SU1119175A1 - Frequency divider - Google Patents

Abstract

A DEFAULT FREQUENCY containing the first and second pulse counters, whose information inputs are connected from output 5 to 1 of the first and second preset blocks, respectively, the output of the first pulse counter is connected to the input of the second pulse counter and the first trigger input, the second input of which is connected to the output of the second pulse counter, and the counting input of the first pulse counter is connected to the input bus, indicating that .TeMi that, in order to obtain a linear grid of output frequencies while simultaneously expanding their range on, the element I is entered into it, the first input of which is connected to the input bus and the counting input of the second pulse counter, the second input is connected to the trigger output, the output to the output bus, and the installation input of the first pulse counter is connected to the installation input of the second pulse counter, the first and second pulse counters are executed; subtractors.

Description

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SP The invention relates to a pulse technique and can be used to generate a frequency grid in frequency synthesizers. A device for receiving a grid of frequencies is known, which contains a pulse generator connected to the net input of a binary pulse counter, the bit outputs of which are connected to the signal inputs of short pulse formers, the enabling inputs of which are connected to the corresponding number of the input number and you the drivers of the formers are connected to the inputs of the OR element, the output of which is the output of the Cl 3 device. The disadvantage of this device is that it allows only the hour value to be obtained on the ilhod. output pulse multiples of powers of two. The device is closest to the technical essence of the device, which contains the first and second pulse counters, whose information inputs are connected to the outputs of the first and second preset blocks, respectively, the output of the first pulse counter is connected to the input of the second pulse counter; Sov and the first trigger input, the second input of which is connected to the output of the second pulse counter and the installation input of the first pulse counter, the counting input of which is soy Inonii with an input bus and an inverter - with counting input of the second pulse counter L23 .. The disadvantage of this device is the nonlinearity shlhodnyh frequency grid according to a preset code blocks, as well as the inability to obtain a frequency close to the largest-input, i.e., limited range of output frequencies. The purpose of the invention is to obtain a linear grid of output frequencies while simultaneously expanding their range. The goal is achieved by the fact that in D1vlitel, containing the first and second counters | Ashuls, the information inputs of which are connected to the outputs of the corresponding first and second preset blocks, the output of the first pulse counter is connected to the input of the 51 second pulse counter, and the first trigger input, the second input of which is connected to the output of the second pulse counter, and the counting input of the first pulse counter is connected to the input bus, the element I is inputted, the first input of which is connected to the input bus and counting the input of the second pulse counter, the second input — with the trigger output, the output — with the output bus, and the installation input of the first pulse counter is connected to the installation input of the second pulse counter, while the 1st and second pulse counters are subtractive. The drawing shows a structural electrical circuit of the proposed device. The frequency divider, the contents of the first and second counters and 2 pulses, the information inputs of which are connected to the outputs of the first and second blocks 3 and 4 of the preset, respectively, the output of the first pulse counter 1 of the pulses is connected to the installation input of the second pulse counter 2 and the first input of the trigger 5, the second input of which connected to the output of the second counter 2 pulses, and the counting input of the first counter 1 impklsov connected to the input bus 6, the element And 7, the first input of which is connected to the input bus 6 and the second input of the second counter 2 imp second input - with the release of trigger 5 ,. the output is with the output bus 8, and the installation input of the first pulse counter 1 is connected to the installation input of the second counter 2 pulses. The device works as follows. The operation of the device is considered on the example of n and m equal to 0 and L, respectively. Here pit are the integers given from blocks 3 and 4, respectively. The impulses of the input frequency fg go to bus 6, to the counting inputs of counters I and 2 and to the first input of element 7. In blocks 3 and 4 of the preset counters 1 and 2, the numbers n and t are recorded, respectively. pulses. the input frequency, the counter 1 is set to O and at its output a voltage drop is applied, set the trigger 1191th trigger 5 to position 1 and allow write to the counters I and 2 of the pit numbers and the corresponding values in blocks 3 and 4 The prc is on the element And 7 receives the signal 1 from the output of the trigger 5 and the output frequency pulses pass to the output bus 8 of the device. After the time required for counting m input frequency pulses, counter-2 reaches the state O and a voltage drop appears on its input, setting trigger 5 to position 6. At the same time, trigger 5 sends the signal O to block 7 , and the bus does not receive input frequency pulses. Element 7 is blocked until it reaches state O of counter 1. After that, the whole process is repeated. Thus, counter 1 generates a period T of repetition of bursts of pulses at the device’s input, and counter 2 determines the number of pulses that go to the output during the period T, i.e., T tgj n, where: the repetition period of the impulses the input of the device, and the number of pulses for the period T is equal to m. Output is often 54 m and is equal to w k, where tpx is the coefficient for bringing the period T to one second,. Then fg, -m. k f. --ex n J. M. From this expression, taking into account that Pa. and m can (or by any 1 L1XH numbers, it is clear that rjb, x can take any value (do not exceed inr) -, st,,, in. It should be noted that blocks 3 and A. the presets of the state of counters I and 2 represent are sets of switches that specify the input number m or n in the code in which counters 1 and 2 operate. The number of switches in the block before setting the pulse counter state is equal to the number of its bits. Using the proposed frequency divider allows to obtain a linear grid of output frequencies with output frequency range up to Start Input Frequency. As a preset block, any code bus can be used, such as the code bus of a computing device.

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Claims (1)

A frequency divider containing the first and second pulse counters, the information inputs of which are connected to the output * ® of the first and second preset blocks, the output of the first pulse counter is connected to the installation input of the second pulse counter and the first trigger input, the second input of which is connected to the output of the second pulse counter and the counting input of the first pulse counter is connected to the input bus, which differs. in that, in order to obtain a linear grid of output frequencies while expanding their range, element And, the first input of which is connected to the input bus and the counting input of the second pulse counter, the second input to the trigger output, the output to the output bus, and the installation input of the first pulse counter is connected to the installation input of the second pulse counter, the first and second pulse counters are made; subtracting. U mvl l 19175 / i 11191