JPH07107771A - Motor driving gear - Google Patents

Abstract

PURPOSE:To provide a motor driving gear which can set a parameter inside a control circuit without discriminating control circuits according to capacities and which can be connected to a main circuit of another capacity. CONSTITUTION:A form information part 4 in which form information as capacity information on a motor driving gear is installed on the side of a main circuit 3 for the gear. After a power supply has been turned on, a control circuit 1 reads out the form information 5 stored in the form information part 4 in the main circuit 3, and it automatically initializes parameter data corresponding to the form information 5 inside the control circuit 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a motor drive device for variable speed control of a motor, and more particularly to a motor drive device capable of having a plurality of motor drive device capacities corresponding to the motor capacities.

[0002]

2. Description of the Related Art In a conventional motor drive device, each parameter required for motor drive is appropriately set for each capacity, and these data are stored in a memory in a control circuit. Memory backup by battery and EEPROM of inactive memory so that those data are not erased even when the power is turned off.
The data can be used without rewriting data as long as the control circuits are used for the same main circuit capacity. The types of parameter data can be broadly classified into two types: one that can be changed by the user and one that cannot be changed by the user and can be determined by the device. The parameters that must be changed according to each capacity include the latter parameters that cannot be changed by the user, but also include some parameters that can be changed by the former user. It is necessary to change the initial setting appropriately for each device capacity. For example,
A parameter that cannot be changed by the user is the conversion gain used when displaying the output current of the device in amperes. This is because the current detector in the device has an appropriate gain for each capacitance according to the input voltage of the A / D converter in the control circuit, so that the control circuit side must have that gain as data. is there. As another example, there is a parameter that determines the amount of dead time provided according to the characteristics of the power switching element of the main circuit as seen in the voltage type inverter. The parameter that can be changed by the user is the amount of torque boost used when driving the induction motor. This is because when the motor capacity is small, the ratio of the primary resistance component to the rated current is large, and as the capacity increases, the ratio decreases, so the voltage boost parameter (torque boost amount) is optimized to compensate for the voltage drop. This is because the value differs depending on the capacity. Therefore, regarding such parameters, it is important to change the initial setting value in advance according to the capacity in order to reduce the adjustment by the user and improve the ease of use.

[0003]

In the conventional motor drive device, the parameter data of the control circuit is previously set in accordance with the main circuit, and after being set, the control circuit and the main circuit are
There is a one-to-one correspondence, and it was necessary to distinguish the control circuits by the capacity of the motor drive device. This was necessary in order to avoid accidentally installing and using a control circuit with different parameter settings when replacing the control circuit during maintenance and inspection. However, there are problems that the number of types of control circuits increases and management of the control circuits becomes complicated, and if an attempt is made to rewrite parameters to reduce the number of types of control circuits, erroneous settings occur and reliability decreases. It was

Therefore, in the present invention, the parameters in the control circuit can be set without distinguishing the control circuit by capacity.
It is an object of the present invention to provide a motor drive device that can be connected to a main circuit having another capacity.

[0005]

In order to achieve the above object, a motor drive main circuit section which is composed of a plurality of switching elements and supplies AC power to the motor to drive the motor, and this motor drive main Type information such as motor drive device capacity in a motor drive device that has a motor drive control circuit unit that performs on / off control of switching elements in the circuit unit, controls AC power supplied to the motor, and controls the motor at variable speeds. And a motor drive control circuit section having a structure separable from the motor drive main circuit section and capable of reading the format information of the motor drive main circuit section. It is characterized in that each parameter of the motor drive control circuit unit which is different depending on the motor drive device capacity is set based on the format information read from the drive main circuit unit. Than it is.

[0006]

According to the motor drive device of the present invention, when the motor drive control circuit unit is replaced, the newly installed motor drive control circuit unit reads the format information of the motor drive main circuit unit, and The parameters are set based on the read format information such as the capacity of the motor drive device.

[0007]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a block diagram of a motor drive device according to an embodiment of the present invention. In FIG. 1, reference numeral 1 is a control circuit, which controls the operating state of the motor drive device 8. Reference numeral 3 denotes a main circuit, which is composed of a power switching element, and controls the motor 9 at a variable speed by a control signal 2 from the control circuit 1.
Reference numeral 4 denotes a format information section, which stores format information such as a device capacity provided in the main circuit section 3. In this embodiment, a simple bit switch is used as binary data,
It is also possible to place it with a change in resistance value or a change in voltage value. A reading unit 6 reads the format information 5 provided in the control circuit 1. In this embodiment, the binary number data of the format information 5 is read in parallel, but it is also possible to read it serially. If the format information 5 is a change in resistance value, an analog value can be converted into a digital value and read by using an A / D converter. The control circuit 1 which has received the format information 5 automatically selects data according to the format information 5 from the data table 7 having parameter data for each format in advance and sets the parameters.

The operation of the motor drive device constructed as described above will be described with reference to the type-specific setting flowchart shown in FIG. When the control power supply is turned on, the control circuit 1 reads the data of the format information section 4 of the main circuit 3 and the control circuit 1
If the format data is different from the format data held in step 3, the latest format data is initialized with different parameter data according to the adapted capacity.

