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LM3S5R31-IBA80-C3 Texas Instruments Stellaris Microcontroller 103-NFBGA visit Texas Instruments

TTC 103 thermistor

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Abstract: . Digital meter Part Number Code 1 Product Type Thinking TTC NTC thermistor TTC type 2 3 4 Body Size 3 4*H5mm Definition of B Value A 6 7 102 103 473 B25/50 9 , Temperature of Soldering Iron-tip 360 (max.) Soldering Time 3 sec (max.) Distance from Thermistor Thinking Electronic Industrial
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TTC 103 ntc thermistor TTC 102 ntc thermistor ttc 102 thermistor NTC TTC 103 thermistor thermistor ttc 103 TTC3A103 TTC03 B25/85 R25/R25
Abstract: 4. Digital meter Part No. Code 1 Product Code Thinking TTC NTC Thermistor TTC Type 2 , Zero Power Resistance at 25â"ƒ (R25) 102 103 473 9 ±1% ±2% ±3% ±5% ±10% 30 31 , Item Conditions Temperature of Soldering Iron-tip 360â"ƒ (max.) Distance from thermistor Thinking Electronic Industrial
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Abstract: Thermistor TTC 100K 900uH 10mH 10uH RM-8 400uH VZ 9G LED CC 1nF XC 0.33uF/275V YC 470pF/400V EC 82uF/400V CC , protection and over-temperature protection. For overtemperature protection, an external NTC thermistor can be , Rev. 1.0.3 www.fairchildsemi.com FAN6862 - Highly Integrated Green-Mode PWM Controller , Fairchild Semiconductor Corporation FAN6862 · Rev. 1.0.3 www.fairchildsemi.com 2 FAN6862 - Highly , Temperature Detection. An external NTC thermistor is connected from this pin to GND for over-temperature Fairchild Semiconductor
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thermistor sck053 transistor y2010dn Y2010DN sck053 y2010dn- TTC 103 ntc resistor MS-001 MKT-N08MREV1
Abstract: Type THINKING TTC NTC Thermistor TTC Series Body Size 3 3mm Definition of B Value A B B25/85 B25/50 Zero Power Resistance at 25 (R25) 102 103 473 1K 10K 47K Tolerance of R25 F G H J K ±1% , Iron Item Temperature of Soldering Iron-tip Soldering Time Distance from Thermistor Conditions 360 Thinking Electronic Industrial
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TTC 5200 TTC3A103*39H ntc TTC 103 TTC 10k thermistor TTC3A104 TTC3A103374
Abstract: 8 9 10 11 12 TTC · The bq24630 charges the battery in three phases , Over-Voltage Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at , 10 kW VREF D4 Pack Thermistor Sense 103AT R9 2.2 kW R2 500kW Cff 22 pF STAT1 , F TS TTC PwrPad CTTC 0.11 F NOTE: VIN=19V, BAT=3-cell LiFePO4, Iadapter_limit , noted) VALUE V ­2 to 36 V VFB ­0.3 to 16 V REGN, LODRV, ACSET, TS, TTC ­0.3 to Texas Instruments
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SLUS894 QFN-24 RTH TTC 103 thermistor Si7617DN bq24630RGET bq24630RGER maring 20 82
Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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SLUS894A ISO/TS16949
Abstract: STAT1 5 13 SRN TS 6 7 8 9 10 11 12 TTC â'¢ The bq24630 charges the , Overvoltage Protection â'" Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 , R13 10 kW VREF Pack Thermistor Sense 103AT R9 2.2 kW D4 PACK+ PACK- C12 C13 10 , ADAPTER+ R1 100 kW SRN VFB R16 100 W R10 6.8 kW C1 0.1 F TS TTC PwrPad CTTC , , ACSET, TS, TTC â'"0.3 to 7 V BTST, HIDRV with respect to GND â'"0.3 to 39 V VREF Texas Instruments
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Abstract: Dynamic Power Management (DPM) Safety Protection ­ Input Over-Voltage Protection ­ Battery Thermistor , VREF ISET1 TTC PG PH · HIDRV 1 Please be aware that an important notice , LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 6.8 kW R16 100 W C1 0.1 F TS , , LODRV, ACSET, TS, TTC BTST, HIDRV with respect to GND VREF, ISET1, ISET2 Maximum difference voltage Texas Instruments
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Abstract: Dynamic Power Management (DPM) Safety Protection ­ Input Over-Voltage Protection ­ Battery Thermistor , VREF ISET1 TTC PG PH · HIDRV 1 Please be aware that an important notice , LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 6.8 kW R16 100 W C1 0.1 F TS , , LODRV, ACSET, TS, TTC BTST, HIDRV with respect to GND VREF, ISET1, ISET2 Maximum difference voltage Texas Instruments
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Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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RTH 103at
