Part: N87C51

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Offer Index 52

lambda,
micronas,
international rectifier,
mos,
nanya,
mur,
on semiconductor,
thine,
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Previous Parts:MTB6N60S,MTD2007F,MTH35N12,MTM8N55,MTP3N120E,MTV412GMV128,MUN5327DW1T1,MUR3020,MUR460,MVT214024CX,MWA210,MX29LV320ABTC-90G,MX629LH,N150P5-L01,N760023BFKC103,N8097BH

The followings are offers provided by our member in Electronic Components Offer site about the following parts: N87C51":

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 5 08:16:00 UTC 2006N87C51 (from hkin.com)NSPLCC500HongKong KeWeiDa Electronics Co.,Ltd
Tue Sep 5 08:16:00 UTC 2006N87C51 (from standard server 2)NSPLCC500HongKong KeWeiDa Electronics Co.,Ltd
Tue Sep 5 08:16:00 UTC 2006N87C51 (from parts server 2)NSPLCC500HongKong KeWeiDa Electronics Co.,Ltd
Tue Sep 5 08:16:00 UTC 2006N87C51 (from hkin.com 2)NSPLCC500HongKong KeWeiDa Electronics Co.,Ltd
Tue Sep 5 08:16:00 UTC 2006N87C51 (from hkin.com 2)NSPLCC500HongKong KeWeiDa Electronics Co.,Ltd
Tue Sep 5 07:23:00 UTC 2006N87C511 (from hkin.com)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C511 (from standard server 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C511 (from parts server 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C511 (from hkin.com 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C511 (from hkin.com 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA1 (from hkin.com)INTEL03+25HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA1 (from standard server 2)INTEL03+25HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA1 (from parts server 2)INTEL03+25HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA1 (from hkin.com 2)INTEL03+25HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA1 (from hkin.com 2)INTEL03+25HONGKONG BOTER ELECTRONICS COMPANY
Mon Sep 25 02:42:00 UTC 2006N87C51FA-1 (from hkin.com)INTEL2005PLCC442400Wel Teck (HongKong) Electronics Co.
Mon Sep 25 02:42:00 UTC 2006N87C51FA-1 (from standard server 2)INTEL2005PLCC442400Wel Teck (HongKong) Electronics Co.
Mon Sep 25 02:42:00 UTC 2006N87C51FA-1 (from parts server 2)INTEL2005PLCC442400Wel Teck (HongKong) Electronics Co.
Mon Sep 25 02:42:00 UTC 2006N87C51FA-1 (from hkin.com 2)INTEL2005PLCC442400Wel Teck (HongKong) Electronics Co.
Mon Sep 25 02:42:00 UTC 2006N87C51FA-1 (from hkin.com 2)INTEL2005PLCC442400Wel Teck (HongKong) Electronics Co.
Tue Sep 5 07:23:00 UTC 2006N87C51FA33 (from hkin.com)INTEL03+2HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA33 (from standard server 2)INTEL03+2HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA33 (from parts server 2)INTEL03+2HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA33 (from hkin.com 2)INTEL03+2HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FA33 (from hkin.com 2)INTEL03+2HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FB1 (from hkin.com)INTEL03+16HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FB1 (from standard server 2)INTEL03+16HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FB1 (from parts server 2)INTEL03+16HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FB1 (from hkin.com 2)INTEL03+16HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FB1 (from hkin.com 2)INTEL03+16HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FC1 (from hkin.com)INTEL03+23HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FC1 (from standard server 2)INTEL03+23HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FC1 (from parts server 2)INTEL03+23HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FC1 (from hkin.com 2)INTEL03+23HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51FC1 (from hkin.com 2)INTEL03+23HONGKONG BOTER ELECTRONICS COMPANY
Fri Sep 22 07:42:00 UTC 2006N87C51G (from hkin.com)N/A2000+PLCC 681800Songlin Electronics (HK) Co., Ltd.
Fri Sep 22 07:42:00 UTC 2006N87C51G (from standard server 2)N/A2000+PLCC 681800Songlin Electronics (HK) Co., Ltd.
Fri Sep 22 07:42:00 UTC 2006N87C51G (from parts server 2)N/A2000+PLCC 681800Songlin Electronics (HK) Co., Ltd.
Fri Sep 22 07:42:00 UTC 2006N87C51G (from hkin.com 2)N/A2000+PLCC 681800Songlin Electronics (HK) Co., Ltd.
Fri Sep 22 07:42:00 UTC 2006N87C51G (from hkin.com 2)N/A2000+PLCC 681800Songlin Electronics (HK) Co., Ltd.
Thu Sep 14 11:17:00 UTC 2006N87C51GB (from hkin.com)600QINYUAN ELECTRONICS (HK) LIMITED
Thu Sep 14 11:17:00 UTC 2006N87C51GB (from standard server 2)600QINYUAN ELECTRONICS (HK) LIMITED
Thu Sep 14 11:17:00 UTC 2006N87C51GB (from parts server 2)600QINYUAN ELECTRONICS (HK) LIMITED
Thu Sep 14 11:17:00 UTC 2006N87C51GB (from hkin.com 2)600QINYUAN ELECTRONICS (HK) LIMITED
Thu Sep 14 11:17:00 UTC 2006N87C51GB (from hkin.com 2)600QINYUAN ELECTRONICS (HK) LIMITED
Tue Sep 5 07:23:00 UTC 2006N87C51RB1 (from hkin.com)INTEL03+4HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RB1 (from standard server 2)INTEL03+4HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RB1 (from parts server 2)INTEL03+4HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RB1 (from hkin.com 2)INTEL03+4HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RB1 (from hkin.com 2)INTEL03+4HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RC1 (from hkin.com)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RC1 (from standard server 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RC1 (from parts server 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RC1 (from hkin.com 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY
Tue Sep 5 07:23:00 UTC 2006N87C51RC1 (from hkin.com 2)INTEL03+1HONGKONG BOTER ELECTRONICS COMPANY

