Part: M48Z512Y-70 PL1

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Previous Parts:M27C4001-12F1,M28256-156,M28927-29P,M29W800DT70N6,M30700FKLGP,M34300-522SP,M35560V1,M38203E4HP,M39022/10-G223JP,M48T02B-120 PC1,M48T09-150 PC1,M48Z02B-200PC1,M48Z08-100PC1,M48Z12,M48Z128Y-70PM1,M48Z34Y-100PM1

The followings are offers provided by our member in Electronic Components Offer site about the following parts: M48Z512Y-70 PL1":

Post DatePart NumberBrandD/CDescQtyCompany
Mon Oct 2 04:10:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z512Y-70 PL1 (from standard server 2)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z512Y-70 PL1 (from parts server 2)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com 2)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com 2)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 07:13:00 UTC 2006M48Z512Y-70 PL1 (from standard server 2)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 07:13:00 UTC 2006M48Z512Y-70 PL1 (from parts server 2)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 07:13:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com 2)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 07:13:00 UTC 2006M48Z512Y-70 PL1 (from hkin.com 2)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.

Last record M48Z34Y-100PM1:

Post DatePart NumberBrandD/CDescQtyCompany
Wed Sep 27 10:44:00 UTC 2006M48Z34Y-100PM1 (from hkin.com)ST05+DIP436ShenZhen Willingness Electronics Co.

Last record M48Z128Y-70PM1:

Post DatePart NumberBrandD/CDescQtyCompany
Sat Sep 30 12:54:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)ST05+DIP6247ShenZhen Willingness Electronics Co.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)ST05+SMD200ShenZhen Willingness Electronics Co.

Last record M48Z12:

Post DatePart NumberBrandD/CDescQtyCompany
Fri Sep 22 14:38:00 UTC 2006M48Z12 (from hkin.com)STN/ADIP400SOUROE (HK)ELECTRONICS LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z12-100 PC6 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Tue Sep 26 02:32:00 UTC 2006M48Z12-100PC1 (from hkin.com)06+10000GOLD TECHNOLOGY (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z12-100PC6 (from hkin.com)STM04+DIP1320KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12-120 PC1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z12-120 PC6 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z12-120PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z12-120PC1 (from hkin.com)ST05+DIP8920ShenZhen Willingness Electronics Co.
Sat Sep 30 12:54:00 UTC 2006M48Z12-120PC6 (from hkin.com)STM04+DIP1320KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12-150 PC1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z12-150 PC6 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z12-150PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Tue Sep 26 02:32:00 UTC 2006M48Z12-150PC1 (from hkin.com)06+10000GOLD TECHNOLOGY (HK) LIMITED
Wed Sep 27 10:44:00 UTC 2006M48Z12-150PC1 (from hkin.com)ST05+DIP11500ShenZhen Willingness Electronics Co.
Sat Sep 30 12:54:00 UTC 2006M48Z12-150PC6 (from hkin.com)STM04+DIP1320KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12-200 PC1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z12-200 PC6 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z12-200PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z12-200PC1 (from hkin.com)ST05+DIP9560ShenZhen Willingness Electronics Co.
Sat Sep 30 12:54:00 UTC 2006M48Z12-200PC6 (from hkin.com)STM04+DIP1320KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12-70 PC1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 04:10:00 UTC 2006M48Z12-70 PC6 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z12-70PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z12-70PC1 (from hkin.com)ST05+SIP574ShenZhen Willingness Electronics Co.
Sat Sep 30 12:54:00 UTC 2006M48Z12-70PC6 (from hkin.com)STM04+DIP1320KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z128Y-120 PM1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z128Y-120 PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z128Y-120PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z128Y-70 PM1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Sat Sep 30 12:54:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)ST05+DIP6247ShenZhen Willingness Electronics Co.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-70PM1 (from hkin.com)ST05+SMD200ShenZhen Willingness Electronics Co.
Mon Oct 2 04:10:00 UTC 2006M48Z128Y-85 PM1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z128Y-85 PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z128Y-85PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-85PM1 (from hkin.com)ST05+DIP6530ShenZhen Willingness Electronics Co.
Wed Sep 27 10:44:00 UTC 2006M48Z128Y-85PM1 (from hkin.com)ST05+SOP4280ShenZhen Willingness Electronics Co.
Wed Sep 27 10:44:00 UTC 2006M48Z129V-70PM1 (from hkin.com)ST05+DIP1503ShenZhen Willingness Electronics Co.
Mon Oct 2 04:10:00 UTC 2006M48Z129V-85 PM1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z129V-85 PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z129V-85PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Wed Sep 27 10:44:00 UTC 2006M48Z129V-85PM1 (from hkin.com)ST05+DIP5690ShenZhen Willingness Electronics Co.
Wed Sep 27 10:44:00 UTC 2006M48Z129V-85PM1 (from hkin.com)ST05+DIP800ShenZhen Willingness Electronics Co.
Mon Oct 2 04:10:00 UTC 2006M48Z129Y-70 PM1 (from hkin.com)STM04+05+DIP1320GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z129Y-70 PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z129Y-70PM1 (from hkin.com)STM04+DIP1240KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12B-100 PC1 (from hkin.com)STM04+DIP1234GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z12B-100 PC1 (from hkin.com)STM04+DIP863KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z12B-100PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12B-120 PC1 (from hkin.com)STM04+DIP1234GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z12B-120 PC1 (from hkin.com)STM04+DIP863KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z12B-120PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12B-150 PC1 (from hkin.com)STM04+DIP1234GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z12B-150 PC1 (from hkin.com)STM04+DIP863KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z12B-150PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.
Mon Oct 2 04:10:00 UTC 2006M48Z12B-200 PC1 (from hkin.com)STM04+DIP1234GEJIA INT‘L (HK) LIMITED
Mon Oct 2 07:13:00 UTC 2006M48Z12B-200 PC1 (from hkin.com)STM04+DIP863KAU CHONG (INT'L) ELECTRONICS CO.
Sat Sep 30 12:54:00 UTC 2006M48Z12B-200PC1 (from hkin.com)STM04+DIP5200KAU CHONG (INT'L) ELECTRONICS CO.

