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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT3439EFE#TRPBF Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE#PBF Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE#TR Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LTC4400-2EMS8 Linear Technology LTC4400 - RF Power Controllers with 450kHz Loop BW and 45dB Dynamic Range; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C
LTC4403-1EMS8 Linear Technology LTC4403 - Multiband RF Power Controllers for EDGE/TDMA; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C

0-9V 1A Transformer specification Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2004 - 0-9V 1A Transformer specification

Abstract: transformer 0-12v 0-18v transformer toroidal transformer 8000 18v transformer 1a 0-18V 0-15V 0-12V Transformer 42 v EN60742 toroidal transformer
Text: transformer via the external frame work. This would constitute a shorted turn and would cause irreparable damage. Specification Table Specification Load (VA) Part Number 0-6V, 0-6V @ 1.25A , , 0-6V @ 2.5A MCFE030/06 0-9V, 0-9V @ 1.67A MCFE030/09 0-15V, 0-15V @ 1A 30 MCFE030/15 , @ 1.39A MCFE050/18 0-25V, 0-25V @ 1A MCFE050/25 0-9V, 0-9V @ 4.44A MCFE080/09 , Specification Table Specification Load (VA) 0-12V, 0-12V @ 5A 0-15V, 0-15V @ 4A 0-18V, 0-18V @ 3.33A


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PDF 50/60Hz, EN60742s 0-9V 1A Transformer specification transformer 0-12v 0-18v transformer toroidal transformer 8000 18v transformer 1a 0-18V 0-15V 0-12V Transformer 42 v EN60742 toroidal transformer
0-9v 500ma transformer

Abstract: EI30 transformer transformer 230v ac SIM300 RoHS 230v to 6v step down transformer BABT CR 0090 transformers 321 464 SIM300 step down transformer 6-0-6 200mA Fuse 187mA 250v
Text: off load voltage 223882 35 Transformers Transformer Connections, Twin Primary RATING (VA) Style , 333mA 278mA 208mA 18VA - 115V & 115V Primary - UI 39 2 x 6V 2 x 1.5A 45049 2 x 9V 2 x 1A 45050 2 x 12V , & 115V Primary - UI 39 2 x 6V 2 x 2A 45055 2 x 9V 2 x 12V 2 x 15V 2 x 18V 2 x 24V 2 x 1.333A 2 x 1A , 2.5A 45061 2 x 9V 2 x 1.667A 45062 2 x 12V 2 x 1.25A 45063 2 x 15V 2 x 18V 2 x 24V 2 x 1A 2 x 833mA 2 x , 2.5A 2 x 9V 2 x 1.667A 2 x 12V 2 x 1.25A 2 x 15V 2 x 18V 2 x 24V 2 x 1A 2 x 833mA 2 x 625mA PCB


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PDF element-14 0-9v 500ma transformer EI30 transformer transformer 230v ac SIM300 RoHS 230v to 6v step down transformer BABT CR 0090 transformers 321 464 SIM300 step down transformer 6-0-6 200mA Fuse 187mA 250v
2004 - transformer from 230V AC to 15V

Abstract: 230V AC primary to 0-12V, A secondary transformer 230v aC PLC transformer 0-12v transformer from 230V AC to 18V transformer 230v to 35v 0-15V 0-15v transformer 027252 ti0273
Text: formed through the bolt in the centre of the transformer via the external framework. This would , ac Toroidal Single Primary Transformers Part Numbers Specification Load (VA) Part Number , -027245 0-9V, 0-9V @ 1.67A TI-027246 0-12V, 0-12V @ 1.25A 0-15V, 0-15V @ 1A 30 TI-027247 TI , TI-027254 0-18V, 0-18V @ 1.39A TI-027255 0-25V, 0-25V @ 1A TI-027256 0-55V, 0-55V @ , Part Numbers Specification Load (VA) Part Number 0-12V, 0-12V @ 6.67A TI-027269 0-15V


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PDF 50/60Hz, EN60742, EN60065 EN60950. transformer from 230V AC to 15V 230V AC primary to 0-12V, A secondary transformer 230v aC PLC transformer 0-12v transformer from 230V AC to 18V transformer 230v to 35v 0-15V 0-15v transformer 027252 ti0273
2004 - 0-18v transformer