Last record N8097BH:

Post DatePart NumberBrandD/CDescQtyCompany
Tue Sep 26 15:01:00 UTC 2006N8097BH (from hkin.com)INTELN/APLCC681200SOUROE (HK)ELECTRONICS LIMITED

Last record N760023BFKC103:

Post DatePart NumberBrandD/CDescQtyCompany
Thu Sep 14 03:12:00 UTC 2006N760023BFKC103 (from hkin.com)NSC91+PLCC-441BeiJing LianZhong Technology Co., Ltd.

Last record N150P5-L01:

Post DatePart NumberBrandD/CDescQtyCompany
Mon Sep 25 07:39:00 UTC 2006N150P5-L01 (from hkin.com)1540HongKong Truly Electronics Tech Co.,Ltd

If you want to find more about N87C51, please visit us on HKin


vid:offerengine20111021

N87C51,N87C51,Comments from user about N87C51: Desirable properties of MOSFETs, such as their utility in low-power devices, usually in the CMOS configuration, allowed them to capture nearly all market share for digital circuits; more recently MOSFETs have captured most analog and power applications as well, including modern clocked analog circuits, voltage regulators, amplifiers, power transmitters, motor drivers, etc. When used in a finite-state machine, the output and next state depend not only on its current input, but also on its current state (and hence, previous inputs.) It can also be used for counting of pulses, and for synchronizing variably-timed input signals to some reference timing signal. Although several companies each produce over a billion individually packaged (known as discrete) transistors every year, the vast majority of transistors now produced are in integrated circuits (often shortened to IC, microchips or simply chips), along with diodes, resistors, capacitors and other electronic components, to produce complete electronic circuits. The distance that signals had to travel between ICs on the boards limited the speed at which a computer could operate. 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. One rarely finds modern circuits that are entirely analog. The gate electrode is charged to produce an electric field that controls the conductivity of a "channel" between two terminals, called the source and drain. A capacitor (formerly known as condenser) is a device for storing electric charge. Anything related to :N87C51, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: N87C51, search hkinventory: N87C51, Note that this only works if only one of the above definitions of passivity is used ?if components from the two are mixed, the systems may be unstable under any criteria. Thyristors are able to withstand very high reverse breakdown voltage and are also capable of carrying high current. Microprocessors make it possible to put a computer into thousands of items that were traditionally not computer-related. This type of circuit is usually called "mixed signal" rather than analog or digital. Datasheet Dir, DataSheet Archive
MOSFET is an IC which is semiconductor device. The gate electrode is charged to produce an electric field that controls the conductivity of a "channel" between two terminals, called the source and drain. Passivity is a property of engineering systems, used in a variety of engineering disciplines, but most commonly found in analog electronics and control systems. New microarchitectures and/or circuitry solutions, along with advances in semiconductor manufacturing, are what allows newer generations of processors to achieve higher performance while using the same ISA. The first commercial RISC microprocessor design was released either by MIPS Computer Systems, the 32-bit R2000 (the R1000 was not released) or by Acorn computers, the 32-bit ARM2 in 1987. An electronic circuit consisting entirely of passive components is called a passive circuit (and has the same properties as a passive component). Passive filters are still found, however, in hybrid integrated circuits. Other embedded uses of 4-bit and 8-bit microprocessors, such as terminals, printers, various kinds of automation etc.
any passive component and active component such as:Diode, A logic gate consists of up to about twenty transistors whereas an advanced microprocessor, as of 2011, can use as many as 3 billion transistors (MOSFETs). The VHDL standard IEEE 1076-2008 was published in January 2009. A component that is not passive is called an active component. These components overcame some limitations of the thyristors because they can be turned on or off with an applied signal. For example driver circuit
N87C51,N87C51,Comments from user about N87C51: VHDL project is multipurpose. This is driven by gains in manufacturing efficiency and automation, lower labor costs as manufacturing has moved to lower-wage countries, and improvements in semiconductor design. These changes should improve quality of synthesizable VHDL code, make testbenches more flexible, and allow wider use of VHDL for system-level descriptions. VHDL also allows arrays to be indexed in either ascending or descending direction; both conventions are used in hardware, whereas in Ada and most programming languages only ascending indexing is available. Both versions can run 32-bit legacy applications without any performance penalty as well as new 64-bit software.[citation needed] The R3000 made the design truly practical, and the R4000 introduced the world's first commercially available 64-bit RISC microprocessor. The gate electrode is charged to produce an electric field that controls the conductivity of a "channel" between two terminals, called the source and drain. In addition, passive circuits will not necessarily be stable under all stability criteria. Anything related to :N87C51, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: N87C51See also: