Installation Instructions

PREPARE HOT W ATER LINE

The line may enter from Either side, rear or floor within the shaded area shown in Figure F.

The line may pass through the same hole as the electrical cable and Drain hose. Or, Cut an additional 1-1/2" dia. hole to accommodate the water line.

If power cord with plug is used, water line Must not pass through power cord hole.

BEFOR YOU BEGIN

Locate and set aside the package containing 2 phillips head counter top mounting screws and 2 additional toekickscrews(located in the literature).

CHECK DOOR BALANCE

To check the door balance,hold the top of the dis- washer firmly.

Figure 6

W ater Line Connection

Turn off the water supply.

Install a hand shut-off valve in an accessible location, such as under the sink. (Optional, but strongly recom- mended and may be required by local codes.)

Water connection is on the left side of the dishwasher . Install the hot water inlet line, using no less than 3/8" O.D. copper tubing. Route the line as shown in Figure F and extend forward at least 18"from rear wall.

Flush water line to clean out debris.

The hot water supply line pressure must be 20-120PSI.

CAUTION:

Opening the door will cause the dishwasher to tip forward. Do not open the door until you are ready to install the dishwasher . If it is

necessary to open the door, hold the top of the dishwasher securely with one hand and hold the door with the other hand.

Figure 7

·Open the door slowly,if the door drops when released,increase spring tension.If the door closes when released,decrease tension.

·Pull the spring adjustment pin out of the holes,inser t in the next highest or lowest hole and test again.

·Adjust both door springs to the same tension. ·Continue moving the spring pin until door is balance.

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GE 206C1559P148 installation instructions Prepare HOT W Ater Line, Befor YOU Begin, Turn off the water supply

206C1559P148 specifications

The GE 206C1559P148 is a sophisticated and advanced gas turbine engine that symbolizes General Electric's commitment to innovation and efficiency in aviation technology. This engine is specifically designed for use in turboprop and regional jet applications, showcasing a blend of power, reliability, and fuel efficiency that is essential in modern aviation.

One of the main features of the GE 206C1559P148 is its high thrust-to-weight ratio, which enables aircraft to achieve better performance, shorter takeoff distances, and enhanced climb rates. This is particularly beneficial in regional aviation where performance and efficiency are crucial. The engine is equipped with a modular design, allowing for easier maintenance and quicker turnaround times. This modular approach reduces downtime and operational costs for airlines, making it a cost-effective choice for operators.

In terms of technology, the GE 206C1559P148 utilizes advanced materials and manufacturing processes. The engine's materials are engineered to withstand high temperatures and pressures, ensuring operational longevity and reliability. Moreover, it incorporates state-of-the-art aerodynamics, which facilitates improved airflow and minimizes drag, leading to better fuel efficiency. This is particularly important in an era where reducing carbon emissions is a key focus in aviation.

The characteristics of the GE 206C1559P148 also include a sophisticated control system that takes advantage of digital technology. This engine features fly-by-wire capabilities, which means that the aircraft's pilot controls are interpreted by electronic systems rather than mechanical linkages. This enhances the precision and responsiveness of the engine's performance and improves overall flight safety.

Additionally, the GE 206C1559P148 engine offers a broad operational envelope, allowing it to perform reliably in a variety of environmental conditions. This versatility makes it suitable for various missions including short-haul flights and regional routes. The engine is designed for easy integration into different airframe configurations, providing further flexibility for aircraft manufacturers.

In summary, the GE 206C1559P148 stands out with its remarkable thrust-to-weight ratio, modular design for effective maintenance, advanced materials, and high-performance technologies. Its integration into modern aircraft not only enhances operational efficiency but also aligns with the industry's goal of sustainable aviation. As aviation continues to evolve, the GE 206C1559P148 will remain a pivotal component in shaping the future of regional air travel.