacity.
How much information (text, images, video, sound) can be sent through aconnection. Usually measured in bits-per-second. A full page of text is about 16,000 bits. A fast modem can move approximately 15,000 bitsin one second. Full-motion full-screen videorequires about 10,000,000 bits-per- second, depending on compression. (See also: 56K, bit, modem, T-1)
The transmission capacity of a communications channel; data speed measured in bits per second. A high-bandwidth network is required for fast transfer of image files, as they typically contain large amounts of data.
the amount of information that can pass over an Internet connection, usually measured in bits per second ( bps).
The range of frequencies a channel can carry. The higher the frequency, the higher the bandwidth and the greater the capacity of a channel. In Internet terms, higher bandwidth means a higher ability to transmit and receive data.
Amount of data that can pass through a connection (such as a modem) in a given amount of time.
(n.) Originally, "bandwidth" referred to the capacity of a transmission system, expressed as the amount of digital data that could be moved through it per unit time. Prefixed with "high-" or "low-," bandwidth now also describes a net-based resource in terms of the demand its content or functionality places on the transmission system: "high-bandwidth" applications like real-time video conferencing are data-intensive. Low-bandwidth" content like plain text puts less strain on the transmission capacity of a network connection.
The amount of information that can be transmitted through a communication channel at one time.
Put simply, bandwidth is the amount of data that can move down a channel in a given time; therefore, bandwidth is a measurement of transmission speed. We measure the bandwidth of Road Runner Business Class service in kilobits-per-second and megabits-per-second, often abbreviated Kbits/sec and Mbits/sec, or even Kbs and Mbs. Road Runner Business Class offers fantastic bandwidth options to our clients. Choose from a variety of packages to tailor your service to the amount of bandwidth you need.
The amount of data that can flow through a channel. The greater the bandwidth, the more data that can travel at one time.
Measure of capacity. Larger bandwidth allows more connection of information in a given period of time.
The classic use of the word "bandwidth" means "width of the band," the "width of the signal" or the "amount of spectrum occupied." This is not the same as the rate of transmission. While it is generally true that the faster the rate–the wider the spectrum requirement or "bandwidth," there are some good examples of exceptions. One of these being the sending of four FLEX(tm) phases in parallel through one radio channel, and the other being the ever-increasing MODEM speeds through plain old telephone lines. The voice bandwidth of a standard (unconditioned) telephone line has not changed over many years. A few years ago, 300 BPS was the fastest a MODEM could operate over a standard telephone line. Today, most Modems operate at 28,800 BPS and many at higher speeds (30 to 50K BPS). The voice bandwidth of the telephone line has not changed but the speed of the data transmitted over it has increased dramatically. This is accomplished with special modulation techniques that essentially send the serial data information in separate parallel paths to increase the overall speed or throughput–but not the bandwidth.
This is a term dictating how fast you can send and receive data using your connection. A standard analogy is to imagine your Internet connection is a pipe, the wider the pipe, the faster the information will pass through. Contention ratios are important when evaluating bandwidth.
The amount of data that a line or channel can carry in a given amount of time. Digital bandwidth is measured in bps.
A specification describing the highest and lowest frequencies an amplifier can handle with no loss beyond that stipulated.
Think of bandwidth like a pipe that carries water. The wider the pipe, the faster the water is delivered…the narrower the pipe, the longer you wait to fill your bucket. It's the same thing with delivering data (like the pages on your web site) to the visitors. If your web site has a lot of images (data) and the connection to the Internet is with a slow dial-up connection, then your visitor may lose interest as they wait for your site to load in their browser.
A measure of how much data (pages, images, etc.) is transferred from the web server. It is usually measured in megabytes (MB). The average web page plus graphics uses about 30kb (kilobytes) of bandwidth, so roughly 33 views of that page uses up 1MB of bandwidth. Our smallest (custom) Web Hosting plan comes with 100MB of bandwidth, enough for over 330 page views - and you can always buy more.
The amount of data that a communications system can carry.
The measure of the speed of information or data as it flows between two points along a communications pipeline. Usually measured in bits per second or bps.
The speed at which a user is connected to the Internet
The flow of data through a dataline. Increase the bandwidth and you increase the level of data flowing through the line.
Measures how fast data is transported through a circuit (bits per second).
In digital communications, a measurement expressed in bits per second (bps) of the amount of information that can flow through a channel.
Notated in Hertz (Hz). This is the diference between the highest and lowest frequencies o a transmission channel. On the Web it is the amount of data, usually measured in bit s per second, that can be sent through a given communications circuit.
The amount of data that can be electronically transmitted all at once through a communication path, such as a telephone line.
the amount of data that can pass through a given communications channel in a standard amount of time (usually per second). An indication of the capacity of the network's "pipes." Click to assess your Readiness for the Networked World
The amount of bits that can pass across a network connection (LAN, WAN, etc.)
The capacity for or measure of data that can be sent or received in a given time. For example, the bandwidth of a typewriter "maxes out" at about 100 words per minute, while a laser printer can crank out six pages per minute. In more realistic terms, an analog modem has an absolute maximum capacity of 7000 characters of text per second, while DSL allows up to 7,168,000 characters of ordinary text (including spaces) per second. The difference is one of bandwidth.
Bandwidth describes the amount of data that can be transmitted through a connection in a fixed amount of time. Bandwidth is usually measured in BPS (bits per second).
The amount of data that can travel through an Internet connection per second, typically measured in bits.
Bandwidth typically indicates the data transmission capacity of a network through a given circuit. Generally, the greater the bandwidth, the more information can be sent through a circuit during a given amount of time.
AKA: data transfer, or the volume of data transferred from a web site's server. The larger the bandwidth, the more data that can be transmitted. This quantity is the outbound traffic from your website, usually defined on a monthly basis. This means that if your web site transfers 100 KB of data every time your web site is viewed and you get 10,000 visitors a month then you've transferred only 1 GB, or 1000 MB, of data for that month. 1 Gigabyte (GB) = 1000 Megabytes (MB) , 1 Megabyte (MB) = 1000 Kilobytes (KB) , 1 Kilobyte (KB) = 1000 Bytes
The transmission capacity of a given device or network.
The lowest frequency at which the magnitude of the waveguide transfer function decreases to 3 dB (optical power) below its zero frequency value. The bandwidth will be a function of the length of the waveguide, but may not be directly proportional to the length.
The speed with which content can he delivered across a network.
In broadcasting, bandwidth is the measure, in hertz (Hz) of the spectrum between the highest frequency and the lowest. On the Net, bandwidth is used to refer to the amount of data that can fit through a network connection.
the range of frequencies to which a system will respond in the required manner
The maximum volume of data that can be sent over a communications network.
Measure of the information capacity of a transmission channel. Strictly speaking, bandwidth is the difference, expressed in hertz (Hz), between the highest and lowest frequencies of the channel. In the world of internet hosting, bandwidth usually refers to the amount of information that can be transferred to or from your site over a specified time period.
The capacity for data to be transferred through a system at a specific rate.
A measure of the capacity of the fiber to carry information.
an all-inclusive term referring to the preselected band or range of frequencies which can govern both slice select and signal sampling.
A measurement of the amount of data that can be transmitted in a fixed span of time. Also called "data transfer."
Refers to the amount of information that can be sent through a given connection over a given time. A 56k modem is said to have low bandwidth and a ADSL is said to have high bandwidth.
The capacity of a transmission channel. Bandwidth is dependent on the frequency ranges available. The 'bandwidth' or the width of a frequency band determines maximum transmission speed available to subscribers. Each radio channel has a center frequency and additional frequencies above and below this carrier frequency which is used to carry the transmitted information.
How much information or "traffic" that can be exchanged between computers. In general, the more available bandwidth, the more people can be viewing your site at one time and the faster the site will load for them. If you have a graphic-intensive site that gets thousands of hits a day, you will need a plan with more bandwidth than if you have a small site, primarily for family and friends.
Usually refers to the maximum data throughput on a network connection. Measured in bits per second: Kbps, Mbps, Gbps, or Tbps. Could also refer to the width of spectrum available on a medium.
This is the range of signal frequencies that can be carried on a communications channel. While this indicates the channels information carrying capacity, it is more commonly expressed in bits per second (bps), or mega (million) bits per second (Mbps). When one says bandwidth increases, one means that network capacity and perhaps speed has gone up.
The greater the bandwidth the more information that can be transferred at one time. It's a bit like your garden hose – the fatter the hose the more water can flow through it at any one time. The term bandwidth also broadly includes throughput, meaning the amount of information sent.
The amount of data that you are allowed to transfer (usually monthly). Data = images, text, audio files, video files and everything else that a server transfers to a user's web browser. Approximately 40,000 page views = 1 GB of data transfer. Web sites that get a lot of visitors (and page views) need larger amounts of data transfer (or bandwidth).
The information carrying capacity of a channel. Expressed in hertz (e.g., kHz or MHz) for analog transmission media and in bits per second (e.g., kbps, Mbps) for digital transmission media. The width of a channel's passband (e.g., the bandwidth of a channel with a 300 to 3400 Hz passband is 3100 Hz, or 3.1 kHz).
The capacity of a network or data connection. Bandwidth is a major concern on the Internet as more audio and video are transmitted and take up more bandwidth, slowing transmissions.
The amount of digital information that can be sent or received simultaneously across a connection. More bandwidth means faster data transfer; when more information is attempted to be pushed across a line than there is bandwidth available, it slows all of the data down as it waits to gain access to the communications link. Common measures of bandwidth include Mbps (megabits per second) and Kbps (kilobits per second). A T-1 line provides (theoretically; actual throughput is slightly less under normal use) 1.544 Mbps of bandwidth, or 1.5 million bits per second. A T-3 line provides 44.736 Mbps of bandwidth, and an OC-3 circuit provides 155 Mbps (again, both are theoretical allowances). Demand for greater bandwidth, just like processor speeds, will continue to increase as people demand faster Internet and data access.
A term used to describe the amount of access one has to a given Internet resource by analogy to radio bandwidths. The more bandwidth available the faster a given amount of data can be transferred, and hence the greater the amount of data that can be transferred. As more graphics, audio and video arrive on the Net, so the demand for bandwidth increases. Consequently one of the few cardinal sins most frowned upon by the Internet community is to waste bandwidth, a resource scarcer than water in some parts. Private individuals on modem lines have the least available bandwidth. This means they are least likely to download graphics, large software packages etc. Universities often have the greatest access to bandwidth, and may think nothing of video lecturing over the Internet. When designing a web page, it is vital to bear in mind the bandwidth that your desired audience is likely to have. If you make your content too large, they are likely to literally switch off. This is one reason you will often see a text alternative offered for a site.
Your upload and download capacity. On a 56k Modem this is generally about 4 KBps Upload and 7 KBps Download.
Bandwidth is the amount of data that can be transmitted in a time period over a communications channel, often expressed in kilobits per second. For example, each time a web page, image, video, etc. is loaded, bandwidth is generated. All of KnownHost's hosting packages come equipped with more then enough bandwidth to keep your system running at full capacity.
Measure of a network data transfering power (capacity by time unit).
The range of frequencies over which signal amplitude remains constant as it is passed through a system. The higher (wider) the bandwidth, the greater the information.
When dealing with frequencies it is the area between the boundary of lower and upper limits of specific frequencies. Example: a bandwidth of 800 Mhz (Megahertz) would be 800 Mhz wide starting from any point (100 Mhz) and ending 800 Mhz above (900 Mhz). Specific to television technology bandwidth can be related to system resolution or lines of resolution. Where 1 Mhz of bandwidth is equal to 100 lines of resolution.
Speed of net connection, the amount of data that can be transmitted, in kilobytes per second
The size of a network connection - it's maximum carrying capacity for data traffic.
Measures the data-carrying capacity of a communications channel. Usually measured in bits per second(bps).
Is the amount of information that can be transferred in a given time. For a video signal, the higher the bandwidth, the better the picture quality.
The number of bits transferred per second per pin by a DRAM component. This is usually stated in Megabits or Gigabits per second per pin (Mb/s/p or Gb/s/p).
The throughput of the networking equipment, often expressed as the size of the data pipe (ISDN, T1, OC3). Also, bandwidth can refer to a cap of allowed bandwidth or transfer that takes place within a month.
The capacity of a networked connection, i.e., the more bandwidth you have, the more data you can send along the networked wires. Bandwidth is particularly important for Internet connections, since greater bandwidth also means faster downloads.
The amount of data allowed for transfer to and from your website. A certain amount is set each month.
The upper usable frequency range of operation for an encoder. Usually determined by the encoder resolution, type of output driver, the type and impedance of the cable, and the type of output receiver.
In networking, bandwidth usually refers to the data transfer rate between two points or across a particular connection. Bandwidth is expressed in units of data transmitted per unit of time. Network bandwidth is typically expressed in a multiple of bits per second, ( bps). A standard V.90 dial-up modem has a theoretical maximum download bandwidth of 57,600 bps. A standard wired network link (10BaseT) has a half-duplex bandwidth of 10 million bits per second, or 10 Mbps. Wireless 802.11b shares 11 Mbps of bandwidth per access point. 802.11a and 802.11g each provide 54 Mbps of shared bandwidth per access point. Back
A measure of the information-carrying capacity of a communications channel; often expressed as a frequency range (such as megahertz) for an analog channel or as a data rate (such as megabits per second) for a digital channel.
Any spectrum of frequencies used for discussion. Audio bandwidth is 20hz to 20,000Hz. Subwoofer bandwidth might be 15Hz to 45Hz etc.
The amount of data (in bits) that can be transmitted per second over a particular network connection, or through a system.
A measure of analog transmission capacity. The amount of space on the electromagnetic spectrum required for a signal or service. For example, an American television signal uses six megahertz of bandwidth.
The capacity of a communication channel to carry information. The greater the bandwidth, the faster the information can move.
The amount of information that can be transmitted over a network connection. Data travel over bandwidth in bits-per-second. A full page of English text is about 16,000 bits. A fast modem can move about 28,800 bits per second.
A term often associated with networks or computer buses. The bandwidth is the throughput capacity. The bandwidth of the bus is the maximum rate at which data can be transferred across the bus.
The frequency range, usually limited by –3 dB.
Bandwidth refers to how much data is transmitted over a given period of time. For digital devices, bandwidth is measured in bits per second ( bps). For analog devices, bandwidth is measured in Hertz (Hz).
(1) The range of signal frequencies that can be carried on a communications channel. The capacity of a channel is measured in cycles per second, or hertz (Hz), between the highest and lowest frequencies. (2) Commonly, the carrying capacity of a digital translation facility, measured in bits per second (bps).
The quantity of information that can be sent through a connection, usually measured in bits per second (bps). The capacity to receive sound and graphics improves with bandwidth expansion. Broad band allows the delivery of video and voice transmission. The technology associated with broadband, ADSL, is now purported to be 40 times faster than a standard modem.
It is a measure of the significant spectral content.
The transmission capacity of the lines that carry the Internet's electronic traffic. Bandwidth is usually measured in bits-per-second.
The amount of data that can be sent to your computer over a short time, usually expressed as kilobits per second (Kbps). The higher the bandwidth, the faster you receive data—very much like using a larger garden hose to get more water faster. Sometimes this is shortened to "band" as in the "16-band bar-graph Equalizer". In this case, the range of sound that is measurable is broken into equal portions, or bands, of sound to be displayed.
Measure of the traffic on a site. Bandwidth is expressed as the amount of data transferred in a specified unit of time.
The difference between the highest and lowest frequencies in a band. In common usage, bandwidth refers to circuit capacity; when people say they need more bandwidth, they need a higher transmission speed. Example is 128Kbps is a common bandwidth for an ISDN circuit.
A measure of capacity and speed of the links between computing devices. Measured in kilobits per second (Kbps), megabits per second (Mbps), or gigabits per second (Gbps).
The rate at which data travels through a network connection. The higher the bandwidth, generally speaking, the faster the transmission.
The amount of network traffic to your web site you are allotted with your web hosting account
The transmission capacity of the lines that carry the Internetâ€(tm)s electronic traffic. Historically, it has imposed severe limitations on the Internetâ€(tm)s ability to deliver all that we demand that it deliver, but using Cox High Speed Internet eliminates many of your bandwidth problems.
The amount of data transmitted over a given internet connection within a timeframe.
Bandwidth is the amount of data that is transfered to and from your account each month. This includes accessing web pages, uploading and downloading files, sending and receiving email, etc. You can add extra bandwidth in your Customer Manager.
The rate at which data passes through a data connection (often a telephone line). The greater the bandwidth, the faster the flow of data. And the greater the bandwidth, often the more expensive the connection (such as broadband).
The amount of transmission capacity that is available on a network at any point in time. Available bandwidth is dependent on factors such as the rate of data transmission speed between networked devices and the type of device used to connect PCs to a network.
A measure of the speed of a connection. HIgher numbers mean faster links.
The amount of frequency spectrum, in hertz, utilized by a filter or channel. Not to be confused with data bandwidth.
The measurement of data that is transfered between two computers when a user views a website. Web host typically allow only a certain amout of bandwith, breaking the monthly bandwidth limit usually results in surcharges or the temporary shut down of the website.
You'll be hearing a lot about bandwidth in the future. It refers to the capacity of the data conduit. In the future, higher bandwidth will allow pages to download faster; in the meantime, low bandwidth comes with the territory. See guidelines for reducing download time to make the most of low bandwidth. See also 4.1.1Getting the right host.
A measure of the amount of information that can be transmitted via a given transmission line in a given period of time. Usually measured in bits per second.
The range of frequencies a device or circuit can handle.
Bandwidth is the measure of usable data that can be passed over a circuit. Bandwidth levels range less than a DS-1 (1.544 megabits/sec transfer rate, i.e. 1.544 megabytes/8 seconds) to DS-3 (45 megabits/sec transfer rate) to OC-3 and higher levels.
Your Internet connection's capacity to transfer data.
This term describes data-carrying capacity--in other words, how much (and how fast) data flows on a given transmission path. It can apply to network connections, system buses, or any "pipe" through which data pours. Bandwidth is commonly measured in bits or bytes per second. Low-bandwidth (dial-up modem) connections include rates of 56Kbps, while high-bandwidth (broadband) connections deliver more information at a much faster speed--making full-screen, full-motion video possible, for example. Bluetooth - Bluetooth is a wireless computing and telecommunications specification that defines how mobile personal computing devices work with each other and with regular computer and phone systems within a close range. It uses the 2.4GHz band at 720Kbps within a 30-foot range. This technology is used with PANs as opposed to LANs.
The amount of data that can travel through a network circuit, usually measure in kilobytes or megabytes per second.
Maximum transfer rate of a channel for data transmission. Usually used with network connections.
The amount of data that can be sent over a given circuit. See also buffer bandwidth.
In monitor terms it is the amount of pixels that can be displayed per second
Bandwidth refers to the amount of data that can be transferred via a given transmission path every second. It is measured in bits per second (bps) 1000 bits per second (Kbps) or 1,000,000 bits per second (Mbps).
Bandwidth is the amount of data transfer used by your site. Bandwidth is measure on a monthly basis and our hosting plans include a set amount per month included in the cost of the plan. Busy sites may go over the alloted bandwidth and will require and upgrade to another plan or additional bandwidth fees.
determines how much stuff you can cram into a communications channel - whether that's a phone line, private circuit, satellite link, microwave or a cable network. Usually measured in bits-per-second. A full page of English text is about 16,000 bits. A fast modem can move about 30,000 bits in one second. Full-motion, full-screen video requires 10 million bits per second. In big files that go over the internet, the bits are often squeezed together (compressed or zipped up) so that they use less bandwidth and move faster.
The amount of information or data that can be sent through a given communications circuit.
The range of frequencies occupied by a signal; the information-carrying capacity of a communications channel.
A measure of the information capacity in the frequency domain. The greater the bandwidth, the more information it can carry. For example, television signals require a bandwidth of 3 million hertz, while telephone conversation needs only 3,000 hertz.
An indication of how fast information is transferred across a computer network. A low bandwidth application is one which transmits a relatively small amount of data.
The range of frequencies a monitor can accept without degrading the video signal. It is measured in millions of cycles per second, or megahertz (MHz). Bandwidth plays an important part in determining the overall resolution of the monitor.
A parameter that defines the rate at which data flows.
Denotes the width of the frequency band used to transmit data. The broader the bandwidth, the faster the connection.
The amount of data that can be transmitted over a circuit or network measured in bits per second.
This term usually describes information-carrying capacity. It can apply to telephone or network wiring as well as system buses, radio frequency signals, and monitors.
The transmission capacity of an electronic line such as a communications network, computer bus or computer channel. It is expressed in bits per second, bytes per second or in Hertz (cycles per second).
The capacity for information transfer through a connection. The higher the bandwidth the larger the capacity.
The measure of capacity of a communications channel. Digital channels measure this in bits per second, while analog telephone lines measure this capacity in hertz (the difference between the highest and lowest frequency in the channel)
Bandwidth is the rate of transfer of data i.e. how much data can be transferred in a given time period over a communications channel and is usually expressed as kbps (Kilo Bits Per Second). However, there is a lot of confusion between bandwidth and total data transfer because the web hosting industry uses the terms interchangeably. Thus when your web hosting company says that you have 2 GB (Giga Byte) per month of bandwidth what they are actually saying is that your total data transfer allowance per month is 2 GB.
The wavelength or frequency range to which a receiver responds. Bandwidths can be described as narrow or wide, according to their range.
A measure for the speed (amount of data) you can send through an Internet connection. The more bandwidth, the faster the connection.
