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TPS543B20RVFR Texas Instruments 4-19Vin 25A Stackable Synchronous Step-down SWIFT™ Converter w/ Adaptive Internal Compensation 40-LQFN-CLIP -40 to 125
TPS543B20RVFT Texas Instruments 4-19Vin 25A Stackable Synchronous Step-down SWIFT™ Converter w/ Adaptive Internal Compensation 40-LQFN-CLIP -40 to 125

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ir3870

Abstract: cap 150uf 35v SCHEMATIC DIAGRAM POWER SUPPLY 12v 10A Cap X7R 1210 T4 GRM1885C1H470JA01D MCR10EZPJ000 murata x7r capacitor 0603 IR3870 voltage regulator MBR0530T1G SMD r105
Text: (50mV/div); 20uS/div CH2: Phase (10V/div) Figure 10: Load Step (2A to 10A) Transient (5A/uS) at 19Vin , from 0.5A to 5A at 19Vin Figure 13: FCCM/CCM transition from 0.5A to 5A at 12Vin CH1: Vout , Vin=12V, PVcc=5.0V, Vcc=3.3V, Vo=1.1V, Io=0- 10A, , Room Temperature, No Air Flow Ef f- 19Vin w /CP Ploss- 19Vin w /CP Eff- 19Vin no CP Ploss- 19Vin no CP 3.5 86 3.0 85 2.5 84 2.0 , 1.1095 1.1090 1.1085 1.1080 1.1075 1.1070 19Vin 1.1065 12.6Vin 1.1060 1.1055 0 2


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PDF IRDC3870 IRDC3870 IR3870 cap 150uf 35v SCHEMATIC DIAGRAM POWER SUPPLY 12v 10A Cap X7R 1210 T4 GRM1885C1H470JA01D MCR10EZPJ000 murata x7r capacitor 0603 IR3870 voltage regulator MBR0530T1G SMD r105
schematic diagram converter input 12v to 19v

Abstract: SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A GRM188R61E105KA12D CJS-1200TB ir3710 EEEFK1E331P BAS316 IRFH7932PbF TMK212BJ105KG-T MCR03EZPFX4872
Text: Voltage (10V/Div) Ch2-Vout(50mV/Div) Figure 10: Load Step (5A to 15A) Transient at 19Vin 8 , (50mV/Div) Figure 12: DCM/CCM transition from 1.0A to 5A at 19Vin Ch1-Phase Voltage (10V/Div , -69.7°C,Inductor: 58.1°C, PCB: 56.4°C Figure 19: Thermal Image @ 19Vin , 20A, With CP On Q1:83.2°C,Q2:91.2


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PDF IRDC3710-QFN IRDC3710-QFN IR3710M IR3710M IC-64 12Vin, IC-69 19Vin, IC-68 schematic diagram converter input 12v to 19v SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A GRM188R61E105KA12D CJS-1200TB ir3710 EEEFK1E331P BAS316 IRFH7932PbF TMK212BJ105KG-T MCR03EZPFX4872
schematic diagram converter input 12v to 19v

Abstract: schematic diagram converter input 12v to 19v for IRF6729 c15c C536C 19VIN SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A FDUE1245-R50M cp 1099 BAT54S
Text: ) Transient at 19Vin 8 IRDC3710-DF TYPICAL OPERATING WAVEFORMS Vin=12V, PVcc=5.0V, Vcc=3.3V,Vo , (10V/Div) Ch2-Vout(50mV/Div) Figure 12: DCM/CCM transition from 1.0A to 5A at 19Vin Ch1-Phase , Flow Q1: 77.7°C, Q2:82.4°C,Inductor: 53.3°C, PCB: 54.1°C Figure 19: Thermal Image @ 19Vin , 24A


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PDF IRDC3710-DF IRDC3710-DF IR3710M IR3710M 12Vin, 19Vin, schematic diagram converter input 12v to 19v schematic diagram converter input 12v to 19v for IRF6729 c15c C536C 19VIN SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A FDUE1245-R50M cp 1099 BAT54S
2009 - tps51610

Abstract: bq24748 TPS51124 TPS51125 TPS51116 TPS51123 TPS51218 TPS51117 adaptor 5V 2A 12v battery charger
Text: TI Power Solutions for Diamondville (Atom IMVP6+) ADAPTOR MODE VBUS=19V ACFET ADAPTOR 19VIN BATTERY MODE VBUS=12V~16.8V FOR EMBEDDED PCs INPUT MAY BE 5V OR 12V CPU VCORE-Atom TPS51610 Single phase BATFET TPS5122x (2-cell) CHARGER TPS51123 bq24748 System 5V,3.3V TPS51125 5V 3.3V I/O LDO BATTERY Pack 4S1P Gas Gauge DDRII I/O 1.8V,1.05V bq20z75 2 x TPS51218 , =19V BATTERY MODE VBUS=12V~16.8V FOR EMBEDDED PCs INPUT MAY BE 5V OR 12V ACFET ADAPTOR 19VIN CPU


