JPH0336105Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a waveform equalization filter in a PCM recording/reproducing device.

[Conventional technology]

The PCM recording and reproducing system can be regarded as a type of low-pass filter, and if the frequency band of the system is not appropriately selected, so-called inter-symbol interference will occur, causing code errors.

According to detailed research, the frequency characteristics that a waveform equalizing filter should have to eliminate intersymbol interference are as follows. Let us now assume that the Nyquist frequency is N (if the bit interval is T, then N = 1/2T).
FIG. 3 shows the frequency characteristics of the ideal waveform equalizing filter.

In this figure, it is a necessary and sufficient condition that the level at the Nyquist frequency N is 0.5, and that each part of A and B is symmetrical.

The cutoff frequency is N(1+b). However, b is a roll-off rate of 0.5 to 1.

For example, when b=1, a frequency band of up to 2N is required.

Generally, a waveform equalization filter is implemented by a low-pass filter. It has been common knowledge that such waveform equalization filters are designed with the Nyquist frequency N of the input signal constant.

However, the output signal of a PCM recording/playback system using a VTR may wow, fluctuate, etc., especially when in long-time mode.
There is fluctuation in the Nyquist frequency due to causes such as jitter. When a signal whose Nyquist frequency changes in this way is passed through a waveform equalizing filter manufactured on the assumption that the Nyquist frequency is constant, its ability to remove intersymbol interference is significantly reduced.

[Problems to be Solved] An object of the present invention is to provide a variable waveform equalization filter device whose intersymbol interference removal ability is not affected even if the Nyquist frequency of an input signal fluctuates.

[Means for solving problems]

The variable waveform equalization filter device according to the present invention is configured so that the cutoff frequency changes in accordance with the Nyquist frequency of the input signal.

Specifically, it consists of a circuit that extracts a synchronization signal from an input signal, a circuit that converts the frequency of this synchronization signal into a voltage, and a waveform equalization filter section that includes a variable capacitance diode that is controlled by this voltage.

[Effect]

The variable waveform equalization filter device according to the present invention increases the cutoff frequency when the Nyquist frequency of the input signal increases, and lowers the cutoff frequency when the Nyquist frequency decreases, while maintaining the frequency characteristic pattern.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is an overall configuration diagram of one embodiment of a variable waveform equalizing filter device according to the present invention.

In the figure, 1 is a waveform equalizing filter section having a low-pass filter function as shown in FIG.
11 is the input terminal where the PCM signal is input, terminal 11
2 is an output terminal for the filtered signal, and terminal 113 is a control terminal to which a control signal is applied. The frequency characteristics (cutoff frequency, etc.) of the waveform equalizing filter section 1 are variable depending on the voltage applied to the control terminal 113. The output terminal 112 of the waveform equalization filter section 1 is connected to the input terminal of the synchronization signal separation circuit 2. The synchronization signal separation circuit 2 separates the synchronization signal included in the output signal of the waveform equalization filter section 1 and supplies it to the low-pass filter 3, and outputs the input signal as it is to the output terminal 114. The low-pass filter 3 removes noise caused by components higher in frequency than the synchronizing signal. The output of the low pass filter 3 is connected to the input of a frequency-voltage converter 4. The frequency-voltage converter 4 outputs a voltage signal proportional to the frequency of the input signal, and supplies it to the control terminal 113 of the waveform equalization filter unit 1.

That is, the embodiment of the variable waveform equalizing filter device whose overall configuration is shown in FIG.
This is converted into a voltage and the cutoff frequency of the waveform equalizing filter section 1 is changed to follow the Nyquist frequency of the input signal while maintaining the pattern shown in FIG.

FIG. 2 is a circuit diagram showing a preferred embodiment of the waveform equalizing filter section 1 of FIG. 1. In the figure PCM
The signal input terminal 111 is connected to the non-inverting input (+) of the operational amplifier 101, and the inverting input (-) of this operational amplifier is connected to the other end of the variable resistor 102, one end of which is grounded, and the other end of the resistor 103. Connected to the output terminal via. Operational amplifier 101, variable resistor 102, and resistor 1 connected in this way
03 forms an amplification section for the input PCM signal to the terminal 111.

Next, the output terminal of the operational amplifier 101 is connected to the resistor 1.
It is connected to the non-inverting input of the operational amplifier 110 through a series circuit of 04, coil 106, and coil 107. Variable capacitance diodes 108 and 109 are connected between the ground and the connection point between resistor 104 and coil 106 and the connection point between coil 106 and coil 107, respectively. A resistor 105 is connected between the non-inverting input of operational amplifier 110 and ground. The resistors 104 and 105, the coil 10
6 and 107, and variable capacitance diodes 108 and 109 form a filter section. The frequency characteristics of the filter section are determined by the resistance values, capacitances, and reactances of each resistor, capacitor, and coil.

The operational amplifier 110 has an output terminal connected directly to its inverting input, and the output terminal 11 as described above.
2 and the synchronous separation circuit 2. The operational amplifier 110 connected in this manner forms an output buffer section.

The variable resistor 102 and the variable capacitance diodes 108 and 109 are each connected to a control terminal 113, and their resistance values and capacitances are changed depending on the voltage value of the control terminal 113.

In addition to the embodiments shown in FIGS. 1 and 2 described above, there are various other variable waveform equalizing filter devices that change the cutoff frequency of the waveform equalizing filter section according to fluctuations in the Nyquist frequency of the input signal. Needless to say, deformation is possible.

[Effect] In the PCM recording/reproducing system, even if the Nyquist frequency of the output signal fluctuates, the ability to remove intersymbol interference does not deteriorate, so code errors are significantly reduced.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of an embodiment of the present invention, FIG. 2 is a detailed circuit diagram of the waveform equalizing filter section 1, and FIG. 3 is an explanatory diagram of frequency characteristics. DESCRIPTION OF SYMBOLS 1... Waveform equalization filter part, 2... Synchronization signal separation circuit, 3... Low pass filter, 4... Frequency-voltage converter, 108, 109... Variable capacitance diode.

Claims (1)

[Claims for utility model registration] (1) At the Nyquist frequency of the input PCM signal,
a waveform equalization filter section that follows a cutoff frequency according to an external control signal; a synchronization signal separation circuit that separates a synchronization signal from the output signal of the waveform equalization filter section; and a synchronization signal separation circuit that receives the synchronization signal and determines its frequency. A variable waveform equalizing filter device comprising: a frequency-voltage converter that converts the signal into a voltage and supplies the control signal to the waveform equalizing filter section. (2) The waveform equalization filter section includes: an amplifier section that amplifies the PCM signal according to the control signal; a filter section that includes a variable capacitance diode and that varies frequency characteristics according to the control signal; Claim (1) characterized by comprising: an output buffer section for amplifying the output signal of the section.
The variable waveform equalization filter device described.