SU597061A1 - Power supply unit frequency control - Google Patents

Description

adjustable time intervals, the unit for setting reference and {time interval settings, the control unit for the operation mode, the input valve of the measured frequency signals, the input valve for the mains frequency, the input valve for the setting unit, the output valve for the setting unit, the gain and memory valve, moreover, the output of the signal converter of the measured frequency into square pulses is connected to the driver of the reference time intervals, and through the driver of the measured time intervals is connected to the second input of the comparison unit In addition, the output of the error signal converter is connected to the amplifier and memory unit through the gate of the gain unit and memory, and through the input valve of the unit for setting reference time intervals, through the unit for setting reference time settings and through the output valve of the setting unit settings is connected to the driver reference time intervals; the first input of the measured frequency converter into square pulses is connected to the output of the input valve of the measured frequency signals, whose input serves to connect the bottom voltage of the measured frequency, the second input of the measured frequency converter, to square pulses is connected to the output of the input valve mains frequency, the input of which serves to connect to the mains voltage; the first output of the control unit is connected to the second inputs of the amplification and memory unit's valve, the input signals of the measured frequency, y and the output valve of the setting unit of the reference time interval settings, and the second output of the control unit is connected to the second inputs of the input frequency network input valve and the input unit of the setting unit settings reference time intervals.

The drawing shows a structural diagram of the frequency regulator of power units.

The frequency regulator contains a converter of 1 measured frequency signals into square pulses; shaper 2 measured time intervals; shaper 3 reference time intervals; comparison unit 4; converter 5 mismatch signals; block 6 gain and memory; block 7 of setting reference time settings; control unit 8; input valve 9 signals of the measured frequency; input valve 10 network frequency; input valve 1 of the setting unit; output valve 12 of the setting unit; gate 13 of the amplifier and memory unit.

The frequency regulator operates as follows.,. :

Output transform. 1 of the measured frequency signals are rectangular, the pulses are connected through the shaper 3 reference time intervals to the first input of the comparison unit 4, and through the shaper 2 measured time intervals to the second input of the comparison unit 4.

Output 4 is connected to the input of the converter 5 error signals

The output of the converter 5 is connected via a gate 13 of the amplifier and memory unit.

the input of the amplification unit 6 and the memory, and through the input valve 11 of the setting unit of the settings is connected to the input of the unit 7 of the setting of the reference 1-1 interval of time.

The output of block 7 through its output valve 5 12 is connected to the driver 3.

The signals of the measured frequency are connected to the first input of the converter 1 through the input valve 9 of the signal of the measured frequency.

The network frequency signals are connected to the second input of the signal converter of the measured frequency into square pulses through the input valve 10 of the mains frequency.

The first output of the control unit 8 is connected to the second inputs of the valve 13 of the amplification unit and the memory, the input valve 9 and the output valve 12.

The second output of the control unit is connected to the second inputs of the input valve 10 and the input valve 11.

The frequency regulator of power units is designed to regulate objects 0 both in the normal mode of operation and in the mode of synchronization of the frequency of rotation of the units with the network.

Switching and selection of modes are performed using the control unit 8, which generates signals that control the groups of regulator gates. In normal operation mode, the input valve 9, the output valve 12 and the valve 13 are always open, and the input valve 10 and the input valve 11 are closed.

In synchronization mode, there is a periodic switching of both groups of valves. In this case, the control unit 8 generates a series of control pulses, specifying their turn-on time and alternate order of switching-on of the listed groups of gates, moreover, the switch-on of the first group of 5 gates: the input valve of the measured frequency, the output valve of the setting unit of reference time intervals and the gain and memory valve are many times longer (for example, 10 times) than the turn-on time of another group of valves: the input valve 10 of the mains frequency and the input valve of the block 11 setting the reference time interval settings. .

When the regulator is operating in the normal control mode, the signals of the frequency of the regulated unit through the open input valve 5 9 are fed to the converter 1, from which signals are received to form the measured time intervals and simultaneously to form the standard time intervals of the set point. Moreover, the setpoint interval is formed as the sum of two components: the nominal reference interval, which corresponds to the nominal frequency value, and the incremental interval, which is determined by block 7, and through the open output gate of the setting unit, connected to block 3. The deviation of the controlled frequency from the setpoint produced in the comparison unit 4, the output of which through the converter 5, the open valve 13, the block 6 is supplied to the regulation of the inlet of the energy carrier.

When the controller operates in the synchronization mode, as already noted,