Part: VI-BW4-EU

Index Files

Offer Index 7

YAGEO,
ZETEX,
BROADCOM,
MPS,
HYNIX,
VISHAY/IR,
HIT,
NIPPON CHEMI-CON,
INTERSIL,
LATTICE,
MICREL,
SANYO,
REALTEK,
BOURNS,
FUJI,
SIEMENS,
IDT,
LITTELFUSE,
NAIS,
QFN,
FUJITSU,
NVIDIA,
MIT,
PRX,
LAMBDA,
RAMTRON,
FRESSCALE,
SILICON,
WJ,
AGILENT,
NUVOTON,
NICHICON,
ISSI,
PERICOM,
ATI,
MOTOROLA ,
SPANSION,
MINI,
MURATAPS,
CONEXANT,
EPSON,
OMRON,
SEMIKRON,
QFP,
COILCRAFT,
WINBOND,
BGA,
COOPER,
MOLEX,
IC,
OSRAM,
SIMCOM,
KEMET,
AUO,
SST,
DIODES,
SIPEX,
ZETEX/DIODES,
JRC,
TI,
ST,
NS,
MAX,
AD,
ALTERA,
INFINEON,
TOS,
MURATA,
FSC,
NXP,
SAMSUNG,
ON,
CY,
ATMEL,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
DALLAS,
NEC,
PHI,
MIC,
VICOR,
MICROCHIP,
MOT,
FREESCALE,
PANASONIC,
LINEAR,
ROHM,
BB,
MICRON,
RENESAS,
TDK,
AMD,
IXYS,
ALLEGRO,
AVAGO,
SHARP,
YAGEO,
ZETEX,
BROADCOM,
AVX,
MPS,
HYNIX,
VISHAY/IR,
SANYO,
HIT,
INTERSIL,
NIPPON CHEMI-CON,
LATTICE,
MICREL,
REALTEK,
IDT,
BOURNS,
FUJI,
SIEMENS,
LITTELFUSE,
NAIS,
QFN,
FUJITSU,
NVIDIA,
MIT,
PRX,
LAMBDA,
RAMTRON,
FRESSCALE,
SILICON,
WJ,
AGILENT,
NUVOTON,
NICHICON,
ISSI,
PERICOM,
ATI,
MOTOROLA ,
SPANSION,
MINI,
MURATAPS,
CONEXANT,
EPSON,
OMRON,
QFP,
SEMIKRON,
COILCRAFT,
WINBOND,
BGA,
COOPER,
MOLEX,
IC,
OSRAM,
SIMCOM,
KEMET,
AUO,
SST,
DIODES,
SIPEX,
ZETEX/DIODES,
JRC,
TI,
ST,
NS,
MAX,
AD,
ALTERA,
INFINEON,
TOS,
MURATA,
NXP,
FSC,
SAMSUNG,
ON,
CY,
ATMEL,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
DALLAS,
NEC,
PHI,
MIC,
VICOR,
MOT,
MICROCHIP,
FREESCALE,
LINEAR,
PANASONIC,
ROHM,
BB,
MICRON,
RENESAS,
TDK,
AMD,
IXYS,
ALLEGRO,
AVAGO,
SHARP,
YAGEO,
ZETEX,
BROADCOM,
AVX,
MPS,
HYNIX,
VISHAY/IR,
SANYO,
HIT,
INTERSIL,
NIPPON CHEMI-CON,
LATTICE,
MICREL,
REALTEK,
IDT,
BOURNS,
FUJI,
SIEMENS,
LITTELFUSE,
NAIS,
QFN,
FUJITSU,
NVIDIA,
MIT,
PRX,
LAMBDA,
RAMTRON,
FRESSCALE,
SILICON,
WJ,
AGILENT,
NUVOTON,
NICHICON,
ISSI,
PERICOM,
ATI,
MOTOROLA ,
SPANSION,
MINI,
MURATAPS,
CONEXANT,
EPSON,
OMRON,
QFP,
SEMIKRON,
COILCRAFT,
WINBOND,
BGA,
COOPER,
MOLEX,
IC,
OSRAM,
SIMCOM,
KEMET,
AUO,
SST,
DIODES,
SIPEX,
ZETEX/DIODES,
JRC,
TI,
ST,
NS,
MAX,
AD,
ALTERA,
INFINEON,
TOS,
FSC,
NXP,
CY,
MURATA,
ATMEL,
SAMSUNG,
ON,
XILINX,
