PLC Inverter Integrated Training Equipment 5570SA69 PLC Lab Equipment For College & University

I. Technical Specifications of the PLC Inverter Integrated Training Device:

1. Input Voltage: Three-phase five-wire system 380 V (1±10%) 50 Hz;

2. Working Environment: Ambient temperature: -5℃～+40℃;

3. Device Capacity: <1KVA;

4. Safety Protection: Leakage current ≤30mA, overcurrent protection, fuse protection;

5. Dimensions: 1650mm×660mm×1740mm
II. Basic Configuration and Functions of the PLC Inverter Integrated Training Device:
The training device consists of a training table, training cabinets, and training equipment.

1. Training Table:

(1) The main structure of the training table is made of aluminum alloy.

(2) Storage Cabinet: Used to store tools and computer host. Dimensions: 350mm×490mm×700mm. One on each side. Desktop: Made of fireproof, waterproof, and wear-resistant high-density board, with a beautiful and elegant design, sturdy and durable, and a front thickness of 50mm. Dustproof device and title frame: The title frame consists of aluminum alloy, device model, factory address, and service telephone number, and can be freely disassembled. Its dimensions are 1230mm×140mm×80mm. When the experimental table is in use, the dustproof device can be rolled into the title frame; when the experimental table is not in use, the dustproof device can completely protect the experimental module.

2. Functional modules:

(1) The functional modules can be used independently as an experimental instrument, detached from the experimental table, making it convenient for teachers to move to the teaching location and providing students with the most intuitive experience.

(2) Three-phase power supply experimental instrument: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 300mm×160mm×165mm. It features three-phase 380V output and AC/DC 220V output, with leakage protection. Each phase has a fuse device and indicator lights. It is equipped with casing grounding protection, phase loss indication, emergency stop protection, multiple fuse protection, and leakage protection. (3) Mixed Voltage Output Experimental Instrument: The external structure is based on a 3mm aluminum alloy cuboid, measuring 300mm×160mm×165mm. Each output interface has two types: 3mm and 6mm. It features a 24V DC regulated adjustable output, pointer meter indication, and positive/negative polarity indicator LEDs to prevent reverse polarity connection. It also offers 0-240V AC output and can be used as dual 9V, dual 12V, or dual 18V outputs. It can be used independently of the experimental platform.

(4) Constant Current Source Experimental Instrument: The external structure is based on a 3mm aluminum alloy cuboid, measuring 300mm×160mm×165mm. Each output interface has two types: 3mm and 6mm. It provides 0-20mA-500mA outputs in 5 ranges with a digital display. It includes a single pulse function, a switching power supply with ±12V and ±5V, and a six-hole 220V socket on the back. It can be used independently as an experimental instrument without the experimental platform.

(5) Mains power socket output: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 300mm×160mm×165mm. Six-hole 220V socket. Independent switch control. It can be used independently as an experimental instrument without the experimental platform.

(6) The above experimental instruments can be freely assembled into an experimental instrument, requiring consistent height and width, arranged in a straight line, and providing power supply upgrades.

3. Experimental modules:

(1) PLC main unit module: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 300mm×300mm×110mm. It uses FX1N-40MR, with input and output interfaces led to the panel, and independent power switch control. The interfaces use four different colors. It uses an independent module with an independent number.

(2) Inverter main unit module: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 300mm×300mm×110mm. (2) **Touchscreen Host Module:** The external structure is a 3mm aluminum alloy cuboid, measuring 300mm × 300mm × 110mm. It uses the TPC7062K series, with input/output interfaces led to the panel and power controlled by an independent switch. Interfaces use various colors. It is an independent module with a unique serial number.

(3) **Instruction Programming Module:** The external structure is a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 110mm. It has at least three each of five large indicator lights (red, yellow, green, and white), at least eight buttons, and eight input/output interfaces all led to the panel. Interfaces use four different colors. It is an independent module with a unique serial number.

(4) **Instruction Programming Module:** The external structure is a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 110mm. It has five large indicator lights (red, yellow, green, and white), at least three each of these, at least eight buttons, and at least eight input/output interfaces, all led to the panel. Interfaces use four different colors. It is an independent module with a unique serial number. (5) Automatic control of the motor: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 150mm×300mm×100mm. The panel is multicolored, with at least three colors, and the interface sockets are four different colors. It uses an independent module with an independent number. (6) Control of the four-section conveyor belt: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 150mm×300mm×100mm. The panel is multicolored, with at least three colors, and the interface sockets are four different colors. It uses an independent module with an independent number. (7) Control of the five-phase stepper motor: The external structure is based on a 3mm aluminum alloy cuboid, with dimensions of 150mm×300mm×100mm. The panel is multicolored, with at least three colors, and the interface sockets are four different colors. It uses an independent module with an independent number. (8) Multi-story elevator control: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm×300mm×100mm. The panel is multicolored, with at least three colors. The interface sockets are four different colors. Each module is independent and has a unique number. (No fewer than 20 input/output interfaces)

