GE RAK147P1. RAL163P1 installation instructions Installation Instructions

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Installation Instructions

MOUNTING AND WIRING (CONT.)

2FEED THROUGH WIRES

Feed the thermostat control wires through the rectangular opening in the base and, using the base as a template, mark the location of the two vertical mounting holes.

3MOUNT BASE TO WALL

Use the supplied anchors and screws to mount the base to the wall by drilling two 3/16″ (4.7 mm) holes at the marked locations, and tap the nylon anchors flush to the wall surface.

4CONNECT WIRES

Connect the wires from the existing system to the thermostat terminals according to the wiring diagrams in Table 1 and Table 2. Push any excess wire back into the wall and seal the hole with putty or a caulking material to prevent drafts from affecting the ambient temperature of the sensor. All wiring must comply with local electrical codes and such National codes as they apply.

5RE-INSTALL THERMOSTAT TO BASE

To re-install the thermostat to the base, attach the tabs on the bottom of the thermostat front to the small slots on the base bottom and push up until they snap in place.

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Contents Thermostats General Features Thermostat OverviewDisplay Description Default Program Keyboard FunctionsTemperature Scale Selection Default ModeReview and Change the Setpoint Temperature Time FormatDay/Time Setting Mode Hold and Temporary OverrideProgramming Mode Programming Steps Program Time-Hour FlashingAdditional Instructions Fan Control Auto ChangeoverLCD Backlight VerificationInstallation Instructions Thermostats Installation Instructions Terminals for Five Wires HEAT/COOL System RAK163P1 only Specifications Troubleshooting tips… Page Registration Ownership Product Consumer Page Page GE Will Replace What GE Will Not Cover

RAK147P1. RAL163P1 specifications

The GE RAK147P1 and RAL163P1 are advanced technologies in the field of electrical and electronic components, notably recognized for their reliability and performance in various applications. Both models are part of General Electric's extensive line of products designed to meet the demands of modern industrial environments.

The RAK147P1 has a compact design that allows for easy installation and integration into existing systems. It boasts a robust construction that is resistant to harsh operational conditions. One of its standout features is its high efficiency in energy consumption, making it an environmentally friendly option. The technology employed in this model ensures optimal energy usage, reducing operational costs and carbon footprint for industries reliant on heavy machinery.

The RAK147P1 also incorporates sophisticated digital control systems that enhance its functionality. These systems provide real-time monitoring and diagnostics, allowing operators to maintain optimal performance and promptly address any issues that may arise. Additionally, the model supports a wide range of input and output configurations, making it versatile for different applications in manufacturing, automation, and energy management.

On the other hand, the RAL163P1 is designed with an emphasis on enhanced productivity and connectivity. It features advanced communication protocols, enabling seamless integration with other smart devices in an industrial setting. This model supports IoT (Internet of Things) applications, allowing for remote monitoring and control, which is crucial for industries seeking to optimize their operational efficiency.

Both models share several key characteristics, such as high durability, temperature resilience, and compliance with stringent safety standards. They undergo rigorous testing to ensure that they perform reliably across various conditions, which is essential in sectors such as manufacturing, utilities, and transportation.

In summary, the GE RAK147P1 and RAL163P1 are exemplary products that showcase General Electric's commitment to innovation and quality. With their array of features and technologies, they cater to the evolving needs of modern industries. Their robust design, efficiency, and connectivity options position them as leading choices for businesses aiming to enhance their operational capabilities while reducing environmental impact. As industries continue to evolve, these models represent a significant step forward in the integration of advanced technologies into everyday operations.