This term describes the amount of data that can travel across telephone or network wiring. The larger the bandwidth the more information can be transferred over that network at one time. The term bandwidth also broadly includes throughput, meaning the amount of data sent. For reference look at the definitions for POTS, ISDN, T-1, and T-3.
in reference to an equalizer is the number of frequencies that are boosted or cut above and below a selected center frequency.
The capacity of a network or transmission system. There are different measurements of bandwidth depending upon the specific transmission system.
The amount of data that can be transferred over a connection at any one time. Broadband connections range typically from 256kbps to 3Mbps or more.
Also known as 'capacity'. In simple terms, how much information or traffic can be carried on the telecoms infrastructure in a given amount of time. The simple rule is that the greater the bandwidth, the easier it is to use the Internet. For example, with low bandwidth (such as a telephone dial-up connection) transferring the contents of a music CD over the Internet is difficult. With higher bandwidth (such as broadband), it is entirely feasible.
The amount of content that can be sent through your internet connection.
the amount and rate of data that can be processed or transmitted by a device. A dial-up modem, for example, has very little bandwidth and cannot download video files from the Internet as quickly as a cable modem. Some servers restrict the amount of daily bandwidth usage, so some videos may download more slowly or might be temporarily unavailable during times of higher traffic to those websites.
The range of frequencies a transmission line or channel can carry: the higher the frequency the higher the bandwidth and the greater the information carrying capacity of a channel. Bandwidth is most accurately expressed in cycles per second, or hertz (Hz), which measures the amount of information that can flow through a channel. But, it's also common to use bits or bytes per second instead.
A measure of the amount of information - and hence its transfer speed - which can be carried by a signal. In the digital domain it refers to the data rate of the system, e.g. 45 MBit/sec.
The quantity of data or amount of information (expressed in bytes per second or bps) that can be transmitted in a certain length of connection time.
A measure of network resources used for transmitting and receiving data. Measured in kbits/sec. Can be thought of as the size of a data "pipe".
The capacity of a communications channel. Analog devices are measured in Hertz, which are cycles per second. Digital devices are measured in bits per second-BPS. The bigger the band, the faster the connecting speed.
The amount of information or data a circuit can carry from a Web site to your computer.
The amount of data that moves through a network connection
The range of frequencies that move along a communications link, such as a telephone line or cable TV wire. The higher the bandwidth, the more information - whether voice, video or data - that can travel to your computer.
Frequency at which the magnitude of the transfer function of an optical fiber has fallen to half of the value that it had at 'zero' frequency; i.e. the attenuation of the light signal has risen by 3 dB.
the amount of data a network can transport in a certain period of time; the capacity for the rate of transfer, which is usually expressed in bits per second
the information carrying capacity of a network connection measured in bits per second
A measure of the maximum frequency by which a signal be modulated. It is a measure of information-carrying capacity; the greater the bandwidth, the greater the information carrying capacity.
in network terms, this is a measure of the amount of data that a connection can carry.
Refers to the maximum amount of data that can be transferred through a communication channel in a given time. It is usually measured in bits per second for digital communications.
Data transmission rate expressed through the range of signal frequencies that an audio, video, or computer transmitter can encode or decode (read).
Bandwidth is the term used to describe information transfer capacity. For example your modem is capable of carrying between 28.8Kbps and 33.6Kbps (bps = bits per/second). Different Internet applications use different amounts of bandwidth.
The term used to describe the amount of information that can be transmitted over a given connection. Usually given in bits-per-second or megabits-per-second. Also occasionally given in bytes or megabytes-per-second. Differentiating the two is very simple: bits-per-second is abreviated as bps, whereas bytes-per-second is shown as Bps (first letter is uppercase). The two terms are not interchangeable, though many Internet Service Providers ( ISPs) would have consumers think otherwise. File sizes on your hard drive are displayed to you as kilobytes or megabytes, but ISPs choose to display their connection speeds in kilobits (kbps) or megabits (mbps). To translate an advertised connection speed to something closer to what you will actually be downloading at, divide the advertised speed by 8 (there are 8 bits in a 1 byte).
The amount of information (webpages, text, graphics, video, sound, etc) that is downloaded through a connection. Datex manages a customer's website based on the amount of data transfer used per month and the hard disk space used.
This id the size of the "data pipeline" between the Internet and your computer. The greater the bandwidth, the faster the connection and the more information can flow at once.
The transmission capacity of a given facility, in terms of how much data the facility can transmit in a fixed amount of time, measured in bits per second.
The difference between the upper and lower frequency limits of a communications channel. A higher bandwidth makes faster data transmission possible. Also loosely used to describe the capacity of a network.
Relating to an Internet transmission channel, it is technically the difference, in Hertz (Hz), between the highest and lowest frequencies handled. However, as typically used, it is the speed, eg in Kb/s or Mb/s, at which data can be transmitted.
A measure of how much information a site can exchange with the Internet. Usually measured in bits-per-second.
Rate of transfer of data to, from, or via an Internet server, router, or equivalent device
When used in reference to a power supply, bandwidth means the difference between the lowest and highest frequency and is measured in hertz. read more...
The quantity of data that can be passed along a network channel.
A measure of communication or data-carrying capacity, typically measured in either "megabits per second" (Mb/s) or "megabytes per second" (MB/s, where 1 MB/s = 8 Mb/s). Communication networks are often rated in terms of bandwidth and latency. Some typical bandwidths: Ethernet has a theoretical peak of 10 Mb/s, and the CRAY T3D computer's interprocessor comm's network has a peak of 300 MB/s.
size and capacity of a line (Optical fibre, copper wire, etc) i.e. amount of information which can go through that line in a given time
Gamut of frequencies used.
The main thing you buy from your ISP. If you use the analogy of a water system, the bandwidth is the limit on how much water comes out of the pipe when you open the faucet. You connection can be slow either because your bandwidth pipe isn't big enough at some place in the system, or because there are two many people sharing the same "pipe".
the amount of information transmitted over a particular network.
The term used to identify a measurement of capacity. Analog capacity is measured in hertz while digital capacity is measured by bits per second (bps). This measurement gives you a indication of the speed capabilities of your network or broadband connection.
The range of frequencies over which transmission/reception can effectively take place.
A technical term that describes the amount of data a communication channel can handle at any one time.
The size of the "data pipeline" between your computer and the Internet. The higher the bandwidth (the wider the "pipe"), the more information can flow at once and the "faster" your Internet connection.
Bandwidth is one of those simple ideas that can get complex quickly. Simply put: it is the range of frequency within which a specific device functions. If you can pack more cycles per unit of time (say, a second), you have a higher frequency. That means you have the potential to encode more information per second. Meanwhile, each frequency has the potential to be its own circuit or channel (think car radios and AM channels). So the bigger the bandwidth, the more frequencies and, potentially, the more information transmitted.
Term used to refer to the amount of data throughput allowed by a network or required by an application.
In the context of digital content transmission, bandwidth refers to data speed, usually measured in bits per second (bps). "Bandwidth" is often informally used to convey a transmission system's overall capacity.
Expresses the difference between the upper and lower limiting frequencies of a frequency band in number of cycles per second (Hertz).
The width of the operating or transmission channel of a system. The difference expressed in Hertz (between the highest and lowest frequencies of a band).
Size of the Data pipeline. The fatter the bandwidth, the faster data can flow.
The amount of data a connection is capable of moving. Bandwidth is generally measured in bits per second. A T1 line can move 1.5 million bits of data per second and is referred to as having "1.5 megabits" of bandwidth.
The measure of the capacity of a telecommunications line to carry data.
The term bandwidth is loosely used in networking terminology to describe the rate at which a network can transfer data. Standard Ethernet operates at 10 Mbps. Fast Ethernet operates at 100 Mbps.
The range of frequencies that can be transmitted on a communication channel without exceeding loss or distortion limits. Bandwidth indicates the information-carrying capacity of a channel.
The width measure of a signal or signal-carrying channel from the lowest to the highest frequency (or bit rate). For analog signals, the width is in the frequency domain, expressed in Hz. For digital signals, the width is in the time domain, expressed in bits per second. In semiconductor devices, the bandwidth is the range of frequency (or bit rate) in which the performance characteristics are within specified limits.
Quantity of data that can be sent within a given time within a communications medium. The greater the bandwidth the more information that can be sent.
A measure of the rate at which digital bits can be transported from one place to another; also: frequency span over which useful signals can be transmitted.
Amount of space needed by a signal (can be in the electromagnetic spectrum or in a cable).
The amount of stretch in a network connection -- the amount of data that can be transferred at any one time.
Generally how much data can be transferred in a given time period. Bandwidth is most often measured in bits per second.
Is the amount of information which can be transferred by the device.
The measurement of the speed of data transfer between 2 points. Dial up 56Kb modems transfer approximately 5Kb per second. 1Mb broadband connections are around 130Kb per second. Internal office networks are 100 times faster than 1Mb broadband connections.
A measure of total amount of data transferred over a period of time, often used to measure how busy a website is. A webhost will usually base its charges on the bandwidth a website uses, ie how much data per month is requested from it.
The measure of data transfer to users of the server in megabytes (MB)
Defines the number of bits that can be transferred between local and remote hosts on the Internet. For modem users, bandwidth is usually limited to 56 Kbit/sec, but depending on various factors such as network congestion, it may fluctuate well between 1Kbit/s and 50 Kbit/s. For higher speed connections such as cable modem or DSL, bandwidth may easily go beyond 1 Mbit (1024 Kbit/sec).
The size (In hertz) of the frequency range that a signal transmission occupies. Typical narrow band signals occupy a 25Khz bandwidth. Spread Spectrum signals can occupy up to 26Mhz in the 902-928Mhz band.
Bandwidth is a number which represents how much material your web site is transferring. When you go to a web site and look at a picture or read text, that information is transferred to your machine.
The numerical difference between the upper and lower -3 dB points of a band of audio frequencies. Used to calculate the Q (q.v.) of a filter.
The difference between the highest and lowest frequencies used for a communication channel. Generally, more bandwidth means greater transmission capacity.
effective frequency range of a resonator.
amount of data a communications link can transmit in a given period of time
Bandwidth measures how fast data can be transferred between, for instance, a web server and your customers` computers. Bandwidth is an important consideration in selecting a web hosting service.
The physical characteristic of a telecommunications system that determines the speed at which information can be transferred. In digital systems it is measured in binary bits per second (bps) or bytes per second (Bps). A byte usually contains eight bits.
The amount of data that can be transmitted in a fixed amount of time. On computer networks, higher bandwidth indicates faster data transfer. Network bandwidth is expressed in bits per second (bps). In the Windows Media Services environment, Windows Media Administrator can specify bandwidth constraints for a variety of functions, including maximum aggregate bandwidth unicast from a server, maximum bandwidth for a single unicast stream from a server, and continuous bandwidth used by a multicast file transfer from a server.
Another name for speed of data transmission over the Internet, viz., 54 Kbps (Kilobits per second), 2 MBps (Megabytes per second), etc.
the amount of data that can be transmitted over a certain period, often expressed as a rate per second, for example, "kilobits per second"; Typically used to refer to the speed of transmission over phone lines, networks, or dedicated circuits
The area of frequency spectrum between the two 3dB points of a bandpass filter.
The amount of data that can pass through a digital device... ( more)
a measure of network carrying ability or an activity's demand upon network carrying ability
Commonly used to mean the capacity of a communication channel to pass data through the channel in a given amount of time. Usually expressed in bits per second.
A measurement of a transmission path's capacity to carry data. It tells how much data can be transmitted and how fast.
Bandwidth refers to the capacity of a connection to transmit data. It is expressed as data speed in bits per second (bps) or thousands of bits per second (Kbps). If you think of the communications path as a pipe, then bandwidth represents the width of the pipe that determines how much data can flow through it at once. Broadband streaming video can take up different amounts of bandwidth depending on how it is compressed. Most home broadband users have about 500Kbps of bandwidth available to them from their provider, so most broadband video on the web is compressed at a bit rate of around 340Kbps, to cater for this type of viewer.
the width of a communications channel. In analog communications, bandwidth is typically measured in Hertz (Hz)—cycles per second. In digital communications, bandwidth is typically measured in bits per second (bps).
In digital systems, the bandwidth of the system is the speed at which data is transmitted over the system, measured in bits per second (bps).
Also known as "Data Transfer Rate", or the speed at which data travels through the network.
The amount of data hat cable can carry from computer to computer. Category 5 cable, which is the state of the art in high-bandwidth cable, carries data at rates of up to 100 megabits per second. You may have seen a video clip played from a CD-ROM. Video data takes up more room, or bandwidth, as it travels over cable than other kinds of data. To play the video clip you saw, the computer needed to send data from the CD-ROM to the screen at 150 to 600 kilobytes per second, or only a fraction of the rate that data can travel over Category 5 cable. So, for instance, if there were only high-bandwidth cable between California schools and schools in Japan - and no low-bandwidth bottlenecks - a student in a schoolroom in Chattanooga could see live video of a pen-pal in Osaka.
Refers to the capacity of an internet connection in terms of amount of data that can be transferred in a defined period of time. For example, the raw bandwidth of some cable internet connections if 1.5 Mbps (megabits per second). Used in a sentence: "NewsBin will eat all your available bandwidth for breakfast and will beg you for more."
Maximum information carrying capacity of a channel.
The amount of data that can be transmitted in a fixed period of time, typically measured in bps.
The speed of data transmission depends on the available bandwidth of the transmission channel. Narrow band channels provide data transfer rates of 100 kbit/s whereas broadband channels allow transfer of 1 Mbit/s.
The frequency range allocated to any communication circuit.
The difference between the highest and lowest frequencies to which a receiver is sensitive.
The speed at which data is transmitted along a communication link.
The range of frequencies that make up a more complex signal.
The relative range of frequencies that can be passed through a transmission medium without distortion, the greater the bandwidth, the higher the carrying capacity of the transmission circuit. Bandwidth, usually measured in Hertz, is assessed as the number of bits that can be transferred per second.
How many bits are transferred between the server and its visitors. Taking up too much bandwidth may drive visitors away or force the host to charge more to support the web site.
The amount of data that can be sent down a transmission line, measured in bps, bits per second, for digital devices and in Hertz (Hz), cycles per second, for analog devices. In network connections, high bandwidth means the ability to quickly send and receive large amounts of data. Inside a computer, a fast disk drive requires a bus with high enough bandwidth to relay all the data at that drive's speed capability.
The capacity of a system to process information. Measured in cycles per second, or hertz (Hz) - also see megahertz.
the information-carrying capability of a digital communications network.
Bandwidth is the maximum amount of data that can travel a section of communication in a given time, usually measured in seconds. Think of a water pipe, then bandwidth represents the cross sectional area of the pipe that determines how much water can flow through it. A 56K modem can carry maximum 56 KB of information per second. In reality the actual data transfer rate depends on modem (also condition, temperature of the modem itself) as well as line (phone line) capacity, compuer specification and other situations.
A term used to describe how fast information is sent from one computer to another. Not to be confused with Data Transfer which is a measure of quantity.
The measure of how much information can travel down a connection, a cable or a modem. Cables may be segmented For modems, 2400 bits per second is slow, 14,400 is OK, 28,800 what to aim for, anything else is boasting. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression.
The amount of data a network or connection can move in a set time. For digital channels, bandwidth is usually measured in bits per second (bps). If you load a web page, go off to make a cup of tea and return to find it still loading, you probably have a low bandwidth connection.
A measure of the capacity of a telecommunications link: the greater the bandwidth, the more information can be communicated during any given period. A modem that works at 57,600 bps (bits per second) has twice the bandwidth of a modem that works at 28,800 bps. For example, it takes more bandwidth to download a photograph in one second than it takes to download a page of text in one second. Large sound files, computer programs, and animated videos require still more bandwidth for acceptable system performance.
The measure of the capacity of information that can be transmitted over a communications channel such as a telephone or data line.
The capacity of a data transmission cable, expressed in bits or bytes per second.
The amount of data that may pass over a connection, determined by the speed at which it will pass: 2 megabits per second (basic broadband) or 56 kilobits per second (the fastest domestic modem - narrowband).
The amount of data that can be transmitted over a network at one time. Measured in bits per second (bps).
The signal carrying capacity of a data transmission standard. Example: 10baseT ethernet offers much greater bandwidth than telephone lines.
The rate for transferring data over a computer network. Ordinarily stated in kbps (kilo bits per second).
A frequency range, expressed in Hertz (Hz), occupied by a modulated carrier wave which can be transmitted through a communication system. Bandwidth is a measure of the transmission capacity of a satellite transponder, for example. The greater the bandwidth, the more information can be transferred.
the amount of information (measured in bits per second) that can funnel through a network connection; a T3 can handle more than 30 times the information a T1 can handle, which is 50 times as fast as a 28.8 modem, which is twice as fast as a 14.4 modem; a 28.8 modem can relay about 15,000 bits a second, an average page of text is 16,000 bits.
Bandwidth is the amount of information that can flow to a certain point on the internet. ISP's usually categorize this as either T1 or T3 to indicate the amount of data that can flow to and from their servers. Bandwidth has also come to mean the amount of data that an individual web site can send in a month often measured in GB's or Thousands of MB's
amount of information that can be sent, processed, etc., in a given amount of time. For example, a double-speed CD-ROM drive has a maximum bandwidth of 300 KBps; a 28.8 modem has a theoretical bandwidth of approximately 3 KBps.
The capacity that a line/connection to the Internet can carry data per second. Expressed as bps, bandwidth affects the transmission speed of data.
Bandwidth is the rate that data can be carried from one point to another. Measured in Bps (Bytes per second) or Kbps.
The capacity to transmit data over a network such as the Internet.
In digital communications, the rate at which data is communicated (usually in bits per second).
The amount of information that can be handled by a connection or the capacity of a network. This does not refer to its speed, but the amount of data that can be sent and received.
Bandwidth is the amount of data that can be sent over a communications channel in a fixed period of time. The higher the channel's bandwidth the more information it can carry. It can be stated in bits per second (bps), kilobits per second (kbps), or megabits per second (mps). SunRocket states bandwidth in kbps and recommends at least a 120 kbps upstream and downstream for SunRocket service.
Carrying capacity of a circuit, usually measured in bits per second for digital circuits, hertz (cycles) for analog circuits.fff
This term is used to describe the amount of data that can be sent along a connection. It is usually described in bits per second. Users with low bandwidth receive data along telephone lines quite slowly.
Expressed in hertz, bandwidth is the range of frequencies that allow a data channel to be transported. It is defined as the difference between the lowest and highest frequencies transmitted. In IT, it is often confused with the transfer rate or capacity expressed in bits per second.
The range of frequencies allowed to pass through a device or system with less attenuation than other frequencies
The capacity of the telecommunications network to carry data
A measure of the frequency range of a signal. A wider range is associated with faster data transfer.
The frequency spectrum needed for an analogue signal to be transmitted by antenna or cable. A PAL or SECAM signal needs 7 Mhz (7 000 000 Hz), a telephone voice needs 4 Khz (4 000 Hz).
The amount of information that can be carried in a fixed amount of time, usually a second. For digital computer devices, the most common measure of bandwidth is in bits per second (bps) or bytes per second (Bps).
Refers to the range between the highest and lowest frequencies of a transmission. Commonly understood to mean the amount of data that can be transmitted over a network connection (i.e. 56k often refers to transmission over a 56k modem connection).
The rate of data transmission over a communication chanel.
A measure of the information-carrying capacity of a communications channel. The speed (bit rate or velocity) at which data can be transferred and presented.
The gamut of frequencies over which a device performs within specified limits.
The amount of information, or size of file, that can be sent through a network connection at one time. A connection with more bandwidth can transfer information more quickly.
The capacity of a transmission system to carry information. Generally, the same information (sound or image) requires less bandwidth if transmitted in digital form than in analogue form. Bandwidth is related to the amount of the electro-magnetic spectrum that is used or required. Television requires a much greater bandwidth than radio because there is more information to convey. Total bandwidth is ultimately limited by the electro-magnetic spectrum.
Bandwidth is the speed of your connection. Toucan offer 512kbps, 1Mb & 2Mb* *Dependent on line availability
Connections over the Internet imply data transmission. But wires can only handle a certain volume of data in a given time. The term for this is bandwidth. In general, the bandwidth required by a server is the average bandwidth usage per player, multiplied by the number of players at peak usage times.
The transmission capacity of an electronic pathway such as a communications line, computer bus or computer channel. In a digital line, it is measured in bits per second or bytes per second. In an analog channel, bandwidth is measured in Hertz (Hz, cycles per second).
For a digital network an expression of the data rate (ie capacity) of a particular data communications channel. Usually expressed in Kilo-bits-per-second.
Defines the capacity of a communications channel: the higher the bandwidth, the greater the volume of information that can be transmitted within a given time.
The term bandwidth refers to the configured speed of your ADSL line. It is analogous to the size of a water pipe. The bigger the pipe the more water that can flow. Similarly the larger the bandwidth the greater the data transfer rate.
The amount of data that can be transferred at any given time. For example, the maximum bandwidth for two ISDN lines is 128kbits per second.
The capacity of a network link for carrying data. This is usually measured in bits per second. E.g., 56 Kbps, 128 Kbps, 10 Mbps. (Kbps = kilobits per sec.; Mbps = Megabits per sec.)
The amount of information a network server can manage.
The amount of information that can travel along a particular computer connection. Most often, bandwidth is expressed in bits per second (bps). Bandwidth has also become a word that indicates a person or company's ability to handle workloads.
Refers to the amount of data that can be transmitted during a specific amount of time.
How much data can be sent over the net in a period of time.
