Part: LTC3407EDD

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Offer Index 53

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Part Numbers

Previous Parts:LT1994CMS8,LT20199,LT3485EDD-1,LT5503EFE,LT9471I,LTC1196-2BCS8,LTC1338CSW,LTC1348IG,LTC1435ACG,LTC1694IS5,LTC1754ES6-3.3,LTC1761ES5-3,LTC2449IUHF,LTC2908CDDB-B1,LTC3026EDD,LTC3406BES5-1.8

The followings are offers provided by our member in Electronic Components Offer site about the following parts: LTC3407EDD":

Post DatePart NumberBrandD/CDescQtyCompany
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com)LINEAR05+2500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from standard server 2)LINEAR05+2500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from parts server 2)LINEAR05+2500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+2500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+2500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com)LINEAR05+7500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from standard server 2)LINEAR05+7500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from parts server 2)LINEAR05+7500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+7500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+7500JUNXING ELECTRONIC (H.K) LIMITED
Sat Sep 23 02:38:00 UTC 2006LTC3407EDD (from hkin.com)LINEAR05+DFN-10534TRUSTEK ELECTRONICS CO.
Sat Sep 23 02:38:00 UTC 2006LTC3407EDD (from standard server 2)LINEAR05+DFN-10534TRUSTEK ELECTRONICS CO.
Sat Sep 23 02:38:00 UTC 2006LTC3407EDD (from parts server 2)LINEAR05+DFN-10534TRUSTEK ELECTRONICS CO.
Sat Sep 23 02:38:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+DFN-10534TRUSTEK ELECTRONICS CO.
Sat Sep 23 02:38:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+DFN-10534TRUSTEK ELECTRONICS CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD (from hkin.com)LINEAR05+DFN-10534Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD (from standard server 2)LINEAR05+DFN-10534Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD (from parts server 2)LINEAR05+DFN-10534Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+DFN-10534Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD (from hkin.com 2)LINEAR05+DFN-10534Tenco Electronics CO.
Mon Sep 11 05:06:00 UTC 2006LTC3407EDD (from hkin.com)05+8000NEWSUN TECHNOLOGY CORPORATION LIMITED
Mon Sep 11 05:06:00 UTC 2006LTC3407EDD (from standard server 2)05+8000NEWSUN TECHNOLOGY CORPORATION LIMITED
Mon Sep 11 05:06:00 UTC 2006LTC3407EDD (from parts server 2)05+8000NEWSUN TECHNOLOGY CORPORATION LIMITED
Mon Sep 11 05:06:00 UTC 2006LTC3407EDD (from hkin.com 2)05+8000NEWSUN TECHNOLOGY CORPORATION LIMITED
Mon Sep 11 05:06:00 UTC 2006LTC3407EDD (from hkin.com 2)05+8000NEWSUN TECHNOLOGY CORPORATION LIMITED
Mon Sep 11 14:23:00 UTC 2006LTC3407EDD (from hkin.com)1000SHENZHEN SOUNET ELECTRONIC TECHNOLOGIES CO.,LTD
Mon Sep 11 14:23:00 UTC 2006LTC3407EDD (from standard server 2)1000SHENZHEN SOUNET ELECTRONIC TECHNOLOGIES CO.,LTD
Mon Sep 11 14:23:00 UTC 2006LTC3407EDD (from parts server 2)1000SHENZHEN SOUNET ELECTRONIC TECHNOLOGIES CO.,LTD