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PDF 19VIN TPS51610 TPS5122x TPS51123 bq24748 TPS51125 bq20z75 TPS51218 TPS51117 TPS51124 tps51610 TPS51124 TPS51125 TPS51116 TPS51123 TPS51218 TPS51117 adaptor 5V 2A 12v battery charger
2011 - IR3870

Abstract: IR3870MPbF IR3870M IR3870 voltage regulator PD-97392
Text: ) Eff: 12.6Vin 1.11400 Eff: 19Vin Ploss: 12.6Vin Ploss: 19Vin 88 0.5 0.5 87 0.4 1.10400 1.09900 0.4 85 84 0.3 0.2 83 0.2 19Vin 82 12.6Vin 1.09400 0.3 81 , ) Eff: 19Vin Ploss: 12.6Vin 89 86 2.0 85 1.5 84 83 1.0 82 0.5 81 80 , 8 1.4 16 88 6 1.2 Ploss: 19Vin 3.5 4 1.0 Figure 7. Light load Efficiency


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PDF PD-97392 IR3870MPBF IR3870M IR3870 maxi0098 IR3870 IR3870MPbF IR3870 voltage regulator PD-97392
2010 - ir3870

Abstract: IR3870M IR3870MBF IR3870 voltage regulator ECJ-3YB1E106M 19VIN
Text: 1.11400 Eff: 19Vin Ploss: 12.6Vin Ploss: 19Vin 88 0.5 0.5 87 0.4 1.10400 1.09900 0.4 85 84 0.3 0.2 83 0.2 19Vin 82 12.6Vin 1.09400 0.3 81 0.1 , : 19Vin Ploss: 12.6Vin 89 86 2.0 85 1.5 84 83 1.0 82 0.5 81 80 0.0 10 , 16 88 6 1.2 Ploss: 19Vin 3.5 4 1.0 Figure 7. Light load Efficiency: VOUT = 1.1V


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PDF PD-97392 IR3870MBF IR3870M IR3870 maxim0098 ir3870 IR3870MBF IR3870 voltage regulator ECJ-3YB1E106M 19VIN
2009 - IR3870M

Abstract: IR3870 IR3870 voltage regulator IR3870MBF
Text: 1.11400 Eff: 19Vin Ploss: 12.6Vin Ploss: 19Vin 88 0.5 0.5 87 0.4 1.10400 1.09900 0.4 85 84 0.3 0.2 83 0.2 19Vin 82 12.6Vin 1.09400 0.3 81 0.1 , : 19Vin Ploss: 12.6Vin 89 86 2.0 85 1.5 84 83 1.0 82 0.5 81 80 0.0 10 , 16 88 6 1.2 Ploss: 19Vin 3.5 4 1.0 Figure 7. Light load Efficiency: VOUT = 1.1V


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PDF PD97392 IR3870MBF IR3870M IR3870 IR3870 IR3870 voltage regulator IR3870MBF
2011 - 19VIN

Abstract: No abstract text available
Text: Operating Area for 12VIN 11 VDRV & VCIN = 5V, VOUT = 1V 10 Figure 7. Safe Operating Area for 19VIN VDRV & VCIN = 5V, VOUT = 1V 12Vin 300kHz 12Vin 500kHz 12Vin 800kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz Module Power Loss, PLMOD (W) 8 7 6 5 4 3 2 1 0 0 Module , Current for 19VIN VDRV & VCIN = 5V, VOUT = 1V, FSW = 300kHz, IOUT = 30A VIN = 12V, VDRV & VCIN = 5V


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PDF FDMF6708N FDMF6708N 19VIN
2011 - Not Available

Abstract: No abstract text available
Text: 10 Figure 7. Safe Operating Area for 19VIN 12Vin 300kHz 12Vin 500kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz Module Power Loss, PLMOD (W) 8 7 6 5 4 3 2 1 0 0 , Current for 12VIN Figure 9. 1.16 Power Loss vs. Output Current for 19VIN VIN = 12V, VDRV & VCIN


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PDF FDMF6833C FDMF6833C
2011 - Not Available

