Part: 74ACT240

Index Files

Offer Index 58

gs,
bt,
el,
hirose,
honeywell,
module,
techwell,
moto,
hp

 
Google Search

Part Numbers

Previous Parts:5S1265,62256LFP-10T,6339Q,6612A,672Y01-503,6MBI15F-120,6MBI15LS-060,6MBI75FA-060,6MBP150JB060,6R6D15A-120BHX,73K322L-28IH,7406D,74ABT16623DLR,74ABT245B,74ACT125PC,74ACT16244T

The followings are offers provided by our member in Electronic Components Offer site about the following parts: 74ACT240":

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 18 08:40:00 UTC 200674ACT240 (from hkin.com)NS00+SOP-7.22500KAM MING TIK (HK) ELECTRON CO.
Mon Sep 18 08:40:00 UTC 200674ACT240 (from standard server 2)NS00+SOP-7.22500KAM MING TIK (HK) ELECTRON CO.
Mon Sep 18 08:40:00 UTC 200674ACT240 (from parts server 2)NS00+SOP-7.22500KAM MING TIK (HK) ELECTRON CO.
Mon Sep 18 08:40:00 UTC 200674ACT240 (from hkin.com 2)NS00+SOP-7.22500KAM MING TIK (HK) ELECTRON CO.
Mon Sep 18 08:40:00 UTC 200674ACT240 (from hkin.com 2)NS00+SOP-7.22500KAM MING TIK (HK) ELECTRON CO.
Mon Sep 25 03:42:00 UTC 200674ACT240 (from hkin.com)MOTO98SMD95ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240 (from standard server 2)MOTO98SMD95ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240 (from parts server 2)MOTO98SMD95ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240 (from hkin.com 2)MOTO98SMD95ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240 (from hkin.com 2)MOTO98SMD95ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240PC (from hkin.com)NS9324DIP18ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240PC (from standard server 2)NS9324DIP18ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240PC (from parts server 2)NS9324DIP18ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240PC (from hkin.com 2)NS9324DIP18ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240PC (from hkin.com 2)NS9324DIP18ShenZhen XiangHe Technology Co., Ltd.
Fri Sep 29 07:02:00 UTC 200674ACT240SCX (from hkin.com)FSC98+P23000ShenZhen Tech-sun Electronics Co.,Ltd.
Fri Sep 29 07:02:00 UTC 200674ACT240SCX (from standard server 2)FSC98+P23000ShenZhen Tech-sun Electronics Co.,Ltd.
Fri Sep 29 07:02:00 UTC 200674ACT240SCX (from parts server 2)FSC98+P23000ShenZhen Tech-sun Electronics Co.,Ltd.
Fri Sep 29 07:02:00 UTC 200674ACT240SCX (from hkin.com 2)FSC98+P23000ShenZhen Tech-sun Electronics Co.,Ltd.
Fri Sep 29 07:02:00 UTC 200674ACT240SCX (from hkin.com 2)FSC98+P23000ShenZhen Tech-sun Electronics Co.,Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240SCX (from hkin.com)NS98+SOP2000ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240SCX (from standard server 2)NS98+SOP2000ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240SCX (from parts server 2)NS98+SOP2000ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240SCX (from hkin.com 2)NS98+SOP2000ShenZhen XiangHe Technology Co., Ltd.
Mon Sep 25 03:42:00 UTC 200674ACT240SCX (from hkin.com 2)NS98+SOP2000ShenZhen XiangHe Technology Co., Ltd.
Fri Sep 29 06:15:00 UTC 200674ACT240SJX (from hkin.com)FAIRCHLD005.2750REIZ TECHNOLOGY (HK) LIMITED
Fri Sep 29 06:15:00 UTC 200674ACT240SJX (from standard server 2)FAIRCHLD005.2750REIZ TECHNOLOGY (HK) LIMITED
Fri Sep 29 06:15:00 UTC 200674ACT240SJX (from parts server 2)FAIRCHLD005.2750REIZ TECHNOLOGY (HK) LIMITED
Fri Sep 29 06:15:00 UTC 200674ACT240SJX (from hkin.com 2)FAIRCHLD005.2750REIZ TECHNOLOGY (HK) LIMITED
Fri Sep 29 06:15:00 UTC 200674ACT240SJX (from hkin.com 2)FAIRCHLD005.2750REIZ TECHNOLOGY (HK) LIMITED

Last record 74ACT16244T:

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 26 09:24:00 UTC 200674ACT16244T (from hkin.com)ST01+TSSOP-481404JINLONGFENG (H.K) SEMICONDUCTOR LIMITED

Last record 74ACT125PC:

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 18 08:56:00 UTC 200674ACT125PC (from hkin.com)NS9312+DIP2500KAM MING TIK (HK) ELECTRON CO.

