DE1089007B - Circuit arrangement for teletype subscriber stations with indirect control of the receiving magnet by double current - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for telex subscriber stations for indirect control of a polarized receiving magnet arranged in a local circuit Dual stream characters sent over the subscriber line.

The receiving magnet of a teletypewriter is a force magnet that controls the armature has to do a certain amount of work for triggering and scanning and therefore a certain inductance possesses and also requires a certain excitation current. However, both sizes are not arbitrary can be determined, but the inductance should be as small as possible, around which the transient and decay processes to keep the determining time constant small, and the current should also be small in order to reduce the induction effects to be restricted to the neighboring veins and to enable a large range.

A well-known, favorable compromise of these demands consists in that a telegraph relay is switched on in the line, which with its armature indirectly controls the receiving magnet arranged in the local circuit. Since the telegraph relay for Actuation of its contact does not have to do as much work as the receiving magnet neither is it such a large inductance and also not such a large line current as this one. Such a telegraph relay but leads to an additional distortion of the incoming characters, the larger values assumes if the relay is not regularly serviced at certain time intervals. This maintenance with the numerous and widely scattered subscriber stations, an undesirable difficulty is posed.

The invention is now based on the object of providing a circuit for the indirect control of a receiving magnet to create by double current, the line-wise to avoid the disadvantages outlined above does not represent an inductive, but only a purely ohmic load. According to the invention, this The object is achieved in that two oppositely directed fluxes generating windings of the " polarized receiving magnets are each arranged in a separate collector circuit of two transistors and that the two transistors come from a local current source an emitter bias and a resistor terminating the subscriber line receive a control voltage dependent on the direction of the line current, each of which is one of the two Turns on transistors and blocks the other.

In this way, according to the invention, it is possible to only load the subscriber line ohmically. In addition, the line current can be kept as small as desired by the resistor terminating the subscriber line, since circuit arrangement in the case of indirect control
for telex subscriber stations

with indirect control
of the receiving magnet by double current

Applicant:

Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Dipl.-Ing. Fritz Butzke, Buchenhain near Baierbrunn

(Kr. Wolfratshausen),
has been named as the inventor

of the receiving magnet no longer the size of the line current, but only the one at which the Subscriber line terminating resistance voltage occurring is exploited. Another The advantage of a subscriber circuit constructed according to the invention is that it can be used with all common Subscriber lines can be easily adapted as it is not tied to any particular current strength.

It has recently become known for the indirect control of a receiving magnet by means of a single current to use a transistor circuit, but on the one hand this known circuit is only for single current useful and on the other hand has the disadvantage that it uses the subscriber line Teletype steps are not transmitted to the receiving magnet true to type, but a pause in the current on the subscriber line in a current flow through the receiving magnet and a current flow translated into a power break for the receiving magnet on the subscriber line.

Details of the invention can be found in the exemplary embodiment described with reference to the drawing emerged. In the drawing shows

1 shows a circuit constructed according to the invention with two transistors of different types and the telegraph power source as a local power source,

2 shows a circuit constructed according to the invention with two transistors of the same type and one local power source independent of the telegraph power source.

In Fig. 1 is a subscriber circuit constructed according to the invention for controlling a

009 607/148

Receiving magnets represented by double current. It consists of the transmit circuit connected to terminals al, & 2 and the receive circuit connected to terminals al, bl. The transmission circuit comprises the transmission contact SK of the teletypewriter and a two-sided telegraph battery + TB and -TB in order to send the telegraph as a separator or character stream step.

According to the invention, the receiving circuit has a resistor WL which only loads the subscriber line ohmically and whose size can be regulated in order to ensure good adaptation to all known line currents. According to the invention, the receiving magnet EM is switched on with its two windings I and II each in a collector circuit of a transistor TrI or Tr 2 and receives flows through them in opposite directions. The two transistors in this example are of different types, namely the transistor Tr ί is of the npn type, while the transistor Tr2 is of the ao pnp type, and receive an emitter bias voltage from the telegraph current source + TB and - TB , which is smaller than the Telegraph voltage, but greater than that occurring on the line, e.g. B. are interference voltages caused by induction effects.

In this example, in order to be able to explain the mode of operation of the circuit better, the transmitting circuit and the receiving circuit at the subscriber himself are connected to one another by a line L indicated by dashed lines.

