CN101479928A

CN101479928A - Inverter control device and its operation method

Info

Publication number: CN101479928A
Application number: CNA2007800244377A
Authority: CN
Inventors: 山本阳一; 野中和浩; 中井政树
Original assignee: Yaskawa Electric Corp
Current assignee: Yaskawa Electric Corp
Priority date: 2006-06-28
Filing date: 2007-05-29
Publication date: 2009-07-08
Anticipated expiration: 2027-05-29
Also published as: JP4831527B2; CN101479928B; JP2008011621A

Abstract

It is possible to provide an inverter control device capable of performing continuous operation without causing a trip or unnecessary torque ripple at an excessive voltage or a low voltage during an instantaneous power supply stop or a regenerative operation. A method for operating the device is also provided. The inverter control device (20) includes a voltage detection circuit (5) for detecting a terminal voltage of a smoothing capacitor (2) and a speed instruction selection circuit (6) for detecting an instantaneous power supply stop of AC power supply. The inverter control device (20) further includes a power calculation circuit (36) for calculating a power output and a speed instruction calculation circuit (7) for calculating a power output target value and a speed instruction value upon an instantaneous power supply stop.

Description

Circuit control device and method of operation thereof

Technical field

The present invention relates to a kind of circuit control device that is used for gear shift mode control AC motor, and more specifically, the method that relates to a kind of circuit control device and be used to operate this circuit control device, make can continued operation during the instant cut-off and can handle regenerated energy between deceleration period, and the AC motor is operated under the regeneration load at the AC motor.

Background technology

In the situation of the first conventional inverter controller, according to its method of operation during instant cut-off, when the terminal voltage (intermediate voltage) of smmothing capacitor is reduced to level 1 or when lower, the AC motor is decelerated, when because regenerated electric power by slow down obtaining, intermediate voltage is elevated to level 2 or when higher, the AC motor quickens, and repeat acceleration control according to the rising of intermediate voltage or reduction subsequently as mentioned above, the fall off rate of intermediate voltage is lowered (for example, referring to Patent Document 1) thus.

In the situation of the second conventional inverter controller, circuit control device uses the outage detectable signal and reduces speed now, thereby the probe value of based target value and DC intermediate voltage calculates rate of deceleration 1 DC intermediate voltage between deceleration period and becomes constant, rate of change based on the DC intermediate voltage calculates rate of deceleration 2, and by pro rata to controlling deceleration time by the value integration that obtains that these two rate of deceleration are multiplied each other, when reaching the voltage before outage is surveyed or raise between deceleration period, the DC intermediate voltage stops thus slowing down (for example, referring to Patent Document 2).

In the situation of the 3rd conventional inverter controller, when output frequency reduction and motor deceleration, the magnitude of voltage of main circuit (corresponding to the terminal voltage value of smmothing capacitor) raises; Thereby according to deceleration time of the magnitude of voltage of the main circuit that is detected control motor when the voltage detection value is higher than predetermined first magnitude of voltage, be extended deceleration time, thereby and when the voltage detection value reaches second magnitude of voltage that is higher than first magnitude of voltage, stop to slow down (for example, referring to Patent Document 3).

In the situation of the 4th conventional inverter controller, when the dc voltage (corresponding to the terminal voltage value of smmothing capacitor) that applies the regeneration load and detected during motor operation surpasses fiducial value, obtain upborne output frequency by multiply by the constant proportional gain in the difference between dc voltage value that is detected and the fiducial value, and carry out control with rising output frequency (for example, referring to Patent Document 4).

Fig. 8 is the view that the operation of the 4th conventional inverter controller is shown, and this circuit control device is used for driving this AC motor when for example regenerated energy uses the AC motor under the loading condition that the bottom dead centre place of squeezer raises therein.In the drawings, f represents that output frequency, Vdc represent the DC busbar voltage, and Vdc0 represents DC busbar voltage stall level, and Vdc2 represents overpressure level.

When using deceleration instruction to reduce output frequency f (at the p1 place) and motor deceleration, DC busbar voltage Vdc is raise by the regenerated energy from motor.When DC busbar voltage Vdc became the horizontal Vdc0 of DC busbar voltage stall or higher (at p2 and p4 place), output frequency f was raised to prevent the overvoltage tripping operation.Because output frequency f is raised, regenerated energy is lowered; When DC busbar voltage Vdc is lowered and become the horizontal Vdc0 of DC busbar voltage stall or lower (at p3 and p5 place), carry out deceleration instruction once more.

The method of operation that during instant cut-off, is used for the conventional inverter controller, by governing speed instruction or by determining rate of deceleration, be the regenerative operation drive motors based on the level of the terminal voltage (intermediate voltage) of smmothing capacitor or the operation of outage detection circuit.