The amount of information that can be sent, processed &c, in a given amount of time. For example, a 2x CD-ROM Drive has a maximum bandwidth of 300 Kbytes/sec, while a 28.8 modem has a theoretical bandwidth of approximately 3 Kbytes/sec.
the amount of data which can be transferred in a given period of time; Internet connection speeds are rated in "bits per second" and vary by connection type: dial-up modem access is usually rated at 56Kbps (or slower) ISDN at 128Kbps cable or DSL access can be 256Kbps to 3Mbps
The speed that information can travel, measured in kilobits per second (kbps). Some servers will have better bandwidth than others, allowing quicker access and more users at a time. Large files consume lots of bandwidth as they download. Think of it as a pipe - only a certain amount of information can fit through at a time.
Technically, bandwidth refers to the speed of data transmission (measured in bits/kilobits per second - bps/kbps) but when using the term relating to web hosting, it is the amount of data transmitted (measured in megabytes or gigabytes). CJ Website Hosting offer high bandwidth because we have keep our server load down. Beware of companies that offer unlimited bandwidth or hits - the reality is that bandwidth is not free, companies that have unlimited offers are betting that you will not use much bandwidth. They usually have fine print that allows them to cancel your account at anytime and/or charge you for excessive bandwidth (usually at extortionate costs!) Open
The range of frequencies assigned to a channel; the difference, expressed in Hertz, between the highest and the lowest frequencies of a band. In general, the higher the bandwidth, the more the data throughput.
the transmission capacity of a computer channel. Communications line or bus. It is expressed in cycles per second (Hertz), the bandwidth being the difference between the lowest and highest frequencies transmitted. The frequency is equal to or greater than the bits per second. Bandwidth is also often stated in bits or bytes per second.
Describes the capacity of a digital channel expressed in bits per second (bps). This is also referred to as the speed of the connection. A bandwidth of 64kbs is required to transmit a normal voice telephone conversation.
The amount of computer resources used by a website.
refers to the amount of data or information that your Internet connection can cope with. The more bandwidth you have, the faster you can receive data from the Internet. A simple text-only email message doesn't need much bandwidth, but audio and video clips require a lot of bandwidth.
Bandwidth is the capacity of a networked connection. The greater the bandwidth, the more data you can send along the wires. Greater bandwidth will also speed up download time.
The bandwidth of a communications connection refers to the speed at which data can be moved over it. Dial-up modem speeds reach 56Kbps or 56,000 bits per second. ADSL services begin at 256Kbps. Typical Ethernet LAN (local area network) connections are 11Mbps or 11,000,000 bit per second or greater.
The maximum transmission capacity of a communications channel at any point in time. Bandwidth, usually measured in bits per second (bps), determines the speed at which information can be sent across a network. If you compare the communications channel to a pipe, bandwidth represents the pipe width and determines how much data can flow through the pipe at any one time. The greater the bandwidth, the faster data can flow. (See bps). close
The amount of information that can be sent, processed, etc., in a given amount of time. For example, a double speed CD-ROM drive has a bandwidth of 300 KBps, a 14.4 baud modem has a bandwidth of approximately 1.4 KBps.
The amount of data that can be transferred. The greater the bandwidth, the greater the information carrying capacity of the medium.
the amount of data which is transferred to visitors of your site during a given period.
A term now used to describe the capacity or amount of traffic (data, voice or video) a certain communications medium is capable of accommodating.
Refers to how much data can be sent through a connection, usually measured in bits-per-second. The more bits-per-second, the "higher" the bandwidth.
The capacity of an electronic transmission medium to transmit data per unit of time. The higher the bandwidth, the more data can be transmitted. Typically measured in kilobits per second (Kbps) or megabits per second (Mbps). Standard telephones are low bandwidth devices (maximum bandwidth = 33.6 Kbps). Cable television uses high bandwidth (up to 140 Mbps).
(1) Measure of the information capacity of a transmission channel. (2) The difference between the highest and lowest frequencies of a band that can be passed by a transmission medium without undue distortion, such as the AM band - 535 to 1705 kilohertz. (3)Information carrying capacity of a communication channel. Analog bandwidth is the range of signal frequencies that can be transmitted by a communication channel or network. (4) A term used to indicate the amount of transmission or processing capacity possessed by a system or a specific location in a system (usually a network system).
Bandwidth (the width of a band of electromagnetic frequencies) is used to mean (1) how fast data flows on a given transmission path, such as a network, and (2), somewhat more technically, the width of the range of frequencies that an electronic signal occupies on a given transmission medium. Bandwidth is important because it is a determining factor in setting the speed that information flows around the world and into your computer.
Refers to a relative range of frequencies, that is, the difference between the highest and lowest frequencies transmitted. For example, the bandwidth of a TV channel is 6 MHz. Now used, also, to denote the information carrying capacity of a channel. See Broadband.
The range of transmission frequencies a network can use. The greater the bandwidth the more information that can be transferred over that network at one time. The term bandwidth also broadly includes throughput, meaning the amount of data sent.
The width of a communication channel. Analogue bandwidth is measured in Hertz (Hz) or cycles per second and digital bandwidth is measured in bits per second. Bandwidth should not be confused with band. For example, when a mobile device operates on the 900 MHz band, bandwidth is the space it occupies on that band. The bandwidth of a channel affects the transmission speed.
BW = Fc1 - Fc2, the range of frequencies between the lower and upper CORNER FREQUENCIES of a BAND-PASS FILTER or BAND-REJECT FILTER. Usually defined at the frequencies where the response curve passes through the -3 dB points.
For monitors, bandwidth refers to the highest signal frequency a monitorâ€(tm)s circuit can display. The higher the bandwidth, the higher the resolution and the sharper the image will be.
the physical characteristic of a telecommunications system that indicates the speed at which information can be transferred. In analogue systems, it is measured in cycles per second (Hertz) and in digital systems in binary bits per second. (Bit/s).
The capacity of a networked connection. Bandwidth determines how much data can be sent along the networked wires. Bandwidth is particularly important for Internet connections, since greater bandwidth also means faster downloads.
The term used to describe the amount of data that can be transferred over a telephone line or network connection. The greater the bandwidth, the faster the transfer of data.
This term has several definitions. First, it refers to range of viable frequencies a cable television systems may carry. It also is used as a measure of the information-carrying capacity of a communication channel. Lastly, bandwidth refers to the speed at which data can be transferred.
The capacity of a telecom line to carry signals. A greater bandwidth indicates the ability to transmit a greater amount of data over a given period of time.
The capacity of a network measured by the amount of data transmitted or received per unit time.
the amount of data sent from one server to another.
How much stuff you can send thru a connection, usually measured in bits-per-second. A full page of English Text is about 16,000 bits. A fast modem (56k modem over a dial-up connection) can move about 40,000 bits in one second, depending on the quality of the connection.
The range of frequencies used to describe the potential capacity of the device or system. The numerical value is expressed in Hz (Hertz) or Megahertz (MHz) and used for both copper and fiber.
The amount of information or data that can be transmitted in a fixed amount of time over a network connection.
The range of frequencies, expressed in Kilobits per second, that can pass over a given data transmission channel within a frame relay network. The bandwidth determines the rate at which information can be sent through a channel - the greater the bandwidth, the more information that can be sent in a given amount of time. Usually measured in bits-per-second. A full page of English text is about 16,000 bits. A 56Kbs modem can easily move 16,000 bits in less than one second.
The amount of frequency space required for an electrical signal. The general rule is: the finer the details a signal has - the wider the spectrum is. A video signals typical bandwidth is 5MHz.
Measurement of data coming in and out of the server, to your web site. Webpage with large image size, should project expected traffic before committing to any webhosting service.
A measure of the width or capacity of a communications channel. Greater bandwidth allows communication of more information in a given period of time.
How much " stuff " you can send through a connection. Usually measured in bits-per-second. A full page of English text is about 16,000 bits. A fast modem can move about 33,300 bits in one second. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression. second, depending on compression.
Bandwidth is the word that is used to define the rate at which information travels through a network connection. The information is data that is in a range of frequencies and is expressed in Kilobits per second. The bandwidth determines the rate at which information can be sent through a channel. The greater the bandwidth, the greater the amount of information that can be sent in a given amount of time. A common standard to describe the bandwidth is a full page of English text. This text is about 16,000 bits and a 56Kbs modem can easily move 16,000 bits in less than one second.
Specifies the amount of the frequency spectrum that is usable for data transfer. It identifies the maximum data rate that a signal can attain on the medium without encountering significant loss of power.
A range of frequencies available for signaling; the differences between the highest and lowest frequencies of a band are expressed in (Hz).
The amount of data a network link can handle per second. More informally, the size of a connection, and its ability to carry files and information.
The size of the "data pipeline" between your computer and the Internet. Higher bandwidths mean that more information can flow at once causing a "faster" Internet connection.
The range of frequencies present in a sound.
The amount of information that can pass through a network connection. For a digital connection it is usually measured in bits per second, represented in Kilobits Kbps), Megabits (Mbps) and Gigabits (Gbps).
(BW). The bandwidth is the difference between the minimum and the maximum frequencies that can be passed by a communications system.
The maximum I/O throughput of a system.
The effective frequency range occupied by a signal.
A frequency range, or "band" of frequencies between the limits defined by the "half power points", where the signal loss is -3dB. In audio and video, it is this band of frequencies that can pass through a device without significant loss or distortion. The wider the bandwidth, the better the quality that results, such as a sharper picture, better sound, etc. The higher the bandwidth number the better the performance. (300 MHz is better than 250 MHz.) When a signal passes through a path with more than one device (including cables) the limiting factor (bottleneck) in that path is the device with the narrowest bandwidth.
The bandwidth is the complete range of frequencies over which a circuit or electronic system is allocated to function, measured in MHz.
The difference between the highest and lowest frequencies available for network signals. The term is also used to describe the rated throughput capacity of a given network medium or protocol. In short, bandwidth is a loose term used to describe the throughput capacity (measured in Kilobits or Megabits per second) of a specific circuit.
A measure of spectrum (frequency) use or capacity. For instance, a voice transmission by telephone requires a bandwidth of about 3000 cycles per second (3KHz). A TV channel occupies a bandwidth of 6 million cycles per second (6MHz). Cable system bandwidth occupies 50 to 300 MHz on the electromagnetic spectrum.
A measure of the rate that a communications channel can transmitted information, usually measured in kilobits per second (kbps) or megabits per second (Mbps).
The numerical difference between the upper and lower frequencies of a band of electromagnetic radiation, especially an assigned range of radio frequencies.
Bandwidth in computer networking refers to the data rate supported by a network connection or interface. One most commonly expresses bandwidth in terms of bytes per second (bps).
This refers to the difference (measured in Hz), between the highest and lowest frequencies of a transmission. Most people loosely refer to bandwidth as the amount of data that can be transferred over a network connection.
This refers to the amount of data that is transmitted from server to client, and vice versa. In other words, how much stuff you can send through a connection. Usually measured in bits-per-second.
has a general meaning of how much information can be carried in a given time period over a wired or wireless communications link. Technically, bandwidth is the width of the range of frequencies that an electronic signal occupies on a given transmission medium. Any digital or analog signal has a bandwidth. In digital systems, bandwidth is expressed as bits (of data) per second (bps) or Kbps or Mbps.
The total available bit rate of a digital channel.
The difference, expressed in hertz, between the highest and the lowest frequencies of a range of frequencies. For example, analog transmission by recognizable voice telephone requires a bandwidth of about 3000 hertz (3 kHz). The bandwidth of an optical link designates the information-carrying capacity of the link and is related to the maximum bit rate that a fiber link can support.
Bandwidth is the amount of data that can be transferred over the network in a fixed amount of time. On the Net, it is usually expressed in bits per second (bps) or in higher units like Mbps (millions of bits per second). 28.8 modem can deliver 28,800 bps, a T1 line is about 1.5 Mbps.
The amount of data you can send through a channel. Usually measured in bits-per-second (bps). The greater the bandwidth, the more data transmitted over a given period of time.
The amount of data that can be sent from one computer to another through a particular connection in a certain amount of time. The more bandwidth available, the faster you are able to access information.
If you think of the Internet as the Information Superhighway, then think of bandwidth as how many lanes of traffic if can handle. Bandwidth describes how much information can be sent over a connection at one time. In the past, the Internet had more than enough bandwidth to handle all the traffic. Now, millions of people have come online. And complex information like video, audio and virtual reality is adding to the problem. More people accessing more complex information means more traffic jams on the Internet.
The amount of data that can be transferred in a certain amount of time. Factors that effect bandwidth are the frequency of operation, the number of transfers per clock, and the number of bits per transfer. Bus width does not directly effect bandwidth unless the connection is parallel and uses all of the connections per transfer.
Usually identifies the capacity or amount of data that can be sent through a given circuit; may be user-specified in a PVC.
The bandwidth of a device is usually a measure of thefrequency range or frequency band over which it meets itsoperating characteristics.
(Traffic or Data Transfer) This refers to the total amount of data that can be transmitted in a month. This usually refers to images, text, or anything else that the web server must transfer to the user's web browser. 1 GB ( gigabyte) of data is approximately 100,000 hits assuming an average of 10 kilobytes per hit. If the total size of each page view is 50 kilobytes then 1 gigabyte of data transfer would be approximately 20,000 page views.
The measurement of the rate at which information can be transferred across a network or the Internet. A wider bandwidth means more information can be transferred during a given amount of time.
The rate amount of information that can be transferred over a given amount of time. Typically referred to in Kilobytes per second (kBps), Megabits per second (mbps), Bits per second (bps) or some similar measure.
The data transfer capacity available on a given line to the internet. Typically the downstream data transfer capacity.
The amount of data that can be sent through a network connection, measured in bits per second (bps). The range of transmission frequencies a network can use, expressed as the difference between the highest and lowest frequencies of a transmission channel (in Hertz, or cycles per second). High bandwidth allows fast transmission or high-volume transmission.
Bandwidth is the amount of information a connection to the Internet can carry. On average, typical telephone lines can carry 5K of information per second while broadband connections may range from 5,000K to 10,000K. Fiber-optic connections provide even greater bandwidth, but generally arenâ€(tm)t used by typical users.
The amount of information or data that can be sent over the Internet during a given period of time. Bandwidth is usually stated in bits per second (bps), kilobits per second (Kbps) or megabits per second (Mbps).
The transmission capacity of a communications channel, usually expressed in bits or bytes per second.
Refers to the size of the pipeline that carries data around the Internet. If you increase bandwidth more data can flow around at any one time.
A relative range of frequencies that can carry a signal without distortion on a transmission medium. Sometimes referred to as the "pipe."
1. A network's capacity for transferring an amount of data in a given time. 2. The amount of data that can be transferred or processed per unit of time.
The bandwidth describes how much stuff you can send through a connection. It is usually measured in bits-per-second.
The capacity and speed of a network, usually measured in bits per second. Network systems need higher bandwidth for audio or video than for e-mail or other services. Two categories of bandwidth are: broadband, which is faster and is used for complex telecommunications, and narrowband, which is the slower form and is used for voice and fax communications.
The total range of frequencies required to transmit a radio signal without undue distortion. The required bandwidth of a radio signal is determined by the amount of information in the signal being sent.
The range of signal frequencies or bit rate within which a fiber optic component, link or network will operate.
This refers to the amount of information that you can send over the internet at one time - Bits-per-Second.
The amount of data that is being pushed through (or has been pushed through) a connection. This is the speed of your connection to the Internet. For example, a 28.8 K modem means its bandwidth is 28.8 Kbps or kilobits/second. See also BPS.
The amount of information that can be transmitted in a certain amount of time. Simply put, the capacity for dealing with multiple tasks.
The complete range of frequencies over which a circuit or electronic system can function with minimal signal loss, usually measured to the point of less than 3 dB. In PAL systems the bandwidth limits the maximum visible frequency to 5.5 MHz, in NTSC to 4.2 MHz. The ITU 601 luminance channel sampling frequency of 13.5 MHz was chosen to permit faithful digital representation of the PAL and NTSC luminance bandwidths without aliasing.
The range between the lowest and highest frequencies used to transmit a signal from one site to another. Bandwidth is a term that is used in analog application but it is sometimes used interchangeably with bit rate.
refers to carrying capacity. The greater the bandwidth, the more data the bus, phone line, or other electrical path, can carry. Greater bandwidth, then, also results in greater speed.
The capacity of a telecom line to carry signals. The necessary bandwidth is the amount of spectrum required to transmit the signal without distortion or loss of information. FCC rules require suppression of the signal outside the band to prevent interference.
Potential information carrying capacity, the amount of information that can be sent over a communication channel, increases with the frequency.
Bandwidth is often loosely referred to as the amount of data which can be sent through a network connection, and is usually measured in bits per second. It actually refers to the difference, measured in Hz, between the lowest and highest frequencies of a given transmission.
A measure of how fast data can be transmitted from one point to another in bits per second.
A measure of the information carrying capacity of a communications channel; the higher the bandwidth, the greater the amount of information which can be carried. A range of frequencies available for signaling in a communication channel.
The amount of space on a communications channel.
A term used to describe the capacity, measured in kilobits or megabits per second, of a circuit. Bandwidth is expressed as the difference between the highest and lowest frequencies available for network signals.
Is referred to as the number of bits processed in a single instruction.
The data transmission capacity of a system.
The quantity of information that can be delivered over a given time period. Usually measured in bits-per-second (bps). In terms of the Internet, the higher the bandwidth, the faster a web page loads.
How much data you can send through a connection. Usually measured in kilobits per second (Kbps) or kilobytes per second (Kbps).
The volume of data that the transmission line can carry. Telephone lines have the lowest bandwidth. Fiber optics have the highest bandwidth.
In audio, the range of frequencies a device operates within. In video, the range of frequencies passed from the input to the output.
The amount of data that can be moved between to points in a given time period. For networks, bandwidth is usually expressed in bits per second (bps).
A measurement of a network's transmission capacity or how much data a network can move in a given amount of time.
1) The range of frequencies over which a tape recorder, amplifier or other audio device is useful. 2) The range of frequencies affected by an equalization setting.
Measure of the capacity of a communications channel. Used to indicate the amount of information available on a channel, and sometimes, confusingly, its speed.
A measurement of the amount of information that is transmitted over a network at a given time.
Bandwidth, in general, means amount of information that can be carried in a given time period (usually a second). More exactly, it is a range of frequencies used for transmitting picture and sound information from transmitter to your TV. Federal Communications Commission (FCC) has allocated 6 MHz for TV broadcasters for each channel.
The amount of network traffic that can go through a network/Internet connection.
The amount of data traffic a network can handle in a given period of time. High bandwidth means more data per second can be transported.
Bandwidth is the speed at which data travels across a network connection when using the Internet for example. Normally measured in KB or MB per second. The higher the number the faster the connection.
The range of frequencies assigned to a broadcast channel. A TV channel is 6 MHz wide.
Measures the speed and capacity of the communications links between computers. The higher the bandwidth, the more data can flow across the link per unit of time. Measured in Kbps, Mbps, or Gbps. 56,000 Kbps (kilobytes per second) used to be the standard. Now you hear of T1 or T3 lines (1.544 Mbps or 45 Mbps.) See also Internet speeds.
Bandwidth (the width of a band of electromagnetic frequencies) is used to mean (1) how fast data flows on a given transmission path, and (2), somewhat more technically, the width of the range of frequencies that an electronic signal occupies on a given transmission medium. Any digital or analog signal has a bandwidth.
Data travels over the Internet as a stream of electronic pulses. The volume of data that can travel in a given time over a particular path on a network (in our case the Internet) is its "bandwidth". If you imagine the flow of data as a flow of water through a pipe, the bandwidth is the size of the pipe. The bigger the pipe, the more water (or data) can flow. Text and small images can be sent quite easily on low bandwidth pipes (like phone lines) whereas sound and video files require larger amounts of bandwidth to be transmitted. The bandwidth of a particular network path is limited to the "narrowest" link in the path. Bandwidth is also used to describe people's ability to deal with information. Someone with a lot of bandwidth can deal with a lot of information at once.
At any given level of compression, the amount of information transportable over a link per unit of time. A single T-l circuit will carry up to 1,544,000 bits (or 1.544 megabits) per second.
The amount and rate of data that can be processed or transmitted by a given device. An analog modem has very little bandwidth compared to a high-speed cable modem, for instance, so the former cannot download video from the Internet nearly as quickly as the latter. See also data rate.
The amount of data transferred per second over a given path. Common types are: Theoretical bandwidth, the maximum units per second under perfect conditions Available bandwidth, units per second of useful data after subtracting protocol overhead and turnaround delays in normal traffic situations Bisection bandwidth, the maximum available bandwidth between two arbitrarily-chosen points in the system allowing for bottlenecks. See also latency.
the capacity of the telecom link-the speed data can be transferred over the net is partly a function of bandwidth.
refers to the amount of data or information you can send through a connection. Usually measured in bits-per-second (bps.) A full page of English text is about 16,000 bits. In reality a fast modem can move about 45,000 bits in one second. Multimedia, including video, would require roughly 10,000,000 bits-per-second, depending on the manner with which it was compressed for internet viewing.
The maximum amount of data that a network cable can carry, measured in bits per second (bps).
The capacity of the transmission medium stated in bits per second or as a frequency. The bandwidth of optical fiber is in the gigabit or billion bits per second range, while ethernet coaxial cable is in the megabit or million bits per second range.
The amount of data a network can carry, i.e., how much and how fast data flows on a given transmission path. It is measured by bits or bytes per second.
The range of frequencies in a signal.
The capacity to transfer data over telecommunications lines, usually measured in bits per second. The necessary bandwidth is the amount of spectrum required to transmit the signal without distortion or loss of information.
