Emerson Process Management EC2-352 user manual Setup and Parameter Modification Using the Keypad

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EC2-352 Display Case and Coldroom Controller

Operating Instructions

GB

Recommended Sensor Positions in Detail:

(2)ECN-Pxx coil-out temperature sensor: Position directly after the evaporator on the common suction line.

(3)ECN-Sxx air-in temperature sensor: Position in the middle of the cabinet as high as possible.

(4)ECN-Sxx air-out temperature sensor: Position asymmetric closer to the expansion valve as high as possible.

(5)ECN-Fxx fin temperature sensor: Position on the evaporator, asymmetric closer to the expansion valve.

Recommendations for mounting the pipe sensor: Insure proper thermal contact by using a metallic pipe clamp or temperature resistant plastic straps. Do not use standard plastic tie wraps (as used for electrical wiring) as they may become loose over time, which could result in faulty temperature measurements and poor superheat control performance. It is recommended to insulate the pipe temperature sensor with ARMAFLEX™ or equivalent. The recommended position of the pipe sensors is between 9 and 3 o’clock as shown in the picture.

(1)PT5-07M suction pressure transmitter: Position on the common suction line close to coil-out temperature sensor (2)

Both air temperature sensors should be mounted on spacers in the air duct so that there is airflow around.

Caution: The sensor cables can be extended if necessary. The connection must be protected against water and dust.

The evaporator outlet temperature sensor should be mounted on the common suction header of the evaporator.

A calibration correction can be made using the parameter u1 (see procedure below).

Setup and Parameter Modification Using the Keypad

For convenience, an infrared receiver for the optional IR remote control unit is build-in, enabling quick and easy modification of the system parameters when a computer interface is not available.

Alternatively, the parameters can be accessed via the 4-button keypad. The configuration parameters are protected by a numerical password. The default password is “12”. To select the parameter configuration:

Press the PRG button for more than 5 seconds, a flashing “0” is displayed

Press or until “12” is displayed (password)

Press SEL to confirm password

The first modifiable parameter code is displayed (/1).

To modify parameters see Parameters modification below.

Parameter Modification: Procedure

Press or to show the code of the parameter that has to be changed;

Press SEL to display the selected parameter value;

Press or to increase or decrease the value;

Press SEL to temporarily confirm the new value and display its code;

Repeat the procedure from the beginning "press or to show..."

To exit and save the new settings:

Press PRG to confirm the new values and exit the parameters modification procedure.

To exit without modifying any parameter:

Do not press any button for at least 60 seconds (TIME OUT).

Press “ESC” on IR remote control.

Defrost Activation:

A defrost cycle can be activated locally from the keypad:

Press the button for more than 5 seconds, a flashing “0” is displayed

Press or until “12” is displayed (password)

Press SEL to confirm password

The defrost cycle is activated.

Special Functions:

The Special Functions can be activated by:

Press and together for more than 5 seconds, a flashing “0” is displayed.

Press or until the password is displayed (default = 12). If password was changed, select the new password.

Press SEL to confirm password, a “0” is displayed and the Special Function mode is activated.

Press or to select the function. The number of special functions is dynamic and controller dependent. See list below.

Press SEL to activate the function without leaving the special function mode.

Press PRG to activate the function and leave the special function mode.

Most of the Special Functions work in a toggle mode, the first call activates the function, and the second call deactivates the function.

The indication of the function can only be displayed after exiting the special function mode.

0: Display test function

1: Clear alarm messages

2: Cleaning mode. The cleaning mode is effectively a manual defrost with the option of the fans on/off. The cleaning mode should not be used in order to isolate the application for maintenance purposes.

3: Fans only

4: Set the electronic control valve to 100% open

5: Displays the current TCP/IP address

6: Set the controller's TCP/IP address to 192.168.1.101 (default value). This change is only temporary. A power down will reset the previous address.

7: Resets all parameters to the factory default setting. The controller will indicate “oF” during the reset and the valve will close.

Display of Data:

The data to be permanently shown on the display can be selected by the user (parameter /1). In case of an alarm, the alarm code is displayed alternately with the selected data. The user can inhibit the alarm code.

It is possible to temporarily display these values. This is a useful feature when initially setting-up the system without the aid of the WebPages. Press the SEL button to scroll through all possible displayable data.. The display will show for one second the numerical identifier of the data (see /1 parameter) and then the selected data. After two minutes the display will return to the by parameter /1 selected data. This action is only valid when parameter H2 = 3.

Logical status of compressor relay

IR LED

Ethernet activity LED

 

(only active when service pin is pressed)

 

Logical status of fan relay

 

Logical status of defrost heater relay

 

Alarm condition

 

EC2-352_65117_EN_R05.doc

Replacement for Rev.:04

2 / 4

PCN : 864 925 16.09.2009

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Contents Electrical Installation Safety instructionsTechnical Data MountingDefrost Activation Setup and Parameter Modification Using the KeypadParameter Modification Procedure Special FunctionsList Of Parameters Min Max Unit DefMessages Alarm CodesFormula for Mean Factors A0, r8, r9 Visualising Data WebPages

EC2-352 specifications

Emerson Process Management has consistently been at the forefront of industrial automation and process control technologies, and the EC2-352 is a testament to their commitment to innovation and excellence. This device is part of Emerson's broader portfolio aimed at improving operational efficiency, reliability, and safety in various process environments.

The EC2-352 is designed as a robust and flexible platform for monitoring and control applications. One of its main features is its adaptability to a wide variety of environments, making it suitable for diverse industries including oil and gas, chemicals, pharmaceuticals, and food processing. This versatility is underpinned by its ability to connect seamlessly with existing systems and equipment.

One of the defining technologies integrated into the EC2-352 is its advanced communication capabilities. It supports multiple communication protocols such as HART, MODBUS, and Ethernet/IP, facilitating easy integration with both legacy and modern systems. This ensures that users can maintain a high level of interoperability in their operations.

The device is equipped with a powerful processing engine, which allows for real-time data acquisition and analysis. This feature is essential for making informed decisions based on the latest information, ultimately leading to improved operational performance. Additionally, the EC2-352 offers built-in diagnostics and predictive maintenance capabilities. These tools not only enhance reliability but also extend the lifecycle of equipment by proactively addressing potential issues before they become critical.

Another significant characteristic of the EC2-352 is its user-friendly interface. With intuitive controls and a clear display, operators can easily configure settings and monitor system performance. This user-centric design minimizes training time and mitigates the risk of operator error.

Moreover, the EC2-352 is built with rugged durability in mind. Its construction is optimized for harsh environmental conditions, ensuring consistent performance even in extreme temperatures or challenging operational scenarios. This resilience translates to lower maintenance costs and decreased downtime.

In conclusion, the Emerson Process Management EC2-352 exemplifies the evolution of process control technology. Through its advanced features, robust processing capabilities, and comprehensive communication options, it stands out as a vital tool for industries seeking to enhance their operational efficiency and reliability. With the EC2-352, Emerson continues to lead the way in delivering solutions that meet the demands of modern industrial environments.