And then, slowed down at the AC motor when the DC busbar voltage and the AC motor is elevated to predetermined voltage or is used for the method for operation of conventional inverter controller when higher at the regenerated energy of the load following operating period of regenerating, repeat prolong deceleration time, stop to slow down or thereby the step of rising output frequency suppresses the DC busbar voltage and raises, prevent the overvoltage tripping operation thus according to the level of DC busbar voltage.

Patent documentation 1: do not authorize Japanese Patent Application Publication No.Hei6-165579

Patent documentation 2: Japan Patent No.3201460

Patent documentation 3: Japan Patent No.3095083

Patent documentation 4: Japan Patent No.3536695

Summary of the invention

Problem to be solved by this invention

In the method for operation that is used for the conventional inverter controller, survey the terminal voltage level of smmothing capacitor, and according to this voltage levvl control deceleration time and output frequency; Therefore, in described method is applied to wherein being applied to situation with the system of the load variations of driven AC motor, be difficult to determine controlling the size of output frequency; If the variation of output frequency is slow, then produce tripping operation at under-voltage or excessive rolling, such problem perhaps takes place, wherein slow down and acceleration is repeated and produce vibration in motor.Especially, be applied in the situation of circuit control device of the smmothing capacitor that has the system of low mechanical stiffness or be provided with electric capacity with reduction in described method, in DC busbar voltage (Vpn) on/to change down be precipitous; Therefore, the problems referred to above take place significantly.

Consider these problems, one object of the present invention is to provide a kind of circuit control device and a kind of method that is used to operate circuit control device, make it possible to continued operation and do not require difficult adjusting, even and be applied in the situation of circuit control device of the smmothing capacitor that has the system of low mechanical stiffness or be provided with electric capacity in the present invention with reduction, during the instant cut-off or the AC motor slow down and the AC motor regenerating load following operating period also not can overvoltage or under-voltage under cause tripping operation.

Be used to solve the method for described problem

In order to address the above problem, the present invention is configured as described as follows.

According to claim 1 of the present invention, a kind of circuit control device is provided, comprising:

As the AC motor of load,

Be used for becoming the rectification circuit of DC electric power from the AC power conversions of AC power supplies,

Be used for smoothly coming the smmothing capacitor of the dc voltage of self-rectifying circuit,

The inverter circuit of the frequency that is used for becoming desired via the DC power conversions of smmothing capacitor supply,

Be used to survey the current detection circuit of the output current of inverter,

Be used to survey the voltage detection circuit of the terminal voltage of smmothing capacitor,

Be used to calculate circuit control device the power output valve power calculation circuit and

The speed command counting circuit, be used for based on terminal voltage and power output valve rated output export target value, and be used for calculating the speed command that during instant cut-off, uses, perhaps instruct according to the output valve computational speed of voltage detection circuit based on power export target value and power output valve.

According to claim 2 of the present invention, provide a kind of circuit control device, wherein according to claim 1

Described speed command counting circuit adds by the symbol based on the power output valve or the power loss value that subtracts circuit control device is calculated with corrected power export target value.

According to claim 3 of the present invention, provide a kind of circuit control device, wherein according to claim 1

Described speed command counting circuit adds by the symbol based on power export target value or the power loss value that subtracts the machine that comprises the AC motor is calculated with corrected power export target value.

According to claim 4 of the present invention, provide a kind of circuit control device, wherein according to claim 1

Described speed command counting circuit is proofreaied and correct the torque target value by the speed command calculating torque desired value of using the deviation between power export target value and power output valve and export the last time.

According to claim 5 of the present invention, provide a kind of circuit control device, wherein according to claim 1

Described speed command counting circuit restriction is based on the torque target value of the velocity information acquisition of power export target value and AC motor.

According to claim 6 of the present invention, provide a kind of circuit control device, wherein according to claim 1

At described AC motor is in the situation of induction machine, and described speed command counting circuit calculates the slip speed instruction by use based on the torque target value of the velocity information acquisition of power export target value and AC motor and calculates the slip speed instruction.

According to claim 7 of the present invention, provide a kind of according to any one circuit control device in the claim 1 to 6, also comprise:

The frequency instruction counting circuit is used for substituting the frequency instruction that the speed command counting circuit calculates the AC motor.

And then in order to address the above problem, the present invention is configured as described as follows.

According to claim 8 of the present invention, a kind of fluctuation of circuit control device solution AC power supplies or method of operation of instant cut-off of being used to is provided, this circuit control device has: as the AC motor of load, be used for to become the rectification circuit of DC electric power from the AC power conversions of AC power supplies, be used for smoothly coming the smmothing capacitor of the dc voltage of self-rectifying circuit, the inverter circuit of the frequency that is used for to become desired via the DC power conversions of smmothing capacitor supply, be used to survey the current detection circuit of the output current of inverter, voltage detection circuit with the terminal voltage that is used to survey smmothing capacitor

This method of operation may further comprise the steps:

Calculate the power output valve of circuit control device,

Based on terminal voltage and power output valve rated output export target value and

Calculate the speed command that during instant cut-off, uses based on power export target value and power output valve, perhaps instruct according to the output valve computational speed of voltage detection circuit.