A range of frequencies used to transmit such information as picture and sound. For TV broadcasters, the FCC has allocated 6Mhz for each channel. For DTV, the maximum bit rate possible within the bandwidth is 19.4 Mbps, which is one HDTV channel. SDTV has a lower bit rate, therefore the bandwidth can accommodate more than one channel.
Amount of information transmission capacity. In analog systems it is measured in hertz, as the difference between the highest and lowest frequencies a channel can carry. In digital systems the bandwidth is measured in bits per second.
The amount of data that can be transmitted in a fixed amount of time. It determines how much data can be sent through a channel and is often expressed in Kilobits per second (Kbps).
The amount of information that can be sent and processed per unit time. This is usually measured in kilobits per second (kbs) so for example a modem has a theoretical bandwidth of 56 kbs, while the slowest form of ethernet has a maximum bandwidth of 10,000 kbs (10 megabits) - remember that there are 8 bits in a byte of information, most files are measured in bytes (kilobytes, megabytes, etc.).
The amount of data that can be transmitted in a fixed amount of time. For digital devices, it is expressed as bits per second, or bytes per second. For analog devices, it is usually expressed as cycles per second, or Hertz.
How much information you can send through a connection. Usually measured in bits-per-second. Modems speeds are the most common limit on bandwidth for the home computer. 14.4kps is 14400 bits-per-second. See Also: 56k Line , Bps , Bit , T-1
The amount of information transmitted over the Internet at a given instant. Essentially, the size of the pipe.
Used to describe the amount of data that can be sent through a circuit. The greater the bandwidth, the greater the amount of data that can travel in a given time period.
The transmission capacity of a network or computer system. For sites, this includes the amount of data your site's Web server can transfer to and receive from other servers on the network over a given period of time.
Information carrying capacity of any communication channel.
Generally speaking, bandwidth is directly proportional to the amount of data transmitted or received per unit time. In a qualitative sense, bandwidth is proportional to the complexity of the data for a given level of system performance. For example, it takes more bandwidth to download a photograph in one second than it takes to download a page of text in one second.
A term used to describe how much data you can send through a connection to the Net. The transmission capacity of a given medium, in terms of how much data the medium can transmit in a given amount of time. The greater the bandwidth, the faster the rate of data transmission. Information carrying capacity of a communication channel.
The width or capacity of a communications channel. Analog bandwidth is measured in Hertz (Hz) or cycles per second. Digital bandwidth is the amount or volume of data that may be sent through a channel, measured in bits per second, without distortion. Bandwidth should not be confused with the term band, such as a wireless phone that operates on the 800 MHz band. Bandwidth is the space it occupies on that band. The relative importance of bandwidth in wireless communications is that the size, or bandwidth, of a channel will impact transmission speed. Lots of data flowing through a narrow channel takes longer than the same amount of data flowing through a broader channel.
Generally speaking, bandwidth is directly proportional to the amount of data transmitted or received per unit time. In digital systems, bandwidth is proportional to the data speed in bits per second (bps). Thus, a modem that works at 57,600 bps has twice the bandwidth of a modem that works at 28,800 bps.
The amount of information capable of being sent through a connection. Usually measured in bits-per-second (bps). A fast connection such as a T-1 has a much higher bandwidth then a slower connection such as a 28.8 modem. See Also: 56K Line , Bps , Bit , T-1
A range of frequencies covered by a driver or network. The classic example is the human voice, which contains frequencies between 100Hz and 3000Hz, giving it a bandwidth of 2900Hz.
The total amount of information that can be transmitted over a network. The higher the bandwidth, the more data can pass over the network.
The distance between frequency limits at which a band-pass filter attenuates the signal by 3 dB. In a DSA, the measurement bandwidth is equal to [(frequency span)/(number of filters) x (window factor)]. Window factors are: 1 for uniform, 1.5 for Hanning, and 3.4 for flat top (P301) and 3.6 for flat top (P401). See flat top for more information.
The highest frequency signal component that can pass through input amplifiers and/or filters without being attenuated.
The range of frequencies that can be switched, conducted, or amplified within certain limits. Under given load conditions, bandwidth is defined by the -3dB (half-power) points.
The amount of information that can be sent through a connection. A 56K modem is 56,000 bits of data per second.
Refers to data rates when communicating over certain media such as the internet. Lower bandwidths require more time to transmit and receive data.
Bandwidth is how fast data transfers on a given transmission path. It is expresses in bits per second (bps). Web hosting businesses can provide you with summaries of bandwidth consumption.
Capacity of a transmission channel. Because capacity normally depends on the size of the available frequency range, the “bandwidth†(i.e. the width of the frequency band) is generally synonymous with the maximum transmission rate that is available to a subscriber.
A measurement in Hz that reads the difference between the highest and lowest frequencies of a transmission.
The amount of data (measured in bits per second) that can be sent through a connection.
The capacity of your internet connection to transmit and receive data. Bandwidth is usually measured in bits-per-second. Imagine your internet connection is a pipe, the bigger the pipe, the faster the information will flow. Broadband is between 10 and 40 times faster than a 56K dial up modem.
A relative range of frequencies that can carry a signal without distortion on a transmission medium. Bandwidth is typically the unit of measure for transmission speed on the Internet. YYireless1.NET offers a variety of bandwidth packages to serve the needs of both residential and corporate clients.
All traffic to your site is taken into account when calculating bandwidth. This includes the number of visitors, how many pages they viewed and also the amount of amendments you make to your web pages. Email usage and backing up your website all use bandwidth as well. Our website statistics show how much bandwidth you have used in a month. All our packages come with a generous bandwidth allowance, but should you need more than the package allows, you are able to up-grade if necessary.
A measurement of how much information can be transmitted at a given time over the Internet.
A way of measuring how much information flows through a line over a unit of time. Bandwidth can be measured in various ways such as the number of bits transmitted per second (See bit rate). The range of frequencies, expressed in Hz that can pass over a given transmission channel. The bandwidth determines the rate at which information can be transmitted through the medium.
The transmission capacity, usually measured in bits per second (see bps) of a network connection. "High bandwidth" people: hacker slang for individuals which consume large volumes of information in short periods of time.
A specified range that a mobile phone operates within a particular spectrum.
A measure of capacity for communications channels. For Internet connections, bandwidth is usually expressed in thousands of bits per second (kbps). A standard dial-up connection to the, for example, typically has a bandwidth of approximately 56k (or 56,000 bits per second).
measures the amount of information that can be transmitted over a connector. The higher the bandwidth, the more info gets transmitted.
The measurement given to how much 'traffic' is allowed to flow between your website/email accounts and the outside world. typically measured in Megabytes or Gigabytes (1,024 MB) per month. As this is the most expensive part of web hosting a it is the figure most quoted. Be wary of companies offering 'unlimited' bandwidth.
Bandwidth (the width of a band of electromagnetic frequencies) is used as a measurement for the amount of data that can be transmitted per unit of time. Any digital or analog signal has a bandwidth. For analog signals, it is given as the range of occupied frequencies and for digital signals, as data speed in bits per second (bps). Bandwidth is directly proportional to the amount of data transmitted or received per unit of time. To download a photograph in one second, a higher bandwidth is needed than to download a page of text in the same time.
The capacity of the transmission medium stated in bits per second (bps) or as a frequency (Hz). Generally, a higher bandwidth number indicates faster data-transfer capability. In communications, the difference between the highest and lowest frequencies in a given range. In computer networks, greater bandwidth indicates faster data-transfer capability and is expressed in bits per second (bps).
The width of a communications channel. The greater the bandwidth, the more data that can flow at one time.
the maximum amount of information passed over a connection in one second. It is measured either in Kbps ( kilobits per second ) or Mbps ( megabits per second)
The width of the passband of a bandpass filter. This is usually expressed as the frequency difference between lower and upper relative 3dB points.
The amount of data that can be transmitted in a fixed amount of time. The more bandwidth your connection has, the faster the data travels long it. You get an allotment of bandwidth with your hosting plan. Bandwidth is the amount of data transfer that your site is allowed usually measured per month. People often refer to this as "the pipe". The pipe can only handle so much traffic before a larger pipe is needed. If your traffic numbers keep growing then the pipe will become too small and you will to have to upgrade your hosting plan. Again, this is an area that is rarely exceeded although it is possible. If you are service streaming video or Websites with large picture content in conjunction with high traffic numbers then you could run out of pipe.
The amount of spectrum, or space, available to each communications licensee. For digital conversion, the FCC has approved 6 MHz (megahertz) of broadcast spectrum per television broadcaster. It can be used for one analog signal, or one HDTV signal and one digital, or four multicast digital signals, and/or data transmission.
Bandwidth is the amount of data that can be transferred in a given amount of time. It is usually measured in megabytes per month. Bandwidth, Data transfer and Traffic are synonyms. Some hosting providers allow "unlimited bandwidth" ("unlimited traffic", "unmetered data transfer"), it is not unlimited actually, but very big. In general, any outward-bound traffic from a Web site (with the exception of email) is considered to be data transfer. Each time a Web page, image, MIDI file, etc. is loaded, data transfer is generated.
The amount of data transferred over the Internet from your site. Small sites with prodominately text and a few images, generally are "low bandwidth." Sites that demain higher bandwidth are game, multimedia, and large shopping sites.
The capacity of a medium to transmit a signal. More informally, the "size" of a data pipe, and its capacity to carry the files and messages.
Bandwidth is the measure of how much data can be transferred over a network in a period of time.
The range of frequencies used for a transmission. The broader the bandwidth, the more information a transmission can contain.
The range of frequencies a transmission line or channel can carry: the higher the frequency the higher the bandwidth and the greater the information carrying capacity of a channel. For a digital channel this is defined in bits per second or BPS. On the less technical side bandwidth is used to measure the amount of time it takes for a Web page to fully load.
This is the amount of data that is sent through a connection. If you have a large web site, with many visitors, you will need a lot more bandwidth than someone with a one page web site that gets 2 visitors a month. Some hosting plans offer unlimited bandwidth, but most have limits or will just make you pay for extra bandwidth because if a site is clogging their servers with visitors, they want to get compensated for that.
The variation in the upper and lower limits of a band of frequencies, expressed in Hertz.
A way of measuring the speed, in bits per second, of data transmission as it travels along channels from computer to computer. The capacity of a network is also measured in terms of bandwidth.
Refers to the amount of information that's transmitted through an Internet connection and is expressed in bits per second (BPS).
Bandwidth has a general meaning of how much information can be carried in a given time period (usually a second) over a wired or wireless communications link.
The amount of information that can be sent over the internet between a website and a computer.
How many bits are transferred between the server and its visitors. The more (and bigger) graphics and downloadable files you offer on your website, the more bandwidth your site will take, increasing the time visitors must spend on your website, and the amount of resources your host must spend on you. Taking up too much bandwidth may drive visitors away or force your host to charge you more to support your website.
the spread or ‘widthâ€(tm) of frequencies of a signal travelling through a communications medium, such as a telephone wire. In digital systems, bandwidth is broken down into bits (0s and 1s) and is measured in bits per second. In analogue systems, it is measured in cycles per second, or hertz – the difference between the high and low frequencies of a transmission band. The bigger the bandwidth, the faster the rate of information transfer in that medium.
Bandwidth is the total amount of data that can be transferred at one time between CPU and storage. Generally, bandwidth refers to large block data transfers and is usually measured in MB/sec. (For instance, the total bandwidth available on any given UltraSCSI bus is 40 MB/sec.) Actual transfer rates are somewhat less than this.
a designated amount of data capacity (frequency range for analog or bits per second for digital) carried by a circuit. In terms of frequency, the range between the lowest and highest frequencies used to transmit a signal from one site to another.
The range of frequencies a transmission line or channel can carry: the greater the bandwidth, the greater the information-carrying capacity of a channel. For a digital channel this is defined in bits. For an analog channel it is dependent on the type and method of modulation used to encode the data.
The limits of frequencies that can pass through a medium, for example an optic fiber, without causing distortion. The greater the bandwidth, the greater the media's capacity for transmitting information. In regards to fiber optics, the bandwidth is defined by the capacity of the electronic transmitting equipment, not by the fiber as such. Bandwidth is measured in Hertz (analogue) and bits per second (digital).
The amount of data that can be sent over a specified Internet connection. Usually measured in bps.
Refers to the amount of information that can be transmitted over a connection, usually defined as bits per second (bps). Higher bandwidth allows more information to be transferred. A dial-up connection transmits up to 57,000 bits per second, but a T-1 almost 30 times as much, so it is considered a “faster” connection.
This is the reflection of the capacity of a given transmission channel. The greater the bandwidth the more information that can be transferred over that network at one time.
Used to express the maximum possible throughput of a data link in bits per second. A T1 line has a bandwidth of 1.544 Mbps. A 28.8k baud modem has a nominal bandwidth of 0.0288 Mbps.
Bandwidth is defined as the transmission capacity of an electronic line normally measured in bits or bytes per second (bps).
Refers to the speed of a connection between computers. The range of frequencies (size of the 'pipe') available for carrying information.
The quantity of information that can be sent over a network in a certain amount of time.
The amount of information or data that can be sent over a network connection in a given period of time. Bandwidth is usually stated in bits per second (bps), kilobits per second (kbps), or megabits per second (mps).
The amount of the electromagnetic spectrum that a given signal occupies. Usually expressed in kilohertz (thousands of hertz, or Khz) or megahertz (millions of hertz or Mhz).
Usable frequency range of the antenna, measured in MHz (1x106 cycles per second, Mega-Hertz) or GHz (1x109 cycles per second, Giga-Hertz)
Also known as data transfer, the total size of files transferred by an account in a month. Sites with a lots of graphics, downloads, or streaming audio or video and a lot of visitors will use much more data transfer than a site without these items.
this is the speed that information or data can is transferred between two computers.
The amount of data that can be transmitted in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second (bps) or bytes per second. Web hosting accounts usually offer bandwidth amounts in gigabytes per month.
The amount of data that can be transmitted within a fixed amount of time. In terms of network bandwidth, this usually translates to how fast your connection is.
Terminology used to indicate the transmission or processing capacity of a system. Bandwidth is usually defined in bits per second but also is usually described as either large or small.
Refers to the speed of a user's connection. User's with slow connection methods such as dial-up modems are considered to have low bandwidth. Users with high speed connections such as DSL, cable modems and other high speed lines are considered to have high bandwidth.
The capacity of data that a line/channel can carry per second. Digital bandwidth is measured in bps (bits per second).
The number of bits of information that can move through a communications medium in a given amount of time; the capacity of a telecommunications circuit/network to carry voice, data, and video information. Typically measured in Kbps and Mbps. Bandwidth from public networks is typically available to business and residential end-users in increments from 56Kbps to T-3.
"The capacity of a network to carry data, usually expressed in bits per second (bps). Related terms include high bandwidth, a network able to transmit intensive data streams like audio and video (and generally referring to ISDN, T1, or coaxial cable), and the buzzword unlimited bandwidth, that metaphorical absence of constraints dreamed of by all cyberphiles." - Wired Style
Term used to measure the capacity of communication channel by of the amount of data being transmitted across the channel in bits per second.
Measures the amount of information that can be transmitted over a network, normally measured in megabytes (MB) or gigabytes (GB). Simple HTML web pages do not require a large amount of bandwidth, but full-motion video does.
Bandwidth is the amount of Transfer of data allowed each month. It signifies how much data your site is transfering to clients all over the web. Depending on which plan you have, depends on how much data you can transfer. Most sites don't transfer more than 20-40 Gigabytes of data a month.
The transmission capacity of the lines that carry the Internet's electronic traffic. Historically, it's imposed severe limitations on the ability of the Internet to deliver all that we are demanding it deliver.
The amount of information that can be transmitted over communications lines at one time. The higher the bandwidth, the faster the Web page loads. Limited bandwidth is the main reason for keeping pictures small. Just as it seems we will never have fast enough computers, it feels like we will never have enough bandwidth. The amount of research and development money being thrown at this problem should yield surprising results before long.
Bandwidth: Range of frequencies in audio, video and computer signals. Higher-end applications require a wider bandwidth to process information fast enough.
The amount of traffic in a newsgroup or conference. If there's a high bandwidth, there's a lot of mail
The amount of information that you can send or receive during a given period of time through a network connection. This is usually measured in bits per second (bps).
The amount of data able to move across a network. This is affected by both connection speed and the amount of other traffic on the network.
The volume of data a line or channel can carry every second. Digital bandwidth is measured in bps (bits per second). The greater the bandwidth the quicker information can travel through it. Higher bandwidths are required for specialist applications like multimedia.
The physical amount of space taken up by a radio transmission. In data communications, Bandwidth is defined as t he maximum bit rate of a circuit
The range of frequencies of a given signal.
Bandwidth is the amount of data that can be transferred over the network in a fixed amount of time. On the Internet, it is usually expressed in bits per second (bps). A hosting server will allocate your site a fixed amount of bandwidth usage within a regular period of time.
the amount of spectrum available to each communications licensee. For digital conversion, the FCC has allocated 6 MHz (megahertz) of UHF bandwidth for each broadcaster. This amount of bandwidth can carry up to four multicast digital signals, a high-definition signal, data, or a combination of these elements.
The capacity of any single channel of the system to transmit data.
An amount of data transfer. Whenever someone accesses your website, an amount of bandwidth is used depending on the amount of data that was transferred.
The range between the highest and lowest transmittable frequencies. It equates to the transmission capacity of an electronic line and is expressed in bytes per second or Hertz (cycles per second).
The amount of data that can be carried through a given network connection.
How much "stuff" you can send through a connection. Usually measured in bitsper-second. A full page of english text is about 16,000 bits. A fast modem can move about 15,000 bits in one second. Full-motion full-screen video would require roughly 10,000,000 bitsper-second, depending on compression. 56K, T-1, T-3
the capacity of a transmission medium for transfer of information. Wide (or high) bandwidth means being able to transmit information such as a full television channel, compared with (say) a single telephone call. A digital full motion television channel requires as much bandwidth as 100 telephone conversations.
The difference in Hz between the highest and lowest frequency components of a radio frequency (RF) signal. The total radio frequency range used by a signal.
A measure of the speed that you can send data over the internet.
The bits-per-second transmission rate of a computer data communication line.
Range of frequencies in a channel. Greater the bandwidth, the greater the capacity. Voice transmission by telephone requires a bandwidth of about 3000 cycles per second (3KHz); TV channel occupies a bandwidth of 6 million cycles per second (6 MHz) in terrestrial systems; in satellite-based systems a larger bandwidth of 17.5 to 72 MHz is used to spread or dither television signals in order to prevent interference. Often used to state the capacity of analog circuits.
The data transfer rate of an electronic communications system.
The available "space" for information on the network connecting computers.
Refers to the amount of data a cable or transponder can carry.
The difference between the highest and lowest frequencies available for network signals, expressed in hertz. The term is also used to describe the rated throughput capacity of a given network media or protocol. In general, the higher the bandwith, the more the data throughput.
A measure of the capacity of a user's data line. Video looks its best on a high-bandwidth connection, like DSL, cable modems or satellite modems. Conversely, trying to download or stream video on a low-bandwidth connection like a dial-up modem can be frustrating, tedious and time-consuming.
The range of frequencies within which performance, with respect to some characteristic, falls within specific limits.
How much data can be transmitted in a time period over a communications channel, often expressed in kilobits per second (kbps).
A measure of the information-carrying capacity of an optical fiber, normalized to a unit of MHz km. This term is used to specify capacity of multi-mode fibers only. (for single-mode fibers, use dispersion). The difference between the highest and lowest frequencies in a specific range of frequencies.
The capacity of a network to transfer data. Associated with the ability to send files over the internet. The wider the bandwidth, the faster the transfer rate.
This is the "size of the pipe" or the "width of the highway". The larger the pipe or wider the highway the more bandwidth you have.. Bandwidth for most purposes is measured in bits-per-second ( BPS). The text on this web page is about 45,000 bits (or 45kbps). A fast modem can move about 28,800 bits in one second (28.8 KBPS). Which means the text on this page would have downloaded less than two seconds (assuming you have a 28.8 modem). But you probably noticed it took a little longer than two seconds to download this page. Well there is the graphics, and other factors which go beyond the scope of this definition that contribute to slowing down the loading of a web page
the capacity of the connection between your server and the internet. Often bandwidth is also used to describe the actual traffic in this connection.
The amount of data that you can transmit and/or receive for your connection to the Internet. Normally measured in bits.
The total amount of data that can be sent through a network connection in a certain time, usually measured in bits per second (bps), megabits per second (Mbps), or gigabits per second (Gbps). The bandwidth provides for a faster loading time for your web site. It is also important because most web hosts only allow a fixed amount of bandwidth each month. Going over the limit can be costly. Be sure to know your exact bandwidth limitations.
The amount of data that can pass through a transmission medium. For example, the bandwidth of a E1 line would be 2.048Mbps. Presently, most homes have 56.6Kbps bandwidth available to them over the copper telephone local loop (i.e. copper cage). In telephone or cable TV systems, the bandwidth available is dependent on the connection e.g. twisted-pair, coax cable, or fibre optics - at the client's end, and the type of equipment at the central office or head end. But in dumb networks, the bandwidth is dependent on the transmission medium alone.
A measure of system response. It is the frequency range that a control system can follow.
The amount of data that can be transferred at a given moment to or from a server. The larger the bandwidth value the higher amount of traffic your site can handle at one time.
A channel's capacity to transmit data, generally such capacity is expressed in bytes per second. The larger the bandwidth, the larger the number of users which can use the line and the faster the speed at which data transmitted by such users can be sent and received.
