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LM131AH Rochester Electronics LLC Voltage to Frequency Converter, 1 Func, 0.1MHz, MBCY8, PACKAGE-8
LM131AH/883B Rochester Electronics LLC Voltage to Frequency Converter
LM131H Rochester Electronics LLC Voltage to Frequency Converter, 1 Func, 0.1MHz, MBCY8, PACKAGE-8
LM131H/B Rochester Electronics LLC Voltage to Frequency Converter
LM131AH/883 Rochester Electronics LLC Voltage to Frequency Converter, 1 Func, 0.01MHz, Bipolar, MBCY8, METAL, TO-5, 8 PIN
LM2917MX-8 Texas Instruments Frequency to Voltage Converter 8-SOIC -40 to 85

P51-50-G-F-MD-5V-000-000 datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
P51-50-G-F-MD-5V-000-000 P51-50-G-F-MD-5V-000-000 ECAD Model SSI Technologies Pressure Sensors, Transducers, Sensors, Transducers, SENSOR 50PSI 1/4-18NPT 1-5V Original PDF

P51-50-G-F-MD-5V-000-000 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
6n7gt

Abstract: 6n7 tube 6n7 triode TWIN TRIODE
Text: 500 300 VOLTS DC GfMD VOLTAGE 0 0 VOLT AF-PEAK SIGNAL VOLTAGE PEB GRI° " 29 41 VOLTS M AX 1 , OUTPUT 10 10 WATTS * F OK POWER OUTPUT SHOW» 8 500 OHMS ANO 50 MH. PLATE 13m. 1 OCT. 25 191J


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6BN6

Abstract: 6BN6 tube fm quadrature detector transformer limiter discriminator limiter-discriminator rs tube 10.7 transformer pentode fm A50VE
Text: , LIMITING IS WITHIN ±2 DECIBELS. ADEQUATE SHIELDING BETWEEN COMPONENTS OF THE LIMITER GfMD AND THE


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2003 - AM MODULATOR 1496

Abstract: No abstract text available
Text: - DL = 4.5V, DH - GND = 3.3V DH - GND = 1.5V DL - GND = 3.3V DL - GND = 1.5V 0.5 50 0.5 50 25 , 19 50 Notes: (1) See Gate Resistor selection recommendations (2) 1 square inch of FR4, double , Filter+Modulator+Divider DC Gain is 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB è5ø è 6.98 + 8.06 ø , Gain is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A This is point C


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PDF 600kHz/200kHz SC2612 600kHz SC2612A) 200kHz SC2612C) SC2612A/C 600kHz AM MODULATOR 1496
2003 - simple switcher 5v 10A

Abstract: MSOP-10 SC2610 SC2610A SC2610AMSTR Si4410DY
Text: Peak DH Sink/Source Current BST - DH = 4.5V, DH - GND = 3.3V DH - GND = 1.5V 0.5 50 A mA Peak DL Sink/Source Current BST - DL = 4.5V, DL - GND = 3.3V DL - GND = 1.5V 0.5 50 A mA , Dead Time µA dB 50 VCC = 5V dB 19 Error Amplifier Source/Sink Current 45 ±60 , Filter+Modulator+Divider DC Gain is æV ö GMOD = 19 + 20 × Logç IN ÷ è 5 ø Fp(lc ) = 8.06 æ5ö æ ö GFMD = 19 + , compensation is appropriate. So the total Filter+Modulator+Divider DC Gain is æ RB ö æV ö GFMD = 19 + 20


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PDF SC2610 SC2610 600kHz SC2610A) 600kH 220uF 220pF Si4410DY simple switcher 5v 10A MSOP-10 SC2610A SC2610AMSTR
2003 - Not Available

Abstract: No abstract text available
Text: DL - GND = 1.5V 0.5 50 0.5 50 gm AEA RCOMP = open 0.8 45 ±60 mS dB µA dB ns AM VCC = 5V 19 50 Notes: (1) See Gate Resistor selection recommendations (2) 1 square inch of FR4 , DC Gain is 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB è5ø è 6.98 + 8.06 ø This , is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A This is point C in


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PDF SC2610 600kHz SC2610A) SC2610 MO-187, MSOP-10
2003 - SC2612