INTEL,
VISHAY,
POWER,
IR,
DALLAS,
NEC,
PHI,
MIC,
VICOR,
MICROCHIP,
MOT,
FREESCALE,
MICRON,
BB,
ROHM,
LINEAR,
RENESAS,
ALLEGRO,
IXYS,
AMD,
TDK,
YAGEO,
SHARP,
ZETEX,
AVX,
BROADCOM,
MPS,
HYNIX,
AVAGO,
SANYO,
NIPPON CHEMI-CON,
PANASONIC,
HIT,
INTERSIL,
REALTEK,
BOURNS,
IDT,
FUJI,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
NVIDIA,
PRX,
MICREL,
LAMBDA,
FRESSCALE,
FUJITSU,
RAMTRON,
WJ,
AGILENT,
SILICON,
NUVOTON,
MIT,
NICHICON,
ISSI,
MOTOROLA ,
ATI,
MURATAPS,
QFP,
SEMIKRON,
CONEXANT,
SPANSION,
COILCRAFT,
EPSON,
BGA,
COOPER,
MOLEX,
IC,
OSRAM,
WINBOND,
PERICOM,
KEMET,
LATTICE,
AUO,
SIPEX,
ZETEX/DIODES,
DIODES,
LSI,
LG,
SST,
JRC,
SIMCOM,
EPCOS,
TI,
ST,
AD,
NS,
MAX,
ALTERA,
INFINEON,
TOS,
NXP,
FSC,
ATMEL,
CY,
MURATA,
ON,
SAMSUNG,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
DALLAS,
NEC,
PHI,
MIC,
MOT,
MICROCHIP,
IXYS,
FREESCALE,
LINEAR,
BB,
ROHM,
MICRON,
RENESAS,
AMD,
ALLEGRO,
TDK,
SHARP,
YAGEO,
ZETEX,
AVX,
BROADCOM,
MPS,
HYNIX,
INTERSIL,
SANYO,
AVAGO,
SEMIKRON,
HIT,
NIPPON CHEMI-CON,
PANASONIC,
REALTEK,
BOURNS,
FUJI,
IDT,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
VICOR,
LAMBDA,
NVIDIA,
MICREL,
SILICON,
FUJITSU,
FRESSCALE,
RAMTRON,
AGILENT,
WJ,
MIT,
NUVOTON,
ISSI,
NICHICON,
SPANSION,
MOTOROLA ,
ATI,
MURATAPS,
QFP,
CONEXANT,
COILCRAFT,
EPSON,
BGA,
COOPER,
MOLEX,
OSRAM,
IC,
KEMET,
WINBOND,
PERICOM,
LATTICE,
SST,
SIPEX,
AUO,
ZETEX/DIODES,
DIODES,
LSI,
LG,
JRC,
SIMCOM,
OKI,
SONY,
TI,
ST,
MAX,
AD,
NS,
ALTERA,
INFINEON,
TOS,
NXP,
FSC,
ATMEL,
CY,
MURATA,
ON,
SAMSUNG,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
DALLAS,
NEC,
PHI,
MIC,
MICROCHIP,
MOT,
IXYS,
FREESCALE,
LINEAR,
BB,
ROHM,
MICRON,
RENESAS,
AMD,
ALLEGRO,
TDK,
SHARP,
YAGEO,
ZETEX,
AVX,
BROADCOM,
MPS,
INTERSIL,
HYNIX,
SANYO,
AVAGO,
SEMIKRON,
HIT,
NIPPON CHEMI-CON,
PANASONIC,
REALTEK,
BOURNS,
FUJI,
IDT,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
VICOR,
LAMBDA,
NVIDIA,
MICREL,
SILICON,
FUJITSU,
FRESSCALE,
RAMTRON,
AGILENT,
WJ,
MIT,
NUVOTON,
ISSI,
NICHICON,
SPANSION,
MOTOROLA ,
ATI,
MURATAPS,
QFP,
CONEXANT,
COILCRAFT,
EPSON,
BGA,
COOPER,
MOLEX,
OSRAM,
IC,
KEMET,
WINBOND,
PERICOM,
LATTICE,