Mon Sep 11 14:23:00 UTC 2006LTC3407EDD (from hkin.com 2)1000SHENZHEN SOUNET ELECTRONIC TECHNOLOGIES CO.,LTD
Mon Sep 11 14:23:00 UTC 2006LTC3407EDD (from hkin.com 2)1000SHENZHEN SOUNET ELECTRONIC TECHNOLOGIES CO.,LTD
Tue Sep 12 01:23:00 UTC 2006LTC3407EDD (from hkin.com)1000TELTOP INT'L TRADING LTD
Tue Sep 12 01:23:00 UTC 2006LTC3407EDD (from standard server 2)1000TELTOP INT'L TRADING LTD
Tue Sep 12 01:23:00 UTC 2006LTC3407EDD (from parts server 2)1000TELTOP INT'L TRADING LTD
Tue Sep 12 01:23:00 UTC 2006LTC3407EDD (from hkin.com 2)1000TELTOP INT'L TRADING LTD
Tue Sep 12 01:23:00 UTC 2006LTC3407EDD (from hkin.com 2)1000TELTOP INT'L TRADING LTD
Tue Sep 12 01:24:00 UTC 2006LTC3407EDD (from hkin.com)1000LANCENT INT'L TRADING LTD
Tue Sep 12 01:24:00 UTC 2006LTC3407EDD (from standard server 2)1000LANCENT INT'L TRADING LTD
Tue Sep 12 01:24:00 UTC 2006LTC3407EDD (from parts server 2)1000LANCENT INT'L TRADING LTD
Tue Sep 12 01:24:00 UTC 2006LTC3407EDD (from hkin.com 2)1000LANCENT INT'L TRADING LTD
Tue Sep 12 01:24:00 UTC 2006LTC3407EDD (from hkin.com 2)1000LANCENT INT'L TRADING LTD
Mon Sep 18 06:37:00 UTC 2006LTC3407EDD (from hkin.com)LT04+QFN1000Aosiwei Electronics Co.,Ltd.
Mon Sep 18 06:37:00 UTC 2006LTC3407EDD (from standard server 2)LT04+QFN1000Aosiwei Electronics Co.,Ltd.
Mon Sep 18 06:37:00 UTC 2006LTC3407EDD (from parts server 2)LT04+QFN1000Aosiwei Electronics Co.,Ltd.
Mon Sep 18 06:37:00 UTC 2006LTC3407EDD (from hkin.com 2)LT04+QFN1000Aosiwei Electronics Co.,Ltd.
Mon Sep 18 06:37:00 UTC 2006LTC3407EDD (from hkin.com 2)LT04+QFN1000Aosiwei Electronics Co.,Ltd.
Wed Sep 27 07:47:00 UTC 2006LTC3407EDD (from hkin.com)LT05+ori new3000CHIU YANG ELECTRONICS TRADING LIMITED
Wed Sep 27 07:47:00 UTC 2006LTC3407EDD (from standard server 2)LT05+ori new3000CHIU YANG ELECTRONICS TRADING LIMITED
Wed Sep 27 07:47:00 UTC 2006LTC3407EDD (from parts server 2)LT05+ori new3000CHIU YANG ELECTRONICS TRADING LIMITED
Wed Sep 27 07:47:00 UTC 2006LTC3407EDD (from hkin.com 2)LT05+ori new3000CHIU YANG ELECTRONICS TRADING LIMITED
Wed Sep 27 07:47:00 UTC 2006LTC3407EDD (from hkin.com 2)LT05+ori new3000CHIU YANG ELECTRONICS TRADING LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD-2 (from hkin.com)LINEAR05+480JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD-2 (from standard server 2)LINEAR05+480JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD-2 (from parts server 2)LINEAR05+480JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD-2 (from hkin.com 2)LINEAR05+480JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3407EDD-2 (from hkin.com 2)LINEAR05+480JUNXING ELECTRONIC (H.K) LIMITED
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD-2 (from hkin.com)LINEAR05+DFN-1083Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD-2 (from standard server 2)LINEAR05+DFN-1083Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD-2 (from parts server 2)LINEAR05+DFN-1083Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD-2 (from hkin.com 2)LINEAR05+DFN-1083Tenco Electronics CO.
Mon Sep 18 11:26:00 UTC 2006LTC3407EDD-2 (from hkin.com 2)LINEAR05+DFN-1083Tenco Electronics CO.

