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LT3484EDCB-0#TRMPBF LT3484EDCB-0#TRMPBF ECAD Model Analog Devices Inc Photoflash Capacitor Charger Visit Analog Devices Inc
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10 mf capacitor Datasheets Context Search

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MF CAPACITOR

Abstract: MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet
Text: C2, C4 10 mF Capacitor , Ceramic, 10 V 1206 GRM42-2X5R106K16 Murata 10 2 C3 , Vishay Dale 8 2 C1, C4 10 mF Capacitor , Ceramic, 10 V 01206 GRM42 , 10 2 C5, C9 1 mF Capacitor , Ceramic 0805 VJ0805105KXXAT Vishay Vitramon 11 , 7 ROSC 8 FB TP1 11 10 9 COMP C3 1 mF R1 100 W MBR0520T1 12 VDD , 15 SD 6 1.3 V P3 1 1 TP2 1 GND Q1B Si6801DQ U1 2 C2 10 mF R5


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PDF Si9166DB Si9166 200-mA Si9165 VJ0805470KXXAT MBR0520T1 OD-123 IHLP2525 MF CAPACITOR MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet
MBR0520T1

Abstract: SIP 9 JP1 CRCW08051001FRT1 VJ0805104KXXAT pwm schematic buck converter PWM 2525 CRCW08052002FRT1 CRCW08052202FRT1 CRCW08053901FRT1 Si9165
Text: C3, C7 10 mF Capacitor , Ceramic 1206 GRM42-2X5R106K16 Murata 10 1 C4 220 , , C7 10 mF Capacitor , Ceramic 1206 GRM42-2X5R106K16 Murata 10 1 C4 270 pF , 1 VIN C8 0.1 mF VDD C7 10 mF JP1 JP2 Enable Converter PWM Disable ­PSM , NC VDD VREF 10 ROSC FB C5 0.1 mF P3 1 19 1.5 mH 18 D1 17 MBR0520T1 R4* 50 W VOUT 2.7 V 600 mA R5 1 kW 16 VDD 15 R1 22 kW 1% C3 10 mF


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PDF Si9165DB Si9165 600-mA 200-mA GRM42-2X5R106K16 VJ0805271KXXAT VJ0805122KXXXAT MBR0520T1 OD-123 MBR0520T1 SIP 9 JP1 CRCW08051001FRT1 VJ0805104KXXAT pwm schematic buck converter PWM 2525 CRCW08052002FRT1 CRCW08052202FRT1 CRCW08053901FRT1
MBR0520T1

Abstract: SIP 9 JP1 CRCW08051001FRT1 CRCW08052002FRT1 CRCW08052202FRT1 Si9165 Si9169 Si9169DB TSSOP-20 capacitor 1000 MF
Text: 9 2 C3, C7 10 mF Capacitor , Ceramic 1210 GRM42-2X5R106K16 Murata 10 1 , Vitramon 9 2 C3, C7 10 mF Capacitor , Ceramic 1210 GRM42-2X5R106K16 Murata 10 , SCHEMATIC DIAGRAMS P1 1 VIN C8 0.1 mF VDD C7 10 mF JP1 JP2 Enable Converter PWM , GND L1 20 NC VDD VREF 10 ROSC FB C5 0.1 mF P3 1 19 1.5 mH 18 D1 17 MBR0520T1 R4* 50 W R5 1 kW 16 VDD 15 R1 22 kW 1% C3 10 mF 14


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PDF Si9169DB Si9169 200-mA Si9165, Si9165. GRM42-2X5R106K16 VJ0805271KXXAT VJ0805123KXXXAT MBR0520T1 SIP 9 JP1 CRCW08051001FRT1 CRCW08052002FRT1 CRCW08052202FRT1 Si9165 TSSOP-20 capacitor 1000 MF
1995 - t514a

Abstract: LM903N gas automatic change over switch circuit diagram oil level circuit national LM903 FLUID DETECTOR C1995 N16E fluid level circuit oil pressure sensor
Text: detected STALLING AND RESTART PROTECTION The 4M7 resistor and 10 mF capacitor connected to pin 7 provide the restart protection When oil pressure builds up switch B opens and the 10 mF capacitor charges , Maximum Junction Temperature Lead Temperature (Soldering 10 sec ) 18V 18V 70V 10 mA Control Input Voltage (Pin 7) Transient Voltage (Pins 6 7 9) 10 ms (Note 1) Output Current (Pin 4) I4 (Sink , Characteristics VCC e 12V CT e 33 mF RT e 7 5 kX TA within operating range except where stated otherwise Symbol


