SU1056360A1 - Device for quick asymmetric current charging of storage battery - Google Patents

Abstract

DEVICE FOR ACCELERATED CHARGING BATTERY BA-. Tarey asymmetric current, with the c6 of the color of the counter-actuated controllers of the rectifier and phase control by these straighteners, which are so that, in order to expand the functional capabilities of the device, i set the control devices with accelerators, i-set the control devices, and set the controllers with idle drivers. , delay circuit, duty ratio, sign circuit, separate amplitude adjustment unit, control unit, current stabilization unit, time timer, reversible current sensor, comparison circuit and shunt in the charge circuit, What are the synchronizer inputs connected to the master oscillator and the synchronization unit, the delay circuit is connected to the synchronizer input, the duty ratio of one input is connected to the delay circuit, and the output is connected to the sign circuit and the separate amplitude control unit, the random amplitude adjustment unit is connected to the input the control unit, and the output with one of the inputs of the current stabilization unit, the control unit is connected to the second input of the duty ratio controller and time timer, the current stabilization unit is connected with another input with a roar A flow sensor and a output with an input of the comparison circuit, a reversing current sensor connected to the mentioned shunt. W: Cd Oh

Description

The invention relates to electrical engineering and can be used in devices for accelerating charging CTL-I batteries of batteries, namely, katmm ny. A device is known for the CPU of sozstani asymmetric charging current of the battery l. These devices are characterized by low power unit strength, weak possibilities for adjusting the reverse current when using inverter mode, small duty cycle adjustment range, and a fixed frequency. The closest to the invention of the YaBp is a battery charging unit for battery based on charge-discharge rectifier-inverter converters made on counter-connected controlled thyristor bridges. A disadvantage of the known device is that it is impossible to re-charge the required charges. -Perfect pulse modes of operation according to a given algorithm with adjustable parameters over a wide range (frequency; well, within a given frequency} razetchtynoy adjustment and the amplitude of the current in the entire range of operation of the device with a given accuracy; voi; the ability to set the desired mode of operation and maintain it during charging). The circuit of the invention is to expand the functionality of the device to maintain accelerated charging of batteries als ritmu. The goal is achieved by the fact that an asymmetric current containing two anti-rectifier rectifiers and a phase control system is inserted into the device for accelerated charging of the anti-bore battery, the master oscillator and the synchronizer are inserted, the synchronizer inputs are connected to the auxiliary generator and unit synchronization; a delay circuit connected by an input with a synchronizer, a duty ratio controller, one input of which is connected to the delay circuit, and the output is connected to the introduced sign circuit and the raedle amplitude control unit, the input connected to the control unit, and the output from one of the current stabilization unit inputs; the control unit is connected to the duty cycle controller and time timer, the current stabilization unit is connected to one of the inputs with a reversible current sensor, and its output is connected to the comparison circuit input, time timer and reversible current sensor, the input is connected to the shunt. The block diagram shows a device for accelerated charging of batteries. The device includes a control system according to a predetermined algorithm (SUZA) and a power part control system (NSUS). The master oscillator 1 is connected to one input of the synchronizer 2, and the other input is connected to the output of the synchronization unit 3, the input of which is connected to the mains supply, and the second output is connected to the input of the generator 4 of the sawtooth voltage; the output of the synchronizer 2 .. is connected to the input of the cable 5, the output of which is connected to the input of the borehole controller 6, the output connected to the input of the 7-character circuit, and to the input of the separate amplitude adjustment unit 8, the outputs of the control unit 9; . connected to a unit 8 for adjusting the amplitudes and a duty cycle controller 6, the input of the control unit is connected to a timer 10 time, the output of the block 8 of the adjustment with amplitudes is connected to one of the inputs of the current stabilization unit 11, the other input of which is connected to a reversible current sensor 12, the input signal to which comes from the measuring ends of the shunt 13, the shunt's power terminals are included in the charging circuit of the battery 14, the output of the current stabilization unit 11 fits to the inputs of the comparison circuits 15 and 16, to the other input of which a signal comes from the generator 4 voltage, the outputs of the circuits 15 and 16 are connected to the inputs of the output amplifiers 17 and 18, the second inputs of which are connected to the output of the 7-character circuit, the outputs of the power amplifiers are connected to the power supply unit 19 and the load 14 is connected to the power part. in the following way . The master oscillator 1 generates a triangular voltage of a given frequency and amplitude and supplies it to the synchronizer 2 input, the second input of which receives a signal from the synchronization unit 3 of the power section. At the output of the synchronizer 2, the forward and reverse polarity signals