Application of Emerson EV3500 Frequency Converter in Chengde Steel Plant

one. Introduction <br>Summary of the site:
Chenggang Vanadium Project Steelmaking Area Electric Complete Project: No. 1-4 oxygen gun high pressure water pump adopts Ai Shengsheng EV3500-4T4000P frequency converter, which is an important equipment for steel-making water supply. The on-site operation control method is SM-PROFIBUS-DP bus mode. In the past, oxygen gun high-pressure water supply was realized by high-voltage motors. Therefore, this design uses Ai Shengsheng EV3500 inverter and low-voltage inverter motor supporting the use.

purpose:

Use EV3500 frequency converter and frequency conversion motor to replace the high voltage motor (because the high pressure motor drives the oxygen gun high pressure water pump to control the hydraulic pressure and head accuracy is not high). Improve work efficiency, save energy, realize unattended operation, upper computer operation control. Daily operation is simple and easy to maintain.

Site configuration requirements:
Inverter: EV3500-4T4000P 4 sets of variable frequency motor: 355KW 4 sets of insulation class: Class B auxiliary drive consists of an S7-400 PLC and configures an ET200 remote I/O substation to realize the system configuration for 3 use 1 standby, with SM - PROFIBUS-DP bus control, whether by the machine or automatically through the host computer to control, easy and simple operation.

two. The overall plan determines:
EV3500 frequency converter has many kinds of control methods of pump load in practical application, and can meet the requirement of the craft.

Switch control. Analog control. Bus control and other control methods.

Switching control easily leads to misoperation and increases the operator's working strength.
Taking into account the distance between the main control room and the frequency converter cabinet, analog control will be subject to distance restrictions and strong electrical interference and will produce attenuation.
Adding faulty contacts between devices is not convenient for device maintenance.
The use of SM-PROFIBUS-DP communication control can make up for the shortcomings of the above two control methods and realize unattended operation. The maintenance of the control circuit is simple and convenient. Only one 2-core DP cable is used to meet the start-stop control of the EV3500 inverter. Feedback on the operation of the inverter, remote fault reset and other requirements, and make full use of the strong advantages of the EV3500 communications.


One-line diagram of communication between host computer and inverter SM-PROFIBUS-DP module

three. Electrical application program:
According to the requirements of the control mode, the inverter cabinet is designed as follows: Each EV3500-4T4000P inverter consists of three SPMA1402 110/132KW parallel units. Match 1
PROFIBUS bus interface module.
This system uses siemens S7 series PLC and Emerson EV3500 inverter communication, we provide the corresponding CTSP0672.GSD file configuration in the host computer application and sm_profibus_dp_user_guide.pdf file as a command analysis of the comparison table, and PROFIBUS bus The communication connection between the interface modules is controlled by sending the "control word" of the upper computer and reading the "status word" of the inverter.

Electrical schematic diagram (1)


Electrical schematic (II)

four. EV3500 debugging process:

The first step is to correctly set the motor nameplate parameters and motor self-tuning
Pr0.42= 4
Pr0.44= 380V
Pr0.45 = 1450 r/min
Pr0.46= 621A
Pr0.47= 50HZ
Self-tuning the motor, there are two kinds of tuning methods, static and rotating self-tuning. Under conditional conditions, the input rotation parameters are set so that the power factor of the motor can be measured.
If the motor is loaded and cannot remove the load on the motor shaft, static parameter identification can be performed. Static parameter identification Measure the stator resistance (Pr5.17) and voltage offset (Pr5.23), set Pr0.40=1, and provide the inverter with an enable signal (terminal 31) and a running signal (terminal 26 or terminal 27).
Motor no-load can perform rotation parameter identification. Because of the new equipment in the steelmaking system, the conditions for the no-load test of the motor are available. Before the drive motor rotates a 2/3 base forward several seconds (regardless of the speed reference and the selected direction), the rotation parameter first performs the stationary parameter identification, except for measuring the stator resistance (Pr5.17) and voltage parabolism (Pr5.23). The rotation parameter identification also measures the motor power factor and Pr0.43 is the correct value. Set Pr0.40=2 and provide inverter with enable signal (terminal 31) and running signal (terminal 26 or terminal 27).
After the parameter identification test is completed, the inverter will enter the "Inh" state. The inverter must be in the "Inh" state before the drive sets the setpoint operation.

