SU1019461A1 - Multiplying-dividing device - Google Patents

Abstract

MULTIPLE-DEPARTMENTAL DEVICE, containing successively connected adder and amplifier with a controlled conversion factor, the inputs of the adder are corresponding to the first and second inputs of the device, low pass filter, high pass filter, the output of which is with the output of the device, characterized by the fact that In order to improve speed and accuracy, an additional adder and an inverter are inserted into it, with the output of an additional adder being connected via a low-pass filter to the control input of the amplifier with control transmission coefficient and the input of an additional adder, the second input of which is connected to the output of the amplifier with an adjustable transfer coefficient, the third input of the additional adder is the third input of the device.

Description

CO 4

О The invention relates to conventional technology and 4 analog computers can be used. A device containing variable coefficients {Shetsch, Zsilypipi, moru-tori LI 3 is known for x-depressively. transmission coefficient, high-pass and high-pass filters 2.;; The disadvantage of the known device is the low level of degradation and low accuracy {of short-lived passers-by signal-divisible in the signal path allotment The aim of the invention is to improve speed and accuracy. This goal is achieved by a heme, in a multiplying-dividing device, and connected in series to the adder and amplifier with a controlled gear ratio. The inputs of the adder are in the first and second inputs of the device, the low-pass filter, the high-pass filter, the output of which is the output of the device , an additional adder and an inverter are introduced, and the output of the additional sum is connected to the control input of the amplifier with controllable gain — and to the input input The output of which is connected to the high-frequency input, the output of which is connected to the first input of the additional adder, and the second input of which is connected to the amplifier output with a controlled gain, the third input of the additional adder is the third input of the device. The drawing shows a functional diagram of the proposed multiplier-dividing device. The device contains an adder 1, an amplifier 2 with a lagged transmitting frequency, an additional adder 3, a low-pass filter 4, an inverter 5, a frequency filter 6, a frequency, first, second and third inputs 7-9 and an output 10 of the device. The optimizing device works in the following way. The alternating voltage of the multiplier signal from the first input 7 and the unipolar voltage of the signal divider from the second input 8 after the addition in the adder 1 are fed to the amplifier 2 with the ratio controlled by the transmission. Re-. The transfer control (amplification) is gulyanaaned by a circuit of the automatic control, which is formed by a nooim & f & tbHhfM by adder 3 and filter 4shgak to frequencies. The gain of amplifier 2 was set at such a level at the equal level of a unipolar snare of the detector was constant and close to the value of the second multiplier signal, acting on the third signal, acting on the second input 8, subtracted in the additional adder 3 is a second unipolar signal with a scoop acting on the third input 9. The gain of the controlled amplifier 2 is inversely proportional to the voltage of the signal divider acting on the second input 8, and is directly proportional to n zhengao second signalasomnozhitel voltage prevailing at the third input variable 11apr 9. zhvnie output usipitegag 2 also proportional Nacre zheniyu first signalasomnozhitel t, e, is a joint result- multiplying and dividing. In the additional adder 3, the alternating voltage supplied from the amplifier 2 output is compensated with the signal of the first factor anti-phase voltage, which is obtained as a result of amplification by the inverter 5 and the high-frequency filter selecting the variable component of the control signal. The variable control signal component is a static compensation error that can be made admissiblely small, without changing the parameters of the low-pass filter 4, by picking a sufficiently large loop transfer coefficient of the automatic compensation formed by the additional adder 3, the low-pass filter 4, the inverter 5 and filter 6 treble. In this case, the compensating signal, which also arrives at 10, fuses the resulting voltage at the output of amplifier 2 with a reduced duration of transients of the signal extraction circuit due to the accelerating feedback action. In comparison with the known device, the proposed multiplying-dividing device is characterized by a new quality - higher speed and accuracy of operation.

Have

Claims (1)

A MULTIPLE DIVISION DEVICE comprising an adder and an amplifier with a controlled transmission coefficient connected in series, the adder inputs are the first and second inputs of the device, a low-pass filter, a high-pass filter, the output of which is the output of the device, characterized in that, in order to increase speed and accuracy, an additional adder and an inverter are introduced into it, and the output of the additional adder through a low-pass filter is connected to the control input of the amplifier with th transmission ratio and to the input of the inverter, whose output is connected to the input of the high pass filter whose output is connected to a first input of an additional adder, to the second input of which is connected _{on the} output usi- divisor with a controlled coefficient pe- ® D cottages, additional third input. / adder is the third input of the device. { 1019461 2