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Part Manufacturer Description Datasheet Download Buy Part
LTC4069EDC#PBF Linear Technology LTC4069 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC4069EDC#TRPBF Linear Technology LTC4069 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC4069EDC#TR Linear Technology LTC4069 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC4069EDC#TRMPBF Linear Technology LTC4069 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC4069EDC-4.4#PBF Linear Technology LTC4069-4.4 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC4069EDC-4.4#TR Linear Technology LTC4069-4.4 - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFN with NTC Thermistor Input; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C

TDC 310 NTC thermistor Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2011 - TDC 310 NTC thermistor

Abstract:
Text: , IMAXA = 39A 27.0 30.0 33.0 RSENSE = 0.75mI, IMAXA = 36A 25.0 28.0 31.0 RSENSE = , RSENSE = 0.85mI, IMAXA = 39A 30.0 33.0 36.0 RSENSE = 0.85mI, IMAXA = 36A 28.0 31.0 , 31.0 34.0 37.0 RSENSE = 0.95mI, IMAXA = 30A 25.0 28.0 31.0 RSENSE = 0.95mI, IMAXA , 33.0 RSENSE = 0.75mI, IMAXB = 36A 25.0 28.0 31.0 RSENSE = 0.75mI, IMAXB = 23A 15.0 , 30.0 33.0 36.0 RSENSE = 0.85mI, IMAXB = 36A 28.0 31.0 34.0 RSENSE = 0.85mI, IMAXB


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PDF VR12/IMVP7 MAX17411/MAX17511/MAX17511C/MAX17511N/ MAX17511T VR12/IMVP-7 MAX17411 MAX17511/MAX17511C/MAX17511N/MAX17511T MAX17411/MAX17511/ MAX17511C/MAX17511N/MAX17511T TDC 310 NTC thermistor TDC 310 NTC TDC 210 NTC TDC 310 thermistor 1/TDC 310 NTC thermistor MAX17511 GFX 2AA IMVP7 Ps3 MOTHERBOARD CIRCUIT diagram
2009 - TDC 310 thermistor

Abstract:
Text: CCP22 RFB11 CCP12 Load Line NTC Thermistor ; Locate close to VDD Power Stage VDD SENSE + VDD , Temperature Compensation A negative temperature coefficient ( NTC ) thermistor can be used for output1 inductor DCR temperature compensation. The thermistor should be placed close to the output1 inductors and , thermistor is used to reduce the nonlinearity of the thermistor . Remote Voltage Sensing VOSENX+ and VOSENX


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PDF IR3521 IR3521 TDC 310 thermistor TDC 310 NTC thermistor TDC 310 NTC smd code LE npn IR3521MTRPBF TDC+310+thermistor 315mV U-345 CVCC11 CCP22
TDC 310 NTC thermistor

Abstract:
Text: CCP12 RFB13 Load Line NTC Thermistor ; Locate close to VDD Power Stage To VDD Remote Sense , Temperature Compensation A negative temperature coefficient ( NTC ) thermistor can be used for output1 inductor DCR temperature compensation. The thermistor should be placed close to the output1 inductors and , thermistor is used to reduce the nonlinearity of the thermistor . Remote Voltage Sensing VOSENX+ and VOSENX


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PDF IR3521 IR3521 TDC 310 NTC thermistor TDC 310 thermistor
2007 - amd am2 6000 pin diagram

Abstract:
Text: 0.3750 V and 1.55 V (see Table 4). VR Hot Thermal Throttling Sense Input. An NTC thermistor between this , - 310 CDELAY = 10 nF 100 VCROWBAR Relative to FBRTN Relative to FBRTN VOL(PWM) VOH(PWM , 150 300 310 -200 -190 300 mV mV mV mV mV 2 250 200 1.8 300 160 5 500 4.0 , system: · · · Output inductor DCR sensing without a thermistor for lowest cost Output inductor DCR sensing with a thermistor for improved accuracy with tracking of inductor temperature Sense


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PDF ADP3197 800mV 250mV MO-220-VHHD-2 32-Lead CP-32-2) ADP3197JCPZ-RL1 CP-32-2 amd am2 6000 pin diagram TDC 310 thermistor TDC 310 NTC thermistor TDC 310 NTC ADP3197 ADP3120A ADP3120 NTC 102 pwm 555 timer mosfet driver Socket AM2
2012 - TDC 210 NTC

