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PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA ri Buy
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) ri Buy
PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) ri Buy

Transformer 9v 1A

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: provides the following features: Power supply: ­ AC/DC transformer input (6V to 9V) ­ or External Power , DC output power source for main supply: ­ Transformer 6V to 9V DC max (minimum 500 mA is required , Transformer Min 500mA I²S Header 6V to 9V Min 500mA 20 Leads Flat Cable (TWI / SPI) Power , AT73C240-EK1 AT73C240-EK1 U1 U2 AC/DC Transformer 6V to 9V/ 500mA min DC/DC power supply cable J1 J4 6V to , Parallel-to-Serial card itself. 5. An output DC power source: ­ Transformer 6V to 9V DC max (minimum 500 mA is ... Atmel
Original
datasheet

46 pages,
4428.98 Kb

2.1mm DC power jack connector 9v 500ma transformer he10 header HE10 9v 300mA transformer J1 HE10 jack p2 3.5mm 11 pin schematics switched power supply ac dc 3.5mm audio jack connection diagram transformer 6v AT73C240 neb21r AT73C240-EK1 AT73C240-EK1 AT73C240-EK1 TEXT
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Abstract: (typically 9V at 0 mA­120 mA and 5V at 0 mA ­ 200 mA) from a 3 3V input The transformer peak primary , 10V Zener diode for clamping T1 Lp-24 2 mH Ip-2 1A Transformer 1 220 mF 6 3V , 74A Isw (avg) e D 05 System Specifications VIN e 3 3V ( g 10%) Vo1 e 9V ( g 10%) (Isolated , duty cycle is assumed to be 50% (5) Peak primary current is given by Transformer Specification Transformer turns ratio is Ns 1 (Vo 1 a Vd ) Dmax e Np VIN (min) b Vce (sat) 1 b Dmax (9 a 0 7 ) 0 5 e ... National Semiconductor
Original
datasheet

4 pages,
87.81 Kb

AN-1055 lm3578 cross reference LM3578A spike Suppression SR104 10B3 transistor E21 C1996 TRANSFORMER 220 to 9V Transformer 9v 1A transistor 3901 9V 2A Transformer specification D44C3A LM3578 470 mf 16v 10v ZENER DIODE sr104 diode DIODE 10B3 9V 1A Transformer specification Zener diode 10b3 TEXT
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Abstract: converter using a boost regulator, is relatively inefficient, requires a bulky (5mm or taller) transformer , uses two power inductors instead of a transformer. In the absence of the transformer core, the , and LT are registered trademarks of Linear Technology Corporation. VIN 9V TO 16V 36V TRANSIENT , CCOUP 10uF 6.3V 0805 CER X5R B0540W B0540W VIN 9V TO 16V 36V TRANSIENT VOUT 5V* COUT 10uF 6.3V 0805 X5R CER COUT2 10uF 6.3V 0805 X5R CER VOUT2 DN318 DN318 F01 ­5V* B0540W B0540W Figure 1. LT1956 LT1956 9V ... Linear Technology
Original
datasheet

2 pages,
103.18 Kb

1A 5v input 5v output regulator 1N4148W 9v transformer design B0540W B140 boost regulator 9v output 12V to 5V buck boost converter DN318 dual polarity power supply transformer 12V 500mA LT1956EFE LT3431 LT3431EFE CDRH6D28-100 LT1956 transformer 500mA 12v transformer 5v 500mA 9V input to 5V output flyback converter 9v 500ma transformer TEXT
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Abstract: Transformer OB Range transformers are mounted in resin-filled, flat thermoplastic cases with pins for , , DIN/EN60 DIN/EN60 742, EN61 558, CSA C22.2, SEV 1003; EN 60-950 available on request. Transformer , ) Dimensions in mm (inches). · Proportions altered to illustrate detail. Transformer Specifications Load (VA) Secondary RMS Rating Series Secondary RMS Rating Parallel 5V @ 160mA 6V @ 133mA 9V @ 88mA 12V @ 66mA 15V @ 54mA 18V @ 44mA 24V @ 33mA 5V @ 400mA 6V @ 340mA 9V @ 220mA 12V @ 170mA 15V @ 140mA 18V @ ... Avel Lindberg
Original
datasheet

3 pages,
1048.61 Kb

OB81 230v AC to 18V ac 750ma transformer transformer vde 0551 OB.8-24 transformer 230v to 9v 2A 9V 1A Transformer specification OB10-9 transformer 12V 500mA transformer 500mA 12v OB30-15 OB26 18v 1a transformer 9v 500ma transformer 12v and 500ma transformer transformer 230V to 12V 500mA TEXT
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Abstract: transformer with its two windings capacitively coupled together to generate a fixed output voltage from an , Polarity Output SEPIC Figure 7 is a 5V to 9V input to ±12V dual polarity output converter. As discussed , transformer to couple energy from the primary (input) side to the secondary (output) side. For dual polarity output flyback converters, this transformer has at least three windings coupled together on the same , 5V TO 9V 100 C1 2.2uF 16V/25V X5R CERAMIC 25 Figure 5. Maximum load current of the ... Linear Technology
Original
datasheet

3 pages,
149.19 Kb

UPS140 A915AY-6R8M B0530 C3225X5R1C106M 12v 500 ma transformer EMK316BJ225ML LT1961 LT1961EMS8E Transformer sepic UPS120 9v 500ma transformer 12v and 500ma transformer CTX15-1A transformer 12V 500mA 9V input to 5V output flyback converter TEXT
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Abstract: -58021 1995-03-23 / ts green U = 18V Uo = 21,9V External fuse: S1 15 VA 1A red 230V 48-60Hz P1 brown U = 18V Uo = 21,9V External fuse: 1A S2 blue yellow Classification , : Dimensions: 1 pc 2 pcs OD = H= Metal Washer Rubber Pads 68 35 Safety Isolating Transformer , Transf.No. AA-58021 AA-58021 ELFA P/N: 56-121-71 Label on transformer. Toroid International AB Transf.No. AA-58021 AA-58021 Prim. 230V 48-60Hz ye-ye 30 VA Sec. 2x 18V gn-re/bn-bu Fuse: 1A 15 VA ... TOROID International
Original
datasheet

3 pages,
35.13 Kb

18v transformer e115159 Fuse 300V 1A Toroid International AA 58021 Toroid International AB toroid international ltd AA-58021 Fuse 1A transformer 230v to 9v and 1A ec 35 transformer 230v 9v 1a transformer 18v transformer 1a Transformer 9v 1A 18v 1a transformer TEXT
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Abstract: 5V, 1A flyback converter that accepts a 9V to 30V input. The BIAS winding is used to improve the , significant design time be devoted to transformer design, a task further complicated by limited off-the-shelf transformer selection and the necessity for customized magnetics. Moreover, the flyback converter , voltage is thus reflected to the primary-side of the flyback transformer (or the switch node). The , transformer. The LT3573 LT3573's utilization of boundary mode operation further reduces converter size and ... Linear Technology
Original
datasheet

2 pages,
152.3 Kb

boundary mode flyback flyback transformer DC converter flyback transformer simplest flyback converter Transformer 9v 1A feedback flyback converter LT3573 flyback transformer high voltage DC flyback transformer L10-1022 flyback converter isolated feedback flyback converter flyback converter 2A 15V flyback transformer for medical DCM flyback transfer function 9V input to 5V output flyback converter PA2454NL TEXT
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Abstract: Cycle VSTOP Current (Max) (Max) MIC9130 MIC9130 9V to 180V 1A 9V MIC9131 MIC9131 9V to 180V 1A , % Forward/Flyback Adj. to 500kHz PDIP-8, -14, SOIC-8, -14 MIC38HC43 MIC38HC43 9V to 20V 1A 8.4V , , SOIC-8, -14 MIC38HC45 MIC38HC45 9V to 20V 1A MIC38C42A MIC38C42A(1) 15.5V to 20V 0.5A Frequency , -8, SOIC-14 SOIC-14 MIC4575 MIC4575 4V to 24V 3.3V, 5V, Adj. 1A 200kHz TO220-5, TO263-5 MIC4576 MIC4576 4V , , Adj. 0.5A 52kHz PDIP-8 LM2575 LM2575 4V to 40V 3.3V, 5V, 12V, Adj. 1A 52kHz TO220 ... Original
datasheet

