SU1453420A1 - Apparatus for simulating storage batteries - Google Patents

Abstract

The invention is intended for testing power supply systems and equipment of autonomous objects, which include a battery, operating in charge and discharge mode. The goal is to simplify the device. In the discharge simulation mode, the key element 4 connects the power source 1 to the zero potential bus of the device. The voltage from the reference current source 7 is compared to the output through a block of variable coefficients 10 in the adder 9. The error signal is amplified by the voltage amplifier 8 and controls the power amplifier 3. In the charge simulation mode, the power source 1 is disconnected from the zero potential bus of the device. The device made it possible to increase the accuracy of modeling and simplify the design by including a standard current source in the power circuit, 1 sludge. (L

Description

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The invention is intended for testing power supply systems and equipment of autonomous objects, which include a battery, operating in charge and discharge mode. .

The purpose of the invention is to simplify the device.

The drawing shows the structure-JQ on the device diagram.

The device for model1} battery charging contains a power source 1, a ballast resistor 2 ,.

I power amplifier 3, key element 4, comparator 5, measuring

 cell 6, the reference current source 7, the voltage amplifier 8, the adder 9, the block of 10 variable coefficients, a negative 11, and put the 12–20 pole of the simulated device battery.

The device works in the following way.

In the mode of modeling discharge 25, the key element 4 is in the closed state and the source 1 is connected to the zero potential bus of the device, through the reference (chemical

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cue) current source 7 flows load current. The voltage from the reference current source 7 is compared with the voltage supplied from the variable variable power unit 10, in the adder 9, the output voltage of which is the error signal and amplified by the voltage amplifier 8, which controls the power amplifier 3 in such a way that 11 and 12 the device is set to the required voltage

With the help of variable coefficient block 10, the required proportionality is maintained. devices. The operation of the device units is similar to their operation in simulating the charging mode.

As the reference current source 7 charges, the voltage across it increases, and so does the voltage across the poles t1 and 12 of the device.

The reference current source 7 is a single battery battery whose characteristics are reproduced by the device. Element b is pre-assigned to measure current and output as a resistive shunt. A block of 10 variable coefficients can be implemented as a voltage divider. The adder 9 and the amplifier 8 are operational amplifiers. Key element 4 can be completed on a relay or in the form of a transient key. The comparator can be completed on an operational amplifier.

sticking the device and the reference current source 7.

As the ethoson (chemical) current source 7 is discharged, the voltage across it decreases, and the voltage across the terminals 11 and 12 of the device changes in the same way.

The battery charge simulation mode is as follows. When connected to the poles

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Claims (1)

Formula from found and A battery simulator device containing a standard current source, a measuring element, a power amplifier, a block of variable coefficients, an adder and a voltage amplifier, the output of which is connected to the control input of a power amplifier whose output is connected to one output of the measuring element The other side of which is connected to the positive side of the reference current source, the output of the block of variable coefficients is connected to the first input of the adder, the output of which is connected to the input of the voltage amplifier This is due to the fact that, in order to simplify the device, it contains a key element, a comparator; ballast resistor and power supply, the positive of which through the ballast ..J v-, jjjiuti-i ldltid ft.ui-upui-o through oallas And and 12 charge source with a direct resistor 55 is connected to the input of the usyagrm (YTTTT ".-. Jl-v-jrl voltage greater than the voltage of the modeled battery, through an amplifier. 3 power and a standard current source 7 begins to flow a power flood, to the input of the block of variable coefficients and to the output of the positive pole of the simulated battery of the device, you Jq s 0 five 0 The direct current, the direction of the current through the measuring element 6 is changed, the comparator 5, fixing the change in the direction of the current, sends a signal to the control input of the element 4, which disconnects the power supply 1 from the zero potential bus of the device. Further, the operation of the device blocks is similar to their work in simulating the charging mode. As the reference current source 7 charges, the voltage across it increases, and so does the voltage across the poles t1 and 12 of the device. The reference current source 7 is one battery battery whose characteristics are reproduced by the device. Element b is designed to measure current and is made in the form of a resistive shunt. The variable coefficient block 10 may be implemented as a voltage divider. The adder 9 and the amplifier 8 are operational amplifiers. Key element 4 can be performed on a relay or in the form of a transistor switch. The comparator can be performed on an operational amplifier. 35 before five 0 Formula from found and. A device for simulating batteries, containing a standard current source, a measuring element, a power amplifier, a block of variable coefficients, an adder and a voltage amplifier, the output of which is connected to the control input of a power amplifier, the output of which is connected to one output of the measuring element, another The transducer of which is connected to the positive terminal of the reference current source, the output of the variable coefficient block is connected to the first input of the adder, the output of which is connected to the input of an amplitude l ex. This is due to the fact that, in order to simplify the device, it contains a key element, a comparator; ballast resistor and power supply, the positive output of which is via ballastJ v-, jjjiuti-i and ldtid ft.ui-upui-o via an allas A 5th resistor is connected to the input. A big resistor is connected to the Jl-v-jrl input. power unit, to the input of the block of variable coefficients and to the output of the positive pole of the simulated battery of the device, you. 1453420 the negative pole stroke of the model with the control input of the battery of the cell battery, the first and second terminals of which are connected to the negative terminal of the second one are connected respectively to the reference current source and to the second negative source of the power source to the adder, the measurement output to the output of the power amplifier and element through the comparator connected to the bus of zero potential of the device.