CS231877B1 - Connection for supply of control frequency - Google Patents

Description

(54) Connection of the control frequency source

The invention relates to the connection of a control frequency source, in particular for high-precision digital meters having an oscillator connected to the input of their time base.

The principle of the invention is that the input of the circuit is connected to the input of a frequency doubler to which the first phase detector input is connected via the shaping circuit, the output of which is connected via a filter to the input of the controlled oscillator. input of the time base of the digital meter and, secondly, through the frequency divider to the second input of the phase detector.

The invention relates to the connection of a control frequency source, for example for very accurate digital meters having an oscillator connected to the access of their time base.

The known connections of the control frequency sources are generally constituted by crystal oscillators producing a fixed control frequency, which are connected to the input of a digital meter time base, for example a voltmeter.

The main disadvantage of these circuits is that they only allow the use of a fixed integration time, which is set as an integral multiple of the nominal network period. In this way, the interference of the mains is suppressed only in cases where the mains frequency is close to the nominal value with a deviation of 0,1 0.1%.

If the mains frequency fluctuates over a larger range, significant measurement errors occur. This disadvantage is eliminated by the circuit according to the invention, characterized in that the circuit input is connected to an input of a frequency doubler to which the first phase detector input is connected via a shaping circuit, the output of which is connected via a filter to a controlled oscillator input. the controlled oscillator is connected to the input of the digital meter time base and to the other input of the phase detector via the frequency divider.

The main advantage of the circuitry according to the invention is that the control frequency is continuously varied by this circuit so that it is constantly close to an integral multiple of the network frequency. This achieves a variable integration time that approaches an integral multiple of the network period over the range of normal network fluctuation.

This results in the elimination of errors caused by otherwise excessive oscillation of the mains frequency in the range of more than 0.1% of the nominal value. In the following, the invention is explained in more detail by way of example with reference to the drawing.

The attached drawing shows schematically an example of the connection of a control frequency source according to the invention.

As is apparent from the attached drawing, the wiring input 1 is connected to the input of the frequency doubler 2 to which the first phase detector input 4 is connected via the shaping circuit 3.

The output of the phase detector 4 is connected via a filter 2 to the input of the controlled oscillator 8. The output of the controlled oscillator 8 is connected both to the input of the digital meter time base 10 and through the frequency divider 9 to the second input of the phase detector 4.

After actuation, the circuit described above operates in such a way that the line frequency applied to the circuit input 1 is doubled in the frequency doubler 2 and fed to a shaping circuit where its waveform is rectangular.

From the output of the shaping circuit '3, the adjusted signal is applied to the first input of the phase detector' 4. At the same time, a signal from the output of the controlled oscillator '2 is supplied to the second input 2 of the phase detector 4.

A rectangular signal is output from the output of the phase detector 4, the duty cycle of which is dependent on the phase difference applied to the first input and the second input 6 of the phase detector 4. This output rectangular signal is applied to the input of filter 7 the value of the rectangular signal applied to the input of the filter 8.

The voltage generated by the filter 7 at its output controls the frequency of the controlled oscillator 2. The frequency of the controlled oscillator '8 is divided by the frequency divider 2 so that, in ideal steady state, the frequencies at the first input' 5 and is the frequency at the output of the controlled oscillator 8, n is the dividing constant of the frequency divider 9, and f is the line frequency.

The circuitry according to the invention is particularly applicable to all high precision digital meters using the dual integration principle and used where the network frequency has a deviation from the nominal value of more than + 0.1%.

The function is ensured in a sufficient range of mains frequency fluctuations, with a sufficient limitation of the rate of change of the control frequency at the output of the controlled oscillator during sudden rapid changes of the mains frequency applied to the input of the wiring.

OBJECT OF THE INVENTION

Connection of a control frequency source, for example for very accurate digital meters that

Claims (1)

OBJECT OF THE INVENTION Connection of a control frequency source, for example for very accurate digital meters having an oscillator connected to the input of their time base, characterized in that the input (1) of the connection is connected to the input of the frequency doubler (2) connected to the first input (5) of the phase detector (4), the output of which is connected via a filter (7) to the input of the controlled oscillator (8), the output of the controlled oscillator (8) connected to the input of the time base (10) 11 / and through the frequency divider / 9 /