DE2203923C3 - Circuit arrangement for runtime measurement of distance relays - Google Patents

Description

device on the one hand and the electronic digital counter and registered via the decoder D ₁ to

and the n-stage clock, on the other hand, are each given a display on the display device A. the

Decoder is provided. output signals of the

Since there is often a counter Z between two excitations, the decoder

considerable time can elapse, it is according to a 5 device D ₂ that converts the binary code into a decimal code

further embodiment of the invention advantageously converts, the η stages fed to each of the η stages

possibly, the counter can be reset to a certain point by means of two switches.

and to do the memory manually. Talk time set. Let it be B. level 1 by means of

In the following, the invention is set to a response time of 4.3 seconds using a _{switch S 1} , S "

The embodiment shown in the drawing made io. Now reached in the form of pulses in

explained in more detail. the running time recorded by the counter Z has a value of 4.3 seconds,

In this embodiment, Z is a counter, so the stage 1 responds, whereby a signal appears at the output device in the form of an electronic digital of the AND stage ά, which the memory counter, which on the one hand via a decoder rather Sp _x puts. From the output of the memory Sp ^ device D ₁ a display device A, on the other hand, for example, the distance measuring element is switched to the next higher impedance response value _{via a decoder D 2} , plant Zw . The counter Z reaches itself becomes the detected in the numerator Z runtime the Aneinen of a reset pulse R and a response value of the second stage 2, so is the memory gate & driven whose one input is connected Sp ^ set. This process can continue up to a square wave generator G and its 2 ° 71-th stage. As soon as the running time reaches the other input, acted upon by the excitation signal, the speaking time of the following stage takes place. The / i-stage clock Zw includes η stages 1 a setting of the spoke belonging to this stage, up to 7i. Each of these η stages essentially consists of two switches, an AND gate and a circuit & blocked after the excitation signal has ceased, so that no further pulses are stored. So stage 1 has two switches, S ₂ 25 on the Z counter. The counter Z applies to an AND element & _x , which remains in its last position and stores the output with an input of the memory Sp ₁ with the running time, ie the time between occurrences. Correspondingly, stage η comprises two and the elimination of the excitation signal. The time can be read _{from switches Sj n} ., And S _2n , which have an AND element & _n be on the display device A. Also the Speiaaufschlag, the output of which is an input of the Spe- 30 rather Sp, until Sp _n remain in their position,
chers Sp _n controls. If DA _n are the memory Sp now a new excitation, it is again reasonable next still from the reset pulse R from the start signal, a reset pulse from the controls. The reset pulse generator R receives a reset pulse generator /? derived, at the same time line L _x gets the excitation signal and via a second the excitation signal to one input of the gate line L., a signal that occurs in manual mode. 35 circuit &. By means of the reset pulse, the reset pulse counter Z and the memory Sp ₁ to Sp _n can be connected to the operating voltage very quickly in transmitter R via a third line L. brought their initial state, with which an

The mode of operation of the sound arrangement is flawless measurement of the running time of the following again: can be done regurig. A running time addition is

When the operating voltage is switched on via 40, this is advantageously avoided. After reset line / .., the reset pulse generator R a development of the counter Z and the memory Sp _x to Sp _n ge-reset pulse to the counter Z and the memory long the coming from the square wave generator G Sp _x to Sp _n given, which these in their defined pulses back into the counter Z, which brings the starting position. The circuit arrangement repeats the process outlined above,
tion is thus ready for operation. 45 If between two successive excitations, the excitation signal arrives via the excitations, there is enough time left, the counting L _{1 can} on the one hand on the reset pulse generator R, ler Z and the memories Sp ₁ to Sp _n via the an on the other hand at the same time to one input of the reset pulse generator R connected line L., gate circuit &. The reset pulse generator R conducts to be reset.

a reset pulse from the excitation signal and 50. Of course, the circuit arrangement can also output this to the counter Z and the memory Sp _{x to the} effect that only one to Sp _n . Since the counter Z and the memory Sp _x takes place until the counter is reset.
Sp _n already by switching on the operating voltage. The advantages of the invention are in particular that they have been brought into their defined starting position, as can be seen in the fact that a transit time addition has no effect when the reset pulse remains on top of one another. That is avoided on the following suggestions. Advantageously, an input of the gate circuit & given way, with a renewed excitation, a closed excitation signal now opens for the square-wave pulses delivered by the counter-clockwise reset of the counter and the memory to a square-wave generator G, the defined output value. In addition to this, you can get to the counter Z automatically. The right-hand reset is also advantageous. The corner generator G can be an astable multivibrator or a mains-triggered multivibrator can be used for manual reset. The measuring reliability of the circuit is increased, apart from the network frequency that occurs during excitation, in that the short-circuit current is diverted when the circuit is switched on. The pulses flowing into the operating voltage of the counter and the memory on counter Z will be brought to their defined starting position in this.

