DE2705045A1 - Transducer location differentiation in monitoring networks - uses single supply transmission line with branched distributors having resistors and diodes in series - Google Patents

Abstract

The method is for differentiating between the various monitor locations in a distributed branched network, used typically for checking the humidity at a number of different points, or for security purposes, in which a single cable with branches, supplies all the monitoring points. Typically each monitor point (9) is supplied with current from a single transmission line pair (1) via a local diode (4) and resistance (3), the size of which is peculiar to that particular monitor location. A known current is passed down the transmission line pair (1) and the voltage across is defines the monitor point (9) being activated, or, equivalently, short circuited. A current of opposite polarity can be used to locate monitors attached directly to the transmission line pair. Two further alternative forms of the arrangement, one using a threshold defining zener diode (5) and the other diodes in both connection links between the supply line and the transducer may be used.

Description

Insulation monitoring for signal lines

with branches in surveillance systems The invention relates to on insulation monitoring for signal lines in branches, which act as information carriers used in surveillance systems.

It is necessary in many areas of technology or security, monitor hard-to-reach or distant places for their respective condition, and report abnormal conditions through an alarm. Message lines are used for this purpose from a central office up to and including such bodies, and these will become bodies equipped with indicators that can be used to set an alarm in a central monitoring station is produced. Contacts or components with variable values are used as indicators electrical resistors that have an electrical shunt or series resistance at the reporting location in the reporting line, so that the location of the change with known Measurement methods such as bridge measurement or pulse fault location can be determined.

The main areas of application are the use of moisture indicators in thermal insulation of district heating lines, signaling contacts of limit switches in technical facilities, manually operated alarm contacts for security personnel, Alarm contacts in safety devices, etc.

The message lines are not routed to each property individually, but rather the line is "looped" across all reporting locations in order to save reporting. Difficulties arise when these reporting lines are branched off, because with a large number of turn-offs, fault location is difficult or even impossible will. The control center can recognize that a message is pending, but cannot distinguish whether the message from the main line to which the monitoring device is connected, a branch or a sub-branch (branch 1., 2., 3rd order etc.).

The object of the invention is to monitor the insulation of signal lines with junctions properly perform su can and to recognize whether the message comes from the main line, a branch or a sub-branch.

The solution to this task is carried out at branch points a switch is in front, resulting from a series of resistance with a diode or a combination of resistor, diode and zener diode. Any variants al @ combination of diodes, transistors and Zener diodes are possible as long as you have the ability to feed one into the reporting lines Depending on the polarity, the current is either blocked or after a voltage has been overcome to let through. The level of the reverse voltage is determined by the type and number the semiconductors used. When a current is fed in in the reverse direction of the turnout the main line is monitored alone. He follows a report, so it is definitely not located in a branch.

When a current is fed into Durohlaßrlchtung, if a There is a short circuit in the branch, a voltage in the main line that corresponds to the threshold voltage corresponds to the switch. In this way the courtyards of tension can be seen over how many points the current has been conducted, i.e. whether the error is in the first or in a branch that is subordinate to it 0 If the current direction is changed, 80 all rejections are recorded. If there is then a message, it comes to one Branch. DB, however, a voltage threshold has to be overcome in each branch from the level of the voltage it can be recognized whether it is a direct branch or a branch from the branch (1st, 2nd, 3rd

Order, etc.).

The reporting of moisture indicators is still problematic, in which there is also a voltage drop depending on the fault resistance. To distinguish this voltage drop from the voltage threshold of the switch, the size of the test current is changed and the voltage change is recognized, in which junction @ stage the fault is located, since the voltage @ I swell with the current does not change significantly gate. The resistor in series with the diode, ###### #### ### # ### ############# ## #### ####, makes sure that the junction no disturbance caused by the Impul @ fault location.

The subject of the invention is shown in the drawing. Show it: 1 shows a single-pole switch for single-core or coaxial signaling lines, Fig. 2 a single-pole series with a zener diode and diode and FIG. 3 a two-pole series with two diodes and two resistors.

From the main line 1 (Fig. 1) an outlet 2 leads over the switch 10, which has a resistor 3 and a diode 4, into branch 9. The return conductor is denoted by 11.

In Fig. 2, a Zener diode 5 is also provided.

The Sohwell voltage of the switch 10 is then higher and more precisely definable.

In Fig. 3 there are two diodes 4 and 6 and two resistors 3 and 7, which are distributed symmetrically on two wires 2, 8 of the signal line for symmetrical Reporting lines.

L e r s e i t e

Claims (4)

P a t e n t a n s p r ü c h e 1. Insulation monitoring for signal lines with branches in monitoring systems, characterized in that at branch points a switch is provided, which consists of a series circuit with a resistor a diode or a tomblnation made up of a resistor, diode and zener diode. 2. Insulation monitoring according to Anapruch 1, daduroh marked, that there are multiple diodes. 3. Insulation monitoring according to claim 1 and 2, characterized by the use of electronic component combinations with one blocking direction and a transmission direction with a known transmission threshold. 4. Insulation monitoring according to claims 1 to 3, characterized in that that the components of two-wire message lines are distributed on both wires.