5 pages,
94.76 Kb

lm2575 adj led 9V 20A voltage regulators MIC2182 mic2202 MIC2207 MIC2208 MIC2295 MIC4680 9V input to 5V output flyback converter 24v 12v 20A regulator 24V DC to 5V 1A DC flyback converter transformer lm2576 led lm2576 MIC4681 LM2576 10A mic38c45a MIC23250 MIC4686 TEXT
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Abstract: -98021 1999-04-13 / ts green U = 12V Uo = 14,9V External fuse: S1 10 VA 1A red 230V 48-60Hz P1 brown U = 12V Uo = 14,9V External fuse: 1A S2 blue yellow Classification , : Dimensions: Safety Isolating Transformer IP00 Non-short-circuit proof Continously Incorporated Ta40/E , of the transformer. OD = H= 59 33 mm mm Prim: Multistranded Wire Style 3266. Sec , transformer. Toroid International AB Transf.No. AA-98021 AA-98021 Prim. 230V 48-60Hz ye-ye 20 VA Sec. 2x 12V ... TOROID International
Original
datasheet

3 pages,
34.85 Kb

Toroid International AB Toroid International transformer 230v to 9v and 1A Toroid International LTD E115159 COPPER core type transformer 230v 9v 1a transformer Transformer 9v 1A TEXT
datasheet frame
Abstract: voltage (9V to 50V) Additional 3.3V or 5V internal regulator Up to 100mA combined output current Single , . Typical Application Circuit 1.25A 90VAC 90VAC to 270VAC 270VAC 50/60HZ 50/60HZ 1.0kV 1A VOUT 9-50VDC 9-50VDC @ 100mA - , 5V @ 60mA 100nF 12.4kΩ ⎛ - Žœ ⎝ SR086/SR087 SR086/SR087 Pinout Ordering Options Device , 3.465 4.750 5.000 5.250 V ILOAD = 1mA, VOUT = 9V -50 - +50 mV - - , – VGD diode drop 0mA < ILOAD < 60mA, VOUT = 9V, TAmb = 25°C I = 20mA Referenced to VOUT ... Supertex
Original
datasheet