Abstract: transformer 0-12v 0-15v transformer toroidal transformer 8000 TI-027351 0-18V ti0273 0-9V 1A Transformer specification Transformer EN60742 TI-027344
Text: transformer via the external frame work. This would constitute a shorted turn and would cause irreparable damage. Part Numbers Specification Load (VA) Part Number 0-6V, 0-6V @ 1.25A TI , -027326 0-9V, 0-9V @ 1.67A TI-027327 0-12V, 0-12V @ 1.25A 0-15V, 0-15V @ 1A 30 TI-027328 TI , -027335 0-18V, 0-18V @ 1.39A TI-027336 0-25V, 0-25V @ 1A TI-027337 0-9V, 0-9V @ 4.44A TI , (Encapsulated) Single Primary - Toroidal Transformers Part Numbers Specification Load (VA) 0-12V, 0-12V


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PDF 50/60Hz, EN60742s 0-18v transformer transformer 0-12v 0-15v transformer toroidal transformer 8000 TI-027351 0-18V ti0273 0-9V 1A Transformer specification Transformer EN60742 TI-027344
2004 - 230V AC primary to 0-12V, A secondary transformer

Abstract: transformer from 230V AC to 15V transformer 230v ac 12v-0-12v transformer 0-12v TA060 transformer from 230V AC to 18V 69-206 TA050-18 toroidal transformer TOROIDAL transformer specification
Text: -027280 16 AWG 18 AWG 20 AWG Specification Table VA 15 30 Regulation % typical Temperature , in the centre of the transformer via the external framework. This would constitute a shorted turn , TA030/12 0-15V, 0-15V @ 1A TA030/15 0-18V, 0-18V @ 0.83A TA030/18 0-25V, 0-25V @ 0.6A , TA050/12 0-15V, 0-15V @ 1.67A TA050/15 0-18V, 0-18V @ 1.39A TA050/18 0-25V, 0-25V @ 1A , 0.83A 30 Part Number 0-6V, 0-6V @ 1.25A 15 Specification TA120/55 0-12V, 0-12V @


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PDF 15V/230V 50/60Hz EN60742, EN60065 EN60s 230V AC primary to 0-12V, A secondary transformer transformer from 230V AC to 15V transformer 230v ac 12v-0-12v transformer 0-12v TA060 transformer from 230V AC to 18V 69-206 TA050-18 toroidal transformer TOROIDAL transformer specification
2004 - transformer 230v to 35v

Abstract: transformer from 230V AC to 15V General Purpose Toroidal Transformer transformer from 230V AC to 18V 230V AC primary to 0-12V, A secondary transformer toroidal transformer TOROIDAL transformer specification MCTA120/25 transformers electronics 0-12V
Text: Transformers 115V/230V ac Specification Table VA 15 30 Regulation % typical Temperature rise (°C , in the centre of the transformer via the external framework. This would constitute a shorted turn , Transformers 115V/230V ac Part Numbers Load (VA) MCTA015/18 MCTA030/06 MCTA030/12 0-15V, 0-15V @ 1A , , 0-15V @ 1.67A MCTA050/15 0-18V, 0-18V @ 1.39A MCTA050/18 0-25V, 0-25V @ 1A MCTA050/25 , Specification MCTA120/55 0-12V, 0-12V @ 6.67A MCTA160/12 0-15V, 0-15V @ 5.33A MCTA160/15 Page


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PDF 15V/230V 50/60Hz EN60742, EN60065 EN60s transformer 230v to 35v transformer from 230V AC to 15V General Purpose Toroidal Transformer transformer from 230V AC to 18V 230V AC primary to 0-12V, A secondary transformer toroidal transformer TOROIDAL transformer specification MCTA120/25 transformers electronics 0-12V
0119 Solar Lamp Controller

Abstract: transistor SMD W06 78 TYN225 WH1602A NXP Semiconductors 70150 iskra BT 200 ULN2804A 74HC00M WH1602B-YYH epcos 336 20v
Text: Capacitors 24 Technical specification Dielectric Tolerance Temperature coefficient Dissipation , contact us with your requirements. Technical specification Tolerance 1.0 - 4.7pF 6.8pF 10pF - 3n3 , suitable storage container Technical specification 21x 10pF, 100pF, 1nF, 10nF, 100nF 14x 22pF, 47pF , specification Working Voltage Temperature Coefficient Insulation Resistance Operating Temperature Range , 12.77 11.70 30.12 35.86 27.97 Technical specification Tolerance Dielectric Pitch Case size