Effect of the present invention

Utilization is according to the present invention of claim 1 to 8,

Can be based on the loop that is used for the power output of control inverter controller along the target voltage of the terminal of smmothing capacitor 2 and loop internal configurations that detecting voltage is determined deceleration instruction, and the desired value of the terminal voltage of smmothing capacitor can be restrained apace.

And then, utilize the present invention according to claim 2, can the power loss value of circuit control device be taken in, and utilize the present invention according to claim 3, can the power loss value of the machine that comprises the AC motor be taken in; Therefore, even therein in the consistent each other state of the target voltage of the terminal of smmothing capacitor and detecting voltage, also can carry out level and smooth deceleration-operation, and unnecessary deceleration stops and slowing down not being repeated.

And, utilize the present invention according to claim 5, by the torque-limiting desired value, can prevent to produce excessive torque, can protect the machine that is used thus.

Further, utilizing the present invention according to claim 6, is in the situation of induction machine as the AC motor that is used load therein, can compensate difference frequency, can shorten thus in the time of delay before acquisition plan regenerated electric power.

Description of drawings

Fig. 1 is the general configuration diagram table that illustrates according to the circuit control device integral body of the first embodiment of the present invention;

Fig. 2 is the block diagram that is used for the speed command selection circuit 6 of selection speed command during outage is surveyed according to the first embodiment of the present invention;

Fig. 3 is the block diagram according to the speed command counting circuit 7 of the first embodiment of the present invention;

Fig. 4 is the sequential chart when outage takes place;

Fig. 5 is the general configuration diagram table that circuit control device integral body according to a second embodiment of the present invention is shown;

Fig. 6 is the block diagram of sequence circuit 70 according to a second embodiment of the present invention;

Fig. 7 is the block diagram of frequency instruction counting circuit 71 according to a second embodiment of the present invention; With

Fig. 8 is the sequential chart of the operation of signal prior art.

Reference numeral

1 rectification circuit

2 smmothing capacitors

3 inverter circuits

4 current detection circuits

5 voltage detection circuits

6 speed commands are selected circuit

7 speed command counting circuits

8 voltage instruction counting circuits

9 pwm control circuits

10 base drive circuits

11 electromagnetic contactors

12 speed commands are provided with device

13 AC motors

20,20 ' circuit control device

21 switching circuits

22 soft starters

23 OR circuit

24 comparators

25,31,32,61,62,63 coefficient multipliers

34 energy object value counting circuits

35 circuit for calculating energy

36 power calculation circuits

37,60 subtracters

40 adders-subtracter

49 delay circuits

52 dividers

53 torque limit circuit

58 difference frequency counting circuits

59,64 adders

70 sequence circuits

71 frequency instruction counting circuits

72 frequency instructions are provided with device

73 switching circuits

74 comparators

75,76,77,82,85,88 coefficient multipliers

78 energy object value counting circuits

79 circuit for calculating energy

80,91 subtracters

81 power calculation circuits

83 restricting circuits

84 adders-subtracter

86 dividers

87 torque limit circuit

89,90 adders

92 difference frequency counting circuits

93 delay circuits

Activation signal is surveyed in a outage

B power-off time speed command

The c speed command

The instruction of d output voltage

The e output current is surveyed

The f detectable signal that cuts off the power supply

The common time speed command of g

Embodiment

To instantiation according to embodiments of the invention and the method according to this invention be described based on accompanying drawing.

Embodiment 1

Fig. 1 is the general configuration diagram table that illustrates according to circuit control device integral body of the present invention.In Fig. 1, numeral 1 representative is used for and will becomes the rectification circuit of DC electric power from the AC power conversions of AC power supplies, numeral 2 is represented the smmothing capacitor of the dc voltage that is used for smoothly coming self-rectifying circuit 1, the inverter circuit 3 of the frequency that numeral 3 representatives are used for becoming desired via the DC power conversions of smmothing capacitor 2 supply, numeral 4 representatives are used to survey the current detection circuit of the output current of inverter circuit, numeral 5 representatives are used to survey the voltage detection circuit of the terminal voltage of smmothing capacitor 2, whether numeral 6 representatives are used for having taken place to select the speed command of speed command to select circuit according to off-position, numeral 7 representatives are used for the speed command counting circuit of computational speed instruction during outage is surveyed, numeral 8 representatives are used for calculating based on the speed command that sends from speed Instruction Selection circuit 6 the output voltage command calculations circuit of output voltage instruction, numeral 9 representatives are used for based on the output signal of sending from speed Instruction Selection circuit 6 and the pwm control circuit of PWM control inverter circuit 3, and numeral 10 representatives are used for based on the base drive circuit that drives inverter circuit 3 from the output signal of pwm control circuit 9; Circuit control device comprises these members.

