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Part Manufacturer Description Datasheet Download Buy Part
V62/04709-01XE Texas Instruments Enhanced Product 3.3-V Abt 16-Bit Bus Transceivers With 3-State Outputs 48-TSSOP -40 to 85
V62/04709-02YE Texas Instruments Enhanced Product 3.3-V Abt 16-Bit Bus Transceivers With 3-State Outputs 48-SSOP -55 to 125
PMP4709 Texas Instruments non-isolated synch buck with VID interface 0.7?0.9V@6.0A

BCM 4709 Datasheets Context Search

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VIZ0002

Abstract: VIZ00 V048F240M012 BCM reflow VIZ0020 VIZ0032 MV036F240M005 B048F030M21 020C P024F048T12AL
Text: products ( BCM , PRM, VTM). The JEDEC standard does not apply to through-hole parts as they are hand- or , P045F048T17AL P045F048T32AL P048F048M24AL P048F048T12AL P048F048T24AL Part Family BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (HV) BCM (HV) BCM (HV) PRM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM


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MOTHERBOARD PS3

Abstract: TP04 adjustable regulator high voltage high voltage ceramic cap PS3 motherboard high voltage transformer res Array 4 TP05 B384F120T30 PS01
Text: User Guide UG:0006 High Voltage BCM Series Array Evaluation System Contents Page 1.0 , 2.1 High Voltage BCM Series Array 2.1.1 Power Rating of BCM array 3 2.1.2 HV BCM Series Array Components 4 2.1.3 HV BCM Series Array Schematic 5 2.1.4 HV BCM Series Array Layout 6 2.2 HV BCM , 8 2.3 HV BCM Series Array System Bill of Material 2.3.1 HV BCM Series Array Bill of Material 2.3.2 HV BCM Evaluation Baseboard Bill of Material 3.0 Using the High 8 Voltage BCM Series Array


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2010 - varistance

Abstract: Varistor 4032 EUROFARAD 400 Faraday LA 4100 0/KC 222 M VARISTOR
Text: 10/14/20/24 700 200 200 50 50 600 222 BCM - 2100 50 610 200 110 50 50 510 222 BCM - 2125 10/14/20/24 700 200 200 50 50 600 222 140 BCM - 2125 50 610 200 110 50 50 510 222 45 BCM - 4010 10/20 560 250 110 37 70 420 272 BCM - 4016 10/14/20/24 570 250 160 37 70 430 272 BCM - 4016 50/54 560 250 110 37 70 420 272 BCM - 4032


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41809

Abstract: AWG18 DISTRIBUTION BOARD
Text: Application Note AN:006 A Filter Solution for the BCM By Salah Ben Doua Sales and Senior , K = 1/16 and K = 1/4 BCM 3 K = 1 BCM 4 Filtering Multiple BCMs 5 BCM Powering , Solutions 7 for Space Savings The Bus Converter Module ( BCM ) is a member of Vicor's Factorized Power , sensitive circuitry. Without any external filtering capacitors, output noise at the BCM is less than 1% of , practical guidelines to allow the end user to develop a complete BCM solution. For applications where PCB


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lm2676-adj

Abstract: LM2678-ADJ celestica 5 v power module celestica power module up board intermediate scheme LM2678-ADJ equivalent PTH12010 PTH12010WAS PTH12050 PTH12060
Text: Application Note AN:001 Configuring the Vicor BCM with Low Power ni-POLs By Johnny Yuen, David , This Application Note describes basic design practices for using Vicor's Bus Converter Module ( BCM ) as , converters (niPOLs). The focus of this Application Note is on power systems of 300 W or less (multiple BCM , 48 V bus is again used, in this case to power a Vicor 48 V to 12 V (K = 1/4) BCM . The K = 1/4 refers to the fixed ratio or voltage transformation ratio of the BCM . The IBA approach has some advantages


