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Specifications
Resistance @ 25℃:
10Ω
Power(Watts):
-
Pitch:
7.5mm
Operating Temperature:
-40℃~+200℃
B Constant (25℃/100℃):
-
Tolerance:
±20%
Steady State Current (Max):
3A
Diameter (φD):
11mm
Thermal Time Constant:
43s
B Constant (25℃/85℃):
-
B Constant (25℃/75℃):
-
B Constant Tolerance:
-
B Constant (25℃/50℃):
-
Mfr. Part #:
206RV174
Package:
Through Hole,P=7.5mm
Key Attributes
Model Number:
206RV174
Product Description
NTC Thermistor 206RV174 NTC 10D-11
The NTC 10D-11 is a Negative Temperature Coefficient (NTC) thermistor. Its resistance decreases as the ambient temperature increases. This thermistor is manufactured from 2 or 4 types of metal oxides (iron, nickel, cobalt, manganese, copper) that are shaped and sintered at high temperatures. It features a black coating and inward-bent leads for easy integration.
Product Attributes
- Product Name: NTC Thermistor
- Model: 206RV174 NTC 10D-11
- Coating Color: Black
- Wrapper Material: Phenolic aldehyde
- Lead Material: Tinned Electron Wire
Technical Specifications
| Item | Specification Request | Test Conditions | Performance Requirements |
|---|---|---|---|
| Nominal Resistance (251) | 1020% | ||
| Max Steady State Current (25) | 3A | ||
| Thermal Time Constant (approx.) | 43S | ||
| Thermal Dissipation Constant (approx.) | 17mW | ||
| Operating Range | -40~+200 | ||
| Approximate Resistance Value at Maximum Current () | 0.275 | ||
| Max Shock Capacity (f/240V) | 330 | ||
| Zero Power Resistance | See Electrical Parameters | At 25, when the resistance change due to internal heating is negligible compared to the total measurement error. | |
| B-Value | See Electrical Parameters | Calculated using zero power resistance at 25 and 50. | |
| Thermal Dissipation Constant | See Electrical Parameters | Ratio of power dissipation change to corresponding temperature change at specified temperature. Unit: mW/. | |
| Thermal Time Constant | See Electrical Parameters | Under zero power condition, the time required for the thermistor's temperature to reach 63.2% of the difference between its initial and final temperatures when the temperature changes. | |
| Leads Terminal Tensile Strength | 1.0kg load applied to each terminal for 10 seconds. | No visible damage; Resistance change: 20% | |
| Leads Terminal Bend Strength | Fixed body, 0.5kg gravity on one terminal, bend 90, return, then bend 90 in opposite direction. | No visible damage; Resistance change: 20% | |
| Vibration | Frequency: 10~50Hz; Amplitude: 1.55mm; Direction and time: X, Y, Z axes each 2 hours. | No substantial damage. | |
| Solderability | Solder bath temperature: 2355; Time: 3S. | Covered termination: 98% | |
| Resistance to Soldering Heat | Dip leads in molten solder (35010) to a depth of 4.00.8mm for 3.00.5 seconds. Leave at room ambient for 24 hours before testing. | Resistance change: 10% | |
| Dry Heat (High Temperature Storage) | 1252 for 1000+48 hours. Leave at room ambient for 1-2 hours before testing. | Resistance change: 10% | |
| Cold (Low Temperature Storage) | -403 for 1000+48 hours. Leave at room ambient for 1-2 hours before testing. | Resistance change: 10% | |
| Humidity Test (Steady State) | 402, 95% RH, 1000 HR. | Resistance change: 10% | |
| Temperature Cycle Test | -40/30 25/5 +125/30 25/5. | Resistance change: 20% | |
| Operating Temperature | -40 to +200 | Allowable temperature range for long-term continuous operation. | |
| Storage Conditions | -10~40, RH 75% |
2504211835_KNSCHA-206RV174_C48392651.pdf
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