SU547751A1 - Stable constant voltage source - Google Patents

Description

(54) STABILIZED SOURCE OF CONSTANT VOLTAGE

between each other and with output outputs for connecting a DC voltage regulator load, each of which consists of a control unit, a control input connected to the output of a control unit, the input of which is connected to the output of a direct current amplifier, and a current sensor connected into the output circuit of the stabilizer, with one of the inputs of the direct current amplifier of the first stabilizer connected to the output outputs of the source, and the other input with the reference element of the control unit of the first stabilizer, new It means that one of the inputs of the error amplifier of the second stabilizer is connected to the current sensor of the first stabilizer, and the second input is connected to the current sensor of its own stabilizer.

The drawing shows a block diagram of a stabilized constant voltage source, made according to the invention.

The source contains the same compensatory stabilizers A, B, ... N. Stabilizers can be either linear or pulse type. Each stabilizer consists of a power unit 1 and a control circuit. The control circuit includes an error amplifier 2 and a functional unit 3. An operational amplifier can be used as the error amplifier. The functional unit can include: a reference voltage source, a DC amplifier (for linear stabilizers), a pulse-width modulator (for pulsed stabilizers), etc. Current sensors 4 are included in the power stabilizers. The stabilizer buses of the same name are combined at the corresponding load terminals 5.

The device works as follows. Circuit connection of the master stabilizer A is connected to the load 5 and to the corresponding inputs: inverse amplifier 2 and the ground circuit of the stabilizer control circuit. A Don reference voltage is applied to the direct input of the amplifier inside the stabilizer. The inverse inputs of the amplifier of the slave stabilizers B, ..., N are connected to the current sensor 4 of the stabilizer A, the direct inputs of the amplifiers of the slave stabilizers are to the sensors of the 4 stabilizers B, .- .., N.

Thus, when the source is operating, the main parameters of the load voltage — the nominal value and the instability — are determined by the master stabilizer A. The amplifiers 2 of the slave stabilizers measure the difference between the currents of the master stabilizer A and, accordingly, the slaves B, ..., N. If the parameters of the sensors and amplifiers are identical, the current distribution between the stabilizers will be uniform with an accuracy of a given mismatch value determined mainly by the gain of the amplifiers 2. When the stabilizers are powered from the common network

the primary voltage is identical to the parameters of the amplifiers provided that the condition

Di,,

where Di is the error on the voltage of the stabilizer A, R is the resistance value of the current sensor 4; YES - the difference between currents A and any i-ro stabilizer is permissible.

Thus, slave stabilizers act as current-boosting if the value of the load current exceeds the allowable value for the master. When implementing a source with three parallel-connected stabilizers with nominal parameters 5v, 8a, loaded on the total

I load 22a, the difference (error) of the current distribution did not exceed 5% of the nominal value, the instability of the voltage across the load was no more than 0.5%, i.e. complied with the requirements for the use of a separate voltage stabilizer.

At the same time, there was no need to use an additional adder and amplifier. At the same time, unification of stabilizers has been achieved, which can be applied both in a system with several stabilizers connected in parallel, working on a common load, and when working on an individual load. This quality is essential when serializing stabilizers.

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Claims (2)

1. US Patent No. 3356855, cl. 307-530, 1967. 2. Certificate of author No. 451987, cl. G 05 F 1/56, 1974 (prototype). Ii