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M48Z512Y-70 PL1,M48Z512Y-70 PL1,Comments from user about M48Z512Y-70 PL1: This technique is used in most modern microprocessors, microcontrollers, and DSPs. Techniques for heat dissipation can include heat sinks and fans for air cooling, and other forms of computer cooling such as water cooling. The VHDL standard IEEE 1076-2008 was published in January 2009. 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. Key changes include incorporation of child standards (1164, 1076.2, 1076.3) into the main 1076 standard, an extended set of operators, more flexible syntax of case and generate statements, incorporation of VHPI (interface to C/C++ languages) and a subset of PSL (Property Specification Language). LEDs powerful enough for room lighting are relatively expensive and require more precise current and heat management than compact fluorescent lamp sources of comparable output. Computers, cellular phones, and other digital appliances are now inextricable parts of the structure of modern societies, made possible by the low cost of production of integrated circuits. While this required extra logic to handle, for example, carry and overflow within each slice, the result was a system that could handle, say, 32-bit words using integrated circuits with a capacity for only 4 bits each. Anything related to :M48Z512Y-70 PL1, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: M48Z512Y-70 PL1, search hkinventory: M48Z512Y-70 PL1, 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. A minimal hypothetical microprocessor might only include an arithmetic logic unit (ALU) and a control logic section. This effectively multiplies the processor's potential performance by the number of cores (as long as the operating system and software is designed to take advantage of more than one processor core). A small current injected through the junction between the base and the emitter changes the properties of the base-collector junction so that it can conduct current even though it is reverse biased. Datasheet Dir, DataSheet Archive
2 added better handling of real and complex data types. Microcontrollers integrate a microprocessor with periphal devices for control of embedded system. The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility, or fab, to precisely control the location and concentration of p- and n-type dopants. They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum. Cost is low because the chips, with all their components, are printed as a unit by photolithography rather than being constructed one transistor at a time. Affordable 8-bit microprocessors with 16-bit addressing also led to the first general-purpose microcomputers from the mid-1970s on. 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. The other regions, and their associated terminals, are known as the emitter and the collector.
any passive component and active component such as:Diode, Noyce also came up with his own idea of an integrated circuit half a year later than Kilby.[citation needed] The R3000 made the design truly practical, and the R4000 introduced the world's first commercially available 64-bit RISC microprocessor. IEEE standard 1076. 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. For example driver circuit
M48Z512Y-70 PL1,M48Z512Y-70 PL1,Comments from user about M48Z512Y-70 PL1: The net result is that the turn-off switching loss of an IGBT is considerably higher than its turn-on loss. Another type of transistor, the field effect transistor operates on the principle that semiconductor conductivity can be increased or decreased by the presence of an electric field. Several specialized processing devices have followed from the technology. These techniques use convection, conduction, & radiation of heat energy. Furthermore, much less material is used to construct a packaged IC die than to construct a discrete circuit. Its major limitation for low voltage applications is the high voltage drop it exhibits in on-state (2 to 4 V). The degree to which unwanted signals should be rejected. The Niagara 2 supports more threads and operates at 1. Anything related to :M48Z512Y-70 PL1, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: M48Z512Y-70 PL1See also: