SU1065933A1 - Device for checking serviceability of storage cells in battery and determining termination of discharge of storage battery - Google Patents

Abstract

A DEVICE FOR DIAGNOSTIC OPERATION OF THE ACCUMULATORS IN THE BATTERY AND DETERMINATION OF THE END OF BATTERY DISCHARGE, which contains the voltage meters of each battery and the whole battery, the reference voltage setting unit and the comparison circuit of each battery voltage with a reference voltage pattern, the reference voltage setting unit and a reference voltage comparison circuit of each battery with a reference voltage pattern, and the reference voltage setting circuit of each battery from the battery and the entire battery, the reference voltage generator, and the voltage comparison circuit of each battery and the entire battery, the reference voltage generator, and the voltage comparison circuit of each battery and the entire battery A counter, three adders, a multiplying-dividing circuit, a zero-organ, and an additional reference voltage adjuster are entered into it, and the counter and one of the adders are connected to the output of the circuit the second adder to the output of the counter, the third adder between the first adder and the voltage meter of the entire battery, and the outputs of the second and third adders of the Kv unit replicate-dividing circuit, the output of which i is connected to one of the inputs of the zero-organ, to the second input the output is connected (L of the additional reference voltage adjuster. O5 ate with

Description

The invention relates to the production and operation of batteries. Devices for diagnosing the health of a battery and determining the end of a discharge by voltage across individual batteries and the entire battery are known. These primarily include various volts of voltmeters, according to which it is not possible to make judgments about the performance of batteries and when discharging the end of the mode when the voltage on a separate battery is equal to the minimum allowable 1 or on the battery based on the number of series-connected into the battery of batteries and the minimum allowable voltage on one battery 2. The closest in technical detail to the proposed is a device for monitoring voltage on individual batteries and the whole battery, containing the meter of each battery's battery, the meter of all batteries, the reference voltage source and the comparison circuit of each battery with the reference 3. The disadvantage of this device is the impossibility of determining the performance of the batteries reached de the minimum allowable nan 5 of the same in the composition of this battery and CMeaieHHe estimate the moment of termination of the discharge mode and the value of the actual capacity due to the variation of the discharge characteristics of individual batteries, allowed constituents battery in the completion of discharge. As a rule, when determining the end of a discharge, the devices 1 either ((actually times) the bottom of the battery capacity becomes too low, or the number of batteries is discharged to an unacceptable voltage level. The purpose of the invention is to ensure that the end of the discharge process is diagnosed Separate batteries and the composition of a particular battery. The supply of the target is achieved by the fact that a device containing measuring indicators for each battery of the battery, a voltage meter for the entire battery, reference voltage source and comparison circuit Voltage of each battery with reference voltage, a counter, three adders, a multiplier-division circuit and a null organ, and an additional reference voltage adjuster are entered. One of the newly entered adders and a counter are connected to the output of the voltage comparison circuit separate batteries with a reference one, the third between the accumulator voltage accumulator, reaching its minimum value, and the battery voltage meter; the second is the output of a counter that determines the number of batteries whose voltage has reached the minimum value. A multiplier-division circuit is connected between the outputs of the third and second adders. Between the output of the multiplier-dividing circuit and the reference voltage adjuster, which determines the possibility of using a separate battery as part of the battery, a zero-body is switched on, producing a signal to turn off the discharge mode. The drawing shows a block diagram of a device for determining end of discharge and diagnosing the performance of batteries in a battery. The device contains a monitoring and control system 1 for measuring the voltage of each battery, setpoint 2 for the reference voltage, circuit 3 for comparing the voltage of each battery with the reference one, meter 4 for the voltage of the entire battery, adder 5 for all batteries that reach or pass the minimum level, the counter 6 of the number of batteries whose voltage has reached or dropped below the minimum level, the adder 7, the adder 8, the multiplier-dividing circuit 9, the setpoint generator 10 and the zero-organ 11. The summing input of circuit 3 is nanr been consistent supplied voltage of each battery cell. The subtractive input of the circuit 3 receives the reference voltage of the setting device 2, the value of which is set depending on the electrochemical system of the batteries and the discharge current. In scheme 3, an algebraic subtraction occurs and, with zero or negative results, the summation of the voltages of the measured batteries during the measurement cycle in the adder 5 and the summation of the number k of such batteries in the counter 6. In the adder 8, the algebraic B1 takes place, reading the number k acc. multipliers of the total number j of the battery. The sum of the voltage of the battery Ua.S measured by the meter 4 is added to the summing input of the adder 7, and the sum of the voltages from the output of the adder 5 to the subtracting input is equal to | | Algebraic | 1e differences from the outputs of the adder 7 o ... t, i and adder 8 jk is added to the multiplying-dividing circuit 9. The magnitude of the average voltage is fed to the summing input of the zero-organ 11, to the subtracting input of which voltage is supplied from the setpoint 10. With equal voltages at both inputs or when the voltage of the summing input less than on subtractive adder 11 issues with Signal to disconnect the battery from the discharge. Exclusion of batteries, the voltage of which in the process of discharge reached the minimum, from the definition of the average value

The battery voltage of the battery improves the accuracy of determining the moment of the end of the discharge and the actual capacity of the battery.

The introduction of new elements, a counter, adders, a multiplier-dividing circuit, a zero-body and a reference voltage setting device, improves the accuracy of determining the moment and the end of the discharge, and makes it possible to diagnose the health of the discharge mode during the discharge mode.

batteries as part of this battery. The use of the proposed device allows the battery to be rejected and the batteries properly assembled before being installed on the operating site, which increases the reliability of the battery in operation, improves the accuracy of determining the actual battery capacity, which reduces the cost of electrical energy during cycles by eliminating additional cycles .

Claims (1)

DEVICE FOR DIAGNOSTIC OF BATTERY PERFORMANCE IN BATTERY AND DEFINITIONS END OF A BATTERY DISCHARGE, containing voltage meters for each battery and the entire battery, a reference voltage regulator and a voltage comparison circuit for each battery with a reference voltage, characterized in that, in order to improve the accuracy of diagnosis, a counter, three adders, a multiplier-divider circuit, zero are introduced into it -organ and an additional reference voltage adjuster, the counter and one of the adders connected to the output of the comparison circuit, the second adder to the output of the counter, the third adder between the first adder and the voltage of the entire battery, and a multiplier-divider circuit is connected to the outputs of the second and third adders, the output of which is connected to one of the inputs of the zero-organ, to the second input of which the output of the additional reference voltage regulator is connected. SS SU „„ 1065933>