SU997144A1 - Device for testing technical state of storage battery - Google Patents

Description

days, the voltage on the internal, the resistance of the battery with a given degree of infection from the magnitude of the discharge current .. The output of the nonlinear element is connected to an amplifier made adjustable, and the input is connected to a current sensor. The drawing shows a functional electrical circuit of the proposed device.

The device for monitoring the technical condition of the battery contains a current sensor 1, an adjustable amplifier 2, a non-linear element 3 modeling the gain factor, an adder 4, a reference voltage source 5, a comparison unit 6 and a recording unit 7. The current sensor 1 is connected in series with the AB 8 and variable load 9. Amplifier 2 inputs connected to current sensor 1 and nonlinear element 3, also connected to current sensor 1, and the output connected to the first input of the adder 4. The second input of the adder 4 is connected to the voltage source 5. Comparison unit 6 entrance They are connected to the battery 8 and the adder 4, and the output is connected to the recording unit 7. Supports the source L forms a voltage equal to the EMF of the battery 8, with a minimum acceptable level of health, providing a range of load operating conditions 9. The adder 4 produces the voltage equal to the discharge voltage of an AB 8 with a minimum permissible level of charge. Nonlinear element 3 simulates a correction to the gain depending on the value of the discharge current. The installation value of the coefficient of the amplifier 2 is chosen equal to K ,, corresponding to the mode of operation of the AB 8 with a minimum load.

The device works as follows.

When powering load 9 from AB 8, the current signal 1 is proportional to the discharge voltage: TokuER. enters nonlinear element 3, which models the it3p correction coefficient iK to the gain factor. The amplifier 2 under the action of the signal from the nonlinear element 3 changes its gain to the value of KSZr} KO + 6K, where K is the setting value of the gain; KORU - coefficient corresponding to the operating point of the current-voltage characteristics of AB 8 with a minimum permissible level of charge. The amplified current sensor signal 1. is fed to the input of the adder 4, where a reference voltage is produced:

OE - UI-P Rgde - voltage of the reference source UOH

nickname 5.

Comparison unit 6 compares the voltage U with the reference voltage L. At the output of the comparator unit 6, a signal appears if Uyj., Which is registered by unit 7, which means that the AB 8 cannot develop the required power. The signal from the recording unit 7 of the AB 8 is transferred to another mode of operation or its charging is performed. The nonlinear element 3 can be performed, for example, in the form of a magnetisable transformer regulator, which has a nonlinear pass characteristic that allows to model the nonlinear voltage drop across the internal resistance of the battery with a given degree of charge on the value of the discharge current.

The positive effect expected from the use of the proposed device is to improve the accuracy of control of the technical state of the battery in the entire range of operating modes by taking into account the nonlinear dependence of the discharge voltage of the battery on the current value. The maximum effect can be obtained when using the device in the power supply systems of autonomous objects, where it is fundamentally necessary to evaluate the ability of AB to develop the required power in any mode of operation of consumers.

Claims (2)

1. USSR author's certificate I L41225, cl. H 01 M 10/42, 1970. 2. USSR author's certificate number 687496, cl. H 01 M 10/48, 1975.