Abstract: MODULATOR 1496 Si4410DY SC2612CMSTRT SC2612CMSTR SC2612C SC2612AMSTRT SC2612AMSTR SC2612A simple switcher 5v 10A
Text: 4.5V, DH - GND = 3.3V DH - GND = 1.5V 0.5 50 A mA Peak DL Sink/Source Current BST - DL = 4.5V, DL - GND = 3.3V DL - GND = 1.5V 0.5 50 A mA 2003 Semtech Corp. 2 , 45 dB µA 19 dB 50 V C C = 5V mS ± 60 RCOMP = open Error Amplifier Source , Log ç çR +R è 5 8 Fz(esr ) = 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB , Filter+Modulator+Divider DC Gain is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A


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PDF SC2612A/C 600kHz/200kHz SC2612 600kHz SC2612A) 200kHz SC2612C) 600kHz MODULATOR 1496 Si4410DY SC2612CMSTRT SC2612CMSTR SC2612C SC2612AMSTRT SC2612AMSTR SC2612A simple switcher 5v 10A
Not Available

Abstract: No abstract text available
Text: ,F2F, GFMD DDGF7DFMDF F F F ,BIFF 41IF 4IF 9IF Q@6(F(=F8F7&78F Q


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PDF 1234563789A7B79C422B9 8637B6 8778F 12345678193ABCDEF 07FTD# 776F8
2004 - SC2612E

Abstract: SC2612ESTRT
Text: µA Peak DH Sink/Source Current BST - DH = 4.5V, DH - GND = 3.3V DH - GND = 1.5V 0.5 50 , 50 A mA 2004 Semtech Corp. 2 www.semtech.com SC2612E POWER MANAGEMENT Electrical , 0.8 A EA AM V C C = 5V Dead Time 45 dB µA 19 dB 50 RCOMP = open mS , Log ç çR +R è 5 8 Fz(esr ) = 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB , Filter+Modulator+Divider DC Gain is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A


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PDF SC2612E 500kHz SC2612E 500kHz. 500kHz MS-012, IPC-SM-782A, SC2612ESTRT
2003 - MBRA130

Abstract: SC2611 SC2611ATSTR SC2611BTSTR Si4410DY BSTH 05 20
Text: 4.5V, DH - GND = 3.3V DH - GND = 1.5V 0.5 50 A mA Peak DL Sink/Source Current BST - DL = 4.5V, DL - GND = 3.3V DL - GND = 1.5V 0.5 50 A mA A EA Error Amplifier Source/Sink Current Modulator Gain AM V C C = 5V Dead Time 45 dB µA dB 50 RCOMP = , Fig2. R8 G DIV = 20 Log R +R 8 5 Fz( esr ) = 8.06 5 GFMD = 19 + 20 Log + 20 , Filter+Modulator+Divider DC Gain is RB V GFMD = 19 + 20 Log IN + 20 Log R +R 5 A B 2003 Semtech


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PDF SC2611A/B 600kHz/1MHz SC2611 600kHz SC2611A) SC2611B) 1500uF Si4410DY MBRA130 SC2611ATSTR SC2611BTSTR BSTH 05 20
2003 - 22MO

Abstract: AM MODULATOR 1496 2612B
Text: - GND = 3.3V DL - GND = 1.5V 0.5 50 0.5 50 www.semtech.com SC2612A/B/C POWER MANAGEMENT , EA AM RCOMP = open V C C = 5V 45 ± 60 19 50 Notes: (1) See Gate Resistor selection , GFMD = 19 + 20 Log + 20 Log = 13.6dB 5 6.98 + 8.06 This is drawn as the line A-B in Fig2 Fp , So the total Filter+Modulator+Divider DC Gain is RB V GFMD = 19 + 20 Log IN + 20 Log R +R 5


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PDF 600kHz/1MHz/200kHz SC2612 200kHz SC2612C) 600kHz SC2612A) SC2612B) SC2612A/B/C 22MO AM MODULATOR 1496 2612B
2002 - AM MODULATOR 1496

Abstract: SC2612 SC2612A SC2612AMSTR SC2612BMSTR SC2612C SC2612CMSTR MODULATOR 1496
Text: GND = 1.5V 0.5 50 A mA Peak DL Sink/Source Current BST - DL = 4.5V, DL - GND = 3.3V DL - GND = 1.5V 0.5 50 A mA 2002 Semtech Corp. 2 www.semtech.com SC2612A/B/C , 19 dB 50 V C C = 5V mS ±60 RCOMP = open Error Amplifier Source/Sink Current , 20 Log R +R 5 8 Fz(esr ) = 8.06 5 GFMD = 19 + 20 Log + 20 Log = 13.6dB 5 , GFMD = 19 + 20 Log IN + 20 Log R +R 5 B A 2002 Semtech Corp. 1 1 = 1.6kHz 2


