DE3150396A1 - Control method for braking three-phase motors which are supplied from converters having a DC intermediate circuit, preferably pulse-controlled AC converters - Google Patents

Abstract

During the frequency-controlled braking of a three-phase motor (3) which is supplied from a converter having a DC intermediate circuit (10), preferably a pulse-controlled AC converter (2), it is intended to convert the existing braking energy into heat without additional braking devices in the heavy-current section in the motor. To this end, the frequency of the converter is increased as a consequence of a defined elevated intermediate-circuit voltage during braking until the intermediate-circuit voltage is reduced. This process is continuously repeated during braking. <IMAGE>

Description

Control method for braking three-phase motors,

that of converters with a DC voltage intermediate circuit, preferably Pulse converters are fed Description The invention relates to a control method according to the preamble of claim 1 and an arrangement for implementation of the procedure. A procedure of the type mentioned is in Technische Mitteilungen AEG-Telefunken'9 69 (979), issue 5/6, pages 45 to 49.

It is also known from the literature reference, the kinetic energy the centrifugal masses, which are converted into electrical during frequency-controlled braking of the three-phase motor Energy is converted in the intermediate circuit via a switchable braking resistor to be implemented in (loss) heat in parallel to the terminals of the inverter. In order to overvoltages in the intermediate circuit are avoided.

Another method to avoid excessive DC link voltages consists in the electrical energy occurring in the intermediate circuit during braking fed back into the grid via a converter (Siemens-Energietechnik 1 (1979) Booklet 4, page 108) o Both specified possibilities with which the occurrence of Overvoltages in the DC link can be avoided for drives low power (e.g.

of 1 kVA) which only rarely slow down, too expensive.

The invention is based on the object of a method for frequency-controlled Indicate the braking of a three-phase non-rotator fed by a converter that the braking energy in the motor can be converted into heat with little effort, so that additional braking devices, e.g.

Braking resistors, converters or similar are not necessary in the high-voltage circuit will.

According to the invention, this object is characterized by what is stated in claim 1 Features solved.

Due to the short-term strong frequency increase in the inverter the increased voltage in the intermediate circuit without the use of an additional braking device rapidly degraded; because of the large slip and the associated small torque there is no noticeable increase in speed for the three-phase motor.

Advantageous arrangements for performing the method according to Invention are characterized in claims 2 and 3.

In the following, the invention will be based on an exemplary embodiment of the drawing figure are explained.

The drawing shows the basic circuit diagram of a variable speed Three-phase drive with a pulse converter.

The converter consists of a line converter 1 (mostly a diode bridge), a DC voltage intermediate circuit 10 with a back-up capacitor 11 and a Pulse-controlled inverter 2, which feeds a three-phase motor 3.

The reference variable W for the n speed is set on a potentiometer 5 of the three-phase motor 3 and a steep limiter fed to the frequency change rate according to the technological conditions limited to a certain value. The output voltage of the slope limiter 6 serves both a voltage / frequency converter 7 and a Snannunas and Stromfü for controller U as a turlgy variable. The controlled variable 8 are transmitted via converters tapped at the terminals of the three-phase motor 3.

The output signals from the voltage / frequency converter 7 and from the controller 8 become control commands for the pulse-controlled inverter in a logic element 9 2 processed.

If the reference variable W is reduced while the drive is running, then n becomes the kinetic energy of the centrifugal masses of the three-phase motor 3 in electrical energy implemented, which charges the capacitor 11 in the DC voltage intermediate circuit 10.

To avoid excessive overvoltages in the intermediate circuit 10 or on the capacitor 11, the voltage in the intermediate circuit 10 is measured by a detection device 12 compared as actual value Xu with the permissible setpoint value Wu of the intermediate circuit voltage. An excessive voltage tilts a switching hysteresis exhibiting, in two-point operation working flip-flop 4. The flip-flop 4 then causes over with its output signal the voltage / frequency converter 7 a strong frequency increase in the pulse inverter 2. The increase in frequency (e.g. from 50 Hz to 150 Hz) causes the intermediate circuit capacitor to discharge 11, without there being a noticeable increase in speed, because the slip is large and the associated torque small. The frequency increase remains, as long as the trigger stage 4 due to the excessive voltage due to its hysteresis remains flipped At the same time, the output signal of flip-flop 4 is used as an integrator working slope limiter 6 granted and effected with this an integration stop if the DC link voltage is too high. With the help of the integration stop the output voltage of the slope limiter 6 is kept constant, so that none large differences arise between the speed setpoint and actual value.

If the intermediate circuit voltage has dropped below a certain value, i.e. the flip-flop 4 again on its lower hysteresis branch is again a frequency-controlled one Braking operation initiated until flip-flop 4 again indicates a voltage that is too high. This behavior takes place in a pulsating manner during the braking process, so that noticeable fluctuations in speed do not occur. Overcurrents are controlled by the fast current control of the pulse inverter 2 prevented.

Claims (3)

Control method for braking three-phase motorsD that of converters Patent claims are fed with DC voltage intermediate circuits, preferably pulse converters e Control method for braking a three-phase motor connected to a mains rectifier, DC voltage intermediate circuit and inverter7, preferably pulse-controlled inverter existing converter is connected, characterized in that - the through the braking energy on the voltage increase occurring in the DC voltage intermediate circuit is detected - by this increase in voltage a strong increase in the frequency of the Inverter is effected9 until the intermediate circuit voltage drops again is and - this process in the form of a two-point control during the duration of the braking is repeated. 2. Arrangement for performing the control method according to claim 1, characterized in that one having a switching hysteresis, in the form of a Two-point operation working Klppstufe (4) is provided, at the input of which voltage increase occurring during braking is placed in the DC voltage intermediate circuit and its output via a voltage / frequency converter (7) with the control device for the inverter (2) is connected. 3. Arrangement according to claim 2, wherein the reference variable for the speed of the three-phase motor for controlling the inverter via a slope limiter which limits the rate of change of frequency, characterized in that that the output of the flip-flop (4) also with the slope limiter (6) in such a way is connected that its output voltage during the increased intermediate circuit voltage is kept constant.