SU118858A1 - Device for forming a stepped linearly varying voltage - Google Patents

Description

Devices for forming step-wise linear-varying voltage are known, including binary recalculating lamp cells and a voltage divider, in which voltages are supplied to the divider, through key lamps. The disadvantages of such devices are that they do not provide the ability to directly receive stepwise voltage from the recalculated cells, require a large number of auxiliary lamps, in particular, key lamps, are not very reliable, and are not economical.

In the described device, these drawbacks are eliminated by switching on the output of the cells of a step-down voltage divider made of active resistances connected in parallel to the anode loads of recalculating cells from which the voltage drops go to the divider. Each step of the output voltage of time coincides with the switching channel of the defined channel.

FIG. 1 shows a diagram of the described device; in fig. 2 - equivalent voltage divider circuit.

When one of the dual trigger lamps, made, for example, on the lamp L, to the anode of which one of the forming resistances QI of the voltage divider is connected, is closed, the latter is connected to the anode voltage terminal through the resistance of the anode load Ra. QI is supplied by voltage / 7, determined by the voltage drop across the anode load of the trigger.

Due to the fact that the voltages on the anodes of different triggers are the same, the operation of the circuit is equivalent to connecting the resistances of the voltage divider formed by the resistances gi, 92, Qs, or to the busbar through K. a or to some source of voltage L,. Voltage

No. 118858-2 -

step scanning U p is removed from the resistance r, with an increase in which the amplitude of the output voltage increases. When r o 0 and 0 when r 00

2 - from

and „and.

p 2 -

When using double triggers, the resistance of the automatic divider must be taken equal to:

Qi 4d; Q2 2D; QS Oh, where Q is some resistance, is significantly less than r.

The order of the order of switching on the resistors QI, yes, QS, etc., depends on the order in which the triggers operate. Each moment of time corresponds to a certain combination of the inclusion of forming resistances QI, Q2, bz, etc. These resistances form a divider with a variable division factor, the equivalent circuit of which is shown in FIG. 2

The law of change of the resistance value Ri and can be expressed by the equations:

/ n 2

 ".one

Dm 2

Kch (t), Q

m 1

where t is the sequence number of the period of starting pulses, an is the number of triggers.

The law of change of R and Rz is repeated every L 2 periods, where N is the number of steps of the stepped sweep voltage to be formed. The stability of the sweep voltage is determined by the correctness of the choice of resistances QI, Q2, QS, etc., as well as by the stability of the voltage drops across the anode of the flip-flops.

Subject invention

A device for forming a stepped linearly varying voltage, including binary recalculating lamp cells and a voltage divider, differing from the fact that, in order to directly receive the stepped voltage from the recalculated cells, a step divider voltage is included on the cells; , performed, ya; A connection is connected in parallel to the anode loads of the rescount cells, from which the voltage drops across the divider.

from 2, where n is the number of triggers,

 m - period number.