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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: and on tape and reel to EIS RS-468A RS-468A for automatic insertion NTC Inrush Current Limiter Thermometrics Thermistors NTC Inrush Current Limiter is a Thermometrics product. Thermometrics has joined , Sensing Options Type CL Specifications · · · · · NTC discs for inrush current limiting , be very large, and after the supply is operating, should be reduced to zero. The NTC thermistor is , it. Some of the factors to consider when designing NTC thermistor as an inrush current limiter are ... | Original |
4 pages, |
CL-21 CL-30 CL-40 CL-50 CL-60 CL-70 CL-80 CL-90 GE Sensing TP10D13 thermistor ntc 60 0250 d18 ntc CL-210, Inrush TP8D15 CL-60 thermistor RS-468A RS-468A abstract |
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| Abstract: BC847 BC847 D10 1N4148 1N4148 R13 82R U2 L7815ACP L7815ACP IN NTC bypass C10 100n 1 W1 C7 100n , R93 1k D22 1N4148 1N4148 D21 1N4148 1N4148 +3.3V R70 1k D18 1N4148 1N4148 R86 120R R83 10R nc , NTC comparator TP21 TP20 TP19 TP18 TP17 TP16 TP15 TP14 TP13 TP12 TP11 TS391ILT TS391ILT 1 U8 +3.3V Het_temperature phase_A RT1 NTC 10k R44 3k6 Test pins TP10 ... | Original |
5 pages, |
pwm 3 phase R53 NTC ntc 10r Dc to 3 Phase Inverters IGBT DRIVER SCHEMATIC 3 PHASE schematic PWM inverter motor drum ac Inverter schematics 10 kw washing machine motor tacho NTC 1K VIPER16 pwm INVERTER 3 phase ac motor viper16ln STEVAL-IHM023V1 L6390 STEVAL-IHM023V1 abstract |
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| Abstract: 2N27 24c46 PWM_Vref M_phase_C NTC bypass +15V 3 Motor output Vout GND 4 +5V C63 100n + , phase_B phase_C MOTOR D3 1N4148 1N4148 NTC_by pass_relay 11 1 2 R12 1k Q1 BC847 BC847 Het NTC , D17 Vdd_micro Current_B BAT48JFILM BAT48JFILM R98 1k D18 Vdd_micro Current_C 100p BAT48JFILM BAT48JFILM ... | Original |
5 pages, |
120R BZV55C18SMD L78M05AB BAT48JFILM NTC R29 r1 3k3 STGIPL14K60 STTH1L06A 1N4148 BC847 LF33ABDT-TR ntc 4k7 w10 hall vr1 100k lin STEVAL-IHM025V1 STEVAL-IHM025V1 abstract |
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| Abstract: 3 AC INPUT 2 Conn_2pin R1 464K VIN F1 1 VDD D21 FR1G-13 FR1G-13 1 D18 , C12, C13 0.1uF, 250V metallized polyester capacitors Panasonic ECQ-U2A104MV ECQ-U2A104MV 1 D18 3 , PCV-2-105-02 PCV-2-105-02 - - Cross reference for L2 Cooper Electronics CTX01-17784G-R CTX01-17784G-R 1 NTC1 NTC ... | Original |
4 pages, |
choke 1000uh f2105 hv9910b SCHEMATIC POWER SUPPLY irf840 PWM AC 50HZ CTX01 10w led driver Cooper CTX01 full wave bridge rectifier 40v 15a CAPACITORS 100uf 16v philips capacitor 1uf/250v capacitor 100uF 40V philips CT-94W-502 HV9910DB1 HV9910DB1 HV9910DB1 abstract |
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| Abstract: 1 GND R3 1K PWMD AC INPUT U3 U2 4 F1 1 D18 BYV26B BYV26B R4 0.27 R6 , 2 1 1 1 1 1 Description Manufacturer J11,AC INPUT C1,C8 C4 C7 C11 C12,C13 D18 , 1000uH, 2A inductor NTC inrush current limiter 500V, 8A D2PAK Mosfet 464K, 1/8W 0805 SMD resistor ... | Original |
4 pages, |
MOSFET IRF840 inductor 1000uH 2A 100uF 250v capacitor 100uF/160V philips capacitor 250V capacitor 0.1uf 250v choke 1000uh HV9910NG led driver pwm 1500mA full wave bridge rectifier 40v 15a 1uF 250V smd ac to ac voltage converter schematic AC TO DC BY irf840 HV9910DB1 HV9910DB1 HV9910DB1 abstract |
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| Abstract: ,C40,C42 C30,C49,C51,C52 C36 C37,C38,C41 C50 D1 D2,D18,D19,D20 D3 D5 D6 D7 D12,D13 D21 D22 , ,64 x 10 e distrelec 50k cod 740218 0.82x 10 SW PUSH N.M. CSTCE16MOV53-RO CSTCE16MOV53-RO NTC 10mm 46 47 ... | Original |
2 pages, |
ntc 12k ST7FMC2S4T6 1N4148 1206 SMD-1406 d24 smd 1N4148 SMD fuse smd code e CODE SMD R21 1206 footprint led "SMD Code" j9 smd C34 cstce16mov53 Resonator CSTCE16MOV53 smd fuse 1206 STEVAL-IHM017V1 1N4148 STEVAL-IHM017V1 abstract |
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| Abstract: through either lossless inductor DCR sensing or precise resistor sensing. If DCR sensing is used, an NTC , VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET 7 24 PHASE VW 8 23 UGATE COMP , DPRSLPVR logic input is high - 0.45 1 A THERMAL MONITOR NTC Source Current NTC = 1.3 V Over-temperature Threshold V(NTC) falling VR_TT# Low Output Resistance 53 VOH 3V3 = 3.3V, I = -4mA , 3 28 VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET 7 24 PHASE VW 8 ... | Original |
33 pages, |
thermistor ntc 60 0250 ISL6261 ISL6261A ISL6261ACRZ ISL6261ACRZ-T ISL6261AIRZ ISL6261AIRZ-T ntc r54 TB347 d19 ntc ntc 0125 ntc thermistor k22 ntc k25 FN6354 ISL6261A abstract |
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| Abstract: , an NTC thermistor network will thermally compensates the gain and the time constant variations , 4 27 VCCP NTC 5 SOFT 6 OCSET 7 24 PHASE VW 8 23 UGATE COMP 9 , NTC 6 SOFT 7 OCSET 8 29 VSSP VW 9 28 PHASE COMP 10 27 UGATE 31 , THERMAL MONITOR NTC Source Current NTC = 1.3V Over-temperature Threshold V(NTC) falling , PGD_IN 2 29 VID1 RBIAS 3 28 VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 ... | Original |
34 pages, |
thermistor ntc 60 0250 ILS6261 ISL6261CR7Z ISL6261CR7Z-T ISL6261CRZ-T ISL6261IR7Z ISL6261IR7Z-T ISL6261IRZ ISL6261IRZ-T NTC THERMISTORS TYPE P15 NTC resistor T24 c90 thermistor ntc 33 1114 ISL6261 FN9251 ISL6261 abstract |
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| Abstract: sensing is used, an NTC thermistor network will thermally compensates the gain and the time constant , 2 29 VID1 RBIAS 3 28 VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET , input is high - 0.45 1 A THERMAL MONITOR NTC Source Current NTC = 1.3 V Over-temperature Threshold V(NTC) falling VR_TT# Low Output Resistance RTT I = 20mA CLK_EN# High , 29 VID1 RBIAS 3 28 VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET 7 ... | Original |
34 pages, |
thermistor R55 ISL6261 ISL6261A-BASED ISL6261ACRZ ISL6261ACRZ-T ISL6261AIRZ ISL6261AIRZ-T marking R99 ntc thermistor k22 TB347 TB363 thermistor ntc 60 0250 07375v Schematics 5250 L6261AR ISL6261A L6261AR abstract |
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| Abstract: DCR sensing or precise resistor sensing. If DCR sensing is used, an NTC thermistor network will , VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET 7 24 PHASE VW 8 23 , A 53 60 67 uA 1.17 1.2 1.25 V - 5 9 THERMAL MONITOR NTC Source Current NTC = 1.3 V Over-temperature Threshold V(NTC) falling VR_TT# Low Output , VID0 VR_TT# 4 27 VCCP NTC 5 SOFT 6 OCSET 7 24 PHASE VW 8 23 ... | Original |
34 pages, |
thermistor ntc 60 0250 TB347 ISL6261AIRZ ISL6261ACRZ ISL6261 ntc thermistor k22 ISL6261AIRZ-TR5392 ISL6261AR5392 FN6980 ISL6261AR5392 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| (AV) = 7.5A I D(RMS) = 11.8A P ON = 0.5W P OFF = 1W Pcond = 11W Tj = 765C P ON T R(D) = 18.6W Transistor time nTc and (n+1)Tc. Average current and RMS current in the diode The program calculates the average : Current in the diode between nTc and (n+1)Tc IL IP n=O nTc (n+1)Tc t n=T/2Tc Il In IT ID t slope:(Vm-VO)/L nTc (n+1- )Tc (n+1)Tc Tx Dn d Dn = Vmn Vo Vmn = V M sin ( 2 P ( n + 1 ) Tc T ) I L = In = Ip sin ( 2 nTC when Fig.3 : V FP versus di F /dt. (STTA806D STTA806D STTA806D STTA806D) 0 20 40 60 80 100 120 140 160 0 1 2 3 4 5 6 7 8 9 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3606-v1.htm |
STMicroelectronics | 02/04/1999 | 13.91 Kb | HTM | 3606-v1.htm |
| = 765C P ON T R(D) = 18.6W Transistor results I T(AV) = 5.2A I T(RMS) = 9.1A P ON (T R voltage. The fig.2 shows the current in the diode between the time nTc and (n+1)Tc. Average current and ) > h k 1 6 2 Fig.2 : Current in the diode between nTc and (n+1)Tc IL IP n=O nTc (n+1)Tc t n=T/2Tc Il In IT ID t slope:(Vm-VO)/L nTc (n+1- )Tc (n+1)Tc Tx Dn d Dn = Vmn Vo Vmn = V corresponding to the (di F /dt) OFF of the application and at the time nTC when Fig.3 : V FP versus di www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3606.htm |
STMicroelectronics | 20/10/2000 | 17.01 Kb | HTM | 3606.htm |
| (AV) = 7.5A I D(RMS) = 11.8A P ON = 0.5W P OFF = 1W Pcond = 11W Tj = 765C P ON T R(D) = 18.6W Transistor time nTc and (n+1)Tc. Average current and RMS current in the diode The program calculates the average : Current in the diode between nTc and (n+1)Tc IL IP n=O nTc (n+1)Tc t n=T/2Tc Il In IT ID t slope:(Vm-VO)/L nTc (n+1- )Tc (n+1)Tc Tx Dn d Dn = Vmn Vo Vmn = V M sin ( 2 P ( n + 1 ) Tc T ) I L = In = Ip sin ( 2 nTC when Fig.3 : V FP versus di F /dt. (STTA806D STTA806D STTA806D STTA806D) 0 20 40 60 80 100 120 140 160 0 1 2 3 4 5 6 7 8 9 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3606-v2.htm |
STMicroelectronics | 14/06/1999 | 13.87 Kb | HTM | 3606-v2.htm |