A measure of the amount of data (information) that can be sent through a connection; it is usually measured in bits-per-second ( bps.)
The amount of information that can be sent at a time through an Internet connection. This is often also referred to by a host ISP as how much total information can be sent in a month from your website to visitors to your website.
The amount of data that can pass along a communications channel in a given time period.
The number of dots that can be displayed in a line per second measured in MHz. Assuming the picture tube quality doesn't limit the display performance, the greater the bandwidth the better the monitor.
The amount of data passing through a connection over a given time. It is usually measured in bps (bits-per-second) or Mbps.
The range of frequencies used to transmit a signal or group of interrelated signals.
The available "opening" through which information can pass. In audio, the bandwidth of a device is the portion of the frequency spectrum that it can handle without significant degradation. In digital communications, the bandwidth is the amount of data that can be transmitted in a given period of time.
Usually measured in bits-per-second, this is basically a description of how much data can be sent through a connection in unit time. Fast modems can move about 57,000 bits in one second. ISDN lines permit faster speeds, and Broadband access provides by far the fastest.
The capacity of a network to carry data, usually expressed in bits per second (bps). Bandwidth can be referred to as "high" "unlimited" or "burstable."
The capacity of a data connection, measured in bits transmitted per second. For example, a T1 is capable of transmitting 1.544 Mbps.
the volume of data that can be transmitted simultaneously over a communication line.
Literally, the frequency width of a transmission channel in Hertz, kiloHertz, megaHertz, etc. Often used as an expression of the amount of
The amount of data that can travel through a given medium.
The amount of information (text, images, and video, sound) that can be sent through a connection. For digital devices, the bandwidth is usually expressed in bits per second (bps) or bytes per second. For analog devices, the bandwidth is expressed in cycles per second, or Hertz (Hz). A full page of text is about 16,000 bits. A fast modem can move approximately 15,000 bits in one second. Full-motion full-screen video requires about 10,000,000 bits-per-second, depending on compression.
A term used to describe the number of bits that can move across a communications system in a given amount of time.
range (usually Hertz) over which a system operates.
the transmission capacity of a computer network or other telecommunication system
The width of the passband or the difference between the highest and lowest frequencies in a given range. For example, the human voice has a passband of approximately 50Hz to -15,000Hz, which translates to a bandwidth of 14,950Hz.
A measure of the amount of data that can fit on a network - videoconferencing requires large high capacity bandwidth.
the amount of spectrum available to each communications licensee. For digital conversion, the "Grand Alliance" plan approved by the FCC calls for the allocation of 6 MHz (megahertz) of the broadcast spectrum for each television broadcaster. It can be used for one analog signal, or one HDTV signal, or four multicast digital signals, and/or data transmission.
the speed at which information can be transferred in a telecommunications system. Measured in bits per second (bit/s).
In Internet parlance, the amount of information that can be sent through a connection, usually measured in bits per second (bps), thousands of bits per second (KBPS) or mega (million) bits per second (MBPS). In television, the portion of the radio spectrum needed to transmit pictures, sound or both. U.S. TV stations use a bandwidth of six million cycles per second (6 megahertz).
Speed at which data is transferred electronically - the higher the better. A standard modem runs at 56 kilobits per second (kpbs)
a measure of data density or capacity, how much "space" a signal or bunch of data takes up on a cable or fiber-optic line; video and sound are high-bandwidth modes, text a low-bandwidth one. The same cable that can carry hundreds of text messages at once will slow down trying to carry real-time video conferencing.
the difference between the highest and lowest values in a range of two pattern characteristics, such as efficiency, frequency, or impedance. The bandwidth of significant frequencies (frequencies that conform to standards or that are required for reliable frequencies) within a spectrum is expressed in hertz.
Bandwidth/Transfer is the amount of data the server will allow your site to send in a month. Transfer is usually measured in gigabytes (GB) - billions of bytes. Once you go over your monthly limit, your web host may either shut your site down for the remainder of the month or can charge you overage.
The width of a signal on the radio spectrum. The greater the signal's bandwidth, the more frequency space it occupies, and the stronger the signal needs to be to overcome noise.
A measurement, usually in bits/second, of the amount of data that can be carried over a line or through a connection. See Baud Rate.
Measures the amount of data passing through a communication connection at one time.
the range of frequencies used for transmission of data.
The transmission capacity of a telecommunications link (e.g., 64 kbps). Up to Top
A measure of the "speed" of an Internet connection.
How fast data travels on a given transmission path. Measured as the amount of data transmitted or received per given unit of time (example: 384 Kbps - Kilo-bytes per second).
The frequency range over which the connector or device can operate without degradation of performance. Also the information carrying capacity of digital systems.
Bandwidth is the data capacity of a service, measured in thousands of bits per second (kbps) or millions of bits per second (Mbps). In videoconferencing systems a larger bandwidth is used to spread or "dither" the signal in order to prevent interference.
The carrying capacity of a wire attached from one computer to another. It is usually measures in the amount of bits carried. You know that 28.8 modem you have? It will allow a bandwidth of 28,800 bits per second.
Amount of data that can be transmitted across a communication channel over a given period of time. See also, Bits per second, Channel capacity.
the amount of 'stretch' in a network connection, ie its maximum carrying capacity for data traffic.
The difference between the high and low frequencies of a transmission band used to measure network capacity. A voice channel bandwidth is generally between 300 and 3,000 hertz limits, or 2,700 hertz wide. Analogue transmission is measured in cycles per second. Digital transmission is measured in bits of information per second.
Bandwidth is given in MHz. It describes the speed at which the data can be transmitted via a medium, e.g. a data video projector, in the form of bits per unit of time. For example, a data video projector with a bandwidth of 140 MHz can project data from workstations.
A range of frequencies in the broadcast spectrum that is occupied by a signal. (For example, a television channel may have a bandwidth of 6 MHz.) The "necessary bandwidth" is the amount of spectrum required to transmit the signal without distortion or loss of information. FCC rules require suppression of the signal outside the band to prevent interference.
Bandwidth size is important in terms of the speed of your Internet connection. It is a way of describing network capacity - a higher bandwith connection means the capacity to carry data is greater.You need lots of bandwidth to access facilities such as digital video.
The maximum capacity of a network channel. Usually expressed in bits per second (bps). Ethernet channels have bandwidths of 10, 100, or 1000 Mbps.
communications: The amount of information that can be handled by a device or system. For example, a telephone can carry audio signals (analog) in a band between 20 Hertz (cycles per second) and 4,000 Hz - just enough for intelligible speech, but not wide enough for music. This is a low-bandwidth system. On the other hand, a cable-TV system may use signals up to 400,000,000 Hz - it takes that much bandwidth to carry dozens of TV channels. In a digital system, such as the bus in your computer, bandwidth is measured in bps (bits per second). In general, the broader the bandwidth of a system, the more information it can carry, and the more expensive it is.
The amount of information that can be transmitted over communications lines at one time. The higher the bandwidth, the faster the web page loads. Limited bandwidth is the main reason for keeping graphics on web pages to as minimum file size as possible.
Maximum rate of data transfer, more information ...
The amount of data that is able to be sent over a network, measured in Kilobytes and Megabytes per second (Kbps and Mbps). Modern low bandwidth communications include dialup modems and ISDN, ranging from 56Kbps to 128Kbps, but actual downloading times are closer to 1/10th of this speed. High-speed cable modems, DSL, T-1, and Satellite are much faster, by factors of as little as 10 or even higher than 100.
Bandwidth is the amount of data that can be transferred through a digital connection in a given time period (i.e., the connection's bit rate). In such cases, bandwidth is usually measured in bits or bytes per second.
This is a measure of the amount of data that can be sent through a network or Internet connection. The more bandwidth available to you, the more information you can download. For example: if you have a low amount of bandwidth it may take you a few hours to download a film clip, but if you have a large amount of bandwidth it may only take one or two minutes to download the same clip.
The range of frequencies, measured in hertz (Hz), that can pass over a given transmission channel. The bandwidth determines the rate at which information can be transmitted through the circuit.
Refers to the range of transmission frequencies able to be used by a network. Essentially, if the bandwidth is larger then more information can be sent over the network.
The communications capacity (measured in bits per second) of a transmission line or of a specific path through the network. Contiguous bandwidth is a synonym for consecutive grouped channels in multiplexer, switch or DACS; i.e. 256kbps (4 x 64kbps channels).
This is the amount of data a network or connection can move in a set time. For digital channels, bandwidth is usually measured in bits per second (bps). If it takes a few minutes to load a web page you may have a low bandwidth connection.
The amount of data that can be transmitted in a fixed amount of time. A larger amount of information can be sent in a given amount of time over a telecommunications method with a greater bandwidth. For digital devices, the bandwidth is usually expressed in bits-per-second (bps) or bytes-per-second.
refers to the amount of information that can be sent over a connection, measured in bits per second (bps)
the rated throughput capacity of a given network media or protocol. The amount of data that can be transmitted in a fixed amount of time.
This refers to how much stuff (data) you can send through a network or modem connection - the more bandwidth, the more information that can be transferred at one time. It is usually measured in bits per second, or "bps."
A measure of how much data you can send and receive through a connection. This is measured in Bits Per Second (bps).
the amount of data that can be transmitted via a given communications channel (e.g., between a hard drive and the host PC) in a given unit of time.
Amount of data that gets transferred through an Internet connection. Amount of traffic to your web site will generate bandwidth
A measure of how fast data can be transferred through a given medium. Modems offer relatively low bandwidth of up to 56kbps. Corporate networks usually operate at 100Mbps. High quality video clips require in excess of 200kbps.
The range of frequencies between two defined limits. Also describes the carrying capacity of a communications channel.
A measure of the speed of information transfer typically used to quantify the communication capability of multicomputer and multiprocessor systems. Bandwidth can express point-to-point or collective (bus) communications rates. Bandwidths are usually expressed in megabytes per second.
The amount of data that a transmission medium (a cable or bus or wavelength) can carry. For digital signals, bandwidth is measured in megabits per second (Mbps); for analog signals such as electrical waves, transmission is measured in megahertz (MHz, or cycles per second). BAS Building automation system. An integrated, automated system that controls several aspects of building operation, such as HVAC, elevators, fire suppression, and security.
The amount of data that can be transmitted in a fixed amount of time. Different measurement schemes include Hertz and Bits Per Second.
Digital throughput capacity. A measure of how much digital signal or information can be passed through a device or interconnect. Bandwidth is usually measured in bits per second. A 2400 baud modem can handle 2.4 kilobits per second. A T3 industrial interconnect can handle 45 megabits per second. A 100 base-T ethernet interconnect can handle 100 mega-bits-per-second. Bandwidth is analogous to the size of a water pipe.
The amount of information that can be carried through a phone line, cable line, satellite feed, and so on.
The difference between the upper and lower limits of a given band of frequencies.
The amount of information that can be transmitted over a network such as the Internet in a certain amount of time.
Usually a measurement to indicate the total amount of data processed by your site. This can include page views, downloads, email and uploads. Bandwidth is usually measured in megabytes or gigabytes.
The capacity or available frequencies of a communications channel. The greater the bandwidth, the greater the volume of information that can be transmitted.
When referring to your own connection, bandwidth is the total maximum capacity of your network or modem connection. A MODEMs bandwidth is measured in BPS. The more bandwidth you have, the faster you will be able to receive and/or send information.
The total range of frequency required to pass a specific modulated signal without distortion or loss of data. The ideal bandwidth allows the signal to pass under conditions of maximum AM or FM adjustment. (Too narrow a bandwidth will result in loss of data during modulation peaks. Too wide a bandwidth will pass excessive noise along with the signal.) In FM, radio frequency signal bandwidth is determined by the frequency deviation of the signal.
The amount of information that can be transferred through an Internet connection at a given time.
the capacity of a telecommunications link. Correctly speaking, it measures the range of frequencies which can be conveyed on a channel and is measured in Megahertz or Kilohertz (MHz or KHz). The term is often used interchangeably with the speed of the link, which is measured in Kilobits per second (Kbits/s) or Megabits per second (Mbits/s).
The maximum data carrying capacity of a transmission link. For networks, bandwidth is usually expressed in bits per second (bps).
Bandwidth is a term commonly used to describe how much information can be transferred through a given path. When it comes to radio signals, bandwidth usually describes the amount of space a given band takes up on the radio spectrum. When applied to Internet access, it's usually used to describe the maximum amount of data that can be received. A 56K modem has a maximum possible capability of receiving information at a rate of 56 kilobits per second (kbps).
Bandwidth is the maximum amount of data that can be carried by your Internet connection. If you have a low bandwidth, Web pages and graphics will take a long time to download. If you have a modem connection, your bandwidth is limited by the copper wire that carries the signal.
The size of the "pipe" that brings information to and from computers over the Internet. Low bandwidth includes rates of 28 kbps and 56 kbps, while high-bandwidth (broadband) connections deliver more information at a faster pace, making full-screen video, for example, possible.
The amount of data able to be sent through a network connection.
A measure of the capacity of a communications channel and the amount of frequency available to a system. The wider the bandwidth allocated to a channel, the greater the data rate for a given protocol.
A measure of how fast a network can transfer information, originally measured in Hertz (Hz), but now used for any measure of network throughput. The more precise definition: frequency range within a radiation band required to transmit a particular signal. Measures the difference between the highest and lowest signal frequencies in millions of cycles per second.
Frequency range of performance for a device (as in the bandwidth of an amplifier).
In analog communications, bandwidth referred to the width of the frequency range allocated for transmission. In the digital world, it is more common to talk about bandwidth in terms of the number of bits transmitted per second (bps).
A measure of spectrum use frequency or capacity. Refers to the speed at which data is transmitted, measured in bits per second (bps). Bandwidth Gap: The disparity between the computer processorís speed of processing data and the communication infrastructureís speed of transmitting data.
The width or measure of the information-carrying capacity of a communication channel. The bandwidth corresponds to the difference between the lowest and highest frequency signal that can be carried by the channel.
The capacity of a transmission channel to move data among locations.
The information carrying capacity of the system. In analog systems, this is also the highest frequency that can be carried. Learn more about Bandwidth...
A measure of the speed of a data transmission, or the volume of data a line or channel can carry every second. Digital bandwidth is measured in bps (bits per second).
The rate at which you can send or receive information through your connection to the Internet.
The range of frequencies covered by a driver or a network (crossover).
A range of frequencies that travel over a communication link. The higher the bandwidth the more information that can move between computers. Return to .
(Broadband) The amount of data that can be transferred over a broadband connection at any one time. For a broadband connection it is normally at least 256kbps and can be up to 8Mbps+ for some broadband providers - see Bulldog Broadband.
How much information that can be sent through a connection, usually measured in bits-per-second.
The amount of electronic data that can be transferred through an electronic connection in a given amount of time. For modems connected by telephone to the Internet, the modem's "speed" represents the maximum possible bandwidth of the connection, such 56.6Kps (kilobits per second). Competent web site operators strive to keep the size of web page files low to conserve bandwidth and speed downloading. Also See: Network, T1, T3, and Backbone
This refers to how much data you can send through a network or modem connection. It is usually measured in bits per second, or "bps." A good analogy for bandwidth is a highway with cars travelling on it. The highway is the network connection and the cars are the data. The wider the highway, the more cars can travel on it at one time. Therefore more cars can get to their destinations faster. It's the same principle with computer data -- the more bandwidth, the more information that can be transferred at one time.
The range of frequencies over which something is measured. Typically used in regard to electromagnetic interference (EMI) testing.
Measure (in kilobytes of data transferred) of the traffic on the site.
The number of data that can be transferred at a time. http://www.webopedia.com/TERM/b/bandwidth.html
The amount of data that can be sent through a given communications circuit per second.
The range of analogue frequencies or digital signal that can be through a particular medium. Typically measured in Hertz (analogue) or bits per second (digital). For instance, GSM operates at 9600 bits per second.
The range of frequencies which an analogue transmission medium is capable of carrying, expressed in Hertz (cycles per second).
Bandwidth usage refers to the amount of data that you transfer over your connection to the Internet. Bandwidth, which is measured in bytes, is divided into two categories: downloads (files you receive, such as emails, music files, video clips) and uploads (files that you send to others).
The amount of information that can be passed in a given time. The lager the bandwidth the greater the picture detail.
The amount of data per second that can be delivered to your computer. A 56K modem has a bandwidth of 56 kilobits/second. The term bandwidth is also used in conjunction with data rate when discussing video.
The capacity of a telecom line to carry signals. Bandwidth is both the total frequency spectrum, in hertz or cycles per second, that is allocated or available to a channel, as well as the amount of data that can be carried by a channel, in bits per second (bps). For analog transmission, it is measured in cycles per second; for digital transmission, it is measured in bits per second.
The bandwidth of a communications channel is the range of frequencies the channel can handle. The bandwidth is a limiting factor on the bit rate of the channel: the greater the bandwidth, the greater the bit rate can be.
The range of frequency response between lower and upper frequencies points which audio signals pass through an electrical device or conductor where the signal has decreased by three decibels.
A term that defines the information carrying capacity of a channel - its throughput. In analog systems, it is the difference between the highest frequency that a channel can carry and the lowest, measured in hertz. In digital systems the unit of measure of bandwidth is bits per second.
a measurement of circuit capacity in frequency ranges, which refers to the volume of information a given transmission medium, such as a telephone line, can handle. Click here to see a simple diagram that visually explains bandwidth.[Back to Glossary Table of Contents
The amount of data that can be transferred over a network. The greater the bandwith the greater the amount of data transferred.
The frequencies that your satellite system uses for transmission.
The measure of a circuit's ability to pass a full amplitude signal over a range of signal frequencies. Normally measured between the point or points where the signal amplitude falls to -3dB below the passband frequency. Normally defines the "frequency range" of a device or system.
In the world of audio, the total frequency range across which an audio system can reproduce sound.
Rate at which information, measured in bits of data per second (bps), moves between computers. Determines a network's ability to deliver information.
The "data-carrying" capacity of a network connection, used as an indication of speed. For example, an Ethernet link is capable of moving 10 million bits of data per second. A Fast Ethernet link can move 100 million bits of data per second – 10 times more bandwidth.
The maximum amount of data transmitted over the Internet at one time.
This is how much information can be carried by the wires and channels that connect everyone to the Internet. There's a limit to the amount of data that any piece of wiring can carry at any time.
A range of frequencies in the broadcast spectrum that is occupied by a signal (for example, a television signal may have a bandwidth of 6 MHz). The ?necessary bandwidth? is the amount of spectrum required to transmit a signal without distortion or loss of information. In computer networks, bandwidth describes the capacity of network elements to carry and transmit data, measured in ?Baud Rate?. High bandwidth networks are able to carry more types of data simultaneously than low bandwidth networks.
A measure of digital data capacity and connection speed on a computer or communications system.
How much information (text, graphics, images, streaming video, sound, et al.) can be sent through a connection. Usually measured in bits, a full page of text is usually 16,000 bits.
The size in Hertz of the frequency range that a signal transmission occupies. Typical narrow band signals occupy a 25 KHz bandwidth. The 2.4 GHz radio frequency signal occupies a 1 MHz bandwidth.
The transmission capacity of a communications channel, whether it is fiber optic, copper wire, or wireless. Digital bandwidth is measured in bits per second (bps). For example, a standard dial-up modem connects to the Internet at 56 Kbps, or 56,000 bps. For more about bandwidth, see broadband, below.
The amount of data that can be transmitted in a specific period of time over a physical medium.
The amount of data, including voice and video, that can be transmitted over a network; often referred to as a pipe, meaning a network's communications' capacity .
The difference between the upper and lower usable frequency limits of a circuit, a device, or a communications (radio, TV or digital data transmission) channel.
the amount of data that can be moved through a particular interface in a given period of time.
The number of cycles per second expressing the difference between limiting frequencies of a band; in digital systems, the measure of the amount of information that can be processed per unit time.
The amount of information that you can send through a connection. Usually measured in bits-per-second (Bps.). For example, a 56K modem can move 56,000 bits-per-second.
Amount of data that can be sent through a connection, or capacity of a network to carry data. Measured in bits per second (bps). A full page of English text is about 16,000 bits. A fast modem can move about 15,000 bps. Full-motion, full-screen video requires approximately 10,000,000 bps, depending on compression.
Your Internet connection's capacity to send and receive data. Bandwidth is usually measured in bits-per-second. A simple way to imagine this is to see your Internet connection as a pipe. The bigger the pipe, the faster the information will flow.
Capacity (range) of transmission frequencies on a network as expressed in cycles per second (hertz) or bits per second that determines the amount of data, audio, and video that can flow over the network. The higher the frequency, the higher the bandwidth.
Bandwidth is a frequency range. It is usually defined by the number of hertz in a band or between the upper and lower limiting frequencies. Alternatively, it is the frequency range a device is capable of generating, passing, handling or allowing.
The data transfer capacity allocated to your web hosting account, usually measured in gigabytes (GB) - 1 GB is equivalent to 1,024 MB. This allocation usually includes all data transfer for the running processes on your account like web and email. Back to up
refers to the speed and how much data (capacity) a link can transmit, which is usually measured in bits-per-second.
The transmission capacity of a telecommunications link, usually measured in bits per second (e.g., 64 kbps).
Bandwidth is a measure of data transferred to and from your account.
The information-carrying capacity of a transmission medium, measured in either megahertz (MH) or bits per second (bps, Kbps, Mbps).
Bandwidth is the amount of data that your website can send each second, as well as the amount of data that the visitor to your website can receive. If either one does not have enough bandwidth, then the website will appear slowly. For this reason, you should choose a host with plenty of bandwidth, as well as testing that your site doesn't take too long to download on slow connections.