Abstract: No abstract text available
Text: 5V, VOUT = 1V 10 Figure 7. Safe Operating Area for 19VIN VDRV & VCIN = 5V, VOUT = 1V 12Vin 300kHz 12Vin 500kHz 12Vin 800kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz , Current for 12VIN Figure 9. 1.16 Power Loss vs. Output Current for 19VIN VDRV & VCIN = 5V, VOUT =


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PDF FDMF6708N FDMF6708N
2012 - Not Available

Abstract: No abstract text available
Text: 19VIN VDRV & VCIN = 5V, VOUT = 1V 12Vin 300kHz 12Vin 500kHz 12Vin 800kHz 12Vin 1000kHz 11 10 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz Module Power Loss, PLMOD (W) 9 8 7 6 5 4 3 2 , vs. Output Current for 19VIN VDRV & VCIN = 5V, VOUT = 1V, FSW = 300kHz, IOUT = 30A VIN = 12V


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PDF FDMF3030 FDMF3030
2011 - Not Available

Abstract: No abstract text available
Text: Operating Area for 12VIN 11 10 Figure 7. Safe Operating Area for 19VIN 12Vin 300kHz 12Vin 500kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz Module Power Loss, PLMOD (W , 19VIN VIN = 12V, VDRV & VCIN = 5V, VOUT = 1V, IOUT = 30A VDRV & VCIN = 5V, VOUT = 1V, FSW = 300kHz


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PDF FDMF6833C FDMF6833C
2011 - Not Available

Abstract: No abstract text available
Text: . Safe Operating Area for 19VIN 12Vin 300kHz 12Vin 500kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz Module Power Loss, PLMOD (W) 8 7 6 5 4 3 2 1 0 0 Module Power Loss , Figure 9. 1.16 Power Loss vs. Output Current for 19VIN VIN = 12V, VDRV & VCIN = 5V, VOUT = 1V


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PDF FDMF6833C FDMF6833C
2011 - tact switch

Abstract: No abstract text available
Text: 5V, VOUT = 1V 10 Figure 7. Safe Operating Area for 19VIN VDRV & VCIN = 5V, VOUT = 1V 12Vin 300kHz 12Vin 500kHz 12Vin 800kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz , Current for 12VIN Figure 9. 1.16 Power Loss vs. Output Current for 19VIN VDRV & VCIN = 5V, VOUT =


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PDF FDMF6708N FDMF6708N tact switch
2011 - Not Available

Abstract: No abstract text available
Text: Operating Area for 12VIN 75 100 125 150 Safe Operating Area for 19VIN 11 12Vin 300kHz , 12Vin 1000kHz 7 6 5 4 3 2 VDRV & VCIN = 5V, VOUT = 1V 19Vin 300kHz 10 1 19Vin 500kHz 9 19Vin 800kHz 8 19Vin 1000kHz 7 6 5 4 3 2 1 0 0 0 5 Figure 8 , ) 40 45 Power Loss vs. Output Current for 19VIN 1.16 VDRV & VCIN = 5V, VOUT = 1V, FSW =


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PDF FDMF6708N
2011 - Not Available

Abstract: No abstract text available
Text: Operating Area for 19VIN 11 12Vin 300kHz 12Vin 800kHz 8 12Vin 1000kHz Module Power Loss, PLMOD (W) 9 19Vin 300kHz 10 12Vin 500kHz 7 6 5 4 3 2 VDRV & VCIN = 5V, VOUT = 1V 1 19Vin 500kHz 9 19Vin 800kHz 8 19Vin 1000kHz 7 6 5 4 3 2 VDRV & VCIN = 5V, VOUT = 1V , Module Output Current, IOUT (A) 40 45 Power Loss vs. Output Current for 19VIN 1.16 1.6


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PDF FDMF6833C FDMF6833C
2010 - Not Available

Abstract: No abstract text available
Text: 90 2.00 90 85 1.75 85 80 1.50 19VIN 75 1.25 Power Loss 70 1.00 50 19VIN 0 1 2 3 4 5 IOUT (A) 6 7 8 9 10 65 60 55 0.00 , 1.00 Power Loss 65 19VIN 12VIN 60 Efficiency (%) 1.50 Power Loss (W) 19VIN , 10 50 0.00 External biased: V5V = 5V, VOUT = 1.05V 0 90 85 19VIN 80 1.00 , 55 0.00 50 0.08 65 0.25 19VIN 6 VIN = 12v, VOUT = 1.05V 75 0.75


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PDF SC417/SC427 200mA
2010 - SC417

Abstract: SC427 PRO22 IHLP4040DZER1R0M11 EEFSX0E331E MPC1040LR88 MLPQ-32 SC417MLTRT JESD22-A114 SC4277
Text: , VOUT = 1.05V 95 90 2.00 90 85 1.75 85 80 1.50 19VIN 75 1.25 Power Loss 70 1.00 50 19VIN 0 1 2 3 4 5 IOUT (A) 6 7 8 9 10 , Efficiency 90 70 1.00 Power Loss 65 19VIN 12VIN 60 Efficiency (%) 1.50 Power Loss (W) 19VIN 75 4 5 IOUT (A) 6 7 8 9 -0.025 10 0.225 0.175 , 19VIN 80 1.00 Power Loss 55 6VIN 0 1 2 3 4 5 IOUT (A) 6 7 8


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PDF SC417/SC427 200mA SC417 SC427 PRO22 IHLP4040DZER1R0M11 EEFSX0E331E MPC1040LR88 MLPQ-32 SC417MLTRT JESD22-A114 SC4277
2010 - SC417

Abstract: SC427 JESD22-A114 MLPQ-32 SC417MLTRT
Text: , VOUT = 1.05V 95 90 2.00 90 85 1.75 85 80 1.50 19VIN 75 1.25 Power Loss 70 1.00 50 19VIN 0 1 2 3 4 5 IOUT (A) 6 7 8 9 10 , Efficiency 90 70 1.00 Power Loss 65 19VIN 12VIN 60 Efficiency (%) 1.50 Power Loss (W) 19VIN 75 4 5 IOUT (A) 6 7 8 9 -0.025 10 0.225 0.175 , 19VIN 80 1.00 Power Loss 55 6VIN 0 1 2 3 4 5 IOUT (A) 6 7 8


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PDF SC417/SC427 200mA SC417 SC427 JESD22-A114 MLPQ-32 SC417MLTRT
2014 - Not Available

Abstract: No abstract text available
Text: P R O D U C T B R I E F MIC24051/2/3/4/5/6 19Vin , 6A/9A/12A High-Performance Integrated FET Buck Regulator A P P L I C AT I O N S BENEFITS FEATURES » Versatile Buck Regulators • High delta-V operation: (VIN = 19V and VOUT = 0.8V) • Any Capacitor™ stable: zero-to-high ESR • 10µA typical current meets Energy Star requirements SERVERS, WORKSTATIONS » Small Solution Size & Cost • Hyper Speed Control™ allows for small output capacitance for a given load transient


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PDF MIC24051/2/3/4/5/6 19Vin, A/9A/12A MIC24051YJL MIC24052YJL MIC24053YJL MIC24055YJL 28-Pin MIC24056YJL MIC24054YJL
2003 - AN-6003

Abstract: GS 069 pwm Q1/SW-16
Text: used in notebook PC's (2 in parallel) with 15A output current and 19VIN. Figure 8 assumes that the SW , low-side MOSFET, 25nS delay from comparator sense to beginning of SW node rise, 19VIN , 10nS SW node rise


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PDF AN-6003 AN-6003 GS 069 pwm Q1/SW-16
2010 - Not Available

Abstract: No abstract text available
Text:  BASIC APPLICATION EFFICIENCY 95% Efficiency 85% 75% 19VIN 12VIN 65 , . 100% 95% 90% 75% 19VIN 12VIN 65% 80% Efficiency Efficiency 85% 8VIN , 8: RFF vs. Switching Frequency  1.050 1.050 19VIN 1.048 Output Voltage (V) Output Voltage (V) 0.1 Â


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PDF IR3477 IR3477Â
2011 - Not Available

Abstract: No abstract text available
Text: ) 12Vin 800kHz 12Vin 1000kHz 8 19Vin 300kHz 10 12Vin 500kHz 7 6 5 4 3 2 VDRV & VCIN = 5V, VOUT = 1V 1 19Vin 500kHz 9 19Vin 800kHz 19Vin 1000kHz 8 7 6 5 4 3 2


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PDF FDMF6833C FDMF6833C
2011 - Not Available

Abstract: No abstract text available
Text: 12Vin 800kHz 8 12Vin 1000kHz 7 6 5 4 3 2 VDRV & VCIN = 5V, VOUT = 1V 19Vin 300kHz 10 1 19Vin 500kHz 9 19Vin 800kHz 8 19Vin 1000kHz 7 6 5 4 3 2 1 0 0


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PDF FDMF6708N FDMF6708N
2011 - Not Available

Abstract: No abstract text available
Text: 12Vin 500kHz 12Vin 800kHz 12Vin 1000kHz 19Vin 300kHz 19Vin 500kHz 19Vin 800kHz 19Vin 1000kHz


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PDF FDMF6708N FDMF6708N
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