All good... I asked Chat GPT....
"so i found out it is a power NTC thermistor can you find the most likely value and size for a circuit which outputs 54.6v at 3A"
ChatGPT:
Given that the component in question is a power NTC (Negative Temperature Coefficient) thermistor, it is used to limit inrush current when the charger is first powered on. These thermistors have specific resistance values and current ratings suitable for different applications.
For a circuit that outputs 54.6V at 3A, we can make some educated guesses on the appropriate NTC thermistor specifications:
Current Rating: Since your charger outputs 3A, the NTC thermistor should be rated to handle at least this current, preferably higher to ensure reliability and longevity.
Resistance Value: The initial resistance should be high enough to limit inrush current but should drop to a low enough value when the thermistor heats up to not affect normal operation significantly.
Here are some common values for power NTC thermistors used in similar applications:
Resistance (R25): Between 5Ω and 10Ω at 25°C. Lower values are used for circuits with higher inrush currents.
Maximum Steady-State Current: At least 3A, but preferably around 5A or more to ensure it can handle the current without issues.
Dissipation Constant: A value that allows the thermistor to quickly decrease its resistance after the initial inrush current is limited.
Examples of Suitable NTC Thermistors
NTC Thermistor 5D-9
Resistance: 5Ω at 25°C
Maximum Current: 4A
Diameter: 9mm
NTC Thermistor 10D-9
Resistance: 10Ω at 25°C
Maximum Current: 3A
Diameter: 9mm
Recommendations
Considering the requirements of your charger (54.6V, 3A), the 5D-9 or 10D-9 thermistors are likely suitable choices. Here are their detailed specifications:
5D-9 Thermistor
Initial Resistance (R25): 5Ω
Max Steady-State Current: 4A
Diameter: 9mm
Suitable for circuits where the initial inrush current needs to be significantly limited.
10D-9 Thermistor
Initial Resistance (R25): 10Ω
Max Steady-State Current: 3A
Diameter: 9mm
Provides more resistance initially, which can be useful for circuits with very high inrush currents.
Conclusion
Based on the charger’s specifications, a 5D-9 NTC thermistor would be a good starting point. It offers a balance between limiting the inrush current and handling the steady-state current of your charger. You can find these thermistors on electronics component websites such as DigiKey, Mouser, or even local electronics stores.
Make sure to check the physical size and ensure it fits in your charger’s PCB layout. If you have access to the charger's schematic or can find a detailed service manual, that can provide the exact specifications required.
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