SU884095A1 - Multichannel pulse generator - Google Patents

Description

(54) MULTI-CHANNEL PULSE GENERATOR

Claims (2)

The invention relates to a pulse technique and can be used in automation equipment, computing and measuring equipment. A multichannel pulse generator is known that contains pulse distributors, coincidence elements, triggers, and prohibition elements. The disadvantage of this generator is that the output pulses generated in the channels do not overlap in time. The closest in technical terms to the invention is a channel pulse generator containing ticks, a tick count code sensor, a comparator, and several channels, each of which contains a trigger trigger, a synchronization trigger, a delay time counter, a delay time code sensor, a pulse duration counter, the pulse code pulse code, two comparison devices, the OR element and two three-input match elements 12. The disadvantages of this generator are the ambiguity of the formation of fronts in The output pulses of the generators are relative to the reference point due to the various delays of these fronts in the channels and, in particular, in the circuits of the comparison devices with different codes on the master sensors, the reliability of the generators is low due to the possibility of false short pulses passing on the output trigger of the device from the comparison circuits at the moments of switching the counters due to different delays in the circuits of the counters and comparison devices. The purpose of the invention is to improve the accuracy of shaping the pulse duration to the reliability of the device. The goal is achieved by the fact that a pulse generator containing a clock counter, a sensor of the number of ticks and M channels, each of which contains a code trigger, a 3 delay counter, a delay time code sensor, a pulse duration counter and a pulse code sensor, is achieved the first element And, the inputs of which are connected to the outputs of the clock counter, the first pulse shaper connected by the first input to the output of the first element And, the second elements And, the first inputs of which are connected to the outputs of the code sensor ticks, and outputs — with inputs of setting the states of the tick counter and in each channel between the outputs of the delay time counter and a single input of the output trigger, the third element And the fourth pulse generator and the fourth element And between the outputs of the pulse duration pulse are entered. and the zero input of the output trigger are introduced in series connected the Fifth element - And, the third pulse shaper and the sixth element And, in addition, between the outputs of the sensor code time time and the inputs setting the states of the time counter 1I delay is the seventh element AND, and between the sensor outputs of the pulse duration code and the inputs of setting the state of the counter pulse duration is the eighth element AND, the second inputs of the second, seventh and eighth elements AND are connected to the output of the first form. impulse bodies, and the third inputs of the second, seventh, eighth elements, And, to the second inputs of the fourth and sixth elements, And, to the counting input of the counter tacho, delay time counters, pulse duration counters and to the second inputs of all forms The drawing shows a block diagram of a pulse generator. The multichannel pulse generator contains a counter of 1 cycles, a sensor 2 of the code of the number of cycles, the first element of I.3, the first driver of 4 pulses, the second elements of AND 5, and the channels each output trigger 6 holds the counter 7 of the time of the turd, sensor 8 of the time delay code, the third element 9, the second driver 1O pulses the fourth element 11, the seventh elements 12, the counter 13 pulse duration, the sensor 14 of the pulse duration code, the fifth element 15 , the third driver 16 impulis 1.sov, the sixth element And 17 T are the eighth elements And 18. The sensor 2 outputs of the code of the number of cycles through the first inputs of the Varyy elements 5 and 5 are connected to the inputs of the installation of the states of the counter of 1 cycles, which codes through the first element And 3 connected to the first the input of the first driver 4 pulses, and in each channel the outputs of the Sensor 8 delay time code through the first inputs of the seventh elements I 12 are connected to the inputs of the installation of the counter of the delay time counter 7, which codes through the serially connected third element I 9, the second driver of the U pulses And the fourth element And 11 are connected to a single input of the output trigger 6, the output of which is connected to the output bus 19. of the generator, the codes of the sensor 14 of the pulse duration code through the first inputs of the eighth elements And 18 are connected To the inputs for setting the states of the pulse width meter 13, the outputs of which are connected through the five And 15 elements sequentially connected, the third pulse generator 16 and the sixth And 17 element are connected to the zero input of the output trigger 6. In addition, in the generator, the output of the first generator 4 pulses connected to the second inputs of the elements And 5, 12, 18, the bus 20 reference frequency connected to the counting inputs of the counters 7 and 13, to the second inputs of the formers 4, 10 and 16 pulses to the third inputs of the elements 5, 12 and 18 and to the second inputs of the elements And 11 and 17, tires 21 is connected to the inputs of the sensor 2, 8 and 14. The counter cycles 1 serves for receiving and storing a code with code bars of sensing and counting the reference frequency sequence cycles. Sensor 2 of the clock number code is designed to receive and store the clock number code, which determines the pulse period in the channels. The delay time counter 7 serves for receiving and storing the code from the delay time code sensor and counting the sequence of clock cycles of the reference frequency. The delay time code sensor 8 serves for receiving and storing the clock number code in order to set the time of formation of the leading edge of the channel pulse relative to the period pulse. The pulse width counter 13 is intended for receiving and storing a code from a pulse length code sensor and counting the frequency clock of the reference frequency. 