SU1153331A1 - Analog dividing device - Google Patents

Abstract

ANALOGUE DELIVERY DEVICE containing an operational amplifier and multiplier, the first scale resistor, the first output of which is the input of the signal-separable, the second output of the first scale resistor is connected to the first output of the second scale resistor, the second end of which is connected to the output of the multiplier, non-inverting input of the operating resistor the amplifier through the third scale resistor is connected to the zero potential bus, the output of the operational amplifier is the output of the device and is connected to the first input the multiplier is used, the second input of which is the input of the signal-splitter, which means that, in order to expand the range of input signals while maintaining the division accuracy, a switch and a fourth resistor are entered into it, and The switch is connected to the second output of the first large-scale resistor, the first switch output is connected to the non-inverting input of the operational amplifier, the inverting input of which is connected to the second output switch and to the zero bus through the fourth large-scale resistor th potential control input pereyunochatel connected to the second input peremnosl inhabitants. 00 ro oo

Description

The invention relates to electrical computing devices and can be used in analog computers. A separating device is known, which contains a divider unit, an operational amplifier, a key element. The known device is characterized by a narrow range of input signals. Closest to the present invention is an analog splitter device comprising an operational amplifier and a multiplier, a first scale resistor, the first pin of which is a signal-divisible input, a second pin connected to the first pin of the second large-scale resistor and an inverting input of the operational amplifier, The non-inverting input is through the third large-scale resistor connected to the zero potential bus, the output of the operational amplifier is connected to the first input of the multiplier, the output of which is connected to the second at the conclusion of the second resistor the second input of scaling multiplier is input to a signal-divider, yield opera insulating amplifier is the output device 2}. The drawback of the device is that the voltage of the signal-divider can only take a positive value, which limits the range of signals. The purpose of the invention is to expand the range of input signals while maintaining the accuracy of division. This goal is achieved by a device containing an operational amplifier and a multiplier, the first scale resistor, the first output of which is a signal-divide input, the second output of the first scale resistor is connected to the first output of the second scale resistor, the second output of which is connected to the multiplier output, non-inverting input the operational amplifier is connected to the zero potential bus through the third scale resistor, the output of the operational amplifier is the device output and is connected to the first one. To the multiplier input, the second input of which is a signal-splitter input, a switch and one fourth scale resistor are entered, the switch input is connected to the second output of the first scale resistor, the first switch output is connected to the non-inverting input of the operational amplifier, the inverting input of which is connected to the second output a switch, and through the fourth scale resistor with a zero potential bus, the control input of the switch is connected to the second input of the multiplier. The drawing shows a functional diagram of the proposed analog dividing device. The device contains an operational amplifier 1, multiplier 2, first, second, third and fourth scaling resistors 3, 4, 5 and 6, switch 7, bus 8 of zero potential, input 9 of the signal-divisible, input 10 of the signal-divider, output 11. An analog dividing device works as follows. If the voltage of the signal divider from the input 10 is positive, then the switch 7 connects the input 9 to the inverting input of the operational amplifier 1, resulting in a circuit identical to the inverted multiplier circuit. The voltage at output 11 is equal to 11 (s //., ± + l where and is the signal-divisible voltage from input 9}, the voltage of the divider signal from input 10 ;. the resistance of the first scale resistor 3; the resistance of the second scale resistor 4; resistance of the fourth scale resistor 6; transfer ratio of multiplier 2; gain of the operational amplifier 1. If the voltage of the signal-divider from input 10 becomes negative, switch 7 switches input 9 to the non-inverting input of operational amplifier 1. then allows em vosstan negative feedback. The voltage at the output 11 is equal to ".P. Rs-R4 / fPir., .- K where Rj is the resistance of the third scale resistor 5, Choose 10. Then, under the condition of a large gain value of the operational 1153 31 amplifier , at any sign of the voltage of the Signal-divider v, "v Compared with the device-prototype, the proposed analog dividing device has a wider range of input signals, as it allows the dividing operation to be performed at any sign of the voltage divider without degraded and accuracy are performed, no division operation.

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Claims (1)

ANALOGUE DIVISION DEVICE containing an operational amplifier and a multiplier, a first scale resistor, the first output of which is an input of a divisible signal, the second output of the first scale resistor is connected to the first output of the second scale resistor, the second output of which is connected to the output of the multiplier, the non-inverting input of the operational amplifier through the third a large-scale resistor is connected to the zero potential bus, the output of the operational amplifier is the output of the device and is connected to the first input of ac of the cell, the second input of which is the input of the divider signal, which means that, in order to expand the range of input signals while maintaining the accuracy of division, a switch and a fourth scale resistor are introduced into it, and the input of the switch is connected to the second output of the first a scale resistor, the first output of the switch is connected to a non-inverting input of the operational amplifier, the inverting input of which is connected to the second output of the switch and through the fourth scale resistor to the bus of zero potential, the control input of the shifter is connected to the second input of the multiplier. ... SU ... 1153331