Abstract:
Text: features. Both outputs support DCR current sensing with single NTC thermistor for DCR temperature , . 11 IMON 12 NTC 13 ISEN3 Thermistor input to VR_HOT_L circuit to monitor Northbridge , ISEN2_NB PHASEX Ri VNB1 LGATEX ISUMN_NB NB_PH1 VNB1 Cn VNB2 NTC VNB , FB_NB NTC_NB VR_HOT_L VSEN_NB VNB_SENSE THERMAL INDICATOR IMON PWROK NTC VIN SVT , PH3 PH2 ISEN1 BOOT1 UGATE1 Ri VO1 ISUMN NTC VO3 LGATE1 PH1 VO1 PH3


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PDF ISL62773 ISL62773 5m-1994. FN8263 TDC 210 NTC
2012 - TDC 210 NTC

Abstract:
Text: features. Both outputs support DCR current sensing with single NTC thermistor for DCR temperature , PHASEX Ri VNB1 LGATEX ISUMN_NB NB_PH1 VNB1 Cn VNB2 NTC VNB FCCM_NB , NTC_NB VR_HOT_L VSEN_NB VNB_SENSE THERMAL INDICATOR IMON PWROK NTC VIN SVT µP , PH2 ISEN1 BOOT1 UGATE1 Ri VO1 ISUMN NTC VO3 LGATE1 PH1 VO1 PH3 PH1 , FCCM_NB NTC VIN PWM2_NB ISL6208 ISUMP_NB NB_PH1 NB_PH2 NB_PH2 VNB2 COMP_NB


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PDF ISL62773 ISL62773 5m-1994. FN8263 TDC 210 NTC schematic diagram northbridge amd motherboard schematic diagram svi AMD fusion panasonic make ntc thermistor MARKING CODE PH3 DIP 8 ISL62773HRZ ic s for cpu monitor ua4501
2009 - TD5 THERMISTOR

Abstract:
Text: Thermal Throttling Sense Input. An NTC thermistor between this pin and GND is used to remotely sense the , requires an NTC thermistor to be placed between TTSNS and GND. A fixed current of 123 mA is sourced out , VID6 VID7 VCC VIN 12V RTRDT2 4.99k 1% C5 1nF RTH1 100k , 5% NTC CSS 8.2nF , % NTC 10 * 10 * 10 * CE1 + CE8 + 560mF/4V/4Vy8 SANYO SEPC SERIES 5mOhms EACH , TDC , 100A PK ADP3430 ADP3430 PIN ASSIGNMENT Pin No. Mnemonic 1 EN Power Supply


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PDF ADP3430 ADP3430 ADP3430/D TD5 THERMISTOR adp3121
2008 - adp3121

Abstract:
Text: IMON Total Current Output Pin. 10 TTSENSE VR Temperature Sense Input. An NTC thermistor , monitoring channel using a thermistor . The VR thermal monitoring circuits require an NTC thermistor to be , VRHOT 100 k NTC OD 1k SW1 TTSENSE PROCHOT 6 4.7 uF PWM6 IMON 150 nH , 1500 pF X7R 69.8 k 4.7 uF 4.99 k 35.7 k 82.5 k ADP3121 10 nF 100 k Thermistor 1 , objectives of the system, as follows: • Output inductor DCR sensing without a thermistor for lowest cost


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PDF ADP4100 ADP4100 ADP4100/D adp3121
2006 - AN6052

Abstract:
Text: thermistor to improve current sense and load line accuracy. Due to the nonlinear nature of a NTC thermistor , resistors Rcs1 and Rcs2 are required to linearize the NTC thermistor resistance and produce the desired , CSREF1 Output Caps Select a NTC to be used based on type and value. Start with a thermistor with a , the NTC 's relative value is always 1 at 25°C. T1 := 50 T2 := 90 Input an initial thermistor value , phase-current balance until the load current is roughly equally distributed among phases. Tune the thermistor


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PDF AN-6052 FAN5019, FAN5031, FAN5032, FAN5032B, FAN5033, FAN50FC3 AN6052 ERT-J1V mathcad INDUCTOR DESIGN FAN5019 FAN5031 FAN5032 FAN5033 FAN5032B FAN5029 VR11
2008 - TD5 THERMISTOR

Abstract:
Text: . 10 TTSENSE VR Temperature Sense Input. An NTC thermistor between this pin and GND is used to , monitoring circuits require an NTC thermistor to be placed from TTSENSE to GND. For best http , Figure 1. Simplified Block Diagram http://onsemi.com 2 + 100 k NTC 3 COMP VID0 , k 1k 1k 1k 1k 1k 1k 5% 100 k Thermistor 1500 pF X7R SW6 SW5 SW4 , of the system, as follows: · Output inductor DCR sensing without a thermistor for lowest cost. ·