The mode of operation of the circuit is as follows: In the idle state, the transmitting contact SK is in the dashed character position Z, and a character current (-TB, SK, L, WL, MTB) flows through the resistor WL. Compared to the center tap ΜΓ5 of the telegraph current source TB , the transistor TrI receives a positive bias voltage U _{v t} U _{v 2} via the voltage divider Rl, R2 and the transistor Tr 2 receives a negative bias voltage U v t U v 2 via the voltage divider R3, i? 4. But since the S expensive voltage caused by the symbol current at the resistor WL is even more negative than the bias voltage U _{V2 applied} to the emitter £ 2 of the transistor Tr 2 , an emitter-base current {MTB, R3, E2 flows through the transistor Tr2 , B2 RL, L, SK, -TB), which keeps the transistor Tr 2 open. Accordingly, also flows, an emitter-collector current (MTB, R3, E2, K2, EMU, -T), which energizes the magnet receiving EM sign each other.

If the transmitting contact SK is now reversed into the separating layer T as a result of the transition from the idle to the operating state or due to the start of an isolating current step after a previous character current step, the current direction on the line L also changes, and an isolating current flows through the resistor WL ( + TB, SK, L, WL, MTB). The control voltage appearing at the resistor WL now reverses its direction. As a result, the emitter El of the transistor Tr 1 is now more negative than its base B1, and an emitter-base current flows through the transistor Tr 1 (+ TB, SK, L, RL, B1, El, R2, MTB), which the Transistor TrI holds open and an emitter-collector current flow {+ TB, EMI, Kl, El, R2, MTB) pulls. The receiving magnet EM is excited via the winding I on the isolating side. In the case of the transistor Tr 2 , after the control voltage occurring at the resistor WL has been reversed, the emitter E2 is more negative than its base, and the transistor Tr 2 is blocked.

In the event of a renewed transition from the separating current to the character current state, be it through the transition from the operating state to the idle state or the change of a character current step , the control voltage occurring at the resistor WL is directed again as it has already been described for a character current flow, and it is again the Transistor Tr2 conductive and transistor TrI blocked.

In the context of the invention, instead of the two transistors of different types, namely the one pnp and the other npn, transistors of the same type, for example both of the pnp type or both of the npn type, only then have their own for generating the emitter bias voltages To use the telegraphing current source TB and local current sources OS1, OB2 that are independent of one another, as shown in FIG.

The invention is not only limited to the illustrated embodiments for controlling a Receiving magnets limited by double current, but can also be used to the same extent for an im Used in the course of a connection path and controlled by double current transmission relay will.

Claims (7)

Patent claims: 1. Circuit arrangement for telegraph subscriber stations for indirect control of a polarized receiving magnet arranged in a local circuit by double current signals sent over the subscriber line, characterized in that two oppositely directed flow-through windings of the polarized receiving magnet {EMI, EMU) each have their own collector circuit of two transistors (TrI , Tr 2) are arranged and that the two transistors (TrI, Tr 2) from a local current source (TB) an emitter bias voltage and a resistor (WL) terminating the subscriber line (a1, & 1), an S expensive voltage dependent on the direction of the line current received, each of which controls one of the two transistors and blocks the other. 2. Circuit arrangement according to claim 1, characterized in that the two transistors (TrI, Tr 2), in whose collector circuits the two windings (I, II) of the receiving magnet {EM) are arranged, are of different types (npn or pnp) and the telegraph power source grounded in the middle is used as the local power source. 3. Circuit arrangement according to claim 1, characterized in that the two transistors (TrI, Tr2), in whose collector circuits the two windings (I, II) of the receiving magnet {EM) are arranged, are each of the same type (pnp or npn) and two power sources (OBI, OB2) that are independent of the telegraphing power source and of each other can be used as the local power source. 4. Circuit arrangement according to Claim 1 to 3, characterized in that the emitter bias voltages {U _vv U _v2 ) taken from the telegraph current source (TS) are of the same size, but directed in opposite directions and smaller than the telegraph voltage. 5. Circuit arrangement according to claim 1 and 3, characterized in that the emitter bias voltages {U _V3 , £ / _V4 ) taken from the mutually independent current sources (OS) are equal in size and rectified and smaller than the telegraph voltage. 6. Circuit arrangement according to claim 2 and 4, characterized in that the center tap of the telegraph power source (TB) and the two bases (Bl, B2) of the transistors (TrI, TrZ) are each connected to a wire (al, bl) of the subscriber line. 7. Circuit arrangement according to claim 1, characterized in that the resistor (WL) terminating the subscriber line is adjustable and is used alone or in conjunction with the usual line completion resistor to regulate the subscriber current. 1 sheet of drawings