Part: EPF10K30AQC240

Index Files

Offer Index 63

zilog,
irf,
astec,
coiecnagt,
fair,
lambda,
micronas,
international rectifier,
mos

 
Google Search

Part Numbers

Previous Parts:EL4093CS,EL4430CS,EL5172ISZ,EL6295CLZ,EL7457CS16,EL7457CU,EL8100ISZ-T7,ELJFC100KF,EP10K40RC240-4,EP1C3T144C8/ALTERA,EP1SGX40GF1020I6,EP20K600EFC33-2,EP2A40F672C7,EP2C8Q208C8,EP610IDC-15,EPA240D

The followings are offers provided by our member in Electronic Components Offer site about the following parts: EPF10K30AQC240":

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 12 06:33:00 UTC 2006EPF10K30AQC240 (from hkin.com)2005QFP new originalALTERA452BARCLARYS(HK) Electronics Co.,Ltd
Tue Sep 12 06:33:00 UTC 2006EPF10K30AQC240 (from standard server 2)2005QFP new originalALTERA452BARCLARYS(HK) Electronics Co.,Ltd
Tue Sep 12 06:33:00 UTC 2006EPF10K30AQC240 (from parts server 2)2005QFP new originalALTERA452BARCLARYS(HK) Electronics Co.,Ltd
Tue Sep 12 06:33:00 UTC 2006EPF10K30AQC240 (from hkin.com 2)2005QFP new originalALTERA452BARCLARYS(HK) Electronics Co.,Ltd
Tue Sep 12 06:33:00 UTC 2006EPF10K30AQC240 (from hkin.com 2)2005QFP new originalALTERA452BARCLARYS(HK) Electronics Co.,Ltd
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-1 (from hkin.com)ALTERA99\19QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-1 (from standard server 2)ALTERA99\19QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-1 (from parts server 2)ALTERA99\19QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)ALTERA99\19QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)ALTERA99\19QFP100ANWELL COMPONENTS CO.
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-1 (from hkin.com)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-1 (from standard server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-1 (from parts server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-1 (from hkin.com)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-1 (from standard server 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-1 (from parts server 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-1 (from hkin.com 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)ALTERA2004+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)ALTERA2004+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)ALTERA2004+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA2004+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA2004+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)ALTERA99\02QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)ALTERA99\02QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)ALTERA99\02QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA99\02QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA99\02QFP100ANWELL COMPONENTS CO.
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)ALTERA0402+3ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)ALTERA0402+3ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)ALTERA0402+3ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA0402+3ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA0402+3ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)ALTERA04+54ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)ALTERA04+54ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)ALTERA04+54ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA04+54ANCHI (HONG KONG) ELECTRONICS CO
Fri Sep 15 05:36:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERA04+54ANCHI (HONG KONG) ELECTRONICS CO
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-2 (from hkin.com)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-2 (from standard server 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-2 (from parts server 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Sat Sep 30 01:40:00 UTC 2006EPF10K30AQC240-2 (from hkin.com 2)ALTERAQFP13Weier Electronics Technology (HongKong) Compay
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2(1-3) (from hkin.com)ALTERA99\29QFP144ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2(1-3) (from standard server 2)ALTERA99\29QFP144ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2(1-3) (from parts server 2)ALTERA99\29QFP144ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2(1-3) (from hkin.com 2)ALTERA99\29QFP144ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-2(1-3) (from hkin.com 2)ALTERA99\29QFP144ANWELL COMPONENTS CO.
Thu Sep 28 05:25:00 UTC 2006EPF10K30AQC240-3 (from hkin.com)ALTERA05+500KOSON ELECTRONICS TECHNOLOGY (HK) CO., LIMITED
Thu Sep 28 05:25:00 UTC 2006EPF10K30AQC240-3 (from standard server 2)ALTERA05+500KOSON ELECTRONICS TECHNOLOGY (HK) CO., LIMITED
Thu Sep 28 05:25:00 UTC 2006EPF10K30AQC240-3 (from parts server 2)ALTERA05+500KOSON ELECTRONICS TECHNOLOGY (HK) CO., LIMITED
Thu Sep 28 05:25:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA05+500KOSON ELECTRONICS TECHNOLOGY (HK) CO., LIMITED
Thu Sep 28 05:25:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA05+500KOSON ELECTRONICS TECHNOLOGY (HK) CO., LIMITED
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-3 (from hkin.com)ALTERA2004+QFP150ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-3 (from standard server 2)ALTERA2004+QFP150ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-3 (from parts server 2)ALTERA2004+QFP150ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA2004+QFP150ANWELL COMPONENTS CO.
Wed Sep 27 12:49:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA2004+QFP150ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3 (from hkin.com)ALTERA0043+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3 (from standard server 2)ALTERA0043+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3 (from parts server 2)ALTERA0043+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA0043+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)ALTERA0043+QFP100ANWELL COMPONENTS CO.
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-3 (from hkin.com)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-3 (from standard server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-3 (from parts server 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Fri Sep 8 09:58:00 UTC 2006EPF10K30AQC240-3 (from hkin.com 2)QFPALTERA250LI XIN CHUANG ZHAN TECHNOLOGY
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3(-2) (from hkin.com)ALTERA04+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3(-2) (from standard server 2)ALTERA04+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3(-2) (from parts server 2)ALTERA04+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3(-2) (from hkin.com 2)ALTERA04+QFP100ANWELL COMPONENTS CO.
Wed Sep 27 12:48:00 UTC 2006EPF10K30AQC240-3(-2) (from hkin.com 2)ALTERA04+QFP100ANWELL COMPONENTS CO.

Last record EPA240D:

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 26 09:24:00 UTC 2006EPA240D (from hkin.com)RIKEI02+SOT-89168JINLONGFENG (H.K) SEMICONDUCTOR LIMITED

Last record EP610IDC-15:

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 18 06:00:00 UTC 2006EP610IDC-15 (from hkin.com)ALTERA02+DIP241000Aosiwei Electronics Co.,Ltd.

Last record EP2C8Q208C8:

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 26 05:05:00 UTC 2006EP2C8Q208C8 (from hkin.com)05+PBF10000TOPSUN (HONGKONG) ELECTRONIC CO

If you want to find more about EPF10K30AQC240, please visit us on HKin


vid:offerengine20111021

EPF10K30AQC240,EPF10K30AQC240,Comments from user about EPF10K30AQC240: As clock speeds increase the depth of the pipeline increases with it, and some modern processors may have 20 stages or more. This creates a much larger current between the collector and emitter, controlled by the base-emitter current. In this case, it might be possible to use VHDL to write a testbench to verify the functionality of the design using files on the host computer to define stimuli, to interact with the user, and to compare results with those expected. Each logic gate is in turn represented by a circuit diagram describing the connections of the transistors used to implement it in some particular logic family. Occasionally the physical limitations of integrated circuits made such practices as a bit slice approach necessary. Flip-flops and latches are used as data storage elements. This may be done to limit the bandwidth to a narrow band centered around the intended operating frequency. Semiconductor components benefit from Moore's Law, an observed principle which states that, for a given price, semiconductor functionality doubles every two years. Anything related to :EPF10K30AQC240, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: EPF10K30AQC240, search hkinventory: EPF10K30AQC240, For quantities that vary exponentially with temperature, such as the rate of a chemical reaction, any temperature coefficient would be valid only over a very small temperature range., the power must be disconnected from the device. Once a fault is detected, contacts within the circuit breaker must open to interrupt the circuit; some mechanically-stored energy (using something such as springs or compressed air) contained within the breaker is used to separate the contacts, although some of the energy required may be obtained from the fault current itself. Most of them should not be used in linear operation. Datasheet Dir, DataSheet Archive
Continued increases in microprocessor capacity have rendered other forms of computers almost completely obsolete (see history of computing hardware), with one or more microprocessors used in everything from the smallest embedded systems and handheld devices to the largest mainframes and supercomputers. With the ability to put large numbers of transistors on one chip, it becomes feaible to integrate memory on the same die as the processor. Competing projects would result in the IBM POWER and Sun SPARC architectures. Such a model is processed by a synthesis program, only if it is part of the logic design. Furthermore, much less material is used to construct a packaged IC die than to construct a discrete circuit. Energy is stored in the electrostatic field. The power MOSFET has the advantages of the majority carrier devices, so it can achieve very high operating frequency, but can't be used with high voltages. This creates a much larger current between the collector and emitter, controlled by the base-emitter current.
any passive component and active component such as:Diode, Passive filters are uncommon in monolithic integrated circuit design, where active devices are inexpensive compared to resistors and capacitors, and inductors are prohibitively expensive. The desire for High definition (HD) content has led the industry to develop a number of technologies, such as WirelessHD or ITU-T G. The desire for High definition (HD) content has led the industry to develop a number of technologies, such as WirelessHD or ITU-T G. One rarely finds modern circuits that are entirely analog. For example driver circuit
EPF10K30AQC240,EPF10K30AQC240,Comments from user about EPF10K30AQC240: The circuit breaker must detect a fault condition; in low-voltage circuit breakers this is usually done within the breaker enclosure. Additional features were added to the processor architecture; more on-chip registers speeded up programs, and complex instructions could be used to make more compact programs. These include large and small household appliances, cars (and their accessory equipment units), car keys, tools and test instruments, toys, light switches/dimmers and electrical circuit breakers, smoke alarms, battery packs, and hi-fi audio/visual components (from DVD players to phonograph turntables.) Such products as cellular telephones, DVD video system and ATSC HDTV broadcast system fundamentally require consumer devices with powerful, low-cost, microprocessors. These limit the circuit topologies available; for example, most, but not all active filter topologies provide a buffered (low impedance) output. Semiconductor components benefit from Moore's Law, an observed principle which states that, for a given price, semiconductor functionality doubles every two years. It has already completely replaced the bipolar transistor in power applications, and the availability of power modules (in which several IGBT dice are connected in parallel) makes it attractive for power levels up to several megawatts, pushing further the limit where thyristors and GTOs become the only option. With AMD's introduction of a 64-bit architecture backwards-compatible with x86, x86-64 (also called AMD64), in September 2003, followed by Intel's near fully compatible 64-bit extensions (first called IA-32e or EM64T, later renamed Intel 64), the 64-bit desktop era began. IEEE standard 1076. Anything related to :EPF10K30AQC240, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: EPF10K30AQC240See also: