What is a linear power supply
The linear power supply first transforms the AC power through a transformer, and then rectifies and filters it through a rectifier circuit to obtain an unsteady DC voltage. To achieve a high-precision DC voltage, the output voltage must be adjusted through voltage feedback. From the main performance point of view, this power supply technology is very mature, can achieve high stability, the ripple is also very small, and there is no interference and noise that switching power supply has. The voltage feedback circuit works in a linear state, and there is a certain voltage drop on the adjustment tube. When outputting a large operating current, the power consumption of the adjustment tube is too large, and the conversion efficiency is low.
Linear power supply means that the tubes used for voltage adjustment work in the linear region. Correspondingly, there is also a switching power supply, which means that the tube used for voltage adjustment works in the saturation and cut-off regions, that is, the switching state.
The linear power supply generally samples the output voltage and then sends it to the comparison voltage amplifier with the reference voltage. The output of the voltage amplifier is used as the input of the voltage adjustment tube to control the adjustment tube so that the junction voltage changes with the input, thereby adjusting its output. Voltage. However, the switching power supply changes the output voltage by changing the on and off time of the regulator tube, that is, the duty cycle.
The tubes used for voltage adjustment in linear power supplies work in the linear region. Correspondingly, there is also a switching power supply, which means that the tube used for voltage adjustment works in the saturation and cut-off regions, that is, the switching state.
The linear power supply generally samples the output voltage and then sends it to the comparison voltage amplifier with the reference voltage. The output of the voltage amplifier is used as the input of the voltage adjustment tube to control the adjustment tube so that the junction voltage changes with the input, thereby adjusting its output. Voltage. However, the switching power supply changes the output voltage by changing the on and off time of the regulator tube, that is, the duty cycle.
2. The principle of linear power supply: linear power supply mainly includes power frequency transformer, output rectifier filter, control circuit, protection circuit and so on. The linear power supply first transforms the AC power through a transformer, and then rectifies and filters it through a rectifier circuit to obtain an unstable DC voltage. To achieve a high-precision DC voltage, the output voltage must be adjusted through voltage feedback. This power supply technology is very mature and can achieve very high High stability, small ripple, and no interference and noise of switching power supply. However, its disadvantage is that it requires a huge and heavy transformer, and the volume and weight of the required filter capacitor are also quite large, and the voltage feedback circuit is working in a linear state, and there is a certain voltage drop on the adjustment tube, and the output is relatively large. At this time, the power consumption of the adjustment tube is too large, the conversion efficiency is low, and a large heat sink must be installed. This kind of power supply is not suitable for the needs of computers and other equipment, and will be gradually replaced by switching power supply.
3. Comparison of switching power supply: switching power supply mainly includes input grid filter, input rectification filter, inverter, output rectification filter, control circuit, and protection circuit. Their functions are:
1. Input grid filter: Eliminate interference from the grid, such as the start of the motor, the switch of electrical appliances, lightning strikes, etc., and also prevent the high-frequency noise generated by the switching power supply from spreading to the grid.
2. Input rectification filter: rectify and filter the input voltage of the grid to provide DC voltage for the converter.
3. Inverter: It is a key part of switching power supply. It transforms the DC voltage into a high-frequency AC voltage and plays a role in isolating the output part from the input grid.
4. Output rectification filter: rectify and filter the high-frequency AC voltage output by the converter to obtain the required DC voltage, and at the same time prevent high-frequency noise from interfering with the load.
5. Control circuit: detect the output DC voltage, compare it with the reference voltage, and amplify it. The pulse width of the oscillator is modulated to control the converter to keep the output voltage stable.
6. Protection circuit: When the switching power supply has an overvoltage or overcurrent short circuit, the protection circuit stops the switching power supply to protect the load and the power supply itself.
The switching power supply first rectifies the alternating current into direct current, then inverts the direct current into alternating current, and then rectifies and outputs the required direct current voltage. In this way, the switching power supply saves the transformer in the lower linear power supply and the voltage feedback circuit. The inverter circuit in the switching power supply is completely digital adjustment, which can also achieve very high adjustment accuracy.
