Programming Your Remote, cont.

6.Point the remote at the device. Press the POWER button—if the device turns off, no further programming is required for that device. If the device does not turn off, return to step 3 and use the next code found in the code list. Continue this process until a code for your device is found.

7.Repeat this process for each device (for example TV, DVD, CBL/SAT, DVR/ AUX) in your home entertainment system you wish to control. Four devices can be programmed.

Programming Notes

If your device does not respond to the remote after trying all codes listed or your brand is not listed in the code list, use the Auto Code Search method to program your remote.

Sometimes the first code that “works” with your device may operate only a few functions of your device. There may be another code in the code list that performs more functions. Try other codes from the code list for more functionality.

With the Direct Code Entry method, you can program any device button to control any device in your home entertainment system.

For example, you can use the DVR/AUX device button to control an audio receiver or a DVD, VCR, satellite device, etc.

For combination devices, you may have to enter a code for each device. For example, for a VCR/DVD device, you may have to enter a code for the DVD under the DVD button and enter a code for the VCR using a different device button on the remote.

Write down the code found to operate your device for future reference.

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GE 20622 instruction manual Programming Your Remote, Programming Notes

20622 specifications

The GE 20622 is a significant advancement in the field of gas turbines, specifically designed for efficient power generation in various industrial applications. As part of General Electric's commitment to innovation and sustainability, the GE 20622 incorporates cutting-edge technologies and features that enhance performance, reliability, and environmental compatibility.

One of the main features of the GE 20622 is its advanced combustion system, which promotes low emissions and high efficiency. Utilizing an innovative dry low NOx (DLN) technology, this turbine significantly reduces nitrogen oxide emissions while maintaining optimal performance. This is especially crucial in today's regulatory environment, where environmental compliance is a priority for energy producers.

The GE 20622 is also notable for its high thermal efficiency. This is achieved through a combination of advanced materials and an optimized design that allows it to operate at higher temperatures and pressures. The turbine is engineered to provide substantial power output, making it suitable for both standalone plants and combined cycle configurations, where it can be paired with steam turbines for increased overall system efficiency.

Another characteristic that sets the GE 20622 apart is its adaptability. The turbine can be utilized in a range of applications, from peaking power plants to base load generation. Its flexibility allows operators to effectively manage load variations and meet the dynamic demands of the energy market. Furthermore, its modular design simplifies maintenance and reduces downtime, enhancing overall operational efficiency.

In addition to its performance features, the GE 20622 leverages digital technologies to provide real-time analytics and predictive maintenance capabilities. This integration enables operators to monitor the health of the turbine continuously, identify potential issues before they become critical, and optimize operations based on data-driven insights.

The turbine stands out for its commitment to sustainability. With a thoughtful design that emphasizes reduced fuel consumption and lower emissions, the GE 20622 aligns with global efforts to transition towards cleaner energy systems. As energy needs continue to evolve, the GE 20622 is well-positioned to meet both current and future challenges in the power generation landscape, making it a viable choice for utilities and industrial customers alike.

In summary, the GE 20622 combines efficiency, adaptability, reliability, and advanced technology to provide a robust solution for modern energy demands. Its innovative design sets a new standard in gas turbine technology, representing a pivotal step towards a more sustainable and efficient energy future.