SU1270877A2 - Variable generator - Google Patents

Description

The invention relates to electronic engineering and can be used in control systems with automated 1 frequency electric drives as a master voltage generator, controlling a frequency divider (ring scaling) of a control system with a direct frequency converter, as well as in pulse technology as a rectangular generator. signal adjustable frequency of a given duty cycle.

The purpose of the invention is to ensure the stability of the duty cycle in a wide range of frequency variations to the adjustment of the duty cycle.

The drawing presents a schematic diagram of the generator.

The generator contains a symmetrical 1.1v multivibrator-oscillator on the operational amplifier 1, generating by positive feedback over time specifying the RC-MOCT on the capacitor 2 and resistors 3, 4 and 5. The output diagonal of the RC bridge is connected to the differential inputs of the amplifier 1 (output divider from resistors 3 and 5 to the non-inverting input). The input diagonal of the RC bridge is connected via a parallel RC circuit 6, which provides the necessary mode of self-output and affects the stability of the duty cycle, to the output 7 of the operational amplifier 1 The output 7 of the operational amplifier 1 is connected to the first input of the summing operational amplifier 8, the output of which is through a resistor 9 connected to the non-inerting INPUT of the operational amplifier 1; The second input of the summing operational amplifier 8 is connected to the input bus 10 of the control voltage source, and its third input to the output bus 11 of the source ika bias voltage. The summing amplifier 8 is implemented on scale resistors 12 (first input), 13 (second input) ti 14 (third input) and feedback resistor 15. The non-inverting input of the operational amplifier 1 is connected through the first additional trimming resistor 16 to the input bus 10 of the char source, and through the second additional resistor 17 to the output bus 11 of the bias voltage source.

The controlled generator operates as follows.

The non-inverting input of the operational amplifier 1 is pulsed from the output of the voltage divider at resistors 3 and 5 and from the output of the summing operational amplifier 8, which determine the magnitude of the threshold voltage at the non-inverting input of the operational amplifier 1. When the voltage at the inverting input of the operational amplifier reaches 1 in the process of recharging the capacitor 2 the time of the driving circuit (on the capacitor 2 and the resistor 4) under the influence of the output voltage of the relay element (on the operational amplifier 1 with the resistor 5), the magnitude of the threshold voltage at the non-inverting input, the relay element overturns into another state with a change in the polarity of the output voltage of the multivibrator at the operational amplifier 1. The current through the capacitor 2 changes direction, the sign of the threshold voltage changes, setting the next moment of changing the relay state element, i.e. the moment of formation of the front of the next pulse. To control the threshold voltage, which determines the charging time of capacitor 2 and, consequently, the period of output oscillations, a control analog signal is fed to one of the inputs of summing usitel 8 through a resistor 13 from the source 10 of the control voltage, and to another through resistor 12 is a rectangular voltage from the output of the multivibrator. The resistances of the feedback resistor 15 and the resistor 12 of the amplifier 8 are selected so (R, 5 1) 5 that the level of the output rectangular alternating pulses of the amplifier 8 (Uyj, p UJ is equal to the maximum value (Uivmn). A further increase in the level of the pulses at the output of the summed operational amplifier 8 is impossible due to its saturation.

Claims (1)

When the bias voltage is applied to the input of the summing operational amplifier 8 from the output bus 11, then when summing the input of the summing operational amplifier 8, the bias voltage and half-wave of the rectangular voltage of the same polarity, the output pulses of the sum of the summing operational amplifier 8 are unchanged, and when summed bias voltage and half-wave of opposite polarity, the output pulses are reduced (shifted) by the magnitude of the bias signal until the pulse voltage disappears completely with an increase in U and the amplification, i.e. level modulation occurs. When a summing operational amplifier 8 is fed from the input bus 10 of the control nf U, opposite to the polarity bias voltage, the level of the output pulses increases in proportion to the controlled voltage. To eliminate significant variations in the relationship between the variable and the constant component of the output voltage summing op amp 8, fed through a resistor 9 to the non-inverting input of op amp 1, to the latter through the second additional resistor 17 is supplied with voltage escheni U, the source bias voltage which compensates to zero the voltage saturation of the amplifier 8 at O, it is necessary to produce a symmetric voltage generator. The resistance value of the resistor 14 (R,) is set so as to ensure the saturation of the amplifier 8 at the I-Minimum output frequency, "R, AND RJI R, JI R 77 RI RJ l R, corresponding to m-1, resistor resistance 3, 4,9,16,17. Cj is the capacitance value of the capacitor 2 When adjusting the duty ratio using a resistor 16 to obtain a frequency in the form of a meander, if ia CMi iC, 01R ,, where Rj is Rg - R, 3 - f r R, Rr, R, - S, 2 13 -Yl S is the resistance resistors 5,12,13,14,15, the value of R is determined by the equality R, -Кц that ensures the equality of the levels of the negative and positive parts of the period of the total signal at the non-inverting input of the operational amplifier 1 in accordance with the required ratio signals from resistors 16 and 9 (1: 2) The controlled audio generator according to SU, No. 744918, characterized in that, in order to ensure stability of the duty cycle in a wide range of frequency changes and adjustment of the duty cycle, the non-inverting input of the operational amplifier is connected to the output bus of the control voltage source via the first additional trimming resistor bus voltage source bias.