synchronized along the leading edge of the pulse with the power network are applied in the vehicle. With the synchronizer output, the signal rises to the input of the delay circuit 5, where it is spotted for oea time (caused by transient processes in the sipe part). From the output of the wiper circuit, the signal arrives at the input of the borehole controller 6; where is the production:; its smoothly reguppings skuzhnosti U y in the target frequency. The signal about the output of the DIA is supplied to a sign of 7 digits, at the output of which predetermined resolution intervals and CPUs of the forward and reverse currents in the load are formed and to the input of the unit 8 of separate amplitude adjustment, 6 of which are adjusted separately by a voltage from each other direct u and reverse uj load current. The sets of amplitudes for adjusting the duty ratio U at switching off the device are located in the control unit 9 and are connected to the duty ratio controller, the amplitude adjustment unit and the timer 10, which sets the set charge time to automatically turn off the devices through the control unit after the set time has passed. The output of the amplitude adjustment unit is fed to the input unit of the 11th station of the current Bigsiziyai, to another input of which a signal comes from the reversible current pickup. In the current stabilization unit, the current is stabilized according to a predetermined voltage value of the amplitude of the forward and reverse current with a given current stabilization coefficient. The P & current sensor provides isolation of the power section and control system, as well as matching the signals from the shunt measurement terminals to the signals. management From the output of the current stabilizing unit, the forward signal goes to one of the inputs of the comparison circuits 15 and 16, and the second inputs receive a signal from the ramp 4 of the sawtooth voltage, the input of which is. block 3 sync. The synchronization unit generates pulses with a 10-millimeter wavelength across half-waves of a sine-wave voltage, and a sawtooth voltage is formed from these pulses. . At the output of the comparison circuits, the control phase of the forward 15 and inverse 16 current pulses in the load is formed, the outputs of the circuits 15 and 16 are fed to the output power amplifiers 17 and 18, respectively, the input signal of the forward or reverse rectifier bridge is supplied to another input with a given duty cycle. Moof amplifiers amplify the signal to a predetermined wave; The values needed to control the power thyristors of the power unit block 19. The power unit block consists of two counter-controlled controlled rectifiers. A load battery is included in the load circuit. Technical characteristics of the source of single-phase bridge converters: frequency adjustment range 33 - Hz (the lower limit of the frequency is limited by the frequency of the master oscillator, and the upper one - by the scientific research institute - by the frequency of the generator plus a pause); change in phase angle of thyristors O - 180 ° (charge and discharge rectifying bridge); the pause between the operation of the charge and discharge rectifying bridge is controlled smoothly from 0 to lO ms (selected, based on the time of transitional periods in the load and the rate of voltage drop to zero); duty cycle adjusts with smoothly within a given frequency; the magnitude of the amplitude value of the anode and cathode voltage with separate adjustment and maximum phase 300 V; permissible current in a load of 220 A. It is possible to use the proposed control system with three-phase bridge converters. The application of the proposed control system was carried out with a source of single-phase bridge converters with different predetermined modes of operation (accelerated charge, formation, restoration after 1 battery of batteries, etc.). The use of a master oscillator and a synchronizer, a delay circuit, a duty ratio controller, a separate amplitude adjustment unit, a control unit, a time timer, a current stabilizer, and a reversible current sensor make it necessary to set a predetermined input. ham (cathode amplitude and anodo: about current pulse separately, duty cycle, setting frequency, pause between forward and ofatate, charging time), and also to keep the lamp at a given and burning work with current stabilization during charging Yes, that as a whole, raoiir em functionality of the device,

Claims (1)

DEVICE FOR ACCELERATED CHARGING OF BATTERY BA-. TARAYA ASSIME BY AN ETHERIC CURRENT, containing two controlled para rectifiers and a phase control system with these rectifiers, which means that, with a circuit for expanding the device’s functionality,> a generator, a synchronizer, a delay circuit are introduced into the accelerated charge control system , duty cycle controller, sign circuit, separate amplitude control unit, control unit, current stabilization unit, time timer, reversible current sensor, comparison circuit and a shunt in the charge circuit, and The synchronizer is connected to the master oscillator and the synchronization unit, the delay circuit is connected to the synchronizer by the input, the duty cycle controller is connected to the delay circuit by one input, and the signal is connected to the sign circuit and the unit for separate amplitude control, the unit for separate amplitude control is connected “by the input to the unit control, and the output with one of the inputs of the current stabilization unit, the control unit is connected to the second input of the duty cycle controller and the time timer, the current stabilization unit is connected by a 4-other input with a reversing date current ICOM, and output - with an input comparator circuit, reversing the current sensor is connected to said shunt. i