Numeral 11 electromagnetic contactors of represent on the AC power supplies side, the speed command that numeral 12 representatives are used to set the speed command of common operating period is provided with device, and numeral 13 representatives are by the AC motors of the output driving of inverter circuit 3; These members are connected to circuit control device 20.

Whether the present invention is different from the prior art part and is, be provided for having taken place to select the speed command of speed command to select circuit 6 and the speed command counting circuit 7 that is used to calculate the power-off time speed command according to off-position; Speed command counting circuit 7 is provided with the loop of the power output that is used for control inverter controller 20 in the inside, loop that the target voltage Vpnc and the detecting voltage Vpn that are used for based on smmothing capacitor 2 determine deceleration instruction, and further is provided with torque limit circuit 53 and other circuit that is used for the torque-limiting desired value.

Whether Fig. 2 is used for having taken place to select the speed command of speed command to select the block diagram of circuit 6 according to off-position.In Fig. 2, speed command selects circuit 6 to have the switching circuit 21 that is used to set UV level 1, soft starter 22, OR circuit 23, comparator 24 and coefficient multiplier 25, the output signal of OR circuit 23 is sent to speed command counting circuit 7, this OR circuit 23 is used to calculate the logic OR of the output signal of the comparator 24 of description afterwards that surveys activation signal and conduct outage detectable signal from the outage of electromagnetic contactor 11, and, further, select described speed command by starting switch circuit 21 and by switching between the common time speed command that device 12 is set at the power-off time speed command of speed command counting circuit 7 with from speed command via soft starter 22 to speed command counting circuit 7 and the instruction of voltage instruction counting circuit 8 transmission speeds.

Comparator 24 compares from the terminal voltage Vpn of the smmothing capacitor 2 of voltage detection circuit 5 and the output of coefficient multiplier 25, and when terminal voltage Vpn is lower than the output of coefficient multiplier 25, comparator 24 output UV (under-voltage) signals " 1 ".

Fig. 3 is the block diagram that is used to calculate the speed command counting circuit 7 of power-off time speed command.In Fig. 3, speed command counting circuit 7 has the coefficient multiplier 31 and 32 of the capacitor C of target voltage Vpnc on the terminal that is used to set smmothing capacitor 2 and smmothing capacitor 2, be used for calculating energy object value counting circuit 34 in the desired value of the energy of smmothing capacitor 2 storages, be used for calculating circuit for calculating energy 35 at the energy of smmothing capacitor 2 storages, power calculation circuit 36, subtracter 37, adder-subtracter 40, delay circuit 49, divider 52, torque limit circuit 53, difference frequency counting circuit 58, adder 59, subtracter 60, coefficient multiplier 61,62 and 63 and adder 64; (C * Vpnc is calculated in energy object value counting circuit 34 coefficient of utilization multipliers 31 and 32 output ²)/2, and the terminal voltage Vpc of the output of circuit for calculating energy 35 coefficient of utilization multipliers 31 and the smmothing capacitor 2 that sends from voltage detection circuit 5 calculates (C * Vpn ²)/2, and power calculation circuit 36 is exported P based on the inverter output current probe value that obtains at current detection circuit 4 places with from the voltage instruction value rated output that voltage instruction counting circuit 8 sends.

In coefficient multiplier 61, set and be used for making the desired value and the consistent each other proportional gain of currency of the stored energy that sends from energy object value counting circuit 34 and circuit for calculating energy 35, and the output of coefficient multiplier 61 becomes power export target value Pref.In coefficient multiplier 62, be set in the total value of the power loss in the machine that comprises circuit control device 20 and AC motor 13, and in coefficient multiplier 63, set corresponding in order to torque conversion is become the gain of the coefficient of acceleration figure, comprise that by use the inverse of the moment of inertia J of the whole load of AC motor 13 obtains described torque as guidance.

Below, will be described in the operation that is used to calculate the power-off time speed command in the speed command counting circuit 7.

Desired value (C * the Vpnc that uses subtracter 37 to obtain in above-mentioned stored energy ²Difference between)/2 and the currency multiply by gain to obtain power export target value Pref with this difference.Use adder-subtracter 40 to utilize the power loss value in the machine that comprises circuit control device 20 and AC motor 13 to proofread and correct this power export target value Pref, and pass through the difference of calculating acquisition between this corrected value and power output P of power calculation circuit 36.Use divider 52 with this difference divided by the velocity information ω r^ of AC motor 13 to obtain torque target value Tref.Use torque limit circuit 53 to limit this torque target value Tref, use the gain of setting in coefficient multiplier 63 to convert thereof into assisted instruction and use adder 54 that it is increased to present speed instruction ω r^ to obtain the power-off time speed command.