| OFF = 1W Pcond = 11W Tj = 765C P ON T R(D) = 18.6W Transistor results I T between the time nTc and (n+1)Tc. Average current and RMS current in the diode The program + Dn ) > h k 1 6 2 Fig.2 : Current in the diode between nTc and (n+1)Tc IL IP n=O nTc (n+1)Tc t n=T/2Tc Il In IT ID t slope:(Vm-VO)/L nTc (n+1- )Tc (n+1)Tc Tx and softness factor corresponding to the (di F /dt) OFF of the application and at the time nTC www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3606-v3.htm |
STMicroelectronics | 25/05/2000 | 15.74 Kb | HTM | 3606-v3.htm |
| 0.5W 1% 14 23 T6 MSD1260 MSD1260 MSD1260 MSD1260 1 3 2 4 Q9 BSS84 BSS84 BSS84 BSS84 3 1 2 Q6 Si7116DN Si7116DN Si7116DN Si7116DN 4 5 1 32 678 D18 AMBER D8 24V 3W C22 10u zero-ohm resistor is not stuffed. NTC 12h 12h Status Smart Li Smart NiX Standard Li 2) NiMH voltages www.datasheetarchive.com/download/59883040-364657ZC/1259a.zip (DC1259A REV2 sch.pdf) |
Linear | 22/09/2009 | 1702.01 Kb | ZIP | 1259a.zip |
| '5x to '54x Code Translation Revision 1.1 Frank C. Livingston Digital Signal Processing Applications - Semiconductor Group Texas Instruments Incorporated 1. Introduction 1#21; 2. Differences Between '5x and '54x Architectures 2#21; 2.1. Differences Relevant to Producing Working Code 2#21; 2.1.1. Bus Structure Differences 2#21; 2.1.2. CPU Architecture Differences 2#21; 2.1.3. Memory Map Differences 3#21; 2.1.4. Addressing Modes Differences 4#21; 2.1.5. Program Control Differ www.datasheetarchive.com/download/96737802-869491ZC/report.zip (report.doc) |
Texas Instruments | 08/02/1999 | 75.19 Kb | ZIP | report.zip |
| 34 13 23 18 SI1M R36 47 61 1E3 R37 51 52 10E3 D18 78 42 D11M C7 52 13 24E-12 24E-12 24E-12 24E-12 D6 51 52 D5M E8 51 R100 116 112 1E3 Q11 117 122 114 QLN D18 17 142 DD D19 58 17 DD E16 118 0 142 0 1 E17 121 0 58 122 108 1E3 R100 116 112 1E3 Q11 117 122 114 QLN D18 17 142 DD D19 58 17 DD E16 118 0 142 0 1 E www.datasheetarchive.com/files/apex-analog/simulation-models/apexpwmberkeley.lib |
Apex Analog | 17/01/2007 | 205.28 Kb | LIB | apexpwmberkeley.lib |
| 13 23 18 SI1M R36 47 61 1E3 R37 51 52 10E3 D18 78 42 D11M C7 52 13 24E-12 24E-12 24E-12 24E-12 D6 51 52 D5M E8 51 13 29 58 3.27E-5 27E-5 27E-5 27E-5 R99 122 108 1E3 R100 116 112 1E3 Q11 117 122 114 QLN D18 17 142 DD D19 58 17 DD E 106 58 142 58 0.5 I9 29 58 3.27E-5 27E-5 27E-5 27E-5 R99 122 108 1E3 R100 116 112 1E3 Q11 117 122 114 QLN D18 17 www.datasheetarchive.com/files/apex-analog/simulation-models/apexpwmpspice.lib |
Apex Analog | 17/01/2007 | 206.48 Kb | LIB | apexpwmpspice.lib |
| for Power Factor Correction B25667 B25667 B25667 B25667 A4307 A4307 A4307 A4307 A365 MKK440-D-18.8-01 cpedbl.pdf#Page42 Capacitors for Power www.datasheetarchive.com/files/siemens/dbl1998/smc/search.smc |
Siemens | 18/06/1998 | 1192.2 Kb | SMC | search.smc |
| .pdf#Page316 Power Capacitors Capacitors for Power Factor Correction B25667 B25667 B25667 B25667 A4307 A4307 A4307 A4307 A365 MKK-440-D-18.8-01 power www.datasheetarchive.com/files/siemens/dbl1999/smc/search.smc |
Siemens | 10/05/1999 | 1247.57 Kb | SMC | search.smc |