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Part Manufacturer Description Datasheet BUY
PT78NR107V Texas Instruments 0.55A SWITCHING REGULATOR, 700kHz SWITCHING FREQ-MAX, SMA3, ROHS COMPLIANT, SIP-3 visit Texas Instruments
78SR107VC Texas Instruments 78SR107 7Vout 1.5Amp Wide Input Positive Step-Down ISR visit Texas Instruments
78SR107SC Texas Instruments 78SR107 7Vout 1.5Amp Wide Input Positive Step-Down ISR visit Texas Instruments
78SR107SCT Texas Instruments 78SR107 7Vout 1.5Amp Wide Input Positive Step-Down ISR visit Texas Instruments
78SR107HC Texas Instruments 78SR107 7Vout 1.5Amp Wide Input Positive Step-Down ISR visit Texas Instruments
PT78NR107S Texas Instruments 0.55A SWITCHING REGULATOR, 700kHz SWITCHING FREQ-MAX, SMA3 visit Texas Instruments

R107 diode

Catalog Datasheet MFG & Type PDF Document Tags

R107 diode

Abstract: optoiso guaranteed to saturate to 1.2V, the forward drop of the LED in the 4N28 may be as low as 1.0V, so a diode , through R107 starts out too small, the output of the 4N28 will be HIGH too much of the time, and the op , occurs when the current through R107 is straddling the threshold value. The positive feedback via R108 , be within 1% of 3.70 mA (or as desired). · Observe the DC current through R107 in Figure 2 · If
National Semiconductor
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R107 diode

Abstract: 4N28 spec sheet guaranteed to saturate to 1 2V the forward drop of the LED in the 4N28 may be as low as 1 0V so a diode is , RRD-B30M115 Printed in U S A put is exactly 50% This occurs when the current through R107 is straddling , current can be monitored continuously and the circuit can be trimmed easily If the current through R107 , provide an 8 5 mA threshold Observe the DC current through R107 in Figure 2 If ITHRESHOLD is larger
National Semiconductor
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LM163 LH0045 AN-300 R107 diode 4N28 spec sheet Isolation amplifier LM10S 5640

4-20 mA 1998

Abstract: lm10 de low as 1.0V, so a diode is added in series with the LED, to insure that it can be shut off.) Note , the current through R107 starts out too small, the output of the 4N28 will be HIGH too much of the , output is exactly 50%. This occurs when the current through R107 is straddling the threshold value. The , power dissipation (2 mA x 2.5V typical) and low cost. Observe the DC current through R107 in Figure
National Semiconductor
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4-20 mA 1998 lm10 de optoiso 4N28 AN-211 LM10

RLI-135

Abstract: transistor c114 C113 22nF 5 3 2 1 R107 6.8K R100 0.25 R101 12K R109 1K C131 10nF R131 2.2K R107 0 R103 2.2K P101 1KA J107 VREF INPUT 1A OUTPUT AN2067 - , used in fly-back mode. D101, C112 are respectively the rectifying diode and its filtering. L101 and , sensed through the shunt resistor R100. The shunt voltage is amplified using R101 and R107 in , (U103). C113 with R107 is the integrator network of this amplifier, in order to cancel the static
STMicroelectronics
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RLI-135 transistor c114 viper 224 VIPER53 transistor c114 diagram VIPer53 Application Note

HC49 MEGATEC

Abstract: c103 TRANSISTOR 10K VDD R109 100K R107 100K R105 100K GND ID: SD00486 1 3 5 7 9 11 2 , D201 1 Rectifier Diode GF1M SMA Zener Diode BZX84 6.8V 1/4W SOT23 1 Autorestore Fuse 0,2A , R105, R107, R109, R202, R203, R311, R313 R304, R312 Kamaya, RMC1/10K1003FTP Kamaya, RMC1
Softec Microsystems
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HC49 MEGATEC c103 TRANSISTOR transistor c317 c102 TRANSISTOR TRANSISTOR C307 C312 diode DEMO9RS08KA2 DC01098 SW102 SW101 BSS138 LD103

