JPS641780Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to an audio amplification device that uses an IC with a differential amplifier configuration, and is designed to prevent transients caused by DC offset voltage that occur in the audio control circuit in the previous stage when the power is turned off by remote control. An object of the present invention is to provide a device that reduces noise.

In conventional equipment, when the power to the receiver is turned off using the remote control, the voltage used to control the volume and sound quality by DC control in the previous stage circuit suddenly drops to 0, so the DC voltage in the differential amplifier for control suddenly drops to 0. The disadvantage was that the offset caused very loud transient noises to be generated from the audio control circuit.

Therefore, the present invention provides a device that eliminates such drawbacks, and for this purpose, the bias of the audio amplification circuit to which the input signal from the previous stage circuit where the transient sound is generated is applied, is controlled by the power supply by remote control. This change is made at the time of disconnection to stop the operation and eliminate transient noise when the power is disconnected by remote control.

Hereinafter, the present invention will be described with reference to drawings showing embodiments thereof.

The circuit configuration is shown in FIGS. 1 and 2.

In Fig. 1, a remote control signal is applied to terminal a during power cut-off control by remote control, and transistors TR ₁ and TR ₂ operate self-holding relay RL to open or close switch S. , disconnect power to the entire circuit. Further, A is an audio amplification circuit (for stereo), and this circuit is, for example, as shown in FIG. A _L is the left circuit, and A _R is the same right circuit. Since this circuit itself is known, the explanation will be omitted. This circuit usually consists of an IC.
The terminals b _L and b _R are left and right audio signal input terminals, respectively, and as described above, the audio signal in which the transient sound is generated when the power is turned off in the previous stage circuit is input. c _L and c _R are left and right audio signal output terminals, respectively. The operating bias voltage to the input transistors TR ₄ and TR ₅ of the audio amplifier circuit A was divided from the +B ₂ power supply to the right circuit by voltage dividing resistors R ₈ , R ₉ , R ₁₀ , and R ₁₄ .

R ₈ /R ₈ +R ₉ +R ₁₀ +R ₁₄ ×V _B2 was divided by voltage dividing resistors R ₁₁ , R ₁₂ , R ₁₃ , and R ₁₄ to the left circuit.

R ₁₁ /R ₁₁ +R ₁₂ +R ₁₃ +R ₁₄ ×V _B2 is given. V _B2 is the voltage of the + _B2 supply.

When disconnecting the power supply by remote control, connect the resistor from terminal a to the base of transistor TR ₁ .
A high-level remote control signal shaped by R ₁ , R ₂ and capacitor C ₁ is applied, transistors TR ₁ and TR ₂ are turned on, relay R _L is operated, and switch S is turned off.

Furthermore, by applying the disconnection pulse from the emitter of transistor TR ₁ to the base of transistor TR ₃ , which is a switching element, through resistor R ₅ and resistor R ₆ , transistor TR ₃ is activated when it is applied by remote control. It is switched on. At this time, the bias voltages V _L and V _R of the input transistors TR ₄ and TR ₅ of the audio amplifier circuit A are as follows.
Since diodes D ₁ and D ₂ are provided between the voltage dividing resistor and transistor TR ₃ , respectively,
The voltage becomes below a certain level so that the operation of transistors TR ₄ and TR ₅ is stopped.

That is, R ₁₄ ≪R ₁₀ and R ₇ ≪R ₈ , R ₉ , R ₁₁ ,
R ₁₂ , the collector-emitter voltage when the transistor TR ₃ is on is V _CEsat (≒0), and the diode
If the voltage drop of D ₁ and D ₂ is V _D , then the transistor
The voltage v L at the interconnection point of resistors R ₉ , R ₁₀ and diode D ₁ when TR ₃ is turned on, and the voltage v _L at the interconnection point of resistors R ₁₂ ,
The voltage v _R at the interconnection point of R ₁₃ and diode D ₂ is, respectively, v _L = V _CEsat + (V _B2 − V _D − V _CEsat ) × R ₇ /R ₇
+R ₁₀ +V _D = (V _B2 −V _D )×R ₇ /R ₇ +R ₁₀ +V _D v _R =V _CEsat +(V _B2 −V _D −V _CEsat )×R ₇ /R ₇
+R ₁₀ +V _D = (V _B2 −V _D )×R ₇ /R ₇ +R ₁₀ +V _D. Therefore, the bias voltages V _L and _VR are, respectively, V _L = v _L × R ₈ / R ₈ + R ₉ = ((V _B2 − V _D ) × R ₇ / R
₇ +R ₁₀ +V _D )×R ₈ /R ₈ +R ₉ V _R =v _R ×R ₁₁ /R ₁₁ +R ₁₂ = ((V _B2 −V _D )×R ₇
/R ₇ +R ₁₀ +V _D )×R ₁₁ /R ₁₁ +R ₁₂ .

