SU945962A1 - Pulse repetition frequency multiplier - Google Patents

Description

(54) MULTIPLE RESPONSIBILITY OF FOLLOWING PULSES

Claims (1)

This invention relates to digital measurement technology and can be used. It is used both as a stand-alone device and as a device embedded in information-measurement and measurement systems. A pulse frequency multiplier is known, which contains a reference frequency divider with a division factor equal to the multiplication factor, a reference frequency pulse counter, an input driver, a memory register and a control unit tl. The disadvantage of this device is the comparatively low multiplication accuracy with an uneven hyperpath following the multiplication frequency impulses. The closest in technical essence is a pulse multiplying frequency that contains successively connected input shaper control unit, the first output of which is connected to the set-color inputs of the frequency divider, controlled frequency divider and control input of the memory register to the first trigger input, and the output setting the input of the countdown sensor, the output of which is connected via a linear register to the control input of the controlled frequency divider, the source of the reference clock Toty through a frequency divider coupled to the input of the pulse counter and directly with the input switches on controlling tions to the input of which is connected to the output of the flip-flop E 2. ; The disadvantage of this device is that its multiplication accuracy is high, because njH irregular period is spedova in pulses of a multiplied frequency hnspo HN pulses it forms at a reduced period, the gain becomes less than xerf || schschv (in multiplication. 1 invented - increasing the accuracy multiplication.). By the fact that in the smart frequency there is a trace in 1 & B, containing successively the same input pulse shaper and control unit, the first output of which is connected to the inputs of the divider reference frequency and controllable frequency, to the control input of the memory register and the first input of the trigger, and the second output to the setup input of the pulse counter, the counting input of which is connected to the output of the dashboard of the reference frequency, and the output through the memory register to the control controllable input: heat frequency and reference frequency source, the output of which is connected to the reference frequency divider input and the first key input, the second input of which is connected to the trigger output, a threshold element, an OR element, and an element are entered the prohibition, the first input of which is connected to the output of the frequency detector that is connected to the synchronization ;; / input of the control unit and the output of the hygienic frequency, the second input - with the output of the first UTI element, and the output - with the first input of the second of the OR element, the second input of which is connected to the U1yucha output, and the output to the input of the threshold element, the first output of which is connected — ieH to the second input, the output of Koi cgporo is connected to the first input of the first element OR, the second input of which connects to the second output of the threshold ele cop. The drawing shows a block diagram of the proposed device. The device contains an input pulse shaper 1, a control unit 2 that divides the reference 3 -frequency, controlled frequency divider 4, which can be performed as a count of 1 pulses with a comparison element in the form of any other known divider controlled by a code so that the coefficient is equal to the number transmitted by MOMV with this code, memory register 5, pulse counter 6, key 7, trggger 8, prohibition element 9, elements 1 or 10 and 11, threshold element 12, REF 13 of the reference frequency. The threshold element 12 is an element of the N-pulse number and can be expired, for example, on the basis of a scale and a decoder, the trigger of the threshold element 12 corresponds to the accumulation time in the count of N K - 1 wnivnbcoB, K - coefficient of shozhen. The device works as follows. The pulses from the source 13 are fed to the input of a divider 3, the division factor of which is equal to the specified multiplication factor K. The pulses from the output of DC 3, whose frequency is equal to o / K, are fed to the input of counter 6. At the same time, the pulses of the reference frequency fg are fed to the input of the controlled deltatel 4, whose division factor is equal to the number fixed in register 5. By the moment the next pulse of the multiplied frequency f arrives, counter 6 records the number m equal to fo T / K, where T is the current value of the follow-up period--. pulse frequency multiplied. A multiplied frequency pulse through shaper 1 enters block 2, to the clock input of which the reference frequency pulses are applied. Block 2 is triggered and, at the leading edge of the impulse of the reference frequency, fo, at its first output, generates a pulse, according to which divider 3 and controlled divider 4 set the initial state to zero. A single signal is set at the output of the trigger 8, and the number m fixed to this moment in 6 is rewritten into register 5 and sets the division factor of the controlled divider 4. Then, on the falling edge of the first output of the unit 2, a pulse is generated at its second output to which counter 6 is reset to its original zero state. At the output of the controlled splitter 4, a sequence