NL8004773A - REPORTING SYSTEM. - Google Patents

Description

* H.O. 29,294

Reporting system

The invention relates to a signaling system with signaling devices that can be switched on via a two-wire signal line on a reversible DC voltage source in a central unit, each of which comprises a signaling resistor which can be changed via a signaling switch and a directional conductor, in the center by determining the total resistance different reporting states can be distinguished on the reporting line.

DC reporting systems require relatively little equipment.

The reporting device usually consists of one or two resistors 10, which are switched on in the reporting line depending on a reporting device switch, for example a push button. A current measuring device in the central unit can distinguish between a line interruption, line short circuit, quiescent and alarm current. The distinction is made according to the principle of current attenuation or current amplification.

In a known system of the type mentioned in the preamble (German "Offenlegungsschrift" 2,154,537), each reporting device already has a diode which, however, is connected in series with the reporting device resistance and the reporting device contact. Thus, in the quiescent state, the diode is separated from the 20 line, so that quiescent current can flow only via an additional line termination resistor. Therefore, the calculation of the comparable resistance values for the rest state and the alarm state becomes relatively complicated. A calculation of the pure line resistance is not available.

However, as a reporting line lengthens, its resistance increases and the useful current decreases with constant voltage. However, they will want to refrain as much as possible from measuring the line manually, as this increases the cost and, moreover, should be repeated each time the line is changed.

The object of the invention is to design a signaling system with DC signaling devices with as little equipment and cost as possible that the influence of the line resistance on the measurement can be eliminated, so that a good distinction is made regardless of the length of the line. between idle and alarm condition.

According to the invention, this is achieved with a signaling system of the type mentioned in the preamble, in that the directional conductor in the relevant signaling device is connected in parallel to the series connection of the signaling resistor and the signaling device switch, 8004773 2, and that in the central unit forming a difference of the total resistances measured in both polarization directions on the reporting line, the reporting state is determined eliminating the pure line resistance.

Thus, in the system according to the invention, a diode is connected in parallel in the separate reporting device to the reporting device resistor and bridges it in one direction of polarization of the measuring voltage. In this state, the current measurement in the control panel provides the pure line resistance. In the other polarization direction, the diode is blocked-10; the sum of line resistance and signaling resistance is thus measured. If the difference is made from the two measured resistance values, the pure reporting resistance is obtained, whereby the change between the resting state and the alarm state can then be determined without being influenced by the line resistance.

In order to increase the disturbance distance, a further elaboration of the invention has been designed in such a way that the voltage supplied by the reversible DC voltage source in the central unit can be changed depending on the determined line resistance. The DC voltage source in the measurement state can output a voltage which is higher the greater the line resistance.

In one embodiment of the invention, the separate signaling device can have two series-connected resistors, one of which can be bridged by the signaling switch. Thus, in this case, the reporting device has a high resistance in the rest state and a low resistance in the alarm state.

In another embodiment, the resistance bridged by the signal switch may also be missing, so that in the quiescent state only the diode is connected to the signal line. The line is monitored for a line short circuit in this case in the measurement state, while the line is monitored for an interruption in the reversed state. In this case, a continuously flowing quiescent current is neither present nor necessary.

In yet another embodiment of the invention, a multi-criteria signaling device is implemented in which a resistor circuit having several intermediate branches is present in the signaling device parallel to the diode. A signal switch is added to each branch, so that different measuring resistors are connected to the line according to the reporting criterion to be indicated.

8004773 3

The invention will be explained in more detail below with reference to the drawing, in which: Fig. 1 shows the circuit for a reporting system according to the invention; and FIG. 2 illustrates the circuitry of a multi-criteria signaling device.

