RU2005103038A - METHOD FOR MANAGING A BRIDGE INVERTER WITH TWO-WAY WIDTH-PULSE-PULSE MODULATION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. A control method for a bridge inverter with two-sided pulse width modulation, which consists in generating a control signal for turning on the voltage of positive polarity, a control signal for turning off the voltage of positive polarity, a control signal for turning on the voltage of negative polarity, a control signal for turning off the voltage of negative polarity , characterized in that it additionally generates signals of positive and negative polarity of the current of the throttle LC filter, when the signal p the negative polarity of the LC filter choke current; switching on the voltage of positive polarity to the output of the block of key elements by turning on the key elements of the positive diagonal when a control signal appears to turn on the voltage of positive polarity, turning off the voltage of positive polarity from the output of the block of key elements by disconnecting one key element when the control signal appears to turn off the voltage of positive polarity, turn on the voltage negative polarity to the output of the block of key elements is carried out by turning off all key elements when a signal appears to turn on the voltage of negative polarity, disconnecting the voltage of negative polarity from the output of the block of key elements is done by turning on one key element of the positive diagonal when a control signal appears to turn off the voltage of negative polarity, respectively, when the signal negative polarity of the choke current of the LC filter The output block of the key elements is switched on by switching on the key elements of the negative diagonal when a control signal appears to turn on the voltage of negative polarity, disconnecting the negative polarity voltage from the output of the block of key elements is done by turning off one key element when the control signal appears to turn off the voltage of negative polarity, turning on the voltage of positive polarity the output of the block of key elements is carried out by disabling all yuchevyh elements when a control signal for switching the voltage of positive polarity, disabling the voltage of positive polarity from the output of the key elements of the block is carried out by including a key element in the negative diagonal control signal to turn off when a voltage of positive polarity. 2. A device for controlling a bridge inverter that implements the control method according to claim 1, contains two modulation nodes, each modulation node is designed to control one rack of a block of key elements of a bridge inverter and consists of two RS-triggers, two 3-I logic elements, and two delay elements, has two output buses, three control inputs and two mode inputs, the direct output of the first RS-trigger is connected to the first output bus of the modulation unit, the output of the first 3-I logic element is connected to the S input of the first RS-trigger, the first the first input of the first 3-I logic element is connected to the inverse output of the second RS-trigger through the first delay element, the second input of the first 3-I logic element and the R input of the second RS-trigger are connected to the first control input of the modulation node, the third input of the first logical element 3 -And connected to the first mode input of the modulation unit, R input of the first RS-trigger is connected to the second control input of the modulation unit, the direct output of the second RS-trigger is connected to the second output bus of the modulation unit, the output of the second logic element 3-I inen with S input of the second RS-trigger, the first input of the second logic element 3-I is connected to the inverse output of the first RS-trigger through the second delay element, the second input of the second logic element 3-I is connected to the third control input of the modulation node, the third input of the second logical element 3-I is connected to the second mode input of the modulation node, the output buses of the modulation nodes are connected to the control inputs of the block of key elements, while the first output bus of the first modulation node and the second output bus of the second modulation node is are dined with the positive diagonal control inputs of the block of key elements, and the second output bus of the first modulation node and the first output bus of the second modulation node are connected to the negative diagonal control inputs of the block of key elements, the first control input of the first modulation node is connected to the control signal bus to turn on the voltage of positive polarity , the first control input of the second modulation node is connected to the control signal bus to turn on the voltage of negative polarity, the second control the input input of the first modulation node and the third control input of the second modulation node are connected to the control signal bus to disconnect the positive voltage, the third control input of the first modulation node and the second control input of the second modulation node are connected to the control signal bus to disconnect the negative voltage, the first mode input of the first node modulation and the second mode input of the second modulation node are connected to the bus for a signal of positive polarity of the LC filter choke current, the second mode input of the first la modulation and the first input of the second modal modulation unit connected to the bus for the LC-filter inductor current negative polarity signal.