SU860319A1 - Frequency synthesizer - Google Patents

Description

(54) FREQUENCY SYNTHESIZER

The invention relates to radio engineering and can be used, in particular, as exciters of transmitters of synchronous broadcasting networks. A known frequency synthesizer containing a serially connected tunable generator, a frequency division divider and a phase detector, as well as serially connected reference frequency oscillator, pulse shaper and a multi-frequency pulse phase detector, the output of which is connected to the first control input of the tunable generator whose other output is connected to another input of the multi-frequency pulse-phase detector, while the other output of the pulse former is connected to to the other input of the phase detector and to the second control input perestrayv aoYaogo generator CONNECTION nen compensator output, one input of which is connected to Yield many frequency pulse-phase detector 1}. However, the known frequency synthesizer does not provide a sufficiently high phase stability of the output oscillations, due to the fact that the frequency and phase oscillations of the oscillator of the oscillator are controlled by four channels, the mutual influence of which on each other interferes with the operation of each of the control channels. The purpose of the invention is to increase the stability of the output oscillation phase. To do this, in a frequency synthesizer that contains a tunable oscillator connected in series, a variable division factor frequency divider and a phase detector, as well as a reference frequency oscillator connected in series, a pulse driver and a multi-frequency pulse phase detector, the output of which is connected to the first tunable generator input, the other output of which is connected to another input of the multi-frequency pulse-phase detector, while the other output of the pulse former is It is connected to another input of the phase detector, and the second control input of the tunable generator is connected to the output of the compensator, one of the outputs of which is connected to the output of an MFR | pulse-phase detector, between

The output of the phase detector and the other stroke of the compensator included a successively connected differentiator and pulse extender.

FIG. Figure 1 shows the structural electrical circuit of the device, the diagrams, 2 and 3 of the voltage plots at different points of the device.

The frequency synthesizer contains the reference frequency generator (GOCH) 1, the pulse former 2, the multi-frequency pulse-phase detector (MCIFD) 3, the tunable oscillator 4, the compensator 5, the phase detector b, the frequency divider 7 with a variable division factor (DCFD), a differentiator. 8, racharizer 9 pulses.

The frequency synthesizer works as follows.

Set the division ratio of the DPCD 7, equal to N, defined as 1 (where fg - the operating frequency F is the frequency of the MOCG 1 signal), turns on the power to the device. The input of the phase detector 6 receives the generated pulses from GOCH 1 with a frequency F0 and the pulses Fp from the tunable generator 4, divided N times by means of DCPD 7.

At the output of the phase detector b, voltage of three different forms can occur; with less Fg rise

the voltage has

FO is larger and steep reset) at F (the input voltage has a gentle descent and is steep when Fj and F are equal, the voltage at the output of the phase detector b has a constant value with a level depending on the phase ratios of the voltages with the frequencies FO,

When passing through the differentiator 8, the pulse shape is transformed; when F is less than Fp, the frequency of the output pulses is equal to the frequency difference and the pulses are directed upwards; with FP more F fi - in the opposite direction. In case of equal frequencies Fj- and Fp at the output of the differentiator 8, the pulse voltage is absent.

The voltage from the output of the differentiator 8 is fed to the pulse expander 9 (three-position relay), the output of which, when the frequency is equal to r Fr and F, is the voltage, is zero. With the inequality F and Fg, the voltage at the output of the pulse expander 9, depending on the polarity of the input pulses, has the proper polarity. The time by which the pulses in spreading device 9 are extended, is based on the dynamic parameters of the device.

Depending on the polarity of the voltage of the transformer that came to the second input of the compensator 5, at its output the voltage increases or the voltage decreases to those tiop, while the voltage at its second

the input will not become very close to zero, which occurs when the frequencies F and Fp become equal and the compensator 5 will operate in accordance with the voltage supplied to its first input from ICFD 3. The output voltage of the device 5 under the action of its voltage the first input changes until the voltage at its first input becomes very close to zero (below the threshold

About the limitation), which corresponds to the middle of the band of regulation along the ring with ICFD 3.

When the device is entered into synchronism and while maintaining its synchronism (t, e, in all modes of operation of the device), a woofer 1, a pulse former 2, a tunable oscillator 4 and a compensator 5, and a phase detector b, DPDD 7 are used.

0 differentiator 8, and expander 9 pulses, which, when synchronization is achieved, are disconnected by the disappearance of voltage at the output of differentiator 8,

While maintaining the achieved synchronism, ICPID 3 is used, which provides it in conjunction with GOCH 1, impulse shaper 2, rebuild. "LM generator 4 and compensator 5. As in the proposed device

0 control of oscillations is strictly time-delimited, when entering synchronism a circuit containing phase detector 6 is used, and while maintaining synchronism of ICFD 3, the possibility of interference of tunable oscillator 4 through unused control circuits is eliminated, resulting in a significant increase in output phase stability hesitation

Claims (1)

Invention Formula A frequency synthesizer containing 5 serially connected tunable oscillator, variable divider frequency divider and phase detector, as well as serial frequency generator, pulse shaper and multi-frequency pulse phase detector, serially connected, the output of which is connected to the first control input of the tunable generator, another output of which is connected to to another the input of the multi-frequency pulse-phase detector, while the other output of the pulse generator is connected to the input of the phase detector, and to the second control input Q of the tunable generator is connected to the output of the compensator, one of the inputs of which is connected to the output of the multi-frequency pulse-phase detector, which differs S so that, in order to increase the stability of the output oscillation phase, a series-connected differentiator and a pulse extender are connected between the output of the phase detector and the 15th input of the compensator. Sources of information taken into account in the examination 1, USSR Author's Certificate of Application, cl. REF. 3/04, 12.26.77.