7 pages,
527.77 Kb

SR086/SR087 TEXT
datasheet frame

Archived Files

Abstract Saved from Date Saved File Size Type Download
transformer isolates the main output, -9V, and an optoisolator isolates the feedback signal. of the size of an equivalent-power 60Hz transformer. As a result, designers now the signal through a second transformer. These techniques assume that a transformer energy in the power transformer when the primary switch is on and distributes energy when the of the output voltage while energy distributes among the windings of the transformer. The
/datasheets/files/maxim/0008/view_006.htm
Maxim 04/04/2001 21.98 Kb HTM view_006.htm
, Non-Interruptible Power Supply Delivers 1A Add-On Circuit Preconditions Battery Before Charging Adjustable Power Supply Generates Isolated 9V Latching Regulator Prevents Deep Discharge Of Battery Low-Power IC Converts -48V to 5V Without Transformer Lower Operating Frequency Improves ICL7660 ICL7660 Octal Trimpots Offer Rail-to-Rail Adjustments Off-The-Shelf Transformer Adapts Controller For SLIC Applications Off-The-Shelf Transformer Limits Capacitor Inrush Current One-Hour Battery Charger Has
/datasheets/files/maxim/0002/an_pr006.htm
Maxim 04/04/2001 17.36 Kb HTM an_pr006.htm
IS IN GND GND E S C2 TRANSFORMER DEMAGNETIZATION SENSING INPUT SECONDARY PULSES INPUT POWER I CC(start) Starting Current (V CC = 9V) 0.7 1.4 mA I CC Supply Current (V CC = 12V) 7.5 15 mA V CC located master circuit. A pulse transformer provides the feedback (see Figure 1). - Conventional costly 50Hz transformer, is no longer necessary. The burst mode operation of the TEA2260/61 TEA2260/61 makes possible the control of very low output power (down to less than 1W) with the main power transformer. When
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1275-v2.htm
STMicroelectronics 14/06/1999 19.4 Kb HTM 1275-v2.htm
IS IN GND GND E S C2 TRANSFORMER DEMAGNETIZATION SENSING INPUT SECONDARY PULSES INPUT POWER I CC(start) Starting Current (V CC = 9V) 0.7 1.4 mA I CC Supply Current (V CC = 12V) 7.5 15 mA V CC located master circuit. A pulse transformer provides the feedback (see Figure 1). - Conventional costly 50Hz transformer, is no longer necessary. The burst mode operation of the TEA2260/61 TEA2260/61 makes possible the control of very low output power (down to less than 1W) with the main power transformer. When
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1275.htm
STMicroelectronics 02/04/1999 19.44 Kb HTM 1275.htm
12 11 10 9 IS IN GND GND E S C2 TRANSFORMER DEMAGNETIZATION SENSING INPUT SECONDARY (start) - V CC(Stop) ) 2.4 2.9 V I CC(start) Starting Current (V CC = 9V) 0.7 1.4 mA I CC signals gener- ated by the secondary located master circuit. A pulse transformer provides the feedback supply, often realized with a small but costly 50Hz transformer, is no longer necessary. The burst mode ) with the main power transformer. When used in a master/slave architecture, the TEA2260/61 TEA2260/61 and also
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1275-v1.htm
STMicroelectronics 25/05/2000 21.25 Kb HTM 1275-v1.htm
OSCILLATOR CAPACITOR SOFT-START CAPACITOR V V OUT GND GND C0 C1 R0 CC max. I C2 TRANSFORMER DEMAGNETIZATION ) ORDER CODE : TEA2262 TEA2262 . POSITIVE AND NEGATIVE OUTPUT CUR- RENT UP TO 1A . LOW START-UP CURRENT . 16 11 12 13 14 POSITIVE OUTPUT STAGE NEGATIVE OUTPUT STAGE V CC +1A (Max.) -1A (Max.) OUT 45 m A 10 m Hyst V CC Hysteresis (V CC(start) - V CC(Stop) ) 2.7 3.3 3.7 V I CC(start) Starting Current (V CC = 9V transformer provides the feedback (see Figure 1). - Conventional architecture with linear feedback signal
/datasheets/files/stmicroelectronics/books/ascii/docs/1276.htm
STMicroelectronics 25/05/2000 18.88 Kb HTM 1276.htm
detailed information. 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 IS IN GND GND E S C2 TRANSFORMER 9V) 0.7 1.4 mA I CC Supply Current (V CC = 12V) 7.5 15 mA V CC(max) Overvoltage Threshold on V CC 15 signals gener- ated by the secondary located master circuit. A pulse transformer provides the feedback , often realized with a small but costly 50Hz transformer, is no longer necessary. The burst mode the main power transformer. When used in a master/slave architecture, the TEA2260/61 TEA2260/61 and also the
/datasheets/files/stmicroelectronics/books/ascii/docs/1275.htm
STMicroelectronics 25/05/2000 22.46 Kb HTM 1275.htm
13K D8 9V R21 12K D97IN537 D97IN537 C18 1 m F R14 82 D6 D11 L4990A L4990A - + THERMISTOR D4 BYT11 BYT11 600 41T C5 secondary side of the transformer, and the er - ror signal is transferred to the primary controller via an down towards short circuit. A second auxiliary winding, on the secondary side transformer, forward for output constant power. Table A: System efficiency. Vin (Vac) Iout = 1A Iout = 2A, Pout = 36W Iout = 1A 80mV Load regulation Iout = 0.5 to 1.8A, Vin = 85V Vin = 264 V 10mV 10mV Maximum efficiency Vin
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4927.htm
STMicroelectronics 20/10/2000 10.57 Kb HTM 4927.htm
STP5NA80 STP5NA80 T1 D2 R4 20K D3 BYT11600 BYT11600 C13 2 x 470 m F R16 40m R19 13K D8 9V R21 controls are located on the secondary side of the transformer, and the er - ror signal is transferred to , on the secondary side transformer, forward coupled with the principal primary winding, has been : System efficiency. Vin (Vac) Iout = 1A Iout = 2A, Pout = 36W Iout = 1.8A, Pout = 25W Vout (V) h Vout Table B: System performance (Pout limited to 25W) Line regulation Vin = 85 to 264 Vac, Iout = 1A 80mV
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4927-v3.htm
STMicroelectronics 25/05/2000 10.04 Kb HTM 4927-v3.htm
20K D3 BYT11600 BYT11600 C13 2 x 470 m F R16 40m R19 13K D8 9V R21 12K D97IN537 D97IN537 C18 1 m F R14 82 D6 controls. The voltage and current controls are located on the secondary side of the transformer, and the er towards short circuit. A second auxiliary winding, on the secondary side transformer, forward coupled with power. Table A: System efficiency. Vin (Vac) Iout = 1A Iout = 2A, Pout = 36W Iout = 1.8A, Pout = 25W Vout : System performance (Pout limited to 25W) Line regulation Vin = 85 to 264 Vac, Iout = 1A 80mV Load
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4927-v1.htm
STMicroelectronics 02/04/1999 8.23 Kb HTM 4927-v1.htm