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ZETEX ZXM61P02FTA This is an offer provided by HKin.com member. In stock! Order now! Category: Electronic Components. Product #: ZXM61P02FTA. Available from: HongKong Faleiter Company Limited Condition: in excellent condition In stock! Order now!

Part Numbers

Previous Parts:FM20L08-60-TG, TQM763013, XC4VLX25-10FF676C, 24AA02, NDY2405C, AM1L-0505S-NZ, AT28C256-15PC, E13003-126, MSP430F2131IRGER, MSP430F2232TRHAR, MSP430F4783IPZR, mt48lc8m32b2tg6, ATDH2223, NF2-MCP-RAID-A3, XC2S15, XCV405E-8BG560C

(+HKin.com) :) The followings are offers provided by our member in Electronic Components Offer site about the following parts: ZXM61P02FTA":

Post Date Part Number Brand D/C Desc Qty Company

Thu Dec 8 07:29:00 UTC 2011 ZXM61P02FTA (from hkin.com) ZETEX SOT-23 6066 HongKong Faleiter Company Limited

Thu Dec 8 07:29:00 UTC 2011 ZXM61P02FTA (from standard server 2) ZETEX SOT-23 6066 HongKong Faleiter Company Limited

Thu Dec 8 07:29:00 UTC 2011 ZXM61P02FTA (from parts server 2) ZETEX SOT-23 6066 HongKong Faleiter Company Limited

Thu Dec 8 07:29:00 UTC 2011 ZXM61P02FTA (from hkin.com 2) ZETEX SOT-23 6066 HongKong Faleiter Company Limited

Thu Dec 8 07:29:00 UTC 2011 ZXM61P02FTA (from hkin.com 2) ZETEX SOT-23 6066 HongKong Faleiter Company Limited

Last record XCV405E-8BG560C:

Post Date	Part Number	Brand	D/C	Desc	Qty	Company
Thu Jan 5 01:21:00 UTC 2012	XCV405E-8BG560C (from hkin.com)	XILINX	0405+		3400	Deko Technology Limited.

Last record XC2S15:

