WOODWARD 9907-1228 state – of – the – art power – control and optimization module
Sale!
WOODWARD 9907-1228 state – of – the – art power – control and optimization module
The WOODWARD 9907-1228 is a state – of – the – art power – control and optimization module. It serves as a central nervous system for industrial power systems, continuously monitoring and regulating the power supply to various equipment. By integrating advanced sensor technology and intelligent algorithms, it can precisely analyze real – time power data, such as voltage fluctuations, current surges, and power factor variations. This enables it to make split – second decisions to ensure that equipment operates at peak efficiency while consuming the least amount of energy.
Model Number 9907-1228
Brand Woodward
Type Power – Control and Optimization Module
Input Voltage 220 – 480 V AC ± 10% (for power supply); multiple input ranges for power parameter monitoring
Operating Temp Range – 30°C to + 60°C
Mounting Style Wall – mountable or DIN – rail mountable for flexible installation in different industrial settings
Dimensions 250 mm x 150 mm x 100 mm
Weight Approximately 1.5 kg
Interface/Bus Ethernet (for high – speed data transfer and remote access), Modbus TCP/IP (for seamless integration with legacy systems), Profibus DP (for reliable communication in industrial networks)
ComplianceComplies with IEC 61850 (power system communication standard), UL 60950 – 1 (safety of information technology equipment), CE
Power Parameter Monitoring AccuracyVoltage: ±0.2%; Current: ±0.5%; Power Factor: ±0.005
Control Response TimeLess than 5 milliseconds for rapid adjustment to power changes
Energy Optimization AlgorithmIncorporates real – time load – following and predictive control algorithms to minimize energy waste
Memory Capacity16 GB internal storage for data logging; expandable up to 128 GB via external storage for long – term data analysis
Communication SpeedEthernet: 100/1000 Mbps; Modbus TCP/IP: up to 1 Mbps; Profibus DP: up to 12 Mbps
The WOODWARD 9907-1228 is a state – of – the – art power – control and optimization module. It serves as a central nervous system for industrial power systems, continuously monitoring and regulating the power supply to various equipment. By integrating advanced sensor technology and intelligent algorithms, it can precisely analyze real – time power data, such as voltage fluctuations, current surges, and power factor variations. This enables it to make split – second decisions to ensure that equipment operates at peak efficiency while consuming the least amount of energy.
9907-1228
One of the standout features of the WOODWARD 9907-1228 is its ability to interface with a wide array of industrial equipment. It can be easily connected to motors, generators, pumps, and compressors, among others. Once connected, it not only monitors the power consumption of these devices but also has the capacity to control their operation. For example, in a manufacturing plant with multiple motors running on a production line, the 9907 – 1228 can detect when a motor is under – loaded or over – loaded. In the case of an under – loaded motor, it can adjust the motor’s speed to reduce power consumption without affecting production output. Conversely, if a motor is over – loaded, it can take preventive measures such as reducing the load or alerting maintenance personnel to a potential mechanical issue.
9907-1228
Technical specifications:
Model Number 9907-1228
Brand Woodward
Type Power – Control and Optimization Module
Input Voltage 220 – 480 V AC ± 10% (for power supply); multiple input ranges for power parameter monitoring
Operating Temp Range – 30°C to + 60°C
Mounting Style Wall – mountable or DIN – rail mountable for flexible installation in different industrial settings
Dimensions 250 mm x 150 mm x 100 mm
Weight Approximately 1.5 kg
Interface/Bus Ethernet (for high – speed data transfer and remote access), Modbus TCP/IP (for seamless integration with legacy systems), Profibus DP (for reliable communication in industrial networks)
ComplianceComplies with IEC 61850 (power system communication standard), UL 60950 – 1 (safety of information technology equipment), CE
Power Parameter Monitoring AccuracyVoltage: ±0.2%; Current: ±0.5%; Power Factor: ±0.005
Control Response TimeLess than 5 milliseconds for rapid adjustment to power changes
Energy Optimization AlgorithmIncorporates real – time load – following and predictive control algorithms to minimize energy waste
Memory Capacity16 GB internal storage for data logging; expandable up to 128 GB via external storage for long – term data analysis
Communication SpeedEthernet: 100/1000 Mbps; Modbus TCP/IP: up to 1 Mbps; Profibus DP: up to 12 Mbps
Contact Us Phone:+86 16626708626 WeChat/WhatsApp:+86 16626708626 Email: 3772179818@qq.com
9907-1228
Main features and advantages:
Implementing the WOODWARD 9907-1228 brings about a multitude of benefits. In terms of energy savings, its intelligent power – optimization algorithms can reduce overall energy consumption in industrial facilities by up to 20%. This is achieved by continuously analyzing power usage patterns and making dynamic adjustments to equipment operation. For instance, in a large – scale data center, the 9907-1228can optimize the power supply to servers and cooling systems based on real – time workload demands. By reducing unnecessary power consumption during low – load periods, significant energy savings can be realized.
