[. . . ] Tools Needed: s Phillips screwdriver – Base grille removal s ¹⁄₄" hex-head socket wrench – Electrical wiring connections s ³⁄₁₆" hex key – Top hinge removal s Internal star drive or ³⁄₈" hex-head socket wrench – Bottom hinge removal s Bubble level – Check leveling s ¹⁄₄" open-ended or adjustable wrench – Adjust leveling feet s ⁵⁄₁₆" open-ended or adjustable wrench – Adjust door alignment Tools Provided: s ¹⁄₈" hex key – Handle setscrews (on some models) LEVELING AND DOOR ALIGNMENT ICE MAKER OPERATION Models with the Ice Storage Bin on the Door: To view an animated video about the leveling and door alignment process, scan the code at left with your mobile device.  Locate the ice maker switch on the left wall of the storage bin area. [. . . ] Remove the base grille by removing the two screws, then pulling out on the outside corners. Sensor cover Models with the Ice Storage Bin in the Freezer: Electrical Shock Hazard Plug into a grounded 3 prong outlet. Failure to follow these instructions can result in death, fire, or electrical shock. œ” If the refrigerator doors do not close easily or pop ❏ Open the freezer and locate the wire shutoff arm. Open, or if the refrigerator seems unsteady or rolls when a door is pulled open: the leveling feet, which are located on the brackets on each side of the product.  Use a ¹⁄₄" open-ended or adjustable wrench to adjust s Turn the leveling foot to the left to raise that side of the product, or turn it to the right to lower that side of the product. Make sure the water supply line behind the refrigerator is not kinked. Allow 24 hours for the freezer to get cold enough to begin making ice. Alignment screw ENERGY AND NORMAL OPERATING SOUNDS Your new refrigerator has been designed to optimize energy efficiency, and better regulate temperatures to match cooling demand. You may notice that it operates differently from your previous refrigerator. It is normal for the high-efficiency compressor to run for extended periods of time at varying speeds, in order to consume only the energy necessary for optimum efficiency. In addition, during various stages of the cooling cycle and ice production, you may hear normal operating sounds that are unfamiliar to you. [. . . ] In addition, during various stages of the cooling cycle and ice production, you may hear normal operating sounds that are unfamiliar to you. Normal sounds may include cracking/crashing, popping, pulsating/whirring, rattling, water running or gurgling, and sizzling. [. . . ]