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LT1681ESW#PBF Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1681ISW#TRPBF Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1681ESW#TRPBF Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1681ISW#PBF Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1681ESW#TR Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1681ESW Linear Technology LT1681 - Dual Transistor Synchronous Forward Controller; Package: SO; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

c103 TRANSISTOR equivalent

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c103 TRANSISTOR equivalent

Abstract: TRANSISTOR c105 00Ã437L» TIM -3- Typical Application Example Vin(AC) -4- i2113fl? 0004375 2-5 Equivalent Circuits , Triac is turned ON as a result of transistor Q1 biased ON via the resistor ladder R3,R4 and zener diode DZl(see section 2-5, MK1110 and MK1210 equivalent circuits). At this instant the voltage doubler mode starts. When the input voltage reaches typically 155V,transistor Q2 is biased ON via resistor ladder R6,R7 and zener DZ2 which pulls low the R4 and DZ1 connection switching OFF transistor Q1 in-turn
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c103 TRANSISTOR equivalent TRANSISTOR c105 c105 TRANSISTOR transistor c107 m c103 m TRANSISTOR C102 M transistor 00D43AA 200VAC 2606C

c103 TRANSISTOR

Abstract: c103 mosfet TRANSISTOR , R109, Q101 and D106. D106 is a 36V zener diode. It clamps the base voltage of NPN transistor Q101 at , through R103 is high enough to charge C103 to V CC enable voltage. R109 is a 10M resistor. The power , 5V, I OC = 0.4 mA. This current is coupled to the transistor side of the optocoupler and pulls down , pulses followed by a long skip cycle interval. C103 is charged during the short burst of output pulses , discharge current is the PWM IC supply current. So the voltage at C103 which is the PWM IC Vin voltage can
National Semiconductor
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RD-166 c103 TRANSISTOR c103 mosfet TRANSISTOR Viper22 application PA2865NL PA2685NL AT-339 LM5021 CSP-9-111C2 CSP-9-111S2

c103 m TRANSISTOR

Abstract: c103 TRANSISTOR equivalent ©Ä¥Ä(L©(i MEDIUM TO HIGH VOLTAGE, FAST SWITCHING C H IP N U M B E R -^outran Devices. Inc. PIMP EPITAXIAL PLANAR POWER TRANSISTOR* * CONTACT METALLIZATION (FORMERLY 69) Base and emitter: > 30,000 A Aluminum Collector: Gold (Polished silicon or "Chrome Nickel Silver'' also available) Also , in a TO-66 or equivalent case: VCEO > BOV > 80V >l.00V * > 150V * > 200V v CEO > 60V > 80V >100V , CURRENT - A C-103
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c103 npn c102 TRANSISTOR TRANSISTOR C103 JAN2N3740 JAN2N3741 SDT69601 SDT69613 SDT69501 SDT695

c103 TRANSISTOR equivalent

Abstract: C102 M transistor 8368602 SOLITRON DEVICES INC 95D 02 89 3 D 1 fl3hfibUd OaOEÖTB MEDIUM TO HIGH VOLTAGE, FAST SWITCHING CHIP N U M BER 0 I rJpwMËeon Devices. Inc. PIMP EPITAXIAL PLANAR POWER TRANSISTOR* * (FORMERLY 69) CONTACT METALLIZATION Base and emitter: > 30,000 A Aluminum Collector: Gold , characteristics apply for a completely finished component employing the chip number 269 in a TO-66 or equivalent , CURRENT - A C-103
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Solitron Devices IAN2N3740 SDT69513 C-102

1H0165R

Abstract: 1m0880 + VO VS - VIN + - - isw Figure 2a. Equivalent circuit when SW is on (t1~t2) Li N:1 + VLi - + Vm VIN + - + VO Lm - - + V - C Figure 2b. Equivalent , Cos Figure 2c. Equivalent circuit when SW is off (t3~t5) Rev C, November 1999 3 Vm Vin Sa , ) turns on Þgure 2 and Þgure 2a becomes equivalent and the state of each switching element, voltage and , equivalent circuit is shown in Þgure 2c. The energy stored in the secondary inductor, Li, free wheels
Fairchild Semiconductor
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AN4104 1H0165R 1m0880 KA1M0880 application note LM 3842 Circuit diagram KA1M0680 application note 1h0165

c103 TRANSISTOR equivalent

Abstract: C102 M transistor -Jfcutron MEDIUM TO HIGH VOLTAGE, FAST SWITCHING CHIP NUMBER Devices, Inc PIMP EPITAXIAL PLANAR POWER TRANSISTOR* (FORMERLY 69) Emitter: .009" x .050" (0.23mm x 1.27mm) .009" x .042" (0.23mm x 1.07mm) CONTACT METALLIZATION Base and emitter: > 30,000 A Aluminum Collector: Gold (Polished , characteristics apply for a completely finished component employing the chip number 269 in a TO-66 or equivalent , lc- -.1 -1.0 2.0 â'¢ COLLECTOR CURRENT â'" A -10. C-103
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transistor c102 60PF c102, transistor

1h0165r

Abstract: 1m0880 Figure 2a. Equivalent circuit when SW is on (t1~t2) Li N:1 + V - Li + Vm VIN + - + VO Lm - - + V - C Figure 2b. Equivalent circuit when SW is off (t2~t3) Li N:1 + VLi - + Vm + VO Lm - - VIN + - t3 ~ t4 Cos Figure 2c. Equivalent circuit when SW is , Between t1~t2 when the primary side main switch (SW) turns on figure 2 and figure 2a becomes equivalent , energy in Lm completely resets; Vm becomes 0V; D3 turns off. The equivalent circuit is shown in figure
Fairchild Semiconductor
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KA1M0680RB 12v to 220v step up transformer step down transformer 220V to 12V 1h0165r TRANSISTOR step down transformer 240 v to 15 v 1M0880 KA5H0165R Power Applications SEM500 KA1H0680RFB KA1M0880D KA5P0680C

1H0165R

Abstract: 1m0880 + VO VS - VIN + - - isw Figure 2a. Equivalent circuit when SW is on (t1~t2 , . Equivalent circuit when SW is off (t2~t3) Li N:1 + VLi - + Vm + VO Lm - - VIN + - t3 ~ t4 Cos Figure 2c. Equivalent circuit when SW is off (t3~t5) Rev C, November 1999 3 , switch (SW) turns on figure 2 and figure 2a becomes equivalent and the state of each switching element , becomes 0V; D3 turns off. The equivalent circuit is shown in figure 2c. The energy stored in the
Fairchild Semiconductor
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240 AC to 12V AC transformer circuit diagram 3842 smps IC transformer 220V 12V 8A ka1m0880 smps design 3842 IC 3842 Flyback SMPS

1h0165r

Abstract: 1h0165r TRANSISTOR Vo Vs iLm isw Figure 2a. Equivalent Circuit When SW is on (t1~t2) N : 1 Li VLi Vm Lm Vo Vin Vc Figure 2b. Equivalent Circuit When SW is off (t2~t3) ©2003 Fairchild , Coss Figure 2c. Equivalent Circuit When SW is off (t3~t5) Vm Vin Sa=Sb Sa Sb Vc-Vi (a , side main switch (SW) turns on figure 2 and figure 2a becomes equivalent and the ©2003 Fairchild , becomes 0V; D3 turns off. The equivalent circuit is shown in figure 2c. The energy stored in the
Fairchild Semiconductor
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FS7M0880 equivalent 1m0880 application note circuit design KA5H0165R circuit diagram smps power supply using IC 3842 a pc smps circuit diagram circuit diagram of smps DESKTOP AN4106

DIODE tvr10g

Abstract: smps FAN4803 functional equivalent of a precision programmable shunt reference and a phototransistor optocoupler in an 8-pin package. Transistor Optocoupler FOD27XX Shunt Reference + _ OR = Part Number VREF , R2 Telecom: Isolated DC/DC Converter T1: EPC19 1 DC INPUT VOLTAGE: 36~72V C103 12nF,50V , . The devices combine the functional equivalent of a precision programmable shunt reference (including an error amplifier and precision reference) and a transistor optocoupler into a single 8-pin package
Fairchild Semiconductor
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FOD2712 FOD2741 DIODE tvr10g smps FAN4803 smps transistor FAN4803 tvr10g optocoupler c203 FOD2742 FOD2711 FOD2712/FOD2742 247TM

