SU843218A1 - Digital code-to-time interval converter - Google Patents

Description

The invention relates to a pulse technique, and in particular to code converters in an analogue, and can be used in computer technology and in instrumentation.

Closest to the proposed ^s is a code converter into a time interval containing a time selector, one input of which is connected to the output of the quantizing sequence generator, the other to the output of the input device, and the output is connected to the pulse counter input, the bit outputs of which are connected to one the inputs of the decoder, the other inputs of which are connected to the discharge outputs of the register, the output of the decoder is connected to the input of the driver of the delayed pulse G1].

A disadvantage of this transformation of Tell _m is the limited accuracy due to the finite time of performance used in the device, the pulse counter.

The purpose of the invention is to increase the accuracy of the conversion.

This goal is achieved by the fact that the digital code converter has a time interval containing a time selector, one input of which is connected to the output of the quantizing sequence generator, the other to the output of the input device, and the output is connected to the input of a pulse counter, the bit outputs of which are connected to one input of the decoder, the other inputs of which are connected to the discharge outputs of the register, the decoder output is connected to the input of the delayed pulse former, a sawtooth voltage generator, a threshold are introduced new elements, linear transmitters, a logic device, delay elements and an OR element, moreover, one input of the sawtooth generator is connected to the output of the input device, the other to the output of the temporary selector, and the output of the sawtooth generator is connected to threshold elements whose outputs are connected to the inputs of the logic devices, the outputs of the logical device are connected to one of the inputs of the linear transmitters, the other inputs of which are connected to the output of the driver of the delayed pulses, while the output one line gateway is connected directly to one of the inputs of the OR element, and the outputs of the other line gateways are connected to other inputs of the OR element through the corresponding delay elements.

In FIG. 1 is a functional block diagram of a digital code-time interval converter; FIG. 2 is a timing chart explaining the operation of the device.

The converter is made as follows.

The output of the quantizing sequence generator 1 is connected to one input of the temporary selector 2, the output of which is connected to one input of the sawtooth generator 3 and to the input of the pulse counter 4, the other input of the temporary selector 2 is connected to the output of the input device 5, in addition, the output of the input device 5 is connected with another input of the sawtooth voltage generator 3, the output of which is connected to the inputs of the threshold elements 6, the outputs of the threshold elements 6 are connected to a logic device 7, the outputs of which are connected respectively Actually with one of the inputs of the linear transmitters 8, the output of the first linear transmitters 8 is directly connected to the OR element 9, and the outputs of the remaining linear transmitters 8 are connected to the OR element 9 via delay lines 10, the other inputs of the linear transmitters 8 are connected to the output of the delayed pulse generator 11, input which is connected to the output of the decoder 12, some of whose inputs are connected to the outputs of the register 13, and others - with the outputs of the counter 4 pulses.

Converter digital code-time interval works as follows.

The signal at the beginning of the conversion is supplied to the input device 5, which provides a signal to the time selector 2, which allows the pulses to pass from the quantization sequence generator 1 to the pulse counter 4, while the input device 5 generates a signal that starts the sawtooth voltage generator 3. The first pulse appearing at the output of the temporary selector 2 includes a sawtooth voltage generator 3, thus, threshold elements 6 connected to the output of the sawtooth voltage generator 3 record the start pulse mismatch with the first pulse of the pulse sequence with discrete accuracy

Because the lowest discharge pulse counter 4 before conversion is set to "1, the equality of codes in the register 13 and the counter 4 pulse occurs earlier in time -p --- and shaper 11 ^g of DKP hold pulse generates a pulse which is supplied to one input linear transmitters 8, to the other inputs of which comes a permission signal generated by the logic device 7 according to the following algorithm η

ak if i ί k where dk.

_ak if ι> k

Thus, the conversion error is Δΐί - ------, and the value of the latency of the pulse delay is determined by the source code and, in the general case, has the form Zyadtakh ^ rcl. _l

²

Claims (1)

1. Gitis E.I. Information converters for electronic digital computing devices. M., Energie, 1970, p. 235, fig. 5, 10. i tfttOHniyits uml