SU1095352A1 - Two-step amplifier - Google Patents

Abstract

AMPLIFIER containing a series-connected low-frequency amplification channel and an output adder, as well as an attenuator connected to the output of the low-frequency amplification channel and the first subtractor input, the output of which is connected to another input of the output adder, characterized in that, for the purpose of increasing dynamic accuracy while maintaining static accuracy, an additional attenuator is switched on between the input of the low-frequency gain channel and the second input of the subtractor, with this factor The nt transmit attenuator is chosen to be equal to and the transfer coefficient of the additional attenuator Vfe is chosen to be 2 3 the upper limit frequency of the low-frequency channel bandwidth and f, are the lower and upper limit frequencies of the high-frequency signal pass band, respectively.

Description

110 The invention relates to electronic engineering and can be used to amplify signals with high dynamic accuracy. A device is known that contains a first amplifier connected in series and an output adder, as well as a subtractor, the first input of which is connected to the input of the first amplifier, the second input through an attenuator to the output of the first amplifier, and the output through a second amplifier with another input of the adder tl 3. V In this device, the second amplifier is an amplifier of direct current, which leads to the influence of the accuracy of the transmission coefficient of the second amplifier on the static accuracy of the device as a whole. The closest technical solution to the present invention is an amplifier containing a series-connected low-frequency gain channel and an output adder, as well as an attenuator connected between the output of the low-frequency gain channel and the first input of the subtractor, the output of which is connected to another input of the output adder via the high-frequency gain channel. 21. The known amplifier has low speed, i.e. a long time is reached by the output signal at a fixed value at a given dynamic error. The purpose of the invention is to increase the dynamic accuracy while maintaining the static accuracy. The goal is achieved by the fact that in an amplifier containing successively connected low-frequency gain channel and an output adder, as well as an attenuator connected between the output of the low-frequency gain channel and the first input of the subtractor, the output of which is connected to another input of the output adder, via a high-frequency channel. between the input of the lower 2 frequency gain channel and the second. the input of the subtractor included an additional attenuator, with the transfer coefficient of the attenuator chosen equal to tl). a the transmission coefficient of the additional attenuator is equal to /. f f2 fj is the upper limit frequency of the passband of the low frequency channel, f and f are, respectively, the lower and upper limit frequencies of the pass channel of the high frequency channel. The drawing shows the structural diagram of the amplifier. The amplifier consists of a low-frequency gain channel 1, a high-frequency gain channel 2, a subtractor 3, an output adder 4, an attenuator 5, and an additional attenuator 6. When the voltage jumper enters the input, the output voltage of the amplifier in the low-frequency gain channel is determined mainly by the signal passing through the additional attenuator 6 and the high-frequency gain channel 2, the transmission coefficient of which is 1. As the output voltage of the low-frequency usi channel rises tim 1 voltage at the output of high gain channel 2 is reduced and the steady high frequency channel gain mode 2 in the amplifier does not participate. The gain of the amplifier is determined by the low-frequency gain channel, which has a transfer coefficient of 1. By introducing an additional attenuator 6 and choosing the passbands of the low-frequency gain channel 1 and the high-frequency gain channel 2 in the proposed amplifier in a certain way, the transition time during maintaining static accuracy.

Claims (1)

An AMPLIFIER comprising a series-connected low-frequency amplification channel and an output adder. as well as an attenuator connected between the output of the low-frequency amplification channel and the first input of the subtractor, the output of which through the high-frequency amplification channel is connected to another input of the output adder, characterized in that, in order to increase dynamic accuracy while maintaining static accuracy, between the input of the low-frequency channel gain and the second input of the subtractor included an additional attenuator, while the gain of the attenuator is selected to be j, and the transmission coefficient of the additional attenuator I m is chosen equal to D1 - £ - ^{where the} upper cutoff frequency of the passband of the low-frequency channel and are the lower and upper cutoff frequencies of the passband of the high-frequency channel, respectively. SU „„ 1095352