SU980231A1 - Ac-to-dc voltage converter - Google Patents

Description

(54) AC VOLTAGE CONVERTER TO PERMANENT

t The invention relates to electrical engineering and can be used to power electronic devices for various purposes with a differential load, such as operational amplifiers. A stabilized dual voltage source is known, which contains a power transformer, the middle point of the secondary winding of which is connected to the output terminal for connecting the load, two constant-voltage regulators, outputs connected to the terminals for connecting the loads and a common source of reference voltage 1 1 The disadvantage of this source is the large mass and size due to the presence of a transformer with a midpoint in the secondary winding, as well as the complexity of the circuit solution due to the presence of two stabilizers. Ator voltage The closest to the present invention is an AC / DC converter with a first capacitor, one output of which forms the first input, second and third capacitors, one of which are connected and connected to the second input, and the other outputs form the output field The two circuits are connected to the opposite terminals of two diodes, the free terminals of which are combined and connected to another terminal of the first capacitor, as well as a stabilizer connected in parallel with the output terminals t 2. A disadvantage of the known solution is the need to use the two devices described above for supplying a differential load, which complicates the device. The purpose of the invention is to simplify the feeding of the differential load. This goal is achieved by the fact that in an AC-DC converter, containing a first capacitor, one output of which forms the first input terminal, the second and third capacitors, one terminals of which are connected and connected to the second input terminal, and the other terminals form the output polar circuit and connected to the opposite terminals of the two diodes, the free terminals of which are combined and connected to another terminal of the first capacitor, as well as a stabilizer, the specified junction point of the second and third condensate trench forms a common output circuit, and a stabilizer is included in one of the output ukazannkk polar chains.

The drawing shows a schematic diagram of the converter.

The converter contains the first capacitor 1 connected to the first terminal 2, the second capacitor 3 and the third capacitor 4, the connection point of which is connected to the second input terminal 5, forming simultaneously the common output circuit 6.

The free terminals of the capacitors 3 and 4 form the output polar circuits 7 and 8 and are connected to the opposite terminals of the diodes 9 and 10, the free terminals of which are combined and connected to the capacitor 1.

A stabilizer 11 is included in the output polar circuit 7.

The device works as follows.

In the positive half-cycle of the input voltage, the input signal current through capacitor 1 and diode 9 charges capacitor 3, the voltage of which is stabilized by stabilizer 11. The voltage at half the differential load connected to circuit 7 and b is equal to the voltage stabilizing UCT. Through the capacitor 1 in the positive half-periods current flows, the average value of which over the half period is equal to

UcT

Wed

RM

In negative half cycles, the input signal current through diode 10 charges the capacitor 4. A negative polarity voltage is formed at the second half of the load connected to pins 6 and 8.

Permanent circuit time: capacitor 1 - diode 10 - second half of the differential load, less than constant circuit time: capacitor 1 - diode 9 - period input stabilizer 11 - first half of the differential load. At the same time, in negative half-periods

to the second half of the differential load (to capacitor 4; the voltage difference between the input signal and the voltage across the capacitor 1 is applied. Since the average value

current through the capacitor 1 for the period of the input signal should be zero, then the capacitor 1 is charged to a value when the average value of the current through it during negative half-periods is equal to the average value of the current in positive half-periods

Uct

 :

 2

in this case, RH

the voltage on the second half of the differential load will be equal to the voltage on the first half of the differential load and

In this way, the voltage on the differential load is stabilized with a single stabilizer.

Claims (2)

1. USSR author's certificate No. 345572, cl. H 02 M 7/12, 1970.  2. US patent 3,978,388, cl. H 02 M 7/08, 1976.