Though in the above description, the power loss value that will comprise the machine of circuit control device 20 and AC motor 13 in coefficient multiplier 62 is made as set point, but this power loss value can strictly be expressed as the function of output current of inverter etc. and combined.

And then, at used motor is in the situation of induction machine, also possible is, use the output valve of torque limit circuit 53 to utilize difference frequency counting circuit 58 to calculate difference frequency,

use adder

59 and 60 pairs of speed commands of subtracter to carry out the difference frequency compensation, thereby and the fundamental frequency instruction that is used as induction machine of the I/O speed command of speed command counting circuit 7 be shortened until the time of delay before the acquisition plan regenerated electric power.

And, though use the speed command of last output to obtain the velocity information ω r^ of AC motor 13, in conjunction with being used for surveying or the situation of the circuit of estimating speed, probe value or estimated value that can also operating speed.

Though all considered in circuit control device 20 power loss, comprising the power loss in the machine of AC motor 13 and be to the compensation of difference frequency in the situation of induction machine at used motor, thereby realized described configuration, but these any one or any combinations of a plurality of considerations in considering can be added all.Even in this case, each effect also remains unchanged.

As mentioned above, be formed for the loop of power output of control inverter controller 20 in the inside, loop of determining deceleration instruction in order to target voltage Vpnc and detecting voltage Vpn with the terminal voltage of control smmothing capacitor 2 based on smmothing capacitor 2; And then, consider the power loss value rated output export target value of the machine that comprises circuit control device 20 and AC motor 13, and use torque limit circuit 53 torque-limiting desired values.

Utilize aforesaid operations, the terminal voltage of smmothing capacitor 2 can rapidly converge to desired value; Even in the consistent each other state of the target voltage of smmothing capacitor 2 and detecting voltage, also can carry out the smooth deceleration operation, and unnecessary deceleration stops and slowing down not being repeated.And then, because can prevent to produce excessive torque, can protect the machine that is used.

Below, will use Fig. 1,2 and 3 and Fig. 4 when outage (take place sequential chart), be described in according to the operation of the continuation during outage is surveyed in the circuit control device 20 of this embodiment.

Fig. 4 (a) illustrates the on/off state of AC power supplies, Fig. 4 (b) illustrates the opening/closing state that the contact is surveyed in outage, and Fig. 4 (c) illustrates the state of operational order, Fig. 4 (d) is illustrated in the variation among the terminal voltage Vpn of smmothing capacitor 2, and Fig. 4 (f) illustrates the speed command of circuit control device 20.

If instant cut-off takes place in AC power supplies, then the terminal voltage Vpn of the smmothing capacitor 2 of working voltage detection circuit 5 detections drops to under-voltage detection level 1 (UV level 1) or lower, and perhaps electromagnetic contactor 11 is opened.(more early whichsoever) the moment is detected outage in pressure drop or opening operation.When detecting outage, speed command selects circuit 6 to use switching circuit 21 that speed command is switched to the power-off time speed command from common time speed command.

Because the terminal voltage Vpn of smmothing capacitor 2 is lower than the preset value of coefficient multiplier 31 because outage becomes, promptly, target voltage Vpnc slow down so the power-off time speed command that operating speed command calculations circuit 7 calculates is issued to carry out, and AC motor 13 reduces speed now; The regenerated energy that depends on the moment of inertia J of rate of deceleration and load charges and rising terminal voltage Vpn via 3 pairs of smmothing capacitors of inverter circuit 2.At this moment, strictly speaking, exist corresponding to the power loss in the circuit control device 20 and comprise the reduction of the power loss in the machine of AC motor 13.

On the other hand, when the outage detectable signal, when promptly the output signal of OR circuit 23 became " 1 ", speed command selected circuit 6 to send power-off signal to speed command counting circuit 7.Speed command counting circuit 7 calculates the power-off time speed command by carrying out the aforementioned calculation operation, and speed command is sent to voltage instruction counting circuit 8 with deceleration AC motor 13.

And then, relax and the terminal voltage Vpn of smmothing capacitor 2 becomes and is lower than in the situation of target voltage Vpnc in rate of deceleration, perhaps opposite, in the situation that terminal voltage Vpn becomes higher, between power export target value Pref and power output P, produce deviation; Based on the control rate instruction apace of this deviation, and control is implemented as and makes terminal voltage Vpn become consistent with target voltage Vpnc.

If before AC motor 13 slows down and stops, the instant cut-off of AC power supplies is resumed, then the terminal voltage Vpn of smmothing capacitor 2 is elevated to under-voltage detection level 1 (UV level 1) or higher, electromagnetic contactor 11 is closed, and the detectable signal that cuts off the power supply shown in figure 2 becomes " 0 " and speed command is switched the speed command that becomes to be used for common operation; Therefore, before reaching the speed command set point, quicken or deceleration taking to carry out during the time for the common needed acceleration of operation.

