SU1026067A1 - Peak detector - Google Patents

Abstract

A PEAK DETECTOR containing a main differential DC amplifier, a non-inverting input of which is connected to an input terminal and a cathode of a diode through a resistor, a voltage follower whose input is connected to the output of a main differential DC amplifier and an output of output terminal, the inverting input of the main .and the non-inverting input of an additional differential DC amplifier, the output of which is connected to the anode diode a, characterized in that, in order to broaden the frequency range, the inverting input of an additional differential DC amplifier is connected to a non-inverting input of a main differential-g (c (x)) DC amplifier. (L

Description

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about

O) vl The invention relates to information-measuring technology and can be used in measuring devices and systems, centralized control systems, as well as in instruments and devices converting the peak value of a signal into a constant voltage. A known compensated peak detector is used, in which a reduction in the detection error is achieved by including a diode-capacitor memory whose circuit has a deep negative feedback. However, an increase in the accuracy in the known detector leads to a decrease in the frequency range of the detection, which is caused by the over-compensation mode of the amplifier. input current and, consequently, its saturation. The closest to the proposed is a peak detector containing the main differential a direct current amplifier (DUN), the non-inverting input of which through a resistor is connected to the detector input and the cathode of a diode, a voltage follower whose input through a diode capacitor storage cell (DKPN) is connected to the output of the main DUPT, and the output is connected to the detector output the inverting input of the main and non-inverting input of the additional DCT, the output of which is connected with the anode of the diode. The disadvantage of such a peak detector is the relatively low frequency range of operation, due to the presence of the saturation mode of the additional DCF. Indeed, when charging a memory capacitor of a DKSSA, the difference in the input potentials in addition to the DUPT is sufficient to put it into saturation mode. This leads to a decrease in the frequency range of the device. The purpose of the invention is to expand the frequency range of the peak detector. The goal is achieved by the fact that in a peak detector containing a main differential DC amplifier whose non-inverted input through a resistor is connected to the iT input terminal of a cathode diode voltage follower the input through a diode-capacitor memory cell is connected to the output of the main differential DC amplifier, and the output is connected to the output terminal, inverting. the input of the main and non-inverting input of an additional differential DC amplifier, the output of which is connected to the diode anode, an inverting input of the additional differential DC amplifier. connected to the non-inverting input of the main differential DC amplifier. The drawing shows the block diagram of the peak detector. The peak detector contains a resistor, l, the main differential amplifier of direct current 2, a diode-capacitor, and a second cell 3 ,. .computing 4 for voltage, additional differential DC amplifier 5 and diode b. Detector | p works on the 1st way. When the input voltage is positive, the output voltage of the main amplifier 2 is also positive. The memory co-driver 1 cell 3 is charged, the voltage in it increases and through the repeater 4 the voltage is applied as a voltage (to the inverting input of the main amplifier 2. The circuit monitors the output voltage of the detector (negative feedback voltage). ) for the input voltage. In this case, the amplifier 2 operates in a linear mode, the tick is closed as the OOS circuit. The inputs of the additional amplifier 5 receive the same voltages as the inputs of the main amplifier 2, but they are connected to the opposite For this reason, the polarity of the output voltage of amplifier 5 is opposite to the polarity of the output voltage of amplifier 2, i.e. negative, diode 6 is closed. Additional feedback circuit / formed by amplifier 5 and diode 6 , it turns out to be open and does not affect the operation of the peak detector, and the DUPT 5 operates in a linear mode, since its input voltage is equal to the (ho module) input voltage of amplifier 2 ,, After the input signal of the detector has an extreme voltage value you during the main amplifier 2 will begin to decrease. However, as soon as the difference between the input. and the output voltage of the detector will exceed the sensitivity of amplifier 5, the voltage at its output will be positive, diode 6 will be conductive and the potential of the non-inverting input of amplifier 2 and inverting input of amplifier 5 will stabilize (up to a statistical error due to the final gain value of amplifier 5 ) at the output voltage level

 1026067

the detector. Since the OOS chain is amplified-Thus it is visible that the ova

l 5 when ETSY4 is on, it is again all usable while in active mode, and in the normal mode, regardless of

in active mode, its force is closed or open, its owner 2, since its input direction is an environmental feedback circuit. Such work strengthen

the burning is equal (in magnitude) to the input 5 lei causes dye frequency

the voltage of the amplifier of the 5.th range of the peak detector.

Claims (1)

A PEAK DETECTOR, comprising a main differential DC amplifier, a non-inverting input through a resistor connected to the input terminal and the cathode of the diode, a voltage follower, the input of which is connected through the diode-capacitor storage cell to the output of the main differential DC amplifier, and the output is connected to the output terminal , the inverting input of the main and non-inverting input of the additional differential DC amplifier, the output of which is connected to the anode of the diode, distinguishes yuschiysya in that in order to extend the frequency range, an additional inverting input of the differential amplifier is DC coupled to the noninverting input of the basic differential DC amplifier.