Post Date	Part Number	Brand	D/C	Desc	Qty	Company
Mon Dec 26 01:31:00 UTC 2011	XC2S150E-6FG456C (from hkin.com)	XILINX	10+		500	Forseen Technology (Hongkong) Limited
Fri Jan 6 05:17:00 UTC 2012	XC2S150FG456C (from hkin.com)	XILNX			4	Shenzhen Sounet Electronic Technologies Co.,Ltd
Sat Jan 7 01:57:00 UTC 2012	XC2S150-FG456AMS (from hkin.com)	03/06+	BGA	XILINX	7	Aoxiang Technology Electronic International Limited
Fri Jan 6 03:25:00 UTC 2012	XC2S150-6FG456C (from hkin.com)	Xilinx	05/		1	Brosong Electronics Limited
Thu Jan 5 01:21:00 UTC 2012	XC2S15-6TQ144C (from hkin.com)	XILINX	2004+		5400	Deko Technology Limited.
Fri Jan 6 09:57:00 UTC 2012	XC2S150-6FG456C (from hkin.com)	XILINX	06+	BGA456	720	Chip Source Co.,Limited
Fri Jan 6 09:57:00 UTC 2012	XC2S150-6FGG456C (from hkin.com)	XILINX	10+	BGA456	840	Chip Source Co.,Limited
Mon Dec 19 07:55:00 UTC 2011	XC2S150E-6FT256C (from hkin.com)	XILINH	0831+	BGA	480	Shenzhen Feida Global Electronics Co.,Ltd
Fri Jan 6 04:02:00 UTC 2012	XC2S15-5VQ100C (from hkin.com)	XILINX	04+	TQFP	20	Telesky International Limited
Thu Jan 5 16:09:00 UTC 2012	XC2S150-5FG256C (from hkin.com)	XILINX	03+	BGA	120	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S150-5PQ208C (from hkin.com)	XILINX	03+	QFP	200	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S150-6FG456C (from hkin.com)	XILINX	03+	BGA	200	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S150-6FT256C (from hkin.com)	XILINX	03+	BGA	200	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S150E-6FG456C (from hkin.com)	XILINX	03+	BGA	200	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S150E-6FT256C (from hkin.com)	XILINX	03+	BGA	200	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S15-5TQ144C (from hkin.com)	XILINX	03+	QFP	257	Hongkong xumei electronics co.,ltd
Thu Jan 5 16:09:00 UTC 2012	XC2S15-5VQ100C (from hkin.com)	XILINX	03+	QFP	135	Hongkong xumei electronics co.,ltd
Sat Jan 7 06:03:00 UTC 2012	XC2S150FG456 (from hkin.com)	XILINX	10+	BGA	3230	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-2TQ144 (from hkin.com)	XILINX	10+	QFP	3562	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5CS144C (from hkin.com)	xilinx	10+		43	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5CS144CES (from hkin.com)	xilinx	10+		16	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5CS144I (from hkin.com)	xilinx	10+		52	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5TQ144C (from hkin.com)	xilinx	10+		231	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5TQ144CES (from hkin.com)	xilinx	10+		153	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5TQ144I (from hkin.com)	xilinx	10+		104	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S15-5VQ100C (from hkin.com)	xilinx	10+		20	E-Core Electronics Co.
Fri Jan 6 04:28:00 UTC 2012	XC2S1505PQ208I (from hkin.com)	XILINX	05+	QFP-208	330	Toyota (H.K) Co., Limited
Fri Jan 6 04:28:00 UTC 2012	XC2S150-5FGG256C (from hkin.com)	XILINX	08+	BGA-256	3004	Toyota (H.K) Co., Limited
Thu Jan 5 09:06:00 UTC 2012	XC2S150-5PQ208C (from hkin.com)	XILINX	0049+	QFP	39	EkeLive Technology (Hongkong) Limited
Wed Dec 21 03:43:00 UTC 2011	XC2S150-5PQ2080I (from hkin.com)	XILINX			500	JetLi Electronic (HK) Limited
Sat Jan 7 06:03:00 UTC 2012	XC2S150-2FG256 (from hkin.com)	XILINX	10+	BGA	3355	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5BG256C (from hkin.com)	xilinx	10+		278	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG256C (from hkin.com)	xilinx	10+		275	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG256CES (from hkin.com)	xilinx	10+		135	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG256I (from hkin.com)	xilinx	10+		950	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG456C (from hkin.com)	xilinx	10+		344	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG456CES (from hkin.com)	xilinx	10+		250	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5FG456I (from hkin.com)	xilinx	10+		236	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5PQ208 (from hkin.com)	XILINX	10+	QFP	3351	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5PQ208C (from hkin.com)	xilinx	10+		2374	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5PQ208CES (from hkin.com)	xilinx	10+		133	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-5PQ208I (from hkin.com)	xilinx	10+		864	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6FG256C (from hkin.com)	xilinx	10+		372	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6FG256CES (from hkin.com)	xilinx	10+		154	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6FG456C (from hkin.com)	xilinx	10+		201	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6FG456CES (from hkin.com)	xilinx	10+		130	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6PQ208C (from hkin.com)	xilinx	10+		2317	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6PQ208CES (from hkin.com)	xilinx	10+		103	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150-6PQ208I (from hkin.com)	xilinx	10+		426	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-2FGG456 (from hkin.com)	XILINX	10+	BGA	3987	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-2FT256 (from hkin.com)	XILINX	10+	BGA	3230	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6FG456C (from hkin.com)	xilinx	10+		243	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6FG456I (from hkin.com)	xilinx	10+		155	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6FT256C (from hkin.com)	xilinx	10+		245	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6FT256I (from hkin.com)	xilinx	10+		376	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6PQ208C (from hkin.com)	xilinx	10+		100	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-6PQ208I (from hkin.com)	xilinx	10+		52	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-7FG456C (from hkin.com)	xilinx	10+		169	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-7FT256C (from hkin.com)	xilinx	10+		126	E-Core Electronics Co.
Sat Jan 7 06:03:00 UTC 2012	XC2S150E-7PQ208C (from hkin.com)	xilinx	10+		75	E-Core Electronics Co.
Wed Jan 4 09:22:00 UTC 2012	XC2S15TQ144AMS (from hkin.com)	XZLINX	09+	TQFP	1800	Ho-Sky(HK) Electronics Technology Co.,Limited
Fri Jan 6 05:19:00 UTC 2012	XC2S150FG456C (from hkin.com)	XILNX		BGA	4	Hong Kong Elsung Electronics Limited
Fri Jan 6 05:21:00 UTC 2012	XC2S150FG456C (from hkin.com)	XILNX		BGA	4	Hongkong Jeanway Technologies Limited