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PDF pp751-856 127mm 525mm 1550kHz 280kHz 2000m) 100mm 0119 Solar Lamp Controller transistor SMD W06 78 TYN225 WH1602A NXP Semiconductors 70150 iskra BT 200 ULN2804A 74HC00M WH1602B-YYH epcos 336 20v
2007 - IN4007 diode detail theory information

Abstract: No abstract text available
Text: come out of the transformer as: (10.15) 13 × 0.264V × 87% = 1.5W 2 × 1A ' 2 2 à , response. The built-in power limit function enables optimized transformer design in universal off-line , specification , the information about the output voltage and load current needs to be accurately sensed. In the , OUTMAX (9.6) N is the ratio of primary turns to secondary turns of the transformer and KC is , detected on VSENSE after 20 pulses, it is assumed that the auxiliary winding of the transformer is either


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PDF iW1692 IN4007 diode detail theory information
2007 - IN4007 diode detail theory information

Abstract: iw1692 IN4007 diode forward bias resistance IN4007 diode forward reverse bias IN4007 ILG-0005 specification chart of in4007 AE SOT23 0.9v iwatt marking FR102
Text: the transformer as: PXFMR _ MAX = 5.5V × 1A = 6.332W 87% Substituting this into equation , built-in power limit function enables optimized transformer design in universal off-line applications and , specification , the information about the output voltage and load current needs to be accurately sensed. In the , to secondary turns of the transformer and KC is given as 0.264 V. 9.5 Constant Voltage Operation , assumed that the auxiliary winding of the transformer is either open or shorted and the iW1692 shuts down


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PDF iW1692 iW1692 IN4007 diode detail theory information IN4007 diode forward bias resistance IN4007 diode forward reverse bias IN4007 ILG-0005 specification chart of in4007 AE SOT23 0.9v iwatt marking FR102
2012 - IN4007 diode detail theory information

Abstract: specification chart of in4007 IN4007 diode forward reverse bias iw16 702 SOT-23 11turns IN4007 IW1692 Diode IN4007 M CC VFD DRIVER TRANSFORMER
Text: out of the transformer as: 5.5V × 1A = 6.332W 87% ( 750V ms )2 × 40kHz = 1.78mH 2 × 6.322W , dynamic load response. The built-in power limit function enables optimized transformer design in universal , to regulate the output voltage within a tight specification , the information about the output voltage , transformer and KC is given as 0.264 V. 9.5 Constant Voltage Operation After soft-start is completed , after 20 pulses, it is assumed that the auxiliary winding of the transformer is either open or shorted


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PDF iW1692 IN4007 diode detail theory information specification chart of in4007 IN4007 diode forward reverse bias iw16 702 SOT-23 11turns IN4007 IW1692 Diode IN4007 M CC VFD DRIVER TRANSFORMER
2007 - in 4008 diode

Abstract: IN4007 diode detail theory information mk4008 MK-4008-B iwatt marking IN4007 diode forward reverse bias 505 transistor DIODE 4008 ic 4008 ILG-005
Text: built-in power limit function enables optimized transformer design in universal off-line applications and , Flyback Converter In order to regulate the output voltage within a tight specification , the , the transformer and KC is given as 0.264 V. 9.5 Constant Voltage Operation VAUX After , auxiliary winding of the transformer is either open or shorted and the iW1692 shuts down. Figure 9.3.2 , Efficiency Determine Cable Drop Compensation Table 10.1 iW1692 Design Specification Table 10.2 Cable


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PDF iW1692 iW1692 MK-4008-B in 4008 diode IN4007 diode detail theory information mk4008 MK-4008-B iwatt marking IN4007 diode forward reverse bias 505 transistor DIODE 4008 ic 4008 ILG-005
2000 - 500 watt inverter 6v dc to 220 ac