58 Sensor 14 of the pulse duration code is used to receive and memorize the number of clock code in order to set the delay time for the formation of the back edge of the channel pulse relative to the period pulse. Elements 5, 12, and 18 are used to transfer {soda from sensors codes 2, 8, and 14, respectively, to counters 1, 7, and 13. Elements 3, 10, and 16 are designated to generate pulses from their outputs when a single state is reached. all bits of the corresponding counters 1, 7, and 13. The shapers of 4, 1O, and 16 pulses serve to block the pulses of the reference frequency — if there are any enable signals at their inputs and to delay these pulses. The multichannel pulse generator operates as follows. At the time of the arrival of a reference frequency pulse sent to the reference frequency bus 20, the device is brought into the state when the counter has 1 ticks, the counter 7 is the delay time, the counters 13 are the pulse duration through the corresponding elements And 5, 12 and 18 the codes stored in the sensor 2, the number of clock codes, the sensors 8 of the delay time code, and the sensors 14 of the pulse width code are entered. Then the pulses from the reference frequency bus 20 arriving at the inputs of the And 4, 5, 11, 12, 17, and 18 elements do not pass to their outputs, since they are forbidden along the first inputs of the And 4, 11 and 17 elements, and , through circuit 22. Outputs 19 of the flip-flops 6 have zero potential. The counting of the next clock pulses by the counters 1, 7 and 13 starts from. values of codes recorded in them. Information from the counter codes of 1 clock, delay counter 7, counter 13. The pulse duration in the parallel code is applied to AND 3, 9, and 15. The pulses at the outputs of the AND 3, 9, and 15 elements are generated at the time of reaching all of each from single state counters. The formation of a pulse in a three-ger code 6 of one of the channels occurs as follows. The installation of all the triggers of the delay time counter 7 in a single state occurs along the falling edge of the reference frequency pulses. At the output of the element And 9, a pulse is generated, which gives permission for 95 passing the next reference frequency through the second driver 10 pulses. Next, the generated and delayed pulse arrives at the input of the element 11 and from its output at the single input of the tripper 6. The pulse duration from the output of the element 11 is determined by the delay time of the signal on the former of the pulses and the leading edge of the pulse output pulses of the reference frequency. From the moment the output trigger 6 is set to one state, the formation of a pulse on the output bus 19 of the generator begins. The leading edge of this pulse is fixed relative to the rear ijpoH of the reference frequency pulse. The installation of all discharges of the counter of the duration of the pulses occurs in a single state later than in the counter of the duration of the delay, which sets the following :; programmatically. Therefore, the pulse generated on the element And 15, receives the input of the imaging device 16 pulses. Further, the pulse formed and delayed on the pulse shaper 16 on the element AND 17, the pulse arrives at the input of the trigger setup 6 to the zero state. Just like the leading edge and the pulse, its rear edge is fixed relative to the falling edge of the reference frequency pulse. In the future, the unit state in all bits will receive a 1-stroke counter. The pulse from the output of the I 3 element enters the input of the imaging unit 4 pulses, ensuring the passage with a delay on its output of the next clock pulse. This impulse through circuit 22 goes to the second inputs of the elements AND 5, 12 and 18. Simultaneously with it, the third inputs of the elements 5, 1 2 n 18 receive inverted pulses of the reference clock frequency. A pulse occurs on the elements 5, 12 and 18 simultaneous overwriting of codes in the counter of 1 cycles, counters 7 of the delay time, counters 13 of the pulse duration respectively from the outputs of the sensor 2 of the code of the number of cycles, of the sensors 8 of the code of the delay time, of the sensors 14 of the code of the pulse duration. Further, the process of rewriting codes into counters is repeated. The code rewriting signals from the sensors determine the pulse period in the channels. The leading edge of the pulse sets the origin and the formation intervals of the leading and trailing edge of the pulse in each channel. By changing the information in the sensor 2 of the clock number code using the signal from the bus 21 to its input, it is possible to change the period of the pulse in the channels (the period of the beginning of the countdown pulse). By changing the information in the sensors 8, the delay time and sensors 14, the pulse duration by signals coming to their inputs from the bus 21, it is possible to change the formation time of the leading and rising edges of the pulses in the channels with respect to: the origin signal. The verification of a multichannel pulse generator in the form of a separate device, as well as in the composition of the measuring system, showed that the accuracy of the formation of the front and rear edges of pulses in the channels relative to the reference pulse increased 3-4 times. By eliminating targets for which the accumulation of interference and delay of the installation signals to the single and zero state of the output triggers occurs. Therefore, in the device the accuracy of the formation of pulse fronts in the channel; it is determined only by the instability of delays in the output elements And 11 and 17 n triggers 6. The reliability of a single-channel pulse generator is increased due to the strobe transducer; excluding the transmission of interference signals to the output triggers of 6 forms of fouling of signals by setting the counters to a predetermined state. Formula of the invention Mt.og-OK pulse generator containing a clock counter, a clock number code sensor and a n channel each contains In the initial arigger, account chayus timeE delay Ig sensor code. delay time, a counter for the duration of the E. pulses ;; A pulse code sensor pulse, characterized in that, in order to increase the pulse shaping accuracy and device reliability, a first element H is inputted into it, the inputs of which are connected to the outputs of the clock counter, the first pulse driver connected by the first input to the output of the first element I, the second elements are And, the first inputs of which are connected to the sensor outputs of the code of the number of cycles, and the outputs to the inputs of the installation of the states of the cycle counter and in each of the channels between the outputs of the delay time counter and the unit The third input element And, the second pulse generator and the fourth And element are entered into the output trigger input, the fifth And element, the third pulse generator and the sixth And element, are also entered between the outputs of the output trigger and, in addition, between the outputs The sensor code for the delay time and the inputs for setting the states of the back-up time counter included the seventh element AND, and between the outputs of the sensor for the code for the duration of the pulses and the inputs for The eighth element I is switched on the states of the pulse duration counter, the second inputs of the second, seventh and eighth elements And are connected to the output of the first pulse generator, and to the third inputs of the second, seventh, eighth elements And, to the second inputs of the quarter and sixk elements And, - to the counting input of the clock counter, zaderm time counters, pulse duration counters and to the second inputs of all pulse drivers. The reference frequency bus is connected. Sources of information taken into account after the examination 1. Authors certificate of the USSR J, class, H 03 K 3 / 72,1975. 2. USSR author's certificate No. 516183, kpGn 03 K 3/82, 1975G