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PDF LM903 t514a LM903N gas automatic change over switch circuit diagram oil level circuit national FLUID DETECTOR C1995 N16E fluid level circuit oil pressure sensor
2005 - Not Available

Abstract: No abstract text available
Text: capacitors and requires only a small 1.0 mF capacitor at regulator output. Its low quiescent current is , capacitor ESR and output current. −Input Decoupling A 1.0 mF capacitor either ceramic or tantalum , CAPACITOR (W) 100 UNSTABLE 10 Cout = 1 mF TO 10 mF TA = 25°C to 125°C Vin = up to 5.5 V 1 , , ENABLE = VIN, CIN = 1.0 mF , COUT = 1.0 mF , TA = 25°C, unless otherwise noted.) Symbol Min Typ , 1 mF COUT = 1 mF 10 5 0 0 1 2 3 4 TA = 25°C 2.5 2.0 1.5 1.0 0.5 4 0


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PDF NCP400 NCP400 NCP400/D
2005 - 0.5 MF CAPACITOR

Abstract: No abstract text available
Text: designed to work with low cost ceramic capacitors and requires only a small 1.0 mF capacitor at regulator , NCP400 ELECTRICAL CHARACTERISTICS (VIN = VOUT(nom.) + 1.0 V, ENABLE = VIN, CIN = 1.0 mF , COUT = 1.0 mF , = 1 mF COUT = 1 mF IRESET, RESET SINK CURRENT (mA) 50 TA = 25°C 2.0 40 1.5 30 1.0 , mF capacitor either ceramic or tantalum is recommended and should be connected close to the NCP400 , ) or a 100 ESR, OUTPUT CAPACITOR (W) UNSTABLE 10 minimum output current. Capacitors exhibiting ESRs


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PDF NCP400 NCP400/D 0.5 MF CAPACITOR
2005 - Not Available

Abstract: No abstract text available
Text: designed to work with low cost ceramic capacitors and requires only a small 1.0 mF capacitor at regulator , = VIN, CIN = 1.0 mF , COUT = 1.0 mF , TA = 25°C, unless otherwise noted.) Characteristic Input , = 1 mF ICD, CD PIN SINK CURRENT (mA) 50 TA = 25°C 40 2.0 1.5 30 1.0 20 0.5 , mF capacitor either ceramic or tantalum is recommended and should be connected close to the NCP400 , ) or a 100 ESR, OUTPUT CAPACITOR (W) UNSTABLE 10 minimum output current. Capacitors exhibiting ESRs


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PDF NCP400 NCP400/D
2005 - NCP400

Abstract: NCP400FCT2G
Text: capacitors and requires only a small 1.0 mF capacitor at regulator output. Its low quiescent current is , 1.0 mF capacitor either ceramic or tantalum is recommended and should be connected close to the , Resistance (ESR) or a ESR, OUTPUT CAPACITOR (W) 100 UNSTABLE 10 Cout = 1 mF TO 10 mF TA = 25°C to , ://onsemi.com 3 NCP400 ELECTRICAL CHARACTERISTICS (VIN = VOUT(nom.) + 1.0 V, ENABLE = VIN, CIN = 1.0 mF , COUT = 1.0 mF , TA = 25°C, unless otherwise noted.) Symbol Min Typ Max Unit VIN 1.8


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PDF NCP400 NCP400 NCP400/D NCP400FCT2G
2009 - Not Available

Abstract: No abstract text available
Text: ceramic 10 mF capacitor is recommended and should be connected close to the NCP690 package. Higher , 1 mF . In order to improve the load transient response and start up performance 10 mF capacitor is , + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min , - - - dB BW = 200 Hz to 100 kHz, CIN = 1 mF , COUT = 10 mF , TA = 25°C VN TSD TSH mVrms °C , mF 2.55 2.54 2.53 2.52 2.51 2.50 2.49 2.48 2.47 2.46 -40 -15 10 35 60 85 110 135 IOUT = 100 mA IOUT =


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PDF NCP690, NCP692 NCP690/ 506AH NCP690/D
2011 - LM1204

