DE2427859A1 - ARRANGEMENT FOR FAST AND LOW-LOSS SWITCHING OF INDUCTIVITIES - Google Patents

Description

JENOPTIK JENA GmbH

September 5, 1973

Quick and low-loss arrangement Switching of inductances .- "/ - ■

The invention relates to an arrangement for the rapid and low-loss switching of inductances, in particular for stepper motors.

Control circuits are already known in which the switch-off voltages of the inductances are generated by diode-resistor networks be suppressed.

The shutdown energy is converted into heat and cannot be recovered.

There are also the methods of switching off on counter-voltage. and the partial recovery of the buffered cut-off voltage is known. ·

However, these methods can only be used for control switches with at least two switching elements. This is the Schaltungsaiiyyand relatively high. '

The purpose of the invention is to eliminate the deficiencies described.

The invention is therefore based on the object of a To realize a control circuit that switches inductances quickly and with low losses using simple means.

This task is in an arrangement for fast and low-loss switching of inductances, in particular for Stepper motors with switch-off on counter voltage and one partial recovery of the shutdown energy according to the invention solved in that for the disconnection on counter voltage and

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. . ORlGiNAL INSiPECTED

the partial kick generation of the refusal energy control switch are provided with only one switching element.

The invention is based on three shown in the drawing Embodiments are explained in more detail. In the drawing shows:

Pig. 1 the embodiment 1 _, ■ 'Pig. 2 "the embodiment 2, Pig. 3 the embodiment 3,

In the embodiment according to Pig. 1, the inductances 1, 2, 3, 4, which are identical to one another, can optionally be connected to a filter chain of a power supply unit consisting of capacitors 9 and 10 and a choke 11 via switches 5, 6, 7, 8. The cut-off currents each flow via diodes 12, 13, 14, 15 to the capacitor 9 and charge it to a voltage that is greater than an original operating voltage U ^. The shutdown energy is stored in the capacitor 9 and the choke 11 until it is activated by switching on at least one of the inductances 1, 2, 3, 4 by the switches 5, 6, 7, E? is deducted.

..The one in Pig. Embodiment 2 shown in FIG is the operating voltage supply line Uj for the inductances 1, 2, 3, 4 shared. The inductances 1, 2 are optionally decoupled via the switches 5, 6 to the ones that are decoupled by a diode 15 Supply branch connected and the inductance he. 3, 4 are switched via switches 7, 8 optionally to the by a Diode 17 decoupled feed branch connected. The cutoff currents of the inductances 1, 2 each flow over the

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two diodes 12, 13 to a capacitor 18, which is located in the feed branch decoupled by the diode 16, and charge this.

The cut-off currents of the inductances 3 and 4 each flow via the two diodes ″ 14, 15 to a capacitor 19, which is located in the supply branch decoupled by the diode 17, and charge it. The stored in the capacitor 18 Switch-off energy is used as switch-on energy for the inductors 3, 4 used, while the switch-off energy stored in the capacitor 19 is used as switch-on energy for the inductors 1, serves. . ·

This method can be applied to any number of operating voltage supply lines be expanded.

The one in Pig. 3 ^ illustrated embodiment 3, the two inductors 1, 2 can be optionally connected to the operating voltage Ug via the switches 5 »β. The cut-off currents of the inductances 1, 2 flow via diodes 12, 13 to a capacitor 20 and charge it to a voltage higher than the operating voltage U ₃ . The discharge current of the capacitor 20 is impressed on the operating voltage IL via a resistor 21 and can be used to switch on the inductances 1, 2. This exemplary embodiment is particularly suitable for a reciprocal control of the inductances 1, 2.

The advantages of the embodiments shown in the drawing are, in addition to the low power losses on the building

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elements and the short shutdown processes result in the higher rates of current rise when the inductances are switched on due to the higher operating voltages as a result of the energy recovery.

.. The idea of the invention applies equally to two-voltage switches applicable.

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Claims (1)

• patent claim Arrangement for fast and low-loss switching of inductances, especially for stepper motors, with a switch-off on counter-voltage and a partial recovery of the switch-off energy, that for the switch-off on counter-voltage and the partial recovery of the switch-off energy control switch are provided with only one switching element. Pp / Pi / Mrg '' 509812/0696 2866 Blank page