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description of capacitor 470uf 16v

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Abstract: , 4700uF, 10V MCGPR10V478M13X26 MCGPR10V478M13X26 CAPACITOR, 470UF, 35V MCGPR35V477M10X21 MCGPR35V477M10X21 CAPACITOR, 10UF, 16V MCGPR16V106M5X11 MCGPR16V106M5X11 CAPACITOR, 1000UF 1000UF, 35V MCGPR35V108M13X21 MCGPR35V108M13X21 CAPACITOR, 22UF, 16V MCGPR16V226M5X11 MCGPR16V226M5X11 , , 16V MCGPR16V337M8X11 MCGPR16V337M8X11 CAPACITOR, 2.2UF, 50V MCGPR50V225M5X11 MCGPR50V225M5X11 CAPACITOR, 470UF, 16V , Description Part Number Description Part Number CAPACITOR, 100uF, 10V MCGPR10V107M5X11 MCGPR10V107M5X11 , , 35V MCGPR35V476M6 MCGPR35V476M6.3X11 CAPACITOR, 470uF, 10V MCGPR10V477M8X11 MCGPR10V477M8X11 CAPACITOR, 100UF 100UF, 35V ... Multicomp
Original
datasheet

5 pages,
205.47 Kb

capacitor 47uf 16v 100uF 35V capacitor 2200uf 25v capacitor MCGPR35V337M10X16 capacitor 2200uF 16V 4700uF 25V capacitor TEXT
datasheet frame
Abstract: Electrolytic Capacitors 85°C Part Number Table Description Capacitor, 2,200ÂuF, 25V Capacitor, 10ÂuF, 16V, CAN Description Part Number Part Number MCGPR25V228M13X26 MCGPR25V228M13X26 Capacitor, 3,300ÂuF, 50V , , 16V MCGPR16V337M8X11 MCGPR16V337M8X11 Capacitor, 100ÂuF, 25V, CAN MCGPR25V107M6 MCGPR25V107M6.3X11 Capacitor, 470ÂuF, 16V , Capacitor, 470ÂuF, 25V, CAN MCGPR25V477M10X16 MCGPR25V477M10X16 Capacitor, 2,200ÂuF, 16V MCGPR16V228M13X21 MCGPR16V228M13X21 , Capacitor, 2,200ÂuF, 63V MCGPR63V228M18X36 MCGPR63V228M18X36 Capacitor, 100ÂuF, 16V, CAN MCGPR16V107M6 MCGPR16V107M6 ... Multicomp
Original
datasheet

6 pages,
201.17 Kb

ELECTROLYTIC CAPACITORS 220uF 25V capacitor electrolytic 220 uF 35V CAPACITOR 47UF 25V ELECTROLYTIC 470uf, 16v electrolytic capacitor TEXT
datasheet frame
Abstract: Dynamic Load Step Load: 0% to 50% to 0% of Full Load VIN = 5V, COUT = 100uF Ceramic, 470uF POSCAP , current of the input capacitor can be estimated as: IOUT(MAX) I CIN(RMS)= · D · (1­ D) % In the previous equation, % is the estimated efficiency of the power module. The bulk capacitor can be a , TO 16V C7 22uF 16V C9 22uF 16V C10 22uF 16V R2 10k SOFT-START CAPACITOR CSS , DESCRIPTION Complete 15A Switch Mode Power Supply Wide Input Voltage Range: 4.5V to 20V 0.6V to 5V Output ... Linear Technology
Original
datasheet

