DE1170997B - Circuit arrangement for a pulse transmitter - Google Patents

Description

Circuit arrangement for a pulse transmission device The exchange of information takes place between several widely spaced systems via a common connection path, z. B. Line traffic in remote control technology, in the form of pulse telegrams, see above it is due to the many receiving elements lying in parallel on one line expedient, the same as high-resistance as possible, the transmission links, however, as low-resistance as possible train so that the transmission pulses due to the number of receiving elements only small to be influenced. In order to avoid that transmitting members are at rest with their Small internal resistances dampen the line, they must be designed with high resistance be. So it is known that this attenuation with the help of a frequency selection method can be avoided if a frequency is provided for each transmission and reception direction is, whereby the individual transmitting and receiving elements from each other by means of crossovers be decoupled. It is also known to have the transmitting and receiving members through Arrange a switch to connect to the common connecting line, such as this is the case with systems equipped with relays.

In these systems, transistors are used to make smaller devices and to obtain shorter transmission times, the well-known methods of and shutdown only partially useful, since filters are extensive and expensive and Contacts in an electronic system, at most, in information input and output available.

The object of the invention is to remedy the deficiencies and weaknesses mentioned avoid.

This is achieved according to the invention in that in a circuit arrangement for a pulse transmission device, transistors are arranged so that the transmission device a small internal resistance in the working state and a large internal resistance in the rest state having. Due to the galvanic connection between switching and control circuit in the transistor, one of the circuits previously constructed with contacts is equivalent Switching not possible.

In contrast to the usual arrangement of a switch between The transmission device and transmission line are used in the arrangement according to the invention the transmission line parallel to one of two collector-emitter lines connected in series two transistors switched. Because both transistors are blocked in the idle state the transmission line is only blocked by the large resistance of the Transistors loaded. In the working state, the two transistors are alternating opened and locked, so that the internal resistance of the circuit arrangement of the Resistance of the conductive collector-emitter path and the internal resistance of the supply voltage source is formed.

Further features and details of the invention are to be explained in more detail below with reference to the drawing in an exemplary embodiment. It shows Ab b. 1 shows the basic circuit diagram of the invention, A b b. 2 one on the principle according to A b b. 1 based circuit, only the components essential for the function of the circuit are shown.

As from A b b. 1 can be seen, preferably two pnp transistors T 1 and T 2 will find application that can be controlled via the inputs E and EI. 2 In the idle state is located at the inputs EI and E2, a positive voltage, by means of which the transistors T are disabled 1 and T 2. A negative voltage at the inputs 4E1 and E2 opens the transistors T 1 and T 2. In the working state, the alternately controlled inputs EI and E2 open one of the two transistors while the other is blocked.

In the case of the principle according to Ab b. 1 based circuit arrangement, as Ab b. 2 shows that the inputs EI and E2 are combined to form an input E by means of resistors and a transistor of known type T3 in such a way that the input EI is connected to the collector and the input E2 is connected to the emitter of the transistor T 3 . The impulses intended for amplification and transmission are given to input E. In mutual opening and shutting of the transistor T3, whose collector and emitter are each connected via a resistor to the negative or zero potential of the supply voltage source, either the transistor T 1 and transistor T 2 is opened or gesperrL This is the connection point A of two transistors T1 and T2 alternately at zero or negative potential, whereby the capacitor C , which is arranged between the transmitter and the transmission line L when a line transformer V is used , is charged and discharged. By suitable dimensioning of the capacitor C is obtained on the line side of the transformer V is the differentiation of the pulses from the connection point A. By means of an arranged between the point A and the condenser C resistance, the current in the charge and discharge of the capacitor C to a for The transistors used are limited to the maximum permissible value. At the end of the transmission of the pulse series, diodes D 1 and D 2 arranged in the circuit are connected to zero potential by means of any switching element S that has switch properties, whereby the transistors T1 and T3 and thus also the transistor T2 are blocked.

Claims (2)

1. A circuit arrangement for a pulse transmission means, characterized in that, in order to keep the internal resistance of the transmitting device small during the transmission of pulses and Größ in the idle state, a transmission line (L) which is used as a link to the are received, DEVICES use, parallel to one of two series collector-emitter paths of two preferably pnp transistors (T1, T2) is connected and that in the idle state a positive voltage at the inputs (E 1, E 2) blocks the transistors (T1, T2) and that in the working state with alternating opening or blocking of a transistor of known type (T3), whose collector and emitter each have a resistor with the minus or. Zero potential of the supply voltage source are connected, via the inputs (E1, E2) one of the transistors (T1, T2) is opened or blocked. 2. Circuit arrangement according to claim 1, characterized in that between the connection point (A) of the transistors (T1, T2) and the transformer (ü) a known capacitor (C) is arranged, which is dimensioned so that through the same one Differentiation of the pulses occurring at the connection point (A) takes place, so that the last pulse of the pulse telegram has the opposite polarity to that of the initial pulse, whereby the capacitor (C) is discharged when the transmitter is idle.