DE1638599B2 - Method and arrangement for controlling the speed and direction of rotation of a three-phase machine - Google Patents

Description

Frequency transmitter a voltage regulator, which can save value at an input 17 of the Fre device to influence the input DC generator 12,

voltage is provided, specified as the actual control value. If longer and repeated load changes in the is. Operation of the three-phase machine 2 should occur,

The frequency generator for controlling the current 5 can also have a current-dependent supply of a Richter can preferably be used as a flow regulator or auxiliary variable for the setpoint value via input 17 Be designed rotor frequency regulator. He will be provided at. At part load, the setpoint is then Input a fixed setpoint for the encoder 13 to a correspondingly low setpoint respective machine size, so set for the magnetic, which has a good efficiency of the rotary flux or for the rotor frequency. The io stront machine 2 results. In a subsequent The actual value of this machine variable is recorded or the setpoint is also quickly increased using the and also an input of the current-dependent controller as an auxiliary variable at input 17 trained frequency generator specified. gig tracked.

The output signal of the control device 10 of the converter 4, designed as a controller, is

Frequency generator, a voltage regulator 20 is connected upstream of the voltage regulator for the 15. This span DC input voltage as the actual control value preset controller 20 is provided by a setpoint generator 21, the ben. This voltage regulator then regulates accordingly, also indicated as a potentiometer, a corresponding one an adjustable voltage setpoint, the corresponding setpoint is given. The voltage control deviation the end. Since the actual control value is a measure for yaw 20 controls according to this set target Speed of the three-phase machine, the 20 value is used for the DC input voltage of the converter the voltage regulator for setting ters 3 Hine the flow of the three-phase machine 2 neither Rotational speed. The frequency of the converter is at least approximately proportional to the electrical quantity in the event of a change in the DC input voltage, the converter 16 trains this as a flux regulator a rectifier or a DC frequency generator 12 is specified. This electric ler is delivered, tracked accordingly. The size is a function of the DC input voltage

To further explain the invention, reference is made to the converter 3. The output signal of the Fredie Reference is made to the drawing, in which an embodiment encoder 12 is used as an example of the control device 9 an arrangement for implementing the output signal and the voltage regulator 20 as a control method according to the invention, the appropriate value is given schematically. The actual control value is first is clear. 30 Approximation of a measure for the speed of the three-phase

A three-phase machine 2 is connected to an automatic machine 2. The voltage regulator 20 thus becomes a power converter 3 and a direct current on-speed regulator, and the output circuit and a line-commutated converter 4 can be connected to a three-phase network at the setpoint generator 21 . The same. When the setting of the nominal current input circuit is changed, a smoothing device 35 value transmitter 21 changes the input DC span contained as smoothing choke 5 and smoothing voltage of converter 3. Frequency transmitter 12, capacitor 6 is indicated. The smoothing capacitor is part of the flow control loop, regulates entspresatorö can also be closed between two chokes according to the changed input DC voltage. The controlled valves, in particular the frequency of the converter 3,
their thyristors, the power converter 3 and 4 is each 40. For the arrangement shown, it can be assigned to a control device 9 or 10 under Um. It would be advantageous to provide a current limiting control device 9, a frequency generator 12, which switches as a special feed, whose output signal the frequency of the electrical variable via an additional terminal 22 output pulses of the control device 9 and thus of the voltage regulator 20 is indicated.
the frequency of the current flow of the main valves of the 45. In the exemplary embodiment, a flow control of the self-commutated converter 3 is determined. Three-phase machine 2 is provided. But it can

In the illustrated embodiment, other control methods, for example the so-called flow controller, are also provided as the frequency transmitter 12, which is used by the rotor frequency control or a rotary unit. In each case, a fixed flow setpoint is specified. 50 according to the invention, the DC input voltage is adjusted to detect the actual flux value of the three-phase current converter 3, and the frequency of the machine 2 are various known devices converter 3 is sensed accordingly,
suitable. It may be advantageous under certain circumstances, in the embodiment e ^is: ne means for

a device for simulating the machine flow simulation is provided, which is called the flow reflux to use the frequency generator 12, preferably formed from a 55 yaw, the actual flux value Throttle 14 with a downstream rectifier of the three-phase machine 2 specifies. If the runner-15 and a converter 16 may exist. frequency as a machine size and a rotor frequency

If the flow simulation is provided with an error behavior controller as frequency generator 12, then Should be tet, an additional setpoint value can be added to the device for flow simulation, for example for the flow regulator designed as a flow regulator by a built-up in a known manner quenzgeber 12 may be provided. The additional target rotor frequency generator must be replaced.