30 pages,
1726.91 Kb

Zener 20v ba ph LTM4627V LTM4627IV LTM4627I LTM4627 LTM4627EV LTM4627E TEXT
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Abstract: 4 8V to 36V C1 470uF 63V 1 MIC4576-5 MIC4576-5.0BT FB VIN GND 3 D1 MBR360 MBR360 C2 1000uF 16V , R2 13.0k 1% R1 1.50k 1% 16V to 36V C1 470uF 63V 1 MBR360 MBR360 C2 1000uF 16V Adjustable , output capacitor and load currents return to the supply ground. During the off portion of the cycle , 4 6V to 24V C1 470uF 35V 1 MIC4576-3 MIC4576-3.3BT FB VIN GND 3 D1 1N5822 1N5822 C2 1000uF 16V 1 , 33uH 4 8V to 24V C1 470uF 35V 1 MIC4576-5 MIC4576-5.0BT FB VIN GND 3 D1 1N5822 1N5822 C2 1000uF 16V ... Micrel Semiconductor
Original
datasheet

8 pages,
61.34 Kb

switch-mode voltage regulators motorola TO220 voltage regulator MIC4576BT lm2576 lead battery charger 24v to 12V 3A converter LM2576 MIC4576 TEXT
datasheet frame
Abstract: Regulator Shutdown Enable 16V to 36V C1 470uF 63V 5 SHDN SW MIC4576BT MIC4576BT 1 FB VIN , the on portion of the cycle, the output capacitor and load currents return to the supply ground. During the off portion of the cycle, current is being supplied to the output capacitor and load by , . L1 3.3V/3A 5 33uH 4 D1 1N5822 1N5822 6V to 36V C2 1000uF 16V C1 470uF 63V , 33uH D1 1N5822 1N5822 3 8V to 36V C2 1000uF 16V 4 C1 470uF 63V C1 C2 D1 L1 L1 ... Micrel Semiconductor
Original
datasheet

7 pages,
69.82 Kb

LM358 pinout LM358 voltage comparator MBR360 MIC4576 led lm2576 MIC4576BU Nichicon capacitor 1000uf -36v 6V24V LM2576 BOOST CONVERTER switching regulator 12v 3A MIC4576BT nichicon 1000uF on capacitor 1000uF 16V UPL1J471MRH UPL1J471MPH 24v to 12V 3A converter LM2576 PL52C-33-1000 lm2576 lead battery charger TEXT
datasheet frame
Abstract: Description Features The MIC4576 MIC4576 is a series of easy to use fixed and adjustable BiCMOS step-down (buck , Regulator Shutdown Enable 16V to 36V C1 470uF 63V 5 SHDN SW MIC4576BT MIC4576BT 1 FB VIN , capacitor and load currents return to the supply ground. During the off portion of the cycle, current is being supplied to the output capacitor and load by storage inductor L1, which means that D1 is part of , . L1 3.3V/3A 5 33uH 4 D1 1N5822 1N5822 6V to 36V C2 1000uF 16V C1 470uF 63V ... Micrel Semiconductor
Original
datasheet

8 pages,
53.13 Kb

36V 3A diode negative voltage regulators 3.3v Fixed Positive Voltage Regulator 24v 15V 5A adjustable regulator LM2576 BOOST CONVERTER PL52C-33-1000 diagram Converter 24v to 12v lm2576 current mode MIC 4576 BUCK CONVERTER lm358 pin diagram 4576-5.0wu MIC4576 MIC4576 LM2576 step up converter MIC4576 MIC4576 24v to 5V 3A converter MIC4576 MIC4576 12V 5A adjustable regulator MIC4576 MIC4576 switching regulator 12v 3A MIC4576 MIC4576 24v input 5v output regulator MIC4576 MIC4576 switch mode power supply 12V,3A MIC4576 MIC4576 MIC4576 MIC4576 MIC4576 TEXT
datasheet frame
Abstract: 4 8V to 36V C1 470uF 63V 1 MIC4576-5 MIC4576-5.0BT FB VIN GND 3 D1 MBR360 MBR360 C2 1000uF 16V , R2 13.0k 1% R1 1.50k 1% 16V to 36V C1 470uF 63V 1 MBR360 MBR360 C2 1000uF 16V Adjustable , output capacitor and load currents return to the supply ground. During the off portion of the cycle , 4 6V to 24V C1 470uF 35V 1 MIC4576-3 MIC4576-3.3BT FB VIN GND 3 D1 1N5822 1N5822 C2 1000uF 16V 1 , 33uH 4 8V to 24V C1 470uF 35V 1 MIC4576-5 MIC4576-5.0BT FB VIN GND 3 D1 1N5822 1N5822 C2 1000uF 16V ... Micrel Semiconductor
Original
datasheet

