DCP200 Profile Controller & Recorder - Product Manual

Parameter Name

Modbus Address

Access

Values

 

(Dec)

(Hex)

 

 

14

15

16

17

18

19

20

21

22

23

Event 1 AND Alarm 1. Direct Acting

Event 1 AND Alarm 1. Reverse Acting

Event 2 AND Alarm 2. Direct Acting

Event 2 AND Alarm 2. Reverse Acting

Event 3 AND Alarm 3. Direct Acting

Event 3 AND Alarm 3. Reverse Acting

Event 4 AND Alarm 4. Direct Acting

Event 4 AND Alarm 4. Reverse Acting

Event 5 AND Alarm 5. Direct Acting

Event 5 AND Alarm 5. Reverse Acting

Setpoint Parameters

 

 

 

Parameter Name

Modbus Address

Access

Values

 

(Dec)

(Hex)

 

 

Setpoint Minimum

3944

0x0F68

R/W

Valid between Scale Range Maximum and Minimum

Setpoint Maximum

3945

0x0F69

R/W

Valid between Scale Range Maximum and Minimum

Local Setpoint 1

3960

0x0F78

R/W

Valid between Setpoint Maximum and Minimum

Value

 

 

 

 

Local Setpoint 1

3961

0x0F79

R/W

Setpoint is always limited within Setpoint Maximum

Offset

 

 

 

and Minimum

Local Setpoint 2

3962

0x0F7A

R/W

Valid between Setpoint Maximum and Minimum

Value

 

 

 

 

Local Setpoint 2

3963

0x0F7B

R/W

Setpoint is always limited within Setpoint Maximum

Offset

 

 

 

and Minimum

Setpoint Selection

4000

0x0FA0

R/W

Value

Setpoint Selection Method

Method

 

 

 

0

Local Setpoint 1 only

 

 

 

 

 

 

 

 

1

Selected by Digital Input A

 

 

 

 

2

Selected by Digital Input B

 

 

 

 

3

Alternate Setpoint only

 

 

 

 

4

Operator or Comms selectable

Alternate Setpoint

4001

0x0FA1

R/W

Value

Alternate Setpoint Source

Source

 

 

 

0

Local Setpoint 2

 

 

 

 

 

 

 

 

1

Remote Setpoint from Auxiliary Input A

 

 

 

 

2

Remote Setpoint from Auxiliary Input B

Auxiliary Input A

4073

0x0FE9

R/W

Valid between Setpoint Maximum and Minimum

Scale Minimum

 

 

 

 

 

Auxiliary Input A

4074

0x0FEA

R/W

Valid between Setpoint Maximum and Minimum

Scale Maximum

 

 

 

 

Auxiliary Input A

4075

0x0FEB

R/W

Setpoint is always limited within Setpoint Maximum

Offset

 

 

 

and Minimum

Auxiliary Input A

4076

0x0FEC

RO

The value of analogue Auxiliary Input A

Value

 

 

 

 

Auxiliary Input B

4078

0x0FEE

R/W

Valid between Setpoint Maximum and Minimum

Scale Minimum

 

 

 

 

Auxiliary Input B

4079

0x0FEF

R/W

Valid between Setpoint Maximum and Minimum

Scale Maximum

 

 

 

 

51-52-25-150, Issue 1 – April 2009

Modbus Parameters

Page 101

Page 101
Image 101
Honeywell DCP200 manual Setpoint Parameters, Value Setpoint Selection Method, Value Alternate Setpoint Source

DCP200 specifications

The Honeywell DCP200 is an advanced distributed control platform designed to enhance efficiency, reliability, and flexibility in industrial automation. With a robust architecture capable of supporting a wide range of applications, the DCP200 is perfect for sectors including oil and gas, chemical processing, power generation, and manufacturing.

One of the key features of the Honeywell DCP200 is its scalability. It can be easily expanded to accommodate increasing demands, making it suitable for both small operations and large enterprises. This flexibility allows industries to adopt the system gradually, integrating it into their existing processes without substantial downtime or a steep learning curve.

The DCP200 is built on open standards, facilitating seamless integration with third-party systems and equipment. This compatibility ensures that companies can leverage existing infrastructures and investments, fostering a more cohesive operational environment. Enhanced interoperability is achieved via industry-standard communication protocols, enabling devices to communicate fluently across diverse platforms.

Another significant characteristic of the DCP200 is its powerful data acquisition and processing capabilities. The system utilizes state-of-the-art data analytics tools to monitor real-time information, enabling better decision-making and predictive maintenance. This proactive approach helps in reducing downtime, optimizing performance, and ultimately driving operational excellence.

The DCP200 system supports a wide range of input and output options, ensuring it can interface with various sensors, actuators, and control devices. This adaptability contributes to its function as a central hub for industrial monitoring and control, enhancing data visibility and operational responsiveness.

Security is a top priority for Honeywell, and the DCP200 employs robust cybersecurity measures to protect critical infrastructure. The system includes advanced authentication protocols and data encryption techniques, safeguarding sensitive information from unauthorized access and potential cyber threats.

User experience is also a focal point of the DCP200. The platform features an intuitive graphical user interface that simplifies navigation and enhances operator engagement. Customizable dashboards provide at-a-glance insights into system performance, aiding both operators and management in identifying areas for improvement.

In conclusion, the Honeywell DCP200 is an innovative distributed control platform that marries flexibility, scalability, and security. With its comprehensive feature set and commitment to seamless integration, it stands as a vital tool for companies aiming to enhance their automation efforts and drive operational success in an increasingly complex industrial landscape.