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241-6-120 Signal Transformer Inc Split Bobbin Power Transformer, 30VA
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transformer 15v 0.5A

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: outputs, the secondary windings of the transformer are isolated from the primary ones. Also a feedback , different assembly options. 2. CIRCUIT DESCRIPTION 2.1 ISOLATED FLYBACK +15V/200mA, +5V/ 500mA (VARIANT 1 , (regulated) Second Output Total Maximum Output power 90-264VAC 50/60Hz 5V/500mA 15V/200mA 5.5W , of the transformer through the internal MOSFET switch of the VIPer12AS during ON time of the , across the primary winding of the transformer due to the parasitic leakage inductance. It also slows STMicroelectronics
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AN2103 Resistor R0805 smd transistor t1A 125VDC to 24 VDC regulator circuit Resistor R1206 smd transistor t1A 59 smd transistor T1C
Abstract: oscillator period is shorter than the cycle time for transformer magnetization and complete demagnetization , 8 V 1.0 A Consequences for the transformer This output voltage values are obtained using four secondary windings of the transformer. Now, as a diode is located between the output capacitor and the , transformer primary inductor magnetization and demagnetization cycle must be shorter than the oscillator , transformer during one cycle is: E = -x L xtpk' 2 eqn 4 AN4001/D MOTOROLA 3 1 2 So, Pin (input power -
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MC44603 flyback transformer construction THOMSON B2 ferrite material MOSFET IRF 540 AS A SWITCH orega transformer SMT4 AN4001 Thomson capacitors lcc 80-140V 180-280V XM41-2447
Abstract: Regulated Unregulated Bench Top AC/DC Power Supplies Battery Charger 0 to 15V dc, 1A 0 to 30V dc, 0.5A Triple output; 4/6V dc, 12/15V dc, -12 /-15V dc Triple interconnectable; fixed floating , /DCRegulated Power Supplies 0 to 15V 1A 0 to 30V 0.5A 5V 200mA 5V 500mA 5V 3.0A 5V 6.0A 5V 9.0A , 12V 10A 12V 20A 12 to 15V 1.7A 12 to 15V 3.4A 12 to 15V 5.1A 12 to 15V 6.8A 12 to 15V 10.2A 15V 100mA 15V 300mA 15V 1.0A 15V 2.0A 24V 100mA 24V 200mA 24V 500mA 24V 1.0A 24V Calex Electronics
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BPS1000 BPS4000 transformer vde 0551 42024A convel 41242 41245 convel 12V, 20A automatic charger 42000H/J BPS1510 BPS3005 BPS5000
Abstract: Transformer Design Consideration for Off-Line Flyback Converters Using Fairchild Power Switch. Notes: 1 , Drain 1 + Threshold Quasi-Resonant (QR) Switching Controller - + fs 9V/15V - , Functional Description 1. Startup: Figure 4 shows the typical startup circuit and the transformer auxiliary , connected to the Vcc pin. When Vcc reaches the start voltage of 15V (VSTART), the FSCQ-Series begins , switching operation and the power required for the FSCQ-Series is supplied from the transformer auxiliary Fairchild Semiconductor
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CQ1465RT CQ1265RT CQ0765RT cq1565rt cq1265rt schematic diagram cq0765 CQ0765RT circuit diagram FSCQ0565RT FSCQ0765RT FSCQ0965RT FSCQ1265RT FSCQ1465RT FSCQ1565RT
Abstract: DB LECTRO Inc. TWIN-BOBBIN TRANSFORMER TWIN-BOBBIN TRANSFORMER TL66 Series · · · · · , Series TWIN-BOBBIN TRANSFORMER Secondary RMS Rating 6VA 12VA 48VA Input Voltage (V , C.T. @0.1A 30V C.T. @0.085A 5V @0.5A 6.3V @0.4A 8V @0.3A 10V @0.25A 12V @0.2A 15V @0.17A , 24V C.T. @0.25A 30V C.T. @0.2A 5V @1.2A 6.3V @0.9A 8V @0.7A 10V @0.6A 12V @0.5A 15V @0.4A , . @0.6A 24V C.T. @0.5A 30V C.T. @0.4A 5V @2.4A 6.3V @1.8A 8V @1.4A 10V @1.2A 12V @1A 15V @0.8A DB Lectro
