DE1285533B - Circuit for transmitting pulses between two logic circuits controlled by non-synchronous timers - Google Patents

Description

closed. The circuit node common to the diode and the capacitor is located on an output terminal 5.

The monostable multivibrator with four-layer diode used in circuit A corresponds to that described in French patent specification 85,969. With this circuit, all safety conditions are met thanks to the threshold element that goes through

To create a circuit of the type mentioned, 30 transformer Tr is made possible by the series connection of a non-synchronous logic circuit _{through which the transmission of pulses between diode D 2} and an energy storage capacitor C ₂
will. This task is the one proposed here
Circuit solved in that, according to the invention
Im- 25
pulse are transmitted from a monostable multivibrator to the primary winding of a transformer, and one to its secondary winding when it is applied
A direct voltage is formed in a storage capacitor from pulses at the input of the monostable multivibrator, the four-layer diode D _{4 c} ,
Sator generating diode is located, which has a pulse shape- The supply voltage + V ₀ is lower than the

circuit is connected downstream, which the DC voltage ignition voltage of the diode D _{4 c} . If negative impulses are applied to their ka- and the second timer-controlled method, they make them receive pulses and these at their simultaneous tend, and the capacitor C ₁ , which, via the recurrence with the DC voltage, is sent to the second lo- 35 stood R ₁ by the voltage + V _{0 was} charged, gical circuit emits. discharges in the through the two diodes D _{4 c} and

For reasons of functional reliability, it is advantageous D ₁ and the primary winding of the transformer Tr as a monostable multivibrator, a circuit with a series circuit formed. The primary winding of the four-transformer Tr , which is blocked in the absence of pulses, is now used by current pulses generated by the monolayer diode in a monostable arrangement known from 40 stable multivibrators (French patent 1405 245. April 1964). are transmitted, load via the diode D ₂ the

The possibility of the second logic circuit storage capacitor C ₁ . A DC voltage now appears on the for a more or less long time after the capacitor C ₂ has been clamped, the disappearance of the signal received from the first logic 45 which indicates the presence or absence of a circuit can operate, repeated pulses at the input terminal E. of some interest. For this purpose, it is advantageous to have circuit A linked presence that identifies the capacitance of the storage capacitor and carrying information to be overwritten. As a result, its discharge duration and the duration of the output terminal S is on a positive pulse-shaping circuit applied DC voltage, which can be set by means of a customary torus. Transistor module circuit formed pulse shape

Another advantageous embodiment of the tang M controls. This pulse shaping circuit receives the circuit according to the invention in that the pulses of the second non-synchronic pulse shaping circuit have a ferrite torus, the chromed. Timer H ₂ and, if it is provided with windings, on which the pulses 55, the DC voltage of the second timer and the DC voltage applied to terminal 5, are fed, pulses from the timer H ₂ . These and one of them the pulse sequences of the two-pulse are applied to the second logic circuit, whose th timer emits. Operation is regulated by the timer H ₂ .

For this purpose there is output terminal 5

Description referring to the drawing. In the 60 via a resistor R ₂ on one with the logic drawing is a simplified and partial over-circuit L ₂ connected terminal B ₁ , which also shows a diagram of a circuit of the invention connected to two logic circuits via a capacitor C ₄ with the secondary circuit The development of the transformer Tr and the storage unit is shown, capacitor C _{2 is connected to a} common circuit node. The circuit 65 designated in the drawing with A is connected. The circuit R ₂ -C ^ secures at the same time has an input terminal E, to the negative Im- the decoupling and a relatively constant power pulse are applied, which is controlled _{by a time source of the voltage source through the capacitor C 2} transmitter H ₁ logic circuit L ₁ with Fer- is formed. The pulse shaping circuit M is with the

logic circuit L ₂ connected via a terminal B ₂ . These two terminals B ₁ and B ₂ are connected, for example, to L ₂ at the two ends of a winding of one of the ferrite ring cores forming this circuit.

