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DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518
DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756
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DC1319A-B Linear Technology BOARD EVAL LED DRIVER LT3756-1
LTC4358IDE#PBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: -40°C to 85°C
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equivalent diode 1n4001 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
MC1566L

Abstract: MC1466L equivalent MC1566 1466 HO MC1466 MC1466L schematic of mc1466 Transistor B 1566 MC 1466 L MJE340 REGULATOR
Text: REMOTE SENSE MJE340 OR E QU IV I > 14 0.1 mF 25 V > All diodes are 1N4001 or equivalent . 13 O MC1466 , All diodes are 1N4001 or equivalent . 13 100 IVIU I tvv MC1566 1.2 k 240 pF 11 Vin = 260 V MJ413 OR , -40 VDC, 0.5-AMPERE REGULATOR Vrtt MPS6S6S 2M922 OR EQUIV n vdc 1N4001 OR EQUIV Pint t *nd 4 fioconntction , two diode strings: V12 - V7 « 2 (VcRl + VcR2 * VcR3 + VcR4)- Other voltages, temperature compensated , , FIGURE 7 - REFERENCE VOLTAGE REGULATOR 14 T W 16 k aux VB1 Equivalent □tod* VZ«9V Q1 02 i I


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PDF MC1466/MC1566 MC1566 MJ413 MC1466L, MC1566L MJE340 1N4001 Q-TO-40 MC1466L equivalent 1466 HO MC1466 MC1466L schematic of mc1466 Transistor B 1566 MC 1466 L MJE340 REGULATOR
DIODE 1N4001

Abstract: equivalent for 1N4001 diode Diode Equivalent 1N4001 equivalent to 1N4001 diode a17 EQUIVALENT OF 1N4001 equivalent diode 1n4001 PI5C16861 a1718 equivalent 1n4001
Text: diode ( 1N4001 or equivalent ) biased with a 2k resistor which is needed to maintain a constant drop at the diode . The 3.3V bus voltage is established because the NMOS bus switch requires a gateto-source , application. 3.3V DRAM 3.3V DRAM +5V V CC 3.3V DRAM 1N4001 2K IC1 PI5C16861 EN


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PDF PI5C16861 1N4001 DIODE 1N4001 equivalent for 1N4001 diode Diode Equivalent 1N4001 equivalent to 1N4001 diode a17 EQUIVALENT OF 1N4001 equivalent diode 1n4001 PI5C16861 a1718 equivalent 1n4001
diode 1N4001 specifications

Abstract: LQ64D341 EQUIVALENT OF 1N4001 equivalent diode 1n4001 DIODE 1N4001 VALUE OF MAX CURRENT E200 1n4001 diode equivalent 2N3904 current rating diode 1N4001 Diode Equivalent 1n4001
Text: . Note 3: Diode 1N4719 or an equivalent will be required to insure complete turn off. Note 4: Pulse , 5 1 Note 1 2 Vin 1N4719 Input Voltage (Vdc) 1N4001 * 6 Note 3 + 5 , Inverter 12/23/99 Note 2 1N4001 * E1957E 1. 2. 3. 4. 5. 6. Vin(+) Vin(-) Vout , 0.00 * Includes External Diode 2.00 3.00 4.00 5.00 6.00 1.000 0.900 0.800


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PDF E1957E 100uf 1N4719 E200II LQ64D341 E1957E LQ64D341display) diode 1N4001 specifications LQ64D341 EQUIVALENT OF 1N4001 equivalent diode 1n4001 DIODE 1N4001 VALUE OF MAX CURRENT E200 1n4001 diode equivalent 2N3904 current rating diode 1N4001 Diode Equivalent 1n4001
equivalent components of diode 1n4001

