Siemens HF36V305, HF36V306 manual Auto Defrost, Weight Conversion Chart, Defrosting Tips

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USING YOUR MICROWAVE OVEN

AUTO DEFROST

Your microwave oven is preset with three defrost sequences. Using auto defrost is the best way to defrost frozen foods. The auto defrost chart on pages 19 - 20 provides some basic guidelines for using the three defrost sequences.

 

Category

 

Touch Pad Number

 

Meat

 

1

 

 

Poultry

 

2

 

 

Fish

 

3

 

Example: To defrost 1.2 lbs. of ground beef.

 

PROCEDURE

DISPLAY

1.

Touch auto defrost

 

 

MEAT TOUCH 1

 

 

pad.

POULTRY TOUCH 2

 

 

 

 

FISH TOUCH 3

 

2.

Choose food category.

 

 

ENTER WEIGHT

 

 

Touch number [1] pad.

 

3.

 

 

Enter the weight by

 

 

1.2 LBS TOUCH START

 

 

touching pad [1] and

 

 

 

 

 

[2].

 

 

 

4.

Touch start pad.

Time counting down

 

 

 

and DEFROST.

NOTE:

When you touch the start pad, the display changes to defrost time count down. The oven will beep during the defrost cycle. At this time, open the door and turn, separate, or rearrange the food.

Remove any portions that have thawed.

Return frozen portions to the oven and touch start to resume the defrost cycle.

WEIGHT CONVERSION CHART

To enter food weight in auto defrost, you must specify pounds and tenths of a pound. If the weight on the food package is in fractions of a pound, you can use the following chart to convert the weight to decimals.

Equivalent

 

Pounds

Ounce Weight

 

 

 

1.6

.10

 

3.2

.20

 

4.0

.25

(One-Quarter Pounds)

4.8

.30

 

6.4

.40

 

 

 

 

8.0

.50

(One-Half Pounds)

9.6

.60

 

11.2

.70

 

12.0

.75

(Three-Quarter Pounds)

12.8

.80

 

14.4

.90

 

16.0

1.00 (One Pound)

 

 

 

DEFROSTING TIPS

When using auto defrost, the weight to be entered is the net weight in pounds and tenths of pounds (the weight of the food minus the container).

Use auto defrost only for raw food. Auto defrost gives best results when food to be thawed is a minimum of 0°F (taken directly from a freezer). If food has been stored in a refrigerator-freezer that does not maintain a temperature of 5°F or below, always program a lower food weight (for a shorter defrosting time) to prevent cooking the food.

If the food is stored outside the freezer for up to 20 minutes, enter a lower food weight.

The shape of the package alters the defrosting time. Shallow rectangular packets defrost more quickly than a deep block.

Separate pieces as they begin to defrost. Separated pieces defrost more easily.

You can use small pieces of aluminum foil to shield foods like chicken wings, leg tips, and fish tails, but the foil must not touch the side of the oven. Foil causes arcing, which can damage the oven lining. See page 6.

Shield areas of food with small pieces of foil if they start to cook too fast.

For better results, a preset standing time is included in the defrosting time.

For best results, elevate food to be defrosted on a microwave safe roasting rack. This prevents the possibility of warm meat juices cooking food during defrost.

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Contents Over the Range Microwave Table of Contents Safety Important Safety Instructions Read and follow the specific Precautions toTo reduce the risk of injury to persons For all cord connected appliancesFor a permanently connected appliance Cooking. Use these with care because the plastic Cookware GuideUSE Do not USE May soften from the heat of the foodCleaning Tips for Microwave CookingParts and Accessories See page 9 for control panel featuresControl Panel Control Panel Features Help Kitchen TimerLearn about Your Microwave Oven Control SET-UPLight HI/LO/OFF Light TimerVent HI/LO/OFF Table ON/OFFHold Warm Easy CookFavorite Recipe +/- MORE/LESSExample To cook food for 7 minutes, 30 seconds at 70% power Cooking AT High Power LevelCooking AT Lower Power Levels Touch power levelCooking Guide for Lower Power Level Power Level Microwave Output USEPopcorn Sensor Sensor Operating InstructionsSensor Cooking Guide Example To pop popcornPizza Sensor Potato SensorVegetable Sensor Entree, Casserole and Rice Example To cook rice Cook SensorReheat Sensor Example To reheat CasseroleWeight Conversion Chart Auto DefrostDefrosting Tips Lamb Auto Defrost ChartFood AT Beep Special Instructions Beef PorkAuto Defrost Chart CONT’D Time Defrost Quick DefrostUSE of the TWO Position Metal Rack Food Time Special Instructions Meat Time Defrost ChartGetting the Best Cooking Results Fish & SeafoodFish and Shellfish Cooking Table Fish Power Level Cooking Time DirectionsFish and Shellfish Cooking Fish and Shellfish General DirectionsAPPETIZERS/SAUCES/SOUPS MeatMeat Cooking Table Cooking Time Directions BeefCooking Poultry General Directions PoultryPoultry Cooking Table PoultryPasta and Rice Pasta Power Level Cooking Time DirectionsRice Power Level Cooking Time Directions Pasta Cooking TableCharcoal Filter Replacement Care and CleaningCleaning the Grease Filter Metal RackCooktop Light Replacement Oven Light ReplacementBefore Calling for Service Problem Possible CausesQuestions and Answers Question AnswerCooking

HF36V305, HF36V306 specifications

Siemens, a renowned leader in the field of industrial automation and control technology, has introduced the HF36V306 and HF36V305, two cutting-edge frequency converters designed to optimize performance in various industrial applications. These models are at the forefront of Siemens' efforts to enhance energy efficiency, precision control, and operational flexibility.

HF36V306 and HF36V305 are part of Siemens' innovative Sinamics series, renowned for delivering high-performance solutions for drive systems. Both models feature advanced technology that allows for smooth control of AC motors, significantly improving energy consumption and reducing operational costs. These frequency converters are highly versatile, suitable for applications in various sectors, including manufacturing, process automation, and building technology.

One of the standout features of the HF36V306 and HF36V305 is their ability to handle a wide range of voltage and power ratings. This flexibility makes them adaptable to different motor types and operational demands, ensuring compatibility with existing systems. Additionally, both models support a communication interface that provides seamless integration with higher-level automation systems, facilitating real-time monitoring and control.

The models are designed with advanced cooling technologies that enhance their reliability and longevity, even in tough operational environments. Their robust construction allows them to perform efficiently in temperatures ranging from -10 to +50 degrees Celsius, making them suitable for both indoor and outdoor installations.

Another key characteristic of the HF36V306 and HF36V305 is their powerful and intuitive software interface. With user-friendly programming and diagnostic tools, operators can easily configure the converters for specific applications, monitor performance metrics, and troubleshoot potential issues quickly. This ease of use extends to remote access capabilities, enabling operators to manage systems from anywhere, enhancing convenience and operational efficiency.

Both models also incorporate safety features that comply with international standards, ensuring that users can operate them with confidence. These include integrated functions like Safe Torque Off (STO) to minimize risks during maintenance and modifications.

In conclusion, Siemens’ HF36V306 and HF36V305 frequency converters present an impressive combination of advanced features, technologies, and characteristics. Their ability to deliver high performance, energy efficiency, and operational flexibility makes them a valuable solution for a variety of industrial applications, positioning Siemens as a frontrunner in the drive technology sector.
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