Up to the maximum bandwidth of the limiting side of the connections. So if one side is 10 Mbit and the other side is 100 Mbit, then the max sustainable throughput would be 20 Mbit-- 2 connections at 10 Mbit each.
USB1 - 1.5 Mbit/second and 12 Mbit/secondUSB2 - 1.5 Mbit/second, 12 Mbit/second and 480 Mbit/second (but bus overhead limited this to 280 Mbit/second in actual usage)USB3 - 1.5 Mbit/second, 12 Mbit/second, 480 Mbit/second and 5.0 Gbit/second (but bus overhead limited this to 4.0 Gbit/second in actual usage)USB3.1 - 1.5 Mbit/second, 12 Mbit/second, 480 Mbit/second, 5.0 Gbit/second and 10 Gbit/second (but bus overhead limited this to 7.2 Gbit/second in actual usage)See: http://en.wikipedia.org/wiki/USB#Version_history
There are many Linksys Router Wireless supporting different wireless standard, such as 802.11a, 802.11b, 802.11g and 802.11n (draft n). I will summarize all wireless standards in the table.ProtocolFrequencyTypical Data RateMax Data rateRange802.11a5 GHz23 Mbit/s54 Mbit/s115 feet802.11b 2.4 GHz4.5 Mbit/s11Mbit/s115 feet802.11g2.4 GHz19 Mbit/s54 Mbit/s125 feet802.11n5GHz and/or 2.4GHz74 Mbit/s300 Mbit/s (2 streams)230 feet
The Tritton has a 100 Mbit connection, which can easily stream a HD movie.
The typical data bit rate for a business Internet connection is 400 Mbit/s. This is much more than the typical data rate for a residential Internet connection which is 100 Mbit/s.
FireWire 400: 400 Mbit/s half-duplex data rates (the actual transfer rates is 393.216 Mbit/s) Firewire 800: transfer rate of 786.432 Mbit/s full-duplex
USB 1.0 has a specified data rate of 1.5 Mbit/s for "low speed" and 12 Mbit/s for "full speed" USB 2.0 has a maximum speed of 480 Mbit/s which has been being called "high speed" however, USB 3 is on the way, (to be called "super speed") and will be capable of transfer speeds up to 5.0Gbps in full duplex. FYI: 8 bits = 1 byte (roughly) 1,024 bytes = 1 Kb (kilobyte) 122Kb = 1 Mbit
a mbit more specific please
It is referring to internet wifi speeds. B - 11 MBIT/S G - 56 MBIT/S A - 56 MBIT/S N - 100 MBIT/S So if it is Wi-Fi B/G, your wireless card can only connect to a B/G network, meaning the speeds above are the fastest you would get even if you had faster broadband unless you upgraded your card.
According to IEEE 1541-2002, lower case b means "bits"; Upper case B means "bytes". There are 8 bits in a byte.Therefore 8 Mbit equals 1 MB.
Short for asymmetricdigitalsubscriberline, ADSL is a type ofDSL broadband communications technology used for connecting to the Internet. ADSL allows more data to be sent over existing copper telephone lines (POTS), when compared to traditional modem lines. A special filter, called a micro filter, is installed on a subscriber's telephone line to allow both ADSL and regular voice (telephone) services to be used at the same time. ADSL requires a special ADSL modem and subscribers must be in close geographical locations to the provider's central office to receive ADSL service. Typically this distance is within a radius of 2 to 2.5 miles. ADSL supports data rates of from 1.5 to 9 Mbps when receiving data (known as the downstream rate) and from 16 to 640 Kbps when sending data (known as the upstream rate).Asymmetric digital subscriber line (ADSL) is a type of digital subscriber line technology, a data communications technology that enables faster data transmission over copper telephone lines than a conventional voiceband modem can provide. It does this by utilizing frequencies that are not used by a voice telephone call.· A splitter, or DSL filter, allows a single telephone connection to be used for both ADSL service and voice calls at the same time.· ADSL can generally only be distributed over short distances from the telephone exchange, typically less than 4 kilometres (2 mi), but has been known to exceed 8 kilometres (5 mi) if the originally laid wire gauge allows for further distribution.At the telephone exchange the line generally terminates at a digital subscriber line access multiplexer(DSLAM) where another frequency splitter separates the voice band signal for the conventional phone network. Data carried by the ADSL are typically routed over the telephone company's data network and eventually reach a conventional Internet Protocol network.ADSL standardsVersionStandard nameCommon nameDownstream rateUpstream rateApproved inADSLANSI T1.413-1998 Issue 2ADSL8.0 Mbit/s1.0 Mbit/s1998ADSLITU G.992.1ADSL (G.DMT)12.0 Mbit/s1.3 Mbit/s1999-07ADSLITU G.992.1 Annex AADSL over POTS12.0 Mbit/s1.3 Mbit/s2001ADSLITU G.992.1 Annex BADSL over ISDN12.0 Mbit/s1.8 Mbit/s2005ADSLITU G.992.2ADSL Lite (G.Lite)1.5 Mbit/s0.5 Mbit/s1999-07ADSL2ITU G.992.3ADSL212.0 Mbit/s1.3 Mbit/s2002-07ADSL2ITU G.992.3 Annex JADSL212.0 Mbit/s3.5 Mbit/sADSL2ITU G.992.3 Annex LRE-ADSL25.0 Mbit/s0.8 Mbit/sADSL2ITU G.992.4splitterless ADSL21.5 Mbit/s0.5 Mbit/s2002-07ADSL2+ITU G.992.5ADSL2+24.0 Mbit/s1.3 Mbit/s2003-05ADSL2+ITU G.992.5 Annex MADSL2+M24.0 Mbit/s3.3 Mbit/s2008ADSL uses standard telephone lines to transmit upstream and downstream data on a digital frequency, which sets these datastreams apart from the analog signals telephones and fax machines use. Because the ADSL signal is operating on a different frequency, the telephone can be used normally, even when surfing the Web with ADSL service. The only requirement will probably be inexpensive DSL filters on each phone or fax line, to remove any "white noise" on the line that might be generated from ADSL service.
1000 Mbit/s