Abstract: 1N4001 general diode TL-5186 SW-PB LM78L05ACZ laptop battery board schematic Header, 4-Pin DS1615 1N4001 ST L7805
Text: Ceramic 10k 1k 1k 1N4001 General Diode 0.33 uF Ceramic 22 uF Tantalum TL-5186 Tadiran Coin Cell , BAT S1 S1 BAT HOST SYSTEM MINIMUM REQUIREMENTS · · · · Pentium or equivalent , 7 3 8 4 9 5 Vout 22uF U3 C5 D3 .33uF 1N4001 RX_OUT TX_IN C4 .1uF C2 , RX_OUT VCC RX_OUT TX_IN 1N4001 1 2 Vcc RX TX SCLK I/O RST GND AGND AIN3 AIN2 , J4 D1 D2 S1 U3 1 Part Type .01 uF .01 uF .1 uF .1 uF 10k 1k 1k 1N4001 0.33 uF 22


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PDF DS1615K/DS1616K DS1615K DS1616K DS1615 DS1616 RS-232 DS1615. equivalent components of diode 1n4001 1N4001 general diode TL-5186 SW-PB LM78L05ACZ laptop battery board schematic Header, 4-Pin 1N4001 ST L7805
1998 - equivalent components of diode 1n4001

Abstract: diode 1N4001 EQUIVALENT COMPONENT equivalent component DIODE 1N4001 1N5365B equivalent 100MF 1N4001 1N5365B PT78 100uf 35V electrolytic capacitor
Text: "load dumps" and spikes above 38 volts. We suggest you use a 1N5365B (36 volt) zener diode or an equivalent over-voltage protection device. This component may be eliminated if the maximum input voltage to , installed and it is on-line, the battery makes an excellent filter. D3 - This diode will prevent damage to the unit in case the input polarity is reversed. Any general purpose 1 Amp diode will do, such as a 1N4001 . If polarity reversal is not a cause of concern, or you don't mind the fuse being blown under


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PDF PT78ST1 75mVpp 35mVpp. 1N4001. equivalent components of diode 1n4001 diode 1N4001 EQUIVALENT COMPONENT equivalent component DIODE 1N4001 1N5365B equivalent 100MF 1N4001 1N5365B PT78 100uf 35V electrolytic capacitor
1990 - 2N2222 transistor output curve

Abstract: LT1054 LT1054Y LT1054IP LT1054IDW LT1054I LT1054CP LT1054CDW LT1054C Bipolar Junction NPN Transistor 2N2222 Inverter
Text: Regulator 4 12 Switched-Capacitor Equivalent Circuit 31 POST OFFICE BOX 655303 · DALLAS , ) To obtain an equivalent resistance for a switched-capacitor network, this equation can be rewritten , new variable, REQUIV, is defined as REQUIV = 1 ÷ fC1. The equivalent circuit for the , C2 RL Figure 13. Switched-Capacitor Equivalent Circuit These simplified circuits explain , circuit shown in Figure 16, the restart signal can be either a pulse (tp > 100 µs) or a logic high. Diode


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PDF LT1054 SLVS033E LTC1044/7660 LT1054 2N2222 transistor output curve LT1054Y LT1054IP LT1054IDW LT1054I LT1054CP LT1054CDW LT1054C Bipolar Junction NPN Transistor 2N2222 Inverter
1976 - uA78xx

Abstract: UA7800C ua7812
Text: 1N4001 or Equivalent ­VO +VI +VO Figure 6. Output Polarity-Reversal-Protection Circuit , startup and short-circuit operation. µA78xx 1N4001 or Equivalent ­VO +VI +VO Figure 6. Output , 1976 ­ REVISED AUGUST 2001 APPLICATION INFORMATION 1N4001 20-V Input 0.33 µF µA7815C 0.1 µF 1N4001 VO = 15 V 2 µF ­20-V Input µA7915C 1 µF 0.1 µF 1N4001 VO = ­15 V 1N4001 , these cases, a clamp diode should be connected to the regulator output as shown in Figure 6. This


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PDF A7800 SLVS056F O-220AB uA78xx UA7800C ua7812
1990 - CKT26

