SU1443081A1 - Storage battery charging device - Google Patents

Abstract

The invention relates to electrical engineering and can be used in various types of urban electric transport. The purpose of the invention is to improve the reliability of the charging device under the condition of the disappearance and subsequent restoration of the supply voltage. The device is equipped with control elements of the rate of increase of the supply voltage. A signal proportional to this voltage is fed to the first input of the comparison node 6 directly, and to the second input through the aperiodic link 5 and inverter 7. At a high rate of increase of the supply voltage due to the delay introduced by the aperiodic link 5 to the process of increasing the signal - to the entrance of the comparison node 6, the output of the latter is a signal whose value exceeds the setpoint of the threshold element 8. The output of the threshold element 8 is a signal which is fed to the auxiliary input of the block 1 4 control inverter DC voltage at a constant, providing a forced removal of the thyristor control pulses transducer 1. By reducing the rate of rise of the supply voltage signals to the comparator output node 6 and the threshold element 8 are reduced smoothly to zero, providing a soft start device. 1 il. 4 CO O

Description

The invention relates to electrical engineering and can be used for diving a series of batteries and powering low voltage circuits of various types of urban electric transport.

The aim of the invention is to increase the reliability of the device.

The drawing shows a block diagram of the device.

The device contains a constant-voltage-to-constant converter 1 with natural switching of thyristors, the output of which is connected via a smoothing choke 2 to the battery 3. The second input of the control unit 4 is connected to the terminals of the battery 3, the output of which is connected to the control input of the converter 1. The first input of control unit A, the aperio-1 link 5 and the first input of the comparison node are connected to the input terminals of the high-voltage converter 1. The output of the aperiodic link 5 is connected to the second input of the comparison unit 6 via the inverter 7. The output of the comparison node 6 is connected via the threshold element 8 to the auxiliary input of the control unit 4.

The device works as follows.

In the initial state, the converter 1- receives power through the high-voltage input terminals from the contact network, for example, a voltage of 550 V. The control unit 4 receives power from the battery 3 through the second input, which also monitors the voltage to the battery The battery is proportional to the high voltage at the input terminals of the converter, is fed to the first input of the control unit 4, providing permission for the formation of the control pulses of the thyristors of the converter 1. K In addition, this signal goes to the first input of the comparison node 6 and to the input of the aperiodic link 5, which has a time constant of the order of 0.1 s. Inverter 7 provides a change in the sign of the signal at the output of the aperiodic link 5 on the reverse. With a low rate of increase of voltage at the input of the converter 1, the signal at the output of the node 6 of the comparison is zero or

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has a value lower than the setting of threshold element 8, and there is no signal at the output of the latter. When the current collector of the device passes through the isolator of the sectional junction under load, the voltage at the input of the converter decreases. The control unit 4, which controls the first and second inputs, respectively, the magnitude of the input high voltage of the converter 1 and the voltage on the battery, provides the maximum 1st value of the switching frequency of the thyristors of the converter 1. At the time when the device’s current collector touches the next section of the contact the network, the input voltage of the device increases dramatically, the signal at the second input of the comparison node b due to the delay introduced by the aperiodic link 5 becomes smaller than the signal at the first input. The magnitude of the signal at the output of the comparison node 6 in this case exceeds the setpoint of the threshold element 8, a signal appears at its output, which, arriving at the auxiliary input of control unit 4, ensures, due to the absence of inertia in the control unit along this path, instantaneous removal of control pulses From the thyristors of the converter 1. As the signal increases at the output of the aperiodic link 5, the signals at the outputs of the comparison node 6 and the threshold element 8 smoothly decrease, ensuring a soft start of the device.

Thus, the proposed device provides for inertial removal of control pulses when the rise rate of the input high voltage exceeds a certain value. This helps prevent a short circuit in the input circuit of the device when the input voltage rushes, and consequently, significantly increase the reliability of the device when the rolling stock passes sectional transitions of the contact network under load.

Claims (1)

Invention Formula A device for charging a battery containing a DC / DC converter with natural switching thyristors, the high voltage input terminals of which are connected to 31AA3081 high voltage contact network, aperiodic additionally introduced its output through a smoothing choke, inverter, comparison node and a threshold element is connected to the terminals for connection, and a battery accumulator control unit, and the control unit is provided with an additional input, The output of which is connected with the aperiodic link input to the control input of the converter and the first input of the node comparing the alternating voltage to DC, to the input terminals of the high first input is connected to the input terminal of the converter, the output of the high voltage of the conversion circuit through the inverter the body and the second input to the terminals for is connected to the second input of the battery connection unit, the output of which is through the distinctive feature of the fact that its own element is connected to an additional reliability target, in the foreign input of the control unit. 15