Inrush current refers to the momentary surge of current that flows into an electrical device when it is first turned on. It can be a concern because it can cause voltage drops, stress on components, and even damage to the device or the power source. Inrush current is particularly significant in devices with large capacitors, like power supplies and transformers, because capacitors initially act like short circuits until they charge up.
There are several methods used to control inrush current:
NTC Thermistors (Negative Temperature Coefficient): These are resistors whose resistance decreases as their temperature increases. Placing an NTC thermistor in series with the device can limit the initial current surge. When the device is first turned on, the thermistor's cold resistance limits the current, and as it heats up due to the passing current, its resistance decreases, allowing more current to flow.
Soft-Start Circuits: Soft-start circuits gradually ramp up the voltage supplied to a device over a short period of time. This helps in limiting the inrush current by avoiding a sudden rush of current when the device is initially turned on.
Inrush Current Limiting Resistors: These are series resistors that are placed before the device. The resistor value is chosen such that it limits the current surge to a safe level. However, this approach results in power loss as the resistor dissipates energy as heat.
Active Inrush Current Limiters: These are electronic circuits that actively monitor and control the inrush current. They can use techniques such as controlling the switching of relays, using triacs or thyristors, and employing control loops to smoothly ramp up the voltage.
Soft-Charging Capacitors: For devices with large capacitors, pre-charging the capacitors using a resistor and then shorting out the resistor can limit the initial current surge. This method is often used in high-power applications.
Current Limiting ICs: Specialized integrated circuits are designed to control and limit inrush currents. These ICs often incorporate a combination of NTC thermistor emulation, soft-start, and active current limiting techniques.
Sequential Switching: In systems with multiple devices, sequential switching of individual components can help distribute the inrush current over time, reducing the overall impact.
The method chosen for controlling inrush current depends on factors such as the type of device, its power requirements, and the desired level of protection. The goal is to ensure that the inrush current is limited to a safe level to prevent damage to the device and the power source while maintaining reliable operation.