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PDF ADP4100 ADP4100 ADP4100/D TD5 THERMISTOR ADP3121 LFCSP-48 680-W LDO regulators with 50s smd marking code PWM135 Q100 VR11
2009 - AL 2450 dv

Abstract:
Text: temperature threshold. 10 TTSNS VR Hot Thermal Throttling Sense Input. An NTC thermistor between this , exceeded a user-defined temperature. The thermal monitoring circuit requires an NTC thermistor to be , 4.7mF 10W2 C6 4.7mF RTH2 100kW 5% NTC BSC100N03LS 220nH/0.57mW 4.7mF C2 C1 4.7mF , ) 5mW Each 0.5V TO 1.6V + + 10W2 115A TDC , 130A PK C2 4.7mF CIN2 680mF BSC100N03LS , RTH1 0.1mF 100kW 5% NTC 3.3pF CA CFB PROCHOT 1 40 C4 1mF R5 2.2W Q3 Q1


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PDF ADP3290 ADP3290 ADP3290/D AL 2450 dv T1 Packaging vishay Schematics AL 2450 DV LFCSP40 BSC100N03LS VR11 ADP3290JCPZ-RL ADP3122 adp3121 ADP3120A
2009 - adp3121

Abstract:
Text: Thermal Throttling Sense Input. An NTC thermistor between this pin and GND is used to remotely sense the , exceeded a user−defined temperature. The thermal monitoring circuit requires an NTC thermistor to be , / 0.57 mW RTH2 100 kW, 5% NTC 8 C19 27 nF C17 18 nF U4 R6 2.2 W 1 3 4 C14 1 , DRVH IN SW VCC(CORE) 0.5 V to 1.6 V 85 A TDC , 100 Apk ADP3120A 3 4 C18 1 mF D4 , % RTRDT2 4.99 kW 1% RTH1 RTRDT1 100 kW, CSS 69.8 kW 5% NTC 8.2 nF 1% CDLY, 18 nF CFB 3.3 nF


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PDF ADP3293 ADP3293 ADP3293/D adp3121
2008 - adp3121

Abstract:
Text: temperature threshold. VR Hot Thermal Throttling Sense Input. An NTC thermistor between this pin and GND is , requires an NTC thermistor to be placed between TTSNS and GND. A fixed current of 120 mA is sourced out of , V CC(CORE) 5mW Each 0.5V TO 1.6V + + 10W2 115A TDC , 130A PK VCC(CORE) RTN 22mFx18 MLCC IN SOCKET VCC , IPD09N03LA IPD09N03LA RB 1.21kW CSS 120pF RA 28.0kW 8.2nF C6 CDLY 18nF RTH1 0.1mF 100kW 5% NTC , % 10W2 RTH2 100kW 5% NTC 1% C TRDT 560pF 27nF U5 C23 ADP3120A 1 8 BST DRVH 2 7 IN SW 3 6 OD PGND 4


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PDF ADP3290 ADP3290plicable ADP3290/D adp3121 intel motherboard
2009 - adp3121

Abstract:
Text: NTC thermistor to be placed between TTSNS and GND. A fixed current of 120 mA is sourced out of the , IPD09N03LA CSS 120pF RA 28.0kW 8.2nF C6 CDLY 18nF RTH1 0.1mF 100kW 5% NTC IRFE OD GND , Each 0.5V TO 1.6V + + 10W2 115A TDC , 130A PK CE1 IPD09N03LA CB 120pF 1 Q5 C17 , 100kW 5% NTC ADP3290 VTT I/O C14 1mF 220nH/0.57mW IPD09N03LA C4 1mF BSC100N03LS , programmed VRHOT temperature threshold. 10 TTSNS VR Hot Thermal Throttling Sense Input. An NTC


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PDF ADP3290 ADP3290 ADP3290/D adp3121
2008 - adp3121

Abstract:
Text: exceeded a user-defined temperature. The thermal monitoring circuit requires an NTC thermistor to be placed , Diagram http://onsemi.com 2 ADP3293 VCC(CORE) 0.5 V to 1.6 V 85 A TDC , 100 Apk ) VCC(CORE) RTN VCC , nH/0.57 mW x3 CIN1 C3 4.7 mF CIN2 C2 x3 CIN3 C1 Q1 BSC100N03LS RTH2 100 kW, 5% NTC Q4 , POWER GOOD PROCHOT VTT I/O RTRDT2 4.99 kW 1% RTH1 RTRDT1 100 kW, CSS 69.8 kW 5% NTC 8.2 nF 1% CDLY , exceeds the programmed VRHOT temperature threshold. VR Hot Thermal Throttling Sense Input. An NTC


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PDF ADP3293 ADP3293/D adp3121 336mf ADP3122 marking date code Sanyo semiconductor
2009 - THCBR1

Abstract:
Text: temperature threshold. 10 TTSNS VR Hot Thermal Throttling Sense Input. An NTC thermistor between this , / 0.57 mW RTH2 100 kW, 5% NTC 8 C19 27 nF C17 18 nF U4 R6 2.2 W 3 4 1 C14 , VCC(BENBE) VBB(BENBE) BST DRVH IN SW VCC(CORE) 0.5 V to 1.6 V 85 A TDC , 100 Apk ADP3120A , % C7 1 nF RT 113 kW 1% RTRDT2 4.99 kW 1% RTH1 RTRDT1 100 kW, CSS 69.8 kW 5% NTC 8.2 , , depending on the objectives of the system, as follows: · Output inductor DCR sensing without a thermistor


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PDF ADP3293 ADP3293 ADP3293/D THCBR1 Schematics AL 2450 DV intel motherboard PCb diagram 10937 VR11 LFCSP40 IPD09N03LA BSC100N03LS ADP3120A adp3121
2012 - TDC 210 NTC

Abstract:
Text: The ISL6277 has several other key features. Both outputs support DCR current sensing with single NTC thermistor for DCR temperature compensation or accurate resistor current sensing. Both outputs utilize , ISEN2_NB PHASEX Ri VNB1 LGATEX ISUMN_NB NB_PH1 VNB1 Cn VNB2 NTC VNB , FB_NB NTC_NB VR_HOT_L VSEN_NB VNB_SENSE THERMAL INDICATOR IMON PWROK NTC VIN SVT , ISEN1 BOOT1 UGATE1 Ri VO1 ISUMN NTC VO3 LGATE1 PH1 VO1 PH3 PH1 PH2


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PDF ISL6277 ISL6277 5m-1994. FN8270 TDC 210 NTC
2012 - TDC 210 NTC

Abstract:
Text: NTC thermistor for DCR temperature compensation or accurate resistor current sensing. Both outputs , ENABLE VDDP VIN VDD BOOTX UGATEX PHASEX LGATEX VIN NB_PH1 NB_PH2 Ri VNB1 VNB2 Cn NTC ISEN1_NB , IMON NTC THERMAL INDICATOR VNB2 VIN COMP FB2 FB VSEN VCORE_SENSE ISL6277 PH3 VO3 BOOT2 UGATE2 PHASE2 VIN VCORE RTN LGATE2 ISEN1 ISEN2 ISEN3 Ri BOOT1 UGATE1 ISUMN GND PAD NTC , VNB PWM_Y NB_PH1 NB_PH2 VNB1 VNB2 Cn Ri NTC ISEN1_NB ISEN2_NB ISUMN_NB FCCM_NB NB_PH1


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PDF ISL6277 ISL6277 5m-1994. FN8270 TDC 210 NTC ISL6277HRZ panasonic tape and reel
2002 - rbs 6102

Abstract:
Text: , level shifting driver chip, three bootstrap diodes with current limiting resistor and an NTC thermistor , conditions, IGBT temperature is continuously monitored by the internal NTC thermistor feeding a temperature , start networks. The soft start network 17(a) uses a self heating NTC thermistor or Surgistor for low , RCIN VSS COM 6 7 8 9 10 11 12 13 LIN2 (19) LIN3 (20) T/ITRIP (21) R1 RT THERMISTOR , for module analog temperature sensing thermistor . Because of the dual function requirements, an


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PDF AN-1044 rbs 6102 TDC 310 NTC SCHEMATIC WITH IR2153 TDC 310 NTC thermistor induction heating ir2153 7805 DPAK schematic diagram inverter air conditioner SCHEMATIC WITH IR2153 protection power supply CIRCUIT DIAGRAM using IR2153 IR2153 equivalent
2002 - SCHEMATIC WITH IR2153

Abstract:
Text: resistor and an NTC thermistor /resistor pair for over temperature trip. The over current trip circuit , conditions, IGBT temperature is continuously monitored by the internal NTC thermistor feeding a temperature , start networks. The soft start network 17(a) uses a self heating NTC thermistor or Surgistor for low , 10 11 12 13 LIN2 (19) LIN3 (20) T/ITRIP (21) R1 RT THERMISTOR R2 C VDD (22) VSS , current trip voltage. · Output pin for module analog temperature sensing thermistor . Because of the