SST,
SIPEX,
AUO,
ZETEX/DIODES,
DIODES,
LSI,
LG,
JRC,
SIMCOM,
SONY,
EPCOS,
TI,
ST,
AD,
MAX,
NS,
ALTERA,
INFINEON,
TOS,
NXP,
FSC,
ATMEL,
CY,
MURATA,
ON,
SAMSUNG,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
NEC,
DALLAS,
PHI,
MIC,
MICROCHIP,
MOT,
IXYS,
FREESCALE,
LINEAR,
BB,
ROHM,
MICRON,
RENESAS,
AMD,
ALLEGRO,
SHARP,
TDK,
YAGEO,
ZETEX,
AVX,
BROADCOM,
MPS,
SANYO,
INTERSIL,
HYNIX,
AVAGO,
SEMIKRON,
HIT,
NIPPON CHEMI-CON,
PANASONIC,
REALTEK,
BOURNS,
FUJI,
IDT,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
VICOR,
LAMBDA,
NVIDIA,
MICREL,
SILICON,
FUJITSU,
RAMTRON,
AGILENT,
MIT,
NUVOTON,
ISSI,
NICHICON,
WJ,
EUDYNA,
SPANSION,
MOTOROLA ,
ATI,
MURATAPS,
QFP,
CONEXANT,
COILCRAFT,
EPSON,
BGA,
COOPER,
MOLEX,
OSRAM,
IC,
KEMET,
WINBOND,
PERICOM,
LATTICE,
SST,
SIPEX,
AUO,
ZETEX/DIODES,
DIODES,
LSI,
LG,
JRC,
SIMCOM,
SONY,
EPCOS,
TI,
ST,
AD,
MAX,
NS,
ALTERA,
INFINEON,
TOS,
NXP,
FSC,
ATMEL,
CY,
MURATA,
ON,
SAMSUNG,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
NEC,
DALLAS,
PHI,
MIC,
MICROCHIP,
MOT,
IXYS,
FREESCALE,
LINEAR,
BB,
ROHM,
MICRON,
RENESAS,
AMD,
ALLEGRO,
SHARP,
TDK,
YAGEO,
ZETEX,
AVX,
BROADCOM,
MPS,
SANYO,
INTERSIL,
HYNIX,
AVAGO,
SEMIKRON,
HIT,
NIPPON CHEMI-CON,
PANASONIC,
REALTEK,
BOURNS,
FUJI,
IDT,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
VICOR,
LAMBDA,
NVIDIA,
MICREL,
SILICON,
FUJITSU,
RAMTRON,
AGILENT,
MIT,
NUVOTON,
ISSI,
NICHICON,
WJ,
EUDYNA,
SPANSION,
MOTOROLA ,
ATI,
MURATAPS,
QFP,
CONEXANT,
COILCRAFT,
EPSON,
BGA,
COOPER,
MOLEX,
OSRAM,
IC,
KEMET,
WINBOND,
PERICOM,
LATTICE,
SST,
SIPEX,
AUO,
ZETEX/DIODES,
DIODES,
LSI,
LG,
JRC,
SIMCOM,
SONY,
EPCOS,
TI,
ST,
AD,
MAX,
NS,
INFINEON,
ALTERA,
TOS,
NXP,
ATMEL,
FSC,
ON,
MURATA,
SAMSUNG,
CY,
XILINX,
INTEL,
VISHAY,
IR,
POWER,
NEC,
DALLAS,
MICROCHIP,
PHI,
MIC,
MOT,
IXYS,
LINEAR,
MICRON,
ROHM,
AMD,
FREESCALE,
SHARP,
TDK,
BB,
ZETEX,
RENESAS,
AVX,
BROADCOM,
SEMIKRON,
SANYO,
ALLEGRO,
MPS,
YAGEO,
AVAGO,
HYNIX,
INTERSIL,
NIPPON CHEMI-CON,
HIT,
PANASONIC,
REALTEK,
BOURNS,
FUJI,
IDT,
LITTELFUSE,
SIEMENS,
NAIS,
QFN,
NVIDIA,
VICOR,
SILICON,
FUJITSU,
MICREL,
LAMBDA,
AGILENT,
MIT,
RAMTRON,
ISSI,
NICHICON,
WJ,
EUDYNA

 
Google Search

Product Summary
VICOR VI-BW4-EU
This is an offer provided by HKin.com member.
In stock! Order now!
Category: Electronic Components.
Product #: VI-BW4-EU.


Available from: BeiJing Jietuozijing Science and Technology Co., Ltd.
Condition: in excellent condition
In stock! Order now!

Part Numbers

Previous Parts:HFD2/012-M-L1-D, TPS65013RGZT, SM89516C25JP, DT95N16, MT47H32M16HR-25E, SQCB5C103MAJME, VI-251-IX, MIC29150-5.0WT, MIC29372WU, MIC5209BU, 1117M3-ADJ, 1SR154-600, ET109, OPA2277PA, ZL50114, ISD1620BX

(+HKin.com) :) The followings are offers provided by our member in Electronic Components Offer site about the following parts: VI-BW4-EU":

Post DatePart NumberBrandD/CDescQtyCompany
Thu Jun 14 01:22:00 UTC 2012VI-BW4-EU (from standard server 2)VICOR24V/48V/200W43BeiJing Jietuozijing Science and Technology Co., Ltd.
Thu Jun 14 01:22:00 UTC 2012VI-BW4-EU (from parts server 2)VICOR24V/48V/200W43BeiJing Jietuozijing Science and Technology Co., Ltd.
Thu Jun 14 01:22:00 UTC 2012VI-BW4-EU (from hkin.com 2)VICOR24V/48V/200W43BeiJing Jietuozijing Science and Technology Co., Ltd.
Thu Jun 14 01:22:00 UTC 2012VI-BW4-EU (from hkin.com 2)VICOR24V/48V/200W43BeiJing Jietuozijing Science and Technology Co., Ltd.

Last record ISD1620BX:

Post DatePart NumberBrandD/CDescQtyCompany

Last record ZL50114:

Post DatePart NumberBrandD/CDescQtyCompany

Last record OPA2277PA:

Post DatePart NumberBrandD/CDescQtyCompany

If you want to find more about VI-BW4-EU, please visit us on HKin


vid:offerengine20120614 Part Number Prefix

VI-BW4-EU,VI-BW4-EU,Comments from user about VI-BW4-EU: 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. With the transition to the LGA1366 and LGA1156 socket and the Intel i7 and i5 chips, quad core is now considered mainstream, but with the release of the i7-980x, six core processors are now well within reach. Passivity, in most cases, can be used to demonstrate that passive circuits will be stable under specific criteria. Passive filters are still found, however, in hybrid integrated circuits. The Niagara 2 supports more threads and operates at 1. 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.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. Its importance in today's society rests on its ability to be mass produced using a highly automated process (semiconductor device fabrication) that achieves astonishingly low per-transistor costs. Anything related to :VI-BW4-EU, or electronic components and electronic component distributors such as:fairchild,avx capacitor, or electronics part index in: VI-BW4-EU, search hkinventory: VI-BW4-EU, Input and output impedance requirements. 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. They are also called power devices or when used in integrated circuits, called power ICs. 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. Datasheet Dir, DataSheet Archive
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. A microprocessor control program can be easily tailored to different needs of a product line, allowing upgrades in performance with minimal redesign of the product. The size, latency, throughput and connectivity of memories within the system are also microarchitectural decisions. Low-pass filters ?attenuation of frequencies above their cut-off points. Another benefit is that VHDL allows the description of a concurrent system. An electric field can increase the number of free electrons and holes in a semiconductor, thereby changing its conductivity. Its basic function is to detect a fault condition and, by interrupting continuity, to immediately discontinue electrical flow. Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs), which consist of a numberfrom a few (as low as two) to billionsof devices manufactured and interconnected on a single semiconductor substrate.
any passive component and active component such as:Diode, VHDL is a dataflow language, unlike procedural computing languages such as BASIC, C, and assembly code, which all run sequentially, one instruction at a time. One rarely finds modern circuits that are entirely analog.0 to the IEEE for balloting for inclusion in IEEE 1076-2008. 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. For example driver circuit
VI-BW4-EU,VI-BW4-EU,Comments from user about VI-BW4-EU: These days analog circuitry may use digital or even microprocessor techniques to improve performance. A microprocessor is a general purpose system. Passivity, in most cases, can be used to demonstrate that passive circuits will be stable under specific criteria. Sometimes it may be difficult to differentiate between analog and digital circuits as they have elements of both linear and non-linear operation. Radio broadcasting in the early 20th century brought the first major consumer product, the broadcast receiver. For high-pass and low-pass (as well as band-pass filters far from the center frequency), the required rejection may determine the slope of attenuation needed, and thus the "order" of the filter. Current conduction in a semiconductor occurs via mobile or "free" electrons and holes, collectively known as charge carriers. One particular pitfall is the accidental production of transparent latches rather than D-type flip-flops as storage elements The initial version of VHDL, designed to IEEE standard 1076-1987, included a wide range of data types, including numerical (integer and real), logical (bit and boolean), character and time, plus arrays of bit called bit_vector and of character called string. Anything related to :VI-BW4-EU, or electronic components and electronic component distributors such as:fairchild,avx capacitor, or electronics part index in: VI-BW4-EUSee also: