Thermistor KNSCHA 192NTC0006 Negative Temperature Coefficient Device Suitable for Power Supplies and Lighting
Product Overview
This product is a Negative Temperature Coefficient (NTC) thermistor designed for various electronic applications. It offers precise resistance values at zero power and is suitable for use in power supplies, energy-saving lighting, and electronic circuits. The thermistor is characterized by its resistance-temperature relationship, thermal time constant, dissipation factor, rated power, and allowable operating current.
Product Attributes
- Brand: Not specified
- Origin: Not specified
- Material: Not specified
- Color: Not specified
- Certifications: Not specified
Technical Specifications
| Parameter | Value | Unit | Description |
| Rated Zero Power Resistance | Not specified | Resistance at 25 (reference temperature) under zero power conditions. | |
| Accuracy Error | Not specified | % | Tolerance of the rated zero power resistance. |
| Max Steady State Current | Not specified | A | Maximum continuous current the thermistor can handle without exceeding its temperature limits. |
| Size Model | 4032(5D-9) | Physical dimensions of the thermistor. | |
| Resistance Value at Zero Power | Not specified | Resistance measured at zero power. | |
| Environmental Temperature | Not specified | Operating temperature range. | |
| Test Power | Not specified | mW | Power used for resistance testing. |
| Thermal Time Constant | Not specified | s | Time required for the thermistor temperature to change by a certain amount when the ambient temperature changes rapidly under zero power conditions. |
| Dissipation Factor | Not specified | mW/ | Power required to raise the thermistor temperature by 1 due to self-heating at a certain ambient temperature. |
| Rated Power | Not specified | mW | Power required to raise the surface temperature by 1 due to self-heating at 25 ambient temperature. |
| Allowable Operating Current | Not specified | A | Current that causes a 1 temperature rise due to self-heating in still air. |
Recommended Soldering Conditions
Reflow Soldering:
- Preheating: Not specified
- Time above 183: Not specified
- Peak Temperature: Maximum Not specified
- Soldering: Maximum Not specified times
Manual Soldering:
- Iron Power: Maximum Not specified W
- Preheating: Not specified
- Soldering Iron Tip Temperature: Maximum Not specified
- Soldering Time: Maximum Not specified s
- Soldering: Maximum Not specified times
Note: Do not let the soldering iron tip touch the terminal.
Solder: Use mild non-corrosive flux and clean properly. According to specified conditions, these components are suitable for reflow soldering.
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