ntc 5D-11

Abstract: IC301 becomes greater than 3V, the diode Ds turns off consequently, the feedback capacitor Cfb is charged by , becomes greater than 3V, the capacitor is charged by the 5uA current source because diode D1 turns off , diode and saturates the photo transistor. As a result, the feedback voltage is dropped to zero. When , R205 C203 TNR FUSE IC201 D103 7 8 6 R108 5 Vref Vcc OUT GND FAN7554 R107 , C109 22uF/ 50V Electrolytic R107 12k - C201 330uF Electrolytic R108 10
Fairchild Semiconductor
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ntc 5D-11 IC301 dsc 5d-11 pbs406gu ntc-5D-11 100nf 275v box capacitor FAN7554D

ha13412

Abstract: Hitachi Three-Phase Motor Driver R101. r102 - Hall element bias 1 R103- R104, R105 io n Stability 2 R106' R107 - Setting of control , filter 6 Dl - Flywheel diode Notes: 1. Bias the Hall amplifiers so that the output voltage exceeds , . 3. The comparator's hysteresis amplitude (hys) is defined as follows: hys= VCC2 Rjoe+Rioe R106 R107
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OCR Scan
ha13412 Hitachi Three-Phase Motor Driver hitachi power amplifier Hitachi Scans-001 c112 TRANSISTOR TRANSISTOR c104 HA13412- HA13412 SP-23TA C112-

R107 diode

Abstract: LM5020 FET switch the inductor reverses polarity to forward bias the diode D100 to charge the output , R107 Vin RT R100 LM5020 SS Rsource out R106 R104 C108 R105 C109 , Ohms R107 Vishay CRCW08051243FRT6 124k Ohms R108 Vishay WSL1206-18 0.068 1
National Semiconductor
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transistor c111 CRCW08054991FRT6 C105 Diode CRCW08052612F r108 diode C107 CSP-9-111C2 CSP-9-111S2

ntc 5D-11

Abstract: DSC 10D-11 smoothly. When the Cs voltage becomes greater than 3V, the diode Ds turns off consequently, the feedback , source because diode D1 turns off. When the feedback voltage is less than 3V, the charge slope becomes an , flows through the photo diode and saturates the photo transistor. As a result, the feedback voltage is , R205 C203 TNR FUSE IC201 D103 7 8 6 R108 5 Vref Vcc OUT GND FAN7554 R107 , C109 22uF/ 50V Electrolytic R107 12k - C201 330uF Electrolytic R108 10
Fairchild Semiconductor
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DSC 10D-11 PBS406G ct 5d-11 ntc 10D-11 ntc 5d11 electrolytic capacitor C109 C110 1000uf

06035C103KAT2A

Abstract: E4 PNP SMD TRANSISTOR CMPSH1-4 R108 100uH L1 R107 IS+ ULVO C84 R80 0.1uF 100K 1uF 1nF CMPSH1 , OPT R72 R71 OPT R60 OPT R73 opt. 0 opt. R107 4 3 -VOUT OPT J1 , , 470pF, 25V, 10%, 0603 Diode Schottky, CMPSH1-4, 40V, SOT23 Diode, BAS21 SOT23 Diode, BAS21 SOT23 Diode, 36V SOT23 INDUCTOR, 100uH, DO1606T INDUCTOR, PLANAR, 2.4uH FET, N-CH., Si7450DP, Powerpak SO , ,R60.R62,R64,R67 RES., 0603 R71-R74(opt) 1 0 2 2 2 4 2 2 1 1 R107 R108(opt) E1,E2 E8,E7
Linear Technology
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LTC3725 LTC3706 06035C103KAT2A E4 PNP SMD TRANSISTOR transistor P18 FET c86 sot23 pa1494.242 TMK325BJ475KN LTC3725/LTC3706 DC888A-C DC888A DC888A-A

