SU1003235A1 - Device for current protection of converter power switches - Google Patents

Description

(54) DEVICE FOR TOXJA PROTECTION OF POWER KEY CONVERTER

Claims (2)

The invention relates to electrical equipment, namely, devices for current efficiency of the power keys of transducers, and can be used in secondary sources of power. A device for protection of an overload power source is known, in which, when an overload occurs, a threshold amplifier is triggered and a wait-and-wait multivibrator generates a suppression pulse that locks the control oprav of the TTI for the entire duration of the suppression pulse. If, during the duration of the suppression pulse, the overload has not disappeared, then the actuator is activated, which disconnects the source of power from the C1 network. The disadvantage of this device is that during short-term surges of the load current, the device generates an impulse pulse that completely locks the source regulator for the duration of the suppression pulse, which is not always acceptable. The closest in technical support to the offer of the “1st is the BD overload protection device of the PWM converter; the form-containing actuator of the master signal, connected to the differential input and to the first input of the element I, the output of which is connected to the input of the power amplifier, a current sensor connected to the power circuit of the keys of the molar amplifier, and through the threshold element qoe single with one of the inputs R 5 flip-flop, the output of which is connected to the second input of the element And 12 However, when the protection device trips, the output voltage of the source decreases and the load is loaded for a long time and is always permissible, since Diminished reliability. The purpose of the invention is the reliability of the converter. The supplied rod is achieved by introducing a delay element into the device for current protection of the transmitter's current keys into the second AND element, whose inputs are connected to the outputs of the dangler and delay element, and the output is connected to another input of the R 5 trigger, the output of which is connected to the input of the delay element. FIG. 1 shows a diagram of the device; in fig. 2 - timing diagrams, noflcHsaoioHe operation of the device, where A is the mode of normal operation; B - current limiting mode (the duration of this mode is equal to the duration of the time delay of the delay element); C is a shutdown mode (lasts until the converter is turned on again). The device contains a driver 1 master signal connected to the first input of the element 2, the output of which is connected to the power amplifier 3, load 4, current sensor 5, threshold 6 connected to the first input of the RS flip-flop 7, the second input of which through the second element And 8 is connected to the driver of the specifying signal 1 through the differentiator 9, the second input of the second element And 8 through the delay element 10 is connected to the output of the trigger 7. FIG. 2a shows the shape of the input voltage of the differentiator 9; in fig. 26 - the same element And 8; in Fig.2 the same element And 2; in fig. 2g - the same trigger 7; in fig. 2D - the same element 10 delay. The device works as follows. When the converter is operating in the normal mode, delay element 10 gives a signal that permits the passage of pulses of the differentiator 9 through the element I to the input of trigger-7 and the output of the latter sets an output signal that permits the signal of the former to pass through the element 2 to the input of the power amplifier 3. According to the shaper 1 signal, the power switches of the power amplifier 3 are alternately switched from the saturation state to the cutoff state. When the current sensor signal exceeds the threshold element 6, the latter switches, which triggers switch 7 and locks element 2 until the considered half-period of the output signal of driver 1 is completed, and therefore the corresponding power switch of power amplifier 3 is transferred from saturation state to cutoff The restoration of the circuit will occur at the beginning of the next half-period of the output signal of the imaging unit 1 by returning the trigger 7 to the initial state with a pulse of differentiator 9. From the output of the trigger 7, the pulses locking the element I 2 are simultaneously received at the input of the delay element 10. If the overload duration is less than the time delay of the delay element 10, the latter does not switch, and after the overload is removed, the delay element 10 returns to its original position. If the overload duration is longer than the time delay element 10 of the delay, the latter switches. And locks the AND 8 element, while the trigger 7 does not pass the pulses of the differentiator 9, it does not return to its original state, and the And 2 element remains in a closed position, the driver signal 1 to power amplifier 3 fails and the converter shuts down. To start the converter it is necessary to re-enable it. The delay element 1O can be implemented by well-known schemes, for example, on pulse counters, or on integrators. The increase in reliability in the proposed device is achieved by introducing an additional element AND and a delay element into the device, as a result of which the power switches of the converter operate in an overload mode for a limited time equal to the delay time of the delay element. The device for current protection of the power switches of the converter, containing the driver of the driving signal connected to the differentiator and to the first input of the element I, the output of which is connected to the input of the power amplifier, current sensor connected to the power circuit of the keys of the power amplifier and through the threshold element connected to one from the inputs of the R 5 trigger, the output of which is connected to the second input of the element I, o t is a characteristic r & l that, in order to generate reliability, a delay element and a second element I are entered into it, the input Which are connected to the outputs of the differentiator and the delay element, and the output is connected to another input of RS 510032354 trigger, the output of which connects c1. Author svovtvlstvo CXXR input delay. j 699605, y. H 02 H 7 / 1O, 1979. Source information, 2. USSR author's certificate taken into account at expatriate, № 669448, кп. H O2 H 7 / 1O, 1978. F1 / g.