Abstract: panasonic inverter manual SOD123 F03 panasonic inverter manual THREE PHASE isolated sepic converter LT1613 panasonic frequency inverter manual LT1613CS5 sumida inverter LT1611CS5
Text: and GND terminals. A benchtop supply with a 1A current limit is a good choice for this source. The , , load, ammeters and voltmeters. IIN DC233 A IOUT VIN A BENCH SUPPLY 1V TO 6V/ 1A , between the VIN and GND terminals of the DC233, using a benchtop supply with a 1A current limit. Because , specification in the LT1613 data sheet. A typical LT1613 will deliver more current. As load current is , of inductors or a 1:1 transformer . Figure 4 shows the transformer arrangement. The DC233 layout


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PDF DC233 OT-23 LT1611/LT1613 OT-23 LT1613 OT-23, DC233 LT1613CS5 200mA SR1020 500 watt inverter 6v dc to 220 ac panasonic inverter manual SOD123 F03 panasonic inverter manual THREE PHASE isolated sepic converter panasonic frequency inverter manual sumida inverter LT1611CS5
2000 - panasonic inverter manual

Abstract: LQH3C100K24 LT1611CS5 Transformer sepic LT1611 LT1613 LT1613CS5 TA03 SOD123 F03 L7 diode
Text: and GND terminals. A benchtop supply with a 1A current limit is a good choice for this source. The , , load, ammeters and voltmeters. IIN DC233 A IOUT VIN A BENCH SUPPLY 1V TO 6V/ 1A , between the VIN and GND terminals of the DC233, using a benchtop supply with a 1A current limit. Because , specification in the LT1613 data sheet. A typical LT1613 will deliver more current. As load current is , of inductors or a 1:1 transformer . Figure 4 shows the transformer arrangement. The DC233 layout


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PDF DC233 OT-23 LT1611/LT1613 OT-23 LT1613 OT-23, DC233 LT1613CS5 200mA panasonic inverter manual LQH3C100K24 LT1611CS5 Transformer sepic LT1611 TA03 SOD123 F03 L7 diode
2009 - Power Transformer 19v 3.42a

Abstract: "Application Note" and FAN6753 FAN6753 AN-6753 ic power YC2 regulator CCM Flyback power mosfet 600v 29a
Text: drawn from the auxiliary winding of the main transformer , as shown in Figure 4. For higher 6KV surge , 9.5V 15.5V VDD Figure 6. UVLO Specification The turn-on and turn-off thresholds are , auxiliary winding of the main transformer . The VDD must not drop below 9.5V during startup. If the , . Startup Circuit for Power Transfer When the supply current is drawn from the transformer , it draws a , -LC( Typ.) × RHV 2 (1) where IHV-LC is the supply current drawn from HV pin. PRHV = 1A 2 ×


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PDF AN-6753 FAN6753 22KHz 65KHz Power Transformer 19v 3.42a "Application Note" and FAN6753 AN-6753 ic power YC2 regulator CCM Flyback power mosfet 600v 29a
2013 - flyback snubber

Abstract: No abstract text available
Text: Transformer TRIAC TRIode for Alternating Current, which is an electronic component that can conduct , resistance Flyback transformer primary inductance TRIAC holding current Flyback transformer turns ratio NP , flyback transformer or buck-boost inductor, respectively. Figure 1 illustrates the dual-mode flyback , dual-mode buck-boost is simulated using a transformer with a turns ratio of one. Demagnetization time of the transformer /inductor is sensed by the FBAUX pin using an auxiliary winding and is used as an input to the


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PDF AN375 CS1615 CS1616 CS1615/16 CS1615/16 120VAC flyback snubber
2005 - CQ1265RT

Abstract: CQ0765RT cq1565rt cq1265rt schematic diagram cq0765 CQ0765RT circuit diagram CQ0765R cq0965rt cq0565rt cq1265
Text: Transformer Design Consideration for Off-Line Flyback Converters Using Fairchild Power Switch. Notes: 1 , 650V,VGS = 0V - - 250 A FSCQ0565RT VGS = 10V, ID = 1A - 1.76 2.2 FSCQ0765RT VGS = 10V, ID = 1A - 1.4 1.6 FSCQ0965RT VGS = 10V, ID = 1A - 1.0 1.2 RDS(ON) FSCQ1265RT VGS = 10V, ID = 1A - 0.75 0.9 FSCQ1465RT VGS = 10V, ID = 1A - 0.7 0.8 FSCQ1565RT VGS = 10V, ID = 1A - 0.53 0.7


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PDF FSCQ0565RT FSCQ0765RT FSCQ0965RT FSCQ1265RT FSCQ1465RT FSCQ1565RT FSCQ1565RP 230VAC CQ1265RT CQ0765RT cq1565rt cq1265rt schematic diagram cq0765 CQ0765RT circuit diagram CQ0765R cq0965rt cq0565rt cq1265
Not Available

Abstract: No abstract text available
Text: – 551fl4fcifl D007524 37A * L T C LT1082 1A High Voftage High Efficiency Switching Voltage Regulator , 100V ■Low Quiescent Current 4.5mA ■Internal 1A Switch ■Shutdown Mode Draws Only 130nA , for optocouplers or extra transformer windings. ■Telecom 5V Supply @ 0.8A from -48V (-10V -70V) ■90V Supply @ 120mA from 15V ■All Applications using LT1072 (See Below for Specification Differences) LT1082 and LT1072 Major Specification Differences V|N VsW ITCH Switch Current Limit


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PDF 551fl4fcifl D007524 LT1082 130nA T0-220 LT1072 LT1082 G00722?
1999 - 24v dc power supply with uc3842

Abstract: unitrode Applications Note U-96A UC3842 note buck converter non isolated 24v to 12v dc power supply with uc3842 uc3842 dc/dc converter 24v application circuits U-96A UCC3804 application UC3842 application 24V boost uc3842 application note uc3842 unitrode 100 watt
Text: biases this up by approximately 700 mV to mate with the 0.9V minimum specification of the current limit , spaced by the time required to fully charge the soft start capacitor. Low leakage transformer designs , 250kHz F(SWITCHING) = 250kHz POUT 3W 6W D1 1A /40V 1N5819 3A/40V 1N5822 12uH , 200uF 500uF 0.2 0.1 0.066 Q1* IRLZ14 3A/40V 1N5822 Rcs(ohm) 0.033 1A /40V , than the boost converter due to the high side switch. A transformer coupled gate drive is typically


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PDF U-133A UC3842 24v dc power supply with uc3842 unitrode Applications Note U-96A UC3842 note buck converter non isolated 24v to 12v dc power supply with uc3842 uc3842 dc/dc converter 24v application circuits U-96A UCC3804 application UC3842 application 24V boost uc3842 application note uc3842 unitrode 100 watt
2004 - 0-12V

Abstract: 0-15V 0-18V centre tapped Transformer transformer 0-12v TI-027209
Text: framework so that an electrical path is formed through the bolt in the centre of the transformer via the , . Specification Table Specification Load (VA) Part Number 0-7V, 0-7V @ 0.114A TI-027200 0-9V, 0-9V


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PDF 50/60Hz, 0-12V 0-15V 0-18V centre tapped Transformer transformer 0-12v TI-027209
1997 - Royer oscillator circuit diagram

Abstract: Royer oscillator 3172 8PIN CTX110602 12V 1A Transformer specification 1N5822 MIC2172 MIC2172BN MIC3172BM MIC3172BN
Text: ISW = 1A , VFB = 0.8V Current Limit Duty Cycle = 50%, TJ 25°C Duty Cycle = 50%, TJ < 25°C Duty , Current Increase (IIN) ISW = 1A , VCOMP = 1.5V 9 20 mA Bold type denotes specifications , is given by ICL = 0.833 (2-) for the MIC3172. Note 3 Specification for packaged product only , ISW = 1A , VFB = 0.8V Current Limit Duty Cycle = 50%, TJ 25°C Duty Cycle = 50%, TJ < 25°C Duty , Current Increase (IIN) ISW = 1A , VCOMP = 1.5V Enable Input Threshold Enable Input Current VEN =


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PDF MIC2172/3172 100kHz MIC2172 135kHz MIC3172 MIC3172 Royer oscillator circuit diagram Royer oscillator 3172 8PIN CTX110602 12V 1A Transformer specification 1N5822 MIC2172BN MIC3172BM MIC3172BN
1997 - Royer oscillator