Utilize above-mentioned configuration, when generation instant cut-off in AC power supplies, select the power-off time speed command, carry out deceleration-operation, and smmothing capacitor 2 is charged and rising terminal voltage Vpn by regenerated energy that this operation produces; Therefore, AC motor 13 is decelerated and can be operated until it continuously and stops, and prevents the voltage step-down simultaneously; When the instant cut-off of AC power supplies is resumed, speed command is switched and becomes to be used for the speed command of operation usually, be emitted in thus to take and carry out the speed command that quickens or slow down during the time, until reaching the speed command set point to operating needed acceleration usually; As a result, even instant cut-off takes place, also can stably continue operation.

To be described below according to a second embodiment of the present invention with reference to the accompanying drawings.

Embodiment 2

Fig. 5 is the general configuration diagram table that illustrates according to the circuit control device 20 ' integral body of embodiments of the invention 2.In Fig. 5, numeral 1 is represented rectification circuit, numeral 2 is represented smmothing capacitor, numeral 3 is represented inverter circuit, numeral 4 is represented current detection circuit, digital 5 representative voltage detection circuits, digital 8 representative voltage command calculations circuit, numeral 9 is represented pwm control circuit, and numeral 10 is represented base drive circuit; The operation similar operation of the circuit of these circuit execution and circuit control device 20 shown in Figure 1; Numeral 81 representatives are used to calculate the power calculation circuit of the power output of inverter, numeral 71 representatives are in order to the frequency instruction counting circuit based on the output calculated rate of voltage detection circuit 5 and power calculation circuit 81 instruction 2 (fref2), and numeral 70 representatives are used for the output of voltage detection circuit 5 has been surpassed the sequence circuit that frequency instruction (fref) surveyed and be used for the output (fref2) of frequency instruction counting circuit 71 is made as to fiducial value.

And then numeral 72 representatives are used to export as at the frequency instruction of the frequency instruction 1 (fref1) of the frequency instruction of operating period usually device being set, and numeral 13 representatives are as the AC motors (being described as induction machine afterwards) of load.Frequency instruction is provided with device 72 and is combined with the soft start function that is used for frequency instruction is converted to the instruction with acceleration speed.

The present invention is different from the prior art part and is that the present invention is provided with sequence circuit 70 and frequency instruction counting circuit 71; Frequency instruction counting circuit 71 is provided with the loop of the power output that is used for control inverter controller 20 ' in the inside, loop of determining deceleration instruction in order to target voltage Vpnc and detecting voltage Vpn based on smmothing capacitor 2, and is provided with the torque limit circuit 87 that is used for the torque-limiting desired value.

Fig. 6 is the block diagram of sequence circuit 70.In Fig. 6, digital 73 representation switch circuit, numeral 74 is represented comparator, and numeral 75 is represented coefficient multiplier.

Based on the terminal voltage of smmothing capacitor, coefficient multiplier 75 is set and is used for determining to operate usually or prevented the threshold values that press operation is performed.This set point is the bigger value of terminal voltage value than the smmothing capacitor that can obtain in common operating period.

Fig. 7 is the block diagram of frequency instruction counting circuit 71.In Fig. 7, numeral 76 and 77 is represented coefficient multiplier, numeral 78 is represented energy object value counting circuit, numeral 79 is represented circuit for calculating energy, numeral 80 is represented subtracter, and numeral 81 is represented power calculation circuit, and numeral 82 is represented coefficient multiplier, numeral 83 is represented restricting circuits, numeral 84 is represented adder-subtracter, and numeral 85 is represented coefficient multiplier, and numeral 86 is represented divider, numeral 87 is represented the torque limit circuit, numeral 88 is represented coefficient multiplier, and numeral 89 and 90 is represented adder, and numeral 91 is represented subtracter, numeral 92 is represented the difference frequency computing unit, and numeral 93 is represented delay circuit.

In the figure, in coefficient multiplier 76, set the desired value Vpnc of the terminal voltage of smmothing capacitor 2, in coefficient multiplier 77, set the capacitor C of smmothing capacitor 2, in coefficient multiplier 82, set the output valve that is used for subtracter 80 and be controlled to be zero ride gain, in coefficient multiplier 85, be set in the loss value in the circuit control device 20 ' and comprising the total value of the loss value in the machine of AC motor 13, and in coefficient multiplier 88, set 1/J (J is the moment of inertia that comprises the whole load of AC motor 13).

In addition, the value (set point of coefficient multiplier 75) of fiducial value that is equal to, or greater than the terminal voltage of smmothing capacitor is set as Vpnc (set point of coefficient multiplier 76).

To use the operation of Fig. 5 to 7 description according to circuit control device 20 ' of the present invention.

