Name: WOODWARD 9907-1199 Power Analytics and Control Module | Qiming Automation
Brand: WOODWARD
Price: 49753.00 CNY
Availability: InStock

Description

The WOODWARD 9907-1199 serves as a central hub for power – related data collection and analysis. It continuously monitors multiple parameters of the power grid, including voltage, current, power factor, and harmonic distortion. By aggregating this data in real – time, it can identify inefficiencies in power usage, such as abnormal power spikes or low – power – factor conditions. The module then uses advanced algorithms to analyze this data and generate actionable insights. For example, it can detect when a particular piece of equipment is consuming excessive power due to a mechanical issue, allowing maintenance teams to intervene proactively.

9907-1199

One of the key features of the WOODWARD 9907-1199 is its ability to interface with a wide range of power – related devices. It can be connected to circuit breakers, transformers, and variable – speed drives, among others. Through these connections, it not only monitors the power – related parameters but also has the capability to control the operation of these devices. For instance, in case of a detected power surge, it can automatically adjust the settings of a variable – speed drive to reduce the load on the power grid, thereby preventing potential damage to connected equipment.

9907-1199

Technical specifications:
Model Number 9907-1199
Brand Woodward
Type Power Analytics and Control Module
Input Voltage 110 – 240 V AC ± 10% (for power supply); multiple input ranges for power parameter monitoring
Operating Temp Range – 25°C to + 55°C
Mounting Style
Rack – mountable for easy installation in industrial enclosures
Dimensions 482.6 mm x 44.5 mm x 200 mm (standard 1U form factor)
Weight Approximately 2 kg
Interface/BusEthernet (for data transfer and remote access), Modbus RTU/ASCII (for connection to legacy devices), CANbus (for high – speed, reliable data communication within the system)
ComplianceComplies with IEC 61000 (electromagnetic compatibility), UL 61010 (safety for electrical equipment for measurement, control, and laboratory use), CE
Data Sampling RateUp to 1000 samples per second for accurate power parameter monitoring
Power Parameter AccuracyVoltage: ±0.5%; Current: ±1%; Power Factor: ±0.01
Control OutputsRelay outputs for controlling power – related devices (e.g., circuit breakers, contactors); analog outputs for adjusting variable – speed drives
Memory Capacity8 GB internal storage for data logging; expandable up to 64 GB via external storage
Communication SpeedEthernet: 10/100/1000 Mbps; Modbus: up to 115200 bps; CANbus: up to 1 Mbps

Contact Us
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9907-1199

Main features and advantages:

The benefits of implementing the WOODWARD 9907-1199 are far – reaching. In terms of cost savings, its power analytics capabilities can identify areas of wasteful power consumption. In a manufacturing plant, for example, it can analyze the power usage of individual production lines and pinpoint machines that are consuming more power than necessary. By rectifying these inefficiencies, companies can reduce their overall energy costs by up to 15%.

The module also plays a vital role in enhancing equipment reliability. By continuously monitoring power parameters and detecting anomalies, it can prevent equipment failures due to power – related issues. In a data center, sudden power surges can cause servers to crash, leading to significant data loss and downtime. The 9907-1199 can detect such surges in advance and take corrective actions, such as diverting power or adjusting the load, ensuring the uninterrupted operation of servers. This proactive approach can increase equipment uptime by up to 98%, minimizing costly disruptions.

Furthermore, the 9907-1199 enables better energy management. With its ability to analyze power consumption patterns over time, it can help companies optimize their energy usage. For example, it can recommend the best times to run energy – intensive equipment based on the electricity tariff structure, allowing businesses to take advantage of off – peak rates and further reduce their energy bills.

9907-1199

Application areas:

The WOODWARD 9907-1199 finds extensive applications across various industries. In the manufacturing sector, it is used to monitor and control the power usage of complex production lines. In automotive manufacturing plants, for instance, it can ensure that robotic arms, conveyor belts, and other equipment operate efficiently in terms of power consumption. By optimizing power usage, manufacturers can reduce production costs and improve their competitiveness.

In data centers, the 9907-1199 is crucial for maintaining the stable operation of servers and other IT infrastructure. Data centers consume a vast amount of power, and any power – related issues can lead to data loss and service disruptions. The module’s ability to monitor power parameters and control power – related devices helps in ensuring the continuous and reliable operation of data centers. It can also assist in implementing energy – saving measures, such as adjusting the cooling systems based on the power consumption of servers.

In the energy industry, the 9907-1199 is used in power generation plants and substations. In wind farms, it can monitor the power output of turbines and ensure that the power is transmitted efficiently to the grid. It can also detect any power – quality issues and take corrective actions to maintain the stability of the power grid. In substations, the module can control the operation of transformers and circuit breakers, optimizing the distribution of power.

9907-1199

Related products:

9907 – 838: Multi – axis motion control module. Can be integrated with 9907 – 1199 in manufacturing facilities where power management needs to be coordinated with precise motion control, such as in automated assembly lines.

9907 – 167: Steam turbine governor. Works in tandem with 9907 – 1199 in power plants, where the governor controls the steam turbine operation, and 9907 – 1199 manages the power output and distribution aspects.

9907 – 028/029: Engine control modules. In hybrid power generation setups that use engines and other power sources, 9907 – 1199 can be used to manage the overall power distribution while 9907 – 028/029 controls the engine operation.

9907 – 156: Redundant control module. Pairs well with 9907 – 1199 in mission – critical applications, such as data centers, to enhance system reliability by providing backup control capabilities in case of a failure in the 9907 – 1199 module.

8200 – 1310 (505 XT): Steam turbine control upgrade. Can be integrated with 9907 – 1199 to modernize the control and power management of steam turbines in legacy power plants.

9907 – 042: Ethernet/IP adapter. Extends the connectivity options of 9907 – 1199, especially useful in industrial environments where Ethernet – based communication is prevalent, allowing for seamless integration with other network – connected devices.

9907 – 1201: High – speed data logger. Integrates with 9907 – 1199 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.

Installation and maintenance:

Before installing the WOODWARD 9907-1199, it is essential to verify the power supply compatibility. Ensure that the input voltage of the module is within the specified range of 110 – 240 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. Mount it in a well – ventilated rack to prevent overheating.
For the communication interfaces, make sure that the Ethernet cables are properly terminated and shielded to avoid data loss or interference. When connecting to legacy devices via Modbus or CANbus, verify the communication settings, such as baud rate, parity, and data bits, 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 red LED may indicate 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.
Every six months, inspect the physical connections of the module, including power cables and communication wires, for signs of wear, corrosion, or looseness. Tighten any loose connections to maintain reliable operation. Annually, consider calibrating the power parameter sensors of the module to ensure accurate measurement. Woodward provides calibration procedures and tools to assist with this process. Additionally, keep the module’s firmware up – to – date to benefit from the latest security patches and functionality enhancements.

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