Last record 74ABT245B:

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 11 13:06:00 UTC 200674ABT245B (from hkin.com)TI01+4908ShenZhen BaoAn NewLanTian Electronic Trade

If you want to find more about 74ACT240, please visit us on HKin


vid:offerengine20111021

74ACT240,74ACT240,Comments from user about 74ACT240: There is a gradual shift towards e-commerce web-storefronts. Being created for one element base, a computing device project can be ported on another element base, for example VLSI with various technologies.[citation needed] The R3000 made the design truly practical, and the R4000 introduced the world's first commercially available 64-bit RISC microprocessor. the bandwidth around the notch before attenuation becomes small. These components overcame some limitations of the thyristors because they can be turned on or off with an applied signal. IEEE standard 1076. It was made of Germanium and had a voltage capability of 200 volts and a current rating of 35 amperes. The junctions which form where n-type and p-type semiconductors join together are called p-n junctions. Anything related to :74ACT240, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: 74ACT240, search hkinventory: 74ACT240, Because the cores are physically very close to each other, they can communicate with each other much faster than separate processors in a multiprocessor system, which improves overall system performance. The VHDL standard IEEE 1076-2008 was published in January 2009. 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. The ISA is roughly the same as the programming model of a processor as seen by an assembly language programmer or compiler writer. Datasheet Dir, DataSheet Archive
0 of VHDL-2006. Some components, such as bus interface and second level cache, may be shared between cores. The complexity of an integrated circuit is bounded by physical limitations of the number of transistors that can be put onto one chip, the number of package terminations that can connect the processor to other parts of the system, the number of interconnections it is possible to make on the chip, and the heat that the chip can dissipate. An electronic circuit consisting entirely of passive components is called a passive circuit (and has the same properties as a passive component). It is a multipurpose, programmable device that accepts digital data as input, processes it according to instructions stored in its memory, and provides results as output. In principle, a single microarchitecture could execute several different ISAs with only minor changes to the microcode. With this structure, one of the connections of the device is located on the bottom of the semiconductor die. Some common power devices are the power diode, thyristor, power MOSFET and IGBT.
any passive component and active component such as:Diode, Flip-flops and latches are used as data storage elements. Generally, in datasheets, turn-off energy is mentioned as a measured parameter and one has to multiply that number with the switching frequency of the intended application to estimate the turn-off loss. In this circuit the base terminal of the transistor serves as the input, the collector is the output, and the emitter is common to both (for example, it may be tied to ground reference or a power supply rail), hence its name. The main reason why semiconductor materials are so useful is that the behavior of a semiconductor can be easily manipulated by the addition of impurities, known as doping. For example driver circuit
74ACT240,74ACT240,Comments from user about 74ACT240: Unlike what happened when IA-32 was extended to x86-64, no new general purpose registers were added in 64-bit PowerPC, so any performance gained when using the 64-bit mode for applications making no use of the larger address space is minimal. In electronics, a flip-flop or latch is a circuit that has two stable states and can be used to store state information. Semiconductor conductivity can be controlled by introduction of an electric or magnetic field, by exposure to light or heat, or by mechanical deformation of a doped monocrystalline grid; thus, semiconductors can make excellent sensors. The ISA is roughly the same as the programming model of a processor as seen by an assembly language programmer or compiler writer. The internal arrangement of a microprocessor varies depending on the age of the design and the intended purposes of the processor. Normally, whether a conditional branch will be taken isn't known until late in the pipeline as conditional branches depend on results coming from a register. Normally, whether a conditional branch will be taken isn't known until late in the pipeline as conditional branches depend on results coming from a register. Integrated circuits were made possible by experimental discoveries showing that semiconductor devices could perform the functions of vacuum tubes and by mid-20th-century technology advancements in semiconductor device fabrication. Anything related to :74ACT240, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: 74ACT240See also: