RU197065U1 - HARMONIC FREQUENCY SPLITTER - Google Patents

Abstract

The utility model relates to the field of radio electronics, and can be used in various radio engineering devices requiring frequency division by two. The technical result is to increase the accuracy of the frequency divider of the harmonic signal. The harmonic signal frequency divider comprises an adder, an amplitude detector, a division unit, a scaling unit, a square root extraction unit, a multiplier, a zero level discriminator, a counting trigger, and a signal polarity switching unit, the frequency divider input being connected to the first adder input, the zero level discriminator output being connected with the input of the counting trigger, the input of the frequency divider is connected to the input of the amplitude detector, the output of which is connected to the second input of the adder, the output of which is connected to the the input of the division unit, the second input of which is connected to the output of the scaling unit, the input of which is connected to the output of the amplitude detector and the second input of the multiplier, the output of the division unit through the square root extraction unit is connected to the first input of the multiplier, the output of which is connected to the inputs of the zero level discriminator and the block switching the polarity of the signal, the control input of which is connected to the output of the counting trigger, and the output of the polarity switching unit of the signal is the output of the frequency divider. 2 ill.

Description

The utility model relates to the field of radio electronics, and can be used in various radio engineering devices requiring frequency division by two.

The known frequency divider of the harmonic signal [Rizkin I.Kh. Multipliers and frequency dividers. M .: "Communication", 1966, p. 12-15, fig. 3.2, a] containing a nonlinear element and a counter of periods of the input oscillation.

This device has a high level of spurious components of the output signal.

The closest analogue to the proposed utility model is the frequency divider of the harmonic signal [USSR Author's Certificate No. 668062 IPC Н03В 19/12, publ. 06/15/1979], comprising a square root extractor, a signal multiplier, a zero level discriminator, a counting trigger, a constant voltage source equal to the amplitude of the input signal, and a signal combiner whose inputs are connected to the input of the frequency divider and the constant voltage source, and the output is connected with the input, a square root extraction unit, the output of which is connected to the inputs of the signal multiplier directly and through series-connected discriminator of the zero level and counting trigger.

This technical solution is selected as a prototype.

The device can significantly reduce the level of spurious harmonic components of the output signal. However, the disadvantage of this frequency divider is its low accuracy, due to the fact that it does not provide equal amplitudes of the input and output voltages in the operating range of the input signal. In addition, in it the amplitude of the input signal is set by a constant voltage source, and is not measured automatically. This limits the efficiency of the frequency divider only to the amplitude of the input signal equal to the specified one.

The technical result of the claimed utility model is to increase the accuracy of the frequency divider of the harmonic signal.

The specified technical result is achieved by the fact that in a known frequency divider of a harmonic signal containing an adder, a square root extractor, a zero level discriminator, a counting trigger and a multiplier, the input of the frequency divider is connected to the first input of the adder, and the output of the zero level discriminator is connected to the input of the counted trigger, additionally introduced an amplitude detector, a scaling unit, a division unit and a polarity switching unit, the input of the frequency divider connected to the input of the amp a tedious detector whose output is connected to the second input of the adder, the output of which is connected to the first input of the division unit, the second input of which is connected to the output of the scaling unit, the input of which is connected to the output of the amplitude detector and the second input of the multiplier, the output of the division unit through the square root extraction unit is connected with the first input of the multiplier, the output of which is connected to the inputs of the discriminator of the zero level and the polarity switching unit of the signal, the control input of which is connected to the output of the counted iggera and output polarity switching unit is an output signal of the frequency divider.

Significant differences of the proposed device are the introduction of an amplitude detector, a scaling unit, a division unit, a signal polarity switching unit, and the organization of new connections between device elements. The combination of elements and the relationships between them provide a positive effect - improving the accuracy of the frequency divider of the harmonic signal.

The essence of the utility model is illustrated by drawings. In FIG. 1 shows a functional diagram of the device, in FIG. 2 - time diagrams of voltages u _in , u ₂ , u ₂ -u ₈ and u _out .

The device (Fig. 1) contains an adder 1, an amplitude detector 2, a division unit 3, a scaling unit 4, a square root extraction unit 5, a multiplier 6, a zero level discriminator 7, a counting trigger 8, and a signal polarity switching unit 9.