The speed that data transfers through an internet connection, measured in bps (bits per second). The faster the better.
The speed at which data is being transported. Usually specified in bits per second (bps). 128k (128,000 bps) and T1 (1.544Mbps) are examples of a bandwidth.
The transmission capacity of an electronic line such as a communications network. In practical terms, it is the amount of information your connection to the Internet can carry.
The total frequency range of any system. Usually specified as something like: 20-20,000Hz plus or minus 3 db.
Synonymous with “data transfer rate,” and representing the maximum amount of information that can be carried between two networked points in a given span of time. It’s usually measured in bits, kilobits, or megabits per second (bps, Kbps, Mbps). A 56.6Kbps modem, for example, is capable of delivering 56,600 bits per second, while a 100Mbps Ethernet adapter can deliver roughly 1 million bits per second. Note, however, that most bandwidth measurements are theoretical maximums, and that generally users experience data transfer rates that are lower than the given specification for a network, adapter, or other data transfer device.
The available space between two given points on the electromagnetic spectrum and, inter alia, the amount of information that can be squeezed into that space.
The data transmission capacity of a connection, measured in bits or Bytes of data per second (bps or Bps). Can be thought of in similar terms to the diameter of a pipe conveying water. The amount of bandwidth needed depends on the applications being used - sending or receiving large multimedia files in a short time, or viewing video in real time, needs broadband connectivity. features: Battle of the Bandwidths related index entries: BROADBAND NARROWBAND
A measure of the maximum amount of data that can be transferred over a connection at any one time. For example, if you connect to the internet using a modem, then the bandwidth is likely to be up to 56Kbit/s (56,000 bits of data per second).
The amount of data which can be conveyed by a cable per unit of time. Bandwidth is usually measured in megabits per second (Mbps). A megabit consists of one million bits. The amount of bandwidth you require depends upon the application you wish to run. With the COM architecture used by AccountView, only that information which is absolutely necessary is actually sent, meaning that you require comparatively little bandwidth. But if you want to download video, for example, then you need a lot of bandwidth.
The bandwidth is the amount of data that can be transmitted in a fixed amount of time. Bandwidth is usually expressed in bits per second (bps) or bytes per second.
is the maximum data-carrying capacity of a telecommunications connection as a result of the range of frequencies available to be occupied by signals, and the modulation techniques utilized, usually expressed in terms of hertz (Hz) in analogue systems and as a number of bits per second in digital systems.
This is the amount of data that can be transmitted at a given time over a channel. Videoconferencing is very bandwidth intensive, the greater the bandwidth, the better the picture and sound.
a measurement of network capacity and the amount of data that can flow through a communications circuit per second. The broader the bandwidth, the more the data can flow.
The amount of data that can be transmitted in a given time. It also depends on the complexity of the data as well. It takes more bandwidth to download a photograph than it takes to download a page of text. Video, computer programs and sound files require even more bandwidth to give a good, fast result.Both digital and analog signal has a bandwidth
A range of frequencies or the amount of audio, video, RF (radio frequency) or optical spectrum used. This bandwidth might be used to transmit pictures, sound, and data. In the United States, the Federal Communications Commission has assigned broadcast television channels a bandwidth of 6 megahertz. Cable systems typically operate within a bandwidth from 50 MHz to as high as 860 MHz in the forward direction to carry the many channels offered. For data transmission, the bandwidth determines the amount of information that can be sent over a network. In this instance, bandwidth is usually measured in bits-per-second.
Limited amount of data information that can be carried at any one time.
This word has a couple of definitions. In one sense, it is the carrying capacity of a transmission line or channel. This is usually measured in BPS, or bits per second. In the other sense, it is the amount of information you can transfer.
Size or the capacity of a given transmission channel. In digital transmission, bandwidth is normally described in bits per second.
The rate/width of hte flow of data through your internet connection. With a dial-up connection on a regular phone line, this is a 'narrow pipe.' Think of a clogged pipe where not much water can get through. Increase the diameter of that pipe and more water can get through. Cable modems and DSL lines provide high bandwidth (fatter pipes), therefore you can experience a higher rate of data transfer, which translates to speed, on the internet.
The amount of data that can be transmitted along a communications channel in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second (bps) or bytes per second.
A measure of the information carrying capacity of a communications link. The higher the bandwidth, the greater the capacity.
The speed of transmission. When a system lacks bandwidth, it is a way of saying the transmission is not fast enough for it to accomplish its tasks speedily.
The amount of data that can be transmitted in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second (bps) or more commonly Mbps. This is also known as transfer rate.
The amount of data that has been transferred between your website and your visitors.
How much stuff you can send through a connection to the Internet.
A range of frequencies defined by its highest and lowest limits. The audio bandwidth of human hearing has traditionally been defined as 20Hz to 20kHz. In pure electronic terms, the width of a communication channel, measured as frequency (in cycles per second, or hertz). A channels bandwidth is a major factor in determining how much information it can carry.
A measure of a communication system's capability of carrying information. Normally measured in bits per second, or MHz.
The transmission capacity of the lines that carry the Internet's electronic traffic. The more bandwidth a line has, the faster the download and the more people can be connected at any given moment. Technologies such as ISDN, and Fiber Optic cabling allow for much cleaner and faster transfer of information.
The width or range of the electromagnetic radiation being detected by a sensor, measured in wavelengths or frequencies. This fundamental parameter of imaging systems determines the spectral resolution of the data.
Bandwidth is the measure of data that can be transferred through a given channel or network. Bandwidth is usually capped per month at a set limit like 10GB of traffic or is metered continuously.
The amount of data (information) that can be transmitted and received by an Internet connection, e.g. rather like a water pipe, the larger the pipe the more water that can pass through it. The maximum bandwidth through a dial up phone line connection is 56 kilobits per second (56kbps), for a broadband connection the minimum is 512kbps.
How much "stuff" that goes through a network connection, measured in bits (see below) per second. One text page is about 16,000 bits. A 28.8 modem can move about 15,000 bits each second.
The frequency difference between the highest and lowest frequencies involved. The greater the bandwidth of a transmission channel the more information it can carry. In computer connection this is normally measured in bits per second.
The range of frequencies utilized for the transmission of a signal or group of inter-related signals expressed in Hertz (Hz).
The capacity of your Internet connection to transmit and receive data. Bandwidth is most accurately measured in cycles per second, or hertz (Hz), which is the difference between the lowest and highest frequencies transmitted. But it's also common to use bits or bytes per second instead.
A characteristic of a communication channel that is the amount of information that can be passed through it in a given amount of time, usually expressed in bits per second.
Describes the distance between the maximum and minimum frequency of an acoustic signal. The human ear is capable of hearing sounds between 30 and 16,000 Hz. Thanks to digital technology, it is now possible to transfer a bandwidth of between 20 and 20,000 Hz.
The range of frequencies required for a circuit to function with minimal loss. The bandwidth allotted for an analog television channel in the U.S. is 6MHz. HDTV signals can require a bandwidth of 2.25GHz. Current Bittree video panels support a bandwidth of up to 3GHz.
The amount of data that can be sent through a particular point in a connection. Generally measured in bits per second (bps).
The relative range of frequencies that can be passed through a transmission medium without distortion (normally with respect to one channel). Sometimes referred to as a 'pipe'.
The measure of information that can be transferred between computers or over networks in a given amount of time. The rates are expressed in kilobits per second.
A wire’s capacity for information is called bandwidth. More bandwidth gives you more information passing through the wire. The bigger the wire, the more bandwidth it can carry. The amount of bandwidth is critical for current and future information services.
How much data that can be sent through a connection. A 56k Dial-Up Modem can send about 57,000 bits in one second.
The data transfer capacity of a digital communications system.
Part of the frequency spectrum; that part of the spectrum required for a specific purpose: e.g. a TV channel occupies a bandwidth of 8 megahertz whereas a telephone conversation utilises only 4 kilohertz
Amount of data that can be transmitted in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second(bps) or bytes per second. Multimedia applications on the Internet require a large bandwidth.
is the capacity a wire has for carrying data. For example, think of a hose as the wire. More water can be passed through a fire hose than through a garden hose. The bandwidth for digital devices is usually expressed in bits per second (bps). The bandwidth for analog devices is usually expressed in cycles per second (Hz).
The capacity a network connection has for carrying data.
The width of a band of electromagnetic frequencies; how fast data flows on a given transmission path. Expressed as data speed in bits per second (bps). Bandwidth is proportional to the complexity of the data for a given level of system performance. For example, it takes more bandwidth to download a photograph in one second than it takes to download a page of text in one second.
Technical term for the capacity of a transmission channel. Because capacity, or even maximum speed, is generally dependent on the frequency range available, the 'bandwidth' (i.e., the width of a frequency band) usually has the same meaning as the maximum transmission speed available to a subscriber.
the range between the highest and lowest frequencies of a transmission channel. Measured in hertz (Hz).
The complete range of frequencies over which a circuit or electronic system is allocated to function. In transmission, the U.S. analog and digital television channel bandwidth is 6 MHz.
The transmission speed or throughput of your connection to the Internet. Measured in Kbps or Mbps (56Kbps, 1.4Mbps for instance). For a detailed discussion of bandwidth, see About Bandwidth.
The range of frequencies within which a fiber optic wave-guide or terminal device can transmit data or information.
The amount of data that can be moved to a computer a given period of time.
Data is transmitted over wires and channels; bandwidth refers to how much and how quickly data can be sent over these channels. For digital users, (ex. cable internet) bandwidth is measured in bits (or bytes) per second (bps), for telephone line users bandwidth is measured in hertz (Hz) or cycles per second.
In practice it's how you describe how much data you can send over a single connection in a given time. (See bps for how it's measured.) Unfortunately you don't usually hear the word "bandwidth" unless you don't have enough of it as in "limited bandwidth."
a communications channel's bandwidth, its capacity, dictates the range of frequencies and, to all intents and purposes, the categories and volume of information the channel can accommodate in a given time period. As a channel's bandwidth capacity increases, so too does its capacity to relay a greater volume of information in a given time period. The term bandwidth is also applied to the communications signals themselves.
Maximum rage of signal frequencies, amount of data, or number of users a data carrier can handle.
The measure of how much information can travel down a connection, a cable or a modem, and at what speed. Videos are large and require a lot of bandwidth, emails are small and require little bandwidth, except when you are sending thousands of them.
The capacity of a phone line or other communications channel for distributing data -- voice, graphics, text, video -- measured in bits per second.
The # of cycles per second detailing the difference between the upper and the lower operation frequencies Typically the higher the operation bandwidth the greater the resolution.
The maximum frequency (spectrum) measured in Hertz or cycles per second, between the two limiting frequencies of a transmission channel; the range of frequencies that can be carried by a transmission medium without undue distortion.
The information carrying capacity of a communications channel or line; sometimes referred to as speed because digital bandwidth is measured as datarate.
In wireless communications, the width or capacity of a communications channel. Analog bandwidth is measured in hertz (Hz). Digital bandwidth is the volume of data that a channel can carry and is measured in bits per second (bps). See Also: bps, Channel, Hertz
The volume of data that can be transmitted on a particular media. It is measured in bits per second. Online bankers and online banking customers both seek the greatest possible bandwidth to increase the speed at which Web pages load.
The amount of spectrum a communication channel (analog or digital) uses, measured in hertz (Hz).
The amount of data that can be sent through a connection. Usually measured in bps. A normal page of hypertext ranges from 6,000 to 20,000 bits (not counting graphics).
This is the amount of data that can be transmitted through a given communications circuit over a set period of time. If you have a hosting account at 123-reg, we use the term bandwidth to describe the amount of data (in megabytes) that can be transferred from your website, as included in your hosting account. For example, each time you browse a web page, you automatically download all the contents of that page onto your local computer; this would use up the bandwidth of whoever owns the site.
The amount of data that can be carried per second by your internet connection. Usually measured in kilobytes per second (kbps).
A wider bandwidth means more information in a shorter amount of time.
Reciprocal of the time needed to transfer a byte. Bandwidth is normally expressed in megabytes per second.
is the range of frequencies that pass through an electrical/electronic amplifying, processing or transmission unit without attenuation or loss.
Bandwidth is the amount of data that can be sent through a connection. With regards to a hosting account, bandwidth is used interchangeably with the term "data transfer" to measure the amount of data your account is allowed to transfer in a given time period (usually per month).
A measure of the carrying capacity of information over a network. Video , for example, takes more bandwidth to transmit over a network than text. Bandwidth is an important issue for Network Administrators.
How much you can send through a connection. Usually measured in bits per second. A full page of English text is roughly 16,000 bits. A fast modem con move about 57,000 bits per second whereas full-motion, full screen video would require some 10,000,000 bits per second, depending on compression.
Bandwidth is a measurement of the speed at which data can be transmitted between computers on a network.
A term used to refer to a range of frequencies
This decides how much data may be transferred at one time through a connection.
The maximum amount of information (bits/second) that can be transmitted along a channel. Bandwidth is the capacity that a telecommunications medium has for carrying data, loosely referred to as the amount of data that can be transferred over a network connection.
(Also known as "capacity") In simple terms, how much information or traffic can be carried on the Internet in a given amount of time. The simple rule is that the greater the bandwidth, the greater the opportunities for commerce. As a specific example: with low bandwidth, transferring the contents of a music CD via the Internet is not feasible; with higher bandwidth, it is entirely feasible.
The amount of data that can be transmitted over a network connection. The bandwidth determines the rate at which information can be transmitted through the circuit: the greater the bandwidth, the more information that can be sent in a given amount of time. Bandwidth is typically measured in bits per second. A dial-up modem would typically be around 56k/sec and broadband would be over 256k/sec.
The quantity of data that can flow through your Internet connection per second. Measured in bits per second (BPS).
Bandwidth is the maximum amount of data that can be transferred over the network in a fixed amount of time or, in other words, the measured amount of information that can be transmitted over a connection. The higher the bandwidth, the greater the capacity of a channel to carry information. On the Internet, it is usually expressed in bits per second (bps). A fast modem for example can move about 57,000 bits in one second.
The maximum amount of information that can be transferred over a network in a given amount of time. It makes the most sense to think of bandwidth in terms of a river. Much like the water flow of a river is a function of the width of the river and number of obstacles, bandwidth is highest when there are few obstructions or and the information is all flowing the same direction. When multiple devices are connected to the network, the bandwidth is divided, depleting transfer rates and decreasing overall network reliability.
The size of the data pipeline measured in bits-per-second. The higher the bandwidth, the faster the information can flow.
The amount of data that can be transmitted over the bus in a given amount of time. Usually expressed in bits per second (bps).
The amount of data that can be transmitted at a given moment to a server. The higher your bandwidth the larger amount of traffic your site can handle at one time.
The transmission capacity of an electronic medium, such as network wiring, fiber optic cable, or microwave links; also the range of signal frequencies where a piece of audio or video gear can operate, or the difference between high and low limiting frequencies.
The frequency range that an audio system can reproduce, from high to low.
The amount of information that can be transmitted over a network connection. Data travels over bandwidth in bits-per-second. A full page of English text is about 16,000 bits, usually expressed as 16k. The more bandwidth you have, the faster information can be downloaded to you.
A term used to describe the amount of data that can be send through a network connection. Bandwidth is measured in Bits-Per-Second, or bps.
The amount of data that can be passed along a communications channel in a given period of time.
A measure of the amount of data that can be transferred through a given Internet connection.
A measure of the information-carrying capacity of an optical fiber or an entire system.
The maximum amount of data that can travel a communications path in a given time, usually measured in bits per second. If you think of the communications path as a pipe, then bandwidth represents the width of the pipe that determines how much data can flow through it all at once.
The difference, expressed in Hertz between the highest and lowest frequencies of a range of frequencies. Also, commonly used as the speed that a data transmission requires to operate effectively.
The total range of a frequency required to pass a specific signal without significant distortion or loss of data. In analog terms, the lower and upper frequency limits are defined as the half power, or -3 dB signal strength drop, compared to the signal strength of the middle frequency, or the maximum signal strength of any frequency, expressed as xx Hz to xx kHz (or MHz) @ -3 dB. In digital terms, it is the maximum bit rate at a specified error rate, expressed in bits per second (bps). A device's bandwidth should be wider than the highest possible bandwidth of the signals it may handle. (In general, the wider the bandwidth, the better the performance. However, bandwidth that is too wide may pass excessive noise with the signal.)
The amount of data that can be sent through a connection. It's usually measured in bits-per-second or bps. The fastest dial-up modem can move about 57,000 bits in one second. Full-motion full-screen video requires about 10,000,000 bps.
The information-carrying capacity of a communications channel. Usually expressed in Hertz (cycles per second) for analog circuits and in bits per second (bps) for digital circuits.
The information carrying capability of a communication channel or line.
A measurement of the amount of data that can be transmitted over a network at any given time. The higher the network's bandwidth, the greater the volume of data that can be transmitted.
A measure of how much information something can carry. Specifically, data path times frequency. For example, the ISA bus has a data path of 16 bits (it can send 16 bits at a time) and typically operates at 8.33MHz, so it has a bandwidth of 133.28 megabits per second.
The amount of information that is downloaded through a connection. This can also refer to the amount of data that is served out by a website and there can be additional charges if you exceed your monthly allotted amount.
Communications: The frequency or frequencies allocated for an individual user, system or type of transmission. Computers: The amount of data that can be transferred through a network, usually measured in bits per second ( bps).
Describes the amount of data that can flow across an interface in Megabytes per second. Bandwidth = ("width in bits" x "speed")/8. "Width" x "speed" is divided by 8 because 8 bits make a Byte, and bandwidth is measured in Megabytes.
The range of signal frequencies that a fibre optic cable will transmit.
In simplistic terms, bandwidth is the amount of information travelling through a single channel at any one moment in time. Bandwidth is a measure of the information capacity of a communication link. For example, Ethernet has a bandwidth of 10Mbps. Workstations or network users that use the network heavily are referred to as using a high bandwidth - these are usually users who do a lot of graphical or multi-media work across the network. Bandwidth is the difference between the highest and lowest frequencies of a communication link, expressed in Hertz (Hz). See also Mbps Network Baud This is the signalling rate of a line, in other words, the rate at which data travels along a line. Baud is the number of transitions (voltage or frequency changes) made per second. See also bps
The maximum number of bits per second delivered by a network or the amount of information transmitted over a communications link. Bandwidth is important because it is a determining factor in setting the speed that information flows around the world and into your computer.
This is the amount of data that can be sent through an existing connection. This is typical measured in Bits Per Second (bps).
The carrying capacity of a data channel, usually expressed in bps (bits per second). Also called throughput or transfer rate.
Determines the rate at which information can be sent in an electronic data transfer. The greater the bandwidth, the faster the transfer.
The capacity of a communications line, normally expressed in bits per second (bps).
The amount of data, typically expressed as Kilobits per second (Kbps), which can pass through a network connection.
The speed of data or information that can flow through a path such as a communications network, a computer bus or a computer channel. Bandwidth is expressed in bits per second (bps), bytes per second (Bps), or cycles per second (Hz). The larger the bandwidth, the faster the data flow. Networking
The difference, expressed in hertz, between the two boundaries of a frequency range.
The useable range of transmission frequencies available to a network. The greater the bandwidth, the greater the amount of information that can be transmitted on the network.
This is the amount of data that can be transmitted over a given time period.
The range of frequencies transmitted on a channel, or the difference between the highest and lowest frequencies transmitted across a channel.
The range of frequencies that a circuit can handle. With POTS, for example, the bandwidth is very narrow. The broader the range of frequencies, the more information the line can handle. The typical POTS circuit has a bandwidth of 3,100 Hz centered between 300 Hz and 3,400 Hz.
Bandwidth is a measure of the speed at which electronic data flows along a communication path. In digital communications systems like the ECU network, bandwidth is measured in bits per second (bps) or kilobits per second (kbps).
The amount of data that can be transferred over a given connection in a fixed amount of time, generally expressed in bits per second (bps) for digital devices.
is the amount of information that may be transmitted at any given time along a data line and is usually measured in Megabits per second. An analogy would be a water pipe where a larger diameter pipe can carry more water per second than a narrow pipe.
The total speed capacity of a communications medium.
the amount of data that can be transmitted through an Internet connection in a fixed amount of time, or the rate at which the information can be passed (the connection speed)(The speed of the connection for your Volusion store is virtually unlimited; the amount of data transmission allowed depends on solution size)
(1) Number of hertz expressing the difference between the lower and upper limiting frequencies of a frequency bank. (2) Width of a band of frequencies. (3) Maximum number of information units (bits, characters) capable of traversing a communications path per second.
On a webserver, this is the amount of data that has passed from the webserver as a result of requests from the world wide web. Bandwidth, in this sense, measures the amount of data that has been transferred from the host to any computer that makes a page request.
The amount of data that the physical network can carry in a specified period of time.
The difference between the upper and lower limit of a frequency band expressed in number of cycles per second (hertz).
How much data can pass through an Internet pipeline at one time.
(1) Analog Bandwidth: A measure of spectrum (frequency) use or capacity. For instance, an analog voice transmission by telephone requires a bandwidth of about 3000 hertz (3KHz). A TV channel occupies a bandwidth of 6 million hertz (6MHz) of radio frequency (RF) bandwidth. Cable system bandwidth occupies 50 to 300 MHz on the electromagnetic spectrum. (2) Measure of the frequency width of a transmission channel, or the difference between the highest and lowest frequency levels. Information-carrying capacity of a communication channel. The amount of transmission capacity possessed by a system or a specific location in a system. (3) Digital Bandwidth: The data rate of a digital signal carried in a data transmission channel. Digital bandwidth is commonly stated in units of bits-per-second (bps) and bytes-per-second (Bps) where 8 bits equals one byte. For example, DOCSIS 2.0 is capable of an upstream digital bandwidth of 30,720,000 bits-per-second (30.72 Mbps) in an analog channel bandwidth of 6.4 MHz using the 64 quadrature amplitude modulation (64 QAM).
Bandwidth is how much data you can send through a network or modem connection in a given time. It is usually measured in bits-per-second.
The range of frequencies over which a particular instrument is designed to function within specified limits.
The range of signal frequencies that a circuit or network will respond to or pass.
Refers to the amount of data that can be sent through a connection. In digital systems, bandwidth is expressed as data speed in bits per second (bps). Thus, a modem that works at 57,600 bps has twice the bandwidth of a modem that works at 28,800 bps.
The capacity of a data communication link. The greater the bandwidth, the more data that can travel through the connection.
A measure of the speed of a data transmission line as in "high speed line" is the same as "high bandwidth line".
In communications, the difference between the highest and lowest frequencies in a given range. For example, a telephone line accommodates a bandwidth of 3000 Hz, the difference between the lowest (300 Hz) and highest (3300 Hz) frequencies it can carry. In computer networks, greater bandwidth indicates faster data-transfer capability and is expressed in bits per second.
The measure of transmission capacity. In analogue systems it is measured in Hertz (cycles per second) in digital networks it is measured in bits/s
A measure of the rate at which data is transferred (often compared to rate of flow of water through a pipe).
How much data you can send through an Internet connection. Usually measured in bits-per-second.
the amount of data that can be transmitted in a fixed amount of time. Usually expressed in bits per second (bps) or bytes per second for digital devices and cycles per second, or Hertz (Hz) for analog devices.
Refers to how fast and how much data flows through the path that it travels to your computer; it is usually measured in kilobits, megabits or gigabits per second.
The amount of data that can be sent through a connection. Usually measured in bits-per-second (bps). In data transmission, the greater the bandwidth, the greater the capacity to transmit data bits.
A measure of spectrum (frequency) use or capacity. For instance, a voice transmission by telephone requires a bandwidth of about 3000 cycles per second (3KHz). A TV channel occupies a bandwidth of 6 million cycles per second (6 MHz) in terrestrial Systems. In satellite based systems a larger bandwidth of 17.5 to 72 MHz is used to spread or "dither" the television signal in order to prevent interference.
(1) The range of frequencies over which a device operates effectively. (2) The range of frequencies required for transmitting different types of electronic signals. Color TV needs a broad band-about 4.6 MHz; the telephone requires only a narrow band, less than 4 kHz.
Amount of traffic transmitted from the site.
This is the maximum amount of data that can be ...
The amount of information (Web pages, text, graphics, video, sound, etc) that is downloaded through a connection.
The range of frequencies that can be passed through a transmission medium or an amplifying or processing stage without loss of any particular frequency. As we are concerned with signal voltages this means that for any given frequency in the band of concern, the voltage must not fall more than 3 db or .707 of the original signal after transmission or processing in 'base band' video, we need to pass signal frequencies from 0 to 5 megahertz or higher.
The amount of data/second that can be delivered across a connection, such as a cable, interface or bus. A 28.8 modem has a bandwidth of 28.8 Kb/second.
The amount of data that can be transferred or processed in a specific unit of time. Also used to describe the range of frequencies a device operates within; wider bandwidth (measured in kHz) usually means better performance.
According to Webster's: a range within a band of wavelengths, frequencies, or energies; esp: a range of radio frequencies which is occupied by a modulated carrier wave, which is assigned to a service, or over which a device can operate. In Internet terms, bandwidth commonly refers to the amount of information that can be sent through a connection.
Bandwidth is a term used to describe the amount of data that can pass through a communications channel (such as an Internet connection) in a given period of time. Bandwidth is often measured monthly.
The time (t) required to send W words between any two processors is: t = L + W/B where L = latency and B = hardware bitstream rate in words per second.
The frequency range of a particular transmission method. In video systems, this value is expressed in MHz, and the better the signal, the greater the bandwidth required.
The capacity of a networked connection, determining how much data can be sent through the connection, usually measured in bits-per-second. Bandwidth is particularly important for Internet connections, since greater bandwidth also means faster downloads.
A measure of the amount of frequency spectrum occupied by a signal; usually measured in Hertz (Hz), Kilohertz (KHz) or Megahertz (MHz).
The capability of information to be transferred. This term can also apply to the download time of a webpage. If someone wants to "reduce bandwidth," they want their page to load faster.
Describes the transmission capacity of a medium in terms of a range of frequencies. A greater bandwidth indicates the ability to transmit a greater amount of data over a given period of time.
How much data you can send through a connection i.e., a data pipeline. The higher the bandwidth, the faster data can flow. Usually measured in bits-per-second. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression.
The capacity of a network to carry information using a particular type of cable (or medium), as measured by the maximum number of bits per second (bps) the network can transmit, typically 10 MegaBits per second.
(1) Difference between the top and bottom limiting frequencies of a continuous frequency band. (2) Indicates the information-carrying capacity of a particular channel. Digital transmission capacity is expressed in bps, or Mbps. Fiber optic bandwidth is often expressed as capacity to transmit information within a specific time period for a specific length (i.e. 12Mbps/km).
The information (text, audio, and/or video) carrying capacity of a communications channel.
The measure of amount of information that can flow through an information channel. Commonly measured in bits per second. Modem connection to an internet server is a typical example of a low-bandwidth connection; an Ethernet connection within a LAN is an example of a high-bandwidth connection.
The rate at which the current connection supports the transmission and reception of data (Source: Dreamweaver MX 2004)
The range of frequencies a device operates within. The amount of data that can be transferred or processed in a given time.
The maximum transfer capability of a digital connection or within a digital system. Maximum speed (rate) at which information can be transferred from one point to another or from input to output in a computer system/process.
Bandwidth refers to the range of frequencies available for a cable TV system to carry. The bandwidth determines the amount of information that can be carried, as well as its speed of transmission.
Maximum frequency that can be used to transmit a communication signal without excessive distortion. Measured in Hertz or cycles per second. The more information contained in a signal, the more bandwidth it requires for distortion-free transmission.
The measurement (in kilobytes of data ransferred) of the traffic on the site.
How much data that can travel through a network or modem at one time
General term for the amount of data that can pass through a given channel at one time. When using a dialup connection, the Internet for example, your bandwidth is limited by your telephone connection and modem, and will typically be 2-4 kilobytes per second. Information requiring more than this flow of data will be impractical for this connection.
The capacity or speed of a telecommunications transmission medium. example -128kbps.
(Bande Passante) : 1) The range of frequencies that can be passed through a channel. A channel carrying digital information has a data rate proportional to its bandwidth. 2) The signal-to-noise ratio of a modulate signal is tested within a range of frequencies on either side of the carrier frequency. This range is also called a bandwidth.
A measure of how fast a network can move information, usually measured in Hertz (Hz).
Also Called Data Transfer (Expressed in MB/GB/unmetered/unlimited) Bandwidth is a difficult to understand concept for a lot of people. Let's say you have a file that is 2 MB in size. Each time someone views the file, you are using 2 MB of bandwidth. If 100 people view the file, you've used 200 MB of bandwidth just on that one file. The measurement of bandwidth really measures the size of data transferred from your site to your visitors.
Describes the capacity at which a given communications channel, such as ordinary copper telephone line, can transfer information; increasing bandwidth increases the speed at which data transfer takes place. The greater the bandwidth, the greater amount of data can be transferred.
defines the amount of information that can travel between two points in a specific time.
The amount of data that can flow through a given communications channel. The greater the bandwidth, the more data can travel through the channel.
Bandwidth refers to the data transfer rate. It measures the amount of data that can be transferred from one device to another and is usually expressed in bits per second (bps).
The range of frequencies a signal needs for its successful transmission. The broader the bandwidth, the greater the information-carrying capacity of a channel. In digital systems, bandwidth is measured in bits per second (bps). In analog systems, it is measured in hertz.
The measure of how quickly you can move information from one point to another. If you are using a 14.4 kbps modem, you have at least six times the bandwidth of somebody using a 2400 bps modem. It's similar to roadways - a four-lane highway can carry more traffic than a two-lane highway. Cable Modem - A modem designed to operate over cable TV lines. Because the coaxial cable used by cable TV provides much greater bandwidth than telephone lines, a cable modem can be used to achieve extremely fast access to the Internet. Cable bandwidth is a very fast and typically reliable choice for Webcam systems if the upstream speeds are not significantly restricted.
The amount of information that can be sent through a connection (usually measured in bits-per-second). Bandwidth is the range between the highest and lowest frequencies on a channel; more commonly, the amount of data that can flow through a channel at the same time. In either case, the capacity of a telecommunications channel is measured by its bandwidth.
The speed or rate of data transfer (traffic) over a network connection; measured in bits per second.
The amount of data that can be transmitted in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second or bytes per second. For analog devices, the bandwidth is expressed in cycles per second, or Hertz (Hz)
A measure of the speed of information transfer, typically used to quantify the communication capability of concurrent computers. Bandwidth can be used to measure both node to node and collective (bus) communication capability. Bandwidth is usually measured in megabytes of data per second.
The amount of data moved on electronic lines, such as a bus, per second. bandwidth is usually measured in bits per second, bytes per second, or cycles per Second (Hertz).
The number of cycles per second (Hertz) expressing the difference between the lower and upper limiting frequencies of a frequency band; also, the width of a band of frequencies.
The amount of data that can be transmitted over a network connection at any one time.
The capacity or speed at which data can be transmitted over networks.
The amount of data transferred between two computers (or any electrical device) over a given time. The more data transferred in a given time period the higher the bandwidth.
with regards to a transformer, that frequency at which the voltage gain has fallen off due to core saturation or high magnetizing current at low frequencies and leakage inductance and distributed capacitance at high frequencies. Bandwidth is an important determinant of transient response and output impedance.
The capacity to move data on an electronic line such as a bus or a channel. In short, the amount of data moved relative to a specific time frame. It is expressed in bits, bytes, or Hertz (cycles) per second.
The range of signal frequencies that a system or line can handle. In the case of audio bandwidth, it's a measure of sound fidelity.
Bandwidth measures how much information can be carried in a given time period (usually a second) over a wired or wireless communications link.In digital systems, bandwidth is expressed as bits (of data) per second.
A measure of how much information can be transmitted at once through a communication medium, such as a telephone line, fiber-optic cable, or radio frequency.
The amount of data that a communications line can carry measured in “bits-per-secondâ€.
a range of wavelengths or frequencies. For example, the bandwidth of a light source would be the range of wavelengths produced by the light source. Alternately, the bandwidth of an amplifier would be the range of frequencies the amplifier would amplify.
The width or amount of information you can send through a connection. Usually measured in bits-per-second.
The data transfer capacity of an electronic communications system. When a measurement of bandwidth is given, it primarily represents the maximum data transfer rate of such a system measured in kilobits per second (Kbps) or megabits per second (Mbps).
The transmission capacity of the lines that carry the Internet's electronic traffic. The greater the bandwidth, the more data that can be moved at one time. Lack of bandwidth can impose severe limitations on the ability of the Internet to quickly deliver information. See Also: Bps, Bit
For analog signals, bandwidth is the width, usually measured in hertz, of a frequency band f2 − f1. It can also be used to describe a signal, in which case the meaning is the width of the smallest frequency band within which the signal can fit.
(1) The limits of a band of frequencies. In a bandpass filter these limits, or passband edges, are generally the frequencies at which -3dB of attenuation is measured, relative to the attenuation at the maximum transmission point of the passband. (2) The number of hertz expressing the difference between the upper 3dB frequency and lower 3dB frequency of a bandpass filter (F-3dB - F-3dB).
The amount of data that can be sent through a connection, measured in bits-per-second (bps.) A full page of English text is about 16,000 bits, and a fast modem can move about 57,000 bits in one second. Full-motion, full-screen video requires roughly 10,000,000 bits-per-second, depending on the amount of data compression.
The amount of data traffic that can or is transported from one computer to another.
Measured in "bits" of data per second, this is the amount of data that can be carried by a communications link, such as a telephone link. Higher bandwidth allows faster transmission of data, just as a four-lane expressway carries more traffic than a two-lane road.
In telecommunications, the width of a communications channel which is directly proportionate to the amount or volume of communications that can travel over that channel. In this case, it is also known colloquially as the "size of the pipe."
The amount of data transmitted in a given amount of time; usually measured in bits per second, kilobits per second, and megabits per second.
A term designating the flow of data across the Internet. More specifically, it is used to mean the speed and amount of the data transferred. When a person "hogs bandwidth" it means that his or her actions on the Internet are of such quantity that other individuals using the same path are adversely affected, causing delays or disconnections. Within the confines of a newsgroup, "hogging bandwidth" means the individual is posting far too much data, usually binary files, causing other messages to be cycled out prematurely.
A measurement of the amount of data that can be sent over a network in a set period of time (usually seconds). The higher the available bandwidth, the faster the connection.
The quantity of data that can be sent across a link, typically measured in bits per second.
the amount of room there is for network data traffic to flow. FiberOptic cable has an extraordinary amount of bandwidth compared to twisted pair copper wire.
Information theory used to express the amount of information that can flow through a given point at any given time. Some points have narrow bandwidth (indicating not much information can flow through at one time), and others have high bandwidth (indicating a great deal of information can flow through at one time). This term is commonly used in reference to "wasted bandwidth," indicating that some (or most) of the information flowing by a point is of no use to a user. This term can include overloading a site's network connection (thus curtailing other users' use of the lines) or including lengthy signature files in Usenet postings or discussion groups. "Wasted bandwidth" is often relative: What one person views as wasteful might be essential to someone else.
The term describing how much information can be carried by a network or the connection between networks.
The amount of data that can be transmitted from a given server, solution, or data center.
The amount of data that can be transferred over a connection at any one time. For a standard connection through a phone line, the bandwidth can be up to 56 kilobits per second (56kbps), for a broadband connection it is normally at least 512kbps and can be up to 2Mb.
Capacity of a network or data connection, often measured in kilobits per second (kbps) for digital transmissions.
A term meaning both the width of a transmission channel in terms of Hertz and the maximum transmission speed in bits per second that it will support
A measure of data sent through a connection. In digital systems, it is measured in bits per second (bps). A 57.6 Kbps modem has twice the bandwidth of a 28.8 Kbps modem.
(1) A range of frequencies between two defined limits expressed in cycles per second, or hertz (Hz). It is also the information carrying capacity of a circuit. (2) The expression of the carrying capacity of the transmission line. In a digital transmission, the bandwidth is the range of transmission rates at which information can be sent in a particular medium. The bandwidth is expressed in kilobits per seconds or megabits per second (Mbps). (3) The capacity of a transmission channel.
A measurement of the volume of information that can be transmitted over a network at a given time.
The amount of data that can be transmitted within a set amount of time. Depending on the device, bandwidth is expressed in bits per second, bytes per second, or hertz.
Generally, the amount of information that can be transmitted over an information channel. High bandwidth Internet access means those audio, video, and graphics load quickly. High bandwidth videoconferencing means picture and sound will be clear. In computers, bandwidth is the speed at which data can be transmitted on a communications frequency. In telecommunications, the maximum frequency (spectrum) measured in Hertz or cycles per second, between the two limiting frequencies of a channel.
is the amount of data that can be carried in a given time period over a network. More technically, bandwidth is the width of the range of frequencies that an electronic signal occupies on a given transmission medium. In digital systems, bandwidth is usually expressed as bps (bits per second), Kbps (Kilo bits/second or Mbps (Mega bits / second). In analog systems, it's the number of cycles of change per second, or hertz. baud
Literally, the width of a band of electromagnetic frequencies. This is the data that flows along a given transmission path. Both digital and analog signals have a bandwidth. Bandwidth usage on the Internet increases with the amount of data transmitted or received. In terms of e-commerce application, when choosing a web hosting service a user must consider how their website will function, how much bandwidth that requires, and how their web hosting provider can service their bandwidth needs.
The amount of information your connection to the Internet can carry. On average typical phone lines can carry 1 kilobyte of information per second. For example a one page letter is about 15k and would take roughly 15 seconds to transfer from one computer to another over regular phone lines using a 14.4 kbps modem.
A measure of the display performance of a monitor. Expressed in MHz, bandwidth is the number of dots that can be displayed in a line per second. More strictly, it is the frequency response of the system between points where the signal level falls to a specified percentage of its maximum value (usually 50% or 75%). In principle, the greater the bandwidth, the better the monitor-although the quality of the picture tube is often the limiting factor affecting display performance, and for many standard monitors there is little point in increasing the bandwidth beyond a certain point. Typical bandwidths for monitors (Spring 2003) are as follows: VGA monitors: 18 MHz FGA+ monitors: 35 MHz CAD monitors: 100 MHz
How much data that can be transferred through a communications channel in a given period of time. Higher bandwidth services (like DSL) can transfer data more quickly, and are more suited for content such as streaming audio and video.
Bandwidth is often used in the context of data transfer such as a sensorâ€(tm)s bandwidth or an interface data bandwidth. Bandwidth is the difference between an upper and lower limit of frequency in cycles per second (hertz).
Also called video bandwidth. This is a measure of how much gross throughput a monitor can handle (in MHz). Bandwidth at a given pixel addressability is a function of the vertical refresh rate and monitor timing. see 'How do I calculate the minimum bandwidth required for a monitor?"
The size of the network “pipe†or channel for communications in wired networks. In wireless networks, it is determined in part by the range of frequencies that can carry a signal, as well as efficiency of the wireless network for supporting multiple “conversations†on any given frequency. Measured in Kbps or Mbps.
The amount of data capacity available between a device and the rest of the network. Usually bandwidth is measured in kilobits per second.
The difference, expressed in Hertz (Hz), between the highest and lowest frequencies of a transmission channel.
Bandwidth is a networks capacity for transferring an amount of data in a given time.
This is a measure, in some amount of bits per second, of the amount of data that can be sent over a particular cable, interface, or bus.
The amount of data that can travel through a communications circuit in one second.
The amount of information that can be transmitted across the lines.
The relative range of analog frequencies or digital signals that can be passed through a transmission medium, such as glass fibers, without distortion. The greater the bandwidth, the greater the information carrying capacity. Bandwidth is measured in Hertz (analog) or Bits per second (Bps) (digital).
A measure of capacity of information-carrying capacity on a communications channel. Narrowband: Less than or equal to 64 Kbps. Wideband: Digital rates between 64 Kbps and 1.544 Mbps (DSI) or 2.048 Mbps (E1)-LANs, bulk files transfer, video conferencing, and multimedia. Broadband: Greater than 44.736 Mbps (D3) or 34.368 Mbps (E3).
Amount of data that is sent over a connection. Most Web hosts have limits on the amount of bandwidth (data transfer) you can use over the course of a month. A 1GB bandwidth will typically support 30,000 - 50,000 page views, depending on the size of your pages.
The rate at which an I/O subsystem or component can transfer bytes of data. Bandwidth is especially important for applications that perform large sequential transfers. Bandwidth is also called the transfer rate.
Range of frequencies occupied by a signal. (For example, a telephone conversation only requires 3KHz of bandwidth while hand television signals require about 3MHz of bandwidth.) The 'necessary bandwidth' is the amount of spectrum required to transmit the signal without distortion or loss of information. In analogue systems, it is measured in cycles per second (Hertz) and in digital systems in binary bits per second (bps).
The terms Bandwidth and Data Transfer are frequently used interchangeably which can be misleading. Bandwidth refers to the total amount of data that can theoretically be transferred at any one time. Data Transfer refers to the amount of data that has actually been sent from the server to the client or vice versa. An analogy would be a road, the number of lanes on a road would represent Bandwidth, the number of cars that travel along that road over a given period of time would represent Data Transfer.
A measure of a system's response. It is the range of frequencies over which the system can respond to commands.
The difference between the highest and lowest frequencies of a channel measured in Hertz. Used to measure capacity.
The size of a network "pipe" or channel for communications in wired networks. In wireless, it refers to the range of available frequencies that can carry a signal
A range of consecutive frequencies comprised of a band (i.e. the US cellular bandwidth is 72 MHz wide between the frequencies of 824 MHz - 890 MHz) over which an antenna shall perform without the need of any adjustment.
The amount of information that can be transmitted over communication lines, one at a time. The higher the bandwidth, the faster a Web page loads. Limited bandwidth is the main reason for keeping graphics on Web pages to a minimum in number and file size.
a measure of a communication medium's capacity to transmit information. Technically, it is the difference, expressed in hertz, between the highest and lowest frequencies that the medium can transmit.
In wireless communications, bandwidth refers to the range of available frequencies that can carry a signal. For digital, bandwidth is usually expressed in bps or Kbps. For analog, bandwidth is expressed in Hertz (Hz). See also bps, Kbps and Hertz.
The capacity of a cable or wire network to carry information. The higher the bandwidth, the more users can transmit and receive, and the faster files and information can be moved.
Generally, the information-carrying capacity of telephone or network wiring. High bandwidth allows fast or high-volume transmission.
The amount of data that can be transmitted across a communication channel in a given period of time.
Bandwidth is the difference between the lower and upper frequencies which can be set along a communication channel. Bandwidth is quoted in cycles per second - hertz or HZ. Bandwidth is also used to specify digital data transmission channels and Hz then refers to bits per second - eg. the Bandwidth of Ethernet is 10MHz.
A term used to describe the data carrying capacity of a connection. It is usually measured in bits or bytes per second.
