Abstract:
An FM demodulator having a phase comparator, a low-pass filter and a VCO including a variable capacitance diode, an input signal being applied to the phase comparator and a demodulated output signal being taken from the low-pass filter. The FM demodulator further includes a compensating circuit consisting of a non-linear element connected between the demodulated output terminal and the VCO, whereby the secondary distortion in the output signal to be caused due to the non-linearity of the variable capacitance diode is canceled.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to an FM demodulator and, more particularly, to an FM demodulator of the kind in which a VCO (voltage-controlled oscillator) employing a varactor diode is used as a demodulator. 
     2. Description of the Prior Art 
     Conventionally, various types of circuit are used as FM demodulators. For example, an FM demodulator based on the PLL (phase locked loop) method using a varactor diode has a construction as shown in FIG. 1, in which a frequency-modulated (FM) signal is input from an input portion IN to a phase comparator 11 and an oscillation frequency signal from a VCO 12 is also input from another input portion 13 to the phase comparator 11, respectively. Then, an error signal based on the phase difference between the above FM signal and the oscillation frequency signal is output from the phase comparator 11. This error signal is input as an oscillation frequency control signal to the VCO 12, thereby controlling the oscillation frequency of the VCO to follow the frequency deviation. As is obvious from the above-mentioned construction, the signalling system constitutes a PLL and a signal on the output line of an amplifier 4 is output (OUT) as a demodulation signal. 
     The VCO 12 includes a varactor diode and the oscillation frequency is controlled by controlling the voltage to be applied to this varactor. 
     However, in the above-described conventional FM demoduator, since the change of the electrostatic capacity with respect to the change of the voltage applied to the varactor is not ideal, this causes a deviation of the output frequency of the VCO 12 (which changes due to the change of the electrostatic capacity of the varactor) with respect to the ideal output frequency, so that there is a drawback in that this deviation is output as a distortion component of the demodulation signal on the output line of the amplifier 4 and thus the sound quality suffers. 
     SUMMARY OF THE INVENTION 
     It is an object of the present invention to provide an FM demodulator which solves the above-mentioned drawback in conventional FM demodulators and in which distortion components can be eliminated. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a block diagram showing a conventional FM demodulator; and 
     FIGS. 2 to 4 are block diagrams showing embodiments of FM demodulators according to the present invention. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     An embodiment of the present invention will be described hereinbelow with reference to FIG. 2. 
     In the drawing, a reference numeral 1 denotes a phase comparator and 2 indicates a VCO which includes a variable capacitance (varactor) diode D, in which the fluctuation of the potential at an input terminal 3 of the varactor diode D causes the output frequency of the VCO 2 to fluctuate. An error signal is input from the phase comparator 1 through an amplifier 4 to the input terminal 3 of the varactor diode D. This construction is similar to the conventional construction. A compensating circuit 5 for controlling the voltage fluctuation at an output terminal OUT so that it is proportional to the frequency deviation at an input portion IN is connected to the input terminal 3. This compensating circuit 5 is constituted by a network consisting of a non-linear element and a resistor in this embodiment. A diode D 1  whose cathode side is grounded and one end of a resistor R 1  are connected in series. On the other hand, a diode D 2  whose anode side is grounded and one end of a resistor R 2  are connected in series. The respective other ends of the resistors R 1   and R 2  are connected through a variable resistor VR. An adjusting point of the variable resistor VR is connected to the input terminal 3, thereby allowing the voltage applied to each diode D 1  or D 2  to be varied. 
     Now, an analysis of the distortion component and a principle of elimination of the distortion component will be given. In the conventional demodulator case, where the characteristic of the output frequency of the VCO with respect to the input voltage to the VCO is non-linear, the demodulated output V is given by the following expression (1) where a n  are constants, p is the instantaneous angular frequency, and t is time. ##EQU1## Namely, multi-degree distortions occur. However, it is known that the distortion components of the demodulated output is mainly the secondary harmonic and there are relatively few tertiary or higher degree harmonics. When considering up to the third term of expression (1), we can approximate expression (1) as follows. 
     
         V≈a.sub.0 +a.sub.1 cos pt+a.sub.2 cos.sup.2 pt     (2) 
    
     (In a conventional circuit, the distortion component of a 2  cos 2  pt is included in the demodulated output.) In the present invention, with respect to voltages Vd 1  and Vd 2  applied to the diodes D 1  and D 2 , when the adjusting point of the variable resistor VR reaches ##EQU2## 
     On the other hand, the voltage to current characteristic of each diode D 1 , D 2  is expressed by ##EQU3## Where Is=the saturation current, q=charge, k=the Boltzmann constant, T=absolute temperature, V=the applied voltage, and I is the diode current. 
     When the magnitude of the distortion component is much smaller than the fundamental the voltages V applied to each diode D 1  and D 2  should be extremely small as expressed by the following equation (3). ##EQU4## 
     Therefore, when approximating expression (4) as follows ##EQU5## the currents Id (see FIG. 2 flowing through the diodes D 1  and D 2  will be 
     
         Id=Id.sub.1 +Id.sub.2 =b.sub.1 Vd.sub.1 +b.sub.2 Vd.sub.1.sup.2 +b.sub.1 Vd.sub.2 -b.sub.2 Vd.sub.2.sup.2.                         (7) 
    
     Due to the non-linear characteristic of the output frequency of the VCO with respect to the input voltage of the VCO, the voltage V 2  applied to the VCO is 
     
         V.sub.2 =a.sub.0 +a.sub.1 cos pt+a.sub.2 cos.sup.2 pt, see expression (2). 
    
     Thus, the voltage V 1  at the output terminal OUT is ##EQU6## When a 2  =0 (in the case where no non-linear distortion exists), if the variable resistor VR is adjusted such that Vd 1  =Vd 2 , no distortion will occur in the demodulated output (OUT). When a 2  &gt;0 (in the case where some non-linear distortion exists), the adjustment of VR such that Vd 1  &lt;Vd 2  enables the term of a 2  cos 2  pt to be canceled. Similarly, when a 2  &lt;0, if it is adjusted such that Vd 1  &gt;Vd 2 , the term of a 2  cos 2  pt can be canceled. FIGS. 3 and 4 show other embodiments of the present invention, in which FIG. 3 shows a block diagram wherein the compensating circuit 5 is connected to a feedback circuit of an operational amplifier 6 and FIG. 4 shows a block diagram wherein compensating circuit 5 is provided outside of the PLL. The operations of these embodiments are similar to the operation of the circuit of FIG. 2; their descriptions are omitted here. 
     According to the FM demodulator of the present invention, a loop is provided whereby the oscillation frequency of a VCO is controlled by the voltage applied to a varactor diode and the voltage at the input terminal of the varactor diode in the VCO tends to fluctuates in response to non-linearity of the varactor. A compensating circuit is provided to the above input terminal to control the voltage applied to the varactor diode such that the voltage fluctuation at the above output terminal OUT is proportional to the frequency deviation of the input signal applied to the demodulator. Therefore, it is possible to cancel the distortion components caused by the VCO, there thus being an excellent improvement in sound quality.