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PDF SC2612A/B/C 600kHz/1MHz/200kHz SC2612 200kHz SC2612C) 600kHz SC2612A) SC2612B) AM MODULATOR 1496 SC2612A SC2612AMSTR SC2612BMSTR SC2612C SC2612CMSTR MODULATOR 1496
2004 - intel p4 motherboard power supply circuit diagram

Abstract: computer motherboard DDR circuit diagram dc input atx schematic Integrated cd 2025 cp SI4420 tssop 16 exposed pad stencil intel motherboard atx power supply schematic dc SC2614 computer motherboard circuit diagram P4
Text: ) BF_CUT low 1.8 2.5 BF_CUT High 3.5 5.0 BF_CUT Threshold TTL mA V 12VCC Under , 4000pF 35 nS 50 nS 0.8 mS 38 dB 5 MHz +/-60 uA VIN = 5V 19 dB IPWRGD = 1mA, sink 50 400 mV VPWRGD = 5V; BF_CUT = 0 0.1 2 uA Dead Time , Amplifier Gain @ DC 50 GBW RCOMP = open Error Amplifier Source/Sink Current Modulator Gain , be pulled low and released to restart switcher operation. RB V GFMD = 19 + 20 Log IN + 20


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PDF SC2614 SC2614 MLP-18 intel p4 motherboard power supply circuit diagram computer motherboard DDR circuit diagram dc input atx schematic Integrated cd 2025 cp SI4420 tssop 16 exposed pad stencil intel motherboard atx power supply schematic dc computer motherboard circuit diagram P4
2003 - 2610A

Abstract: cp1001
Text: 1.5V DL - GND = 3.3V DL - GND = 1.5V 0.5 50 0.5 50 gm A EA RCOMP = open 45 ± 60 AM V C C = 5V 19 50 Notes: (1) See Gate Resistor selection recommendations (2) 1 square inch of FR4 , Log IN 5 The total Filter+Modulator+Divider DC Gain is 8.06 5 GFMD = 19 + 20 Log + 20 Log , Filter+Modulator+Divider DC Gain is RB V GFMD = 19 + 20 Log IN + 20 Log R +R 5 A B This is point C in Fig2


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PDF 600kHz/1MHz SC2610 600kHz SC2610A) SC2610B) SC2610A/B Si4410DY 220uF 2610A cp1001
2003 - Not Available

Abstract: No abstract text available
Text: DH - GND = 1.5V DL - GND = 3.3V DL - GND = 1.5V 0.5 50 0.5 50 25 2003 Semtech Corp. 2 , 0.8 Max Units mS dB µA dB ns gm A EA AM RCOMP = open V C C = 5V 45 ± 60 19 50 Notes , Filter+Modulator+Divider DC Gain is 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB è5ø è 6.98 + 8.06 ø , Gain is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A This is point C


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PDF 600kHz/200kHz SC2612 600kHz SC2612A) 200kHz SC2612C) SC2612A/C 600kHz
2005 - SC2612E

Abstract: No abstract text available
Text: GND = 1.5V 400 80 0.3 500 600 kHz % 0.8 25 V µA A mA A mA 0.5 50 0.5 50 2005 , 5V 45 ± 60 19 50 Notes: (1) 1square inch of FR4, double sided, 1oz. minimum copper weight. (2 , Filter+Modulator+Divider DC Gain is 8.06 æ5ö æ ö GFMD = 19 + 20 × Logç ÷ + 20 × Logç ÷ = 13.6dB è5ø è 6.98 + 8.06 ø , Gain is æ RB ö æV ö GFMD = 19 + 20 × Logç IN ÷ + 20 × Logç ÷ çR + R ÷ è 5 ø B ø è A This is point C


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PDF 500kHz SC2612E 500kHz. SC2612E IPC-SM-782A,
2002 - SC2610

Abstract: SC2610A 2610B 2610C MSOP-10 SC2610AMSTR SC2610BMSTR
Text: BST - DH = 4.5V, DH - GND = 3.3V DH - GND = 1.5V 0.5 50 A mA Peak DL Sink/Source Current BST - DL = 4.5V, DL - GND = 3.3V DL - GND = 1.5V 0.5 50 A mA A EA Error Amplifier Source/Sink Current Modulator Gain AM V C C = 5V Dead Time 45 dB µA dB 50 , R +R 8 5 Fz( esr ) = 8.06 5 GFMD = 19 + 20 Log + 20 Log = 13.6dB 5 6.98 + , Type 2 compensation is appropriate. So the total Filter+Modulator+Divider DC Gain is RB V GFMD


