JPS6133484B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a tone control device that can be implemented in, for example, a graphic equalizer or the like to obtain good results.

Some tone control devices use an operational amplifier to adjust the degree of amplification within a limited frequency range. As explained below, this type of tone control device is useful when recording or playing back, because if a certain frequency range is strengthened or attenuated with respect to the input signal, the perceived volume will also change. etc., it is necessary to adjust the level each time, which is complicated.

FIG. 1 shows an example of a tone control device using an operational amplifier (hereinafter referred to as an operational amplifier). In this figure, 1 is an operational amplifier whose non-inverting input terminal 1a is connected to an input terminal 2, and its inverting input terminal 1b is connected to an output terminal 1c via a resistor 3. The output terminal 1c is connected to an output terminal 5 via a resistor 4.

A variable resistor 6 with an intermediate tap is connected in parallel to the series circuit of resistors 3 and 4. The intermediate tap 6a of this variable resistor 6 is grounded,
The slider 6b is grounded via a filter circuit 7. The filter circuit 7 also uses an operational amplifier, and the non-inverting input terminal 8a of the operational amplifier 8
A capacitor 9 is connected to the inverting input terminal 8b, and a resistor 10 is connected to the inverting input terminal 8b, one end of which is connected to the slider 6b via a capacitor 11. The non-inverting input terminal 8a is grounded via a resistor 12, and the inverting input terminal 8b is connected to the output terminal 8.
connected to c. In the case of a graphic equalizer or the like, a plurality of the same circuits are used in parallel as shown in the figure, except that the set frequency of the filter circuit 7 is changed.

In this circuit, the AC signal voltage applied to the input terminal 2 is variable as e ₁ , the AC signal voltage generated at the output terminal 5 as e ₀ , the resistance value of the resistor 3 as R ₁ , and the resistance value of the resistor 4 as R ₂ . Assuming that the resistance values on both sides of the intermediate tap 6a of the resistor are R ₃ and the impedance seen from the input side of the filter circuit 7 is Za, then in an ideal operational amplifier, the following relationship exists between the AC signal voltages e ₁ and e ₀ will hold true. That is, now R ₁ = R ₂
Then, when the variable resistor 6 is flat with the slider 6b located in the center, e ₀ /e ₁ =R ₁ +R ₃ /R ₃・R ₃ /R ₃ +R ₂
= 1, but when boosting is performed by moving the slider 6b to the left from the center, Since R ₃ is R ₃ >R ₃ ·Za/R ₃ +Za, as a result, e ₀ /e ₁ >1. However, since Za=∞ at frequencies other than the set frequency of the filter circuit 7, e ₀ /e ₁ =1.

Next, when cutting by moving the slider 6b of the variable resistor 6 to the right from the center, Since R ₃ is R ₃ >R ₃ ·Za/R ₃ +Za, as a result, e ₀ /e ₁ <1. However, in this case as well, since Za=∞ at frequencies other than the set frequency of the filter circuit 7, e ₀ /e ₁ =1.

In this way, in the circuit shown in Fig. 1, when adjustments are made to enhance or attenuate the frequency set by the filter circuit 7, the degree of amplification changes in the frequency band other than this frequency set by the filter circuit 7. Since there is no sound level, the overall gain is increased or attenuated, resulting in a problem that the perceptual volume changes.

The present invention improves this point by reducing the gain of the entire circuit to some extent when the gain of the frequency to be adjusted is increased, and conversely, increasing the gain of the entire circuit to some extent when decreasing the gain of the frequency to be adjusted. , the overall auditory volume is automatically kept constant.

Next, an embodiment of the present invention will be described with reference to FIG. 2. In this case, the slider 6b of the variable resistor 6
and the output terminal 1c of operational amplifier 1 with a resistance value R ₄
A resistor 13 is connected. As a result, the resistor 13 is connected in parallel to the series circuit of the resistor 3 and the portion of the variable resistor 6 to the left of the slider 6b. The gain relationship in this case is as follows. Assuming R ₁ = R ₂ , first, when the slider 6b of the variable resistor 6 is placed in the center, e ₀ /e ₁ =R ₁ +R ₃ /R ₃・R ₃ /R ₃ +R ₂
= 1, so when boosting, Since R ₃ is R ₃ >R ₃ ·Za/R ₃ +Za, e ₀ /e ₁ >1, and the same result as in FIG. 1 is obtained. However, in a band other than the set frequency of the filter circuit 7, the state is different from that of FIG. 1 as follows. That is, Since R ₁ is R ₁ >R ₁ ·R ₄ /R ₁ +R ₄ , e ₀ /e ₁ <1. As a result, when the gain of the set frequency of the filter circuit 7 is increased, the gain decreases in other bands.

Next, when cutting by moving the slider 6b of the variable resistor 6 to the right from the center, similarly, when the gain of the set frequency of the filter circuit 7 is e ₀ /e ₁ <1, the other In the band, e ₀ /e ₁ >1.

Since the present invention is configured as described above, when the frequency set in the filter circuit is adjusted to be enhanced or attenuated, the degree of amplification of frequencies in other bands is automatically adjusted in the opposite relationship. This has the effect of keeping the overall perceived sound volume approximately constant.

Also, since this amplification degree can be determined mainly by setting the resistance value _R4 of the resistor connected between the slider of the variable resistor and the output terminal of the operational amplifier, it is possible to It is possible to configure it so that Therefore, there is no need to adjust the level each time recording is performed, which has the advantage of greatly improving usability. Therefore, good results can be obtained by implementing the present invention in a tone quality adjuster, such as a graphic equalizer, which combines a plurality of tone control devices having different frequency ranges set by filter circuits.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an example of a circuit using an operational amplifier, and FIG. 2 is a circuit diagram of an embodiment of the present invention. 1...Operation amplifier, 1a...Non-inverting input terminal, 1
b...Inverting input terminal, 1c...Output terminal, 2...Input terminal, 3, 4, 13...Resistor, 5...Output terminal, 6...Variable resistor, 6a...Intermediate tap, 6
b...Slider, 7...Filter circuit.

Claims (1)

[Claims] 1 Connect two resistors with the same resistance value to the output terminal of the operational amplifier, connect one of the two resistors to the inverting input terminal of the operational amplifier, and output the other resistor. A variable resistor with an intermediate tap is connected in parallel to the two resistors, a filter circuit is connected between the slider of the variable resistor and ground, and the slider is connected to the A tone control device characterized in that a resistor is connected between the output end of a digital amplifier.