DE2352491A1 - Protection cct. for amplifier class-B output stage - has monostable transistor discharging capacitor to operate relay that unloads output stage - Google Patents

Abstract

The protection circuit forms part of a system that delays the connection of a loudspeaker to the amplifier when the equipment is switched on, thereby avoiding the loud click. The delay capcitor begins charging when the supply is switched on, and after a given time turns on the transistor that operates the relay. The relay connects the loudspeaker to the amplifier class-B output stage. The amplifier is monitored for overloads and an overload signal is produced which operates a monostable flip-flop. One of the monostable flip-flop transistors turns on and short circuits the delay capacitor, thereby turning off the relay transistor and allowing the relay to open and disconnect the loudspeaker from the amplifier.

Description

Licentia Patent-Verwaltungs GmbH 6 Frankfurt / Main 70, Theodor-Stern-Kai 1

Hanover, 10.10.1973 PT-Tö / gn H 73/79

Fuse to protect the transistors of those working in B mode The output stage of an amplifier from overload

Addition to patent application P 21 40 4-31.9

In the main application, a device with a known facility provided that the loudspeaker is delayed through a relay when the device is switched on is switched on that a capacitor is charged by the operating voltage via a resistor and the capacitor voltage controls a transistor that feeds the relay. The purpose of such a device is to prevent a cracking sound when the Device to prevent.

The invention according to the main application is that this Additional circuit for delayed switching on of the amplifier is used as a fuse in such a way that the trigger signal for the fuse that occurs in the event of an overload short-circuits the capacitor of the delay circuit via a transistor, so that the loudspeaker is switched off will. . ·.

Switching off the loudspeaker reduces the overload the output stage because the alternating current in the output stage mainly comes from the load and hardly from the output transistors depends. It switches after a predetermined time

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Relay the loudspeaker on again if the short circuit and thus the trigger signal has ceased to exist in the meantime.

According to claim 2 of the main application is an additional capacitor provided at the input of the short-circuiting transistor, which is charged by the trigger signal. This additional Capacitor keeps the transistor conductive until the capacitor mentioned above is completely discharged. The short-circuiting one The transistor remains energized for a correspondingly longer time and thus the transistor feeding the relay is de-energized and therefore the loudspeaker is switched off.

However, it has been shown that this fuse does not respond quickly enough, so that the end transistors under. Circumstances can be destroyed. The invention is therefore based on the object of achieving faster response of the fuse.

The invention consists in securing according to the main application in that the transistor short-circuiting the capacitor is in the unstable state of a monostable controlled by the trigger signal Flip-flop 'is permeable transistor.

The mentioned additional capacitor (denoted by 13 in the main application) falls in the fuse according to the invention because its task is taken over by the time constant of the monostable multivibrator. The tipping time must be so long until the capacitor, which co-determines the time constant, is complete is discharged. The time during which the relay is de-energized is determined by the time that the capacitor stays with the associated resistor required for recharging.

The drawing shows an embodiment of the invention. The tripping signal for the fuse is taken from the framed part 1. It can be generated in any way, e.g. in a known manner by having one located in the final stage

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Collector or emitter resistance taken a voltage will. Another possibility is to use a DC voltage obtained from the alternating current generator and a voltage from to switch the DC voltage obtained from the collector AC voltage against each other. In the event of a short circuit prevails one voltage the other, creating a trip signal. '

The circuit part 2 contains the already mentioned delay circuit for the delayed activation of the loudspeaker after switching on the device. Part 2 is when applied the invention additionally as a backup: used. Without When used as a backup, Part 2 works as follows. A transistor 4 is provided which is blocked in the idle state is. The relay 5 'which is connected to the contact 6 located in front of the loudspeaker 7 is located in its collector circuit is working. As soon as the device is switched on and an operating voltage occurs between the plus and minus terminals, <the capacitor 11 is slowly charged via the resistor 10, When a voltage threshold given by the voltage divider 8, 9 is exceeded, the transistor 4 becomes conductive and the relay 5 responds, whereby the contact 6 is closed.

The circuit part 2 is also used as a fuse when the invention is applied. The trigger signal becomes this Purpose led via a possibly required diode 12 to the base of the transistor 15 of the monostable multivibrator 3. in the stable state of the monostable multivibrator 3 is' the transistor 23 in the conductive state, because at its base across the resistor 19 and the diode 22 is positive potential, while the transistor 15 is blocked because at his Base on the connected to the collector of the conductive transistor 23 resistor 20 negative potential present is. The collector of transistor 15 is across two resistors 16, 17 and the collector of transistor 23 via one

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Resistor 21 connected to the positive terminal of the operating voltage.

Due to the trigger signal that occurs in the event of an overload, the monostable multivibrator 3 switches to its unstable state, i.e. the Previously blocked transistor 15 becomes conductive, while transistor 23 is now blocked. Me duration of the unstable state depends on the size of the capacitor 18 and the resistor 19. Because the transistor 15 is blocked from is brought into the conductive state, a voltage jump occurs at its collector, which occurs via the capacitor 18 reaches the base of transistor 23 and blocks it. The transistor 23 becomes conductive again when the voltage jump has subsided is, with which the unstable state is ended.

According to the invention, the transistor 15 which is conductive in the unstable state of the monostable multivibrator 3 closes the capacitor 11 short so that the Transisoi? 4- is blocked. The relay 5 drops out and the contact 6 is opened. This will make the Connection of the amplifier to the loudspeaker 7 interrupted. Once the unstable state has ended and transistor 15 is blocked again, the capacitor 11 is charged and the transistor 4-is energized. The relay 5 responds and closes the Contact 6. Resistor 24 · is to limit the control current of the transistor 4 · provided. The period of time during which the relay has dropped out is dimensioned so that meanwhile the capacitor 18 has charged via the resistor 19. This means that the monostable flip-flop 3 is ready for tilting again occurring trigger signal prepared.

According to a further development of the invention, a diode 25 is provided, their anode with that facing away from the reference potential The end of the capacitor 11 and the cathode of which is connected via the resistor 17 to the collector of the transistor I5. In the Blocked diode 25 causes the capacitor 11 only charges via the resistor 10 and not additionally via the resistor 16

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Capacitor 11 in the event of a short circuit, so when the transistor 15 is conductive, the diode 25 is in the forward direction, so that the capacitor 11 can discharge through the transistor 15. The in comparison to the collector resistance 16 relative low resistance 17 causes a limitation of the discharge current of the capacitor 11 to protect the transistor

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Claims (2)

- 6 - H 73/79 claims 1. Fuse to protect the transistors of the output stage of an amplifier working in B mode from overload when the load resistance at the output for the loudspeaker is too low in a device in which the loudspeaker is switched on delayed via a relay when the device is switched on, in that from the operating voltage a capacitor is charged via a resistor and the capacitor voltage controls a transistor that feeds the relay, this circuit being used as a backup for the delayed switching on of the amplifier in such a way that in the event of an overload by a transistor made permeable by the trigger signal The capacitor of the delay circuit is short-circuited and thereby the loudspeaker is switched off, according to patent application P 21 431.9 » characterized in that the transistor short-circuiting the capacitor (11) is permeable in the unstable state of a monostable multivibrator (3) controlled by the trigger signal Transistor (15) is. 2. Fuse according to claim 1, characterized in that the collector of the capacitor (11) short-circuiting transistor (15) via a reverse-biased diode (25) is connected to the end of the capacitor (11) facing away from the reference potential. 509818/0510