SU146897A1 - Linear Voltage Self-stabilizing Generator - Google Patents

Description

Known self-regulating linear-voltage generator, containing measuring, amplifying and executive-regulating elements, as well as capacitive integrator, do not provide high stability and linearity of the output voltage, and matching the low-resistance payload with the output resistance of such generators requires the use of additional amplifiers power.

In the proposed generator, these disadvantages are eliminated by the fact that the integrator capacitance is connected between the grid of the executive-regulating element and the output amplifying element, and the feedback voltage is removed from the output of the generator and fed to the integrating capacitance through the reference stabilotron.

The drawing shows a schematic diagram of the described generator.

The generator is an automatic control system of the output voltage of the compensation type, containing measuring / (output), amplifying 2 and executive-regulating 3 elements.

To ensure that the output voltage varies according to a linearly varying law, the executive-regulator of the element 3 together with the increased voltage t /, (,) supplies the linearly varying voltage formed on the capacitor 4 (C.) to the input voltage. integrator. (In this equation: Ko is the gain of the amplifying element 2 without taking into account the negative inverse

connection, Un „- reference reference voltage, | 3; - -coefficient

AI - A2

jYo 146897- 2 feedback over voltage, UQ-output voltage of the executive-regulating element 3).

The capacitive integrator is formed by a capacitor 4 and a charge resistance 5 (Rj) and is powered by the output linearly varying voltage of the generator, taken between the outputs of elements 2 and 5 through an additional nonlinear resistance 6 (R ,,), which can be used, for example , silicon or gas stabilotrons, and resistance 5. A capacitor 4 of the integrator is connected between the grid of the executive-regulating element 3 and the output amplifying element 2.

The output of the element 3 simultaneously serves a lianizing voltage which is removed from the diagonal of the second measuring bridge of a compensation type formed by a capacitive integrator and a divider including resistance 6 and resistance 7 payload (), which increases the stability and linearity of the generator output voltage several times due to significant increase the depth of the negative and polar feedback covering the output cathode follower by incorporating its negative feedback into the circuit one amplifying element 2.

On the 1; and in the upper arm of the negative feedback divider nonlinear resistance 8, it is possible to further improve the technical characteristics of the generator. In this case .

When the key 9 is opened, capacitance 4 is charged on one side through resistance 5 and nonlinear resistance 6 (stabilotron), and on the other through reference stabilotron 0 and anode circuit} amplifier south of element 2.

The output voltage taken from the tank 4 is fed to the grid of the element 3 in series with the output voltage of the element 2, which amplifies the output linearly varying voltage of the executive-regulating cathode follower. In this case, the output variable voltage of the element 2 differs in phase from the input one by 180 °, and the potential of the output voltage of the amplifying element is continuously lowered.

The positive feedback voltage, taken from the generator output and fed to the integrating capacitor 4 through a nonlinear resistance 6, integrates, lianizes the exponential dependence of the charge current r, so to /, -fy / const; where ol const is the voltage across the charging feed resistance 5.

Equality L /., The generator circuit provides automatically. If Uf; 3j Eg, the lianizing voltage L - Eop is also automatically fed to the input of element 3, which, after amplification by amplifying element 2, stabilizes the voltage (V /, const. At the same time I), - 0.

Under the influence of perturbing factors, such as changes in the anode voltage, the unbalance regulating voltage 6j (| 3Lo-Е) of the unbalance, which is amplified by element 2, acts in the process of charging through the capacitance 4 on the element grid in the diagonal of the measuring element. 3, changing its static resistance so that the unbalance voltage. The proposed generator automatically maintains the output linearly varying voltage with an accuracy of 0.1-0.5% when changing the resistance of the payload and the supply voltage of about 10-20%.

The described self-stabilizing generator of linearly varying voltage can be used in television, radar, computing and measuring technology. Subject invention

A linearly varying voltage self-stabilizing generator containing measuring, amplifying, and executive-regulating elements, as well as a capacitive integrator, characterized in that, in order to improve the stability and linearity of the output voltage, the integrator capacitance includes between the excitation-regulating element and the output amplifying element, and the feedback voltage is removed from the generator output and fed to the integrating capacitance through the reference stabilotron.

0№ 146897

about