JPH02834U - - Google Patents

Description

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an active filter circuit according to an embodiment of this invention. Figure 2 shows
FIG. 2 is a circuit diagram showing a conventional active filter circuit having a composite characteristic of a secondary high-pass filter characteristic and a secondary all-pass filter characteristic. 4...Active filter circuit according to the embodiment, 4
1...Input end, 42...Output end, 50...Operation amplifier,
51...First input section, 52...Second input section, 53...Output section, 61-64...Capacitor, 71-77...Resistor.

Claims (1)

[Claims for Utility Model Registration] When the input voltage is V _i and the output voltage is V ₀ ,
The transfer function V ₀ /V _i is, where ω ₁ is the cutoff angular frequency of the secondary high-pass filter, Q ₁ is the sharpness of the secondary high-pass filter, ω ₂ is the resonance point of the secondary all-pass filter, and Q ₂ is the secondary An operational amplifier having a first input section 51, a second input section 52, and an output section 53, which is an active filter circuit that realizes the characteristics expressed by the sharpness of the all-pass filter, S is the angular frequency expressed by jω, and the following: 50, the input end 41
A first capacitor 61, a second capacitor 62, a third capacitor 63, and a fourth capacitor 64 connected in series in this order are connected between the first input section 51 of the operational amplifier 50 and the first input section 51 of the operational amplifier 50. A first resistor 71 is connected between the connection between the capacitor 61 and the second capacitor 62 and the output section 53 of the operational amplifier 50.
between the connection between the second capacitor 62 and the third capacitor 63 and the ground, and the operational amplifier 50
A second resistor 72, a fifth resistor 75, and a seventh resistor 77 are connected between the first input section 51 and the second input section 52, respectively, and a third capacitor 63 and a fourth capacitor are connected. A fourth resistor 74 and a third resistor 73 are respectively connected between the connection part with 64 and the ground and between the output part 53 of the operational amplifier 50, and between the second input part 52 and the output part 53 of the operational amplifier 50. A sixth resistor 76 is connected to the output terminal 42, and the output section 53 of the operational amplifier 50 is connected to the output terminal 42.The capacitances of the first to fourth capacitors 61 to 64 are respectively _C1 to _C4 . , 1st to 7th
When the conductances of the resistors 71 to 77 are _g1 to _g7 , respectively, the _transfer function _V0 / _Vi of the active filter circuit is expressed by the following formula, _V0Vi = ^S4 + ^AS3 + ^{BS2S 4} +CS ³ +
DS ² +ES+F However, A=g ₅ C ₄ +g ₅ C ₃ -g ₃ g ₇ C ₃ g ₆ -g
₄ g ₇ C ₃ g ₆ B=g ₃ g ₅ C ₃ C ₄ +g ₄ g ₅ C ₃ C ₄ C=g ₅ C ₄ +g ₄ C ₃ +g ₅ C ₃ +g ₂ C ₂ +
g ₄ C ₂ +g ₂ C ₁ +g ₄ C ₁ -g ₃ g ₇ C ₃ g ₆ D=g ₃ g ₅ C ₃ C ₄ +g 4 g ₅ C ₃ C _{4 +} g ₂
g ₅ C _{2 C 4 +} g ₄ g 5 C 2 C ₄ +g ₂ g ₄ C ₂ C ₃ +g ₂ g ₅ C ₂ C ₃ +g ₄
g ₅ C ₂ C ₃ +g ₄ g ₇ C ₂ C ₃ +g ₂ g ₅ C ₁ C ₄ +g ₄ g ₅ C ₁ C ₄ +g ₁
g ₄ C ₁ C ₃ +g ₂ g ₄ C ₁ C ₃ +g ₂ g ₅ C ₁ C ₃ +g ₄ g ₅ C ₁ C ₃ +g ₄
g ₇ C ₁ C ₃ +g ₁ g ₂ C ₁ C ₂ +g ₁ g ₄ C ₁ C ₂ +g ₁ g ₄ g ₇ C ₁ C ₃ g
₆ -g ₂ g ₃ g ₇ C ₁ C ₃ g ₆ -g ₂ g ₃ g ₇ C
₂ C ₃ g ₆ E=g ₂ g ₃ g ₅ C ₂ C ₃ C ₄ +g ₂ g ₄ g ₅ C
₂ C ₃ C ₄ +g ₂ g ₃ g ₅ C ₁ C ₃ C ₄ +g ₂ g ₄ g ₅ C ₁ C ₃ C ₄ +g ₁ g ₂ g ₅ C
₁ C ₂ C ₄ +g ₁ g ₄ g ₅ C ₁ C ₂ C ₄ +g ₁ g ₂ g ₄ C ₁ C ₂ C ₃ +g ₁ g ₂ g ₅ C
₁ C ₂ C ₃ +g ₁ g ₄ g ₅ C ₁ C ₂ C ₃ +g ₁ g ₄ g ₇ C ₁ C ₂ C ₃ +g ₁ g ₂ g ₃ g
₇ C ₁ C ₂ C ₃ g ₆ F=g ₁ g ₂ g ₃ g ₅ C ₁ C ₂ C ₃ C ₄ +g ₁ g
₂ g ₄ g ₅ C ₁ C ₂ C ₃ C ₄ and A=-ω ₂ /Q ₂ , B=ω ₂ ² , C=
(ω ₁ /Q ₁ )+(ω ₂ /Q ₂ ), D=ω ₁ ² +ω ₂ ² +(ω ₁ ω ₂ /Q ₁ Q ₂ ), E=(ω ₁ ω ₂ ² /Q ₁ )+ (ω ₁ ² ω ₂ /Q ₂
) and F=ω ₁ ² ω ₂ ^2. An active filter circuit characterized in that the capacitances C ₁ to _{C 4} and the conductances g ₁ to _{g 7} are selected so as to satisfy F=ω 1 2 ω 2 2.