SU711487A1 - Arrangement for tolerance monitoring of frequency - Google Patents

Description

The invention relates to the field of instrumentation and can be used in devices for automation and measuring equipment.

A device for tolerance ³ frequency control is known, which contains a sensor of reference time intervals, three pointers, three I circuits and two triggers, the outputs of which are connected through the I circuits to pointers [1]. The disadvantages of this device are low monitoring accuracy and the need to use several high-capacity counters .

Of the known devices for tolerance-5 control, the closest in technical essence to the proposed one is a device for tolerance control, containing a counter whose outputs are connected to the inputs of a controlled decryptor, trigger, logic blocks,. catalyst and delay circuit (2], however, this device is complex in design and has low accuracy. __

The invention aims to ²³ An increase of the accuracy control.

This goal is achieved by the fact that, in a device for tolerance control of frequency, containing a. Sensor of reference _ time intervals, the first output of which is connected to the first input of the first element And, the first trigger, the output of which is connected to the first input of the second element And, the analyzer, whose inputs respectively, connected to the outputs of the second and third flip-flops, the OR element, three And elements are additionally introduced, and the second output of the reference time interval sensor is connected to the first input of the first additional And element, the second input is connected to the second input of the first element And with the first input of the second element And, the output of which is connected to the first inputs of the second and third additional elements And, the outputs of which are connected to the inputs of the second and third triggers, respectively, while the first output of the second trigger is connected to the second input of the second additional element And to the third input of the first additional element And, the second output of the second trigger is connected to the second input of the third additional element And and to the third input of the first element And, and the outputs of the first additional element And the first element And are connected to the first and second inputs of the OR element, the output of which is connected to the input of the first trigger, the third input of the OR element is connected to the second input of the second element I.

Figure 1 presents the structural electrical diagram of the device; figure 2 - timing diagrams of his work / '

Device for tolerance KONT-. The frequency role contains a sensor 1 of reference time intervals, the first 2 and second 3 elements And, triggers 4,5,6, ·. additional elements AND 7,8,9, element OR 10, analyzer 11.

The analyzer 11 consists of elements And 12, 13, 14 and tolerance indicators 15, 16, 17. Figure 1 also shows a bus of controlled frequency f _x 18.

The device operates as follows.

Before starting work, all device triggers are set to zero. Therefore, the And 2.7 elements are closed, and the pulse of the controlled frequency will arrive first at the counting input of trigger 4. devices according to which the time diagram is divided into three areas.

η et <

.If i ** —jf *, then after each pulse of frequency t ^ na the counting input of trigger 4 passes one pulse of the reference frequency, returning it to its original state. There is no moment of coincidence of unit levels on the element And 3 and the triggers 5, 6 remain in the initial state.

Upon entering the inputs of the elements And 1'2, 13, 14 of the analyzer 11 of the resolving level of the unit, the tolerance indicator 17 - '' Frequency below tolerance ¹ 'lights up. In FIG. 2, region a corresponds to this case.

£ £. If—— <<-—I; then the obligation

·. 2. * The time moment when two pulses of frequency fy will be received consecutively at the input of trigger 4 will be new. Since after the first pulse trigger 4 goes into a single state, it allows the passage of the second pulse of frequency f x to the counting input of the trigger

5. At the end of the pulse, trigger 5 will go into a single state, prohibit the further passage of pulses through the elements And 7, 5 and open the elements And 2, 9.

Upon receipt of the inputs of the elements And 12, 13, 14 of the analyzer 11 permissive level indicator 15 '' Frequency in the admission ’’ lights up. In figure 2, this case corresponds to region b.

3. If - * -> —- ^ 2- then the operation of the device proceeds similarly to paragraphs 2, 5, with the only difference being that, at the input of trigger 4, first pulses of frequency f are received through the open element And 7, and after trigger 5 passes , in a single state 10 pulses of frequency 1 _ET2 .

Upon entering the inputs of the elements And 12, 13, 14 of the resolving level analyzer 11, the indicator 16 lights up - · 'Frequency is higher than the tolerance'. In Fig. 2, region c corresponds to this case.

Claims (2)

the OR element, the output of which is connected to the input of the first trigger, the third input of the OR element is connected to the second input of the second element I. Figure 1 shows the structural electrical circuit of the device; FIG. 2 is a timing diagram of his work ... The device for the tolerance control of frequencies contains a sensor 1 reference time intervals, the first 2 and second 3 elements And, triggers 4,5,6, additional elements And 7,8,9, element OR 10, analyzer 11. The analyzer 11 consists of elements And 12 , 13, 14 and tolerance indicators 15, 16, 17. Figure 1 also shows a bus of a controlled frequency f 18. The device operates as follows. Before starting, all device triggers are set to zero. Therefore, elements 2.7.7 are closed, and the first to the counting input of trigger 4 is to the pit of the controlled frequency pulse fx. With bus 18, at the end of which the trigger 4 will go to one state, allowing the reference frequency pulses from sensor 1 to pass to its input. three cases of operation of the device, in accordance with which the time diagram is divided into three areas. - about ET1 this 1.IFI t then after each frequency pulse t the calculated input of trigger 4 passes one impulse of the reference frequency fgi-j returning it to its initial state. There is no instant of coincidence of unit levels on the And 3 element and the triggers 5, 6 remain with in the initial state. When the analyzer arrives at the inputs of the And 12, 13, 14 elements 11 times of the decisive level, the tolerance indicator 17 lights up. The frequency is below the tolerance. FIG. 2 this case corresponds to the region a. Р -f - ± 51Ду THEN about zatel 2. If2. It will be a moment in time when two pulses of frequency fy are fed to the input of trigger 4. Since, after the first pulse, trigger 4 goes to one state, it permits the passage of the second pulse, frequency f, to the counting input of trigger 5. At the end of the pulse, trigger 5 goes to one state, prohibits further passage of pulses through elements 7, 5 and will open the elements AND 2, 9. When the analyzer arrives at the inputs of the elements 12, 13, 14, 11 times the decisive level, the indicator 15 on the frequency in the tolerance lights up. On ig.2 this case corresponds to the region of b. 3. then the operation of the device proceeds similarly to item 2, the only difference is that, first, and the input of the trigger 4 is received through the open element And 7 pulses of frequency fg-j. , and after the trigger goes into a single state, the pulse at the current at floor 2 At the entrance of the elements And 12, 13, 14 of the resolver analyzer 11, the pointer 16 lights up - Frequency is higher than the tolerance, and FIG. 2 occasion corresponds to the power of. The invention The device for frequency control tolerance, containing the sensor of supports of the 1st time intervals, the first output of which is connected to the first input of the first element And, the first trigger, the output of which is connected to the first input of the second element And, the analyzer, the inputs of which are connected respectively to the outputs of the second and third flip-flops, an OR element, characterized in that, in order to increase the control accuracy, three AND elements are additionally introduced into it, the second output of the time interval sensor being connected to the first the input of the first additional element And, the second input of which is connected to the second input of the first element And and to the first input of the second element And, the output of which is connected to the first inputs of the second and third additional elements And, the outputs of which. connected to the inputs of the second and third flip-flops, respectively, while the first output of the second trigger is connected to the second input of the second additional element And to the third input of the first additional element I. the second output of the second trigger is connected to the second input of the third additional element And and the third input of the first element And, and the outputs of the first additional element And and the first element And connected to the first and second inputs of the element OR, the output of which is connected to the input of the first trigger, the third input element enta OR is connected to the second input of the second element I. Sources - information taken into account during the examination 1. Author's certificate of the USSR W194188, cl. G 01 R 23/10, 24.05.67. 2. USSR author's certificate №468178, cl. G 01 R 23/02, 04.22.75