YOU MAY NOT ADD TOO MUCH DETERGENT TO PREVENT THE FORMATIO N OF DEPOSITS BECAUSE YOUR DISHWASHERS HAVE SPECIALLY-DESIGNED WATER SOFTENERS.

The dispenser must be refilled before the start of each wash cycle following the instructions provided i n the" Wash Cycle Table".Your dishwashers use less detergent and rinse aid than conventional dishwashers. Generally, only one tablespoon of detergent is needed for a normal wash load. Also, more heavily soiled items need more detergent. Always add the detergent just before starting dishwasher, otherwise it could get damp and will not dissolve properly.

IF THE WATER ISN'T TOO HARD, YOU MAY ALSO PREVENT THE FORMATION OF DEPOSITS BY ADDING DETERGENT.

The amount of det ergent needed can vary due to differences in water hardness. To determine the water hardness in your area, contact your local water utility or area water softening company. The harder the water, the more detergent you may need. Remember, you should adjust the amount of detergent you use by small amounts until you find the correct amount.

Dishwasher detergent is corrosive! Take care to keep it out of reach of children.

To remove hard water spots, try t he following:

Run di shes through a normal wash program.

Remove all metal dishware, such as cutlery, pans, etc., from the dishwasher.

Do not add detergent.

Pour two cups of vinegar into a bowl and set the bowl face up on the lower rack of the dishwasher.

Run the dishes through a normal wash program.

If this doesn't work, try the same process with 1 / 4 cup of citric acid crystals instead of vinegar.

Use only detergent specifically made for use in dishwashers. Keep your detergent fresh and dry. Don't put powder detergent

into the dispenser until You're ready to wash dishes.

To open t he dispenser, turn the cap to the "open" (left) arrow and lift it out.

Pour the rinse aid i nto the dispenser, being careful not to overfill.

Replace t he cap by inserting it aligned with "open" arrow and turning it to the closed (right) arrow.

The rinse aid is released during the final rinse to prevent water from forming droplets on your dishes that can leave spots and streaks. It also improves drying by allowing water to "sheet" off the dishes.

Your dishwashers ar e designed to use liquid rinse aids. The rinse aid dispenser is located inside the door next to the

detergent dispenser. To fill the dispenser, open the cap and pour the rinse aid into the dispenser until the level indicator turns completely black. The dispenser holds about 100 ml of liquid rinse aid.

Be careful not to overfill the dispenser, because this could cause over sudsing. Wipe away any spills with a damp cloth. Don't forget to replace the cap before you close the dishwasher door.

If you have soft water, you may not need rinse aid for it may cause a white film to develop on your dishes.

Ameasured amount of rinse aid is released during the final rinse. As with detergent, the amount of rinse aid needed for your dishes depends on the hardness of the water in your area. Too much rinse aid can result in lather of foaming and cause cloudiness or steaks on your dishes. If the water in your area is very soft, you may not need rinse aid. If you do,you can dilute the rinse aid with an equal amount of water.

The rinse aid dispenser has six settings. Always start with the dispenser set on " 1 ". If spots and poor drying are problems, increase the am ount of rinse aid dispensed by removing the dispenser lid and rotating the dial to "2". If the dishes stil l are not drying properly or are spotted, adjust the dial to the next hi gher number until your dishes are spot-free. We suggest you to set on "4" .

(If only four settings we suggest you to set on "2".)

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Hoover HEDS 668S-80, HEDS 668-80 manual If only four settings we suggest you to set on

HEDS 668S-80, HEDS 668-80 specifications

The Hoover HEDS 668-80 and HEDS 668S-80 are advanced sensor modules widely recognized for their precision and reliability in various applications. Both models serve prominently in the realm of motion detection and optical encoders, making them indispensable in robotics, industrial automation, and consumer electronics.

At the core of these sensors is the use of integrated photodetectors and light emitters, which work together to accurately capture motion data. The HEDS 668-80 features a compact design, allowing for easy integration into numerous hardware configurations. It incorporates a dual-channel output, which provides both quadrature and single-ended output signals. This feature enables enhanced motion control and allows for more accurate detection of direction, making it suitable for applications requiring precise angular measurements.

One of the standout technologies in the HEDS series is its use of reflective optical sensing. This technology minimizes interference from ambient light conditions, ensuring reliable performance even in varying environmental settings. The sensors are designed with a resolution of up to 500 counts per revolution, allowing for finely-tuned control in robotic applications.

The HEDS 668S-80 enhances the capabilities found in the 668-80 model by offering an increased tolerance for temperature variations and shock resistance. This makes it an ideal candidate for harsh operating conditions, where reliability is paramount. The HEDS 668S-80 also boasts an improved response time, further enhancing the performance in high-speed applications.

Both models feature a straightforward mounting system that facilitates installation and adjustment, allowing engineers to set up their systems quickly and efficiently. Additionally, their robust construction ensures durability across extended periods of use, providing a long lifespan in demanding applications.

In summary, the Hoover HEDS 668-80 and HEDS 668S-80 represent advanced sensor technology that combines high performance with robust design. Their integrated features cater to a variety of applications, making them a vital component in the ever-evolving landscape of automated systems and precision measurement. As industries increasingly rely on automation, these sensors offer the reliability and accuracy that engineers need to achieve optimal performance in their projects.