Abstract: No abstract text available
Text: should be AC coupled to the input through a 10 mF capacitor This is the input for the blue channel video signal the signal should be AC coupled to the input through a 10 mF capacitor This is the input for the green channel video signal the signal should be AC coupled to the input through a 10 mF capacitor This , For stable operation each supply pin should be bypassed with a 0 01 mF and a 0 1 mF capacitor connected as close to the pin as is possible An external decoupling capacitor of value 0 1 mF should be


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PDF LM1204 LM1204 SNVS097A
1995 - LM1204

Abstract: i24l C1995 LM1204V V44A 1 mf capacitor .1 mF capacitor Back porch clamp
Text: be AC coupled to the input through a 10 mF capacitor This is the input for the blue channel video signal the signal should be AC coupled to the input through a 10 mF capacitor This is the input for the green channel video signal the signal should be AC coupled to the input through a 10 mF capacitor This , stable operation each supply pin should be bypassed with a 0 01 mF and a 0 1 mF capacitor connected as close to the pin as is possible An external decoupling capacitor of value 0 1 mF should be connected


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PDF LM1204 i24l C1995 LM1204V V44A 1 mf capacitor .1 mF capacitor Back porch clamp
2007 - 100 mf capacitor

Abstract: NIS5112 Electronic Fuse
Text: voltages of the chip. Two traces were taken; one with a 10 mF capacitor on the output and one with a 100 mF capacitor . The voltage was stepped from 12 to 20 volts. Source VCC NIS5112 Current Limit 20 V 12.5 V Enable/ Timer Gnd 10 10 /100 mF dv/dt Figure 1. Positive Transient , Transient, 12 V to 20 V, 10 mF cap Figure 3. Pos Transient, 12 V to 20 V, 100 mF cap 4.0 7.0 Reverse Transient Pulse Data Ipulse 6.0 Ipulse (A), Vpk (V) If (A) 3.0 2.0 1.0 5.0


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PDF AND8283/D NIS5112 100 mf capacitor Electronic Fuse
2004 - tl494 step-up converter

Abstract: converter ic tl494 mosfet tl494 led forward converter tl494 forward converter by tl494 converter dc-dc tl494 tl494 ic for boost converter TL494 boost converter application note tl494 application notes for boost regulator tl494 soft start
Text: loaded, bypass with 1.0 mF capacitor ; this pin can be loaded up to 2.5 mA @ VOUT = 3.3 V. 6 BAT , operation when REF is not loaded. If REF is loaded, a 1.0 mF capacitor at the REF pin is needed. In , Voltage Load Regulation (VOUT = 3.3 V, ILOAD = 0 to 100 mA, CREF = 1.0 mF ) VREF_LOAD - 0.05 1.0 mV Reference Voltage Line Regulation (VOUT from 1.5 V to 5.0 V, CREF = 1.0 mF ) VREF_LINE , (VOUT = 3.3 V, VREF = VREF_NL "1.5% CREF = 1.0 mF ) (Note 6) FB Input Threshold (ILOAD = 0 mA, TA = 25


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PDF NCP1422 NCP1422 NCP1422/D tl494 step-up converter converter ic tl494 mosfet tl494 led forward converter tl494 forward converter by tl494 converter dc-dc tl494 tl494 ic for boost converter TL494 boost converter application note tl494 application notes for boost regulator tl494 soft start
1995 - LM1291

Abstract: 100 mf capacitor 14 pin ic dip datasheet IC vertical monitor C1995 LM1295 LM1295N N24C
Text: automatic level control loop 4 V Cap (Pin 3) 4 Volt Cap Capacitor A 10 mF capacitor aluminum electrolytic , VCC should be bypassed to GND (pin 17) with a 10 mF aluminum electrolytic or tantalum capacitor Vref Cap (Pin 8) Voltage Reference Cap A 10 mF capacitor aluminum electrolytic or tantalum should be , value is 4 7 mF aluminum electrolytic or tantalum capacitor If the VCO capacitor value is changed this , locking at twice the vertical sync frequency The recommended value is 0 47 mF If the VCO capacitor value


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PDF LM1295 LM1295 24-pin LM1291 100 mf capacitor 14 pin ic dip datasheet IC vertical monitor C1995 LM1295N N24C
2002 - 0.01 MF CAPACITOR

