JPS6128407Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention operates using a storage battery as a power source, has means for applying an external power source other than the storage battery as an operating power source, and operates using the storage battery when the external power source is not applied, and The present invention relates to a power amplifying circuit, such as a cassette tape recorder with a radio, which operates using the external power source when an external power source is applied.

When the power amplification circuit is operated using a storage battery as a power source, it cannot be operated with a large output power due to the lifespan of the storage battery. However, when operating with an external power source, the consumption of the storage battery does not matter, and there is no problem in operating with high output power.

The present invention has been conceived in view of the above, and has an application means that operates using a storage battery as a power source and applies an external power source other than the storage battery as an operating power source,
and operates with a storage battery when the external power supply is not applied,
An object of the present invention is to provide a power amplifier circuit that operates using the external power source as a power source when the external power source is applied, and is capable of increasing output power when the external power source is used as the power source. It is something to do.

The purpose of this invention is to provide a changeover switch that switches in conjunction with the application of power by a means for applying an external power source other than a storage battery.
Transformerless circuit (hereinafter, balanced transformerless circuit is referred to as BTL in this specification)
This is accomplished by switching to a connection (denoted as a circuit).

The present invention will be explained below with reference to examples.

The figure is a block diagram of an embodiment of the present invention, and shows an example of stereo signal reproduction.

In the figure, numerals 1, 2, 3 and 4 are, for example, power amplification circuits of the above-mentioned cassette tape recorder with radio, which are connected to the power supply line L, respectively.
This power line L is connected to a movable contact of a power changeover switch _S2 .

B is, for example, a storage battery built in a cassette tape recorder with a radio, and is connected to one fixed contact of the power changeover switch _S2 .

J is a jack into which a plug from a commercial AC power source is inserted, and when the plug is inserted, the jack J switches the power changeover switch _S2 from the state shown in the figure to the opposite side. T is the jack J
A power transformer D connected to the power transformer S is a rectifier circuit connected to the power transformer S, and its positive terminal is connected to the other fixed contact of the power changeover switch _S2 and the coil of the relay R.

Note that C is a smoothing capacitor connected to the power supply line L.

S _1-1 , S _1-2 , S _1-3 and S _1-4 are the relays R
The illustrated state shows a state in which the relay R is not energized.

5 and 6 are phase inversion circuits, and 7 and 8 are loads.

Next, to explain the operation, if the plug from the commercial AC power source is not inserted into the jack J, that is, if the device is operated by the storage battery B, the power supply selector switch _S2 and the selector switch _S1- of the relay R are switched. ₁ to _S1-4 are in the illustrated states, the power line L is connected to the storage battery B via the power changeover switch _S2 . Therefore, the power amplifier circuit 2 is disconnected from the input signal applied to the left input signal terminal L CH IN and from the load 7, and the power amplifier circuit 4 is disconnected from the input signal applied to the right input signal terminal R CH IN. It is also disconnected from the signal and from the load 8.

In the above state, the cassette tape recorder with radio, that is, the power amplifier circuits 1 and 3 in the figure, operate using the storage battery B as a power source, and the left channel input signal input to the input terminal L CH IN is power amplified. The right channel input signal input to the input terminal R CH IN is amplified by the power amplifier circuit 3, and the amplified output is led to the load 7. is guided. Note that power is also supplied to the power amplifier circuits 2 and 4, but the current at this time is an idle current and only a very small current flows, so power consumption is low.

Next, when the plug is inserted into the jack J, that is, when operating with an external power supply, the power selector switch _S2 switches from the state shown in the figure to the power line L.
is connected to the rectifier circuit D via the power supply changeover switch _S2 . On the other hand, since the AC voltage from the jack J is converted to DC via the power transformer T and the rectifier circuit D, power is supplied to the power amplifier circuits 1-4. On the other hand, since plugs S _1-1 to _{S 1-4} are switched by energizing relay R, the left channel input signal is transmitted to power amplifier circuit 1 and phase inversion circuit 5.
The output terminal of the power amplifier circuit 2 is connected to the load 7.
Form a BTL circuit.

Similarly, the right channel input signal passes through the power amplifier circuit 3 and the phase inversion circuit 6 to the power amplifier circuit 4.
The output terminal of the power amplifier circuit 4 is connected to a load 8 to form a BTL circuit.

Therefore, in the case of stereo playback, four power amplifier circuits 1, 2, 3, and 4 are used, and when operating with a storage battery as a power source, only two power amplifier circuits 1 and 3 are used, and the output power is To reduce power consumption by not emitting too much power, and to prevent battery consumption, two circuits, power amplifier circuits 1 and 2 and power amplifier circuits 3 and 4, are used when operating with an external AC power supply or an external DC power supply as a power source. of
Since it is a BTL connection, the output power can be increased, and in this case there is no need to worry about battery consumption.

The above has been explained using the example of a cassette tape with a radio, but it can also be applied to electronic equipment equipped with a power amplification circuit that can be operated by switching between operation using a storage battery as a power source and operation using an external power source other than a storage battery as a power source. can.

As explained above, according to the present invention, the current when the power source is a storage battery has low power consumption, and when an external power source other than a storage battery is used, high output power can be obtained, and a plug or jack for supplying external power can be inserted. There is no need for any other special switching operation since the switching is linked to the switching operation.

[Brief explanation of the drawing]

The drawing is a block diagram of one embodiment of the present invention. 1, 2, 3 and 4...power amplifier circuit, 5 and 6...phase inversion circuit, 7 and 8...load, S
_1-1 , S _1-2 , S _1-3 and S _1-4 ... changeover switch.

Claims (1)

[Scope of utility model registration request] a storage battery, an external power source other than the storage battery, a power supply changeover switch that switches in conjunction with the application operation of the external power source, which operates using the storage battery as a power source when the external power source is not applied, and when the external power source is applied. In the circuit including a first power amplification circuit that operates using the external power source as a power source, a changeover switch that switches in conjunction with the application operation of the external power source is provided, and the changeover switch causes the first power amplification circuit to operate simultaneously with the application of the external power source. a second power amplification circuit forming a balanced transformer circuit with the first power amplification circuit, and the selector switch is configured to disconnect the second power amplification circuit from the signal path when the external power supply is not applied. A power amplifier circuit characterized by: