SU712764A1 - Converter of amplitude values of periodic pulse signals - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in radio devices for various purposes, mainly in electrical engineering, for example, in two-channel systems for periodic comparison of signals.

Known passive amplitude Converter containing a peak detector [1].

This technical solution is the closest in technical essence and the achieved result to the invention.

The disadvantage of the Converter is the conversion error from the duty cycle of the signal due to the final value of the resistance of the discharge circuit.

The purpose of the invention is to increase the accuracy of conversion by reducing the dependence of the output voltage on the duty cycle of pulse signals.

This goal is achieved by the fact that the converter is equipped with a voltage adder integrating an RC circuit, parallel to the output of which a key is connected, the control input of which is connected to the input of the peak detector, the output of the integrating 7 ° C circuit and the output of the peak detector are respectively connected to the inputs of the adder, the output of which connected to the input of an integrating RC circuit.

The drawing shows a block diagram of the proposed Converter.

The converter contains a peak detector 1, which integrates an RC circuit from a resistor 2 and a capacitor 3, a key 4, an adder 5, made, for example, in the form of matching amplifiers 6 and 7 with a transmission coefficient equal to unity, the output resistances 8 and 9 of which are connected in series and counter. This allows you to bring to zero the initial voltage level at the output of the adder and significantly reduce the errors associated with the instability of the initial output currents of amplifiers 6 and 7.

If at the input of peak detector 1 there is a periodic sequence of electrical pulses with a constant amplitude, then there is a DC voltage at its output, the level of which pulsates with the frequency of the signal due to the final resistance value of the discharge circuit of peak detector 1. This voltage is output from the adder 5 to the capacitor 3 through resistor 2. Capacitor 3 at the time of the arrival of the next pulse is completely discharged by key 4, and then recharged through resistor 2.

If the time constant of the integrating RC circuit is equal to the time constant of the discharge circuit of peak detector 1, then the capacitor 3 will receive a charge equal to the charge that the capacitor of the discharge circuit of peak detector 1 will lose during the time between two adjacent pulses. Therefore, the voltage at the output of the adder 5 will remain constant and equal to the amplitude of the electrical pulses, even if the pulse repetition period is comparable to the time constant of the discharge circuit of peak detector 1.

Using an adder with a switched FC-purpose allows you to expand the scope of use of the converter towards low repetition frequencies of the input signal, reduce the requirements for the magnitude and stability of the time constant of the discharge circuit of the peak detector, increase the conversion coefficient while simultaneously reducing the ripple of the output voltage. It is very efficient to use the converter as a storage device in two-channel systems with periodic comparison of signals, where 25 requires a long storage time with a low inertia of the measuring circuit as a whole.

Claims (1)

peak detector 1, then the capacitor 3 will receive a charge equal to the charge between the moments of the arrival of two adjacent pulses, which will lose during the same time the capacitor of the discharge circuit of the peak detector 1. For this reason, the output voltage of the adder 5 will be remain constant and equal to the amplitude of the electric pulses, even if the pulse period is comparable to the constant time of the discharge circuit of the peak detector 1. Using an adder with switched C-target allows you to expand the range of use photoelectret toward low repetition frequency of the input signal to reduce the demands on the size and stability of the time constant of the discharge circuit of the peak detector, to increase the conversion ratio, while reducing the output voltage ripple. It is very effective to use the converter as a storage device in two-channel systems with periodic comparison of signals, where a large storage time is required with low inertia of the measuring circuit as a whole. Claims of the amplitude values of periodic pulse signals containing a peak detector, characterized in that, in order to improve the conversion accuracy by reducing the dependence of the output voltage on the duty cycle of the pulse signals, it is equipped with a voltage accumulator integrating a C-circuit parallel to the output of which the key is connected , the control input of which is connected to the input of the peak detector, the output of the integrating / C-circuit and the output of the peak detector, respectively, are connected to the inputs of the sum Ator, whose output is connected to the output of the integrating / C-chain. Sources of information taken into account during the examination 1. Volgin L. N. Linear electrical transducers for measuring instruments and systems. M., “Owls. gladly 1971, p. 195.