Abstract: CKT26-T5-3SAE ti ltc1044 LT1054IP LT1054IDWR LT1054IDW LT1054I LT1054CP LT1054CDW LT1054C
Text: Regulator 4 12 Switched-Capacitor Equivalent Circuit 31 POST OFFICE BOX 655303 · DALLAS , obtain an equivalent resistance for a switched-capacitor network, this equation can be rewritten in terms , , REQUIV, is defined as REQUIV = 1 ÷ fC1. The equivalent circuit for the switched-capacitor network is , RL Figure 13. Switched-Capacitor Equivalent Circuit These simplified circuits explain voltage , be either a pulse (tp > 100 µs) or a logic high. Diode coupling the restart signal into FB/SD allows


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PDF LT1054 SLVS033F LTC1044/7660 LT1054 CKT26 CKT26-T5-3SAE ti ltc1044 LT1054IP LT1054IDWR LT1054IDW LT1054I LT1054CP LT1054CDW LT1054C
Not Available

Abstract: No abstract text available
Text: LQH4N330K (l0UT = 50mA) iSI LCS2414-330K (l0UT = 50mA) *C1 = M ATSU O 267M 1602226 O R EQUIVALENT 4-318 , ) where R1 is the sum of the switch equivalent resistance (0.8 typical at 25°C) and the inductor DC , ô where V q is the diode drop (0.5V for a 1N5818 Schottky). Energy required by the inductor per , possible in order to keep switch, diode and inductor losses at a minimum. As an example, suppose 12V at , are rated at 1A, the switching time of a 1N4001 is in the 10|xs-50jis range. At best, efficiency will


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PDF LT1109 33ixH 120kHz LT1109 1N4001 CD105 100mA 1N4933
1993 - 12V 2A regulator

Abstract: stepper motor using irfz44 74C266 74C02 Diode 1n5400 equivalent components of diode 1n4001 MTD3055EL zener mr2535L d1n4001 motor stepper driver IRFZ44
Text: 24V/0.5A SOLENOID FROM 1N4001 µP, ETC. VIN1 = VIN2 = 0V TA = 25°C 45 0.036 FROM µP, ETC. 1N4001 24V/0.5A SOLENOID SUPPLY CURRENT (µA) 0.036 35 30 25 20 15 10 5 0 , 16 16 500 60 60 60 30 30 30 µs µs µs µs µs µs µs Note 3: Zener diode clamps , with a 12V Zener clamp in series with a small-signal diode connected between VS and the GATE output , switch is turned ON. This pin is of relatively high impedance when driven above the rail (the equivalent


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PDF LTC1255 LTC1255 12V 2A regulator stepper motor using irfz44 74C266 74C02 Diode 1n5400 equivalent components of diode 1n4001 MTD3055EL zener mr2535L d1n4001 motor stepper driver IRFZ44
1993 - Not Available

Abstract: No abstract text available
Text: SOLENOID FROM 1N4001 µP, ETC. VIN1 = VIN2 = 0V TA = 25°C 45 0.036Ω FROM µP, ETC. 1N4001 24V/0.5A SOLENOID SUPPLY CURRENT (µA) 0.036Ω 35 30 25 20 15 10 5 0 0 , µs µs µs µs µs µs µs Note 3: Zener diode clamps must be connected across the , with a small-signal diode connected between VS and the GATE output to simulate the effects of a 12V , the rail (the equivalent of a few hundred kΩ). Care should be taken to minimize any loading of this


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PDF LTC1255 LTC1255
2000 - equivalent components of diode 1n4001

Abstract: diode 1N4001 EQUIVALENT COMPONENT equivalent component DIODE 1N4001 1N4001 zener diode 100MF 1N4001 1N5365B AN10 PT78
Text: volts. We suggest you use a 1N5365B (36 volt) zener diode or an equivalent over-voltage protection , battery makes an excellent filter. D3 - This diode will prevent damage to the unit in case the input polarity is reversed. Any general purpose 1 Amp diode will do, such as a 1N4001 . If polarity reversal is


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PDF Notes--AN10 SLTA010A PT78ST1 equivalent components of diode 1n4001 diode 1N4001 EQUIVALENT COMPONENT equivalent component DIODE 1N4001 1N4001 zener diode 100MF 1N4001 1N5365B AN10 PT78
2004 - 1206 smd CAPACITOR

Abstract: NCP1601 RE105 APPLICATION DIODE 1N5406 CTX22 okaya capacitor re105 ncp1601 application note okaya re105 VJ1206A101KXAA MUR460
Text: 1N5406 Standard Diode , 4 A 600 V ON Semiconductor 2 1N4001 Standard Diode ,1 A 50 V ON , / 6 A / 25:1 1 mH / 2 A 1 mF 1 mF MUR460 Output 390 V/ 100 W 1N4001 150 k 1/2 W 1N4001 Input 85 Vac to 265 Vac low-power PFC products which can operate in both Discontinuous , and diode for better cost, size, and reliability. 1 mF 50 V 1 mF 50 V 470 mF 25 V , secondary winding is with a voltage Vin / n. This voltage goes to capacitor C1. When the PFC stage diode


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PDF AND8182/D NCP1601A NCP1601A MUR460 1N4001 1206 smd CAPACITOR NCP1601 RE105 APPLICATION DIODE 1N5406 CTX22 okaya capacitor re105 ncp1601 application note okaya re105 VJ1206A101KXAA MUR460
1989 - eprom 92112

Abstract: SPRAGUE 11Z-2003 AN3030 MALLORY CAPACITOR CATALOG hp5082-2810 STANCOR 11Z-2003 pe-6197 2N4391 MOTOROLA P50N05E stancor rectifier transformer
Text: Q2 2N2219 68 1N4001 0.1µF 10k IQ CONTROL LOOP 1N4001 100 50 50 620 , * 5V 1N4001 1N4001 1N4001 12V 75mA + 470µF VIN VSW E1 LT1072CN8 + 100µF E2 GND , ) VIN D3 1N4001 L2 4µH OPTIONAL OUTPUT FILTER VIN C5* 100µF + C3 2.2µF VSW , 48V to 5V) VIN C4 5µF TO AVOID START-UP R5 470 1W D3 1N4001 C5* 100µF VSW , R3 1.5k C2 0.15µF LT1070 SWITCH CURRENT 0 IPRI SNUBBER DIODE CURRENT *REQUIRED IF


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PDF 2N2222 1N4148 LT1072CN8 VN2222LL 2N3906 5V-35V LT317AH MBR1535 eprom 92112 SPRAGUE 11Z-2003 AN3030 MALLORY CAPACITOR CATALOG hp5082-2810 STANCOR 11Z-2003 pe-6197 2N4391 MOTOROLA P50N05E stancor rectifier transformer
Not Available

Abstract: No abstract text available
Text: selecting a catch diode for LT1109 converters. General purpose rectifiers such as the 1N4001 rru n tA Ã , ) 4-242 (01) where V q is the diode drop (0.5V for a 1N5818 Schottky). Energy required by the , 1 - e f 03) where R 1is the sum of the switch equivalent resistance (0.8 typical at 25Â , , diode and inductor losses at a minimum. As an example, suppose 12V at 60mA is to be generated from a , rated at 1A, the switching time of a 1N4001 is in the 10(xs-50|xs range. At best, efficiency will be


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PDF LT1109 LT1109-5 LT1109-12 120kHz
1976 - uA78xx

Abstract: MSOT007A
Text: startup and short-circuit operation. µA78xx 1N4001 or Equivalent ­VO +VI +VO Figure 6. Output , INFORMATION 1N4001 20-V Input 0.33 µF µA7815C 0.1 µF 1N4001 VO = 15 V 2 µF ­20-V Input µA7915C 1 µF 0.1 µF 1N4001 VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a , amplifiers, level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the , prevent this, a diode shunt can be used as shown in Figure 7. VI µA78xx +VO Figure 7


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PDF A7800 SLVS056H O-220) uA78xx MSOT007A
1976 - uA7805CKTER

Abstract: ua7805 uA7815 DIODE 1N4001 diode 1N4001 voltage limitations A7800 A7805CKC A7808CKC
Text: APPLICATION INFORMATION 1N4001 µA7815C 20-V Input VO = 15 V 0.33 µF 0.1 µF 1 µF 2 µF 1N4001 0.1 µF 1N4001 µA7915C ­20-V Input VO = ­15 V 1N4001 Figure 5. Regulated Dual , polarity (e.g., operational amplifiers, level-shifting circuits, etc.). In these cases, a clamp diode , polarity reversals during startup and short-circuit operation. µA78xx +VI +VO 1N4001 or Equivalent ­VO Figure 6. Output Polarity-Reversal-Protection Circuit reverse-bias protection


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PDF A7800 SLVS056I O-220) uA7805CKTER ua7805 uA7815 DIODE 1N4001 diode 1N4001 voltage limitations A7805CKC A7808CKC
2008 - full wave controlled rectifier using RC triggering circuit

Abstract: speed control of dc motor using ujt scr diac triac control circuit motor 220 V DIAC Opto-Isolator scr speed control dc motor using ujt and scr TRIAC dimmer pic pure sine wave dimmer automatic light dimmer based on a microchip PIC diac triac control circuit motor diac with triac ac speed control
Text: = Dale PT 10-101 or equivalent D1-4 = 200 V Diode D5 = 20 V Zener D6 = 100 V Diode C1 = 0.1 F , with a diode bridge as shown in Figure AN1003.1. Control Circuit Control Circuit Line , anode voltage wave (SCR half on). Diode CR1 blocks reverse gate voltage on the negative half-cycle of , dissipation low for gate resistors on the negative half cycle. The diode is rated to block at least the peak , inexpensive TO-92 Triac to make a very high current Triac or alternistor equivalent , as shown in Figure


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PDF AN1003 full wave controlled rectifier using RC triggering circuit speed control of dc motor using ujt scr diac triac control circuit motor 220 V DIAC Opto-Isolator scr speed control dc motor using ujt and scr TRIAC dimmer pic pure sine wave dimmer automatic light dimmer based on a microchip PIC diac triac control circuit motor diac with triac ac speed control
1976 - UA79L15

Abstract: No abstract text available
Text: short-circuit operation. µA78Lxx 1N4001 or Equivalent ­VO VI VO Figure 6. Output , POSITIVE-VOLTAGE REGULATORS SLVS010O ­ JANUARY 1976 ­ REVISED APRIL 2002 APPLICATION INFORMATION 1N4001 20-V Input 0.33 µF µA78L15 0.1 µF 1N4001 VO = 15 V 0.33 µF ­20-V Input µA79L15 0.1 µF 1N4001 VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a load common to a voltage , , level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the regulator output as


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PDF A78L00 SLVS010O UA79L15
1976 - 7808C

Abstract: uA78xx Fairchild uA7800 data SLVS056G UA7805C voltage regulator UA7812 TEXAS INSTRUMENTS uA7800 UA7800 fairchild A7805CKC A7824CKC
Text: APPLICATION INFORMATION 1N4001 µA7815C 20-V Input VO = 15 V 0.33 µF 0.1 µF 1 µF 2 µF 1N4001 0.1 µF 1N4001 µA7915C ­20-V Input VO = ­15 V 1N4001 Figure 5. Regulated Dual , polarity (e.g., operational amplifiers, level-shifting circuits, etc.). In these cases, a clamp diode , polarity reversals during startup and short-circuit operation. µA78xx +VI +VO 1N4001 or Equivalent ­VO Figure 6. Output Polarity-Reversal-Protection Circuit reverse-bias protection


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PDF A7800 SLVS056G A7800 O-220AB 7808C uA78xx Fairchild uA7800 data SLVS056G UA7805C voltage regulator UA7812 TEXAS INSTRUMENTS uA7800 UA7800 fairchild A7805CKC A7824CKC
1976 - Not Available

Abstract: No abstract text available
Text: short-circuit operation. µA78Lxx 1N4001 or Equivalent ­VO VI VO Figure 6. Output , POSITIVE-VOLTAGE REGULATORS SLVS010L ­ JANUARY 1976 ­ REVISED AUGUST 2001 APPLICATION INFORMATION 1N4001 20-V Input 0.33 µF µA78L15 0.1 µF 1N4001 VO = 15 V 0.33 µF ­20-V Input µA79L15 0.1 µF 1N4001 VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a load common to a voltage , , level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the regulator output as


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PDF A78L00 SLVS010L
1976 - uA7815

Abstract: DIODE 1N4001 diode 1N4001 voltage limitations uA78xx A7800 A7805CKC A7808CKC
Text: APPLICATION INFORMATION 1N4001 µA7815C 20-V Input VO = 15 V 0.33 µF 0.1 µF 1 µF 2 µF 1N4001 0.1 µF 1N4001 µA7915C ­20-V Input VO = ­15 V 1N4001 Figure 5. Regulated Dual , polarity (e.g., operational amplifiers, level-shifting circuits, etc.). In these cases, a clamp diode , polarity reversals during startup and short-circuit operation. µA78xx +VI +VO 1N4001 or Equivalent ­VO Figure 6. Output Polarity-Reversal-Protection Circuit reverse-bias protection


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PDF A7800 SLVS056H O-220) uA7815 DIODE 1N4001 diode 1N4001 voltage limitations uA78xx A7805CKC A7808CKC
1976 - DIODE 1N4001

Abstract: uA7815 uA78xx diode 1N4001 voltage limitations Microcontroller AT89C2051 virtual machine A7800 A7805CKC A7808CKC
Text: short-circuit operation. µA78xx +VI +VO 1N4001 or Equivalent ­VO Figure 6. Output , SLVS056J ­ MAY 1976 ­ REVISED MAY 2003 APPLICATION INFORMATION 1N4001 µA7815C 20-V Input VO = 15 V 0.33 µF 0.1 µF 0.1 µF 1 µF 2 µF 1N4001 1N4001 µA7915C ­20-V Input VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a load common to a voltage , , level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the regulator output as


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PDF A7800 SLVS056J O-220) DIODE 1N4001 uA7815 uA78xx diode 1N4001 voltage limitations Microcontroller AT89C2051 virtual machine A7805CKC A7808CKC
1976 - uA78L05AC

Abstract: No abstract text available
Text: short-circuit operation. µA78Lxx 1N4001 or Equivalent ­VO VI VO Figure 6. Output , POSITIVE-VOLTAGE REGULATORS SLVS010N ­ JANUARY 1976 ­ REVISED NOVEMBER 2001 APPLICATION INFORMATION 1N4001 20-V Input 0.33 µF µA78L15 0.1 µF 1N4001 VO = 15 V 0.33 µF ­20-V Input µA79L15 0.1 µF 1N4001 VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a load common to a , , level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the regulator output as


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PDF A78L00 SLVS010N uA78L05AC
1976 - Not Available

Abstract: No abstract text available
Text: short-circuit operation. µA78Lxx 1N4001 or Equivalent ­VO VI VO Figure 6. Output , POSITIVE-VOLTAGE REGULATORS SLVS010K ­ JANUARY 1976 ­ REVISED JULY 2001 APPLICATION INFORMATION 1N4001 20-V Input 0.33 µF µA78L15 0.1 µF 1N4001 VO = 15 V 0.33 µF ­20-V Input µA79L15 0.1 µF 1N4001 VO = ­15 V 1N4001 Figure 5. Regulated Dual Supply operation with a load common to a voltage , , level-shifting circuits, etc.). In these cases, a clamp diode should be connected to the regulator output as


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PDF A78L00 SLVS010K
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