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PDF S151-122033-BB 8/10-D12 NEF-0100181BO PTH12010WAS NXA025ADJ PTH12010 PTH12050 PTH12060 lm2676-adj LM2678-ADJ celestica 5 v power module celestica power module up board intermediate scheme LM2678-ADJ equivalent PTH12010 PTH12010WAS PTH12050 PTH12060
Not Available

Abstract: No abstract text available
Text: 4 General Guidelines 6 Conclusion 6 Theory BCM modules current share when their , output interconnect impedance matching, b) the output impedances (ROUT) of the BCM modules, and c , such, the input voltages must be equal to ensure evenly distributed sharing. Figure 1. +IN BCM , has been reduced to its core elements and each BCM module is represented as a resistor with , €¢ K I1 I2 • K I2 VIN Load RINPUT2 ROUT ROUTPUT2 BCM Module 2 ® If


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Not Available

Abstract: No abstract text available
Text: Digital Supervisor D44TL1A0 For use with VI Chip® BCM Bus Converter Module Features , four ChiP BCM Bus Converter Modules. The Supervisor communicates with a system controller via a PMBus compatible interface. Acting as a communication bridge, the Supervisor communicates with up to four BCM Bus , , set protection limits, and monitor each BCM . monitoring and control of ChiP BCM Bus Converter , Isolators I13TL1A0 enabling secondary referenced BCM control and telemetry • OVP, OCP, OTP protection


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PDF D44TL1A0 D44TL1A0 D44TL1A0,
high voltage regulator schematic

Abstract: adjustable regulator high voltage high voltage ceramic cap high voltage diodes VICOR REGULATOR SCHEMATIC PS01 B384F120T30 TP04 TP05 high voltage transformer
Text: 2 2.1 High Voltage BCM Parallel Array 2.1.1 Power Rating of BCM Parallel Array 2.1.2 High Voltage BCM 3 Parallel Array Components 2.1.3 High Voltage BCM 4 Parallel Array Schematic 2.1.4 High Voltage BCM 5 Parallel Array Layout 2.2 High Voltage BCM 6 Parallel Evaluation Board 2.2.1 High , Schematic 2.2.3 High Voltage Parallel Evaluation Baseboard Layout 8 2.3 High Voltage BCM Parallel Array System Bill of Material 2.3.1 High Voltage BCM Parallel Array Bill of Material 2.3.2 High


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VIZ0002

Abstract: VIZ00 vicor MA01810 VIZ0033 BCM reflow B048F080T24 B048F040T20 B048F030T21 VIV0103THJ VTM 48
Text: : All surface-mount (J-lead) V.I Chip products ( BCM , PRM, VTM). The JEDEC standard does not apply to , Family BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (48V) BCM (HV) BCM (HV) BCM (HV) PRM VTM VTM VTM VTM VTM VTM , VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM VTM BCM (HV) BCM (HV


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2006 - Not Available

Abstract: No abstract text available
Text: V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM B048F120T30 · 48 , size Product Description The V·I Chip Bus Converter Module ( BCM ) is a high efficiency (>95 , isolated 9.5 V to 13.8 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 9.5 ­ 13.8 V source. Due to the fast response time and low noise of the BCM , the need for limited , savings of board area, materials and total system cost. The BCM achieves a power density of 1095 W/in3 in


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2006 - Not Available

Abstract: No abstract text available
Text: PRELIMINARY V•I Chip Bus Converter Module BCM B048F030T21 V•I Chip – BCM Bus , Actual size Absolute Maximum Ratings The V•I Chip Bus Converter Module ( BCM ) is a high , bus to deliver an isolated 2.38 V to 3.43 V secondary. The BCM may be used to power non-isolated POL , BCM , the need for limited life aluminum electrolytic or tantalum capacitors at the load is reduced—or eliminated—resulting in savings of board area, materials and total system cost. The BCM


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lm2676-adj

Abstract: up board intermediate scheme LM2678-ADJ LM2678 LM2678-ADJ equivalent PTH12010 PTH12010WAS PTH12050 PTH12060
Text: Application Note AN:001 Configuring the Vicor BCM with Low Power ni-POLs By Johnny Yuen, David , This Application Note describes basic design practices for using Vicor's BCM Bus Converter as an , The focus of this Application Note is on power systems of 300 W or less (multiple BCM configurations , 48 V bus is again used, in this case to power a Vicor 48 V to 12 V (K = 1/4) BCM . The K = 1/4 refers to the fixed ratio or voltage transformation ratio of the BCM . The IBA approach has some advantages


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PDF S151-122033-BB 8/10-D12 NEF-0100181BO PTH12010WAS NXA025ADJ PTH12010 PTH12050 PTH12060 lm2676-adj up board intermediate scheme LM2678-ADJ LM2678 LM2678-ADJ equivalent PTH12010 PTH12010WAS PTH12050 PTH12060
B384F120T30

Abstract: No abstract text available
Text: 1 1 1 2 ROUT 2 3 3 6 6 BCM BCM BCM a b ROUT c BCM 10BCMa c 11BCM 4 BCM BCM BCMROUT , 1 of 6 Application Note AN:016 BCM 22BCM BCMROUT Figure 2 BCM , =1 BCM1100% ROUT ROUTBCM BCM ROUT ROUT BCM BCM vicorpower.jp 03-5487-5407Rev. 1.0 2/2008 Page 2 of 6 Application Note AN:016 BCM ROUT BCM BCM BCMROUT BCM


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PDF 10BCMa 11BCM 03-5487-5407Rev. 22BCM B384F120T30
2006 - Not Available

Abstract: No abstract text available
Text: PRELIMINARY V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM , © Actual size Product Description The V·I Chip Bus Converter Module ( BCM ) is a high efficiency (>96 , isolated 12.7 V to 18.3 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 12.7 ­ 18.3 V source. Due to the fast response time and low noise of the BCM , the need for limited , savings of board area, materials and total system cost. The BCM achieves a power density of 829 W/in3 in a


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PDF B048F160T24
2006 - Not Available

Abstract: No abstract text available
Text: PRELIMINARY V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM , max Actual size Product Description The V·I Chip Bus Converter Module ( BCM ) is a high , bus to deliver an isolated 19.0 V to 27.5 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 19.0 ­ 27.5 V source. Due to the fast response time and low noise of the BCM , eliminated-resulting in savings of board area, materials and total system cost. The BCM achieves a power density of


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PDF B048F240T30
2006 - 0945cl

Abstract: No abstract text available
Text: PRELIMINARY V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM , max Actual size Product Description The V·I Chip Bus Converter Module ( BCM ) is a high , bus to deliver an isolated 1.19 V to 1.71 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 1.19 ­ 1.71 V source. Due to the fast response time and low noise of the BCM , eliminated-resulting in savings of board area, materials and total system cost. The BCM achieves a current density of


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2010 - B384F120T30

Abstract: D496 D505
Text: an isolated low voltage secondary (ELV). The off-line BCM provides an isolated 11.3 -12.5 V , low noise of the BCM , the need for limited life aluminum electrolytic or tantalum capacitors at the , total system cost. The BCM achieves a power density of 1017 W/in3 in a V·I Chip package compatible , . Owing to its high conversion efficiency and safe operating temperature range, the BCM does not require , normal operating input range. The BCM turns on within an input voltage window bounded by the "Input


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PDF B384F120T30 B384F120T30 D496 D505
2006 - B384F120T30

Abstract: BCM reflow
Text: Preliminary V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM , Rout = 20.0 m max Actual size Product Description The V·I Chip Bus Converter Module ( BCM ) is a , Vdc primary bus to deliver an isolated low voltage secondary. The off-line BCM provides an isolated , response time and low noise of the BCM , the need for limited life aluminum electrolytic or tantalum , , materials and total system cost. The BCM achieves a power density of 1036 W/in3 in a V·I Chip package


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PDF B384F120T30 B384F120T30 BCM reflow
2006 - 10Preliminary

Abstract: No abstract text available
Text: PRELIMINARY V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM , Rout = 15.0 m max Actual size Product Description The V·I Chip Bus Converter Module ( BCM ) is a , Vdc primary bus to deliver an isolated low voltage secondary. The off-line BCM provides an isolated , response time and low noise of the BCM , the need for limited life aluminum electrolytic or tantalum , , materials and total system cost. The BCM achieves a power density of 876 W/in3 in a V·I Chip package


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PDF B384F120T24 P048K048T24AL 10Preliminary
B048F096M24

Abstract: B048F096T24 D496 D505
Text: an isolated 7.60 V to 11.0 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 7.60 ­ 11.0 V source. Due to the fast response time and low noise of the BCM , the , eliminated-resulting in savings of board area, materials and total system cost. The BCM achieves a power density of , , the BCM does not require a discrete heat sink in typical applications. Low junction-to-case and , voltage lockout function prevents operation outside of the normal operating input range. The BCM turns on


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PDF B048F096T24 B048F096M24 B048F096M24 B048F096T24 D496 D505
2007 - Not Available

Abstract: No abstract text available
Text: to 55 Vdc primary bus to deliver an isolated 4.75 V to 6.87 V secondary. The BCM may be used to power , noise of the BCM , the need for limited life aluminum electrolytic or tantalum capacitors at the load is reduced-or eliminated-resulting in savings of board area, materials and total system cost. The BCM achieves , operating temperature range, the BCM does not require a discrete heat sink in typical applications. Low , range. The BCM turns on within an input voltage window bounded by the "Input under-voltage turn-on" and


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PDF B048F060T24
2008 - Not Available

Abstract: No abstract text available
Text: ) operating from a 38.0 to 55 Vdc primary bus to deliver an isolated 38.0 V to 55.0 V secondary. The BCM may , fast response time and low noise of the BCM , the need for limited life aluminum electrolytic or , and total system cost. The BCM achieves a power density of 1036 W/in3 in a V·I Chip package compatible , high conversion efficiency and safe operating temperature range, the BCM does not require a discrete , range. The BCM turns on within an input voltage window bounded by the "Input under-voltage turn-on" and


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PDF B048F480T30 B048F480M30 B048F480T30
2008 - Not Available

Abstract: No abstract text available
Text: ) operating from a 38 to 55 Vdc primary bus to deliver an isolated 6.34 V to 9.16 V secondary. The BCM may be , response time and low noise of the BCM , the need for limited life aluminum electrolytic or tantalum , system cost. The BCM achieves a power density of 829 W/in3 in a V·I Chip package compatible with standard , efficiency and safe operating temperature range, the BCM does not require a discrete heat sink in typical , range. The BCM turns on within an input voltage window bounded by the "Input under-voltage turn-on" and


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PDF B048F080T24 B048F080M24 B048F080T24
2011 - Not Available

Abstract: No abstract text available
Text: to 55 Vdc primary bus to deliver an isolated 3.17 V to 4.58 V secondary. The BCM may be used to power , noise of the BCM , the need for limited life aluminum electrolytic or tantalum capacitors at the load is reduced-or eliminated-resulting in savings of board area, materials and total system cost. The BCM achieves , operating temperature range, the BCM does not require a discrete heat sink in typical applications. Low , range. The BCM turns on within an input voltage window bounded by the "Input under-voltage turn-on" and


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PDF B048F040T20 B048F040M20 B048F040T20
2006 - TO125

Abstract: transistor array K1 marking
Text: V·I Chip Bus Converter Module BCM V·I Chip ­ BCM Bus Converter Module TM B048F040T20 · 48 , Product Description The V·I Chip Bus Converter Module ( BCM ) is a high efficiency (>94%), narrow input , 3.17 V to 4.58 V secondary. The BCM may be used to power non-isolated POL converters or as an independent 3.17 ­ 4.58 V source. Due to the fast response time and low noise of the BCM , the need for limited , savings of board area, materials and total system cost. The BCM achieves a current density of 173 A/in3 in


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PDF B048F040T20 TO125 transistor array K1 marking
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