CS255217B1 - Connections for powering the subscriber device - Google Patents

Abstract

The solution' relates to a circuit for powering a subscriber device in telephone transmission systems with a central battery. The first current source, connected to the positive terminal (+Dz) of the battery, is formed by a first transistor (TI), a first diode (Dl), a first and second resistors (Rl), (R2) and a first capacitor (Cl). The second current source, connected to the negative terminal (-Uz) of the battery, is formed by a second transistor (T2), a second diode (D2), a third and sixth resistors (R3) and (R6) and a second capacitor (C2). When the subscriber loop is disconnected, both transistors (TI) and (T2) are fully open and the subscriber line is almost at full battery voltage. The size of the subscriber loop current can be adjusted by selecting the first and sixth resistors (Rl), (R6). The voltage across these resistors is different when the subscriber loop is disconnected and closed. This can be advantageously used for electronic sensing of the subscriber loop control symbols, including decade dialing

Description

The invention relates to a circuit for powering a subscriber apparatus in a central battery telephone transmission system.

Connections for supplying the subscriber are known which provide the desired impedance in the speech signal band by means of decoupling chokes or relay windings. The disadvantage of these wiring is the large dimension of the wound elements, high laboriousness of their construction, high copper consumption. Their use does not allow miniaturization of the device.

Another disadvantage is the large voltage drops on these components, which reduces the achievable length of the connecting line to the subscriber. The current of the subscriber loop varies with the length of the connection line, and in short lines the power consumption of the central battery is high. Also, the suppression of interfering voltages from the power supply to the subscriber loop is low.

The purpose of the invention is to overcome these disadvantages. According to the invention, this is achieved by connecting the cathode of the first Zener diode to the positive terminal of the battery, the anode of which is connected via a second resistor to the base of the first transistor and simultaneously through the seventh resistor to the cathode of the second Zener diode. to the base of the second transistor and whose anode is connected to the negative terminal of the battery, to which the base of the second transistor is connected via a second capacitor and at the same time through the sixth resistor the emitter of the second transistor whose collector is connected to the second output terminal; is connected via a first capacitor to a positive terminal of the battery, to which a first transistor emitter is connected via a first resistor, the collector of which is connected to a first output terminal and through a fifth resistor based on a second transistor.

The wiring for supplying the subscriber apparatus according to the invention does not comprise wound components. It provides a constant current supply to the subscriber and thus reduces the power consumption of the central battery for short local loops. It allows the extension of the subscriber loop in terms of transmitted speech signals.

An example of the invention is further described with reference to the drawing. The cathode of the first Zener diode D1 is connected to the positive terminal »Uz of the central battery. Its anode is connected via the second resistor R2 to the base of the first transistor T1 and simultaneously through the seventh resistor R7 to the cathode of the second Zener diode D2, which is also connected via the third resistor B3 to the base of the second transistor T2. The anode of the second Zener diode D2 is connected to the negative terminal -Uz of the battery to which the base of the second transistor T2 is connected via the second capacitor C2 and the emitter of the second transistor T2 through the sixth resistor R6. The collector of the second transistor T2 is connected to another output terminal 2 ^{and EXAMPLE} ®s fourth resistor R4 to a base of the first transistor Tl., Which is connected via the first capacitor Cl is connected to the positive terminal + Uz of the battery, which is connected via a first resistor R1 connected to the first emitter the collector is connected to the first output terminal 2 and through the fifth resistor R5 based on the second transistor T2.

The first current source, connected to the + terminal of the battery, consists of a first transistor Ti with a conductivity pnp, a first diode D1, a first and a second resistor R1 and R2, and a first capacitor cl. The second current source, connected to the negative terminal -Uz of the battery, consists of a second transistor T2 with a conductivity npn, a second diode D2, a third and a sixth resistor R3 and R6, and a second capacitor C2. The collectors of both transistors T1, T2 form output terminals 2, 2 for supplying the subscriber telephone set. Feedback between the two power sources is conducted from the collector of the first transistor T1 through the fifth resistor R5 to the base of the second transistor T2 and analogously to the collector of the second transistor T2 through the fourth resistor R4 to the base of the first transistor T1.

When the subscriber loop is idle, both transistors T1, T2 are fully open and the battery voltage is almost full on the local loop. The first resistor R1 is set at a closed subscriber loop such that the voltage U _CE on the first transistor T1 is equal to the voltage _UC6 on the second transistor T2. The loop current can be set by selecting the first and sixth resistors R1, R6. The feedback introduced by the fourth and fifth resistors R4, R5 maintains the equality of voltage U _CE on both transistors T1, T2 and compensates for the different parameters of the elements used in the current sources, including their temperature dependence. The voltage drop across the two Zener diodes 131 " D2 " forms the reference voltage for the positive and negative branch current sources. The current through the Zener diodes D1, D2 is adjusted by the seventh resistor R7. Capacitors Cl,

C2 improves the symmetry of power supplies against ground and suppresses interference from the battery to the subscriber loop.

The voltages at the first and sixth resistors R1, R6 are different in open and closed subscriber loops. This can advantageously be used to electronically capture subscriber loop control marks including decimal selection without the use of a relay.

Claims (1)

Connection for supplying subscriber apparatus in telephone transmission systems with a central battery characterized in that the positive terminal (+ Uz) of the battery is connected to the cathode of the first Zener diode (D1), whose anode is connected via a second resistor (R2) to the base of the first transistor ( T1) and through the seventh resistor (R7) to the cathode of the second Zener diode (D2), which is also connected via the third resistor (R3) to the base of the second transistor (T2) and whose anode is connected to the negative terminal (-Uz) of the battery, to which the base of the second transistor (T2) is connected via a second capacitor (C2) and at the same time through the sixth resistor (R6) the emitter of the second transistor (T2) whose collector is connected to the second output terminal (2) and base of a first transistor (TI), which is connected via a first capacitor (Cl) to a positive terminal (+ Uz) of the battery, to which the emitter of the first transistor (TI), whose collector is connected via a first resistor (R1) to the first output terminal (1) and through the fifth resistor (R5) based on the second transistor (T2).