SU586471A1 - Controllable rectifier simulator - Google Patents

Description

negative voltage t / l- While | {/ l | bcM +, the comparison block 6 output voltage is zero. As soon as the output voltage of the generator exceeds the sum of UcM + Uy by the value determined by the sensitivity threshold of the comparison unit 6, a negative voltage occurs at the output of the latter, which enters the input of the controlled sawtooth voltage generator 5, at the output of which a piecewise-linear voltage is formed living The rate of change of this voltage is determined by the magnitude of the voltage Ut. In the process of decay of the saw-tooth voltage, a short-term negative pulse is formed at the output of the comparison unit 6, due to which the output voltage of the comparison unit 6 again drops to zero. The output voltage of the controlled generator 5 is fed to the input of the functional converter 7, which converts it into sinusoidal segments corresponding to the emf In at the output of a real controlled rectifier. If the first key element 8 is closed, a voltage proportional to the load current in is generated at the output of the load current calculation unit 13 under the action of the difference I and and the counter-emf of the load / c. This voltage, acting on the first input of the trigger 12, prohibits a change in the state of the latter and thus the opening of the first key element 8.

By the action of the output pulse of the comparison unit 6, which is delayed for a time equal to its duration, the block of the delay 11, the second key element 9 closes, briefly connecting the second input of the trigger 12 to the output of the adder 10. As the inputs of the adder 10 are supplied respectively a voltage proportional to EMF / i and counter-emf of load / n, then the difference / n- / c is calculated at its output. The delay of the pulse controlling the second key element Y is produced by delay unit 11 in order to avoid the uncertainty of the value of In and, therefore, in- / s, since during the pulse at the output of the comparison unit 6 in changes in steps.

If there is a signal proportional to is at the first input of trigger 12 at the beginning of the interval of discreteness, i.e. when the model operates in a discontinuous current mode, the state of trigger 12 cannot change for any sign of the difference / "- / n. If the mode of continuous current is simulated, then at the beginning of each interval of discreteness / and 0, therefore

the state of the trigger 12 is determined by the sign of the signal at its second input, i.e. the sign of the difference In - / n. In this case, if In- / n O, the trigger 12 does not change its state, if

the same In- / n0, the trigger 12 changes its state and its output signal switches the first key element 8, relieves the voltage In from the input unit 13 for calculating the load current and provides a signal in 0 at the output of the latter. This state of the circuit will continue until the counter electromotive force / n is equal in absolute value to the instantaneous value of the emf / "in the interval of discreteness. When / is reduced to

values in, in- / нO and at the beginning of the next discrete interval trigger 12 changes its state again, its output signal closes the first key element 8 and load current JH- appears. The proposed device allows solving a wider class of problems compared to with the famous.

Claims (2)

1. Author's certificate of the USSR № 481048, G 06G 7/62, 1975. 2. Authors' certificate of the USSR № 524200, G 060 7/62, 1976.