8 pages,
76.32 Kb

MIC4576BT 24v to 12V 3A converter LM2576 MIC4576 TEXT
datasheet frame
Abstract: Description Features The MIC4576 MIC4576 is a series of easy to use fixed and adjustable BiCMOS step-down (buck , Regulator Shutdown Enable 16V to 36V C1 470uF 63V 5 SHDN SW MIC4576BT MIC4576BT 1 FB VIN , capacitor and load currents return to the supply ground. During the off portion of the cycle, current is being supplied to the output capacitor and load by storage inductor L1, which means that D1 is part of , . L1 3.3V/3A 5 33uH 4 D1 1N5822 1N5822 6V to 36V C2 1000uF 16V C1 470uF 63V ... Micrel Semiconductor
Original
datasheet

8 pages,
55.79 Kb

40v to 5V 3A converter LM2576 lm2576 battery LM358 voltage comparator MBR360 MIC4576 MIC4576-5.0BT MIC4576BU nichicon 1000uF nichicon 470uF 50v UPL1J471MRH capacitor 1000uf -36v nichicon 470uF UPL1V471MPH MIC4576BT LM2576 BOOST CONVERTER nichicon capacitor 1000uF 63v lm2576 lead battery charger 24v to 12V 3A converter LM2576 LM2576 3 AMP BATTERY CHARGER TEXT
datasheet frame
Abstract: MCESL16V337M8X10 MCESL16V337M8X10.5 Capacitor, Case H, 470ÂuF, 16V MCESL16V477M8X10 MCESL16V477M8X10.5 Capacitor, Case J, 680ÂuF, 16V , - - - - *Ø3 is available Part Number Table Description Part Number Capacitor , .3X7.7 Capacitor, Case G, 470ÂuF, 4V MCESL4V477M6 MCESL4V477M6.3X7.7 Capacitor, Case D, 33ÂuF, 6.3V MCESL6V3336M5X5 MCESL6V3336M5X5 , Capacitor, Case G, 330ÂuF, 6.3V MCESL6V3337M6 MCESL6V3337M6.3X7.7 Capacitor, Case H, 470ÂuF, 6.3V , MCESL10V157M6 MCESL10V157M6.3X5.4 Capacitor, Case H, 330ÂuF, 10V MCESL10V337M8X10 MCESL10V337M8X10.5 Capacitor, Case H, 470ÂuF, 10V ... Multicomp
Original
datasheet

6 pages,
248.18 Kb

TEXT
datasheet frame
Abstract: Fixed Regulator Shutdown Enable 16V to 36V C1 470ÂuF 63V 5 SHDN SW MIC4576BT MIC4576BT 1 , capacitor and load currents return to the supply ground. During the off portion of the cycle, current is being supplied to the output capacitor and load by storage inductor L1, which means that D1 is part of , Note 14. L1 3.3V/3A 5 33ÂuH 4 D1 1N5822 1N5822 6V to 36V C2 1000ÂuF 16V C1 470ÂuF , 2 5 33ÂuH D1 1N5822 1N5822 3 8V to 36V C2 1000ÂuF 16V 4 C1 470ÂuF 63V C1 ... Micrel Semiconductor
Original
datasheet

8 pages,
57.46 Kb

MIC4576 TEXT
datasheet frame

Archived Files

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tor on pin 10. With 2.2 m F/16V capacitor on pin 10, 400msec turn on delay is achieved. e) The power 470UF/16V 2 60 68K 1 36 2.2NF 2 61 680R 1 37 2.2UF/16 2UF/16 1 62 39K 1 38 470UF/25V 1 63 3.1K 1 39 4.7NF 4 64 L3 10uH C18 470uF/16V R8 6.8K R9 4.7K VFB SS STBY RCT VREF DC-LIM Vcc OUT ISEN SGND PGND COMP DC DIS 2.2uH + C25 470uF/16V R20 4.7K + C32 220uF/16V C30 4.7nF L6 INDUCTOR C29 470uF/25V R22 33K 1 2 F R29 of a capacitive charge where Vcc (16V min) is large versus the threshold voltage Vsur (2.5V). R4=33k
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6412.htm
STMicroelectronics 20/10/2000 27.48 Kb HTM 6412.htm
adjusting the value of the charging capaci- tor on pin 10. With 2.2 m F/16V capacitor on pin 10, 400msec 3300UF/10 3300UF/10 1 59 4.7K 5 35 470UF/16V 2 60 68K 1 36 2.2NF 2 61 680R 1 37 2.2UF/16 2UF/16 1 62 39K 1 38 470UF 470uF/16V R8 6.8K R9 4.7K VFB SS STBY RCT VREF DC-LIM Vcc OUT ISEN SGND PGND COMP DC DIS 470uF/16V R20 4.7K + C32 220uF/16V C30 4.7nF L6 INDUCTOR C29 470uF/25V R22 33K 1 2 F (C1 x Vsur) / Icharge eq5 Note that eq4 is an approximation of a capacitive charge where Vcc (16V
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6412-v3.htm
STMicroelectronics 23/06/2000 26.09 Kb HTM 6412-v3.htm
tor on pin 10. With 2.2 m F/16V capacitor on pin 10, 400msec turn on delay is achieved. e) The power 470UF/16V 2 60 68K 1 36 2.2NF 2 61 680R 1 37 2.2UF/16 2UF/16 1 62 39K 1 38 470UF/25V 1 63 3.1K 1 39 4.7NF 4 64 L3 10uH C18 470uF/16V R8 6.8K R9 4.7K VFB SS STBY RCT VREF DC-LIM Vcc OUT ISEN SGND PGND COMP DC DIS 2.2uH + C25 470uF/16V R20 4.7K + C32 220uF/16V C30 4.7nF L6 INDUCTOR C29 470uF/25V R22 33K 1 2 F R29 of a capacitive charge where Vcc (16V min) is large versus the threshold voltage Vsur (2.5V). R4=33k
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6412-v2.htm
STMicroelectronics 14/06/1999 24.25 Kb HTM 6412-v2.htm
16V D3 6.2V C4 470uF 25V R2 120 -1.2V GND D1 D2 C1 2.2uF 400VDC 400VDC Figure 3. Power Supply Circuit BURST than a big capacitor because the diode block a half wave of the mains voltage. 3.1 ZERO CROSSING In to avoid the problem of the flicker standard (European Standard EN60555 EN60555, Part 3) 100uF 16V Vdd GND 470K 1W 680K 1W MAIN2 D3 39k 33K Vdd MAIN1 6.2V 220Volt 2 1 R1 56 D3 C2 220uF 16V 470uF 25V C4 BDX54S BDX54S TRIAC CONTROL BY USING ST52x301 Authors: A. Cucuccio, M. Lo Presti 1. INTRODUCTION The aim of this
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6434-v1.htm
STMicroelectronics 02/04/1999 13.91 Kb HTM 6434-v1.htm
knee of the voltage-current characteristic. The bigger the capacitor value is, the higher the current 2 220Volt R1 56 Q1 BDX54S BDX54S C2 220uF 16V C3 220uF 16V D3 6.2V C4 470uF 25V R2 120 39k 33K Vdd MAIN1 6.2V 220Volt 2 1 R1 56 D3 C2 220uF 16V 470uF 25V C4 BDX54S BDX54S C3 16V Cucuccio, M. Lo Presti 1. INTRODUCTION The aim of this application note is to provide a complete circuit to detect the pre zero-crossing and post zero-crossing of the triac current; c) 1 general
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6434-v3.htm
STMicroelectronics 25/05/2000 15.71 Kb HTM 6434-v3.htm
of the voltage-current characteristic. The bigger the capacitor value is, the higher the current 220Volt R1 56 Q1 BDX54S BDX54S C2 220uF 16V C3 220uF 16V D3 6.2V C4 470uF 25V R2 120 -1.2V GND D1 D2 C1 2.2uF necessary to use a power resistor rather than a big capacitor because the diode block a half wave of the 470K 1W 680K 1W MAIN2 D3 39k 33K Vdd MAIN1 6.2V 220Volt 2 1 R1 56 D3 C2 220uF 16V 470uF 25V C4 BDX54S BDX54S , M. Lo Presti 1. INTRODUCTION The aim of this application note is to provide a complete hardware
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6434.htm
STMicroelectronics 20/10/2000 16.23 Kb HTM 6434.htm
16V D3 6.2V C4 470uF 25V R2 120 -1.2V GND D1 D2 C1 2.2uF 400VDC 400VDC Figure 3. Power Supply Circuit BURST than a big capacitor because the diode block a half wave of the mains voltage. 3.1 ZERO CROSSING In to avoid the problem of the flicker standard (European Standard EN60555 EN60555, Part 3) 100uF 16V Vdd GND 470K 1W 680K 1W MAIN2 D3 39k 33K Vdd MAIN1 6.2V 220Volt 2 1 R1 56 D3 C2 220uF 16V 470uF 25V C4 BDX54S BDX54S TRIAC CONTROL BY USING ST52x301 Authors: A. Cucuccio, M. Lo Presti 1. INTRODUCTION The aim of this
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6434-v2.htm
STMicroelectronics 14/06/1999 13.87 Kb HTM 6434-v2.htm
Capacitor to set the PWM Switching Frequency IN1 8 Analog or Digital Input Analog Level of PWM (0 to 100% of a capacitor Cwd between CWD pin and GND. This capacitor should be placed as close as possible to voltage across the Cb bootstrap capacitor at powerup or at standby exit as a function of time. Figure 8 60V MAX RATING DESCRIPTION The TD340 TD340 integrated circuit allows N-Channel Power Mosfets of the motor are to be set by two pins. Voltage across the motor is controlled by low side Pulse
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/7048-v1.htm
STMicroelectronics 21/09/2000 29.5 Kb HTM 7048-v1.htm
of PWM (0 to 100%) if CF connected to a capacitor, or PWM Signal if CF connected to ground IN2 9 adjustable Time out delay. Watchdog timeout is adjustable by means of a capacitor Cwd between CWD pin and , a delay of up to 20ms (depending upon the bootstrap capacitor value) must be given before applying INTEGRATED SECURITY CIRCUITS: UVLO, OVLO, WATCHDOG n 60V MAX RATING DESCRIPTION The TD340 TD340 integrated switching. The speed and direction of the motor are to be set by two pins. Voltage across the motor is
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/7048.htm
STMicroelectronics 20/10/2000 30.92 Kb HTM 7048.htm
zero R2 510 1 2 R5 3.3k 1 2 C7 330nF 1 2 C10 120uF 1 2 D2 3.3V, 0.5W C9 470uF 1 2 2. INTRODUCTION. The VIPer20 technology contains a state of the art PWM circuit and a Vertical Power input voltage flyback power supplies of up to 10W (20W for high input voltage range) in discontinuous mode. This solution has the advantage of using few external components compared to a discrete STAND-BY APPLICATION Ed Wenzel AN1258 AN1258 - APPLICATION NOTE 2/7 The following description is for a standby
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/7046-v1.htm
STMicroelectronics 25/07/2000 12.75 Kb HTM 7046-v1.htm