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TL66-2F-10 TL66-2F-12 TL66-2F-16 TL66-2F-20 TL66-12F-10 transformer 28v 34v 230V -15V TRANSFORMER transformer 230v to 60v TL-66-48F-16 A 4714 8 PIN transformer 6VA 230V primary 1500V 50/60H UL506
Abstract: simplifies the transformer design and production. The VIPer12AS incorporates the PWM controller with 60 kHz , DESCRIPTION 2.1 NON ISOLATED FLYBACK +5V/500MA, +15V/200MA (VARIANT 1) 2.1.1 Operating Conditions Input , Maximum Output Power uc d (s) t 90-264 VAC 50/60 Hz 5V / 500mA 15V 200mA 5.5W 2.1.2 , voltage at C2 is then applied to the primary winding of the transformer through the internal MOSFET , and capacitor C6 reduces the voltage spike across the primary winding of the transformer due to the STMicroelectronics
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AN1934 vogt transformer 545 35 TRANSISTOR BC 545 smd vogt transformer 545 13 vogt 545 Nippon Chemi-Con KMG vogt transformer 545 23
Abstract: 3kHz. IGBT Functional block diagram of pulse transformer type IGBT drive circuit 15V 5V , Protective Function M57174BL06B Isolation by M57174AL06B M57174L03 Transformer M57174L 03 Unit , , gate voltage of IGBT should be applied 15V, and when IGBT is turnOFF, gate voltage should be applied , circuit made hybrid IC compatible is our IGBT driver. IGBT driver (Hybrid IC) Vcc=+15V RG , type) GAU205S15252 GAU212P15255 -5- IGBT IGBT / IGBT driver IGBT/ Pulse transformer type Isahaya Electronics
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vla531 inverter welding machine circuit board ups manufacturing transformer diagram 300w 24v dc motor speed controller inverter 12v 220v with igbt 180v dc motor drive circuit diagram
Abstract: DATA SHEET FOR TRANSFORMER # 711.152 Made for STANDARD page 1 of 1 , ORANGE S#22/8" 117V BLACK BROWN RED 0V UO = 17.5V RMS 15V RMS / 3.00A RMS M#19/8" ORANGE YELLOW 0V UO = 17.5V RMS 15V RMS / 3.00A RMS M#19/8" M , OTHER SPECIFICATIONS: Transformer is UL recognized to UL 1411 and CSA certified to CSA C22.2 No. 66. - Label: SPEC DATE: 10/16/96 (LOGO) BY: Transformer # 711.152 (200902) Prim -
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117/234V
Abstract: Application Note Installation and set up instruction ­ H Series * Important Note Before connecting AC power to the H Series, please verify that the power transformer is correctly terminated as , the primary of the main power transformer. One or two jumpers will also needed on that transformer , 15V 24V Dual +/-12V Dual +/-15V Suggested Trip Point 6.2 +/-0.4V 14V 17V 27V 27V 33V , automatic recovery 5V models 45%, 12/15V models 55%, 24V models 60% All single output models, HDC12 & LAMBDA
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transformer 110v to 34v hdc15 HSC-5-6-OVP HSD-28 OVP12 100/120/220/230/240VAC VDE0871 12/15V HDC15 UL1950
Abstract: , please verify that the power transformer is correctly terminated as detailed section 6. Failure to do so , main power transformer. One or two jumpers will also needed on that transformer. Connect the AC Line & , continuous. The recommended trigger voltages are Nominal Output Voltage 5V 12V 15V 24V Dual +/-12V Dual +/-15V Suggested Trip Point 6.2 +/-0.4V 14V 17V 27V 27V 33V The above table indicates , models 45%, 12/15V models 55%, 24V models 60% All single output models, HDC12 & HDC15 and channel 1 on LAMBDA
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230v to 12v 5A transformer 50hz HSC24-2 LAMBDA OVP-12 transformer from 230V AC to 15V CSA950 EN60950 3750VAC 500VAC
