NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: STH1L06 STH1L06 Dbl L1 Schematic diagram STEVAL-ILD002V1 STEVAL-ILD002V1 Schematic diagram Circuit schematic , output: 1300 lm Dimming range: 20% - 100% Energy label: Class A Efficiency > 80% at , fluorescent lamp) ballast solution which can completely replace incandescent lamps in dimming systems. The controlled dimming range is from below 20% up to 100% of full light output without changing the triac , energy savings, but also higher reliability and significantly longer operating life. The solution is ... | Original |
4 pages, |
STTH1L06 cfl circuit dimmable cfl dimmable Fluorescent BALLAST 1N4148 fluorescent lamp ballast L6574 STD4NK50Z dimmer CFL dimming ballast for compact fluorescent CFL dimmer st l6574 cfl circuit diagram for service STEVAL-ILD002V1 L6574 STEVAL-ILD002V1 abstract |
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| Abstract: Figure 3: Schematic Block Diagram of an Electronic Ballast for CFL Bridge L DC to AC + C3 , consequence, the significant associated energy saving, coupled with a very simple and cost-effective electronic design, is contributing to the success in the market of the compact fluorescent lamps making , expected lifetime of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of a Low-pressure Fluorescent Lamp at Start-up I V Fluorescent lamps are generally made ... | Original |
9 pages, |
fluorescent lamp circuit diagram ST13003 cfl circuit 13w cfl circuit ballast Self-Oscillating Electronic ballast 11W cfl Self-Oscillating 9w cfl circuit working of fuse tube light by 4 diode ELECTRONIC BALLAST transistor DIAGRAM BALLAST ELECTRONIC 25W COMPONENTS 11w cfl circuit AN1329 AN1329 abstract |
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| Abstract: Figure 3: Schematic Block Diagram of an Electronic Ballast for CFL Bridge L DC to AC + C3 , consequence, the significant associated energy saving, coupled with a very simple and cost-effective electronic design, is contributing to the success in the market of the compact fluorescent lamps making , expected lifetime of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of a Low-pressure Fluorescent Lamp at Start-up I V Fluorescent lamps are generally made ... | Original |
9 pages, |
Self-Oscillating cfl ballast transistor Electronic ballast CFL self electronic ballast 11W 13w cfl circuit cfl Self-Oscillating resonant half bridge ballast schematic 220V ferrite core transformer circuit diagram electronic ballast ELECTRONIC BALLAST transistor DIAGRAM Electronic ballast 11W ballast Self-Oscillating AN1329 AN1329 abstract |
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| Abstract: Figure 3: Schematic Block Diagram of an Electronic Ballast for CFL Bridge L DC to AC + C3 , consequence, the significant associated energy saving, coupled with a very simple and cost-effective electronic design, is contributing to the success in the market of the compact fluorescent lamps making , expected lifetime of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of a Low-pressure Fluorescent Lamp at Start-up I V Fluorescent lamps are generally made ... | Original |
9 pages, |
cfl Self-Oscillating circuit diagram electronic ballast cfl circuits st13003 ST13003 transistor CFL self electronic ballast 11W diac BIPOLAR ELECTRONIC BALLAST DIAGRAM 20w ballast Self-Oscillating resonant half bridge ballast schematic 9w cfl circuit BULD118 AN1329 AN1329 abstract |
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| Abstract: Figure 3: Schematic Block Diagram of an Electronic Ballast for CFL Bridge L DC to AC + C3 , consequence, the significant associated energy saving, coupled with a very simple and cost-effective electronic design, is contributing to the success in the market of the compact fluorescent lamps making , expected lifetime of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of a Low-pressure Fluorescent Lamp at Start-up I V Fluorescent lamps are generally made ... | Original |
9 pages, |
STBV68 STBV45 STBV42 STBV32 ST13003 1N4005 9 watt cfl circuit diagram BUL128D-B ballast Self-Oscillating 13w cfl circuit cfl Self-Oscillating Self-Oscillating ELECTRONIC BALLAST DIAGRAM 20w working of fuse tube light by 4 diode AN1329 AN1329 abstract |
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| Abstract: LEDs - Lamps - Solenoids - Relays - Valves In a variety of end equipments! Electronic Data , Selecting a load involves defining the type of output energy needed and selecting the correct size and class of load. The foil shows some energy types with the corresponding load and output parameters. A , output from the load (motion, sound, etc.) ยท Energy dissipated from the load in the form of heat (I 2R , between toff and tr is a result of the magnetic field in the solenoid collapsing and returning energy to ... | Original |
25 pages, |