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PDF AN-1044 IRAMS10UP60A SCHEMATIC WITH IR2153 600V igbt dc to dc buck converter rbs 6102 SCHEMATIC WITH IR2153 1EMU06 DIODE rbs 6102 schematic diagram washing machines TDC 310 NTC thermistor the calculation of the power dissipation for the igbt and the inverse diode in circuits schematic diagram ac-dc inverter SCHEMATIC WITH IR2153 protection IR2153
2002 - TDC 310 NTC thermistor

Abstract:
Text: , three bootstrap diodes with current limiting resistor and an NTC thermistor /resistor pair for over , conditions, IGBT temperature is continuously monitored by the internal NTC thermistor feeding a temperature , RCIN VSS COM 6 7 8 9 10 11 12 13 LIN2 (19) LIN3 (20) T/ITRIP (21) R1 RT THERMISTOR R2 , temperature sensing thermistor . Because of the dual function requirements, an external circuit similar to , in the event of over current detection. IRAM Module VCC +15V VCC (22) NTC 8.2K R25


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PDF AN-1044 TDC 310 NTC thermistor SCHEMATIC WITH IR2153 rbs 6102 flyback ir2153 TDC 310 NTC IR2153 equivalent schematic diagram inverter air conditioner INVERTER using IR2153 IR2153 SCHEMATIC WITH IR2153 protection
2006 - TDC 310 thermistor

Abstract:
Text: . An NTC thermistor between this pin and GND is used to remotely sense the temperature at the desired , userdefined temperatures. The thermal monitoring circuit requires an NTC thermistor to be placed between , 150 300 300 mV mV mV 250 250 -250 -250 150 300 310 -200 -190 300 mV mV mV , 190 -300 - 310 CDELAY = 10 nF 100 VCROWBAR tCROWBAR Relative to FBRTN Overvoltage to PWM , inductor DCR sensing without a thermistor for lowest cost · Output inductor DCR sensing with a


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PDF ADP3196 250mV 800mV ILIM23 MO-220-VJJD-2 40-Lead CP-40) ADP3196JCPZ-RL1 CP-40 TDC 310 thermistor TDC 310 NTC thermistor TDC 310 NTC NTC 102 IPD09N03L ADP3196 soft start circuit 555 timer ADP3120A 1N4148 "AMD Processors"
2008 - TDC 310 thermistor

Abstract:
Text: monitoring circuit requires an NTC thermistor to be placed between TTSENSE and GND. A fixed current of 8 × , 300 300 mV mV mV 250 250 -250 -250 150 300 310 -200 -190 300 mV mV mV mV mV 1.85 s ns V 200 190 -300 - 310 CDELAY = 10 nF 100 VCROWBAR tCROWBAR Relative to , PROCHOT# (a PC system signal) output from the CPU. VR Hot Thermal Throttling Sense Input. An NTC thermistor between this pin and GND is used to remotely sense the temperature at the desired thermal


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PDF ADP3196 250mV 800mV ADP3196 TDC 310 thermistor TDC 310 NTC thermistor TDC 310 NTC soft start circuit 555 timer soft start and stop circuit 555 timer NTC 102 IPD09N03L CP-40 ADP3120A
2008 - TDC 310 NTC thermistor

Abstract:
Text: . An NTC thermistor between this pin and GND is used to remotely sense the temperature at the desired , userdefined temperatures. The thermal monitoring circuit requires an NTC thermistor to be placed between , mV 50 150 150 300 300 mV mV mV 250 250 −250 −250 150 300 310 −200 −190 300 mV mV mV mV mV 1.85 µs ns V 200 190 −300 − 310 CDELAY = 10 nF 100 , the objectives of the system as follows: • Output inductor DCR sensing without a thermistor for


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PDF ADP3196 250mV 800mV TDC 310 NTC thermistor TDC 310 NTC
2008 - 1N4148

Abstract:
Text: VRHOT temperature threshold. VR Hot Thermal Throttling Sense Input. An NTC thermistor between this pin , thermal-monitoring circuit requires an NTC thermistor to be placed between TTSENSE and GND. For the ADP3198 to , of the system, as follows: · Output inductor DCR sensing without a thermistor for lowest cost · Output inductor DCR sensing with a thermistor for improved accuracy with tracking of inductor , thermistor . The current source is internally limited to 5 V. An internal circuit compares the TTSENSE


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PDF ADP3198 150mV 500mV 850mV 1N4148 adp3110 ADP3110A ADP3198 ADP31981 TD5 THERMISTOR toroid model s-400 VR10 VR11
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