SU853561A1 - Peak detector - Google Patents

Description

The invention relates to the field of measurement technology, in particular, can be used for the detection and parametric amplification of signals. A peak detector is known that contains an operational amplifier, the inverting input of which is connected to the terminals of an input voltage source through a resistor, and the non-inverting input through a resistor is connected to ground. Moreover, the negative amplifier of the operational amplifier is switched on to a parallel circuit consisting of a diode shunt Diodes are connected in antiphase 1 T by series-connected diode and resistor. The disadvantage of this device is low accuracy, sensitivity, as well as a limitation of fast speed. vi and dynamic range as the gain used for one operatsionny amplifier, and the formation of the output voltage is effected on the signal does not exceed the present level of the input. In addition, the transmission coefficient of the device can not be higher than that. Of the known ones, the closest in technical essence is a peak detector containing a series-connected comparison element (operational amplifier), a control stage, an electronic switch and an RC filter 2. In this device, the output signal of the RC filter is formed from the input signal, which limits the speed , accuracy, frequency and dynamic ranges. Accuracy is also limited due to the fact that due to incomplete locking of the electronic switch, the input alternating voltage shifts the output level. In addition, this device is not universal, and its transmission coefficient is always 1. The most significant disadvantages of the known device are ogre. , notable transfer ratios and functionality, as well as low accuracy, speed, frequency and dynamic ranges. The purpose of the present invention is to improve accuracy, speed and increase the dynamic range. This goal is achieved by introducing a reference source, a second electronic switch, and a voltage divider into a known peak detector containing a series-connected reference element, a control stage, an electronic switch and an RC filter. moreover, the second input of the first electronic switch is connected to the output of the reference voltage source and the input of the second electronic switch whose output is connected to a common bus, and the other input to the first input of the first electronic switch and in the control cascade, one of the inputs of the reference element through a divider voltage is connected to the RC filter. The drawing shows a block diagram of a peak detector. The device contains a comparison element (operational amplifier) 1, one of the inputs of which is connected to the input of the device, and the output is connected to the second inputs of electronic switches 3 via opposite control conduit, the first inputs of which are connected to the output of the source voltage. 5. The output of the second electronic switch 4 is connected to ground, and the output of the first electronic switch 3 is connected to the input of the RC filter 6, the output of which is connected via the voltage divider 7 to the second input of the comparison element no. The device works as follows. The measured voltage Uj is fed to one of the inputs of the comparison element}, at the second input of which there is no voltage. Voltage, reinforced by the element of comparison 1 and control cascade 2, which can be used as operational amplification c. broken negative feedback goes to the second inputs 1, 4 of electronic switches 3 and 4. Since the cascades of switches 3 and 4 in the simplest case are, for example, electronic switches made on field-effect transistors with opposite channels, voltage divider 7 K-1 in one of the half-periods of voltage 0, switch 4 will be closed, and at the input of switch 3, voltage DO of voltage source 5, which through open switch 3 will quickly charge the capacitance C of the RC filter 6 toof the common value of the input voltage U. Since the output voltage of the RC filter 6 through the voltage divider 7 is fed to the second input of Comparison Element 1, if the input voltage of the RC filter is equal to the amplitude value of the input voltage and the electronic switch 4 opens 3 closes. The capacitance of the RC filter 6 slowly discharges. In the next half period of the input voltage, 1) jy, the repeat process C is recharged again, and the capacitance reaches a peak value. With the voltage divider transfer ratio of 7 K, the process of charging the capacitance C of the RC filter will stop only when the voltage of the output of the RC filter Uf is at which the output voltage of the voltage divider is 7 if / N and. C; therefore, In the absence of Uy, there is no voltage at the output of the RC filter, since the input of switch 3 is closed on the switch 4. This eliminates zero drift. Measurement accuracy is also improved by eliminating the effect of fluctuations in the phase relationships between the opening moment of switch 3. This also leads to an expansion of the frequency range. I The speed of the device is increased due to the fact that to establish the output of the RC filter voltage and charging capacity C through the resistance of the switch R when the input signal U. () takes time t., From the level UvnKo takes time t2.

Claims (1)

Claim A peak detector comprising a series-connected comparison element, a control cascade, an electronic switch and an RC filter, characterized in that, 853561 6 with the aim of increasing the accuracy of measurement, speed and expanding the dynamic range, a reference voltage source, _{5 a} second electronic switch and a voltage divider are introduced into it; moreover, the second input of the first electronic switch is connected to the output of the reference voltage source and the input of the second 10 electronic switch, the output of which is connected to a common bus, and another input - with the first input of the first electronic switch and the output of the control cascade, one of the inputs 15 of the comparison element through a voltage divider is connected to the RC filter.