HA12002

Abstract: R104 Diode diode externally (pin-6). (See Note) â'¢ Relay-on lag time adjustable by external applications. â , external diode D1, the latch mechanism keeps the relay being on until the power is switched off. â'¢ For , diode Dj, however, when under a constant voltage drive, it functions only with Di. 44 @ HITACHI , external diode Dt. (When using constant-voltage drive, Dx is needed for latching.) â'¢ Relay-on Time Lag - , HA12002 I PC-BOARD LAYOUT PATTERN (SELECTING AN OPTIMAL R107 VALUE" R107 VS. COMMERCIAL AC VOLTAGE
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OCR Scan
R104 Diode RI04 HA1200 DIODE CL04 12 C102 R104

nec 2501

Abstract: c86 sot23 4 LTC3725EMSE R79 68K D2 CMPSH1-4 R108 100uH R107 IS+ ULVO C84 R80 , R74 OPT OPT R72 R71 OPT R60 OPT R73 opt. 0 opt. R107 4 3 , D1,D2,D24,D26 Diode Schottky, CMPSH1-4, 40V, SOT23 2 D27,D29 Diode, BAS21 SOT23 1 L1 INDUCTOR , , 20%, 1210 0 C74(opt) CAP., 0603 0 C81,C82(opt.) CAP., 0603 0 D30 (opt) Diode, SOT23 0 D31 (opt) Diode, SOT23 1 L5 INDUCTOR, 0.68uH, 0 Q8(opt) FET, N-CH., SO-8 2 R49,R70 RES
Linear Technology
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nec 2501 CRCW12065R10 DIODE FS 604 CAP 10nF 200V 0603 2501-2-00-80-00-00-07-0 2N7002-SOT23 DC888A-B 200LFM PA0955 PA0954 P1-11 J1-11

transistor P18 FET

Abstract: PA1954NL LTC3725EMSE R79 68K D2 CMPSH1-4 R108 -VOUT 22uF L1 100uH R107 IS+ D27 BAS21 , OPT R60 OPT R73 opt. 0 opt. R107 4 3 0 opt. 0 T1 -VOUT SSS , , 150pF, 25V, 10%, 0603 1 C101 CAP., C0G, 470pF, 25V, 10%, 0603 4 D1,D2,D24,D26 Diode Schottky, CMPSH1-4, 40V, SOT23 2 D27,D29 Diode, BAS21 SOT23 1 L1 INDUCTOR, 100uH, DO1606T 1 L6 INDUCTOR , , 2.2uF, 100V, 20%, 1210 0 C74(opt) CAP., 0603 0 C81,C82(opt.) CAP., 0603 0 D30 (opt) Diode
Linear Technology
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PA1954NL KFH-032-6 TEPSLV0J227M transistor SMD p16 smd transistor 0326 Q12-Q15 P1-10 J1-10 PA0950

D103D

Abstract: D104D APPENDIX A. These parameters represent a typical case device of the transistor or diode. Varying the , ESD R107 375 107 R103u 75 k R105 93 R108 375 108 Q101 Q102 TNSGB TNSGB 109 , R107 18k VCS Q103 TNSGB 109 VEE VEE 0 VEE 3.3 V LVPECL MODE OPERATION VEE , + VCS + 3.3Vdc - 0.855Vdc - R107 18k VEE 0 Q103a TNSGB VCS 109 VEE , 102 39.5m 105 R103 50 R107 1600 106 C102a 51.12f C102b D108d ESD R108 1600
ON Semiconductor
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D103D D104D d106d D108D AND8157 KR106 AND8157/D

D103D

Abstract: Q 101 Q102 TRANSISTOR transistor or diode. Varying the typical parameters will affect the DC and AC performance of the structures , ESD 103 C101a C101b D101d 51.12f 62.48f ESD R107 375 107 R103u 75 k R105 , VEE VCC + VCS + 3.3Vdc - 0.855Vdc - R107 18k VCS Q103 TNSGB 109 VEE VEE , 0.025 n PW = 0.475 n PER = 1.0 n VEE VCC + VCS + 3.3Vdc - 0.855Vdc - R107 18k VEE , D107u ESD L102 753.3pH R102 102 39.5m 105 R103 50 R107 1600 106 C102a 51.12f
ON Semiconductor
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Q 101 Q102 TRANSISTOR C101B cc11b input output npn 547 transistor D105u 6 pin 02n