BLF578

Abstract: AN10858 the 174 MHz to 230 MHz band using the BLF578 power transistor. The amplifier uses innovative planar , required. The BLF578 is a 1200 W LDMOS power transistor for broadcast transmitter applications and industrial applications from 10 MHz to 500 MHz. The transistor can deliver an average of 200 W DVB-T over , R101 75.0 R104 1.10 k R106 200 C103 1 F U103 LM7321MF R105 3 2.00 k C101 , LDMOS RF transistor in a DVB-T broadcast application. However, another significant objective is to
NXP Semiconductors
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AN10858 planar transformer theory DVB-T Schematic Transmission-Line Conversion Transformers TIC4000 planar transformer layout

Horizontal Transistor TT 2246

Abstract: Transistor TT 2246 loops and in some cases cause transistor failures. The TTL monitor has provisions at the printed circuit , . Drive the source end of the video line with the output of TTL logic or an equivalent pulse generator , stage for the monitor. Refer to figure 3-1 and schematic at rear of manual. Transistor Q103 and its , . R118 and R119 provide series feedback which makes the voltage gain relatively independent of transistor , VERTICAL DEFLECTION AMPLIFIER Transistor Q101 is a programmable unijunction transistor and with its
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Horizontal Transistor TT 2246 Transistor TT 2246 CRT Monitor repair schematic circuit diagram of crt monitor yoke coil hv flyback transformer In400I 55164-TELEPHONE IM1017 IN5398 TTH5/93 I-024-OS45 TV-15

ka3525 12v to 230v inverters circuit diagrams

Abstract: smps circuit diagram 450w to optimize their specific power design. Shunt Reference FOD27XX Transistor Optocoupler , · Reduce current tail, reduces switching losses · Improve transistor and system reliability · IGBT , Reduces switching transistor turn-on losses in hard switched applications · Reduces EMI Irrm , switching transistor turn-on losses in hard switched applications www.fairchildsemi.com/acdc 10 AC , 2 R101 L101 + C104 47µF 50V C103 4.7µF 63V Q1 BC847B R202 470R 0.125W
Fairchild Semiconductor
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ka3525 12v to 230v inverters circuit diagrams smps circuit diagram 450w KA3525 KA3525 inverter FSD210 dip-8 KA3525A E-171 18F-A

ICE1HS01G

Abstract: TRANSISTOR D206 external totem pole driver circuit, comprised of a NPN and a PNP transistor, is recommended to be used to , INS ln Req 2 - VINSH VBUS RINS1 where Req is the equivalent resistance for parallelling of RINS1 and RINS2, Req = RINS1 // RINS 2 Req2 is the equivalent resistance , C103 1.2u/7.5A + 2n2/Y1 R100 2M0 L100 C102 1000uF/35V + 6 Q101 CY101 , 150R 150R 220nF 220nF/275Vac L101 R116 R115 FUSE100 R108 R202 R207 R203 R204 R110 C103
Infineon Technologies
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EVALHS-200W-ICE1HS01G ICE1HS01G TRANSISTOR D206 24V 5A SMPS circuit diagram LLC resonant transformer core pc47 SMPS CIRCUIT DIAGRAM 24v E16/8/5 1XAWG28

pt4962

Abstract: Master Meter-Bus Transceiver PT4962 + INPUT + C101 4.7µF C103 + 1µF 1 3 4 5 C1+ 16 VCC 2VCC-1.5V 2 , changes on the bus are detected by comparator IC202 and compensated by current source transistor T202 , transceiver TSS721 loads the Master equivalent to one slave. The opto-couplers OC1 and OC2 isolate the , Qty 1 4 4 Notes Reference Voltage (Fig 2): Position C101 C102, C103, C104, C105 C106 , 1N4448 1 1 1 1 1 1 1 1 1 1 1 1 2 Transistor Transistor Amplifier Amplifier Terminal
Texas Instruments
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IC301 Master Meter-Bus Transceiver 7805 to92 Datasheet PT 4962 BAT41 equivalent 7805 to92 89/336/EEC 1N4148 BAT41 LM393 LM393/A LM393/B

