SU1275736A1 - Multichannel pulse generator - Google Patents

Abstract

The invention relates to a pulse technique and can be used in control systems of digital devices as a generator of synchronizing, strobe and control signals. Object of the invention Improving the accuracy of setting the duration and delay of pulses is achieved by introducing EXCLUSIVE OR 14, 15 elements into each of the n forming channels. The device contains a reference frequency generator 1, a subtracting counter of 2 periods, a sensor 3, a code of a number and pulses, n channels 4, i, ..., 4-n of formation. Each of the three channels contains t sensor 5 of the delay time code, sensor 6 of the pulse duration code, subtractive counters 7 8, triggers 9, 13, elements 10 AND 11. The introduction of these elements and their connections can double the resolution of setting the duration and delay of the pulses by the possible phase shift within the period of the reference frequency i of the reverse transfer pulses from the outputs of the subtractive delay counters and (L) the duration of the pulses provided by the polarity of the pulses of the reference frequency. 1 il. you M sd oo 05

Description

The invention relates to a pulse technique and can be used in control systems of digital devices as a generator of synchronizing, strobe and control signals.

The purpose of the invention is to improve the accuracy of setting the pulse duration and delay.

The drawing shows the block diagram of the device.

A multichannel pulse generator, containing a reference frequency generator, the output of which is connected to the first input of a subtractive counter of 2 periods, the second input of which is connected to the output of sensor 3 of the code for T1 pulses5 and n channels A-1, 4 .5,. ,,, 4-П5 each of which consists of sensor 5. time delay code, sensor b of pulse duration code, the first outputs of which are connected to the first inputs of the first 7. and second 8 counters, respectively, the first and second outputs of the output Tpjrrrepa 9 are connected to the first inputs of the first o 10 and second 11 elements And; the second output of the 9th trigger, the output of the device 12, the second inputs of the elements 10 and 11 are connected to the output of the synchronization trigger 13, the first input of the synchronization trigger of each channel 4-1.4-2, 4v is connected to the output I subtract the counter of 2 periods and with its third input, and the third inputs of the elements 10 and 11 of each channel 4-1, 4-2 ,. . . , 4-n are combined and connected to the output of the generator 1 of the reference frequency, in channel / kdm channel. The first 14 and second 15 elements of the FULL-OUT OR are entered, the first inputs to which are connected to the outputs of the first 10 and second 11 elements And respectively, the second the inputs are connected with. the second outputs respectively of sensor 5 of the time code of the delay and sensor 6 of the code of the pulse duration, and the outputs with the second inputs of the first 7 and second 8 of the counters, respectively, the third inputs of the subtracting counters 7 and 8 and the inputs. Sensor 5 of the delay time code and sensor 6 of the pulse width code of each channel are combined and connected to the output of the subtractive counter for 2 periods, the output of the first subtractive counter 7 in the channel is connected

with the first input of the output trigger 9, the output of the second. Readout counter 8 is connected to the second input, the output trigger 9 and the second input of the trigger 13 of synchronization.

Multichannel pulse generator works as follows.

In the initial state, the synchronization trigger 13 and the output trigger 9 are in the zero state, i.e. have a single output level zero. Therefore, at the second inputs of the elements 10 and 11 the arrival of prohibiting (zero) levels from the single output of the trigger 13 of synchronization.

At the first input of the EP element 10, the permitting (high) level comes from the zero output of the output trigger 9, the first input of the element I 11 comes to the forbidding level from the single output of the output trigger 9.

From the generator 1 of the reference frequency, the pulses are continuously fed to the subtraction input of the subtractive counter of 2 periods and to the third inputs of the elements 10 and 11 of all channels 4-1, 4-2, ..., 4-p. Since the prohibitive low level is present at the second inputs of the And 10 and II elements, the reference frequency pulses do not arrive at the inputs of the detracting counters 7 and 8, and the latter retain an arbitrary information code that occurred after switching on the supply voltage.

A subtracting counter of 2 periods works on subtracting from an arbitrary code arising after the injection of the voltage: power until it reaches the zero state, after which the impulse appears at its output of the reverse transfer. The reverse transfer pulse is the starting point for which a pulse begins to form in each of 5 channels 4. The reverse transfer pulse arrives at the gate inputs of the subtracting counter of the 2 periods and the gate inputs of the 5 delay time code sensor, the 6 pulse time code sensor and two subtractors counters 7 and 8 of each channel. Therefore, in the subtractive counter of 2 periods, the code of the pulse period is recorded from the sensor 3 of the code of the number of pulses. In the subtractive counter 7 of each channel -. Pulse delay code from sensor .5 delay time code, in deduction counter 8

each channel is the pulse duration code from the sensor b of the pulse duration code.

At the same time, a reverse transfer pulse at the second input of each element EXCLUSIVE OR 14 AND 15 from the sensor 5 outputs of the delay time code and sensor 6 of the pulse duration code sets the control signal determining the polarity of the pulses fed to the subtracting inputs of the subtracting counters 7 and 8 from the generator 1 of the reference frequency through the elements AND 0 and 11. With a low control level. The impulse polarity is direct, with a high control level it is inverse. When the pulse duration of the reference frequency is equal to two, this means a phase shift by half the period of the master frequency of the trigger edge of the reference frequency pulses, through which the formation of a reverse transfer pulse from the output of the subtracting counter 7 and 8, i.e., is controlled by the polarity of the reference frequency pulses , it is possible to additionally shift the reverse transfer pulse by half the period of the reference frequency compared to the position of the pulse specified by the code from the outputs of sensor 5 of the delay time code and sensor 6 of the pulse duration code . In addition, the reverse transfer impulse arrives at the single input of the trigger 13 for synchronization of all channels 4-1, 4-2 ,, .., 4-p and re-injects their single state. As a result, at the second inputs of the elements I-10 and 11 is resolved (high) level

From this point on, the formation of the pulse delay time in all channels begins. The subtractive counter 7 operates by subtracting until it reaches the zero state, after which a pulse appears at the output of the reverse transfer, which arrives at the single input of the output trigger 9 and transfers it to the single state, forming the leading edge of the pulse on the output plate 12. As a consequence, the element And 10 has a prohibiting level on the first input, and the element And 11 - allowing level on all inputs,

From this moment begins the formation in channels 4-1, 4-2, .. ,, 4-n pulse duration. The pulse generator 1 reference frequency, passed through the elements AND 11 and EXCLUSIVE OR 15 is fed to the input of the subtractive counter 8, which works to subtract until it reaches zero state, after which the output of the reverse transfer of the subtractive counter 8 appears pulse the trigger input 13 of the synchronization and the output trigger 9. The latter switches to the zero state, forming the falling edge of the pulse at the output 12, the trigger 13 of the synchronization also switches to the zero state, prohibiting the passage of pulses through the elements AND O and 11,

This completes the process of forming pulses of one period. The state of the device is maintained until the next pulse is generated from the reverse transfer output of the subtracting counter of 2 periods.

Further, the process of forming pulses is similar to the above.

Thus, the proposed device, by introducing into each channel of two elements EXCLUSIVE OR, as compared with the known device, allows increasing the discreteness of setting the duration and delay of the pulses twice by a possible shift in. phase within the period of the reference frequency of the reverse transfer pulses from the outputs of the subtracting delay and pulse duration counters provided by the change in the polarity of the reference frequency pulses.

Claims (1)

Invention Formula A multichannel pulse generator, comprising a reference frequency generator, the output of which is connected to the first input of a subtracting period counter, the second input of which is connected to the output of the pulse number code sensor, and n shaping channels, each of which consists of a delay code time sensor, a pulse length code sensor, the first outputs of which are connected to the first inputs of the first and second subtractive counters, respectively, the first and second outputs of the output trigger are connected to the first inputs of the first and first, respectively the second elements And, and the second output of the output trigger is the output of the generator. five the second inputs of the And elements are connected to the output of the synchronization trigger, the first input of the synchronization trigger of each channel is connected to the output of the subtractive period counter and its third input, and the third inputs of the And elements of each channel are combined .and connected to the output of the reference frequency generator, the output of the second subtractive counter connected to the second synchronization trigger input, which is characterized by the fact that, in order to increase the accuracy of setting the duration and delay of pulses, the first and second elements of the CLAr are inserted into each formation channel YUCHAYUSCHEE OR, the first inputs of which are connected respectively to the outputs of the first 757366 and the second elements And, the second inputs are connected to the second outputs, respectively, of the sensor of the delay time code and the sensor of the pulse duration code; 5, and the outputs - with the second inputs of the first and second subtractive counters, respectively, the third inputs of the subtracting counters and the sensor inputs of the delay time and sensor the pulse width code of each channel is combined and connected to the output of the subtractive period counter, the output of the first subtractive counter in each channel is connected to the first input of the output trigger, and you the course of the second subtractive counter with the second input of the output trigger.