Abstract: wide-voltage-range EP13 transformer PoE input voltage range: 38 to 60V FAUX input voltage range: 24 to 60V RAUX input voltage range: 16 to 60V With the optional, efficiency-optimized EP13 transformer PoE input , Measured maximum efficiency: With the installed wide-voltage-range EP13 transformer DC to DC converter , , efficiency-optimized EP13 transformer DC to DC converter efficiency: 84% at 3A Overall efficiency (including diode , devices like the power transformer and power switch MOSFET, which do not support higher power levels. It National Semiconductor
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LM5072 AN-1455 CRCW12060R301F DCT13EP-U12S005 transformer bobbin EP13 transformer bobbin PS2801-1L CSP-9-111C2 CSP-9-111S2
Abstract: ,Compact,and Lightweight 15.7MAX. AC/DC conveter 4±1.0 Transformer+3terminal regulator , . Transformer-free,Power Saving on Stand-by "1/2" AC/DC conveter (BP5034D12) EI28size Transformer 2.1kWh per year Transformer AC/DC conveter Power Power consumption consumption part No. Estimated is , per year 10.2kWh per year EI52 size transformer AC100â'12V, 0.5A BP5035 kWh per year 8.3kWh per year EI28 size transformer AC100â'12V, 0.1A 8.2kWh per year 4.1kWh per year ROHM
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AC Transformer 12V 25MAX BP5062 BP5061 100VAC 12VDC BP5081A15
Abstract: of pulse transformer type IGBT driver 15V Control signal input Abnormal stop signal input , d When the IGBT is turn-ON, gate voltage of IGBT should be applied 15V, and when the IGBT is , hybrid IC. Vcc=+15V IGBT module IGBT driver (Hybrid IC) Opto-coupler Amplifier RG ON/OFF , needed the two way power supply system for drivers and input signal. (VD=15V, VIN=5V) VLA536 , -01R VLA504-01R VLA531-01R Power Supply ( ) (V) VCC +15V VEE ­10V VCC +15V VEE ­10V VCC +15V VEE Isahaya Electronics
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CIRCUIT diagram welding inverter inverter new welding machine circuit welding rectifier circuit board IGBT inverter 12v 220v mitsubishi elevator circuit diagram IGBT gate driver welding VLA303-01 VLA606-01R AC440V VLA106-15151 VLA106-24151 VLA106-15154
Abstract: = 0.33 NS VOUT 15V The turns ratio of the transformer chosen is as follows NPRIMARY: NSECONDARY , Mode Operation No Transformer Third Winding or Opto-Isolator Required for Regulation Improved , . Two external resistors and the transformer turns ratio easily set the output voltage. Off-the-shelf , (Pin 14): Input Pin for External Feedback Resistor. This pin is connected to the transformer primary , , determines the output voltage (plus the effect of any non-unity transformer turns ratio). For nonisolated Linear Technology
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T 3512 H diode TMK316AB7106KL-T DIODE 6 AMP 150V diode T 3512 H t023 10396 Sumida LT3512 QFN-36 LT3956 LT3575 TSSOP-16E LT3573
Abstract: -24 Sequencing/Tracking Easy Compensation. MIC23050 2.7V to 5.5V 1.2V, 1.5V, 1.8V, 2.5V 0.5A 4MHz , ) MIC33050 New! 2.7V to 5.5V 1.2V, 1.5V, 1.8V, 2.5V 0.5A 4MHz MLF-12 (3x3mm) 4MHz Operation with Internal Chip Inductor. MIC3385 Adj., 1.5V 0.6A 8MHz MLF-14 (3x3.5mm) 8MHz , Regulators (Internal Switches + Internal Inductor) MIC2238 New! 2.5V to 5.5V 1.2/1.8V, 1.2/1.5V, 1.2/2.5V, 1.2/3.3V, 800/800mA 1.0/1.5V, 1.0/1.8V, 1.0/2.5V, Adj./Adj. 2.5MHz MLF-12 (3x3mm) POR/PG Pin -
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MIC2207 MIC2208 MIC4680 MIC4681 MIC4686 MIC2295 MIC23250 mic38c45a LM2576 10A led lm2576 MIC4721 MSOP-10 MIC4722 MIC4723