DVB-T Schematic

Abstract: BLF881 using the BLF881 power transistor. In particular, it compares the DVB-T performance for flat gain with , amplifier with the BLF881 1. Introduction The BLF881 is a 50 V high power RF transistor based on NXP , (ADS) using the equivalent input circuit provided for UHF applications. When the amplifier did not tune as predicted by this model, it was found that the equivalent circuit was not accurate at lower , BLF573, a 300 W LDMOS RF power transistor designed for broadcast applications and industrial, scientific
NXP Semiconductors
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AN10945 C5750X7S2A106M DVB-T acpr c107 TRANSISTOR equivalent 3T-20 DVB-T transistor amplifier

semiconductor resistor 1k7

Abstract: C102 M transistor Darlington Switch Collector pin 1 Darlington Switch Emitter pin 2 (transistor OFF) Darlington Switch , configuration with NMOS transistor, buck configuration with PMOS transistor and buck configuration with LOW VCE(sat) PNP are shown. Another advantage of using the external transistor is higher operating frequency , equivalent series resistance (ESR) electrolytic designed for switching regulator applications. Figure 15 , = +12 V 1 J101 C101 0.1 mF J102 1 GND C103 2.2 nF C106 0.1 mF R103 R102 1K0 ±1% 18K0 ±1%
ON Semiconductor
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semiconductor resistor 1k7 A114 pnp transistor 86 J103 transistor top view transistor 6n8 ceramic capacitor 4n7 NCP3063 NCP3063B NCV3063 MC34063A MC33063A V3063

c103 TRANSISTOR DATA

Abstract: C101 Transistor Darlington Switch Emitter pin 2 (transistor OFF) VSWE -0.6 to + VCC V Darlington Switch Collector , . Typical schematics of boost configuration with NMOS transistor, buck configuration with PMOS transistor , transistor is higher operating frequency which can go up to 250 kHz. Smaller size of the output components , . Capacitor CO should be a low equivalent series resistance (ESR) electrolytic designed for switching , D101 +VOUT = +24 V / 350 mA 1N5819 1 J103 C106 C103 0.1 mF 2.2 nF NCP3063 +
ON Semiconductor
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c103 TRANSISTOR DATA C101 Transistor mc34063A constant current BC846BPD TRANSISTOR Marking XB PNP NSR0130 NCP3063/D

semiconductor resistor 1k7

Abstract: AN920/D Darlington Switch Emitter pin 2 (transistor OFF) VSWE -0.6 to + VCC V Darlington Switch Collector , . Typical schematics of boost configuration with NMOS transistor, buck configuration with PMOS transistor , transistor is higher operating frequency which can go up to 250 kHz. Smaller size of the output components , . Capacitor CO should be a low equivalent series resistance (ESR) electrolytic designed for switching , D101 +VOUT = +24 V / 350 mA 1N5819 1 J103 C106 C103 0.1 mF 2.2 nF NCP3063 +
ON Semiconductor
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AN920/D TRANSISTOR A114 soic-8 c101 MF-25 DARLINGTON MANUAL MC34063a driver led

NTGS4141N

Abstract: J103 transistor 3 pin Emitter pin 2 (transistor OFF) VSWE -0.6 to + VCC V Darlington Switch Collector to Emitter pin , . Typical schematics of boost configuration with NMOS transistor, buck configuration with PMOS transistor , transistor is higher operating frequency which can go up to 250 kHz. Smaller size of the output components , be a low equivalent series resistance (ESR) electrolytic designed for switching regulator , +24 V / 350 mA 1N5819 1 J103 C106 C103 0.1 mF 2.2 nF NCP3063 + C105 330 mF
ON Semiconductor
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NTGS4141N J103 transistor 3 pin diode Schottky D501 J103 transistor desaturation design ma6580
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