Conventional methods of defrosting frozen food in a residential kitchen are limited by the amount of time, attention required, difficulty in achieving full defrost and even temperature results, as well as ensuring safe food practices. Simple methods such as letting frozen food thaw on a counter, in a water bath, or in a refrigerator take a long time and can require personal attention to monitor the progress. Letting food sit on a countertop or in water also introduces the risk of bacterial contamination, since exterior surfaces of the food are exposed to temperatures which promote the growth of bacteria. Using a conventional microwave oven to speed up the process often results in uneven thawing with hot spots and cold spots. In addition, conventional microwave ovens lose their effective power over time, making the duration of thawing longer and the outcome worse.
“We’ve seen many advances in the smart kitchen, and the NXP smart defrost reference design will bring those improvements to thawing food,” said Robert Wilson, president and co-founder of the
The NXP smart defrost reference design is a set of fully engineered sub-system solutions that enable OEMs to quickly bring differentiated appliances incorporating this unique functionality to market with minimal engineering. The solution performs real-time monitoring and adjustment of its operation during the entire defrost process helping to ensure efficient and effective energy transfer during the full cycle of defrosting. This is important since food properties change as the temperature of the food changes. The NXP Smart Defrost Solution also minimizes user input and provides automated operation freeing users’ time from the responsibility to monitor the outcome. The solution is electronic in nature, making it reliable, compact, cost-efficient and able to deliver consistent results.
“Prior attempts to introduce smart defrosting technologies failed in large part due to their cumbersome size and high cost,” said Paul Hart, Senior Vice President of
The NXP smart defrost reference design consists of a compact RF energy controller module incorporating NXP components, a smart tuning unit (STU), electrodes, a shielded cavity, and a reference power supply unit (PSU). The reference design will be made available to appliance OEM customers through a license from NXP or through purchase of sub-system assemblies from NXP’s assembly partners.
NXP’s smart defrost reference design will be available on a limited basis in the first quarter 2018 and expected to be generally available in the second quarter 2018. The smart defrost reference design will be showcased in a countertop appliance form factor at CES 2018 in NXP’s tent in the central plaza, booth CP-25 of the