Last record LTC3406BES5-1.8:

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 4 04:26:00 UTC 2006LTC3406BES5-1.8 (from hkin.com)LINEAR04+SOT1530FLYTECH (HK) ELECTRON LIMITED
Fri Sep 29 03:07:00 UTC 2006LTC3406BES5-1.8 (from hkin.com)LINEAR05+5000JUNXING ELECTRONIC (H.K) LIMITED
Thu Sep 14 02:58:00 UTC 2006LTC3406BES5-1.8 (from hkin.com)LT04+SOT23-53384POWER START ELECTRONICS COMPANY

Last record LTC3026EDD:

Post DatePart NumberBrandD/CDescQtyCompany
Wed Sep 27 12:51:00 UTC 2006LTC3026EDD (from hkin.com)LINEAR04+05+DFD1755ANWELL COMPONENTS CO.
Fri Sep 29 03:07:00 UTC 2006LTC3026EDD (from hkin.com)LINEAR05+500JUNXING ELECTRONIC (H.K) LIMITED
Fri Sep 15 05:41:00 UTC 2006LTC3026EDD (from hkin.com)LINEAR05+1224ANCHI (HONG KONG) ELECTRONICS CO

Last record LTC2908CDDB-B1:

Post DatePart NumberBrandD/CDescQtyCompany
Wed Sep 27 12:50:00 UTC 2006LTC2908CDDB-B1 (from hkin.com)LINEAR04+05+DFD250ANWELL COMPONENTS CO.
Fri Sep 15 05:41:00 UTC 2006LTC2908CDDB-B1 (from hkin.com)LINEAR05+44ANCHI (HONG KONG) ELECTRONICS CO

If you want to find more about LTC3407EDD, please visit us on HKin


vid:offerengine20111021

LTC3407EDD,LTC3407EDD,Comments from user about LTC3407EDD: Execution units include arithmetic logic units (ALU), floating point units (FPU), load/store units, branch prediction, and SIMD. The range of desired frequencies (the passband) together with the shape of the frequency response. Digital Signal Processors are another example. Not all constructs in VHDL are suitable for synthesis. Machines with different microarchitectures may have the same instruction set architecture, and thus be capable of executing the same programs. Not all constructs in VHDL are suitable for synthesis. However, remember that the internal output impedance of operational amplifiers, if used, may rise markedly at high frequencies and reduce the attenuation from that expected. 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. Anything related to :LTC3407EDD, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: LTC3407EDD, search hkinventory: LTC3407EDD, Sometimes it may be difficult to differentiate between analog and digital circuits as they have elements of both linear and non-linear operation. As of 2009, dual-core and quad-core processors are widely used in servers, workstations and PCs while six and eight-core processors will be available for high-end applications in both the home and professional environments. However, remember that the internal output impedance of operational amplifiers, if used, may rise markedly at high frequencies and reduce the attenuation from that expected. These diagrams generally separate the datapath (where data is placed) and the control path (which can be said to steer the data). Datasheet Dir, DataSheet Archive
In 1986, HP released its first system with a PA-RISC CPU. The pipeline includes several different stages which are fundamental in microarchitecture designs. IEEE 1076. They are commonly used in speaker crossover design (due to the moderately large voltages and currents, and the lack of easy access to power), filters in power distribution networks (due to the large voltages and currents), power supply bypassing (due to low cost, and in some cases, power requirements), as well as a variety of discrete and home brew circuits (for low-cost and simplicity). The integration of large numbers of tiny transistors into a small chip was an enormous improvement over the manual assembly of circuits using electronic components. Depending on the type of carrier in the channel, the device may be an n-channel (for electrons) or a p-channel (for holes) MOSFET. The vast majority of the discrete (i.e non integrated) power devices are built using a vertical structure, whereas small-signal devices employ a lateral structure. These diagrams generally separate the datapath (where data is placed) and the control path (which can be said to steer the data).
any passive component and active component such as:Diode, These diagrams generally separate the datapath (where data is placed) and the control path (which can be said to steer the data). Each operation of the ALU sets one or more flags in a status register, which indicate the results of the last operation (zero value, negative number, overflow. or others). 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. One disadvantage of the thyristor for switching circuits is that once it is 'latched-on' in the conducting state it cannot be turned off by external control. For example driver circuit
LTC3407EDD,LTC3407EDD,Comments from user about LTC3407EDD: The size of data objects became larger; allowing more transistors on a chip allowed word sizes to increase from 4- and 8-bit words up to today's 64-bit words. IEEE standard 1076. Existing integer registers are extended as are all related data pathways, but, as was the case with IA-32, both floating point and vector units had been operating at or above 64 bits for several years. Several specialized processing devices have followed from the technology. They are also called power devices or when used in integrated circuits, called power ICs.The second region, at reverse biases more positive than the PIV, has only a very small reverse saturation current. Speculative execution is a further enhancement in which the code along the predicted path is not just prefetched but also executed before it is known whether the branch should be taken or not. In the mid-1980s to early-1990s, a crop of new high-performance Reduced Instruction Set Computer (RISC) microprocessors appeared, influenced by discrete RISC-like CPU designs such as the IBM 801 and others. Anything related to :LTC3407EDD, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: LTC3407EDDSee also: