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Datasheet Texas Instruments LM35CAH

Datasheet Texas Instruments LM35CAH

ÏðîèçâîäèòåëüTexas Instruments
ÑåðèÿLM35
ÌîäåëüLM35CAH

±0.5°C Temperature Sensor with Analog Output with 30V Capability 3-TO -40 to 110

Datasheets

  • Ñêà÷àòü » Datasheet, PDF, 1.5 Ìá, Âåðñèÿ: G, 15-08-2016
    LM35 Precision Centigrade Temperature Sensors datasheet
    Âûïèñêà èç äîêóìåíòà ↓
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    Documents LM35
    SNIS159H – AUGUST 1999 – REVISED DECEMBER 2017 LM35 Precision Centigrade Temperature Sensors
    1 Features 3 Description The LM35 series are precision integrated-circuit
    temperature devices with an output voltage linearlyproportional to the Centigrade temperature. The
    LM35 device has an advantage over linear
    temperature sensors calibrated in Kelvin, as the user
    is not required to subtract a large constant voltage
    from the output to obtain convenient Centigrade
    scaling. The LM35 device does not require any
    external calibration or trimming to provide typical
    accuracies of ±¼°C at room temperature and ±¾°C
    over a full -55°C to 150°C temperature range. Lower
    cost is assured by trimming and calibration at the
    wafer level. The low-output impedance, linear output,
    and precise inherent calibration of the LM35 device
    makes interfacing to readout or control circuitry
    especially easy. The device is used with single power
    supplies, or with plus and minus supplies. As the ...

Öåíû

    LM35CAH íà ÐàäèîËîöìàí.Öåíû — îò 41,14 äî 960 ðóá.
    PRECISION TEMP SENSOR, TO-46-3, Sensor / Transducer Type:Temperature, Voltage, Output:6V, Current, Output:10mA, Accuracy:0.5°C, Voltage, Output per °C:10mV/°C, Voltage, Supply Min:4V, Voltage,...
    Öåíà LM35CAH
    ÏîñòàâùèêÏðîèçâîäèòåëüÍàèìåíîâàíèåÖåíà
    5 ýëåìåíòMicrochipMCP4011T-202E/MCîò 41 ðóá.
    T-electronTexas InstrumentsLM35CAH/NOPB682 ðóá.
    Òàéì×èïñLM35CAHïî çàïðîñó
    LifeElectronicsLM35CAHïî çàïðîñó
    ÝëåêòðîÏëàñò - ÅêàòåðèíáóðãLM35CAH/NOPBïî çàïðîñó
    Âñå 19 ïðåäëîæåíèé îò 14 ïîñòàâùèêîâ »

Ñåìåéñòâî: LM35

Ñòàòóñ

Ñòàòóñ ïðîäóêòà ïðîèçâîäñòâå (Ðåêîìåíäóåòñÿ äëÿ íîâûõ ðàçðàáîòîê)
Äîñòóïíîñòü îáðàçöîâ ó ïðîèçâîäèòåëÿÍåò

Êîðïóñ / Óïàêîâêà / Ìàðêèðîâêà

Pin33
Package TypeNDVNDV
Industry STD TermTO-CANTO-CAN
JEDEC CodeO-MSFM-PO-MSFM-P
Package QTY500500
ÌàðêèðîâêàLM35CAHLM35CAH
Width (ìì)4.6994.699
Length (ìì)4.6994.699
Thickness (ìì)2.3622.362
Max Height (ìì)2.6672.667
Mechanical DataÑêà÷àòü »Ñêà÷àòü »

Ïàðàìåòðû

InterfaceAnalog Output
Local Sensor Accuracy(Max)0.5 +/- C
Ðàáî÷èé äèàïàçîí òåìïåðàòóðîò -40 äî 110,-55 äî 150,0 äî 100,0 äî 70 C
Package GroupTO
Package Size: mm2:W x L3TO: 22 mm2: 4.699 x 4.699(TO) PKG
RatingCatalog
Supply Current(Max)114 uA
Supply Voltage(Max)30 Â
Supply Voltage(Min)4 Â

Ýêîëîãè÷åñêèé ñòàòóñ

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Application Notes

  • Ñêà÷àòü » Application Notes, PDF, 614 Êá, 27-08-2014
    Thermocouple, Cold-Junction Compensation—Analog Approach
    Temperature is the most commonly measured physical parameter in a variety of systems, including automotive, industrial, and consumer domains. There are various temperature transducers available to address the need of accurate temperature measurement. Thermocouples are widely popular because they are inexpensive, have a wide range, are small in size, and do not need excitation. This application not
  • Ñêà÷àòü » Application Notes, PDF, 495 Êá, Âåðñèÿ: C, 01-05-2013
    AN-460 LM34/LM35 Precision Monolithic Temperature Sensors (Rev. C)
    This application report discusses the details and uses of the Texas Instruments LM34 and LM35 asprecision temperature sensors.
  • Ñêà÷àòü » Application Notes, PDF, 218 Êá, 11-05-2004
    AN-480 A 40 MHz Programmable Video Op Amp
  • Ñêà÷àòü » Application Notes, PDF, 115 Êá, Âåðñèÿ: A, 01-05-2013
    AN-1852 Designing With pH Electrodes (Rev. A)
    A pH electrode measures hydrogen ion (H+) activity and produces an electrical potential or voltage. Theoperation of the pH electrode is based on the principle that an electric potential develops when two liquidsof different pH come into contact at opposite sides of a thin glass membrane. This was originallydiscovered in 1906 by Max Cremer [1]. His discovery laid the foundation for Fritz Habe
  • Ñêà÷àòü » Application Notes, PDF, 187 Êá, Âåðñèÿ: B, 23-04-2013
    High-Efficiency 3A Battery Chargers Use LM2576 Regulators (Rev. B)
    This application report describes two LM2576-based designs that provide up to 3A of current for batterycharging.
  • Ñêà÷àòü » Application Notes, PDF, 245 Êá, 17-02-2003
    Sensing and Monitoring for Control and Protection Seminar
  • Ñêà÷àòü » Application Notes, PDF, 287 Êá, Âåðñèÿ: A, 23-06-2010
    TO-92 Packing Options / Ordering Instructions (Rev. A)

Ìîäåëüíûé ðÿä

Ñåðèÿ: LM35 (27)

Êëàññèôèêàöèÿ ïðîèçâîäèòåëÿ

  • Semiconductors > Space & High Reliability > Sensors > Temperature Sensor

Íà àíãëèéñêîì ÿçûêå: Datasheet Texas Instruments LM35CAH

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