The second step DP network detects the start and stop of the inverter, and the operating frequency is controlled by the host computer. The quality of the DP cable that connects the host computer to the PROFIBUS bus interface module is particularly important. Enable the terminal resistance of the connector of the host CPU. We use the inverter as the end device of the DP network. Also enable the terminating resistor at the connector of the DP cable of the PROFIBUS interface module at the end, and measure the end of the connector A1 with the multimeter. The resistance between B1 and B1 shall be 142Ω (including the resistance value of the wire diameter). When the termination resistance of the endmost connector is turned off, the resistance value of the measured termination resistor shall be 262Ω, indicating that the inverter and the host computer network The connection is good. It can communicate normally and parameterize the inverter.
If the resistance value is greater than 262Ω, there is a problem with the DP network connection. Check if the DP cable connector is loosely connected and the position of the incoming cable and outgoing cable is correct. Check whether the red line of the cable corresponds to the green line of A1 and A2 and B1 and B2. Whether the network cable has a medium-break line.
After confirming that the DP cable is correct, set Pr15.03=10. The communication address is the same as the host computer address. Check Pr15.06= -1. If Pr15.06= -3 is disconnected from the host computer, check if the program screen of the host computer can be read. Inverter, everything is correctly set to communicate with the host computer.
The third step is to set the relevant operating parameters of the EV3500 inverter and initially carry the test run.

Pr5.14= Fd Pr5.27= OFF Slip compensation OFF Pr6.01=COAST (free stop) rP Deceleration stop Pr6.42=128 Stop command (from master) Pr6.43=ON Control word connection status Pr7.15 =VOLT (trip TH thermistor fault) Pr7.22=401 Pr7.23=1.400 Pr7.24=2 Output 4-20mA Pr8.17=Negative fault output (41# control terminal, 42# fault output) Pr15 .01=403 Pr15.02=3.01 Pr15.03=10 The communication address is the same as the host computer's address Pr15.04= -1 (after all parameters are saved, the communication normal parameter value becomes 9) Pr15.05= 0 Pr15.06= -1 (Waiting for PLC communication, baud rate is 9600=1, baud rate is 1920=70) Pr15.07=3000 (Failure of inverter automatically stops after 3s power off of the upper computer) Pr15.08= OFF Pr15.09= OFF Pr15.10= -1 Pr15.11= -1 Pr15.12= 401 Pr15.13= 1001 Pr15.14= 1002 Pr15.15= 0 Pr15.16= 0 Pr15.17= 0 Pr15.18= 0 Pr15. 19= 0 Pr15.20= -1 Pr15.21= -1 Pr15.22= 0 Pr15.23= 0 Pr15.24= 0 Pr15.25= 0 Pr15.26= 0 Pr15.27= 0 Pr15.28= 0 Pr15.29= 0 Pr15.30= OFF Pr15.31= OFF Pr15.32= OFF (The parameter is optimized, the blinking will not be in the ON state.) Pr15.33= OFF Pr15.34= ON Pr15.35= This machine Column number code Pr15.38= 4 Pr15.39= 4 (When all parameters are saved, the communication is normal and the power-off restart parameter value becomes 6) Pr15.40= 4 (All parameters are saved, the communication is normal, and the power-off restart parameter value Change to 6) Pr15.41 = 0 Pr15.49 = 0 (When 15.06 = -3, 15.49 = 113 or 111 inverter cannot start the vehicle. Communication failure) Pr15.50 = 0 Pr15.50 = 1