of pulses is formed with a frequency equal to - 0.,. -, With a single signal - at the output of the trigger 8, the element 9 is locked and the key 7 is unlocked. The pulses of the reference frequency Q pass through the unlocked key 7 and through the element 11 arrive at the output of the device and on. the counting input of the threshold element 12. On the falling edge of the (K - 1) th pulse, the threshold element 12 is triggered and a single signal is generated at its first output, which is fed through element 10 to the control input of the element 9. On the falling edge of the next pulse, the reverse operation occurs the threshold element 12. In this case, a zero signal is set at its first output, and at the second output a pulse is generated, according to which the trigger 8 is set to the initial zero state. Key 7 is blocked as well. prohibition element 9 is unlocked. As a result, the pulses from the output of the controlled divider 4 begin to pulse at the output of the device and at the counting input of the threshold element 12. Let the next pulse of the multiplied frequency arrive at a time interval T-. Then the number of pulses formed at the output of the controlled divider 4 during the interval of the rotational interval T. exceeds the response threshold of the threshold element 12. As a result, when the output of the device K - 1 arrives at the output of the controlled divider 4, the threshold element 12 triggers and blocks element 9. The arrival of pulses from the output of the controlled divider 4 to the output of the device is stopped. When a multiplied frequency pulse arrives with a single signal, the three key 8 is unlocked and the device 7 receives a reference frequency pulse Q, causing the threshold element 12 to re-activate. Element 9 also unlocks the newly generated pulses of the controlled piece. bodies 4 begin to flow to the output device. Thus, before the appearance of the first pulse of the newly formed pulse sequence at the output of the controlled divider 4, the K-1 pulse from the output of the controlled divider 4 and one pulse of the reference frequency Q, i.e. the number of pulses equal to the coefficient K. Let the next pulse of the frequency being multiplied come through the time interval T:;. - T so that the number of pulses formed at the output of the controlled divider 4 and, consequently, the output of the device is lower than the threshold of the threshold element 12. When a multiplied frequency pulse arrives, the element 9 is blocked and the number of pulses missing to the trigger threshold is received of the threshold element 12 through the unlocked key 7. The spurious Kth pulse arriving at the output of the device results in the reverse q operation of the threshold element 12. Ep & Step 9 is unblocked and the newly formed pulse sequence from the output of the controlled dehgel 4 begins to arrive at the output of the device. Thus, the occurrence of the Kth pulse practically coincides with the end of the current period T of the multiplied frequency pulses. At a zero value of the input frequency parameter, kgac 7 is blocked by a zero signal from the output of flip-flop 8, and barring element 9 is blocked by a single signal from the first output of the threshold element 9. As a result, the pulses to the device output are stopped. Therefore, when the value of the multiplied frequency parameter is zero, the output frequency value is also zero. The introduction of the new elements — the poretech element, the first and second elements OR, and the prohibition element — favorably distinguishes the proposed device from the known one because it allows you to form the number of pulses equal to the multiplication factor, i.e. improve accuracy by a lot. The Shadow Invention Formula A pulse multiplying frequency multiplier containing a series-connected input pulse generator and a control unit, the first output of which is connected to the setup inputs of the reference frequency divider and the control unit frequency1, to the control input of the storage register on the first trigger input, and the second the output is to the installation input of the pulse counter, the counting input of which is connected to the output of the reference clock divider, and the output through the memory register to the control input of the controlled clock a frequency player and a reference frequency source, the output of which is connected to the input of the reference frequency divider and the nepBbiM key input, the second input of which is connected to the trigger output, characterized in that, in order to improve the accuracy, a threshold element, an OR element and a prohibition element are introduced into it, the first input of which is connected to the output of a controlled frequency divider, the input of which is connected to the synchronizing input of the control unit and to the output of the reference frequency source, the second input to the output of the first OR or the first element OR, the second cotsfogo input is connected to the output, and the output is connected to the input of the threshold element, the first output of which is connected to the second trigger input, the output of KOTOpoiD is connected to the first input of the first element OR, the second input of which is connected to the second output of the threshold element. 9456 5,658 Sources of information that are taken into account in expert analysis 1. USSR author's certificate No. 357668, kp. N OZ K 5/01, 1971. 2, USSR Author's Note No. 354546, cl. N OZ K 5/00, 1971.