DE2440098C2 - MONITORING CIRCUIT FOR PILOT AND CARRIER VOLTAGES - Google Patents

Description

lies.

. «The path between the two poles of the supply voltage, and that at a tap A .sector resistance of the fourth Trans.stor em for Trans.stor, whose emitter-collector-gate is also a? Capacitor. Which is arranged between the base of the second Transistor and the e.nen Z of the supply voltage source

H these measures is achieved that at

rSÄennr ^ r ^ S "T" nStors twain of the trigger circuit switched Kondenstor is charged through appropriate Konaensai. _A: let _eses capacitor itself

Dimensioning ^ thesees ^. ^^

Governs SING. which is less than 10 ms. ^re not at hand ^{tr e n} Ausführun_gsbeispiels according to the figure

₃ o in level of the switching device. The base of the S transistor 195 of this flip-flop is controlled both via diodes 155, 157 and via the third transistor 191. While the diodes be. Inter-levels are permeable and the stable cinema stage can thereby be controlled into its second stable state, in the event of an over-level the transistor 191 becomes fluid, whereby the same effect is achieved for the stable KiDD stage.

Between the base and emitter of the second transistor 198 of the bistable multivibrator is the capacitor 133

The invention relates to a monitoring circuit for pilot and carrier voltages in devices of the Communication technology with a flip-flop consisting of two transistors, in which the Base of the first transistor both via a diode, which becomes permeable when the level is low, and via a third transistoi. which becomes permeable in the event of overvoltage, with the voltage sources to be monitored is connected, and in which the toggle switch controls a switchover and alarm device.

In the German Auslegeschrift 20 46 723 is already describes a monitoring circuit for carrier and pilot monitoring in carrier frequency channels, which is essentially composed of a flip-flop consisting of two transistors. The basis of the The first transistor of the flip-flop is both via a diode, which becomes permeable when the level is low, as well Via another transistor, which becomes permeable in the event of an overvoltage, with the voltage sources to be monitored tied together. It is thereby achieved that the flip-flop circuit both at over- and under-level turns over, causing alarm and switching from an operating generator; to a replacement generator he follows. With this arrangement, however, an alarm is also given and the switchover is carried out, if a voltage with the respective control voltage fails for a short time.

The object of the present invention is to provide a monitoring circuit for carrier and pilot monitoring to create a switchover and alarm in the event of a brief failure of the control frequency is avoided.

According to the invention, the monitoring circuit is therefore designed so that the base of a fourth transistor, the emitter-collector ICl of which is located at a tap of the collector resistance of the first transistor.

The collector-emitter path of a fifth transistor 197, which is controlled by the fourth transistor 1%, lies parallel to this capacitor. The fourth transistor 196 lies with its emitter-collector path parallel to the DC supply voltage and the base of the fifth transistor 197 is connected to the tap of the collector resistor 66, 67 of the fourth transistor 196. The flip-flop steue ^r t via a further transistor 200 is a Umschaltebaugruppe , which consists of several transistors 2Oi ... 209, on. The comparison voltage is obtained via the Zener diode 163. The transistors 194 and 199 are also provided to reduce the internal resistance of this diode. The transistors 192 and 193 perform tasks that are described in detail in the German patent application P 24 40 096.2-31.

The mode of operation of the arrangement according to the invention is as follows:

In the "idle state" transistor 195 is permeable, while the transistors 1% and are also permeable switched through, the capacitor 133 is discharged. For the alarm condition, transistor 195 is blocked so also the transistors 1% and 197, the capacitor is charged via resistor 72. Only when that The potential is high enough, the transistor is switched through and the switching chain with the transistors 201 ... 204, 207 changed. But if the alarm condition is canceled in the meantime, switch the transistors 195, 1% and 197 through again immediately before the switching chain has changed its switching state.

To avoid alarms caused by failure of the control frequency

caused, the circuit has to avoid

a blockage. In this case it is due to the connection

65 (block) earth potential and suppresses A- and

ß-alarms, d. i.e., transistors 206 and 207 are

locked.

For an operational equivalent circuit of the carrier generator

: 7ung, two such inserts are required, which are about the switching lines are connected to each other:

where I denotes the respective operating channel and Il den respective replacement channel designated.

In the non-alarmed state, transistor 204 (I) is switched on and leads earth via diode 174 (1), connection 18 (u) via the connecting line to connection 20 (w) of the spare cables via diode 177 (II) and blocks the transistor there 202 (II). The supply voltage is switched off via transistor 203 (II) on the replacement side.

As a result of an alarm on the service side, transistor 204 (1) is disabled. Through diode 174 (I) and 177

(II) no current flows, i.e. h "transistor 202 (II) and 203 (H) switch through, the supply voltage is applied to the replacement amplifier. At the same time the transistor switches 205 (II) and leads Earth via 17 (v, 11) to 20 (w. I) and blocks transistors 202 (I) and 203 (I) via diode 177 (1). The supply voltage is thus on the Operating side switched off, transistor 207 (I) triggers the ß-alarm. Transistor 206 (I) receives at the emitter no earth, so there is no / 4 alarm. / 4 alarm is only triggered if the Substitute side also addresses the monitoring, d. H.. Transistor 204 (II) is blocked. Transistor 202 (II) remains switched on and leads earth via diode 164 (11) to the emitter of transistor 206 (II), at the same time ß-alarm (U) occurs.

1 sheet of drawings

Claims (1)

σ * β. Claim: Monitoring circuit for pilot and carrier voltages in night transfer equipment with one of two transistors related toggle switch, in which the base de first transistor both via a diode that is at Under-level becomes permeable, as well as via a third transistor, which permeates in the event of overvoltage > o becomes, with the voltage sources to be monitored is connected and in the case of the flip-flop circuit e.ne Controls switchover and alarm device, characterized in that anι one Tapping of the collector resistance (64, 65) of the ersie.n transistor (195) the base of a fourth Transistor (196) Hegt, its emitting-collector path lies between the two poles of the DC supply voltage, and that on one Pick-up of the collector resistance (66, 67) of the fourth transistor (1%) a fifth transistor (197) If its emitter-collector path is arranged in parallel to a capacitor (133) between the base of the second transistor (198) and one pole of the supply voltage source