Here, R ₇ = 10KΩ, R ₈ = R ₁₁ = 220KΩ, R ₉ =
R ₁₂ = 390KΩ, R ₁₀ = R ₁₃ = 220KΩ, R ₁₄ = 100Ω,
If V _B2 = 33 volts and V _D = 0.7 volts, then V _L =
V _R =0.76 volts, and the first stage transistor of the audio amplifier circuit A, such as the transistor _TR4 , is almost cut off and stops operating. Therefore, even if a transient sound is generated in the front-stage circuit when the power is turned off, it will not be amplified by the audio amplification circuit A and will not be output. Note that during normal operation, V _L =V _R =8.7 volts, and the amplification operation is performed normally.

In addition, if the power supply +B ₂ drops quickly when the main power is cut off, diode D ₃ turns on and the cathode side of diodes D ₁ and D ₂ becomes diode D ₃ .
and +B ₂ via resistor R ₁₄ . Then,
When the main power supply is turned off, the above-described operation is performed by switching the transistor TR ₃ , and the charges stored in the capacitors C ₄ and C ₅ are rapidly discharged through the diode D ₃ .
If this diode D ₃ is not present, the capacitor will be closed after the on-period of transistor TR ₃
Due to the residual charge of C ₄ , C ₅ , the transistor TR ₄ ,
If the bias voltage of TR ₅ is not lowered sufficiently, an induced sound (pop sound) caused by fluctuations in the high voltage of the receiver etc. may be generated from the audio amplifier circuit A and may come out from the audio output. Note that this diode D ₃ is not required if the capacitors C ₄ and C ₅ are not provided.

In this way, the diodes D ₁ and D ₂ serve to reduce the bias voltage of the transistor of the audio amplifier circuit and stop its operation when the power is turned off by remote control. In addition, if a capacitor is provided in the bias circuit, by connecting diode D ₃ separately from diodes D ₁ and D ₂ to form a discharge loop to a low impedance of the power supply, it will be possible to It can also prevent induced noise.

As described above, according to the present invention, one switching element and two diodes are used to control the bias voltage of the audio amplifier circuit to which the left and right audio signals are input, thereby controlling its operation. This makes it possible to prevent transient noise from occurring when the power is turned off with a simple configuration. Furthermore, since it can be used in common with a diode to prevent induced noise when the power is turned off, it can be easily realized in terms of pattern configuration.

[Brief explanation of the drawing]

FIGS. 1 and 2 are circuit diagrams of an audio amplification device in an embodiment of the present invention. a... Off pulse input terminal, b _L , b _R ... Audio signal input terminal, c _L , c _R ... Audio signal output terminal, A,
A _L , A _R ... Audio amplifier circuit, D ₁ , D ₂ , D ₃ ... Diode, TR ₁ , TR ₃ , TR ₄ ... Transistor,
R ₇ , R ₈ , R ₉ , R ₁₀ , R ₁₁ , R ₁₂ , R ₁₃ , R ₁₄ ...Resistance.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) An audio amplification circuit that stops operating when the left and right audio signals are input and the bias voltage drops below a certain voltage, which generates transient sounds when the power is turned off in the preceding circuit. , first and second bias circuits including first and second voltage dividing resistors that divide the power supply voltage and apply the bias voltage for operation to the audio amplification circuit, and a remote control signal to control each of the circuits. The circuit includes a circuit for controlling power on and off, and one switching element that is switched when a remote control signal for power cutoff control is applied, and when the switching element is switched by the remote control signal, The anode of the first diode is connected to the first voltage dividing resistor so as to force the bias voltage of the audio amplification circuit to be lower than the certain voltage, and the anode of the first diode is connected to the second voltage dividing resistor and the second voltage dividing resistor.
An audio amplifying device characterized in that the anodes of the first and second diodes are connected, and the cathodes of the first and second diodes are connected in common to the switching element. (2) The first and second bias circuits are
Further, the cathodes of the first and second diodes are connected in common, and the power supply side is the cathode between the common cathode and the power supply. ,
2. The audio amplification device according to claim 1, comprising a third diode connected to the second diode with the cathode side serving as an anode.