Microwaving

Microwave sensor cooking tips

The Advantium’s microwave mode features sensor cooking and reheating. The oven automatically senses when food is done and shuts itself off—eliminating the need to program cook times and power levels.

The sensor feature detects the increasing humidity released during cooking. The oven automatically adjusts the cooking time to various types and amounts of food.

WARNING:

Fire Risk

Do not use the sensor features twice in

succession on the same food portion—

it may result in severely overcooked or burnt food. If food is undercooked after the first countdown, use COOK BY TIME for additional cooking time.

The proper containers and covers are essential for best sensor cooking.

nAlways use microwave-safe containers and cover them with lids or vented plastic wrap.

Never use tight sealing plastic containers—they can prevent steam from escaping and cause food to overcook.

nBe sure the outside of the cooking containers and the inside of the oven are dry before placing food in the oven. Beads of moisture turning into steam can mislead the sensor.

nPopcorn and Potatoes are best heated uncovered.

Advantium Oven

Covered

Vented

Dry off dishes so they don’t

mislead the sensor.

MICROWAVE SENSOR PROGRAMS

n

Ground Meat

n

Chicken Reheat

n

Popcorn

n

Pasta Reheat

 

(Prepackaged microwave

n

Plate of Food Reheat

 

popcorn, 2.9 oz. to 3.5 oz.)

 

n

Soup Reheat

n

Potato

n

Vegetable Reheat

n

Rice

n

Simmer

n

Soup

 

 

nVegetables (Canned, Fresh, Frozen)

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GE ZSA2201 owner manual Microwave sensor cooking tips

ZSA2201 specifications

The GE ZSA2201 is a high-performance analog-to-digital converter that has garnered attention for its impressive features and capabilities, making it ideal for a variety of applications. This device is particularly sought after in industries such as telecommunications, instrumentation, and medical equipment, where precise data acquisition is critical.

One of the standout features of the GE ZSA2201 is its resolution, which can reach up to 24 bits. This high resolution allows the device to capture extremely subtle changes in voltage levels, providing users with the ability to measure signals with unparalleled accuracy. The converter's sampling rate is also noteworthy, supporting rates up to 1 MSPS (million samples per second). This enables the GE ZSA2201 to handle fast-changing signals, making it suitable for high-speed applications.

In terms of technologies, the ZSA2201 utilizes sophisticated delta-sigma modulation, which enhances its performance by reducing noise and improving the signal-to-noise ratio. This technology is essential for applications that require high fidelity in signal representation. The converter supports various input voltage ranges, making it versatile for different measurement scenarios. Users can easily configure it to suit their specific application needs, whether it be low-voltage or higher voltage environments.

The device is designed with integrated features that facilitate easy interfacing and communication. It supports standard digital communication protocols such as SPI (Serial Peripheral Interface), ensuring compatibility with a range of microcontrollers and other digital systems. This ease of integration simplifies the design process and reduces development time for engineers.

Moreover, the GE ZSA2201 is built to operate effectively across a wide temperature range, making it reliable in diverse environmental conditions. Its packaging is also designed to endure the rigors of industrial settings, ensuring robustness and longevity.

Finally, the GE ZSA2201 exemplifies a commitment to energy efficiency, with a low power consumption profile that contributes to longer operational life in battery-powered applications. In summary, the GE ZSA2201 is a versatile and high-performance analog-to-digital converter that excels in accuracy, speed, and reliability, making it a top choice for engineers looking to enhance their data acquisition systems.