The pulse shaping circuit M is formed from a torus transistor module circuit of a known type, the use of which is very common in circuits having ferrite ring cores. The transistor ensures complete switching of the toroidal cores. The pulse shaping circuit is not described in detail. It has a ferrite ring core with four windings 10, 11, 12 and 13. The winding 10 is connected on the one hand to the base of an npn transistor Q and on the other hand to the emitter of this transistor via a protective inductance L against interference currents. The connection point of the winding 10 with this inductance L is connected to a common point P of the circuit A.

The collector of the transistor Q is connected to one end of the winding 11, the other end of which is connected via a resistor R ₃ to the terminal B ₂ connected to the logic circuit L ₂ . The task of the resistor R ₃ is to limit the collector-emitter current to a value that matches the characteristics of the transistor Q.

The operation of the pulse shaping circuit M is controlled by the DC voltage applied to it from the circuit A. The presence of this direct voltage, which _{characterizes the information to be transmitted to the logic circuit L 2} , controls the delivery of pulses from the timer H ₂ to this logic circuit L ₂ . The "pulse sequences of the timer so delivered to the logic circuit L ₂ transmit the information contained in the signal supplied by the circuit .4 to the clock of their timer H _2.

The circuit according to the invention thus enables a _{signal emanating from the first logic circuit L 1 to be} transmitted to a second logic circuit L ₂ , L ₁ and L ₂ not being synchronized with one another. This transmission takes place by converting the _{pulse-shaped signal emanating from the logic circuit L 1} and synchronized with the first timer TJ ₁ into a direct voltage, which is linked to the presence of pulses in the information signal and therefore to the presence of information to be transmitted. A renewed conversion of this direct voltage into a signal, which is formed from pulse sequences synchronized with the timer H ₂ , makes it possible to apply this signal to the logic circuit L ₂ , which can thus use the information contained in this signal.

The circuit according to the invention is of a simple type and in particular offers great functional reliability through the use of a monostable multivibrator with a four-layer diode. A particularly interesting one It is used for electronic circuits used in railways.

In a particular application, the circuit according to the invention enables operation to be controlled by an AC voltage network at a frequency of z. B. 50 or 400 Hz fed Luminous indicators.

It should be noted that the circuit according to the invention can likewise function as a delay circuit which delays the disappearance of the signal. For this it is sufficient to act on the value of the capacitance of the capacitor C ₂ and therefore on its discharge time to ensure the operation of the pulse shaping circuit M for a more or less long time after the disappearance of the signal _{from the first logic circuit L 1.}

Claims (4)

Patent claims: 1. A circuit for transmitting pulses from a first logic circuit clock-controlled by a first timer to a second logic circuit clock-controlled by a second timer which is not synchronized with the first timer, characterized in that the pulses emitted _{by the first logic circuit (L 1) from} A monostable multivibrator can be transmitted to the primary winding of a transformer (Tr) , on the secondary winding of which there is a diode (D) which generates _{a DC voltage in a storage capacitor (C 2} ) when pulses are applied to the input of the monostable multivibrator and which is followed by a pulse shaping circuit (M) which receives the DC voltage and the pulses controlled by the second timer (H ₂ ) and outputs them to the second logic circuit (L ₂ ) when they occur simultaneously with the DC voltage. 2. A circuit according to claim 1, characterized in that the monostable multivibrator has a four-layer diode (D _{4 c} ) blocked in the absence of pulses. 3. A circuit according to claim 1 or 2, characterized in that the capacitance of the storage capacitor (C ₂ ) and thus its discharge duration and the duration of the DC voltage applied to the pulse shaping circuit (M) can be adjusted. 4. Circuit according to one of claims 1 to 3, characterized in that the pulse shaping circuit (M) has a ferrite torus (T) which is provided with windings on which the pulses of the second timer (H ₂ ) and the DC voltage are applied and from one of which emits the pulse trains of the second timer (H ₂ ). 1 sheet of drawings