KR100847240B1 - Driving system of the multipurpose motor for machine tools - Google Patents

Abstract

A driving system of a multipurpose motor for driving a machine tool is provided to reduce the cost for a motor driver by operating the multipurpose motor using a switch without using the motor driver. A driving system of a multipurpose motor for driving a machine tool comprises a power supply(1), a DSP TMS320F2812(3) and an IPM(Intelligent Power Module)(4). The power supply generates DC 300V or above at a 3-phase 220V and supplies the DC 300V to the IPM such that the DC 300V is used as a driving power for a BLDC motor(2). The power supply generates DC 15V and DC5V to supply power to the IPM and the DSP TMS320F2812. The DSP TMS320F2812 generates a PWM signal to drive the motor using a one-chip microcontroller. The IPM has an inverter therein and controls the BLDC motor by generating an alarm signal.

Description

Driving system of the multipurpose motor for machine tools

1 is a configuration diagram of a drive system of the present invention.

Figure 2 is a circuit diagram of a power supply of the present invention.

Figure 3 is a circuit diagram of the TMS320F2812 of the present invention.

Figure 4 is a circuit diagram for the power supply of the controller.

5 is an interface circuit diagram of an IPM (Intelligent Power Module).

6 is an encoder circuit configuration diagram.

7 is a schematic diagram of an RS232 circuit.

8 is a circuit diagram of a display and keyboard interface.

Fig. 9 is a circuit diagram of an intelligent power module (IPM) of motor driving.

<Code Description of Main Parts of Drawing>

1. Power supply 2. BLDC motor 3. TMS320F2812

4. IPM 5. Encoder

As a variety of industrial mechanical devices, DC motors have been conventionally used for easy control and excellent control performance, but have caused various problems due to mechanical and structural problems such as sparks and brushes generated during rectification.

Recently, a brushless DC motor capable of controlling the position of an armature using a hall sensor without a brush has been widely spotlighted as a DC motor, and research on related driving devices and control methods has been conducted.

The BLDC motor control method can be driven either by hardware control using analog circuits or software control using a microprocessor, but control methods based on analog control technology have difficulty in implementing precision control or theoretical algorithms. It is widely used for a constant drive voltage method without a measurement sensor or a variable voltage drive method when a sensor for position measurement is provided.

On the other hand, the software-driven driving method has the ability to be inferior to the analog method in terms of the processing speed of the control algorithm due to the remarkable development of the microprocessor in recent years. Because of the development environment that can respond very flexibly, most industrial sectors prefer such a driving method and its application range is getting wider.

According to such a trend, by using a microprocessor to drive the BLDC motor that compensates for the shortcomings of the DC motor, it will be able to have the technology to meet the trend of the industrial trend.

The present invention has been made in order to achieve the above object, in order to configure the drive system of the multi-purpose motor for driving the machine tool of the present invention by developing a basic DC motor motor driver to drive a three-phase AC motor that requires the most switching elements It is necessary to design the inverter circuit which can be used. Based on this, only the connection of the load stage is changed and only as many switches as necessary are needed to drive the DC motor. When the development of the multipurpose motor driver is completed, When driving a motor, a separate motor driver is not required, and various motors can be driven by simple switch operation. Therefore, the cost saving effect of purchasing expensive motor driver and the convenience of driving the motor with simple operation are also expected.

The present invention relates to a drive system for a multi-purpose motor for driving a machine tool, and more particularly, a signal supply for a power supply, a TMS320F2812 processor for controlling a BLDC motor, and a signal for a BLDC motor. The present invention relates to a drive system of a multipurpose motor for driving a machine tool, which is an IPM (Intelligent Power Module).

The drive system of the multipurpose motor for driving a machine tool of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a drive system of the present invention.

Referring to the contents of the driving system of FIG. 1, the driver of the BLDC motor 2 is configured by using an intelligent power module (IPM) 4, and the TMS320F2812 (3) is used as a type of DSP for controlling the motor. Designed.

And it was configured to facilitate the calculation by using the encoder (5) to measure the speed.

In the above-described configuration, the power supply 1 makes DC 300V or more at a commercial power three-phase 220V voltage and supplies it to the IPM (Intelligent Power Module) 4 and transmits it to the BLDC driving power. It creates a DC 5V to power the Intelligent Power Module (IPM) (4) and the DSP.

The DSP TMS320F2812 (3) is an optimal one-chip microcontroller designed to control the BLDC motor (2) to create a PWM signal to drive the motor, and the encoder (5) which is the feedback part to control the speed. It receives a signal, receives an analog input to sense the current consumption of the motor, and consists of a communication part that can transmit data from another system.

In addition, the IPM (Intelligent Power Module) 4 is a module containing an inverter composed of IGBT, FET, etc. necessary for driving the BLDC motor 2, etc., and receives a PWM signal to fit the BLDC motor 3. It outputs a signal, transmits the signal to the BLDC motor 2, monitors the state of the BLDC motor 2, and outputs an alarm signal so that the BLDC motor 2 can be effectively controlled.

Figure 2 shows a circuit diagram of the power supply of the present invention.

The power supply circuit of the power supply (1) is designed to supply power to the DSP TMS320F2812, IPM (Intelligent Power Module), and BLDC motor (2). The design was started by the method.

The circuit constructed in FIG. 2 is described as follows.