CQ1265RT

Abstract: CQ0765RT winding and Vcc winding, respectively, VFo and VFa are the diode forward voltage drops of the output , internal resistors are designed so that the maximum cathode voltage of diode D2 is about 2.8V, which , , and D1 to the reference pin of KA431. Then, Vo2 is determined by the zener diode breakdown voltage , the secondary diode during startup. For a fast build up of the output voltage, an offset is , . Then, Vo2 is determined by the zener diode breakdown voltage. Assuming that the forward 17
Fairchild Semiconductor
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CQ1465RT CQ1265RT CQ0765RT cq1565rt cq1265rt schematic diagram cq0765 CQ0765RT circuit diagram FSCQ0565RT FSCQ0765RT FSCQ0965RT FSCQ1265RT FSCQ1465RT FSCQ1565RT

transistor c114

Abstract: C114 Transistor control signal rectifiers of D101, the AGC circuit. R113 Use a germanium diode in D101 â  If C114 is , time at power switch ON. Use a 100~200/iF capacitor. (9) R107, R108 Negative feedback resistor to , determined as follows: fe=(fÃ=183-45dB) R107 V120S2 (10) Oj 121 Cj 13, The function of Cn2 and Cn3 are to
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OCR Scan
HA1319 1N34A C114 Transistor for C114 transistor transistor c119 transistor c114 transistors GERMANIUM SMALL SIGNAL TRANSISTORS

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 R109 is 7.4 µA. Q101 has minimum hFE of 50 and the leakage current of zener diode D106 is less , , there is a current flowing through R121 to the diode of the optocoupler U105. The optocoupler current I OC = (V out ­ Vd)/R121 Vd is the diode drop of the optocoupler which is around 1V. For V out = , 0.047uF R116 499 C113 C110 470uF 4 C107 0.027uF R107 1.00k 2 PS2501L-1H 3
National Semiconductor
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RD-166 c103 mosfet TRANSISTOR Viper22 application PA2865NL PA2685NL AT-339 c103 TRANSISTOR equivalent LM5021
Abstract: Current Protection Diode Pin Header distance fits to Breadboard Crystal for Debug IC User LED1 @ P1.0 ESD Protection Diode XMC1100 Microcontroller Power & Debug LED Pin Header X2 , on-board reverse current protection diode will ensure safe operation and protects the USB port of the , GND1 GND2 2 5 R109 12 R2 BAS3010A-03W R107 Board Users Manual 10k/0402 ZX62-AB , D102 R107 C106 R109 C103 R106 R105 C101 R101 IC101 38.5 mm C107 LED101 R102 Infineon Technologies
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XMC1000 NX3225SA 12MHZ LSQ976-Z LGQ971-Z ZX62-AB-5PA

c103 TRANSISTOR equivalent

Abstract: TRANSISTOR c105 Triac is turned ON as a result of transistor Q1 biased ON via the resistor ladder R3,R4 and zener diode , 50V D101 Bridge diode D3SB60 D102 Diode ikv 1A *: C104 and C105 acts as power source during , ) 400V C105 tl lOOuF (*2) 16V C106 Film capacitor 0.047uF AC250V C107 ti O.luF 50V D101 Bridge diode D3SB60 D102 Diode IKY . 1A i 10 - â  Ã±2n3ñ7 00043Û1 124 4-2 Special characteristics 4-2-1 , R107 Carbon resistors 100 ohms 1/2W R108 Metal film resistors 100 ohms 1W C102 Electrolytic capacitor
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OCR Scan
TRANSISTOR c105 c105 TRANSISTOR MK1210 transistor c107 m c103 m TRANSISTOR C102 M transistor 00D43AA 200VAC 2606C
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