Abstract: Dynamic Power Management (DPM) Safety Protection ­ Input Over-Voltage Protection ­ Battery Thermistor , VREF ISET1 TTC PG PH · HIDRV 1 Please be aware that an important notice , LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 6.8 kW R16 100 W C1 0.1 F TS , , LODRV, ACSET, TS, TTC BTST, HIDRV with respect to GND VREF, ISET1, ISET2 Maximum difference voltage Texas Instruments
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LiFePO4 charger
Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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Abstract: Protection ­ Battery Thermistor Sense Suspend Charge at Hot/Cold and Automatically ICHARGE/8 at Hot/Cold or , -24 STAT2 VREF ISET1 TTC PG PH 1 Please be aware that an important notice concerning , 1 uF N C6 0.1 uF VREF LODRV CE GND D2 STAT1 SRP STAT2 PG VFB TTC PwrPad CTTC 0.11 F R12 10 kW ADAPTER + R13 10 kW VREF D3 SRN D4 Pack Thermistor Sense 103AT R9 2.2 kW R10 , , ACP, ACN, SRP, SRN, BATDRV, ACDRV, CE, STAT1, STAT2, PG PH VFB REGN, LODRV, ACSET, TS, TTC BTST, HIDRV Texas Instruments
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SI7617 TTC 103 745
Abstract: -­Chirp Fourier Transform Tracking Telemetry and Command (TT&C) x Signal Chain for Telemetry Encoder , ( TT&C ) x Attitude and Orbit Control system ( AOCS ) Telemetry encoders and digital demodulation are signal chains used for TT&C whereas signal chains for sensors, inertial sensors, pressure sensors are , specification. SIGNAL CHAIN FOR A TELEMETRY ENCODER The TT&C subsystem forms the link between the ground , transducer and 10 V excitation, CMRR should be better than 103 dB. The gain required is typically 500. Low -
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sun Sensor satellite bolometer sensor bolometer thermopile array SUN SENSOR MAT02 OP270 OP200 OP400 AD585 SMP11
Abstract: , thermistor or temperature switch input, and a charge status output pin. The ICS1718 uses pulsed-current , , capable of supplying 7 mA. 6 THERM IN Thermistor or thermal switch input referenced to , shown in Table 4A and Figure 9. The voltage at THERM pin 6 is produced by a NTC thermistor in the , thermistor or normally closed thermal switch referenced to battery minus for THERM pin 6 sensing, the above , cold when an NTC thermistor input is available. CMN blink on blink off Description Battery Galaxy Power
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Semitec AT103 AT103-1 SeMitec Ishizuka Electronics NTC SeMitec Ishizuka Electronics semitec 103 at PTC Thermistor C 883
Abstract: voltage is derived from RT (a thermistor, RTD, or other variable resistance element) excited by one of , Thermocouple TTC 4 + e'2 ­ 3 D 5 ­ eIN + 1mA R5 2k VTC RT R2 + V4 ­ + e2 , make the output 4mA at TTC = 0°C (VTC= ­1.28mV) and TD = +25°C (VD = 0.6V). A circuit is shown in , diode. Solving for R6 yields 51. VTC will be ­1.28mV when TTC = 0°C and the reference junction is at , IDEAL and can be found by subtracting equations (5) and (3). CMRR = 31.6 X 103 for 90dB (6) 1 -
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XTR101 type j thermocouple XTR101BG XTR101AU XTR101AP XTR101AG 14-PIN
Abstract: voltage is derived from RT (a thermistor, RTD, or other variable resistance element) excited by one of , Thermocouple TTC 4 + e'2 ­ 3 D 5 ­ eIN + 1mA R5 2k VTC RT R2 + V4 ­ + e2 , make the output 4mA at TTC = 0°C (VTC= ­1.28mV) and TD = +25°C (VD = 0.6V). A circuit is shown in , diode. Solving for R6 yields 51. VTC will be ­1.28mV when TTC = 0°C and the reference junction is at , IDEAL and can be found by subtracting equations (5) and (3). CMRR = 31.6 X 103 for 90dB (6) 1 Burr-Brown
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zero elevation and zero suppression voltage reference IC LM129 transistor d 1564 precision 4-20ma current source 2n2222 transistor book 2n2222 references
Abstract: (a). In this example the sensor voltage is derived from RT (a thermistor, RTD, or other variable , Thermocouple TTC 4 + e'2 ­ 3 D 5 ­ eIN + 1mA R5 2k VTC RT R2 + V4 ­ + e2 , make the output 4mA at TTC = 0°C (VTC= ­1.28mV) and TD = +25°C (VD = 0.6V). A circuit is shown in , diode. Solving for R6 yields 51. VTC will be ­1.28mV when TTC = 0°C and the reference junction is at , IDEAL and can be found by subtracting equations (5) and (3). CMRR = 31.6 X 103 for 90dB (6) 1 Texas Instruments
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dc 722 sbos146
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