DE1566792C - - Google Patents

Description

The invention relates to a circuit arrangement for the transmission of counting pulses from a transmitting device to a receiving device in which two are controlled in phase opposition by the transmitting device Pulse transmitters are present, each of which has a transmission line assigned to it associated counter of the receiving device controls and in the devices for comparing the counter readings of the two counters are available.

Such a circuit arrangement is known from German Auslegeschrift 1237 931. Die 'doubling of the pulse generator, transmission line and counter increases operational reliability, as one Comparison of the meter readings, irregularities can be determined. The anti-phase control the pulse generator has advantages over other known pulse generators that are in phase working circuits in which certain disturbances affect both counters equally and therefore, when comparing the counter readings, they cannot be recognized as faults. The anti-phase Control of the pulse generator has the consequence that the counter readings even in a fault-free state can differ by an impulse at the moment of comparison. This occurs e.g. B. on when the first Pulse and also the last pulse sent on the same transmission line before the time of comparison appear. In the known circuit, this problem is eliminated so that each voider Carry out the comparison to the meter that received one less pulse, an additional pulse is fed. Considerable effort is required for this, and the comparison cannot be made either be made continuously.

The object of the invention is to provide a practically permanent comparison with a significantly reduced effort to enable. This object is achieved in that according to the nomination, each counting pulse the first transmission line also has a bistable switching device in its "!" state and each Counting pulse on the second transmission line also this bistable switching device in the "()" - State controls, and that the bistable switching device is connected to the two counters that every time it is switched to the »!« state, it sends a counting pulse to the

2c do »connected second counter and at each Changeover to the »(!« State) a counting pulse to the one connected to the first transmission line first counter there.

The invention is explained in more detail below with reference to the drawing. In this, the transmitting device is shown at S , which in the exemplary embodiment comprises a rotating contactor K , which alternately closes the two pulse generator contacts / Gl and IG2. The anti-phase impulses can of course also be brought about by other known means (e.g. electronically). A pulse given by the contact / Gl on the line L 1 reaches the counter Z1 via the OR circuit Ö 1 and switches it one step further. Likewise, each pulse given by the contact / G 2 on the line L 2 controls the counter Z2 by one step via the OR circuit 01. A comparison device V compares the counter readings of the counters Z1 and Z2 and outputs a “correct” statement via output R or a “false” statement via output F, depending on whether the comparison is positive or negative. Since a pulse on a line, e.g. B. Ll, always occurs in the pause between two pulses on the other line, e.g. L2, the counter readings can differ by one step even if there is no interference (e.g. CounterZl already in position 1, counter Z 2 still in position O). This difficulty is eliminated by means of the bistable switching device FF , which has its “(!” Input with the line L2, with its “!” Input with the line Ll, with its “(!” Output via a differentiating element Dl and the OR circuit O1 is connected to the counter Z1 and its "1" output via a differentiating element D 2 and the OR circuit O 2 is connected to the counter Z 2.

A pulse arriving on the line Ll not only reaches the counter Zl, but also controls the bistable switching device FF in the "1" state. The resulting change in potential at the "1" output has the consequence that the differentiating element D 2 also supplies a pulse to the counter Z 2. The differentiating element Dl remains inactive. Therefore, as a result of the pulse on line Ll, both counters Zl and Z 2 each receive an incremental pulse, and both switch one step further. The next pulse that occurs during normal operation must appear on line L 2. It controls the counter Z2. and he also switches the bistable

Switching device FF from the "!." State to the "0" state. The change in potential at the "O" output that occurs during this switchover causes an incremental pulse to be fed to the counter Z1 via the differentiating element D 1. The change in potential that occurs at the "1" output during this reversal is not evaluated by the differentiating element D 2. The counters Z1 and Z2 therefore always have identical counter readings when they are in trouble-free operation, and the comparison can be carried out continuously. If necessary, a short response delay of the comparison device is expedient.

If, in the event of a fault, after a pulse on line Ll, another pulse occurs on this line, the switching state of the bistable switching device FF does not change because it is already in the "!" State. There is no change in potential at its "1" output, and counter Z2 does not receive an incremental pulse. However, the counter Zl was also switched on with the second pulse on line Ll and therefore has a different status than the counter Z2. The comparison device detects the difference and emits an ίο error signal at output F. In the event that no pulse occurs on the line L1 between two successive pulses on the line L 2 , only the counter Z 2 is switched on in an analogous manner with the second pulse.

1 sheet of drawings

Claims (2)

Patent claims: 1. Circuit arrangement for the transmission of counting pulses from a transmitting device to a receiving device, in which there are two pulse transmitters controlled in opposite phase by the transmitting device, each of which controls a counter of the receiving device assigned to it via an assigned transmission line and in the devices for comparing the counter readings of the two Counters are available, characterized in that each counting pulse on the first transmission line (Ll) also has a bistable switching device (FF) in its "!" State and each counting pulse on the second transmission line (L 2) also this bistable switching device (FF) in the "(!" - state controls, and that the bistable switching device (FF) is connected to the two counters (Zl, Z 2) in such a way that each time it is switched to the "!" Transmission line (L 2) connected to the second counter (Z 2) and every time it is reversed to the "(!") State gives a counting pulse to the first counter (Zl) connected to the first transmission line (Ll). 2. Circuit arrangement according to claim 1, characterized in that the bistable switching device (FF) with its "O" output via a first differentiating element (Dl) to the input of the first counter (Zl) and with its "!" Output via a second differentiating element (D 2) is connected to the input of the second counter (Z 2).