SU1016793A1 - Wide-band rapid-action frequency multiplier - Google Patents

Abstract

BROADBAND DIGITAL AMPLIFIER OF FREQUENCY, containing a period-drive converter, the output of which is connected to the input of the period-voltage converter and is the input of a wideband high-speed frequency multiplier, the output of the trigger is connected to the control unit and the unit, a unit has a part of a section, and a unit has a section and a section, a section of the frequency multiplier, the output of the trigger trigger is connected to the control of the period-voltage converter that is connected to a section of a section, and a section has to be worked out of its part, and the output section of the frequency gap multiplier is connected to the control unit, the output of the trigger is connected to the control unit, and the unit has a section, and the unit will have a unit and a section and a section will have a section and a frequency multiplier for the frequency multiplier will be connected to the output of the frequency converter and the output of the trigger will be connected to the unit. the input of which is connected to the output of an oscillator oscillator, the output of a frequency divider with a variable division factor is connected to the second input of the trigger, the output controlled oscillator I is the output of a wideband frequency multiplier, characterized in that, in order to increase its reliability in switching multiply coefficients in a wide range, the controlled oscillator contains a Current stabilizer, the output of which is connected to a reversing switch, a jumper, the first and second comparators, virsodsh. which are connected to the corresponding control inputs of the reversing switch / first input of the first comparator is the input of the controlled generator, the second input of the first comparator is connected to the first input of the second comparator and the output of the reversing jumper, the second input of the second comparator is connected to the zero potential bus, co-groups of n groups x in t multipoints with a switch; in each group of capacitors, some plates encircle us, and others are connected to the corresponding inputs of the corresponding multipoints and; 3; a switching switch., blaming the output of the first group of capacitors connected to the output of the reversing switch, the abundance of gagods of each i-th group of capacitors, iqpm t t first, connected to the Ob output (fl) -ro of the multipower switch, the output of the last of ch1 In multielectric jumpers, the control input of each of the mechanical position switches of mechanical mechanisms is connected to the control of each of the variable position dividers of the mechanics of a variable division factor

Description

The invention relates to devices designed to multiply the pulse frequency, and can be used in analog computers. A frequency multiplier is known, a soy holding a controlled oscillator, a frequency divider, a trigger 1. However, the device operates only with one multiplication factor. Closest to the present invention is a broadband fast-acting frequency multiplier, containing a period-voltage converter, the output of which is connected to the input of a controlled oscillator, a trigger, the first input of which is connected to the input of a period-voltage converter and is the input of a multiplier, trigger output connected to the control input of the converter period-voltage, frequency divider with a variable division factor, the input of which is connected to the output of the controlled oscillator, the output of which is the output of the mind the knife, the second input three hera is connected to the output of a frequency divider with a variable division factor. The disadvantages of this frequency multiplier are, BO-rfepBbix, the inability to switch multiplication factors over a wide range, for example, from 2 to 9999, due to the dramatic complication of the circuit and a decrease in reliability. The purpose of the invention is to increase the reliability of operation when switching multiplication factors in a wide range. To achieve the goal in a broadband high speed frequency multiplier, containing a period-voltage converter, the output of which is connected to the input of the controlled one. A generator, trigger, the first input of which is connected to the input of the period-voltage converter and is the input of a wideband high-speed frequency multiplier, the trigger output is connected to the control input of the period-voltage converter, a frequency divider with a variable division factor, the input of which is connected to the output of the controlled oscillator is the output of a broadband high-speed frequency multiplier controlled, the generator contains a current stabilizer, the output of which is connected to a reversing switch , the first and second comparators, whose outputs are connected to the corresponding control inputs of the reversing switch, the first input of the first comparator is the control input of the generator, the second input of the first comparator is connected: With the first input of the second comparator and the output of the reversing switch, the second input of the second comparator is connected a bus of zero potential, n groups of capacitors and n multi-position switches, in each group of capacitors some plates are combined, while others are connected to the corresponding common inputs of the corresponding multi-position switch, the common output of the first group of capacitors is connected to the output of the reversing switch, the common output of each i-group of capacitors, except the first, is connected to the output of the (i - 1) -th multi-position switch, the output of the last of the n multi-position switches is connected to To the zero potential bus, the control input of each of the directional switches is mechanically connected to the control input of the corresponding frequency divider switch with variable coefficient subdivision. The drawing shows a functional diagram of a broadband high-speed frequency multiplier. The multiplier contains a period-voltage converter 1, a controlled oscillator 2, a frequency divider 3 with a variable division factor, trigger 4, input 5 and output 6 of the frequency multiplier, current stabilizer 7, reversing switch 8, first and second comparators 9 and 10, bus 11 zero potential, groups of capacitors 12, 122, 12 ,,, 12g ,, multi-position switches 13, 132,. . . , 13f, switches 14, 14 2, ..., 14 ,, ...., 14 divider 3. The design of the frequency divider with variable division factor is described in 3. Broadband high-speed frequency multiplier works as follows. Converter 1 produces a constant voltage proportional to the period of the input signal. Generator 2 generates a signal with a period proportional to the output voltage of converter 1 and inversely proportional to the multiplication factor set on the switches 13, 132, 13p. This signal is fed to the divider 3 frequency with a variable division factor. The output signal of the divider 3 is fed to the input of the zero setting of the trigger 4. If the frequency of the signal at input 5 is not equal to the frequency of the signal at output b divided by divider 3, then the duty cycle of the pulses at the output of trigger 4 from ffi etc, which leads to a corresponding change in the input voltage controlled oscillator 2, and therefore to a change in the frequency at its output, until the frequencies of the output signal of frequency divider 3 and the signal at input 5 are exactly equal to each other. By dividing the frequency divider ratio of frequency 3, Potential switches 13, 132, i ...., 13, connected to the switch. 14, 14, -, 14., ... 14 ,,, the ratio of the frequency at output 6 to the frequency of the signal at input 5 will then correspond to the multiplication factor set on these switches (for example, as a sequence of decimal digits) . Due to the fact that simultaneously with the switching of the division factor of the divider, the 3 frequencies switch, the capacitors 12, 122, ..., 12j, ..., 12p are connected in series, the inverse of the capacitance of the circuit consisting of these capacitors changes in proportion to the division factor divider 3 frequencies. This ensures the inverse proportionality of the period of the output signal of the controlled generator 2 to the multiplication factor, and consequently, the constant voltage at the input of the generator 2 required to maintain the frequency of the output signal of the frequency divider 3 equal to the value of the frequency of the signal at input 5. Oscillator 2 at different values of the multiplication factor means a constant mode of operation of the converter 1 and trigger 4, which contributes to the high reliability of the frequency multiplier. The inclusion of a current stabilizer 7, a reversing switch 8, the first and second comparators 9 and 10 in the controlled generator 2 ensures a linear dependence of the output signal period on the voltage at the input of the generator 2 when the capacitance of 12, 12, 2 capacitors changes. .., 12, ..., 12 r, ten thousand times what; also contributes to the reliability of the frequency multiplier. Thus, the proposed broadband high-speed frequency multiplier has, compared to / with a prototype, a new quality — higher operating reliability when switched on with a multiplication factor in a wide range.

Claims (1)

BROADBAND HIGH-SPEED frequency multiplier comprising inverter period-to-voltage, the output of which is connected to the input of the inverter period-voltage and is input to the broadband high-speed frequency multiplier, the output latch connected to the control inputs of the inverter period-to-voltage frequency divider with a variable division factor, input ^- "is connected to the output of a controlled generator, the output of the frequency divider with a variable division coefficient is connected to the second trigger input, the output a controlled generator i is the output of a broadband high-speed multiplier often, characterized in that, in order to increase its reliability when switching multiplication factors in a wide range, the controlled generator contains a current stabilizer, the output of which is connected to a reversible switch, the first and second comparators, exit. which are connected to the appropriate manager! reverse switch inputs, the first input of the first. the comparator is the input of a controlled generator, the second input of the first comparator is connected to the first input of the second comparator and to the output of the reverse switch, the second. the input of the second comparator is connected by a bus of zero potential, η groups of capacitors if h multi-position switches, in each group of capacitors some plates are combined and others are connected to the corresponding inputs of the corresponding multi-position switch., the common output of the first group of capacitors is connected to the output of the reversing switch , the general output of each ith group of cone sator, except the first one, is connected to the output of (Г-1) ~ th multi-position switch, the output of the last of η multi-position switches connected to the bus of zero potential, the control input of each of the η multi-position switches is mechanically connected to the control input of the corresponding frequency divider switch with a variable division ratio.