The module also plays a crucial role in enhancing equipment reliability and lifespan. By closely monitoring power parameters and detecting anomalies in real – time, it can prevent equipment failures caused by power – related issues. In a power generation plant, sudden voltage spikes or current surges can damage sensitive generator components. The 9907-1228 can detect such events instantaneously and take corrective actions, such as diverting power or adjusting the generator’s output, to protect the equipment. This proactive approach can extend the lifespan of equipment by up to 30%, reducing maintenance costs and minimizing unplanned downtime.
Moreover, the 9907-1228 enables better production efficiency. In manufacturing plants, it can ensure that production equipment operates at optimal power levels, reducing the risk of production slowdowns or stoppages due to power – related problems. By maintaining stable power supply and optimizing equipment performance, it can increase production output by up to 15% in some cases.
9907-1228
Application areas:
The WOODWARD 9907-1228 finds extensive applications across diverse industries. In the manufacturing industry, it is an invaluable asset for optimizing power usage in complex production lines. In automotive manufacturing, for example, it can control the power supply to robotic assembly arms, conveyor belts, and paint – spraying equipment. By ensuring that these devices operate at peak efficiency, manufacturers can reduce production costs and improve product quality.
In the energy sector, the 9907-1228 is used in power generation plants, both conventional and renewable. In wind farms, it can monitor and control the power output of wind turbines, ensuring that they operate efficiently under different wind conditions. In thermal power plants, it can optimize the power supply to boilers, turbines, and generators, improving overall plant efficiency.
In the mining industry, where large – scale equipment such as crushers, conveyors, and pumps consume significant amounts of power, the 9907-1228 can be used to manage power distribution and consumption. By reducing energy waste and improving equipment reliability, it can contribute to more sustainable and cost – effective mining operations.
9907-1228
Related products:
9907 – 838: Multi – axis motion control module. Can be integrated with 9907 – 1228 in manufacturing facilities where precise motion control needs to be coordinated with power optimization, such as in automated precision machining processes.
9907 – 167: Steam turbine governor. Works in tandem with 9907 – 1228 in power plants, where the governor controls the steam turbine operation, and 9907 – 1228 manages the power output and distribution aspects, ensuring seamless integration between power generation and consumption.
9907 – 028/029: Engine control modules. In hybrid power generation setups that use engines and other power sources, 9907 – 1228 can be used to manage the overall power distribution, while 9907 – 028/029 controls the engine operation, optimizing the use of different power sources.
9907 – 156: Redundant control module. Pairs well with 9907 – 1228 in mission – critical applications, such as in oil and gas refineries, to enhance system reliability by providing backup control capabilities in case of a failure in the 9907 – 1228 module.
8200 – 1310 (505 XT): Steam turbine control upgrade. Can be integrated with 9907 – 1228 to modernize the control and power management of steam turbines in legacy power plants, improving their efficiency and performance.
9907 – 042: Ethernet/IP adapter. Extends the connectivity options of 9907 – 1228, especially useful in industrial environments where Ethernet – based communication is prevalent, allowing for seamless integration with other network – connected devices and systems.
9907 – 1201: High – speed data logger. Integrates with 9907 – 1228 to capture and store power – related data at high speeds, which can be used for in – depth analysis of power consumption patterns and system performance over time, enabling continuous improvement of power management strategies.
9907-1228
Installation and maintenance:
Before installing the WOODWARD 9907-1228, it is essential to verify the power supply compatibility. Ensure that the input voltage of the module is within the specified range of 220 – 480 V AC ± 10%. Incorrect voltage supply can lead to module malfunction or damage. Check the physical installation location to ensure proper ventilation, as the module may generate heat during operation. If wall – mounting, ensure that the mounting surface is sturdy and able to support the weight of the module. For DIN – rail mounting, verify that the DIN – rail is properly installed and compatible with the module.
For the communication interfaces, make sure that Ethernet cables are properly terminated and shielded to avoid data loss or interference. When connecting to legacy systems via Modbus TCP/IP or Profibus DP, verify the communication settings, such as IP addresses, baud rates, and data formats, to ensure seamless data transfer. It is also crucial to update the firmware of the module to the latest version before installation. Woodward provides regular firmware updates that may include bug fixes, performance improvements, and new features.
For ongoing maintenance, perform weekly checks of the module’s status indicators. The front – panel LEDs can provide valuable information about the module’s operation. A steady green LED for power indicates normal power supply, while a flashing yellow LED may indicate a minor warning, such as a communication issue, and a flashing red LED indicates a critical error. Monthly, review the data logs stored in the module to identify any abnormal power consumption patterns or trends. If any issues are detected, use Woodward’s diagnostic software to further investigate and troubleshoot.
WhatsApp: +86 16626708626
Email: 3772179818@qq.com
Phone: +86 16626708626
