DE1130853B - Circuit arrangement for switching on a relay in the output circuit of a flip-flop stage - Google Patents

Description

Circuit arrangement for switching on a relay in the output circuit of a flip-flop stage The invention relates to a circuit arrangement for switching on a relay in the output circuit of a flip-flop stage. It is known to design the working resistor R in the output circuit itself as a relay (FIG. 1). However, this circuit arrangement has the disadvantage that when the transistor Tr 2 is switched off in the relay R, a high induction voltage arises, which on the one hand endangers the blocked transistor Tr2 and on the other hand blocks the open transistor Tr 1 again via the partial resistors R 1 and R 2, so that the Operation of the flip-flop stage is disturbed. There is also the disadvantage that in the non-conductive state of the transistor Tr 2 the relay is still traversed by a current which, due to the size of the resistors R, R 1, R 2, of the base current of the conductive transistor Tr 1 and the residual collector current of the blocked transistor Tr 2 is given, so that the relay can no longer safely drop out. The disadvantages caused by the induction voltage can be avoided if a directional conductor is connected in parallel with the relay in such a way that the induction voltage is short-circuited (Fig. 2). This probably protects the transistor Tr 2 from overload or destruction, but the relay gets a substantial drop-out delay.

The invention has set itself the task of a relay in the output circuit to switch on a flip-flop stage with transistors, so that when it is switched off of the relay, the transistor is protected from overload without causing a Drop-out delay for the relay occurs. When the relay is switched off it should also be ensured that the control current for the in this state conductive transistor of the flip-flop stage no longer, as in the known arrangements, is passed through the relay. The circuit arrangement according to the invention achieved This is due to the fact that parallel to the relay a series connection of a current directional and voltage-dependent element and a resistor, the current directional and the voltage-dependent element is connected to the output of one transistor, and that the coupling elements for the control circuit of the other transistor on the Connection point between current direction and voltage dependent element and resistor are turned on.

The operation of the circuit arrangement according to the invention is will now be explained in more detail using an exemplary embodiment according to FIG. 3.

If the transistor Tr 2 becomes conductive once through a pulse via the input St, then the relay and via the Zener diode in the forward direction also the resistor R 3 in the working circuit of the transistor Tr 2. The transistor Tr 1 (pnp type) is not conductive, since it no longer receives a negative base voltage via the divider resistors R 1 and R 2. As a result, the transistor Tr2 (pnp type) receives its base voltage via the resistors R 6 and R 5 and remains conductive. If the flip-flop stage is now overturned by another pulse from the control line St, the transistor Tr2 is blocked and the induction voltage generated by the shutdown is found as long as it is greater than the Zener voltage of the Zener diode G 1, via this and the resistor R. 3 a compensating circuit and is thus kept from the transistor Tr 2 until the Zener voltage is reached. By suitably dimensioning the resistor R 3, it can be achieved that the relay does not receive any noticeable drop-out delay. Once the induction voltage has decayed, the transistor Tr 1 becomes conductive and also remains conductive, since the base circuit receives its negative bias voltage via the resistors R 3 and R 2. Since the voltage drop across the resistor R 3 is smaller than the Zener voltage of the Zener diode by suitable dimensioning of the resistors R 3 and R 2, it is also blocked when the transistor Tr 2 is blocked and separates the collector circuit C of the transistor Tr 2 from the divider circuit of the resistors R3 , R 2 and R 1 from, so that the relay is only traversed by the collector residual current of the transistor Tr 2 and safely drops. In a manner analogous to that shown by the circuit arrangement according to the invention, the other output of the flip-flop stage can also operate on a relay.

Claims (5)

PATENT CLAIMS: 1. Circuit arrangement for switching on a relay in the output circuit of a flip-flop stage, characterized in that parallel to the relay is a series circuit of a current-direction and voltage-dependent element (Gl and a resistor (R 3), the current direction - And voltage-dependent element is connected to the output (C) of one transistor (Tr2), and that the coupling elements (C 2, R 2) for the control circuit (B) of the other transistor (Trl) at the connection point (V) between the current direction - and voltage-dependent element and resistor are switched on. 2. Circuit arrangement according to claim 1, characterized characterized in that as a current direction and voltage-dependent member preferably a zener diode is used. 3. Circuit arrangement according to claim 1 and 2, characterized characterized in that the Zener diode is turned on so that it is always in Pass band works when the upstream transistor (Tr2) is also conductive is. 4. Circuit arrangement according to claim 1 and 2, characterized in that the Zener voltage of the Zener diode is much smaller than that when switching off the Relay resulting induction voltage. 5. Circuit arrangement according to claim 1, 2 and 4, characterized in that the divider resistances (R 3, R 2 and R 1) are so dimensioned are that the voltage drop across the resistor (R3) when the transistor (Tr1) is open and when the transistor (Tr2) is blocked, it is smaller than the Zener voltage of the one used Zener diode. Documents considered: German Auslegeschrift No. 1071133.