WO2006108758A1 - Low-voltage power circuit with autonomous monitoring functions - Google Patents

Abstract

The invention relates to a low-voltage power circuit with electronic overload trip and autonomous monitoring functions. The electronic overload trip is provided with an internal error message memory for errors in the autonomous monitoring.

Description

description

Low-voltage circuit breaker with self-monitoring functions

The invention relates to a low-voltage circuit breaker with electronic overcurrent release and self-monitoring functions.

Electronic overcurrent releases for low-voltage circuit breakers are complex devices that are manufactured from a large number of electronic components. The operators of low-voltage circuit breakers make high demands on the reliability of these protective devices.

Despite intensive efforts to ensure the reliability of low-voltage circuit breakers may occur due to the failure of components, operating errors or strong interference from environmental factors, such as EMC, erroneous operating conditions.

Thus, for example, the electrical switching contacts of an operating element may be dirty or bent, a memory connected via a data bus may not respond to bus requests, or a data transmission via a bus may be disturbed.

In addition to the main function of switching off in the event of short-circuit and overcurrent, modern low-voltage circuit-breakers are therefore equipped with a large number of self-monitoring functions. For example, it can be detected by the electronic trip unit whether a rated current plug is missing (WO 02/35 569) or whether the rated current plug for the circuit breaker has unsuitable characteristic values. stops (WO 00/19473). The absence of other components and the presence of incorrect system components can also be monitored. The self-temperature of the trip unit and the switching unit can be measured and provide monitoring functions.

Depending on the character of the monitored function, tripping of the circuit breaker or only a message is effected.

It has hitherto been known to signal all fault conditions detected by the self-monitoring via a (usually red) LED as a collective fault message on the trigger front panel, if appropriate also via an acoustic display. A Diffe ^¬ differentiation of the occurred fault conditions and causes is not possible. The operator of the circuit breaker has so hardly the possibility of a differentiated Determined ^¬ development of the causative source of error to perform and where appropriate, correct the error with the replacement of individual components.

The object of the invention is to provide a low-voltage circuit breaker with self-monitoring functions, which allows a differentiated determination of errors that have occurred.

According to the invention this object is achieved by the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

Thereafter, the electronic overcurrent release is equipped with an internal error message memory for faults in the self-monitoring. Event memory for storing events that have triggered the circuit breaker and that can be displayed on a graphical display or output to a diagnostic external device via a test socket has been known for many years to be a differential statement or store of self-monitoring error events but has not been considered by experts in the past.

According to a first preferred variant, a part for the storage of the error messages is reserved in a volatile memory (RAM) of the overcurrent release.

In the process of manufacturing the circuit breaker, an error checking program is run through, in which occurring errors detected by the switching unit or the overcurrent release can be entered and read out in the error message memory, so that they can subsequently be rectified. A restart will reset the error message memory and allow the error checking program to be run through a second time. During operation of the switch, a query of all self-monitoring functions for possible errors takes place cyclically later.

The error memory offers space for up to n error entries according to its storage volume, which can be represented by different error codes. When an error is detected, the software carries a uniquely identifiable, cause of failure associated error code in the error reporting ^¬ store one. If the circuit breaker has a timing system, then the time of occurrence of an error can be recorded and compared later with the occurrence of external events.

Appropriately, the error in the order they are to be stepping ^¬ saved. The error message memory allows by reading a precise differentiated analysis of the errors occurred.

The contents of the error message memory may suitably about ex ^¬ tern attached diagnostic devices, for example a Perso ^¬ nal computer with diagnostic software or communication interfaces ^¬ of the overcurrent release and transferred out ^¬ be enhanced. With appropriate implementation of a built-in electronic overcurrent release display device, such as an LCD display, a clear ^¬ text description of the error is possible.

With a corresponding implementation, according to a further preferred variant, non-volatile storage of the content of the error message memory in a memory module (for example EEPROM) integrated in the electronic overcurrent release is also possible. In this case, the operator of the circuit breaker for sporadic failures could take out the overcurrent release and send it to the manufacturer and there can evaluate the error memory.

The invention will be explained below in an embodiment with reference to the accompanying drawing, which shows a basic arrangement of an electronic overcurrent release associated with a circuit breaker.

The figure shows in one embodiment a basic ^¬ Liche arrangement of belonging to a circuit breaker electronic overcurrent release. With the overcurrent release the trigger magnet of the power ^¬ switch is actuated in case of failure. The core of the overcurrent release is a controller that can access a program stored in a ROM as well as data stored in a RAM. play calibration data, accessed. In a reserved part of the RAM, an error message memory for storing errors of self-monitoring is set up. When an error is detected by the self-monitoring, an identifiable error code assigned to the error cause is entered in the error message memory, which can then be read out by a display or reading device, not shown here.

Claims

claims

1. Low-voltage circuit breaker with electronic overcurrent release and self-monitoring functions, characterized in that the electronic overcurrent release is equipped with an internal error message memory for errors in self-monitoring.

2. Low-voltage circuit breaker according to claim 1, characterized in that the overcurrent release has a volatile memory, in which a part for the storage of the error messages is reserved.

3. Low-voltage circuit breaker according to claim 1, characterized in that the overcurrent release has a nonvolatile memory, which is provided at least partially for the storage of the error messages.

4. Low-voltage circuit breaker according to one of the preceding claims, characterized in that each error is stored with an error code associated error code in the error message memory.

5. Low-voltage circuit breaker according to claim 4, characterized in that it is equipped with a timing system and the time of a fault entry can be stored together with the error code.

6. Low-voltage circuit breaker according to one of the preceding claims, characterized in that the content of the error message memory can be read by an external diagnostic device.

7. Low-voltage circuit breaker according to one of the preceding claims, characterized in that it is equipped with a display device to which the content of the error message memory is transferable.