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PDF SC2610A/B/C 600kHz/1MHz/200kHz SC2610 200kHz SC2610C) 600kHz SC2610A) SC2610B) SC2610A 2610B 2610C MSOP-10 SC2610AMSTR SC2610BMSTR
"Pressure Transducers" p51 50

Abstract: 734-1104-ND MG-15-A-9V-R MG1-3000-A-9V-R P51-200-G-A-I36-5V-R P51-1000-A-A-I36-20MA-R 734-1004-ND 1/tef 6851 MG1-100-A-9V-R P51-100-G-A-I36-5V-R
Text: -15-G-A-I36-4.5V-R 50 G 1/4 734-1001-ND 68.63 64.05 61.77 P51- 50 -G-A-I36-4.5V-R 100 G 1/4 734-1002-ND 68.63 , 64.05 61.77 P51-15-G-B-I36-4.5V-R 50 G 1/8 734-1006-ND 68.63 64.05 61.77 P51- 50 , -300-G-B-I36-4.5V-R 15 A 1/4 734-1040-ND 68.63 64.05 61.77 P51-15-A-A-I36-4.5V-R 50 A 1/4 734-1041-ND 68.63 64.05 61.77 P51- 50 -A-A-I36-4.5V-R 100 A 1/4 734-1042-ND 68.63 64.05 61.77 P51 , -15-A-B-I36-4.5V-R 50 A 1/8 734-1046-ND 68.63 64.05 61.77 P51- 50 -A-B-I36-4.5V-R 100 A 1/8 734-1047-ND 68.63


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PDF MG-15-A-9V-R MG-50-A-9V-R MG-75-A-9V-R MG-100-A-9V-R MG-200-A-9V-R MG-300-A-9V-R MG-500-A-9V-R MG-750-A-9V-R MG-1000-A-9V-R MG-1500-A-9V-R "Pressure Transducers" p51 50 734-1104-ND MG-15-A-9V-R MG1-3000-A-9V-R P51-200-G-A-I36-5V-R P51-1000-A-A-I36-20MA-R 734-1004-ND 1/tef 6851 MG1-100-A-9V-R P51-100-G-A-I36-5V-R
2009 - UHE-3.3

Abstract: UHE-5/5000-Q12-C uhe-12/2500-q48 UHE-5/5000-Q48 P51 transistor P-51 2500-Q12-C 125VOUT
Text: (mVp-p) Typ. Max. 80 80 80 120 120 120 55 55 80 80 70 50 90 75 50 65 70 90 80 80 50 60 50 80 65 55 125 65 65 100 60 70 70 70 100 70 100 120 90 125 , 36-75 35/0.59 ±0.2% ±0.15/0.3% 24 9-36 50 /1.17 ±0.35% ±0.5% 48 18-75 38/0.57 ±0.2% ±0.5% 48 36-75 35/0.6 ±0.2% ±0.5% 48 36-75 35/0.58 ±0.1% ±0.15/0.3% 24 9-36 50 /1.2 ±0.05% ±0.15/0.3% 48 18-75 38/0.58 ±0.075% ±0.15% 24 9-36 50 /1.44 ±0.2% ±0.25/0.5% 48 36-75 45/0.7


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PDF 0A/30W) 2-30W t6000-D48THL2-Y 12-30W UHE-3.3 UHE-5/5000-Q12-C uhe-12/2500-q48 UHE-5/5000-Q48 P51 transistor P-51 2500-Q12-C 125VOUT
Not Available

Abstract: No abstract text available
Text: 150-48 TOL 300-24 TOL 300-48 Output Power 10 Watt 15 Watt 30 Watt 50 Watt 75 Watt , ) ­ 10 to 30 Watt models: ­ 50 to 300 Watt models: Overvoltage protection Capacitive load 115 , ­ Operating (ambient temp.) ­ Derating above 50 °C ­ Storage (non operating) ­10 °C.+60°C (TOL150: ­10°C.+ 50 °C) 3 %/°C (TOL150: 1.5 %/°C above 35°C) ­20 °C.+ 75 °C Temperature coefficient , for models TOL30/ 50 /75/100/150/300) Remote sensing (only TOL300 models) On: Off: ­ without


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PDF V/10A V/15A V/20A CH-8002
Not Available