TPIC6A595 automotive ecu manual 12v incandescent lamp driver mosfet schematic solenoid driver TPIC2101 TLC556 SIMPLE motor dc 6v Seminar instrumentation 12V unipolar STEPPER MOTOR 2a solenoid pwm proportional valve CIRCUIT SCHEMATIC ECU CAR CIRCUIT SCHEMATIC CAR ECU datasheet abstract |
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| Abstract: Drain3 Drain1 Drain2 VCC 19 Lamp Figure 2. Circuit Schematic of the TPIC2603 TPIC2603 Integrated , life of the lamps. Also, since this protection is performed by the device's internal circuitry, the , powertrains feature many types of loads which draw from a few hundred milliamperes of current up to 100 A. Most of these loads require fault diagnostics to meet regulations and to reduce repair time in the , protection and diagnostics for each of its six channels. Among its fault protection attributes are a low ... | Original |
7 pages, |
"throttle Position Sensor" Automotive ECU Power system IC driver injectors ecu fuel speed output ECU PWM iat sensor intake manifold solenoid pwm current valve TPIC2603 automobile ecu components automotive ecu circuit schematic inductive speed sensor TPIC2603 abstract |
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| Abstract: Drain3 Drain1 Drain2 VCC 19 Lamp Figure 2. Circuit Schematic of the TPIC2603 TPIC2603 Integrated , life of the lamps. Also, since this protection is performed by the device's internal circuitry, the , powertrains feature many types of loads which draw from a few hundred milliamperes of current up to 100 A. Most of these loads require fault diagnostics to meet regulations and to reduce repair time in the , protection and diagnostics for each of its six channels. Among its fault protection attributes are a low ... | Original |
7 pages, |
TPIC2603 automotive ecu automotive ecu circuit engine control unit ecu automobile "throttle Position Sensor" fuel injector test schematic inductive speed sensor temperature circuit diagram in ecu ecu BLOCK DIAGRAM Automotive ECU Power system IC ECU PWM TPIC2603 abstract |
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| Abstract: DN86 Reduced component count and compact reference design for MR16 replacement lamps using multiple 1W LEDs Silvestro Russo, October 2007 Introduction MR16 lamps are one variety of , Semiconductors plc 2007 1 www.zetex.com DN86 Description The system diagram of the MR16 lamp solution , Figure 2 System diagram of ZXLD1350 ZXLD1350 MR16 Lamp Solution The ZXLD1350 ZXLD1350 is designed for LED current , rectifier and freewheeling diode ZETEX Table 1 Bill of Material Referring to circuit schematic ... | Original |
8 pages, |
ZXLD1350 design ideas DN86 LED Lamp 1W BRIDGE-RECTIFIER compact PLC coupling transformer TS16949 MR16 halogen lamp schematic diagram ac drive and plc electronic transformer halogen 12v datasheet abstract |
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| Abstract: Figure 3: Schematic Block Diagram of an Electronic Ballast for CFL Bridge L DC to AC + C3 C4 Converter Filter s) t( A simplified block schematic diagram is shown in figure 3. It , consequence, the significant associated energy saving, coupled with a very simple and cost-effective electronic design, is contributing to the success in the market of the compact fluorescent lamps making , the expected lifetime of the lamps are evident. te le 2. COMPACT FLOURESCENT LAMPS. (s) ct ... | Original |
9 pages, |
ELECTRONIC BALLAST 2 LAMP SCHEMATIC 11w cfl STBV32 ST13003 STBV45 FLUORESCENT LAMP WITH IC CIRCUIT STBV42 13w cfl circuit 11w cfl circuit 220V ferrite core transformer 9 watt cfl circuit diagram 9w cfl circuit BUL118 AN1329 AN1329 abstract |
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| compared to traditional incandescent lamps. As a consequence, the significant associated energy saving Diagram of an Electronic Ballast for CFL A simplified block schematic diagram is shown in figure market of the compact fluorescent lamps making their yearly growth rate higher than 20%. The waveform of the resonant driving circuit. The proposed solution allows lamp ballast designers to of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/7537.htm |
STMicroelectronics | 24/01/2001 | 16.81 Kb | HTM | 7537.htm |
| compared to traditional incandescent lamps. As a consequence, the significant associated energy saving Diagram of an Electronic Ballast for CFL A simplified block schematic diagram is shown in figure market of the compact fluorescent lamps making their yearly growth rate higher than 20%. The waveform of the resonant driving circuit. The proposed solution allows lamp ballast designers to of the lamps are evident. 2. COMPACT FLOURESCENT LAMPS. Figure1: Typical I-V Characteristic of www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/2696-v3.htm |
STMicroelectronics | 12/01/2001 | 16.76 Kb | HTM | 2696-v3.htm |