① Power Supply Three-phase AC 220V 60Hz and apply power to three-phase bridge diode to make DC power through varistor and high voltage condenser to prevent surge that occurs when power is first applied.

② To make DC voltage from bridge diode into ripple-free DC voltage, make smooth DC voltage through 0.33uF ceramic capacitor and 330uF / 450V electrolytic capacitor to catch pulsating voltage of high frequency and low frequency components.

In addition, in order to cut off the first applied surge voltage, a delay is given to the resistor and the capacitor, and after a certain time, the relay contact is used to directly supply power.

③ High DC voltage becomes the power supply of IPM (Intelligent Power Module) 4, and is also converted / supplied to DC to DC converter (MES0524MH) to make DC voltage suitable for it.

④ The MES0524MH outputs DC 5V and AC 24V, so AC 24V is a flyback converter method that makes DC voltage using fast diodes and coils. .

In addition, DC 5V also supplies the output voltage through the LC filter.

⑤ DC 15V is supplied to IPM (Intelligent Power Module) (4) and DC TMS320F2812 (3).

3 shows a circuit diagram of the TMS320F2812 of the present invention.

The controller circuit is the main board using DSP TMS320F2812 (3).

The DSP 2812 is an evolution of the 27-series high-performance DSP cores proven for hard disk driver control and the superior peripherals proven in the 24-series.

The 32-bit processor, which is better than the 16-bit DSP TMS320LF2407 (3) used in motor controllers, offers 127k word flash memory and 150Mz speed.

In addition, there is a port that can receive the encoder (5) signal to calculate the speed of the motor, and also has a number of PWM Out port for driving the motor is an advantage.

4 is a circuit diagram of the power supply of the controller.

Since the TMS320F2812 (3) processor uses 3.3V for its internal peripheral circuit and 1.8V for the CPU core, it must convert the DC 5V supplied from the power board.

The TMS767D318 converts DC 5V to 3.3V and 1.8V without the need for special peripheral circuits.

5 is an interface circuit diagram of the IPM (Intelligent Power Module) 4.

It is a connection circuit designed to interface the controller with the port for receiving alarm signal from IPM (Intelligent Power Module) (4), analog input port for measuring the amount of current, PWM signal output port for driving motor, etc.

6 is an encoder circuit configuration diagram.

In order to measure the speed of the BLDC motor 2, an encoder 5 is required, and the signal of the encoder 5 receives two signals, A phase and B phase.

The signal is passed through the SN75175 to pass this signal to the controller.

7 is a schematic diagram of a RS232 circuit.

RS232 standard communication method was selected and designed to give the data of BLDC motor (2) in operation.

The MAX232 IC amplifies the controller's signal level, allowing it to communicate with external devices.

8 is a circuit diagram of a display and keyboard interface.

The LCD was selected to measure and display the speed of the BLDC motor (2), and the input device was designed using a switch to test various modes.

In addition, the LED is designed to indicate the status of the keyboard input.

9 is a circuit diagram of an intelligent power module (IPM) for motor driving.

Motor driving was performed using an Intelligent Power Module (IPM) 4.

IPM (Intelligent Power Module) (4) is a module that contains inverter, which is composed of IGBT, FET, etc. necessary for driving BLDC motor (2), receives PWM signal and receives the signal suitable for BLDC motor (2). Outputs the alarm signal by monitoring the state of the motor and can effectively control the BLDC motor (2).

The following describes the circuit.

① By supplying high DC voltage supplied from power board to IPM (Intelligent Power Module) (4), it receives PWM control signal from controller and outputs the signal to enter each phase of BLDC motor (2) and goes through coil to BLDC motor ( 2) can be connected.

The coil serves as protection against overcurrent.

② IPM (Intelligent Power Module) (4) enables to send the failure signal of the motor status to the controller and to enter the input of the current state controller A / D converter of each phase delivered to the motor.

③ Other elements such as capacitors are arranged to suppress noise components of each signal line.

As described above, the drive system of the multipurpose motor for driving a machine tool may be equipped with a multipurpose motor, and thus, various motors may not be required when driving various types of motors.

In addition, the cost saving effect of purchasing expensive motor driver and the convenience that can drive the motor by simple operation are also expected.

Claims (1)

In a drive system of a multipurpose motor for driving a machine tool, DC 300V or higher at three phase 220V voltage of commercial power is supplied to IPM (Intelligent Power Module) (4) and transferred to BLDC motor (2) as driving power, and DC 15V and DC 5V are made through SMPS module to make IPM (Intelligent A power supply 1 for supplying power to the Power Module 4 and the DSP TMS320F2812 3; The optimum one-chip microcontroller made to control the BLDC motor (2) makes the PWM signal to drive the motor, receives the encoder (5) signal, which is the feedback part to control the speed, and consumes the motor. A DSP TMS320F2812 (3) which receives an analog input to sense current and is configured as a communication part for transmitting data of another system; A module that contains an inverter composed of IGBTs and FETs required to drive the BLDC motor (2), receives a PWM signal, outputs a signal suitable for the BLDC motor (2), and transmits the signal to the BLDC motor (2). An IPM (Intelligent Power Module) 4 capable of effectively controlling the BLDC motor 2 by monitoring the state of the motor 2 and outputting an alarm signal; Multi-purpose motor drive system for driving a machine tool, characterized in that consisting of.

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