SU445147A1 - Time Coding Pulse Converter - Google Patents

Description

one

I The invention is a coding converter for performing a square root operation of a private drive time-pulse arguments Tx, t with 5 outputting the result as a binary code.

where KU is the scale of the device.

Such devices are used in the construction of digital control and measuring equipment, specialized onboard computing devices, television transmission systems, telemetry and compression of information, analyzers of random processes.

A prior art transformer containing two linear time-impulse conductivities, controlled by convertible rectangular voltages, zero-body, the output of which is | 25

iporo is connected to a digital generator-i torus.

However, the design of such a converter is complex, and the characteristic differs from the desired characteristic by the value of the relative methodical design.

The proposed converter differs from the known one in that

() 10 in order to simplify the device and increase its accuracy, time-pulse-width digital linear conductivity, consisting of a series-connected key, the input of which is connected to the first input of the entire device, and a quadric digital conductivity controlled by a digital generator are introduced into it, the output of which is connected to the input of the zero-organ and the outputs of two linear time-impulse conductivities, the input of the first of which is connected to the support at the source of polarity, the polarity, and the input to the reference source the control input of the latter is connected to the BTopofi / y input of the entire device and to the control input of the key the time of pulsed latitudinal digital face conductivity, the signal input of which is connected to the reference source of positive polarity, in addition, in parallel with the linear time pulse POWER CONNECTORS CONNECTED. The drawing shows a block diagram of the proposed time-coding impulse converter. The converter contains one-time non-linear non-linear node circuit I, consisting of parallel-connected linear impulses 2.3 and one time-digital wide linear linear conductivity 4, representing a series of key 5 and quadratic digital conductivity 6. Since keys 5 and 7 are controlled from a rectangular impulse input voltage of variable duration T key 8 from the input voltage rectangular pulse voltage variable duration. and the keys 9 from the output binary code NS, then the average values of the currents 3j, Ig S, extracted with the help of averaging capacitors 10 and II, provide the total average current 1, varying according to: 3 V3z 33 Oi5-Yo-Uo - (where T - the period of the following rectangular input voltage pulses K 2 - I - the maximum value of the output n - bit code.The output current 3 is fed to the input of the zero organ 2 digital tracking system 13, amplifies the digital control to the threshold value generator 14, constructed according to the scheme of counting or PORLZ Digital encoder system 13 provides a set of such an output code N2, in which the value of 3 becomes less sensitive to the current of the null organ 12, i.e. "With a sufficiently large slope of the null organ characteristic 12, we can assume that the equilibrium state 13) 2 2 "ACS. Thus, the characteristic of the proposed converter coincides with the required dependence (I) and, unlike the previously known method for solving the problem, is not accompanied by the method error d" Ы &Amp; nyMgpaks where i - the relative error. Item from Finding A coding time-pulse converter to generate a binary code, which is proportional to the square root of the ratio of the variable durations of two pulsed rectangular pulses, containing two linear time-pulsed conductivities controlled by convertible rectangular voltages, zero-organ, output which is connected to a digital generator, characterized in that, in order to simplify the property and increase its accuracy, the time-pulse width digital linear conductivity is introduced into it l, consisting of a series-connected key, the control input of which is connected to the first input of the entire device, and the quadratic digital conductivity controlled by the digital generator, the output of which is connected to the input of the zero-organ and the outputs of the two linear time-emulsion conductances of which is connected to the reference source of positive polarity, and the second input is connected to the reference source of negative polarity, and the control input of the latter is connected to the second input of the entire device and to the control input of the ca is a pulsed time latitudinal

digital linear conductivity whose signal input is connected to a controversial source of positive

polarities, while parallelizers are connected parallel to the linear time – pulse conductivities.