| involves defining the type of output energy needed and selecting the correct size and class of load. The voltage Energy output from the load (motion, sound, etc.) Energy dissipated from the load in the form of collapsing and returning energy to the system. A solenoid switch must be capable of conducting the coil increase characteristic of an inductive load. Return energy is a factor in stepper motor control (quies) = Quiescent power dissipation of switch circuit ton = Switch-on time Energy and Power Calculations for an www.datasheetarchive.com/download/69687670-865782ZC/sem4_1.ppt |
Texas Instruments | 21/05/1997 | 314.5 Kb | PPT | sem4_1.ppt |
| reducing the cost of the ballast, but also work to add features to the bal - last like saving energy by smart control of the lamp is to use a dedi - cated I.C. that is able to drive the upper transistor UVLO Figure 3: Block diagram of the L6569 L6569 L6569 L6569. 10 m F 10k W 1nF L 6569 22 W 22 W STD3NA50 STD3NA50 STD3NA50 STD3NA50 AC LINE 180k W LAMP 100nF Figure 4: Basic application diagram using the choice of these components deter - mines the lamp ignition voltage and the nominal lamp current www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4690-v3.htm |
STMicroelectronics | 21/09/2000 | 29.66 Kb | HTM | 4690-v3.htm |
| diagram for a 18W CFD18T/E CFD18T/E CFD18T/E CFD18T/E lamp with 120/230 Vac inputs. The resonant ballast The value of the choke (L features to the bal - last like saving energy by dimming the light, or in - creasing the life time with control of the lamp is to use a dedi - cated I.C. that is able to drive the upper transistor of an able to directly control a symmetric half bridge inverter of a fluorescent lamp ballast, or a low HIGH SIDE DRIVER CHARGE PUMP UVLO Figure 3: Block diagram of the L6569 L6569 L6569 L6569. 10 m F 10k W 1n www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4690.htm |
STMicroelectronics | 20/10/2000 | 30.89 Kb | HTM | 4690.htm |
| diagram of the L6569 L6569 L6569 L6569. 10 m F 10k W 1nF L 6569 22 W 22 W STD3NA50 STD3NA50 STD3NA50 STD3NA50 AC LINE 180k W LAMP 100nF Figure 4 =R.I (A) (B) I CTL LAMP Figure 16: Basic preheat current control diagram (a); preheat filament energy features to the bal - last like saving energy by dimming the light, or in - creasing the life time with lamp power. The only way to design a cost effective, compact and smart control of the lamp is to use a 6569 is able to directly control a symmetric half bridge inverter of a fluorescent lamp ballast, or a www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4690-v1.htm |
STMicroelectronics | 02/04/1999 | 27.65 Kb | HTM | 4690-v1.htm |
| diagram of the L6569 L6569 L6569 L6569. 10 m F 10k W 1nF L 6569 22 W 22 W STD3NA50 STD3NA50 STD3NA50 STD3NA50 AC LINE 180k W LAMP 100nF Figure 4 =R.I (A) (B) I CTL LAMP Figure 16: Basic preheat current control diagram (a); preheat filament energy features to the bal - last like saving energy by dimming the light, or in - creasing the life time with lamp power. The only way to design a cost effective, compact and smart control of the lamp is to use a 6569 is able to directly control a symmetric half bridge inverter of a fluorescent lamp ballast, or a www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4690-v2.htm |
STMicroelectronics | 14/06/1999 | 27.62 Kb | HTM | 4690-v2.htm |
| without baker clamp and transil protection. This enables saving from 2 up to 10 components in the application. INTERNAL SCHEMATIC DIAGRAM June 1998 ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value EMITTER DIODE n HIGH VOLTAGE CAPABILITY n LOW SPREAD OF DYNAMIC PARAMETERS n MINIMUM LOT APPLICATIONS n LAMP ELECTRONIC BALLAST FOR 300 ns E sb Avalanche Energy L = 2 mH 6 mJ * Pulsed: Pulse duration = 300 m s, duty www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5992-v3.htm |
STMicroelectronics | 25/05/2000 | 7.52 Kb | HTM | 5992-v3.htm |
| without baker clamp and transil protection. This enables saving from 2 up to 10 components in the application. INTERNAL SCHEMATIC DIAGRAM June 1998 ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V OF DYNAMIC PARAMETERS n MINIMUM LOT-TO-LOT SPREAD FOR RELIABLE OPERATION n VERY HIGH SWITCHING SPEED n ARCING TEST SELF PROTECTED APPLICATIONS n LAMP Recovery Time I F = 1 A di/dt = 100 A/ m s V DD = 30 V 300 ns E sb Avalanche Energy L = 2 m www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5992-v2.htm |
STMicroelectronics | 14/06/1999 | 5.67 Kb | HTM | 5992-v2.htm |
| without baker clamp and transil protection. This enables saving from 2 up to 10 components in the application. INTERNAL SCHEMATIC DIAGRAM June 1998 ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V OF DYNAMIC PARAMETERS n MINIMUM LOT-TO-LOT SPREAD FOR RELIABLE OPERATION n VERY HIGH SWITCHING SPEED n ARCING TEST SELF PROTECTED APPLICATIONS n LAMP Recovery Time I F = 1 A di/dt = 100 A/ m s V DD = 30 V 300 ns E sb Avalanche Energy L = 2 m www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5992-v1.htm |
STMicroelectronics | 02/04/1999 | 5.71 Kb | HTM | 5992-v1.htm |