SU1095350A2 - Pulse-frequency comparator - Google Patents

Abstract

FREQUENCY-PULSE COMPARATOR on aut. St. 4,64952, which is based on the fact that, in order to relax the functionality by forming potential voltage levels at the outputs, two channels are connected to the respective trigger outputs, each of which contains a series-connected rectifier, voltage limiter, the inverter and the element No., while the second travel of the element AND of one of the channels is connected to the output of the voltage limiter of the other channel, and the additional element I, whose inputs are connected to the inputs of the inverters, the outputs of all elec ENTOV AND outputs are pulse-frequency comparator. (I'm with fff about x: l 18: d go

Description

The invention relates to radio engineering and is used in automatic control systems.

According to the main author. St. No. 464952 is known a frequency-pulse comparator containing an integrating capacitor and a trigger, the inputs of a trigger made on logic gates I-dE are connected to the plates of the integrating capacitor and through isolation diodes to the source terminals of the input signals l

However, in a known pulse frequency comparator, it is not possible to obtain potential voltage levels.

The purpose of the invention is to enhance the functionality by shaping potential voltage levels at the outputs.

The goal is achieved by the fact that in the frequency-pulse comparator containing an integrating capacitor and a trigger, the inputs of a trigger executed on the NAND logic elements are connected to the plates of the integrating capacitor and through separation diodes to the terminals of the input signals, two channels are connected. To the corresponding trigger outputs, each of the KOTOE JXs contains a series connected starter, a voltage limiter, an inverter and an AND element, while the second input of the And element of one of the channels is connected to the output The voltage limiter of the other channel, and the additional element AND, whose inputs are connected to the inputs of the inverters, the outputs of all the elements AND are the benefits: whether of a frequency-pulse comparator.,

The drawing shows a structural electrical circuit of the proposed pulse frequency comparator.

The pulse-frequency comparator contains a trigger 1, made on the logical elements AND NOT 2 and 3, integrating capacitor 4, separation diodes 5 and b, rectifiers 7 and 8, limiters 9 and 10 voltage, inverters 11 and 12, elements And 13 and 14, an additional element And 15.

The frequency-pulse comparator works as follows.

The input impulses; 1s of frequency P, arriving at terminal 16 of the frequency-pulse comparator, tilt the AND-HE 2 of the trigger 1 through the switching diode 5. This starts the charging of the integrating capacitor 4 through the input of the other logic element AND-KE 3 of this trigger 1. The output pulses of frequency 2 f arriving at terminal 17 of the frequency-pulse comparator, overturn the logical element AND-HE 3 of the trigger 1 and discharge the integrator:

A common capacitor 4 is through an isolating diode 6.

If the frequencies and durations of the input pulse signals are equal, then the capacitor will not charge and a pulse voltage will be present at the output of the NAND logic gates 2 and 3. This pulse voltage is converted into a constant voltage using rectifiers 7 and 8 and fed to the limiters 9 and 10 voltages, the limiting voltage of which slightly exceeds the voltage corresponding to the voltage of the logical unit of the elements 13 and 14 and 15 and inverters 11 and 12. Since the output voltages of the limiters 9 and 10 are inverted by inverters 11 and 12, one of the inputs of the elements AND 14 and 13 receives a logical zero and only a logical unit is present at both inputs of the element 15. Thus, the presence of a logical unit on the excavation 18 of the frequency-pulse comparator indicates the equality of the frequencies of the input signals.

If, for example, the frequency FI is less than the frequency P2, then a high potential appears at the output of logic element 3, and a pulse voltage remains at the output of the NAND 2 logic element, which is still converted into a constant rectifier 7, limited and arrives as a voltage of a logical unit to one of the inputs of elements 15 and 14. Inverting the voltage of a logical zero, it also goes to one of the inputs of an element 13.

Due to the fact that there are no alternating voltages at the input of the rectifier; the body 8, the output voltage of this rectifier 8 is constant, and therefore, a logical zero arrives at one of the inputs of the elements 13 and 14. Therefore, the outputs of these elements will also be logical zeros. The zero voltage from the output of the rectifier 8 is converted into a logical unit in the inverter 11 and is fed to the second input of the element AND 14. Since only the inputs of this element are logical units, only the output of this element, i.e. at output 19 of the frequency-pulse comparator, there is in this case a logical unit.

If the frequency F exceeds the frequency F, then the logical units in TC only at the inputs of the element And 13 and, therefore, only at the output 20 of the frequency-pulse comparator.

Thus, at one of the outputs of the frequency-pulse comparator, a signal of a logical unit appears depending on the frequencies of the compared input signals. Output signals can be used for indi

frequency ratio of the compared signals when connected to the indicator outputs. This pulse frequency comparator can also be used to automatically classify controlled pulse integrated microframes. In this case, monitored circuits are connected to one of its inputs, and a reference signal is supplied to the second input or a reference circuit is connected. The outputs of the comparator are used, in this case, to control the removal mechanism and supply the controlled classifier integrated circuit to the appropriate classifier bunker.

Using this frequency pulse comparator to test integrated circuits using output indicators provides an economic effect of about 9,000 rubles per year per device by simplifying the process of reducing the faulty circuits and reducing the cost of the measuring equipment.

Claims (1)

FREQUENCY-PULSE COMPARATOR by ed. St. No. 464,952, which consists in that, in order to expand functionality by forming potential voltage levels at the outputs, two channels are connected to it, connected to the corresponding trigger outputs, each of which contains a rectifier, a voltage limiter connected in series, the inverter and the element in this case, the second input of the element And of one of the channels is connected to the output of the voltage limiter of the other channel, and an additional element And, the inputs of which are connected to the inputs of the inverters, the outputs of all the elements And are the outputs of the pulse frequency comparator. b