電源サーミスタのアプリケーションと選択

Power thermistor (mainly negative temperature coefficient NTC type) is a key component for suppressing surge current in electronic circuits. Its main parameters, selection points and application scenarios are as follows:
私. Core functions and principles
‌Surge current suppression‌
At the moment of power startup, the NTC resistance value connected in series in the input circuit is high, which can limit the peak current; after power is turned on, the resistance drops rapidly due to heat (power consumption can be ignored), ensuring the stable operation of subsequent circuits.
‌Negative temperature characteristics‌
The resistance value decreases exponentially with increasing temperature: R(T)=R0⋅eB⋅(1T−1T0)R(T)=R0⋅eB⋅(T1−T01) (R0R0 is the resistance value at 25℃, BB is the material constant).

NTC高出力サーミスタMF72

NTCサーミスタパワータイプ10d, 5D, 8D負の温度係数サーミスタ

How to Use NTC Thermistors for Inrush Current Limiting

How it Works:
High Initial Resistance:
When power is first applied, a power thermistor has a high resistance, which limits the initial inrush current.

Self-Heating:
As the current flows through the thermistor, it generates heat, causing its resistance to decrease.

Resistance Decrease:
The reduction in resistance allows the circuit to draw the necessary operating current without the initial surge.

Benefits:
Protects Equipment:
By limiting the inrush current, power thermostats prevent damage to sensitive components and equipment.

Reduces Power Loss:
The resistance decrease through self-heating reduces power loss compared to using a fixed resistor.

Energy Savings:
Lowering power loss can lead to energy savings in applications like switching power supplies and other electrical devices.

ii. Key parameters and selection points

パラメーター	Definition and selection significance	Typical value/range

‌Rated zero power resistance (R25)‌	The nominal resistance at 5°C determines the initial surge suppression capability. Calculation formula: R25≈U2⋅IsurgeR25≈2⋅IsurgeU (UU is the input voltage, IsurgeIsurge is the surge current)	Commonly used 2.5Ω, 5おお, 10Ω±(15-30)%
Maximum steady-state current	The current that can be sustained for a long time at 25℃, needs to be greater than the circuit working current	Depending on the model 0.5A~tens of amperes
Residual resistance	The minimum resistance value at high temperature (such as 100℃), affecting the normal power consumption of the circuit	About 1/10~1/20 of R25
B値	Material constant (measured at 25℃~50℃), determines the slope of the resistance-temperature curve; high B value responds quickly but has high cost	2000K~6000K
熱時定数	Response speed index, patch type (such as SMD) can reach seconds	Glass seal/enameled wire type about 10~60 seconds

Note‌: Example of model identification ‌MF72-10D-9‌:
10‌: R25=10Ω.
‌D‌: Disc package
9‌: 9直径mm;

Ⅲ. Typical application scenarios
‌Power supply equipment‌: Input surge suppression of switching power supply, UPS, adapter;
‌Lighting system‌: Anti-shock protection of LED driver, ballast, lighting distribution box;
Industrial機器‌: Motor start, industrial power supply, medical instrument;
Householdアプライアンス‌: エアコン, refrigerator compressor start protection;

IV. Selection and avoidance guide

‌電流マッチング‌
The maximum steady-state current needs to be greater than 1.5 times the actual working current to avoid continuous heating and failure.
‌Heat dissipation design‌
In high-power scenarios, sufficient spacing or auxiliary heat dissipation is required to prevent excessive temperature rise from causing insufficient residual resistance.
‌Extreme temperature‌
The operating temperature range is generally -55℃~+125℃. Glass-sealed models (resistant to 150℃) are preferred in high-temperature environments.

V. Package and performance comparison

Package type	利点	‌Applicable scenarios‌
Epoxy resin	Low cost, good waterproofness	Home appliances, ordinary power supplies
Glass package	High temperature resistance (＞150℃), 早い反応	産業用具, automotive electronics
Surface mount type (SMD)	小さいサイズ, suitable for high-density PCB	Compact power module

Tip‌: Be cautious in frequent switching scenarios – NTC may lose surge suppression capability when insufficient cooling is insufficient. 現時点では, a parallel relay bypass can be connected.