DE4106267A1 - Car radio with bridge output stage - has bridge branch, in parallel with temp. sensor, controllable by waveband switch - Google Patents

Abstract

In dependence on the temp. of a bridge output stage of a car radio one of the bridge branches can be controlled to reach a saturation state. The bridge branch (2) in parallel with the temp. sensor (14) is also controllable by the waveband switch (28) in its position "AM reception region" for controlled reach of the saturation state. The bridge output stage is formed by two push-pull amplifiers (1, 2) whose outputs (3, 4) form the output of the bridge end stage, at which is coupled a loudspeaker (6), or a loudspeaker group via a bipolar capacitor (5). The push-pull amplifiers may be in the form of a complementary, or quasi-complementary end stage. ADVANTAGE - Causes no interference in medium wave range.

Description

The property right concerns a new car radio with a bridge end stage, in which depending on the temperature of the final stage one the bridge branches can be controlled in a saturation state.

With such car radios, the operation of the power amplifier is reduced ter output power continued when at full power an inadmissibly high case temperature arises. The result caused switching operations in the final stage were as the cause detected for interference in medium wave reception.

The invention that helps avoid this disorder is through characterized the features of claim 1.

The circuit is explained in more detail using a block diagram.

The two push-pull amplifiers 1 , 2 form a bridge output stage with A / B operation. The outputs 3 , 4 of the push-pull amplifier 1 , 2 form the output of the bridge output stage, to which a loudspeaker 6 or a loudspeaker group is connected via a bipolar capacitor 5 .

The push-pull amplifier 1 , 2 can be constructed in a manner known per se as a complementary or quasi-complementary output stage. Since such circuits are well known, only the two end transistors 7 , 8 and 9 , 10 are indicated in the figure. The audio signal to be reproduced is fed to the push-pull amplifier 1 via a non-inverting input 11 . The output signal of the push-pull amplifier 1 is fed via a voltage divider 12 , 13 to the inverting input of the push-pull amplifier 2 . With appropriate dimensioning of the voltage divider 12 , 13 he give at the outputs 3 , 4 of the push-pull amplifier 1 , 2 against phase signals with the same amplitude. The phase-correct signal can also be fed into the push-pull amplifier 2 in a manner known per se via negative feedback networks of the push-pull amplifier 1 , 2 . Between the outputs 3 , 4 is therefore a signal with double amplitude, which is supplied to the loudspeaker 6 via the bipolar capacitor C.

A temperature sensor 14 is in heat-conducting connection with the heat sink for the push-pull amplifier 1 , 2 . An NTC or PTC resistor through which a predetermined current flows is suitable, for example, as a temperature sensor. The voltage drop at the temperature sensor is fed to a Schmitt trigger 15 , the threshold values of which are set such that when the maximum permissible temperature is reached, a switch 16 which is closed at the output of the Schmitt trigger 15 becomes conductive. The switch 16 connects the input 17 of the push-pull amplifier 2 via a diode 18 and a resistor 19 with the positive pole 25 of the operating voltage source. As a result, the transistor 10 in the push-pull amplifier 2 is controlled into the saturation state independently of the size of the signal supplied via the resistor 12 , 13 . An output 4 pa connected in parallel diode 26 enables the current to flow in the opposite direction.

Due to the resulting connection of the output 4 of the push-pull amplifier 2 to ground, the output stage now works like a simple stage; the output signal supplied to the loudspeaker 6 now has more than half the amplitude, so that only a quarter of the power is still output. This also reduces the power loss to a quarter with essentially the same efficiency.

The entire arrangement including the heat sink is laid out in such a way that at a quarter of the total output cooling takes place below the maximum permissible temperature. So that the power switching described does not take place too often, however, the switch 16 is only opened again at a temperature which is clearly below the maximum permissible temperature. For this purpose, the Schmitt trigger 15 is provided with a corresponding hysteresis.

A switch 27 is located parallel to the switch 16 , between the switching points 20 and 25 . This switch is controlled by the waveband switch 28 , in such a way that it is kept closed when an AM waveband is switched on.

The switch 16 can serve as the switch 27 when the control signals are decoupled from one another.

Claims (1)

Car radio with a bridge output stage, in which one of the bridge branches can be controlled into a saturated state depending on the temperature of the output stage, characterized in that the bridge branch ( 2 ) parallel to the temperature sensor ( 14 ) also from the waveband switch ( 28 ) in its position " AM reception areas "in the saturation state is controllable.