DE1174830B - Monostable multivibrator with two transistors - Google Patents

Description

Two-transistor monostable multivibrator The invention relates to a circuit arrangement for a monostable transistor multivibrator with a a delay device consisting of a charge-reversal capacitor and a discharge resistor.

With digital counting devices it is necessary between the measurement breaks a time to transfer the counted values into the display decade and the zero position of the counting decades. This break time should on the one hand because of a possible short measurement sequence time, but on the other hand it must be used for special measurement evaluations can be held for a very long time. In general, these are inserted times Formed by a monostable multivibrator for the transmission of the count values and the like, whose pulse duration should be controllable within the broadest possible limits. In tube technology the formed pulse duration is now due to the discharge between anode and grid of the other tube system lying capacitor is fed back via the grid resistor. Thereby the capacitor is caused by a negative voltage jump from the anode of the other tube system while blocking the system to which the condenser is connected leads, charged. The blocked grid line is very high resistance, and the Values for the discharge resistance can also become high-resistance. The conditions for a large pulse duration are thus met. To achieve a short pulse duration the discharge resistor can be designed with a relatively low resistance.

With circuits that are equipped with transistors, result however, there are certain difficulties. The achievable control range is namely thereby severely restricted that the discharge resistance for the charge reversal capacitor the base current of the transistor must lead. The discharge resistance may be one for the conductive initial state of the transistor therefore do not exceed a certain value.

The invention should now address these difficulties for transistor-equipped monostable multivibrators with a charge transfer capacitor and a discharge resistor existing time constant member -be eliminated, so that a within wide limits adjustable discharge resistance can be arranged. The invention consists in that parallel to the recharging capacitor between the collector of the locked in the idle state Transistor and the base of the second transistor arranged an additional resistor is. The inventive arrangement is achieved that over the additional Resistance an additional base current can flow, so that in the idle state of the circuit the transistor conducts safely.

It is now known in monostable circuits equipped with transistors to arrange a compensation capacitor to which a resistor is connected in parallel is. However, this resistance has no influence on that which is arranged in the circuit time-determining RC element, and the resistance of the RC element is in its size limited by the transistor reverse current flowing through it. Such a circuit so does not have the advantage of the arrangement according to the invention.

Further advantageous details of the invention are based on one Basic circuit diagram explained in more detail. For the formation of a long pulse duration the discharge resistance R1, R2 by setting the adjustable resistance accordingly R1 made large, R2 is connected in series with R1; but then can for the senior State of the transistor T1, the base current required for this is no longer applied will. However, this transistor T1 becomes due to the switchover initiated from the outside locked, the discharge resistance can be large. The base current to be applied in the idle state of the circuit, d. H. when transistor T1 is conductive, can be large despite Base resistance are applied according to the invention in that the capacitor Cl an additional resistor R3 is connected in parallel, so that an additional Base current from the base of transistor T1 through resistor R2 and the collector resistor of the transistor T2 flows. When the collector potential of transistor T2 becomes zero, the circuit flips over and this additional power fails. The one with this The resulting long pulse duration achieved in the circuit is greater than without this measure, based on the same minimum base current for maintaining the conductive state with the same value of the capacitor C1. The value of the necessary for the small pulse duration Discharge resistance hangs only on the size of the maximum allowable overdriven base current.

In a further embodiment of the invention, a diode 4, which is connected to ground from the base of the transistor T1, can absorb an excess current with a suitable forward voltage.

Claims (3)

Claims: 1. Monostable multivibrator with two transistors, characterized in that an additional resistor (R3) is arranged parallel to the recharging capacitor (Ci) between the collector of the transistor (2) , which is blocked in the idle state, and the base of the second transistor (1). 2. Circuit arrangement according to claim 1, characterized in that from the base of the second transistor (1) a diode (4) finite g8eigneter forward voltage is placed to ground: 3. Circuit arrangement according to claim 1 or 2, characterized in that the discharge resistor is off two resistors (R1, R.) connected in series, one resistor (R1) being designed to be controllable. Considered publications: »Electronics«, 1961, no. 3, p. 75.