When using deceleration instruction to reduce output frequency f or when applying when regenerating load, by the regenerated energy that obtains from AC motor 13, the terminal voltage of smmothing capacitor 2 is raised.

The voltage detection value Vpn of the smmothing capacitor that sequence circuit 70 comparison working voltage detection circuits 5 detect and the set point of coefficient multiplier 75; As Vpn〉when (set point of coefficient multiplier 75), switching circuit 73 is switched to the B side from the A side, thus with frequency instruction from frequency instruction 1 (fref1, frequency instruction is provided with the output of device 72) switch to frequency instruction 2 (fref2, the output of frequency instruction counting circuit 71), and frequency instruction 2 (fref2) export as frequency instruction (fref).

Voltage instruction counting circuit 8 calculates the output voltage instruction based on the frequency instruction (fref) that sends from sequence circuit 70, to base drive circuit 10 output signals, and base drive circuit 10 drives inverter circuit 3 based on the output signal from pwm control circuit 9 to pwm control circuit 9 based on the output signal that sends from voltage instruction counting circuit 8.

Below, use description to calculate at Vpn the method for the frequency instruction 2 (fref2) selected when (set point of coefficient multiplier 75).

Energy object value counting circuit 78 coefficient of

utilization multipliers

76 and 77 set point are calculated the energy object value (C * Vpnc of storage in smmothing capacitor 2 ²)/2, and the terminal voltage probe value Vpn of the output valve of circuit for calculating energy 79 coefficient of utilization multipliers 77 and the smmothing capacitor 2 that sends from voltage detection circuit 5 calculates the energy value (C * Vpn of actual storage smmothing capacitor 2 ²)/2.

Subtracter 80 deducts the output valve and the output energy deviation of energy object value counting circuit 78 from the output valve of circuit for calculating energy 79, restricting circuits 83 is restricted to lower limit zero with the output valve of subtracter 80, and the output valve of restricting circuits 83 multiply by the set point of coefficient multiplier 82 to obtain power export target value Pref.The reason that restricting circuits 83 is restricted to lower limit zero with above-mentioned energy deviation is for example to prevent because the fluctuation in the terminal voltage of smmothing capacitor and along the deceleration direction executable operations.

Power calculation circuit 81 uses inverter output current probe values to calculate the power output valve P of circuit control devices, uses current detection circuit 4 and the output voltage command value that sends from output voltage command calculations circuit 8 and obtain described inverter output current probe value.Adder-subtracter 84 deducts above-mentioned power output valve P and deducts the set point of coefficient multiplier 85 and power output deviation delta P then from above-mentioned power export target value Pref.

Divider 86 by with above-mentioned power deviation Δ P divided by the speed f of the AC motor of describing afterwards 13 the calculating torque desired value.Torque limit circuit 87 utilizes the value torque-limiting desired value of considering that machine upkeep is determined.The output valve of torque limit circuit 87 multiply by the set point of coefficient multiplier 88, and obtains to quicken desired value.

And then difference frequency counting circuit 92 uses the output valve of torque limit circuit 87 to calculate difference frequency.Subtracter 91 is from deducting the speed f of difference frequency and output AC motor 13 the last time from the frequency instruction (fref) of delay circuit 93 outputs.Adder 89 is added to the difference frequency of exporting from difference frequency counting circuit 92 from the acceleration desired value and the adding of coefficient multiplier 88 outputs with the speed f of AC motor 13, obtains frequency instruction (fref2) thus.

As mentioned above, use the target voltage Vpnc and the probe value Vpn rated output export target value Pref thereof of the terminal voltage of smmothing capacitor 2, and consider the power loss value corrected power export target value Pref of the machine that comprises circuit control device 20 ' and AC motor 13, calculated rate instruction 2 (fref2) thus, the deviation delta P between this frequency instruction 2 times power export targets value Pref and power output P becomes 0.

When Vpn＜(set point of coefficient multiplier 75), switching circuit 73 is switched to the A side from the B side; In other words, frequency instruction (fref) is switched to the frequency instruction 1 (fref1) that device 72 outputs are set by frequency instruction from the frequency instruction 2 (fref2) by 71 outputs of frequency instruction counting circuit, and operation is recovered usually.

Because disposed the minor loop that is used for power controlling output; the torque target value is restricted to predetermined value; and carry out the difference frequency compensation as mentioned above like that; the terminal voltage of smmothing capacitor is converged to desired value apace and reliably; can not repeat unnecessary acceleration and deceleration and carry out smooth operation with stopping; by preventing that producing excessive torque can protect used machine, and can shorten time of delay before the output of acquisition plan power.

According at power output valve P with from the symbol of the energy deviation between the value of coefficient multiplier 82 output, AC motor 13 not only can be carried out regenerative operation, and can also carry out electronic (power) operation.In the situation that is electronic (power) operational computations power output valve P, thereby add the output of coefficient multipliers 85 by executable operations adder-subtracter 84, the present invention can be implemented more effectively.

