Electronic trip unit with user-adjustable sensitivity to...

Electricity: electrical systems and devices – Safety and protection of systems and devices – With specific current responsive fault sensor

Reexamination Certificate

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Details

C361S093100, C361S094000, C702S078000

Reexamination Certificate

active

06262872

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates generally to circuit breaker trip units. More specifically, the present invention relates to an electronic trip unit with adjustable sensitivity to current spikes.
The use of electronic trip units in electric circuit breakers is well known. Trip units can be used for, among other purposes, providing short circuit protection to an electrical distribution circuit. In this capacity, the trip unit samples current in the power lines of the distribution system to detect a short circuit. If a short is detected, the trip unit provides a trip signal to an actuating device, such as a trip solenoid, within the circuit breaker. Upon receiving the trip signal, the actuating device separates a pair of contacts within the circuit breaker to open the distribution circuit and protect the distribution circuit from damage caused by the short circuit.
The construction of an electronic trip unit is also known. Electronic trip units typically comprise voltage and/or current sensors, which provide analog signals indicative of the power line signals. The analog signals are converted by an A/D (analog/digital) converter to digital signals, which are processed by a signal processor. Electronic trip units further include RAM (random access memory), ROM (read only memory) and may also include EEPROM (electronic erasable programmable read only memory) all of which interface with the signal processor.
To detect short circuits in the distribution circuit, trip units monitor peaks in the current within the power lines. Generally, trip units compare the current in the power lines to some threshold value. For example, this threshold value may be seven times the rated current of the circuit breaker. If the current in the power lines exceeds this threshold value, indicating a short circuit, the trip unit generates the trip signal.
FIG. 1
shows a current waveform of fundamental frequency. In the waveform shown, the current peak is higher than the threshold value and, therefore, this waveform is indicative of a short in the circuit. A trip unit would generate a trip signal if the waveform of
FIG. 1
were detected.
FIG. 2
, however, shows a current waveform with current spikes caused by high harmonic content or noise. Such current spikes can cause the circuit breaker to trip, even where no short circuit exists. Trips caused by these current spikes can be a nuisance.
Attempts have been made to overcome this problem by using processing algorithms to filter out the current spikes. While such is well suited for certain applications, such as drive systems, where current spikes are commonly generated, it is problematic in other applications, such as high-frequency systems (e.g., 400 Hz systems or resistive load circuits), where the user desires the trip unit to trip in response to such current spikes.
BRIEF SUMMARY OF THE INVENTION
In an exemplary embodiment of the invention, a circuit breaker trip unit with user-adjustable sensitivity to current spikes comprises a microprocessor arranged for receiving a line signal indicative of current within an electrical distribution circuit. The microprocessor compares the line signal to a predetermined threshold value. If the line signal exceeds the threshold value, the microprocessor increments a peak count. A user-adjustable switch is arranged to provide the microprocessor with a limit value. When the peak count reaches this limit value, a trip signal is generated by the microprocessor. User-adjustable sensitivity to current spikes is beneficial, as it allows the user to tailor the sensitivity of the trip unit to a particular application. For example, it allows the user to decrease sensitivity for applications, such as drive systems, where current spikes are commonly generated. Conversely, the user can increase sensitivity for applications, such as high-frequency systems (e.g., 400 Hz systems or resistive load circuits), where maximum sensitivity is desired.


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