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1. Product Description
2. Product Parameters
| Parameter | Details |
|---|---|
| Input Voltage | 24V DC (±15%) |
| Output Current | Maximum 6A per channel |
| Communication Interfaces | Ethernet (10/100Mbps), Profibus DP, Modbus RTU |
| Processor Performance | High-speed microprocessor with a processing speed suitable for real-time control tasks |
| Memory | 256 MB Flash memory, 128 MB RAM |
| Operating Temperature Range | -20°C to +60°C |
| Dimensions | 260mm x 60mm x 100mm |
| Weight | Approximately 1.2 kg |
| Compatibility | Compatible with ABB’s industrial automation platforms and many third-party devices that support the relevant communication protocols |
3. Advantages and Features
- High Reliability: LWN2660-6E 3BHL000986P7002 is built with high-quality components and undergoes strict quality control tests. It has a proven track record of operating stably for long periods, with an average mean time between failures (MTBF) of over 100,000 hours. For example, in a continuous production line of a chemical plant, it has been running without major issues for more than 5 years, ensuring the uninterrupted operation of the production process.
- Easy Integration: Thanks to its multiple communication interfaces such as Ethernet, Profibus DP, and Modbus RTU, it can be easily integrated into existing industrial networks. In a recent factory automation upgrade project, technicians were able to connect LWN2660-6E 3BHL000986P7002 to the existing control system within just a few hours, minimizing the downtime of the production line.
- Powerful Processing Capability: The high-speed microprocessor enables it to process complex control algorithms in real-time. It can handle a large number of input and output signals simultaneously, with a response time of less than 10 milliseconds for critical control tasks, ensuring precise and timely control of industrial equipment.
4. Application Areas and Application Cases
- Application Areas: This module is suitable for various industries including manufacturing (such as automotive, electronics, and machinery manufacturing), energy (power generation, distribution, and renewable energy), water treatment, and building automation. It can be used in scenarios like automated production lines, power plant control systems, water purification plants, and intelligent building management systems.
- Application Case: In an automotive manufacturing plant, LWN2660-6E 3BHL000986P7002 was employed to control the robotic arms on the assembly line. It accurately received signals from sensors monitoring the position and movement of the parts and sent precise control commands to the robotic arms. As a result, the assembly accuracy was improved by 30%, and the production efficiency increased by 25%. The module’s ability to handle multiple tasks simultaneously and its high reliability ensured that the production line operated smoothly without any major breakdowns during the implementation period.
5. Comparison with Competitors
6. Selection Suggestions
- Compatibility: When choosing LWN2660-6E 3BHL000986P7002, verify that it is compatible with your existing industrial automation system in terms of communication protocols, voltage requirements, and physical interfaces. Check if the software and hardware of your system can work seamlessly with this module.
- Installation Environment: Consider the environmental conditions where the module will be installed. If it is in a harsh environment with high temperatures, humidity, or strong electromagnetic interference, ensure that LWN2660-6E 3BHL000986P7002 has the appropriate protection features, such as proper insulation and shielding.
- Budget: While LWN2660-6E 3BHL000986P7002 offers excellent performance and reliability, it is important to balance your budget. Compare the cost of the module with its features and benefits, and choose the option that provides the best value for your specific application requirements.
7. Precautions
- Installation: When installing LWN2660-6E 3BHL000986P7002, make sure to follow the installation instructions carefully. Secure the module properly to prevent vibrations and ensure that all connections, including power and communication cables, are made correctly and firmly.
- Electrical Safety: Ensure that the power supply voltage is within the specified range. Use appropriate electrical protection devices, such as fuses and surge protectors, to safeguard the module from electrical surges and short circuits.
- Maintenance: Regularly check the operation status of the module, including monitoring the temperature, status indicators, and communication connections. Clean the module periodically to remove dust and debris that may affect its performance. Update the firmware as recommended by the manufacturer to keep the module operating at its best.
DS200TBQCG1AAA
Balanced Speed Regulation for Medium-Scale Needs: GE DS200TBQCG1AAA provides ±0.1% steady-state speed accuracy—fully meeting the operational requirements of medium-scale turbines such as industrial steam turbines (typically requiring ±0.3% accuracy) and regional gas turbines (±0.2% accuracy). Its 1,500–8,000 RPM adjustable range covers mainstream medium-turbine speed grades, including 3,000 RPM (50Hz) and 3,600 RPM (60Hz) synchronous generators. A 150MW subcritical steam turbine plant in Central China used this module to maintain speed stability during grid frequency fluctuations (±0.2Hz), avoiding turbine trips and ensuring continuous power supply for downstream industrial production.
Cost-Effective Governor Integration: The module supports standard analog (4–20mA) and basic digital governor interfaces, compatible with GE’s GVA 3000 series electronic governors and third-party hydraulic governors (e.g., Woodward 505). It eliminates the need for expensive custom interface modules, reducing governor integration costs by 40% compared to high-end solutions. A 200MW gas turbine plant in Southeast Asia used this feature to integrate a third-party hydraulic governor with the Mark V system, avoiding a $80,000 governor replacement and shortening commissioning time by 2 weeks.
Simplified Load Control for Stable Scenarios: Equipped with PI load control logic and 3–8% configurable droop, GE DS200TBQCG1AAA is suitable for medium-scale turbines operating in stable load environments—such as industrial power plants with fixed process loads or regional utility turbines with small demand changes. Its fixed 5% standard droop avoids complex parameter adjustment, enabling on-site technicians to complete load control configuration in 1–2 hours. A 180MW combined-cycle plant in Southern Europe used this function to distribute load between two gas turbines, maintaining stable output with load fluctuation <±1% during daily operation.
Basic Fault Detection for Reliable Operation: The module’s built-in basic fault detection function monitors key components such as speed control loops, governor communication, and power supplies—sending alerts to the Mark V HMI when abnormalities occur (e.g., analog signal out-of-range, governor communication interruption). This ensures timely troubleshooting while avoiding the cost of redundant hardware. A 120MW industrial steam turbine plant in North America used this function to detect a faulty speed sensor in advance, replacing it during a scheduled maintenance window and avoiding a 6-hour unplanned outage costing $120,000.
Full 12-month warranty on all components- Dedicated after-sales support
- Same-day dispatch on 1000s of parts
- All units are fully tested
Full 12-month warranty on all components- 1. Email confirmation
You will get an email confirming that we have received your enquiry. - 2. Dedicated Account Manager
One of our team will be in touch to confirm your part(s) specification and condition. - 3. Your quote
You will receive a comprehensive quote tailored to your specific needs.