Abstract: 15 PINS D-SUB MALE AD8116 AD8116-EB gerber 25 pin data cable connector pin out
Text: . Finally, a 10 mF capacitor should be used to decouple power supplies as they come onto the board , 10 mF capacitors are located near the evaluation board's power supply connection terminals. These , power supply pins. Each of these pins is locally decoupled with a 0.01 mF capacitor . These pins are , supply pins) should be locally decoupled with a 0.01 mF capacitor . If there is a space constraint, it is , overshoot from the printer port, this capacitor may need to be as large as 0.01 mF . MOLEX D-SUB


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PDF AD8116 EVAL-AD8116EB AD8116-EB 80-bit C03278 0.01 MF CAPACITOR 15 PINS D-SUB MALE AD8116-EB gerber 25 pin data cable connector pin out
2004 - TL494 step up converter

Abstract: forward converter by tl494 TL494 step down tl494 schematic diagram dc dc TL494 step up tl494 voltage sense isolated power switch tl494 isolated power switch tl494 TL494 boost converter application note tl494 or
Text: when REF is not loaded. If REF is loaded, a 1.0 mF capacitor at the REF pin is needed. True-Cutoff , 35 CAPACITOR VALUE ( mF ) 30 25 20 15 10 5 0 200 250 300 350 400 450 500 550 VOUT-RIPPLE = 50 mV , < 1.20 V. LBO is high impedance in shutdown mode. 1.20 V Reference Voltage Output, bypass with 1.0 mF , Temperature Coefficient Reference Voltage Load Current (VOUT = 3.3 V, VREF = VREF_NL 1.5% CREF = 1.0 mF ) (Note 5) Reference Voltage Load Regulation (VOUT = 3.3 V, ILOAD = 0 to 100 mA, CREF = 1.0 mF ) Reference


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PDF NCP1421 CDRH6D28 TL494 TL494 step up converter forward converter by tl494 TL494 step down tl494 schematic diagram dc dc TL494 step up tl494 voltage sense isolated power switch tl494 isolated power switch tl494 TL494 boost converter application note tl494 or
2013 - 692AD

Abstract: mf 128 zz NCP691-ADJ DFN-6 690AD
Text: . Typical application circuit is shown in Figure 1. A ceramic 10 mF capacitor is recommended and should be , response and start up performance 10 mF capacitor is recommended. The regulator is stable with ceramic chip , , NCP692 Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max values TJ = -40°C to 125°C; unless otherwise , , NCP692 Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT


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PDF NCP690, NCP691, NCP692 506AH NCP690/D 692AD mf 128 zz NCP691-ADJ DFN-6 690AD
MBR0520T1

Abstract: AN727 CRCW08057502FRT1 CRCW08058201FRT1 IHLP2525 Si9167 Si9167DB SI9167B SCHEMATIC POWER AMPLIFIER KW MBRO520T1
Text: % CRCW08055102JRT1 0805 Vishay Dale 10 2 C1, C8 10 mF Capacitor , Ceramic, 16 V C25Y5U1C106ZP 1210 Tokin 11 4 C2, C3, C6, C9 0.1 mF Capacitor , Ceramic, 25 V VJ0805Y104KXXAT , +VIN 5 - 10 V PGND P1 P2 VDD C1 10 mF 16 V R1* 51 W JP1 C2 0.1 mF ENABLE , P5 7 8 1.3 V GND P6 C3 0.1 mF 9 10 SD PWM/PSM VIN VIN 3.6 V @ 600 mA , 10 mF 16 V C9 0.1 mF P8 VOUT PGND R7 105 kW 16 15 14 13 *R10 51 W P9


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PDF Si9167DB Si9167 600-mA 200-mA VJ0805Y102KXXAT VJ0805Y331KXXAT MBR0520T1 MBR0520T1 AN727 CRCW08057502FRT1 CRCW08058201FRT1 IHLP2525 SI9167B SCHEMATIC POWER AMPLIFIER KW MBRO520T1
2013 - Not Available

Abstract: No abstract text available
Text: application circuit is shown in Figure 1. A ceramic 10 mF capacitor is recommended and should be connected , start up performance 10 mF capacitor is recommended. The regulator is stable with ceramic chip as well , ), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max values , CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25 , , COUT = 1 mF f = 120 Hz f = 1 kHz f = 10 kHz Symbol PSRR Min - - - - - - Typ 62 55 40 50 175 10 Max - -


