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LM3550SP/NOPB Texas Instruments A Flash LED Driver with Automatic Vf and ESR Detection for Mobile Camera Systems 20-UQFN -30 to 85 visit Texas Instruments Buy
LM3550SPX/NOPB Texas Instruments A Flash LED Driver with Automatic Vf and ESR Detection for Mobile Camera Systems 20-UQFN -30 to 85 visit Texas Instruments
LM358TPX Texas Instruments DUAL OP-AMP, 9000uV OFFSET-MAX, 1MHz BAND WIDTH, PBGA8, LEAD FREE, MICRO, BUMP, SMD-8 visit Texas Instruments
LM35CH Texas Instruments ±0.5°C Temperature Sensor with Analog Output and 30V Capability 3-TO -40 to 110 visit Texas Instruments
LM3519MK-20 Texas Instruments LED DISPLAY DRIVER, PDSO6, SOT-23, 6 PIN visit Texas Instruments
LM3535TME/NOPB Texas Instruments Multi-Display LED Driver with Ambient Light Sensing and Dynamic Backlight Control Compatibility 20-DSBGA -30 to 85 visit Texas Instruments Buy

Thermometer LM35 equivalent

Catalog Datasheet MFG & Type PDF Document Tags

PRINCIPLE OF TEMPERATURE SENSOR LM35

Abstract: applications for the CD4060 IC scales. Fortunately, in 1983 two I.C.'s, the LM34 Precision Fahrenheit Temperature Sensor and the LM35 , with the proper scaling factors can easily be adapted to the LM35. The LM34 has an output of 10 mV/°F , 2.73V which must be subtracted for use as a Celsius-scaled temperature sensor. LM34/LM35 Precision Monolithic Temperature Sensors LM34/LM35 Precision Monolithic Temperature Sensors AN-460 © 2002 , temperature sensor) and Figure 5 (an LM35 Celsius temperature sensor) have been developed to have a simpler
National Semiconductor
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PRINCIPLE OF TEMPERATURE SENSOR LM35 applications for the CD4060 IC CD4060 timer IC 16 PIN COS IC CD4060 ASTABLE MULTIVIBRATOR CD4060 Thermometer LM35 equivalent LM3911 LM134 LM135

PRINCIPLE OF TEMPERATURE SENSOR LM35

Abstract: ic1 cd4060 pin diagram scales Fortunately in 1983 two I C 's the LM34 Precision Fahrenheit Temperature Sensor and the LM35 , the proper scaling factors can easily be adapted to the LM35 The LM34 has an output of 10 mV F with a , LM34 LM35 Precision Monolithic Temperature Sensors LM34 LM35 Precision Monolithic Temperature , sensor) and Figure 5 (an LM35 Celsius temperature sensor) have been developed to have a simpler , geometries of the two transistors were equivalent then their leakage currents would be also but since Q1
National Semiconductor
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ic1 cd4060 pin diagram NPN Transistor DRIVER for lm3914 sensor LM35 driver lm35 sensor interfacing with adc IC2 CD4060 CURRENT TO VOLTAGE CONVERTER LM3914* lm35

Thermometer LM35 equivalent

Abstract: LM334M Set Current Error, V+ =2.5V, (Note 3) Equivalent Temperature Error Ratio of Set Current to Bias , of Set Current (Note 4) and Equivalent Slope Error Effective Shunt Capacitance 15 100µA ISET 1mA , LM134's inherent tempco. Typical Applications Ground Referred Fahrenheit Thermometer The values of , Typical Applications (Continued) Low Output Impedance Thermometer Terminating Remote Sensor for , -14 where R2 is the equivalent external resistance connected from the V- pin to ground. This negative
National Semiconductor
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LM334M LM334 spice model lm234 lm334 LM134/LM234/LM334 LM234-3 LM234-6 LM234 LM334 LB-41

lm35 sensor interfacing with adc

Abstract: IC LM35 working functionally compatible with the LM35/LM45 and provides a 250 mV output at +25°C. The ADT41 reads , An equivalent circuit for the ADT4x family of micropower, centigrade temperature sensors is shown in , , Q1 10X > I 7.5MA 03 S mi R2< S Figure 15. Temperature Sensor Simplified Equivalent Circuit , Figure 18a is an example of a simple Fahrenheit thermometer using either the ADT41 or the ADT43. This , °F=315mV Figure 18b. ADT42 Fahrenheit Thermometer Version 1 At the expense of additional circuitry, the offset
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IC LM35 working temperature control system using LM35 MC 931 transistor arc welder inverter ADT41GRT ADT42GRT ADT41/ADT42/ADT43 LM35/LM45 0G52722

lm35 sensor interfacing with adc

Abstract: ADT43 is functionally compatible with the LM35/LM45 and provides a 250 mV output at +25°C. The ADT41 , FUNCTIONAL DESCRIPTION 10mV An equivalent circuit for the ADT4x family of micropower, centigrade , Simplified Equivalent Circuit Figure 14. Voltage Noise Spectral Density vs. Frequency Resistors R1 and , in Figure 18a is an example of a simple Fahrenheit thermometer using either the ADT41 or the ADT43 , 257°F. ­3V 5 7 NC = NO CONNECT Figure 18c. ADT42 Fahrenheit Thermometer Version 2
Analog Devices
Original
fire sensor LM35 ADT43GRT AD654 so lm35 C3062

KS D 9502

Abstract: Thermometer LM35 equivalent ADT41 is functionally compatible with the LM35/LM45 and provides a 250 mV output at +25°C. The , hub SnSâ  FUNCTIONAL DESCRIPTION An equivalent circuit for the ADT4x family of micropower , Equivalent Circuit Figure 14. Voltage Noise Spectra! Density vs. Frequency Resistors R1 and R2 are , 18a is an example of a simple Fahrenheit thermometer using either the ADT41 or the ADT43. This , °F. NC = NO CONNECT Figure 18c. ADT42 Fahrenheit Thermometer Version 2 Average and Differential
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KS D 9502 DD52722 QQSB723

Generator Seebeck

Abstract: LM50 provided to cut supply current to less than 0.5 µA. The TMP35 is functionally compatible with the LM35 , (Soldering, 60 sec) . . . . . . . . . . . . . 300°C An equivalent circuit for the TMP3x family of , 6X GND Figure 2. Temperature Sensor Simplified Equivalent Circuit Resistors R1 and R2 are , thermometer using either the TMP35 or the TMP37. This circuit can be used to sense temperatures from 41°F to , @ 1mV/F ­ 58F VOUT @ ­40F = 18mV VOUT @ +257F = 315mV Figure 5b. TMP36 Fahrenheit Thermometer
Analog Devices
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Generator Seebeck LM50 TMP35/TMP36/TMP37 TMP35/ TMP36/ MO-178AA 10/02--D C00337

Thermometer LM35 equivalent

Abstract: SHUTDOWN NC = NO CONNECT TO-92 The TMP35 is functionally compatible with the LM35/LM45 and , equivalent circuit for the TMP3x family of micropower, centigrade temperature sensors is shown in Figure 1 , an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. This circuit can , : T 45.3 45.3 TMP36 Fahrenheit Thermometer Version 1 1+ R4 (TMP36)R3 - R4 R3 , Fahrenheit Thermometer Version 2 2.7V
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OCR Scan

IC LM35 working

Abstract: chromel alumel seebeck 0.5 µA. The TMP35 is functionally compatible with the LM35/LM45 and provides a 250 mV output at , rating conditions for extended periods may affect device reliability. An equivalent circuit for the , Figure 1. Temperature Sensor Simplified Equivalent Circuit TMP35FT9 TMP35GT9 TMP35FS TMP35GS , Figure 20a is an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. This , accordingly. VOUT @ ­40F = 18mV VS VOUT @ 257F = 315mV Figure 20b. TMP36 Fahrenheit Thermometer
Analog Devices
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chromel alumel seebeck TMP35 Cold-Junction Compensation LM35 pin configuration 8c 617 transistor high frequency welder circuit diagram 1180C C2116

lm35 sensor interfacing with adc

Abstract: TMP36 functionally-compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures from 10 , Temperature (Soldering, 60 sec) . . . . . . . . . . . . 300°C An equivalent circuit for the TMP3x family of , sockets. 2X 6X GND Figure 1. Temperature Sensor Simplified Equivalent Circuit ORDERING GUIDE , temperatures directly. Shown in Figure 20a is an example of a simple Fahrenheit thermometer using either the , Fahrenheit Thermometer Version 1 R1 VOUT At the expense of additional circuitry, the offset produced
Analog Devices
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2N1711 close reference LM35 cold junction circuits with KR3634 TMP370 lm35 digital thermometer with op amp arc welder circuit TMP35/TMP36/

TMP36GRT2

Abstract: Thermometer LM35 equivalent than 0.5 µA. The TMP35 is functionally compatible with the LM35/LM45 and provides a 250 mV output at , equivalent circuit for the TMP3x family of micropower, centigrade temperature sensors is shown in Figure 1 , -8 SO-8 RT-5 TO-92 TO-92 SO-8 SO-8 RT-5 GND Figure 1. Temperature Sensor Simplified Equivalent , thermometer using either the TMP35 or the TMP37. This circuit can be used to sense temperatures from 41°F to , Fahrenheit Thermometer Version 1 TMP35/37 GND VOUT R2 VOUT AD589 1.23V R3 R4 At the expense
Analog Devices
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TMP36GRT2

LM35 cold junction circuits with

Abstract: lm35 sensor interfacing with adc provided to cut supply current to less than 0.5 µA. The TMP35 is functionally compatible with the LM35 , (Soldering, 60 sec) . . . . . . . . . . . . . 300°C An equivalent circuit for the TMP3x family of , . Temperature Sensor Simplified Equivalent Circuit Resistors R1 and R2 are used to scale this result to , Fahrenheit temperatures. Shown in Figure 5a is an example of a simple Fahrenheit thermometer using either , @ ­40F = 18mV VOUT @ 257F = 315mV Figure 5b. TMP36 Fahrenheit Thermometer Version 1 At the
Analog Devices
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LM35 application circuits op-amp with lm35 temperature sensor Temperature sensor p1 t9140 2N2907 SOT-23 How to convert 4-20 ma two wire transmitter

KR3634

Abstract: Thermometer LM35 pcb circuit functionally-compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures from 10 , Temperature (Soldering, 60 sec) . . . . . . . . . . . . 300°C An equivalent circuit for the TMP3x family of , sockets. 2X 6X GND Figure 1. Temperature Sensor Simplified Equivalent Circuit ORDERING GUIDE , temperatures directly. Shown in Figure 20a is an example of a simple Fahrenheit thermometer using either the , Fahrenheit Thermometer Version 1 R1 VOUT At the expense of additional circuitry, the offset produced
Analog Devices
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Thermometer LM35 pcb circuit

TMP35 Cold-Junction Compensation

Abstract: AE SOT23 rt5 functionally compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures , /TMP36/TMP37 FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower , Simplified Equivalent Circuit Table 3. TMP3x Output Characteristics Sensor TMP35 TMP36 TMP37 Rev. D , 25 shows an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. This , +257°F = 315mV Figure 26. TMP36 Fahrenheit Thermometer Version 1 +3V R1 50k R3 R4 C1 +
Analog Devices
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AE SOT23 rt5 tmp36grtz 3-pin IR sensor proximity LM35 application AD654 equivalent equivalent transistor 2N1711