A range of frequencies over which a certain phenomenon is to be considered.
A range of frequencies on the electromagnetic spectrum.
How much data capacity a particular network segment has to offer. For example a 56k modem connection has a bandwidth of 56,000 bits per second.
The amount of data you can send through a connection, usually measured in bits per second. A full page of English text is about 16,000 bits. A 56K modem can move about 56,000 bits (3.5 pages of text) in one second. The greater the bandwidth, the more data that can be moved at one time. Lack of bandwidth can impose severe limitations on the ability of the Internet to quickly deliver information. See Also: Bps, Bit
the measure of a range of frequencies containing an upper and lower limit
refers to a measure of the amount of data that can be transmitted through a connection (such as a fiber optic cable) at one time. Measured in bits per second (bps). Examples include T1, T3, DS3, OC-12, OC-48, etc. For bandwidth usage see data transfer.
The number of bytes transferred in a second between the system memory bus and a DRAM bank of main memory (not just a single DRAM component). The most common main memory bus in computers today transfers 8 bytes (64 bits) at a time. Even if the system uses 72 bits, 8 bits are for ECC and the data transferred is still 8 bytes at a time. This is usually stated in Megabytes or Gigabytes per second (MB/s or GB/s).
The difference between the highest and lowest frequencies of a transmission channel; in general, when bandwidth increases, so does the quantity of information that can be sent through the circuit during a given time period.
A measure of capacity in a channel for electronic communication. Bandwidth is often expressed by users as a measurement of speed. The higher the bandwidth, the less time it takes to transmit information.
The relative range of frequencies that can be passed by a transmission medium. Greater bandwidths mean a higher information carrying capacity of the transmission circuit. Usually measured in Hertz, bandwidth is assessed as the number of bits that can be transferred per second.
A term used to describe the capacity of a physical circuit or piece of equipment to transport or switch information and is often expressed in terms of bits per second. Common abbreviations are Kbits, Mbits, and Gbits for kilobits (thousands of bits), megabits (millions of bits), and gigabits (billions of bits), respectively.
The rate at which information travels through a network connection, usually measured in bits per second, kilobits (Kb - thousand bits) per second, or megabits (Mb - million bits) per second.
is the difference between the lowest and highest frequency components of a signal or device.
In website hosting, bandwidth is the amount of information downloadable from the webserver over a prescribed period of time, i.e. a month, a week. If you download a total greater than allowed bandwidth per month, the bandwidth limit will have been exceeded.
describes the volume of information that can be sent over a communication link.
Bandwidth is just as important, maybe even more important when you're looking for a good web host. Every time your page loads in someone's browser (Internet Explorer, Netscape Navigator, ect), a certain amount of bandwidth is used up. The more images, downloads (.zip, videos, music) and content your site has, the more bandwidth it will use up. If you get a lot of visitors then you're going to use a lot of bandwidth. Generally, I recommend for 100MB of space, at least 15GB of bandwidth. Bandwidth didn't use to be an issue with free hosts, but now that it is make sure that you have enough so that your site doesn't go down if you run out.
The size of a network "pipe" or channel for communications. Usually measured in Bits Per Second (BPS or MB/s)
size of the data pipeline; see also Broadband; if you increase bandwidth, more data can flow at once
A measure of the capacity of data that can be moved between two points in a given period of time.
the width of the band over which frequencies are transmitted. So what's a band? A band is a portion of the electromagnetic spectrum, defined by the lowest and highest frequencies in it. The bandwidth is the difference between the highest and lowest frequencies. The greater the bandwidth, the greater the carrying capacity. The Federal Communications Commission allocates portions of the band. For example, the band for VHF television broadcast is defined from 54 to 88 million cycles per second. And, of course, the band contains many "channels".
refers to the amount of information (eg text, images, video, sound) that can be sent through a connection. The greater the bandwidth, the more information that can be carried. The bandwidth is usually measured in bits per second. Full-motion, full-screen video requires about 10,000,000 bits per second while a full page of text is about 16,000 bits.
The amount of data you can send through a connection. It is measured in bits-per-second.
A range within a band of frequencies or wavelengths the amount of data that can be transmitted in a fixed amount of time. For digital devices, the bandwidth is usually expressed in bits per second (bps) or bytes per second
In simple terms, the size of the pipe through which data travels, or the amount of transport capacity a system, or part of a system has. When discussing frequency, it is measured in hertz, or the number of cycles per second. When talking about data, the measure is bits per second (bps).
Range of frequencies over which AC voltages are generated (range of frequency over which an instrument provides accurate readings).
The range of frequencies passing through a given circuit. The greater the bandwidth, the more information can be sent through the circuit in a given amount of time.
Measurement of data flow capabilities.
The amount of information that a network can carry, often measured in bits per second (bps). Typical network wiring range in bandwidth as follows: dialup modems (28.8 or 56 Kbps), ISDN (64 or 128 Kbps), DSL (roughly 640 Kbps - 6 Mbits), T 1 (l. 544 Mbps), Token Ring (4 or 16 Mbps), Ethernet (10, 100 or 1000 Mbps), T3 (45 Mbps), and FibreChannel (1 Gigabit equals 100Mbyte). Most ThinClient technologies are optimized for the lower end of the spectrum (for dialup or Wide Area Networks) or the middle (for Local Area Networks).
A synonym for data transfer rate - the amount of data that can be carried from one point to another in a given time period (usually a second). This kind of bandwidth is usually expressed in bits (of data) per second (bps). Occasionally, it's expressed as bytes per second (Bps). A modem that works at 57,600bps has twice the bandwidth of a modem that works at 28,800bps.
The total maximum capacity of a network or modem connection. The modem bandwidth is generally measured in BPS. The more bandwidth the faster you will be able to receive and/or send information. If bandwidth is being shared you will likely not be able to reach the maximum capacity of the bandwidth when other computers, users or other devices are utilizing the same line.
The capacity of a communication channel to carry information. The greater the bandwidth, the faster the data transfer. The amount of data sent or received over any given time is limited by bandwidth.
The amount of data a wire or other computer network connection can carry at any given time. The greater the bandwidth, the faster the data transfer capability.
In digital systems, the speed of transmission of a communications line, measured in bits per second (bps). For example, a modem with a data speed of 57,600 bps has twice the bandwidth of a modem with a data speed of 28,800 bps. (2) In analog systems, the difference, expressed in hertz (Hz) between the highest and the lowest frequencies of a range of frequencies. For example, a telephone has a bandwidth of 3,000 Hz, which is the difference between the lowest (300 Hz) and the highest (3,300 Hz) it can accommodate.
The amount of data which can be delivered through a given channel. Measured in bit s per second.
The transmission capacity of a telecommunications system. The greater the bandwidth, the greater the amount of digital information that can be transmitted per second.
A measure of how much data can be transmitted down any connection. For example a normal telephone line with the latest modems has a bandwidth of 56,000 bits per second.
Bandwidth affects how much information can be sent across a network in a certain time. Imagine for a moment, just how long it would take to put out a fire with a garden hose, instead of a much wider fire hose. In the same way that the size of the hose affects how fast the water gets through, bandwidth affects how fast information gets through. e.g. Sending a video with low bandwidth takes longer than with high bandwidth.
The maximum information-carrying capacity of an electronic connection or network.
The frequency range of a data transmitting/receiving device, which dictates how much data per unit of time can flow.
The range of frequencies expressed in Hertz that can pass over a given transmission channel. This determines the rate at which information can be transmitted through that channel. For instance, a voice transmission by telephone requires a bandwidth of about 3000 cycles per second (3KHz). A TV channel occupies a bandwidth of 6 million cycles per second (6 MHz) in terrestrial Systems.
How much "stuff" you can send through a connection. Usually measured in bits-per-second. A full page of english text is about 16,000 bits. A fast modem can move about 15,000 bits in one second. Full-motion full-screen video would require roughly 10,000,000 bits-per-second, depending on compression. Back to About HIP
The maximum speed by which data can be transmitted over a wire or wireless network connection.
Bandwidth or data is the measure of the traffic generated from your website. It is measured in bytes (KB), mega bytes (MB), giga bytes (GB). If a website delivers 100,000 pages each month with average page file size of 20 KB , the bandwidth per month will be 2 GB. Almost 80% of websites on the internet uses less than 5 GB of bandwidth per month.
How much data can flow on a given transmission path within a given amount of time. Historically, bandwidth referred to the width of the range of frequencies on which electronic signals are carried on a given transmission medium. We are able to provide bandwidth solutions from simple e-mail messages to larger video content.
Bandwidth is the measurement of data transfer capacity your host supports for your web site. Bandwidth is generally measured on a monthly basis.
In the hosting industry, this term is frequently used synonymously with "Transfer" to mean the total amount of data transferred over the period of one month. Typically measured in GB. This describes the quantity of data that can pass through an Internet connection over the period of one second. (i.e. 1000 bits-per-second, or 1Kbps).
The amount of data that can be sent through a connection before the carrier becomes full, usually measured in bits per second (bps).
A very diminishing natural resource... bandwidth is a measure of the amount of data passing through a network at a given time. Things like huge images on web pages and needless questions posted to Usenet newsgroups waste bandwidth which could be better utilized for transferring information.
the difference between the highest and the lowest possible frequencies that are available for signalling over a channel.
The measurement of the size of your internet connection - for example, 256Kbps or 1MB. Think of it as a pipe, but one through which you can send data. Bigger bandwidth means you can send more stuff at once.
A range of wavelengths or frequencies passed or processed. Typically used in both electronics and optics to designate the operating range of a filter or electronic component.
is a description of how much information can squeeze through a data pipe. Your intranet has high bandwidth; your dial-up connection is low bandwidth. Also used anthropomorphically, e.g. "He has low bandwidth" is equivalent to "He is a taco short of a combo plate" or "Her elevator doesn't go all the way to the top."
The amount of spectrum available to each communications licensee. For digital conversion, the FCC has allocated 6 MHz (megahertz) of the broadcast spectrum for each television broadcaster. That channel will carry 19.4 Mb/s of data. It can be used for one HDTV signal, or four multicast digital signals, and/or data transmission.
Bandwidth refers to how fast data flows through the cable that travels to your computer. Bandwidth is usually measured in kilobits per second or megabits per second.
commonly it is the size of the channel used by the radio (the amount of frequency available to the system). By extension, it can also sometimes refer to the speed of the system (the bit rate).
The range of frequencies available for signalling; the difference expressed in Hertz between the highest and lowest frequencies of a band.
The range of frequencies that a station is assigned to broadcast in by the FCC. Bandwidth is measured in kilohertz in the AM range, and megahertz in the FM. It's also used to identify a station's position on the radio dial.
How much information you can send through a connection. Usually measured in bits-per-second (bps), kilobytes-per-second (Kbps), or megabytes-per-second (Mbps). A full page of English text is about 16,000 bits. A fast modem can move about 15,000 bits in one second.
Refers the capacity of a connection to transport digital content. It is usually measured in transfer speed (bits-per-second). Generally speaking, text transfers more quickly and requires less bandwidth than audio or video. Very effective compression can change that somewhat.
Rate at which data is transferred over a communications medium (i.e. a T1 internet connection has a bandwidth of 1.544 MBPS)
The range of frequencies handled by a device or system.
A range of frequencies, expressed in Hertz (Hz) occupied by a modulated carrier on the range of frequencies which can be transmitted through a communication system. Bandwidth is one measure of the information carrying capacity of a transponder. The wider the bandwidth, the more information which can be transmitted.
The capacity of a network connection for carrying information. Video and streaming audio require high bandwidth connections; text and small images require less bandwidth. Exceeding the bandwidth of a connection results in slow transfer of information.
The information carrying capacity of a fiber. The bandwidth for a given wavelength is the lowest frequency at which optical power has decreased by 3 dB and is expressed in MHzokm.
Range of transmission frequencies a network can use, expressed as the difference between the highest and lowest frequencies of a transmission channel. In computer networks, greater bandwidth indicates a faster data transfer rate capacity.
(1) In an antenna, the range of frequencies within which its performance, with respect to some characteristic, conforms to a specified standard. (2) In a wave, the least frequency interval outside which the power spectrum of a time-varying quantity is everywhere less than some specified fraction of its value at a reference frequency. (3) The number of cycles per second between the limits of a frequency band.
The total frequency range of any system, usually specified as something like 20Hz to 20kHz or -3dB.
A measure of capacity - for example, a LAN uplink has a bandwidth of 100 Mb/s.
The electronic equivalent to the size of the pipe needed to move data from one point to the next. The amount of available bandwidth dictates the amount of information (pages, text, graphics, video, sound, etc.) that can be downloaded through a connection. iPlan can manage a client's site based on the amount of data transfer capacity used per month.
Bandwidth refers to the capacity of a communications line/channel to transmit/receive information and is measured in bits, bytes, kilobytes, megabytes and gigabytes.
That is the amount of data(files, images, HTML documents) that can be transfered through an Internet line for a given period of time. Telephone lines have the lowest bandwidth. Fiber optics have the highest bandwidth. Bandwidth is usually measured in the number of bits that can be transmitted is a second, i.e., Mbps.
The amount of capacity occupied by an individual communication signal.
A measure of the volume of data that can flow through a communications link. Image data tend to exist as large data sets; thus moving image data sets from one computer to another requires high bandwidth or performance will be slowed. Also known as throughput.
The measure of the amount of data you can send through a connection. Usually measured in bits-per-second. A full page of English text is about 16,000 bits. A fast modem has the bandwidth of about 57,000 bits in one second. The more bandwidth, generally, the faster the connection.
The amount of data that can be transmitted per unit of time. For digital purposes, bandwidth is usually expressed in bits per second(bps) or bytes per second.
Amount of data you can send through a connection. Usually measured in bits-per-second (bps). A 56K modem transfers data up to 53Kbps, or 53,000 bits-per-second. Terms is also sometimes used in place of "data transfer."
Information theory used to express the amount of information that can flow through a given point at a given time. Usually measured in bits per second (bps). Also referred to as data transfer.
Frequency range. A hi-fi system can typically deliver sound between 20Hz and 20KHz (20 and 20,000 cycles). Many computer music systems can only produce sound in relatively narrow bandwidths - up to 10K for instance - but these can make acceptable sounds. The human auditory circuits classify everything above 5K as very high treble. When high- end is missing clarity and sparkle is the most noticeable lack.
A measurement of frequency use of capacities. A relative range of frequencies. Bandwidth is usually started from bits per sec(bps), kbps, mbps . The amount of data that can be transmitted at a given moment to a server.
In telecommunications, a measurement of how much data can be moved along a communications channel per unit of time, usually measured in bits per second.
(Wireless) Width of frequency band. For analog signals, this is measured in Hertz. With digital signals, bandwidth describe the amount of data that can be transferred through a digital connection in a given time, measured in bits or bytes per second.
Width of the band of frequencies between the half power points.
The physical characteristic of a telecommunications system that indicates the speed at which information can be transferred. For ADSL, speeds of up to 2 Mb/s are offered, which are sufficient to transmit a video signal. Technologies such as VDSL offer the possibility of providing data rates of up to 15 Mb/s.
speed of online data transmission via the internet. LYCOS Germany and Spray Sweden offer tailor-made broad-band and narrow-band internet access packages.
A high-speed line or series of connections that forms a major pathway within a network. The term is relative as a backbone in a small network will likely be much smaller than many non-backbone lines in a large network.
The range of frequencies a circuit will pass. Analog circuits typically have a bandwidth limited to that of the human voice (about 300Hz to 3kHz). The square waves of a digital signal require a high ... more
This is the capacity for traffic on any computer network or the Internet. Usually measured in bps (bits per second) or variants kbps (kilobits per second or thousand bits per second) ... more
The data-transfer capacity on the Web; the Internet equivalent of a pipeline: a wider bandwidth allows more data to flow through. But current bandwidth availability limits marketers' ability to use depth-of-sale enhancements such as full-motion video.
is the amount of data transferred from one server to another, be it uploading data to the server or downloading from it. Most hosting companies set limits on the amount of data transferred, or bandwidth, and how much you pay depends on how much bandwidth you use each month. Usually measured in bits-per-second. A full page of text is about 16,000 bits. A fast modem can move approximately 15,000 bits in one second. Full-motion full-screen video requires about 10,000,000 bits-per-second, depending on compression.
The range of frequencies for which performance falls within specified limits.
refers to the amount of data that can be transferred over the Internet in a given amount of time. A 14.4 kbps modem has a very narrow bandwidth and is very slow. A T-100 ISDN link has a high or broad bandwidth and is very fast.
The characteristic of certain electronic circuits that specifies the usable range of frequencies that pass from input to output. The range of frequencies over which gain is relatively constant.
The range of electrical frequencies a device can handle.
A Range of frequencies. With audio recordings,bandwidth refers to the sound system's or recording's ability to capture the frequency-response range of the ensemble and soloists. With regard to a home playback system, it refers to the "audible" bandwidth the system should be able to reproduce, usually from 20 or 30 Hz up to 15 or 20 kHz. See also Frequency.
In analog communications, the difference between the highest and lowest frequencies in a given range. For example, an analog telephone line accommodates a bandwidth of 3,000 hertz (Hz), the difference between the lowest (300 Hz) and highest (3,300 Hz) frequencies it can carry. In digital communications, bandwidth is expressed in bits per second (bps). See also: bits per second (bps)
A measure of the range of frequencies that an electronic signal occupies on a given communications channel. The greater the range of frequencies, the more data and thus information can be transmitted in a given time.
A capacity of connection (including wires and radio frequency transmissions), and the amount of data that can travel through the connection.
The rate at which a network segment can transfer data.
A measure of the usable frequency range of a component or application. It equals the difference between the upper frequency and the lower frequency and can be expressed in Hertz or as a percentage.
A measure of the capacity of a communications channel, The higher a channel's bandwidth, the more information it can carry.
(BW): The range of frequencies within which a fiber optic waveguide or terminal device can transmit data or information.
The data-carrying capacity of a transmission medium, usually measured in cycles per second (Hertz). Represents the difference between the highest and lowest frequencies available for signals. The bandwidth varies based on the transmission method employed.
The data capacity between computer connections. In podcast hosting terminology, it also refers to the amount of transferred data for a specific period of time - usually month.
Frequency range for output signals
A measurement of transmission capacity. The greater the bandwidth, the greater the information-carrying capability of the transmission medium. Analog transmission is measured in cycles per second. Digital transmission is measured in bits of information per second.
Data rate transfer in K bits, K bytes, M bits, and M bytes per second.
The amount of data that can be exchanged by communications channels in a given amount of time. Given the same amount of time, a wider bandwidth will allow more information to be relayed in that time than a smaller one.
The rate information travels from one place to another either inside a computer or between computers. Bandwidth is usually measured in bits per second, kilobits (thousands of bits) per second, or megabits (millions of bits) per second. A 28.8 modem allows for a connection of 28.8 kilobits per second.
the quantity of data that can effectively be sent through a connection, measured in bits-per-second. The greater the bandwidth, the faster the transmission of information. High bandwidth also provides clearer images on a computer’s display monitor while online.
Bandwidth refers to the speed that information can travel, measured in bits per second. It determines the amount of stuff you can send through a connection. Think of it as a pipe - only a certain amount of information can fit through at a time. Some servers will have better bandwidth than others, allowing quicker access and more users at a time. A fast modem can move about 57,000 bits in one second.
The capacity for traffic on any computer network (including the Internet). Usually meansured in bps (bits per second) or varients thereof (kbps - kilobits per second of thousand bits per second, etc).
The amount of information that can be sent across the Internet in a given time, usually measured in bits-per-second. A full page of English text is about 16,000 bits. A fast modem can move about 57,000 bits in one second. Full-motion, full-screen video would require roughly 10,000,000 bps, depending on compression. Large files are either slow to download and view, or require greater bandwidth to open quickly.
Abbr. BW In a general sense, this term describes the information-carrying capacity of a given transmission medium. It is a measurement of how much information can be carried in a given time period (usually a second). It can apply to analog telephone (POTS), Ethernet networks, digital computer system buses, radio frequency signals, and VGA video signals used to connect projectors and monitors. See our TechNote About Bandwidth for more information.
is the amount of information traveling through a single channel at any one moment in time. If you are using a dial up of 56 K than you can expect to receive a maximum of 56 K bits per second of information. If you are using a cable or Asymmetric Digital Subscriber Line (ADSL) connection to the internet you can expect to receive a maximum of about 300 K bits per second of information
The amount of data (i.e., text, images, video, sound) that can be sent through a given communications circuit.
The difference between the highest and lowest frequencies available for network signals. A loose term used to describe the throughput capacity (measured in Kilobits or Megabits per second) of a specific circuit. Usually measured in bits per second. A full page of English text is about 16,000 bits. A fast modem can move about 15,000 bits in one second.
The width of a communications channel. In telecommunications or analog communications, this is measured in cycles per second or HERTZ (see also). In computers or digital communications, bandwidth is measured in bits per second. Note that bandwidth is not usually measured in BAUD (see also). Though BAUD and BPS are often interchangeable when referring to serial communications, BAUD is usually reserved for that usage only.
The "data-carrying" capacity of a network connection giving an indication of speed for data transmission.
The difference between the highest usable frequency of a device (upper frequency limit) and the lowest usable frequency of the device (lower frequency limit) - measured at the half-power points. The difference between the limiting frequencies within which performance of a device, in respect to some characteristic, falls within specified limits. The difference between the limiting frequencies of a continuous frequency band.
Transmission capacity. It refers to the size of a channel through which data has to travel. Broadcast channels, whether for digital or analog programming, offer 6MHz of bandwidth.