Last record NF2-MCP-RAID-A3:

Post Date	Part Number	Brand	D/C	Desc	Qty	Company
Tue Dec 13 03:36:00 UTC 2011	NF2-MCP-RAID-A3 (from hkin.com)	NVIDIA		BGA	43	Strong Exuberant Electronics (HK) Co.,Limited
Tue Dec 13 03:36:00 UTC 2011	NF2-MCP-RAID-A3 (from hkin.com)	NVIDIA		BGA	35	Strong Exuberant Electronics (HK) Co.,Limited

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ZXM61P02FTA,ZXM61P02FTA,Comments from user about ZXM61P02FTA: Introduced as a practical electronic component in 1962, early LEDs emitted low-intensity red light, but modern versions are available across the visible, ultraviolet and infrared wavelengths, with very high brightness. However, its excellent performance in low voltage make it the device of choice (actually the only choice) for applications below 200 V. A capacitor (formerly known as condenser) is a device for storing electric charge. To most engineers, the terms "digital circuit", "digital system" and "logic" are interchangeable in the context of digital circuits. There is a gradual shift towards e-commerce web-storefronts. While different synthesis tools have different capabilities, there exists a common synthesizable subset of VHDL that defines what language constructs and idioms map into common hardware for many synthesis tools. The large contact area and short distance reduces both the inductance and resistance of the connection. These changes should improve quality of synthesizable VHDL code, make testbenches more flexible, and allow wider use of VHDL for system-level descriptions. Anything related to :ZXM61P02FTA, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: ZXM61P02FTA, search hkinventory: ZXM61P02FTA, The integrated circuit's mass production capability, reliability, and building-block approach to circuit design ensured the rapid adoption of standardized ICs in place of designs using discrete transistors. 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). His chip solved many practical problems that Kilby's had not. 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. Datasheet Dir, DataSheet Archive
Sun Microsystems has released the Niagara and Niagara 2 chips, both of which feature an eight-core design. For notch filters, the degree to which unwanted signals at the notch frequency must be rejected determines the accuracy of the components, but not the Q, which is governed by desired steepness of the notch, i. In the case of narrow-band bandpass filters, the Q determines the -3dB bandwidth but also the degree of rejection of frequencies far removed from the center frequency; if these two requirements are in conflict then a staggered-tuning bandpass filter may be needed. 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. Analog circuits are sometimes called linear circuits although many non-linear effects are used in analog circuits such as mixers, modulators, etc. The design of pipelines is one of the central microarchitectural tasks. A single operation code might affect many individual data paths, registers, and other elements of the processor. 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.
any passive component and active component such as:Diode,, followed soon after. This includes decisions on the performance-level and connectivity of these peripherals.3 introduced signed and unsigned types to facilitate arithmetical operations on vectors. Circuit breakers are made in varying sizes, from small devices that protect an individual household appliance up to large switchgear designed to protect high voltage circuits feeding an entire city. For example driver circuit
ZXM61P02FTA,ZXM61P02FTA,Comments from user about ZXM61P02FTA: Several specialized processing devices have followed from the technology. Ternary (with three states) logic has been studied, and some prototype computers made. The number of different analog circuits so far devised is huge, especially because a 'circuit' can be defined as anything from a single component, to systems containing thousands of components. Modern designs have rather complex statistical prediction systems, which watch the results of past branches to predict the future with greater accuracy. The net result is that the turn-off switching loss of an IGBT is considerably higher than its turn-on loss. In control systems and circuit network theory, a passive component or circuit is one that consumes energy, but does not produce energy. 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. The design of pipelines is one of the central microarchitectural tasks. Anything related to :ZXM61P02FTA, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: ZXM61P02FTASee also: