NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: Thru-Hole Molex 22-03-2041 10 1 L1 22uH, 1.8A rms, 1.7A sat inductor SMT Coiltronics DRA74-220-R DRA74-220-R 11 1 L2 2.2uH, 1.0A rms, 1.0A sat inductor SMT Coilcraft ... | Original |
6 pages, |
Si7308DN B160 SMD1206 STPS2L60A stps2l60a rohm zener 4.7V LED 10A pwm capacitor 1uF 25V HV9919BDB1 zener diode 4.7V PWM dimming HV9919DB1 4.7uF 25V X7R pwm led driver circuit diagram HV9919DB1 abstract |
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| Abstract: , vertical header 22uH, 1.8A rms, 1.7A sat inductor 2.2uH, 1.0A rms, 1.0A sat inductor 60V, 72m, 9nC ... | Original |
6 pages, |
pwm schematic 10w led diode HV9919DB1 HV9919DB1 abstract |
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| Abstract: 33H, 3A rms, 6A SAT inductor SMT Cooper Electronics DR127-330 DR127-330 13 1 L2 100H, 0.86A rms, 1A SAT inductor SMT Cooper Electronics DR74-101 DR74-101 14 1 Q1 100V, 4.55A ... | Original |
7 pages, |
ZXMN6A11G 1N4148 C2012X FDS369 MOSFET SOT-89 PWM dimming PWM to voltage converter resistor 1K 1/2w SMD1210 SMD1206 0.5W LED driver IC SMD0805 SMD-2512 HV9911 HV9911DB4 HV9911DB4 HV9911DB4 abstract |
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| Abstract: connector Thru-Hole JST Sales Amer. S3B-EH 13 1 L1 150uH, 1.7A rms, 3A sat inductor SMT Coiltronics UP4B-151 UP4B-151 14 1 L2 220uH, 1.19A rms, 1.51A sat inductor SMT Coiltronics ... | Original |
8 pages, |
3watt led circuit 220UH 5A 1N4148W SOD123 1N4148 "MOSFET SO-8" INDUCTOR 220uH IRF7452 smd2010 PWM dimming marking code D1 CR J1 TRANSISTOR DIODE SOT-23 UUD1H150MCL1GS HV9930 HV9930DB2 HV9930DB2 HV9930DB2 abstract |
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| Abstract: 82uH, 2A rms, 2.4A L1 sat inductor 150uH, 0.86A rms, L2 1A sat inductor 100V, 4.5A NQ1 channel ... | Original |
11 pages, |
10k resistor 1 watt zener diode 3.3V 400MW 0.1uf/50v Capacitor chip LED 1N4148W-7 Ceramic capacitor 0,1uF 50V diodes 1n4148w-7 YAGEO CAPACITOR smd2010 sae connector 2 pin HV9930 fds3692 HV9930DB1 HV9930DB1 HV9930DB1 abstract |
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| Abstract: B240A-13-F B240A-13-F 5 1 L1 150uH, 1.05A rms, 1.15A sat inductor SMT Cooper Electronics CD1-151 CD1-151 , increases the variation of the LED current with the LED string voltage, since the inductor current ripple ... | Original |
5 pages, |
-HV9910BLG-G B240A-13-F SMD0805 SMD1206 VNN1NV04 8W osram HV9910DB6 Schottky Diode B240A-13-F GRM31CR71H225KA88L hv9910b HV9910 led constant current driver 700mA HV9910BLG-G schematic diagram 24V to 19V converter HV9910DB6 abstract |
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| Abstract: sat inductor SMT Coiltronics DR125-820 DR125-820 14 1 L2 150uH, 0.86A rms, 1A sat inductor ... | Original |
11 pages, |
Zener Diode 3v 400mW 08052R104K9B20D 1 watt led driver circuit diagram 1N4148 sod123 1N4148W SOD123 AT9933 AT9933DB1 B220-13 SMT DIODE SOD123 J1 TRANSISTOR DIODE SOT-23 PACKAGE J1 TRANSISTOR DIODE SOT-23 "MOSFET SO-8" AT9933DB1 abstract |
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| Abstract: 12 1 L1 33H, 3A rms, 6A SAT inductor SMT DR127-330 DR127-330 13 1 L2 100H, 0.86A rms, 1.0A SAT inductor SMT 14 1 Q1 100V, 4.55A N-Channel MOSFET SO-8 Fairchild ... | Original |
6 pages, |
ZXMN6A11G smd2512 SMC C92 HV9911 FDS3692 C3225X7R1H225K 1N4148 HV9911DB4 HV9911DB4 abstract |
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| Abstract: 13 1 L1 82uH, 2A rms, 2.4A sat inductor SMT Coiltronics DR125-820 DR125-820 14 1 L2 150uH, 0.86A rms, 1A sat inductor SMT Coiltronics DR74-151 DR74-151 15 1 Q1 100V, 4.5A ... | Original |
10 pages, |
"MOSFET SO-8" 1N4148W SOD123 B220-13 FDS369 FDS3692 HV9930 HV9930L JST SOT-23 S3B-EH HV9930LG-G 90V, 350mA LED driver 2N3907 Yageo resistor 2010 1N4148 27V SOD123 HV9930DB1 16VDC HV9930DB1 abstract |
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| Abstract: angle connector Thru-Hole JST Sales Amer. S3B-EH 13 1 L1 82uH, 2A rms, 2.4A sat inductor SMT Coiltronics DR125-820 DR125-820 14 1 L2 150uH, 0.86A rms, 1A sat inductor SMT ... | Original |
11 pages, |
Yageo B220-13 AT9933DB1 AT9933 1N4148W SOD123 "MOSFET SO-8" 350mA 1watt led driver circuit 1N414 diode AT9933DB1 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| Figure 2a's simple buck converter clamps the switching node, the inductor's swinging terminal, as the inductor discharges. In the synchronous-rectifier version of Figure 2b integral, parasitic body diode that can act as a clamp and catches the negative inductor , the inductor current discharges to zero, becoming discontinuous or reversing direction hold the synchronous switch on until the beginning of the next cycle, allowing the inductor www.datasheetarchive.com/files/maxim/0008/view_022.htm |
Maxim | 04/04/2001 | 32.51 Kb | HTM | view_022.htm |
| Test Conditions Min. Typ. Max. Unit V CE(sat) Saturation Voltage, Darlington Connection I SW = 1 A Pins 1, 8 connected 1 1.3 V V CE(sat) Saturation Voltage I SW = 1 A R pin8 = 82 W to V CC , Forced Saturation Voltage vs Collector Current Power Collector Emitter Saturation Voltage (V CE(sat) ) vs Temperature Darlington Configuration Collector Emitter Saturation Voltage (V CE(sat) ) vs Temperature Current -Down (Continuos mode) Voltage Inverting (Discontinuos mode) Inductor 170 m H 220 m H 90 m H t on /t off V out www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5257-v1.htm |
STMicroelectronics | 02/04/1999 | 10.6 Kb | HTM | 5257-v1.htm |
| Test Conditions Min. Typ. Max. Unit V CE(sat) Saturation Voltage, Darlington Connection I SW = 1 A Pins 1, 8 connected 1 1.3 V V CE(sat) Saturation Voltage I SW = 1 A R pin8 = 82 W to V CC , Forced Saturation Voltage vs Collector Current Power Collector Emitter Saturation Voltage (V CE(sat) ) vs Temperature Darlington Configuration Collector Emitter Saturation Voltage (V CE(sat) ) vs Temperature Current -Down (Continuos mode) Voltage Inverting (Discontinuos mode) Inductor 170 m H 220 m H 90 m H t on /t off V out www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5257-v2.htm |
STMicroelectronics | 14/06/1999 | 10.56 Kb | HTM | 5257-v2.htm |
| F Where: V ce(sat) = 1.5 V V F = Catch diode forward drop The maximum inductor value is then the inductor value is reduced by a fac- tor of three or four in comparison with a corre- sponding mode. In principle in this kind of operation the energy stored in the inductor is fully discharged to determined by the system op- erating conditions. For a given value of the inductor L (that will be fur- ther calculated), if we examine the current across the inductor ( I L ), we can have two different www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1674.htm |
STMicroelectronics | 20/10/2000 | 31.27 Kb | HTM | 1674.htm |
| ) + V F Where: V ce(sat) = 1.5 V V F = Catch diode forward drop The maximum inductor value is then components are dramatically reduced. Moreover the inductor value is reduced by a fac- tor of three or four in in discontinuous mode. In principle in this kind of operation the energy stored in the inductor is determined by the system op- erating conditions. For a given value of the inductor L (that will be fur- ther calculated), if we examine the current across the inductor ( I L ), we can have two different situ- ations www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1674-v1.htm |
STMicroelectronics | 02/04/1999 | 28.08 Kb | HTM | 1674-v1.htm |
| - nal components are dramatically reduced. Moreover the inductor value is reduced by a fac- tor of kind of operation the energy stored in the inductor is fully discharged to the load before to start determined by the system op- erating conditions. For a given value of the inductor L (that will be fur- ther calculated), if we examine the current across the inductor ( I L ), we can have two through the inductor can have one of the shapes shown in fig. 2. In both the waveforms, the current in www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1674-v3.htm |
STMicroelectronics | 25/05/2000 | 29.91 Kb | HTM | 1674-v3.htm |
| ) + V F Where: V ce(sat) = 1.5 V V F = Catch diode forward drop The maximum inductor value is then components are dramatically reduced. Moreover the inductor value is reduced by a fac- tor of three or four in in discontinuous mode. In principle in this kind of operation the energy stored in the inductor is determined by the system op- erating conditions. For a given value of the inductor L (that will be fur- ther calculated), if we examine the current across the inductor ( I L ), we can have two different situ- ations www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1674-v2.htm |
STMicroelectronics | 14/06/1999 | 28.04 Kb | HTM | 1674-v2.htm |
| AND8172 AND8172 AND8172 AND8172 Understanding the Noise Issue Out of Inductor Based DC-DC Converter AND8237 AND8237 AND8237 AND8237 Low VCE(sat) BJT in 1206A ChipFETâ„¢ Package www.datasheetarchive.com/files/on-semiconductor/html/appnotes-v5.html |
On Semiconductor | 12/06/2008 | 19.22 Kb | HTML | appnotes-v5.html |
| hard-boiled egg, and three kinds of salad dressing on the side. I sat there with barely suppressed astonishment, and Dave just sat there with a quiet, resigned smile. After the waiter departed, Dave explained your "catch" diode is spaced more than an inch from the inductor and transistor, the L di/dt can www.datasheetarchive.com/files/national/htm/nsc03523-v2.htm |
National | 14/09/2000 | 13.85 Kb | HTM | nsc03523-v2.htm |
| hard-boiled egg, and three kinds of salad dressing on the side. I sat there with barely suppressed astonishment, and Dave just sat there with a quiet, resigned smile. After the waiter departed, Dave explained your "catch" diode is spaced more than an inch from the inductor and transistor, the L di/dt can www.datasheetarchive.com/files/national/htm/nsc06458.htm |
National | 18/12/1998 | 11.65 Kb | HTM | nsc06458.htm |