NTC5D-9
NTC5D-9

 

NTC5D-9

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Category: Available (Qty:9999999)
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Description

BUY NTC5D-9 https://www.utsource.net/itm/p/11255356.html

Parameter Description Value
Type Thermistor Type NTC (Negative Temperature Coefficient)
Model Model Number NTC5D-9
Resistance at 25°C Resistance at 25°C (Nominal) 5 kΩ
Tolerance Resistance Tolerance at 25°C ±1%
Beta (B) Value Beta Value (25°C/85°C) 3950 K
Operating Temperature Range Operating Temperature Range -40°C to +125°C
Dissipation Constant Dissipation Constant (δ) 1.2 mW/°C
Thermal Time Constant Thermal Time Constant (τ) 10 s
Max. Power Rating Maximum Power Rating at 25°C 125 mW
Lead Spacing Lead Spacing 5.0 mm
Lead Diameter Lead Diameter 0.6 mm
Body Dimensions Body Dimensions (L x W x H) 5.0 mm x 5.0 mm x 5.0 mm
Material Body Material Ceramic
Coating Coating Epoxy Resin

Instructions for Use

  1. Handling and Storage:

    • Store in a dry, cool place away from direct sunlight.
    • Handle with care to avoid mechanical damage.

  2. Mounting:

    • Solder the leads to the PCB using a temperature-controlled soldering iron.
    • Ensure the soldering temperature does not exceed 350°C to prevent damage.
    • Allow the thermistor to cool naturally after soldering.

  3. Electrical Connections:

    • Connect the thermistor in series or parallel as required by your circuit design.
    • Use appropriate wire gauge to minimize resistance and ensure reliable connections.

  4. Temperature Measurement:

    • Use the resistance-temperature relationship to determine the temperature.
    • The resistance can be measured using a multimeter or an analog-to-digital converter (ADC).

  5. Calibration:

    • Calibrate the thermistor using known temperature points to ensure accuracy.
    • Use the beta value and nominal resistance to calculate the temperature based on the measured resistance.

  6. Environmental Considerations:

    • Avoid exposing the thermistor to environments with high humidity or corrosive gases.
    • Ensure proper ventilation if used in enclosed spaces.

  7. Testing:

    • Test the thermistor in a controlled environment to verify its performance.
    • Compare the measured resistance values with the expected values for different temperatures.

  8. Troubleshooting:

    • If the thermistor does not provide accurate readings, check for loose connections, damaged leads, or contamination.
    • Replace the thermistor if it shows signs of physical damage or inconsistent readings.
(For reference only)

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