SU525033A1 - Digital periodometer - Google Patents

Description

(54) DIGITAL PERIOD EP

The input time-pulse signal is fed through a 2-clock circuit to the summing input of the reversible counter 1. Clock-2 circuit is used to assign the input signal pulses to the clock frequency pulses taken from the pulse generator output in order to time the pulses arriving at both the input of the reversible counter 1. The code taken from the inverted outputs of the reversible counter goes to the control inputs of the converter 3, where from the signal coming to the pulse input of the converter from the output of the transducer A pulse 6 is formed; a sequence of pulses is formed with a period Tj, proportional to the control code. This signal is fed to the subtracting input of the reversible counter through the 4 anti-coincidence circuit. A pulse appears at the output of the code-to-period converter at the instant of termination of the L-th input pulse coming from the output of the driver 6 pulses, where {. - the number of input pulses corresponding to the number of the control code. Consequently, the period between the output pulses TJjg is equal to the sum of the periods T of the input pulses, the total number of which is equal to the transfer code: n-1. where 1J is the state of the inverse output of the jth digit P - bit reversible counter 1; v 2 is the number corresponding to the inverse code of the reversible counter 1. The expression for T does not execute at N 0, since the output of the circuit of the converter 3 appears to be a false sequence of pulses Cd 1 / Tr To prevent a digital periodometer from malfunctioning the pulses of the converter 3 are fed to the anti-coincidence circuit 4, the second input of which receives the pulses from the output of the pulse former, thus preventing the passage of a false signal. With N; The output pulses of the transducer 3 pass unchecked through the anti-fallout circuit 4, since they are shifted in time relative to the pulses of the former 6,

Thus, at the output of converter 3, a uniform sequence of feedback pulses appears with a period TQJ J proportional to the control code R taken from the inverse outputs of the reversible counter 1.

In the initial state with no

input signal in the reversible counter 1 direct code, therefore, M O. For any other code values, the pulses of the transducer 3, arriving at the subtracting input of the reversing counter 1, will bring the circuit to the specified initial state. The first input pulse will change the state of the reversible counter 1 to the opposite, and the converter 3 will start producing pulses with a maximum period

falls, one input of which is connected to the output of the code converter during the pulse following period, another input - to the output of the pulse former, and the output is connected to the subtracting input of the reversible counter. repetition T, As the input pulses arrive, the FQJ period will decrease and at the end of the transition process the equality IRV Tgg will come. The transition period in the digital period does not change exponentially with a constant time equal to I / TO. the summing input of which is connected via the clock circuit to the input of the periodometer, the reference frequency generator and the pulse shaper, the input of which is connected to the output of the reference frequency generator, differing from That, in order to improve the measurement accuracy, it is equipped with a code converter during the pulse period, the control inputs of which are connected to the inverse outputs of the bits of the reversible counter, and the pulse input is connected to the output of the driver of pulses, and