Fig. 1 shows a signaling system with a central Z on which a signaling device M is connected via a two-wire line L. In the exchange, a DC voltage source 6 is connected to the line via switch S1. In this case S1 is a polarity reversal switch, so that the DC voltage is connected to the line once in one direction of polarization and once in the other. The polarity reversal is carried out with the aid of a control and processing device STA. In addition, a measuring device for determining the line current is present in the exchange. In the relevant embodiment this is done by measuring the voltage drop across a reference resistor Rr with the aid of a voltage measuring device SM. In this way the total resistance of the line and the reporting device is determined in each case. For example, instead of the voltage measurement on a longitudinal resistor, a bridge circuit or other measuring device could also be used.

The line L has a line resistance Rj, which is in each case half divided between the two wires. The signaling device M connected on the line has a diode D and, in parallel, two series resistors, Rmi and Rf £, connected in series. The resistor R ^ 2 can be short-circuited via the signal switch S2. The signal switch S2 can for instance be a lockable push button.

Requesting the reporting device then takes place in the following manner. The control and processing device STA, for example a microcomputer, sets the switch S1 to position I. The switch S230 in the reporting device is still open. The control and processing device determines the total resting resistance R <JI * RL + RM1 + RM2 * by means of the voltage drop across the reference resistor Rr.

The line is then reversed and the switch S1 is thus brought into position II. Since the diode D is polarized in the forward direction and its voltage drop is negligible, a total • resistance * GII = rL · 8004773 4 arises

Since in the respective version RgI> rGII * s », the polarity of the signaling device can therefore also be determined in the control and processing device. Therefore, the basic position of switch SI is position I. From time to time, switch SI is switched to position II to check the line values.

In the event of an alarm, switch S2 is closed. As a result, the total resistance for position II is changed in steps:

Rgh = Rl + rmi · 10 The resistor that can be bridged with switch S2 can also be omitted. In this case, the resistor rmi can assume a higher value, so that in the event of an alarm a particularly large resistance jump can be measured. In this case, the line can nevertheless be monitored for a line short in position II, while an interruption in position I of switch S1 can be detected.

Fig. 2 shows a variant of the signaling device M according to FIG. 1. Instead of the resistors R1 and Rm2, the signaling device now has a resistor circuit parallel to the diode D with the resistors R111, Rm12 and Rm13. The switches S11, S12 and 20 S13, therefore, a larger or a smaller reporting resistance can be connected on the line. Thus, with the embodiment according to Fig. 1, four criteria can be reported, depending on whether all switches S11, S12 and S13 are open or whether one of the switches is closed. The measurement in the central takes place in a similar manner as in the simpler circuit according to Fig. 1.

8004773

Claims (6)

1. Reporting system, each with a two-wire reporting line on a reversible national voltage source in a centrally switchable reporting device and each comprising a reporting resistor which can be changed via a reporting switch, as well as a directional conductor, the central unit being determined by determining the total resistance on the reporting line, different reporting states can be distinguished, characterized in that the directional conductor (D) in the relevant reporting device (M) is connected in parallel to the series connection of the reporting resistor 10 (Rmi) and the reporting switch (S2), and that in the control panel, by forming a difference of the total resistances on the reporting line (L) measured in both polarization directions, the reporting state is determined while eliminating the pure line resistance (¾). Reporting system according to claim 1, characterized in that the voltage supplied by the reversible DC voltage source (G) can be changed depending on the determined line resistance (¾). Reporting system according to claim 1 or 2, characterized in that the reporting device (M) has two series-connected resistors (% χ,% 2), one of which can be bridged by the reporting switch (S2). The signaling system according to claim 1 or 2, characterized in that the signaling device has a signaling resistor (B-mI) which can be switched on the line in the quiescent state and which can be switched on the line by the signaling switch (S2). Signaling system according to any one of claims 1 to 4, characterized in that the separate reporting device has a resistance chain (Rmh, & Μ12> r13), with a signaling switch (S11, S12, S13) on each of the intermediate branches is present. Signaling system according to one of Claims 1 to 5, characterized in that a control device (STA) is present in the central unit (2), which, when the system is put into operation, the DC voltage source (G) with both polarization directions switches on the signal line (L) and records the polarization direction with the smaller total resistance as a rest state. 8004773