Abstract: transformer 120v to 12v 5v for lighting MIC3172BN CTX3 Royer oscillator circuit diagram MIC3172YM MIC3172 CTX110602 Royer converter ctx300-4p
Text: Resistance ISW = 1A , VFB = 0.8V Current Limit Duty Cycle = 50%, TJ 25°C Duty Cycle = 50%, TJ < 25 , 7 9 mA Supply Current Increase (IIN) ISW = 1A , VCOMP = 1.5V 9 20 mA Bold , %, minimum guaranteed switch current is given by ICL = 0.833 (2-) for the MIC3172. Note 3 Specification , Section ON Resistance ISW = 1A , VFB = 0.8V Current Limit Duty Cycle = 50%, TJ 25°C Duty Cycle , , ISW = 0 Shutdown, VEN = 0V Quiescent Current Increase (IIN) ISW = 1A , VCOMP = 1.5V Enable


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PDF MIC2172/3172 100kHz MIC2172 135kHz MIC3172 MIC3172 Royer oscillator transformer 120v to 12v 5v for lighting MIC3172BN CTX3 Royer oscillator circuit diagram MIC3172YM CTX110602 Royer converter ctx300-4p
2004 - 0-12V

Abstract: 0-15V 0-18V 0278A toroidal transformer 8000
Text: formed through the bolt in the centre of the transformer via the external framework. This would constitute a shorted turn and would cause irreparable damage. Specification Table Specification Load


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PDF 50/60Hz, EN60742, EN60065 0-12V 0-15V 0-18V 0278A toroidal transformer 8000
1997 - UC3842 note buck converter non isolated

Abstract: uc3842 unitrode 100 watt U-96A boost uc3842 application note UC3842 application 24V UCC3801 schematic unitrode Applications Note U-96A ucc3804 24v dc power supply with uc3842 buck uc3842 application note
Text: biases this up by approximately 700 mV to mate with the 0.9V minimum specification of the current limit , spaced by the time required to fully charge the soft start capacitor. Low leakage transformer designs , 250kHz F(SWITCHING) = 250kHz POUT 3W 6W D1 1A /40V 1N5819 3A/40V 1N5822 12uH , 200uF 500uF 0.2 0.1 0.066 Q1* IRLZ14 3A/40V 1N5822 Rcs(ohm) 0.033 1A /40V , than the boost converter due to the high side switch. A transformer coupled gate drive is typically


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PDF U-133A UC3842 hU-97 DN-42 UCC3802 UC3842 note buck converter non isolated uc3842 unitrode 100 watt U-96A boost uc3842 application note UC3842 application 24V UCC3801 schematic unitrode Applications Note U-96A ucc3804 24v dc power supply with uc3842 buck uc3842 application note
1997 - 3172 8PIN

Abstract: MIC3172
Text: VCOMP 1.4V VCOMP = 1.5V High Clamp, VFB = 1V Low Clamp, VFB = 1.5V Duty Cycle = 0 ISW = 1A , VFB = , 40V, VCOMP = 0.6V, ISW = 0 ISW = 1A , VCOMP = 1.5V 7 9 3.0 9 20 V mA mA Bold type denotes , ICL = 0.833 (2-) for the MIC3172. Specification for packaged product only. Absolute Maximum Ratings , Current Output Swing Compensation Pin Threshold Output Switch Section ON Resistance Current Limit ISW = 1A , Enable Input Current VEN = 0V VEN = 2.4V 3V VIN 40V, VCOMP = 0.6V, ISW = 0 Shutdown, VEN = 0V ISW = 1A


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PDF MIC2172/3172 100kHz MIC2172 MIC3172 MIC2172/3172 3172 8PIN
q012b

Abstract: an8026 V01N BT320 ta 6932 IAN8026 flowing AN8026 0012-BB SIP009-P-0000 power transformer calculation
Text: peak current: ± 1A max.) • Small pre-start operating current (80/¿A typ.) allows the start , transformer and the supply voltage Is given from the bias winding to the IC (Refer to Point a in Fig. 1). , the transformer starts resonance operation and the drive winding voltage gets lower. The constants of , as follows : fSYNC= 1 _ [jjz] C : Resonance capacitance L : Transformer primary side inductance 2 , transformer used should be taken into the calculation. The tdp (ON) should be regulated with the C9. tpd


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PDF AN8026 AN8026 3E05E IAN8026 b135655 DO12b73 q012b V01N BT320 ta 6932 flowing AN8026 0012-BB SIP009-P-0000 power transformer calculation
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