3-pin IR sensor proximity

Abstract: LM35 cold junction circuits with functionally compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures , FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower, centigrade temperature , Equivalent Circuit Table 4. TMP3x Output Characteristics Sensor TMP35 TMP36 TMP37 Rev. E | Page 8 , 25 shows an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. Using , TMP36 0.1µF VOUT @ ­40°F = 18mV VOUT @ +257°F = 315mV Figure 26. TMP36 Fahrenheit Thermometer
Analog Devices
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3pin ae sensor PIN CONFIGURATION alumel T7G SOT23-5 ref191 General Electric scr SOT-23 TMP36GRTZ-REEL7 TMP36/TMP37 D00337-0-8/08

ADW75001Z-0REEL7

Abstract: TMP37FT9Z functionally compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures , FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower, centigrade temperature , Equivalent Circuit Table 4. TMP3x Output Characteristics Sensor TMP35 TMP36 TMP37 Rev. F | Page 8 , 25 shows an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. Using , TMP36 0.1µF VOUT @ ­40°F = 18mV VOUT @ +257°F = 315mV Figure 26. TMP36 Fahrenheit Thermometer
Analog Devices
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ADW75001Z-0REEL7 TMP37FT9Z TMP35GRTZ-REEL7 976 sot23-8 SOT-23-8 T6G SOT23-5 D00337-0-11/10

TMP37GT9Z

Abstract: Tmp36 TMP35 is functionally compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 , TMP35/TMP36/TMP37 FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower , Î"VBE +VS Figure 22. Temperature Sensor Simplified Equivalent Circuit Table 4. TMP3x Output , of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. Using the TMP35, this , Thermometer Version 1 +3V R1 50kâ"¦ R3 R4 C1 + 10µF R2 50kâ"¦ 0.1µF 7 2 +VS
Analog Devices
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TMP37GT9Z
Abstract: VIEW NC 3 (Not to Scale) 6 NC The TMP35 is functionally compatible with the LM35/LM45 and provides , Sheet FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower, centigrade , Q3 Figure 22. Temperature Sensor Simplified Equivalent Circuit Table 4. TMP3x Output , thermometer using either the TMP35 or the TMP37. Using the TMP35, this circuit can be used to sense , VOUT @ â'"40°F = 18mV VOUT @ +257°F = 315mV Figure 26. TMP36 Fahrenheit Thermometer Version 1 Analog Devices
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D00337-0-11/13

3-pin IR sensor proximity

Abstract: MO-178 functionally compatible with the LM35/LM45 and provides a 250 mV output at 25°C. The TMP35 reads temperatures , FUNCTIONAL DESCRIPTION An equivalent circuit for the TMP3x family of micropower, centigrade temperature , Equivalent Circuit Table 4. TMP3x Output Characteristics Sensor TMP35 TMP36 TMP37 Rev. E | Page 8 , 25 shows an example of a simple Fahrenheit thermometer using either the TMP35 or the TMP37. Using , TMP36 0.1µF VOUT @ ­40°F = 18mV VOUT @ +257°F = 315mV Figure 26. TMP36 Fahrenheit Thermometer
Analog Devices
Original
MO-178 2n2907 SOT23
Abstract: cut supply cur­ rent to less than 0.5 |iA. The TM P35 is fiinctionally-compatible with the LM35 , DESCRIPTION An equivalent circuit for the TM P3x family of micropower, cen­ tigrade temperature sensors is , . Figure 1. Tem perature Sensor S im plified Equivalent Circuit ORDERING GUIDE Model Accuracy at , temperatures directly. Shown in Figure 20a is an example of a simple Fahrenheit thermometer using either the , 4-100k-100, OR EQUIVALENT 2 Figure 21b. Configuring M u ltip le Sensors for D ifferential Tem perature -
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TMP35/TMP36/TNIP37 P35/TM P36/TM
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