SU1229859A1 - Device for automatic checking of n storage batteries having galvanic coupling - Google Patents

Abstract

The invention can be used for automatic element-by-element control of batteries in power systems of autonomous objects. The purpose of the invention is to simplify the device and reduce power consumption. When the first pulse of the clock generator 10 is applied to the counter 5 pulses of the distributor 6, the digital code appears at the output of the last and multiplexer 2 connects the positive terminal of the battery 1 | to the input of the differential amplifier (7), and multiplexer 3 connects to the other input 7 of the negative terminal of this battery. One input 8 of the comparison receives a signal from the output of the control unit 7, and the other input - the voltage of the reference source (OI) 9. When the battery voltage li in the limit determined by the voltage OI 9, the input of the clock generator 10 receives a resolution check the next battery. When the battery voltage exceeds the permissible value, the comparison circuit gives a command to control only this battery, and the communication channels 11 receive information about the presence of a faulty battery and its number. If a battery b is connected to the input of remote control 7, then the voltage at its output is output. KU2. In this case, a fixed common point of the device and the battery is organized, which allows the use of analog multiplexers. The reduction in power consumption is due to the absence of galvanic isolation elements. 1 il. (Lu to x 00 sd with

Description

The invention relates to electrical engineering and, in particular, can be used for automatic element-by-element control of chemical current sources, for example, in power systems of autonomous objects.

The purpose of the invention is to simplify the device and reduce power consumption.

The drawing shows a diagram of the proposed device.

The circuit contains a battery 1, consisting of n gallically connected batteries li, ..., ln, connected to the analog inputs of n-channel multiplexers 2 and 3 of switch 4, the control inputs of which are connected to the outputs of the counter 5 pulses the distributor 6, and the analog outputs are connected to the inputs of the differential amplifier 7. The output of the comparison circuit 8, to the inputs of which are connected the outputs of the differential amplifier 7 and. the source 9 of the reference voltage, is connected to the clock generator 10 and to the communication channels 11.

The device works as follows.

When the first pulse of the clock generator 10 is applied to the counter 5 pulses of the distributor 6 at the output of the last, a digital code is inserted, according to which multiplexer 2 connects the non-inverting input of differential amplifier 7 to the positive side of the battery 11, and multiplexer 3 connects to the inverting input negative battery cover 1.

One input of the comparison circuit 8 receives the output voltage of the differential amplifier 7, proportional to the voltage of the tested battery b, and to the other input - the voltage of the reference source 9.

If the voltage of the battery 1 is in the allowable limit, which is determined by the voltage of the reference source 9, then the input to the clock generator 10 from the output of the comparison circuit 8 is allowed to check the next battery.

When the voltage on any of the batteries exceeds the permissible value, only control of this battery is continued by the command of the comparison circuit, and external devices through the communication channels 11 receive information about the presence of a faulty battery and its number.

Let an analog multiplexer 2 and 3 be connected to the inputs of the differential amplifier battery b, then the voltage at its output is described by the expression:

ivyh (U + -U) - / (

VNIIPI Order 2232/54 Circulation 643 Subscription

Branch PPP "Patent, Uzhgorod, st. Project, 4

0

0

o

five

where U + is the voltage at the non-inverting input of the differential amplifier;

and - the voltage at the inverting input of the differential amplifier;

K is the gain factor of the differential amplifier. Considering that U + Ui + U2;

U U ,,

where Ui is the voltage on the bottom plate of the tested battery b; U2 is the voltage of the tested battery b,

get vbhx. K-J-2. Thus, the differential amplifier suppresses the common-mode voltage Ui, and the output voltage is proportional to the voltage of the battery under test, while organizing a fixed common point of the device and the battery, making it possible to use analog multiplexers. Due to the fact that the output voltage of the differential amplifier is always of the same polarity, there is no need to use inverting nodes, which greatly simplifies the design of the device and reduces its weight and size.

The reduction in power consumption is due to the absence of galvanic isolation elements, as well as the fact that the analog multiplexers used in the switch consume little power on the control circuits.

Claims (1)

Invention Formula A device for automatic control of galvanically connected batteries containing a switch, a distributor, a comparison circuit and a source of reference voltage, the first input of the comparison circuit being connected to a source of reference voltage, and the output connected to the distributor associated with the switch that, in order to simplify the circuit and reduce power consumption, a differential amplifier was inserted into it, and the switch was made on two analog p channel multiplexers, while the measurement inputs were first The second multiplexer is connected to the positive and the second to the negative plates of the batteries, and their outputs are connected to the inputs of a differential amplifier whose output is connected to the second input of the comparison circuit, the negative terminal of the battery connected to the common point of the comparison circuit.