Abstract: power. Two external resistors and the transformer turns ratio easily set the output voltage , Operation No Transformer Third Winding or Opto-Isolator Required for Regulation n Improved Primary-Side , (Pin 14): Input Pin for External Feedback Resistor. This pin is connected to the transformer primary , , determines the output voltage (plus the effect of any non-unity transformer turns ratio). For nonisolated , communicate information regarding the output voltage from the isolated secondary side of the transformer to Linear Technology
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750311692 buck boost transformer 120v to 12v 4.5V TO 100V INPUT REGULATOR 48V to 12V buck boost transformer Flyback transformer design and ratings Nippon capacitors A/150V MSOP-16 MSOP-16E DFN-10 MSOP-10E LTC1871/LTC1871-1/
Abstract: Boundary Mode Operation No Transformer Third Winding or Opto-Isolator Required for Regulation Improved , . Two external resistors and the transformer turns ratio easily set the output voltage. Off-the-shelf , External Feedback Resistor. This pin is connected to the transformer primary (VSW). The ratio of this , the effect of any non-unity transformer turns ratio). For nonisolated applications, this pin should , information regarding the output voltage from the isolated secondary side of the transformer to the primary Linear Technology
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LT3574 LT3757 LT3758 LTC1871-7
Abstract: INTRODUCTION 5V, 0.5A Buck Regulator Operates From 15V The converter design shows how simple it is to derive a TTL supply from a system supply of 15V (see Figure 1). The NE5561 drives a 2N4920 PNP transistor , operating from a 15V line. The addition of three transistors and one diode is necessary to complete the , the primary of T1, base drive transformer, with a pulse-width modulated signal causing Q2 (BU407) to , snubbers (ceramic or dura mica caps and carbon resistors). The base drive transformer is constructed using -
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12v DC SERVO MOTOR CONTROL circuit 2A DC tachometer DC MOTOR DRIVE USING BUCK CONVERTER 2n4920 audio amplifier NE556-1 motor 6 v AN123
Abstract: with 5V. (Optional) Example: NTHIRD VTHIRD 5V = = = 0.33 NS VOUT 15V The turns ratio of the transformer , isolated output power. Two external resistors and the transformer turns ratio easily set the output voltage , Operation No Transformer Third Winding or Opto-Isolator Required for Regulation Improved Primary-Side , ): Input Pin for External Feedback Resistor. This pin is connected to the transformer primary (VSW). The , voltage (plus the effect of any non-unity transformer turns ratio). For nonisolated applications, this pin Linear Technology
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10396-T023 TMK316AB7106K 01355-T061 10396-T025 MMS2527 MMSZ5266BT16
Abstract: transformer and a few components on the board, as shown in the application note. Transformers are readily , . 5V @ 1.2A 12V @ 0.5A 15V @ 0.4A 24V @ 0.25A. February 2006 For further information contact , 8-10) of the transformer, TR1. C1, L1, and C2 provide EMI filtering for the circuit. R2 and C3 form , configuration made up of L4 and C8. It is possible to modify the output voltages by changing the transformer STMicroelectronics
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STEVAL-ISA002V1 viper12a 12v 5V ViPer12A flyback 230vac to primary 12v transformer VIPer12A applications VIPer12A viper12a application note EN55022
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