с частотой ω подается на первый вход сумматора 1 и вход амплитудного детектора 2.The device operates as follows. Sine input AC voltage

with a frequency ω is supplied to the first input of the adder 1 and the input of the amplitude detector 2.

After adding the input voltage with its amplitude U _{m in} , formed by the amplitude detector 2, in the adder 1, the voltage u ₂ is formed at its output (Fig. 2):

The scaling unit has a transmission coefficient of 2 and a voltage u ₃ of 2⋅U _m input is generated at its output. After dividing in the division unit 3 the voltage u ₂ by u ₃ , at its output we have the voltage u ₄ with a unit amplitude (Fig. 2):

After extracting the square root in the square root block 5 from the voltage u ₄ , according to the trigonometric identity, voltage u ₅ is formed at its output, having the form of half-wave rectification (Fig. 2):

In the multiplier 6, the voltage u _{5 is} multiplied by u ₁ , thereby, the amplitude of the input voltage UU _{m in} is restored (Fig. 2):

The discriminator of the zero level 7 produces narrow pulses u ₇ at the time when the voltage level u ₆ is close to zero. The output pulses of the discriminator 7 are fed to the input of the counting trigger 8, the output of which forms a periodic sequence of pulses u _{8 with a} duration equal to the voltage period u ₆ (Fig. 2).

The polarity switching unit of signal 9 has a transmission coefficient equal to unity and allows you to change the polarity of the input signal under the action of voltage u ₈ at its second input. The voltage u ₈ controls the polarity switching unit of signal 9 in such a way that in the absence of a pulse at the output of the counting trigger 8, the voltage u ₆ is transmitted by the block 9 without changing the polarity, and if there is a pulse, it is inverted (Fig. 2).

As a result, the voltage u _output is generated at the output of the polarity switching unit of signal 9 and the output of the divider with an amplitude equal to the amplitude of the input voltage u _{output with a} frequency of ω / 2 half the frequency ω of the input voltage,

therefore, there is a division of the frequency into two (Fig. 2):

In the practical implementation of the proposed device, the adder 1 is a two-input adder on an operational amplifier (op amp). Amplitude detector 2 can be performed according to one of the known schemes (A. J. Peyton, V. Walsh. Analog electronics on operational amplifiers. - M .: BINOM, 1994, p. 292, fig. 11.17; p. 304, fig. 11.29 ) The division unit 3 can be performed on the op amp by including a signal multiplier on the K525PS3 chip in its negative feedback circuit. Scaling unit 4 is a conventional op amp amplifier with a gain of two. As a block for extracting the square root of 7, you can use the op amp circuit by including the quadrator on the K525PS3 multiplier in its negative feedback circuit. The multiplier 6 is a voltage multiplier on the chip KR525PS3. As a discriminator of zero level 7, you can use a comparator on the op amp with a voltage level close to zero. As the counting trigger 8, you can use the usual T-trigger. The polarity switching unit for signal 9 can be performed according to the scheme (Horowitz P. and Hill W. Art of circuitry. - M .: BINOM, 2014, p. 190, Fig. 4.14) using a transistor as a key.

Claims (1)

A harmonic signal frequency divider comprising an adder, a square root extractor, a zero level discriminator, a counting trigger and a multiplier, the input of a frequency divider being connected to the first adder input, and a zero level discriminator output connected to an input of a counting trigger, characterized in that it additionally an amplitude detector, a scaling unit, a division unit, and a signal polarity switching unit are introduced, the input of the frequency divider being connected to the input of the amplitude detector, the output of which is dined with the second input of the adder, the output of which is connected to the first input of the division unit, the second input of which is connected to the output of the scaling unit, the input of which is connected to the output of the amplitude detector and the second input of the multiplier, the output of the division unit through the square root extraction unit is connected to the first input of the multiplier, the output of which is connected to the inputs of the zero level discriminator and the signal polarity switching unit, the control input of which is connected to the output of the counting trigger, and the output of the switching unit is The signal polarity is the output of the frequency divider.

Images