1 sheet of drawings

Claims (7)

Chronometer machine over a wide range patent claims can be achieved: by changing the frequency of the feeding three-phase current. With speed control through 1. Method for controlling the speed and changing the supply frequency and the clamping chip direction of rotation a three-phase machine that is known to be the terminal voltage of the a converter is connected, the frequency of which is adapted. Since the Drebstrora asynquence the supply frequency and its chronological input machine in the stator circuit mainly reactant voltage contains the terminal voltage of the rotation, the terminal voltage is in the general power machine determined, thereby identified approximately proportionally to the feed frequency, draws that the input DC voltage io because then an approximately constant magnetides Converter (3) specified and the Frescher flux results. The behavior of the three-phase sequence of the converter (3) depending on the asynchronous machine with such a frequency converter DC input voltage is tracked. proportional tracking of the terminal voltage 2. The method according to claim 1, characterized in that (AEG-Mitteilungen 56 [1966], 6, p. 370 indicates that the output signal of a Fre- 15 to 374). quenzgebers (12) for the converter (3) as Re- It is still with the speed control several- actual value for regulating the input rectifier three-phase machines by means of a converter voltage is used. known (AEG-Mitteilungen 56 [1966], issue 6, 3. Arrangement for carrying out the procedure Page 372, Figure 4) to control the supply frequency of the three-phase current according to claim 2 with a frequency generator that determines the frequency of the ao machine and its terminal voltage to the converter. For the setting of the supply frequency and the fact that the setpoint value of the terminal voltage is set as a regulator, a frequency generator (12) is provided for the actual value of a common variable resistor.
Machine size and by means of a setpoint generator It has now been recognized that this type of Steue- (13) a fixed set setpoint value for this ma- 25 tion of the SpeI ^c £ frequency and the adjustment of the schin size are specified and that the initial clamping voltage or DC input voltage input signal of the frequency generator (12) to a voltage because of the not to be neglected time constant controller (20), which is unsatisfactory for a device (4, 10) th in the DC input circuit of the converter for influencing the input DC voltage, if rapid speed changes are not intended, is specified as the actual control value . 30 genes, especially for single drives, are necessary 4. Arrangement according to claim 3, characterized thereby. If the frequency of the converter is marked on, that at ei em input (17) of the common variable resistor adjusted faster than that Frequency generator (12) an additional supply terminal voltage because of the size of the time cone Auxiliary variable can be tracked as a setpoint correction for the constant, so the deviation tends of the three-phase machine closed by a replica device 35 for tilting. The (14 up to 16) actual value delivered by the real known method is therefore for fast processes, Machine size is provided. especially for drives with setpoint load surges, 5. Arrangement according to claim 3, thereby not suitable. indicates that the fixed setpoint value results from the task, the unfavorable of the frequency generator (12) an additional sfrom- 40 effect of the time constants of the direct current single-dependent Auxiliary variable (17) is activated. gang circle and the associated inertia in 6. To avoid the arrangement according to one of claims 3 of the control dynamics. to 5, characterized in that the fre- This task is carried out in the aforementioned frequency generator (12) as an actual value of machine travel, according to the invention, in that the input variable the magnetic flux is supplied. 45 DC input voltage of the converter is specified 7. Arrangement according to one of claims 3 and the frequency of the converter as a function to 5, characterized in that the Fre- is tracked by the input DC voltage, quenzgeber (12) as the actual value of a machine. This enables fast frequency and voltage values supplied to the rotor frequency. changes and thus an absorption of load surges 50 of the three-phase machine, so that tilting of the machine machine is avoided. It is now advisable to use the DC input voltage The invention relates to a method for controlling the converter in a control loop. According to a development of the method, the speed and direction of rotation are therefore controlled Three-phase machine connected to a converter 55 that the output signal of a frequency • connected whose frequency is the feed frequency encoder for the converter as the actual control value for a and whose DC input voltage uses the terminal control of the DC input voltage voltage of the three-phase machine is determined, as well as. The output signal of the frequency generator enteine Arrangement for carrying out the process, speaks approximately the speed of the three-phase The input DC voltage of the converter 60 machine, so that the regulation of the input DC voltage is generally equivalent to a control of the speed of a line-commutated current judge delivered. But it can also be, for example. an accumulator battery with a downstream device electrical DC chopper may be provided. rens is characterized by the fact that it acts as a controller Such converters are, for example, the actual value of a mesh from the clearly designed frequency generator Auslegeschrift 1 222 156 or from the Austrian size and by means of a setpoint generator French patent 234 221 known. Fixed setpoint for this machine size A speed control of a three-phase Asyn- are specified, and that the output signal of the