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PDF NCP690, NCP691, NCP692, NCV8690 506AH NCP690/D
2009 - Not Available

Abstract: No abstract text available
Text: . Typical application circuit is shown in Figure 1. A ceramic 10 mF capacitor is recommended and should be , response and start up performance 10 mF capacitor is recommended. The regulator is stable with ceramic chip , = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25 , = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25 , , COUT = 1 mF f = 120 Hz f = 1 kHz f = 10 kHz Symbol PSRR Min - - - - - - Typ 62 55 40 50 175 10 Max - -


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PDF NCP690, NCP691, NCP692 506AH NCP690/D
2009 - 692AD

Abstract: 690AD 69218 A114 A115 JESD22 JESD78 NCP690MN15T2G NCP691MN50T2G 21 DFN6 LDO
Text: 10 mF capacitor is recommended. The regulator is stable with ceramic chip as well as tantalum , , NCP692 Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max values TJ = -40°C to 125°C; unless otherwise , ), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max values , ) VOUT = 1.25 V VIN = VOUT + 1 V, with VPP = 0.5 V, COUT = 1 mF f = 120 Hz f = 1 kHz f = 10 kHz


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PDF NCP690, NCP691, NCP692 NCP692 506AH NCP690/D 692AD 690AD 69218 A114 A115 JESD22 JESD78 NCP690MN15T2G NCP691MN50T2G 21 DFN6 LDO
2012 - Not Available

Abstract: No abstract text available
Text: . Typical application circuit is shown in Figure 1. A ceramic 10 mF capacitor is recommended and should be , response and start up performance 10 mF capacitor is recommended. The regulator is stable with ceramic chip , , NCP692 Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max values TJ = -40°C to 125°C; unless otherwise , , NCP692 Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT


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PDF NCP690, NCP691, NCP692 506AH NCP690/D
2009 - A3A1E

Abstract: 690AD marking 331 6-pin
Text: supply voltage is present, Noise Decoupling A ceramic 10 mF capacitor is recommended and should be , 1 mF . In order to improve the load transient response and start up performance 10 mF capacitor is , Table 6. ELECTRICAL CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 , + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min/Max , 200 Hz to 100 kHz, CIN = 1 mF , COUT = 10 mF , TA = 25°C Symbol VN TSD TSH Min - - - Typ 50 175 10 Max -


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PDF NCP690, NCP692 NCP690/ 506AH 692plicable NCP690/D A3A1E 690AD marking 331 6-pin
2009 - Not Available

Abstract: No abstract text available
Text: Decoupling (CIN) A ceramic 10 mF capacitor is recommended and should be connected close to the NCP690 , start up performance 10 mF capacitor is recommended. The regulator is stable with ceramic chip as well , (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = 25°C, for Min , CHARACTERISTICS VIN = (VOUT + 1 V), VEN = VIN, IOUT = 1 mA, CIN = 10 mF , COUT = 10 mF , for typical values TJ = , , COUT = 1 mF f = 120 Hz f = 1 kHz f = 10 kHz Output noise voltage (Note 8) BW = 200 Hz to 100


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PDF NCP690, NCP691, NCP692 NCP692 506AH NCP690/D
2005 - TL494 pin details

Abstract: power switch tl494 forward converter by tl494 TL494 step up converter power switch tl494 isolated tl494 voltage sense isolated TL494 step up TL494 boost converter application note
Text: this pin is loaded, bypass with 1.0 mF capacitor ; this pin can be loaded up to 2.5 mA @ VOUT = 3.3 V , for proper operation when REF is not loaded. If REF is loaded, a 1.0 mF capacitor at the REF pin is , 35 CAPACITOR VALUE ( mF ) 25 CAPACITOR ESR (m) 30 25 20 15 10 5 0 100 200 300 400 500 600 700 , Reference Voltage Load Current (VOUT = 3.3 V, VREF = VREF_NL 1.5% CREF = 1.0 mF ) (Note 6) Reference Voltage Load Regulation (VOUT = 3.3 V, ILOAD = 0 to 100 mA, CREF = 1.0 mF ) Reference Voltage Line Regulation


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PDF NCP1422 CDRH6D28 TL494 TL494 pin details power switch tl494 forward converter by tl494 TL494 step up converter power switch tl494 isolated tl494 voltage sense isolated TL494 step up TL494 boost converter application note
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