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SmartCommand Thermostat

Installation Manual

Screen options include:

Display lock: Y or N (default N). Use this setting to lock or unlock the thermostat wall display unit buttons. When the buttons are locked (Y), you can still access the Menu screen, but you will not be allowed to select any menu options. The Installer settings screen hidden button operation is always operational, allowing you to return to this screen and turn the display lock off.

Service mode submenu: Y or N (default N). Use this setting to turn on the service mode. When the service mode is on (Y), it sets the thermostat to a test mode with short delays. All routine and staging delays are reduced to 15 seconds to speed up system checkout and testing.

CAUTION: The compressor short cycle protection is lost in this mode.

Network settings submenu.

Network address: 1 to 254 (default 1). Use this setting to set the serial communication network address (0 and 255 are reserved addresses).

Autosend: Y or N (default N). Use this setting to turn on the autosend. If autosend is on (Y), it sends a network message when there is a change in temperature, setpoints, and mode. If autosend is off (N), it is in polled mode and only responds to polling requests.

Maximum heating setpoint: 10 to 109 (default 109). Set the maximum heating setpoint that is allowed. Will not ramp or accept setpoints higher than this maximum.

Minimum cooling setpoint: 6 to 110 (default 6). Set the minimum cooling setpoint that is allowed. Will not ramp or accept setpoints lower than this minimum.

Minimum run time: 1 to 9 minutes (default 6). Set the minimum run time before a heating/cooling cycle can turn off.

Minimum off time: 5 to 9 minutes (default 6). Set the minimum off time before another heating/cooling cycle can begin. Five minutes minimum is the compressor short cycle protection delay.

Delta T settings submenu. This is a submenu of the delta, or difference between, the setpoint and current temperature for determining when a heat or cool call comes on. Deltas are the number of degrees away from setpoint.

H/C delta: 3 to 15 degrees (default 4). Set the minimum separation between heating and cooling setpoints. Attempts to lower the cooling below the heating setpoint by this amount will push the heating setpoint down to maintain this separation. In the same way, attempts to set the heating setpoint above the cooling setpoint will push the cooling setpoint up to maintain this separation.

Heating delta stage 1 on: 1 to 8 degrees (default 1). Set the delta from setpoint that stage 1 heating starts. Stage 1 turns off at setpoint.

Heating delta stage 2 on: 1 to 8 degrees (default 3). Set the delta from setpoint that stage 2 heating starts. Stage 2 turns off at setpoint.

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GE CC-SCSTAT installation manual Network settings submenu

CC-SCSTAT specifications

The GE CC-SCSTAT is a cutting-edge control system designed for power generation and distribution applications. This advanced platform is engineered to enhance efficiency, reliability, and safety in industrial environments, making it a preferred choice among operators in various sectors, including oil and gas, manufacturing, and utilities.

One of the main features of the GE CC-SCSTAT is its robust data acquisition and control capabilities. It integrates a comprehensive suite of sensors and monitoring tools that allow for real-time tracking of system performance. This functionality is crucial for identifying anomalies and optimizing operational parameters, ultimately leading to reduced downtime and increased productivity.

The system utilizes advanced communication protocols, such as Ethernet and Modbus, facilitating seamless integration with existing infrastructure. This interoperability ensures that organizations can implement the CC-SCSTAT without the need for extensive system overhauls, thus minimizing capital expenditure and disruption to ongoing operations.

In terms of technology, the GE CC-SCSTAT employs state-of-the-art algorithms for predictive maintenance and performance analytics. These capabilities are powered by machine learning and artificial intelligence, enabling the system to learn from historical data and predict potential failures before they occur. This proactive approach to maintenance not only extends the lifespan of equipment but also contributes to significant cost savings over time.

Another noteworthy characteristic of the CC-SCSTAT is its user-friendly interface, which provides operators with easy access to vital system information. The intuitive dashboard displays key performance indicators (KPIs), alarms, and alerts in a clear and organized manner, allowing for quick decision-making and response. Additionally, the system supports mobile access, enabling operators to monitor and control processes from remote locations.

Safety is a fundamental aspect of the GE CC-SCSTAT design. The system incorporates multiple layers of security features, including redundancy and failover mechanisms, ensuring continuous operation even in the event of a component failure. Furthermore, compliance with industry standards and regulations guarantees that the system adheres to best practices in safety and reliability.

In conclusion, the GE CC-SCSTAT stands out as a robust control system with advanced features and technologies. Its integration capabilities, predictive analytics, user-centric design, and unwavering focus on safety position it as a leading solution in the power generation and industrial control sectors. As organizations increasingly look to enhance operational efficiency and sustainability, the CC-SCSTAT proves to be a valuable asset in achieving these objectives.