Abstract: No abstract text available
Text: Option Universal-Netzeingang 85­264 VAC, 50 /60 Hz Einstellbare Ausgangsspannung Netzrückwirkung , 15-12 TOL 30-12 15 Watt 30 Watt TOL 30-24 TOL 50-05 TOL 50-12 50 Watt TOL 50-24F , ­ 10 bis 30 Watt Modelle: ­ 50 bis 300 Watt Modelle: Hiccup Mode, dauernd (autom. Neustart , Betrieb ­ Leistungsreduktion oberhalb + 50 °C ­ Lagerung ­10 °C.+60 °C (TOL 150: ­10 °C.+ 50 °C , °C > 260 000 Std. bei +25 °C ­ TOL 10 / TOL 15: ­ TOL 30: ­ TOL 50 / TOL 75: ­ TOL 100 / TOL


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PDF 12max. D-85737
SVH-21T-P1.1 connector

Abstract: No abstract text available
Text: Output Power 10 Watt 15 Watt 30 Watt 50 Watt 75 Watt 100 Watt 150 Watt 300 Watt , recovery) constant current (automatic recovery) ­ 10 to 30 Watt models: ­ 50 to 300 Watt models , . General Specifications Temperature ranges ­ Operating temperature ­ Derating above 50 °C ­ Storage (non operating) ­10 °C.+60°C (TOL150: ­10°C.+ 50 °C) 3%/K (TOL150: 1.5 %/°C above 35 , 25 °C Remote ON /OFF (available as option for models TOL30/ 50 /75/100/150/300) Remote sensing


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PDF EN55022, CH-8002 SVH-21T-P1.1 connector
SVH-21T-P1.1

Abstract: SXH.001T-P0.6 JST svh-21t-p1.1 XHP-2 Class d 1000 WATT p53-12 JST VHR-4N led 1/2 watt datasheet traco 212 VHR-4N
Text: VDC 10 A 12 VDC 4.3 A 24 VDC 2.2 A (peak 3.0 A)* TOL 50-12 50 Watt TOL 50-24F , current (automatic recovery) ­ 10 to 30 Watt models: ­ 50 to 300 Watt models: Overvoltage , Specifications Temperature ranges ­ Operating temperature ­ Derating above 50 °C ­ Storage (non operating) ­10 °C.+60°C (TOL150: ­10°C.+ 50 °C) 3%/K (TOL150: 1.5 %/°C above 35°C) ­20°C.+70°C , TOL30/ 50 /75/100/150/300) Remote sensing (only TOL300 models) > 650'000 h @ 25°C > 500'000 h @ 25


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PDF EN55022, CH-8002 SVH-21T-P1.1 SXH.001T-P0.6 JST svh-21t-p1.1 XHP-2 Class d 1000 WATT p53-12 JST VHR-4N led 1/2 watt datasheet traco 212 VHR-4N
2000 - P-51

Abstract: No abstract text available
Text: 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 8K bytes , D08 D09 D10 D11 D12 D13 D14 D15 D16 D17 D18 0.22uF 1 VDD P1.0 9 100 VDD P1.1 8 50


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PDF EISA/PC-104 IRQ15 IRQ14 IRQ12 IRQ11 IRQ10 P-51
Not Available

Abstract: No abstract text available
Text: Power 10 Watt 15 Watt 30 Watt 50 Watt 75 Watt 100 Watt 150 Watt 300 Watt Output , (automatic recovery) constant current (automatic recovery) ­ 10 to 30 Watt models: ­ 50 to 300 Watt , max. General Specifications Temperature ranges ­ Operating (ambient temp.) ­ Derating above 50 °C ­ Storage (non operating) ­10 °C.+60°C (TOL150: ­10°C.+ 50 °C) 3 %/°C (TOL150: 1.5 %/°C above , : Remote ON /OFF (available as option for models TOL30/ 50 /75/100/150/300) Remote sensing (only TOL300


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PDF EN55022, CH-8002
2003 - SC2614

Abstract: MOTHERBOARD pcb CIRCUIT diagram atx power supply schematic
Text: low logic high .8 1 1.4 50 S3/S5 Input Current IS3,S5 2003 Semtech Corp. 3 , 250 275 280 24 20 28 80 75 25 25 35 35 20 50 0.8 80 % KHz Soft Start Current ISS µA , :RESR C> V < T IT So the total Filter + Modulator + Divider DC Gain is RB V GFMD = 19 + 20 Log IN , Filter+Modulator+Divider DC Gain is: 8.06 5 GFMD = 19 + 20 Log + 20 Log = 13.6dB 5 6.98 + 8.06 the divider gain


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PDF SC2616 SC2616 MLP-18 SC2614 MOTHERBOARD pcb CIRCUIT diagram atx power supply schematic
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