In addition, be set as the steady state value as the set point of coefficient multiplier 85 though comprise the loss value of the machine of circuit control device 20 ' and AC motor 13, obvious this loss value strictly is expressed as the function of the output current of inverter etc. and is merged in.

And then, though use the frequency instruction (fref) of output the last time to obtain the speed f of AC motor 13, in conjunction with being used for surveying or the situation of the circuit of estimating speed the probe value or the estimated value of all right operating speed.

And though in the above description the AC motor is described as induction machine, the AC motor of synchronous machine substitutes induction machine even for example use, and also can implement the present invention similarly.In this case, the output of difference frequency counting circuit 92 should only be set as zero.

In addition; though considered loss and the loss in the machine that comprises the AC motor in the circuit control device, considered machine upkeep and in the situation of using induction machine, considered compensation to difference frequency; configuration is described, but these any one or any combinations of a plurality of considerations in considering all can be used.Even in this case, each effect also remains unchanged.

And then, used based on power export target value and power output valve speed command counting circuit embodiment 1 is described, and used the frequency instruction counting circuit that is used for the calculated rate instruction to substitute operating speed command calculations circuit embodiment 2 is described according to the output valve computational speed instruction of state during instant cut-off or voltage detection circuit; Yet even be used for the counting circuit of calculated rate instruction and be used for the counting circuit that computational speed is instructed at embodiment 2 in embodiment 1, the present invention also can be implemented similarly.

Industrial usability

The present invention is applicable to that instant cut-off therein may take place and can carry out regenerative operation Drive all inverter control devices of motor and be applicable to the described inverter control device of operation Method.

Claims

1. circuit control device comprises:

As the AC motor of load,

Rectification circuit, described rectification circuit are used for the AC power conversions from AC power supplies is become DC electric power,

Smmothing capacitor, described smmothing capacitor are used for level and smooth dc voltage from described rectification circuit,

Inverter circuit, described inverter circuit are used for the DC power conversions via described smmothing capacitor supply is become desired frequency,

Current detection circuit, described current detection circuit is used to survey the output current of described inverter,

Voltage detection circuit, described voltage detection circuit is used to survey the terminal voltage of described smmothing capacitor,

Power calculation circuit, described power calculation circuit be used to calculate described circuit control device the power output valve and

The speed command counting circuit, described speed command counting circuit is used for based on described terminal voltage and described power output valve rated output export target value, and be used for calculating the speed command that during instant cut-off, uses, perhaps instruct according to the described output valve computational speed of described voltage detection circuit based on described power export target value and described power output valve.

2. according to the circuit control device of claim 1, wherein

Described speed command counting circuit adds by the symbol based on described power output valve or the power loss value that subtracts described circuit control device is calculated to proofread and correct described power export target value.

3. according to the circuit control device of claim 1, wherein

Described speed command counting circuit adds by the symbol based on described power export target value or the described power loss value that subtracts the machine that comprises the AC motor is calculated to proofread and correct described power export target value.

4. according to the circuit control device of claim 1, wherein

Described speed command counting circuit calculates to proofread and correct described torque target value by the speed command calculating torque desired value of using the deviation between described power export target value and described power output valve and export the last time.

5. according to the circuit control device of claim 1, wherein

Described speed command counting circuit restriction is based on the described torque target value of the velocity information acquisition of described power export target value and described AC motor.

6. according to the circuit control device of claim 1, wherein

At described AC motor is in the situation of induction machine, and described speed command counting circuit calculates the slip speed instruction by use based on the described torque target value of the velocity information acquisition of described power export target value and described AC motor and proofreaies and correct described slip speed instruction.

7. according to each circuit control device in the claim 1 to 6, also comprise:

Frequency instruction counting circuit, described frequency instruction counting circuit are used for substituting the frequency instruction that described speed command counting circuit calculates described AC motor.

8. one kind is used to solve the fluctuation of the AC power supplies that is used for circuit control device or the method for operation of instant cut-off, described circuit control device comprises: as the AC motor of load, be used for to become the rectification circuit of DC electric power from the AC power conversions of AC power supplies, be used for smoothly smmothing capacitor from the dc voltage of described rectification circuit, the inverter circuit of the frequency that is used for to become desired via the DC power conversions of described smmothing capacitor supply, be used to survey the current detection circuit of the output current of described inverter, voltage detection circuit with the terminal voltage that is used to survey described smmothing capacitor

Described method of operation may further comprise the steps:

Calculate the power output valve of described circuit control device,

Based on described terminal voltage and described power output valve rated output export target value and

Calculate the speed command that during instant cut-off, uses based on described power export target value and described power output valve, perhaps instruct according to the output valve computational speed of described voltage detection circuit.