1 sheet of drawings

Claims (10)

one of the pickup time propor claims: tational number of pulses recorded. * Such a circuit arrangement is known '. "" .. ■ 1. Circuit arrangement for runtime measurement (DT-AS 11 01 298). of distance relays with an n-stage timer and 5 The measurement of the runtime of protective relays and - a counting device that, when the response is met, in particular of distance relays, is of such great importance for the excitation condition of the distance relay because the number of pulses proportional to the size of the measured time detects a running time on the error distance from the one characterized in that the installation location of the relay can be closed,
individual stages (l .-. n) of the / i stage timer io With the (Zw) known from the DT-AS 1101/98 at its outputs with one memory circuit arrangement each is initially at the installation site (Sp ₁ ... Sp _n ) are provided; which, when the protective relay is reached, one of the start or command response time of the associated stage (1st -. n) in the time of the relay proportional number of electrical switches the memory position, and that the memory generates pulses or from a continuously generated (Sp ₁ ... Sp _n ) and the counter (Z) derived from 15 pulse series. These impulses are then given a reset impulse when they are excited again. in a counter installed at the location of the relay 2. Circuit arrangement according to claim 1, data counted and displayed. This means that the running time can be read off with a new one. This method excitation of the pulses from a rectangle does not see a reset of the counting device rator (G) by a gate circuit {&) on the ao on renewed excitation, which leads to incorrect counting device (Z). measurements can come. 3. Circuit arrangement according to claim 2, there is also known a distance relay, in which one is characterized in that the gate circuit (&) motor timing relay provided with a drag pointer has two inputs that one input is with. With the excitation of the distance relay, which is connected to the square-wave generator (G) and 25 timing relays, start up and adjust the drag pointer, which controls the excitation signal at the other input after the excitation conditions have ceased to exist. after stopping the timing relay in its end position 4. Circuit arrangement according to claim 2, there remains. Is now the term of the following characterized in that the square wave generator excitation is smaller than that of the previous, so (G) is a freely oscillating multivibrator. 30, the drag pointer continues to show the running time of the 5. Circuit arrangement according to claim 3, the preceding suggestion, which leads to a characterized in that the square wave generator incorrect measurement comes (DT-AS 12 42 155). (G) is a network-triggered multivibrator, the object of the present invention being to provide a to create the network frequency of that with the excitation on- circuit arrangement, with which in each case the occurring short-circuit current can be removed. 35 last occurred runtime with distance relay measured 6. Circuit arrangement according to claim 1, which can be displayed, regardless of characterized in that the counting device follows one another as quickly as two excitations. (Z) connected to a display device (A) This object is achieved according to the invention is. solved that the individual stages of the n-stage time 7. Circuit arrangement according to claim 6, 40 works at their outputs, each with a memory characterized in that the counting devices are provided when the response time is reached (Z) is an electronic digital counter. the associated time stage in the memory position 8. Circuit arrangement according to claim 7, da- tilts, and that the memory and the counting device characterized in that between the electronic with renewed excitation a reset pulse erroneous Hold digital counter and display device. device (A) on the one hand and between the electronic In accordance with a further embodiment of the invention see digital counter and the n-stage meter get with a renewed excitation the pulses (Zw) on the other hand a Dekodiereinrich- from a square wave generator through a gate circuit (D ₁ ; D ₂ ) is provided. tion on the counting device. 9. Circuit arrangement according to claim 1, da- 5 ° This gate circuit has in a preferred one characterized in that the reset of the embodiment has two inputs, of which memory (Sp ₁ ... Sp _n ) and the counting device is connected to the square generator and (Z) after a previous excitation and the other is controlled by the excitation signal, before the start of a new excitation by hand, the circuit arrangement is particularly simple. 55 if the square wave generator as freely oscillating 10. Circuit arrangement according to claim 1, multivibrator or as a network-triggered multivibrator, characterized in that the memory is designed, the network frequency of the at (Sp ₁ ... Sp _n ) and the counting device (Z) the excitation occurring short-circuit current discharge reset pulse when the bar is switched on. drive voltage received. 60 A simplification of the circuit arrangement is due to the fact that the counter with a Display device is connected and that the counting device is designed as an electronic digital counter is. The subject of the present invention is a ⁶ 5 In order to achieve an adaptation between the display device, circuit arrangement for the runtime measurement of Di-counter and / i-stage clock, punch relay with an n-stage clock and one is advantageously provided that between the counter, which when the The electronic digital counter and the display device