CS232528B1 - Electrical system input protection wiring - Google Patents

Abstract

BACKGROUND OF THE INVENTION The present invention relates to an electrical system input protection circuit. The essence of this is that a positive temperature coefficient resistor is connected between the input components of the electrical system. The invention can be used where ee uses electrical systems requiring protection from rutting energies, especially for contact elements such as limit switches, pushbutton controls or non-contact position sensors used to drive system input.

Description

The present invention relates to an electrical input protection circuit.

At present, circuits composed of resistors and capacitors are used to protect the input of the electrical system.

These cells are connected in series or parallel to the input. Most commonly, a salt is used in which a capacitor is connected in parallel to the input, and a resistor is connected in series to form a salt inertia cell that limits the induced foreign voltage. This solution has the disadvantage that ae prolongs the time response of the system to the input signal.

Another way is to connect the resistor in parallel to the input. This reduces the input impedance and the foreign induced interference voltage and suppresses it. This solution has the disadvantage of high energy input input excitation, which is particularly evident in systems containing tens to hundreds of inputs that are commonly used in practice.

These disadvantages of the prior art are largely overcome by the input protection circuit of the electrical system according to the invention, which is based on a positive temperature coefficient resistor arranged between the input terminals of the electrical system.

The advantages of wiring the input protection of the electrical system according to the invention reside in the simplicity of the design, the reduction of the energy consumption for driving the input and the damping and the consumption of electricity, and increasing the immunity of the input against interference. Another advantage of the wiring according to the invention is the possibility of saving in the construction of a power supply which can be dimensioned for less power while maintaining a faster response of the system to the control signal.

The invention will now be described in more detail with reference to the accompanying drawing, in which an exemplary embodiment of an input protection circuit of an electrical system according to the invention is shown.

A resistor 2 with a positive temperature coefficient is connected to the input terminals of the electrical system 2 and a power supply 2 is connected in parallel via the switch 2 ·

In operation, when the switch 2 is open, the input of the electrical system 2 is not excited and the temperature of the resistor 2 with a positive temperature coefficient is comparable to the ambient temperature. In this state, the resistance value of resistor 2 with a positive temperature coefficient is small, and resistor 2 β with a positive temperature coefficient suppresses any foreign disturbing induced voltage.

When the switch 2 closes, the input voltage of the electrical system 2 is energized. Consequently, the current flow is reduced, thereby reducing the power dissipation at the resistor and reducing the energy consumption of the input excitation.

The input protection circuit of the electrical system 2 according to the invention can be used wherever electrical systems requiring protection against disturbing voltages are used. Its advantages and effects are particularly evident when the system input is energized, for example by contact elements such as limit switches, pushbuttons or contactless position sensors.

Claims (1)

Electrical system input protection circuit, characterized in that a resistor (2) with a positive temperature coefficient is arranged between the input terminals of the electrical system.