SU888332A1 - Single-channel device for control of rectifier - Google Patents

Description

The invention relates to electrical engineering and can be used to stabilize the output voltage of a valve converter.

A single-channel asynchronous device for controlling a rectifier is known, which contains an integrator and a pulse distributor 1.

A disadvantage of the known device is its relative complexity.

The closest in technical essence to the present invention is a device for controlling a rectifier containing an integrator, one input of which is connected to a output for connecting to the output of a rectifier, and the other input is connected to the diode anode, and a pulse distributor 2.

A disadvantage of this device is the loss of some information about the output voltage of the rectifier and, as a consequence, a decrease in accuracy.

The aim of the invention is to improve the accuracy.

The goal is achieved by the fact that a single-channel device for controlling a directorship is provided with a key and a single vibrator, the single vibrator input being connected via a key to the integrator output, and the single vibrator output connected with a control input of the switch, p. the input of the pulse distributor and the cathode of the diode.

Fig, 1 presents., Functional diagram of the device; in fig. 2 - timing diagrams for the operation of the device.

Claims (2)

The single-channel control system of the rectifier 1, which supplies the load 2, contains an integrator 3 performed on an operational amplifier, the output of which is connected via a switch k and a field-effect transistor to the input of the one-oscillator 5 performed on an operational amplifier, between which inverter input and the common point of the device are connected diode 6 and the capacitor 7. The output of the one-shot 5 is connected to the control input of the key 4, through the diode 8 to the input of the integrator 3 and through the pulse distributor 9 to the rectifier valves 1, the control system works downstream conductive manner, in the initial state, the voltage at the output monostable 5 n Noe positive constant. Key A is open, diode 8 is locked, and diode 6 is open, so the voltage at the inverting input of one of the amplifier is close to zero 8 at the same time with a positive voltage at the output of the integrator 3 U ,. the voltage at the non-inverting input of the one-shot amplifier 5 is also determined by the ratio of the resistances of the divider in the positive feedback circuit of the amplifier and is positive, so that the one-shot 5 is in its stable standby mode. The integrator 3 integrates the difference between the reference voltage Ug and the output voltage of the rectifier 1, the output voltage of the integrator first increases and then decreases (Figure 2) When the output voltage of the integrator of the torus reaches the trigger value of the single-vibration 5 Ud output voltage the one-shot UQB 5 S1D-switch becomes negative. The key is locked and the one-shot 5 trip is disconnected from the output of the integrator 3 The time during which the one-shot 5 remains in this state is determined by the parameters of the RC circuit connected to its inverting input. At the same time, the diode 8 and the voltage from the output of the one-shot 5 enters the input of the integrator 3v its translation into the initial state. As the capacitor 7 is charged, the voltage on the inverting input of the amplifier of the one-oscillator 5 becomes greater than the voltage on the non-non-isolating input and the single-oscillator 5 returns to its initial state. A pulse is formed at its output, the duration of which is sufficient to control the rectifier, so that having amplified this impulse in power, its. can be directly used to control the valves. In this device, integrator 3 integrates the difference all the time, so that the upper threshold UH, to which the integrator capacitor is recharged, linearly depends on Hz. For example, if at time t (FIG. 2) the amplitude of the network voltage decreases abruptly, then the top and the threshold also decrease. Thus, using the single vibrator 5 instead of the threshold detector ensures full preservation of information about the input signal of the integrator, which increases the accuracy of integration, and Ultimately, the accuracy of stabilizing the output voltage of the rectifier. The key k is required to turn off the single vibrator 5 for the pulse generation time so that the pulse duration does not depend on the output voltage of the integrator 3. Claims of the invention A single-channel device for controlling a rectifier containing an integrator, one input of which is connected to an output for connecting to the output of the rectifier and the other input is connected to the anode by a diode pulse distributor, characterized in that. in order to increase accuracy, it is equipped with a key and a single vibrator, the single vibrator input is connected to the integrator output via a switch, and the output is connected to the control input of a switch, to the input of a pulse distributor and to the cathode of a diode. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 588612: кл, Н 02 Р 13/16, 197. 2. USSR author's certificate number 693529, cl. H 02 R 13/16, 1977.