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HS1-82C85RH-Q Intersil Corporation 15MHz, PROC SPECIFIC CLOCK GENERATOR, CDIP24 visit Intersil
HS9-82C85RH-8 Intersil Corporation 15MHz, PROC SPECIFIC CLOCK GENERATOR, CDFP24, CERAMIC, DFP-24 visit Intersil
HS9-82C85RH-Q Intersil Corporation 15MHz, PROC SPECIFIC CLOCK GENERATOR, CDFP24, CERAMIC, DFP-24 visit Intersil
MD82C84A/B Intersil Corporation 8MHz, PROC SPECIFIC CLOCK GENERATOR, CDIP18, CERAMIC, DIP-18 visit Intersil
HS1-82C85RH-8 Intersil Corporation 15MHz, PROC SPECIFIC CLOCK GENERATOR, CDIP24, SIDE BRAZED, CERAMIC, DIP-24 visit Intersil
CP82C84AZ Intersil Corporation 8MHz, PROC SPECIFIC CLOCK GENERATOR, PDIP18, ROHS COMPLIANT, PLASTIC, DIP-18 visit Intersil

0-9V 1A Transformer specification

Catalog Datasheet MFG & Type PDF Document Tags

0-9V 1A Transformer specification

Abstract: transformer 0-12v 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
Multicomp
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0-9V 1A Transformer specification transformer 0-12v 0-18v transformer toroidal transformer 8000 18v transformer 1a 0-12V 50/60H EN60742 EN60065 EN60950

transformer from 230V AC to 15V

Abstract: 230V AC primary to 0-12V, A secondary transformer 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
Multicomp
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transformer from 230V AC to 15V 230V AC primary to 0-12V, A secondary transformer 230v aC PLC 027252 0-15V 230v ac to 12v dc without transformer

0-18v transformer

Abstract: transformer 0-12v 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
Multicomp
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0-15v transformer TI-027351 TI-027320 0-18V Transformer EN60742 TI-027335

230V AC primary to 0-12V, A secondary transformer

Abstract: transformer from 230V AC to 15V -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 @
Multicomp
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transformer 230v ac 12v-0-12v TA060 69-206 transformer from 230V AC to 18V TI-69125 TA050-18

transformer 230v to 35v

Abstract: General Purpose Toroidal Transformer 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
Multicomp
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transformer 230v to 35v General Purpose Toroidal Transformer TOROIDAL transformer specification toroidal transformer MCTA120/25 230v to 12v 5A transformer 50hz

0119 Solar Lamp Controller

Abstract: transistor SMD W06 78 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
Rapid Electronics Catalog
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0119 Solar Lamp Controller transistor SMD W06 78 NXP Semiconductors 70150 TYN225 WH1602A IRF9520 Samsung 512MB A000066 20-60VA

IN4007 diode detail theory information

Abstract: 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
iWatt
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IN4007 diode detail theory information W1692

IN4007 diode detail theory information

Abstract: IN4007 diode forward bias resistance 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
iWatt
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IN4007 diode forward bias resistance iw1692 IN4007 diode forward reverse bias AE SOT23 0.9v iwatt marking specification chart of in4007

IN4007 diode detail theory information

Abstract: specification chart of in4007 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
iWatt
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11turns IN4007 VFD DRIVER TRANSFORMER iw16 Diode IN4007 M CC 702 SOT-23

in 4008 diode

Abstract: IN4007 diode detail theory information 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
iWatt
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MK-4008-B in 4008 diode mk4008 505 transistor DIODE 4008 ic 4008

500 watt inverter 6v dc to 220 ac

Abstract: panasonic inverter manual 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
Linear Technology
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LT1613CS5 LT1611CS5 500 watt inverter 6v dc to 220 ac panasonic inverter manual SOD123 F03 panasonic frequency inverter manual panasonic inverter manual THREE PHASE isolated sepic converter LT1611/LT1613 SR1020

panasonic inverter manual

Abstract: LT1611CS5 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
Linear Technology
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LQH3C100K24 LT1611 TA03 L7 diode Transformer sepic 20LT1 LQH3C220K24 MBR0520LT1 LQH3C4R7M24

Power Transformer 19v 3.42a

Abstract: "Application Note" and FAN6753 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 ×
Fairchild Semiconductor
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AN-6753 FAN6753 Power Transformer 19v 3.42a ic power YC2 regulator CCM Flyback

flyback snubber

Abstract: 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
Cirrus Logic
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flyback snubber AN375 CS1615 CS1616 CS1615/16 120VAC 230VAC

CQ1265RT

Abstract: CQ0765RT 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
Fairchild Semiconductor
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CQ1465RT CQ1265RT CQ0765RT cq1565rt cq1265rt schematic diagram cq0765 CQ0765RT circuit diagram FSCQ1565RP 85-265VAC AN4146 AN4140 FSCQ1565RTYDTU
Abstract:   551fl4fcifl D007524 37A * L T C LT1082 1A High Voftage High Efficiency Switching Voltage Regulator , 100V â  Low Quiescent Current 4.5mA â  Internal 1A Switch â  Shutdown Mode Draws Only 130nA , for optocouplers or extra transformer windings. â  Telecom 5V Supply @ 0.8A from -48V (-10V -70V) â  90V Supply @ 120mA from 15V â  All Applications using LT1072 (See Below for Specification Differences) LT1082 and LT1072 Major Specification Differences V|N VsW ITCH Switch Current Limit -
OCR Scan
T0-220 G00722

24v dc power supply with uc3842

Abstract: unitrode Applications Note U-96A 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
Unitrode
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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 U-133A UC3842 UCC3800 UCC3805

UC3842 note buck converter non isolated

Abstract: uc3842 unitrode 100 watt 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
Unitrode
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uc3842 unitrode 100 watt boost uc3842 application note UC3842 application 24V UCC3801 schematic ucc3804 buck uc3842 application note PE-64973 DN-42 UCC3802

Royer oscillator

Abstract: Royer oscillator circuit diagram 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 =
Micrel Semiconductor
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MIC2172 Royer oscillator Royer oscillator circuit diagram CTX110602 3172 8PIN 12V 1A Transformer specification buck boost transformer 120v to 12v MIC2172/3172

Royer oscillator

Abstract: transformer 120v to 12v 5v for lighting 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
Micrel Semiconductor
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transformer 120v to 12v 5v for lighting MIC3172BN CTX3 ctx300-4p MIC3172YM Royer converter M9999-042205
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