According to the motor drive device of this embodiment, the control circuit 1 reads the capacity format of the main circuit 3 and automatically initializes different parameter data for each capacity.
Parameter data management is simplified because there is no need to change the type of control circuit for each different parameter to distinguish them. Further, in the past, since the number of types of control circuits increased and parameter data management became difficult, it was not possible to finely set parameters for each capacity, but this embodiment avoids an increase in types of control circuits and It is possible to set appropriate parameters for each.

Next, a motor drive device according to another embodiment of the present invention will be described. FIG. 3 shows a configuration diagram of a voltage source inverter device as a motor drive device according to another embodiment. In the case of a voltage source inverter device, a recognition circuit is used in the type information section provided in the main circuit, depending on the difference in charging time of the main circuit smoothing capacitor. The voltage type inverter device has a main circuit smoothing capacitor 11 and an initial charging circuit 12 for initially charging the main circuit capacitor 11. The initial charging circuit 12 includes an initial charging resistor 13 and an initial charging resistor 13.
It is composed of a contactor 14 that short-circuits. The DC voltage across the main circuit smoothing capacitor 11 is converted to the control circuit 1 by the conversion circuit 15 (A
/ D converter or V / F converter), and the charging time of the main circuit smoothing capacitor 11 is measured using this data. By keeping the resistance value of the initial charging resistor 13 constant regardless of the voltage source inverter device capacity rating, the charging current of the main circuit smoothing capacitor 11 changes in proportion to the capacitor capacity. Since the capacity of the voltage source inverter is selected almost in proportion to the capacity of the main circuit smoothing capacitor 11, the rated capacity of the device can be known by measuring the charging time.

FIG. 4 shows a DC voltage time chart after the power is turned on. When the power is turned on at time t _{0 and} the initial voltage E ₀ of the main circuit smoothing capacitor 11 is reached, the DC voltage charges the main circuit smoothing capacitor 11 through the initial charging resistor 13 and rises almost exponentially. At time t _{1, the} contactor 14 is turned on, and the contactor 14 is charged from the maximum charging voltage E ₁ and the initial voltage E ₀ which are steady states thereafter.
Assuming that time T = t−t ₀ before reaching an arbitrary voltage value E _T before is input, the following formula is established.

E _T = (E ₁ −E ₀ ) (I−EXP (−T / CR)) + E ₀ (Equation 1) where C is the capacity of the main circuit smoothing capacitor 11 and R is the initial charging resistance 13. Since it is a resistance value and the resistance value R is set to a constant value in advance, only the capacitance C is an unknown value.
The capacity C can be derived more. If the value of the capacity C is known, the rated capacity of the voltage source inverter device can be estimated. As a result, the type of the voltage type inverter device, which is the motor driving device, can be determined by software processing without providing a special type information circuit, and the same effect as the previous embodiment can be obtained. However, if there is a variation in the capacity of the main circuit smoothing capacitor 11 or if there is an error in the charging time due to the power source impedance, it may not be possible to completely determine, and when determining the general classification of the motor drive device capacity. It becomes effective.

[0013]

According to the motor drive device of the present invention,
The motor drive main circuit section is provided with format information, the motor drive control circuit section reads this format information, and based on the read format information, the parameter data of the motor drive control circuit section according to the format of the motor drive main circuit section. By setting, it is possible to connect the motor drive control circuit section to another type of motor drive main circuit section without distinguishing the motor drive control circuit section by capacity.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a motor drive device that is an embodiment according to the present invention.

FIG. 2 is a setting flow chart for each type of the motor drive device according to the embodiment of the present invention.

FIG. 3 is a setting flowchart for each type of a motor drive device according to another embodiment of the present invention.

FIG. 4 is a DC voltage time chart of a voltage source inverter according to another embodiment of the present invention.

[Explanation of Codes] 1 ... Control circuit, 2 ... Control signal, 3 ... Main circuit, 4 ... Format information part, 5 ... Format information,
6 ... reading unit, 7 ... data table,
8 ... Motor drive device, 9 ... Motor, 11 ... Main circuit smoothing capacitor, 12 ... Initial charging circuit, 13 ... Initial charging resistor, 14 ... Contactor, 15 ... Conversion circuit.

Claims (3)

[Claims] 1. A device comprising a plurality of switching elements,
ON / OFF control of the motor drive main circuit section that supplies AC power to the motor to drive the motor and the switching elements of the motor drive main circuit section is performed to control the AC power supplied to the motor to enable the motor. In a motor drive device having a motor drive control circuit part for gear shift control, a motor drive main circuit part having type information such as motor drive device capacity and a structure separable from the motor drive main circuit part are provided. A motor drive device comprising: a motor drive control circuit section capable of reading format information included in the circuit section. 2. The motor drive device according to claim 1, wherein the motor drive control circuit unit sets each parameter of the motor drive control circuit unit which differs depending on the motor drive device capacity based on the format information read from the motor drive main circuit unit. A motor drive device characterized by: 3. The motor drive device according to claim 1, wherein, as format information, a motor drive main circuit section provided with a difference in charging time of a smoothing capacitor for smoothing a DC voltage, and the smoothing capacitor when the power is turned on. A voltage-type motor drive device, comprising: a motor drive control circuit unit that reads a time change amount of a voltage and uses it as format information.