SU119243A1 - Single ended semiconductor dc converter - Google Patents

Description

Single-ended semiconductor DC converters are known which contain a generator on a single semiconductor triode with transformer feedback and a semiconductor rectifier.

However, such converters have a soft external characteristic, as a result of which the output voltage at low load currents and at idle reaches significant values that are many times larger than at the reference load. These modes are practically unacceptable for single-ended converters without triode protection or stabilizing the output voltage, which causes the circuit to become more complex as a result of the introduction of additional semiconductor devices — diodes and triodes — into the converter. To eliminate these drawbacks and automatically stabilize the output voltage when the load resistance changes, it is proposed to include a capacitor parallel to the rectifier input.

The proposed converter (see diagram) consists of a single-cycle hegerator on a semiconductor triode / with transformer feedback and a semiconductor rectifier 2, feeding through the filter 3 a load 4.

The transformer 5 is made with an air gap and has an input winding 6, an output 7 and a positive feedback winding 8.

Parallel to the rectifier input, a capacitor 9 is turned on, charging in the open state of the triode and discharging to the load resistance in the closed state of this triode. The discharge time of this capacitor depends on the load resistance, as a result of which the voltage at the output of the converter is automatically stabilized by varying the ratio of the open and closed times of the triode with changes in its load.

When the triode is locked, the capacitor 10 is discharged to the mains voltage through the resistance 11, creating an additional positive potential based on the triode at the time of locking, which accelerates the locking process and reduces the transient losses in the triode. When the load is disconnected, capacitors 9 and 10, as well as resistance, ensure the operation of the converter with a very small relative time of the open side of the triode, which leads to a reduction in the power consumed from the network, as a result of which the no-load output voltage exceeds than 10-15%.

Subject invention

A single-ended semiconductor DC converter, consisting of a generator on a single semiconductor triode with transformer feedback and a semiconductor rectifier, characterized in that a capacitor is connected in parallel to the rectifier input to automatically stabilize the output voltage when the load resistance changes.

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