Setting parameters Note:
After all the parameters are set and saved, the inverter will be powered off and re-powered to check the display status of parameters Pr15.06 and Pr15.49. When Pr15.06=-3, Pr15.49=111 or 113. This indicates that the inverter communication is faulty and check the DP network cable.
When Pr15.06=-1, Pr15.49=0, the inverter waits for communication with the upper computer.
When Pr15.06 = 1, Pr15.49=0, the communication is normal and the baud rate is 9600 bps.
When Pr15.06 = 70 and Pr15.49 = 0, the communication is normal and the baud rate is 19200 bps. In normal communication, the inverter automatically detects the baud rate of the upper computer.
When parameter Pr15.06 shows that the value is blinking frequently, it indicates that the communication with the host computer queries the baud rate, and Pr15.32=on can be initialized with the center of gravity.
Parameter Pr15.10-Pr15.19 provides the “status word” of the inverter for the upper computer. The upper computer displays the operating frequency, current and working status of the inverter on the screen by reading Pr15.10-Pr15.19. The 15.12-15.19 setting must be continuous and is the RO parameter in Pr0.00-Pr21.51. Set other parameters or RW parameters can not be identified by the upper computer.
Fives. Problems in debugging
1: Initial setting, Pr15.12=505, Pr15.13=506, Pr15.14=507
After the inverter is running, only the value of the DC bus voltage of the inverter can be seen on the host computer, and the frequency and rated current of the motor are invisible. After several settings and debugging, the parameters set in Pr15.12-Pr15.19 are found, only the RO parameters in Pr0.00-Pr21.51 are read in, and the RW parameters cannot be read. The unused "status word" is occupied with "0". By communicating with the site process, the final parameters Pr15.12 = 401, Pr15.13 = 1001, Pr15.13 = 1002.

2: Motor problems found during commissioning:
During the trial run, it was found that the No. 2 oxygen gun high-pressure water pump was in the no-load state, the operating current was 140 A at a frequency of 40 Hz, and the speed=1140 r/min was normal. When running with a load, the operating current is 145A when the frequency = 40Hz. The inverter's controller displays the speed = 1150r/min, and the actual speed of the field motor is very low. It is still this state after a few trial revolutions. Make sure that one of the inverter or motor is inevitably problematic. Considering that the motor insulation class is B, it is doubted whether the insulation is not good or the cable is not well insulated. Take off the U, V, W three-phase cable of the frequency converter, and measure the insulation of the cable and the motor casing with a 500 MΩ 揺 meter. No problem. Discovered through the guide cable 2 # drive to drive another motor is all normal, and finally the motor manufacturers came to the scene to open the lid to detect the motor found that the motor rotor is not handled properly in the process, there is a small iron is not processed out to the motor running Severe leakage flux.

Precautions:
In the communication state, the EV3500 inverter has a fault. If the host computer cannot be reset or reset function exists, the inverter must be powered off and restarted to reset the fault before the inverter can be restarted. The motor works.

The above EV3500-4T4000P drives the oxygen gun high-pressure water pump debugging process under the SM-PROFIBUS-DP bus interface module and S7-400 phase communication control. In the running process, the water pressure and head control are very good, for the steel-making water The stable operation has provided great protection. The customer is very satisfied

six. in conclusion:
The modern inverter is no longer limited to the requirements of the low-voltage process, but extended to the inverter and the variable frequency motor in place of the high-voltage motor to drive the important pumps and fans of the steelmaking system to increase the operating stability. SM-PROFIBUS-DP communication control is also a successful application of the EV3500. At the same time, SM-PROFIBUS-DP communication control will provide a wider application space in the future production areas, and provide a clear case for communication with different PLC series. Satisfy the customer's use requirements. And give a higher rating.

About the author: Anshan Xinhe Electric Co., Ltd. Technical Department, Wang Junfang, male, engineer. In the company engaged in inverter and low voltage electrical design, commissioning and on-site service. Graduated from Liaoning Radio and Television University, Department of Industrial Electrical Automation.

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