(9) Intersection traffic lights: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm×300mm×100mm. The panel is multicolored, with at least three colors. The interface sockets are four different colors. Each module is independent and has a unique number. (No fewer than 12 input/output interfaces)

(10) Control of the Sky Tower Lights: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm×300mm×100mm. The panel is multicolored, with at least three colors. The interface sockets are four different colors. Each module is independent and has a unique number. (No fewer than 14 input/output interfaces)

(11) Automatic water supply to the water tower: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 100mm. The panel is multicolored, with at least 3 colors, and the interface sockets are four different colors. It uses an independent module with a unique number. (No fewer than 10 input/output interfaces)

(12) Liquid mixing control: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 100mm. The panel is multicolored, with at least 3 colors, and the interface sockets are four different colors. It uses an independent module with a unique number. (No fewer than 14 input/output interfaces)

(13) Robot control: The external structure is based on a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 100mm. The panel is multicolored, with at least 3 colors, and the interface sockets are four different colors. It uses an independent module with a unique number. (No fewer than 15 input/output interfaces)

(14) Material handling trolley: The exterior is mainly constructed of a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 100mm. The panel is multicolored, with at least three colors. The interface sockets are four different colors. It uses an independent module with a unique number. (No fewer than 19 input/output interfaces)

(15) LED digital display: The exterior is mainly constructed of a 3mm aluminum alloy cuboid, measuring 150mm × 300mm × 100mm. The interface sockets are four different colors. It uses an independent module with a unique number.

III. PLC Inverter Comprehensive Training Device Training Components:

(1) One copy of the PLC inverter touchscreen experiment manual;

(2) One set of training wires;

(3) One three-phase motor with a centrifugal switch;

(4) Software

(5) Mitsubishi programming software GX programming environment and FXGPWIN_C and touchscreen configuration software;

(6) Simulation software. (7) Provide Mitsubishi PLC learning software FX-TRN-BEG-C.

(8) Provide program examples.

(9) Provide configuration industrial control software. 1:N industrial control LAN configuration.

(10) Provide configuration source code.

(11) Provide PLC learning courseware PPT.

IV. PLC Inverter Comprehensive Training Device Experiment Projects:

(1) PLC Experiment Projects:

2. Basic Instruction Programming Module

3. Four-Section Conveyor Belt Module

4. Automatic Control Module for Motors

5. PLC Control Module for Stepper Motors

6. Multi-Story Elevator Control Module

7. PLC Control Module for Traffic Lights at Crossroads

8. Experimental Hanging Box Module for the “Light of the Sky Tower”

9. PLC Control Module for Automatic Water Supply from Water Towers

10. Experimental Module for Liquid Mixing Devices

11. Material Handling Trolley Control Simulation Module

12. Digital Display Control Experiment

13. Robotic Arm

(2) Inverter Experiments:

1. Inverter Familiarization Experiment

2. Inverter Parameter Setting and Operation

3. Inverter Panel Control

4. Inverter Potentiometer Control

5. Inverter Voltage Control

6. Inverter Current Control

7. Inverter Multi-Segment Speed ​​Control Motor

8. Inverter Status Signal Display and Acquisition

9. Open-Loop Speed ​​Regulation Experiment of Three-Phase Asynchronous Motor

(3) PLC and Inverter Experiments:

1. PLC-Based Inverter Forward and Reverse Rotation Experiment

2. Multi-segment speed control experiment of frequency converter based on PLC

3. Forward and reverse rotation control based on PLC communication

4. Reading voltage, current and frequency of frequency converter based on PLC communication

5. Acceleration, deceleration, forward and reverse rotation, stop and simultaneous reading of voltage, current and frequency of frequency converter based on PLC communication

6. Setting frequency and reading operating frequency of frequency converter based on PLC communication

(4) Touch screen experiment items:

1. Touch screen recognition and configuration environment installation

2. Simple communication experiment between touch screen and PLC

3. Touch screen based

4. PLC frequency converter touch screen communication experiment

5. Forward and reverse rotation experiment of frequency converter based on touch screen control of PLC

6. Multi-segment speed control experiment of frequency converter based on touch screen control of PLC

7. Forward and reverse rotation control based on touch screen control of PLC communication

8. Reading voltage, current and frequency of frequency converter based on touch screen control of PLC communication

9. Acceleration, deceleration, forward and reverse rotation, stop and simultaneous reading of voltage, current and frequency of frequency converter based on touch screen control of PLC communication

10. Setting frequency and reading operating frequency of frequency converter based on touch screen control of PLC communication