IMPORTANT SAFETY INSTRUCTIONS

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WARNING!

Microwave- safe cookware

Make sure to use suitable cookware during microwave cooking. Most glass casseroles, cooking dishes, measuring cups, custard cups, pottery or china dinnerware which does not have metallic trim or glaze with a metallic sheen can be used. Some cookware is labeled “suitable for microwaving.”

The oven rack (turntable)

must always be in place when using the oven.

The glass microwave tray should always be in place when microwaving.

Place food or microwavable container directly on the glass microwave tray to cook your food.

Use of the black metal tray during microwave cooking will result in inferior cooking performance.

If you are not sure if a dish is microwave-safe, use this test: Place in the oven both the dish you are testing and a glass measuring cup filled with 1 cup of water—set the measuring cup either in or next to the dish. Microwave 30–45 seconds at high.

If the dish heats, it should not be used for microwaving.

If the dish remains cool and only the water in the cup heats, then the dish is microwave-safe.

Cookware may become hot because of heat transferred from the heated food. Oven mitts may be needed to handle the cookware.

Do not use recycled paper products. Recycled paper towels, napkins and waxed paper can contain metal flecks which may cause arcing or ignite. Paper products containing nylon or nylon filaments should be avoided, as they may also ignite.

Use foil only as directed in this manual. When using foil in the oven, keep the foil at least 1 inch away from the sides of the oven.

Do not use the oven to dry newspapers.

If you use a meat thermometer while cooking, make sure it is safe for use in microwave ovens.

Some styrofoam trays (like those that meat is packaged on) have a thin strip of metal embedded in the bottom. When microwaved, the metal can burn the floor of the oven or ignite

a paper towel.

Paper towels, waxed paper and plastic wrap can be used to cover dishes in order to retain moisture and prevent spattering. Be sure to vent plastic wrap so steam can escape.

Not all plastic wrap is suitable for use in microwave ovens. Check the package for proper use.

“Boilable” cooking pouches and tightly closed plastic bags should be slit, pierced or vented as directed by package. If they are not, plastic could burst during or immediately after cooking, possibly resulting in injury. Also, plastic storage containers should be at least partially uncovered because they form a tight seal. When cooking with containers tightly covered with plastic wrap, remove covering carefully and direct steam away from hands and face.

Plastic cookware—Plastic cookware designed for microwave cooking is very useful, but should be used carefully. Even microwave-safe plastic may not be as tolerant of overcooking conditions as are glass or ceramic materials and may soften or char if subjected to short periods of overcooking. In longer exposures

to overcooking, the food and cookware could ignite.

Follow these guidelines:

1.Use microwave-safe plastics only and use them in strict compliance with the cookware manufacturer’s recommendations.

2.Do not microwave empty containers.

3.Do not permit children to use plastic cookware without complete supervision.

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GE SCA1000, SCA1001 owner manual Microwave- safe cookware, Follow these guidelines

SCA1001, SCA1000 specifications

The GE SCA1000 and SCA1001 are advanced sensors designed specifically for high-performance applications, particularly in the fields of industrial automation and control. These microelectromechanical systems (MEMS) sensors are renowned for their high accuracy, rapid response times, and robust design, making them suitable for a wide array of uses, including robotics, automotive systems, and process automation.

One of the standout features of the SCA1000 and SCA1001 is their ability to measure angular velocity and linear acceleration. This dual functionality allows them to provide comprehensive motion sensing capabilities in a single device. The advantages include reduced system complexity and improved integration, as fewer components are needed to achieve similar sensitivity levels.

Both sensors utilize high-quality MEMS technology, which offers several technical benefits. MEMS sensors are known for their small size, light weight, and low power consumption. This efficiency is particularly advantageous in mobile and portable applications where battery life is crucial. The sensors feature a digital output, making them easy to interface with microcontrollers and digital signal processors, and ensuring seamless communication within modern electronic systems.

In terms of performance, the SCA1000 and SCA1001 provide precise measurements across a wide range of operational conditions. With high resolution and low noise characteristics, these sensors can capture subtle changes in motion, which is essential for applications requiring fine precision. They are also designed to operate effectively in various environmental conditions, boasting high resistance to shock and vibration, further enhancing their reliability in demanding situations.

The characteristic design of the SCA1000 and SCA1001 also includes built-in temperature compensation. This feature ensures that their performance remains stable across fluctuating temperatures, which can be a critical requirement in many industrial processes. The ability to maintain accuracy under different temperature conditions enhances the overall applicability of these sensors.

Another important aspect of these sensors is their scalability. The SCA1000 and SCA1001 series can be utilized in both small-scale applications and large-scale systems, making them a versatile choice for engineers and designers. This scalability is accompanied by a range of customizable options that allow for specific tuning to meet unique application requirements.

In summary, GE's SCA1000 and SCA1001 sensors are cutting-edge solutions that offer exceptional performance, robust design, and versatile application capabilities. Their MEMS technology provides high accuracy and low power consumption, while features like built-in temperature compensation ensure reliable operation in any environment. As industries continue to evolve towards more automated and precise systems, the demand for advanced sensing solutions like the SCA1000 and SCA1001 is expected to grow significantly.