A thawing method for a thawing device includes: generating, by a radio frequency generation module, a radio frequency signal in a frequency range of 40 to 42 MHz; obtaining the radio frequency signal; and generating, by an upper electrode plate and a lower electrode plate, radio frequency waves of corresponding frequency in a thawing chamber according to the radio frequency signal, and thawing an object to be processed in the thawing chamber. Radio frequency waves using the above frequency range have shorter thawing time, higher temperature-uniformity and lower juice loss rate than radio frequency waves of other frequencies.

A defrosting system includes an RF signal source, an electrode proximate to a cavity within which a load to be defrosted is positioned, and a transmission path between the RF signal source and the electrode. The system also includes power detection circuitry coupled to the transmission path and configured repeatedly to take forward and reflected RF power measurements along the transmission path. A system controller repeatedly determines, based on the forward and reflected RF power measurements, a calculated rate of change, and repeatedly compares the calculated rate of change to a threshold rate of change. When the calculated rate of change compares favorably with the threshold rate of change, the RF signal source continues to provide the RF signal to the electrode until a determination is made that the defrosting operation is completed, at which time the RF signal source ceases to provide the RF signal to the electrode.

A defrosting system includes an RF signal source, an electrode proximate to a cavity within which a load to be defrosted is positioned, and a transmission path between the RF signal source and the electrode. The system also includes power detection circuitry coupled to the transmission path and configured repeatedly to take forward and reflected RF power measurements along the transmission path. A system controller repeatedly determines, based on the forward and reflected RF power measurements, a calculated rate of change, and repeatedly compares the calculated rate of change to a threshold rate of change. When the calculated rate of change compares favorably with the threshold rate of change, the RF signal source continues to provide the RF signal to the electrode until a determination is made that the defrosting operation is completed, at which time the RF signal source ceases to provide the RF signal to the electrode.

According to an aspect of the present disclosure, there is provided a drying device disposed at a predetermined interval from a recording medium and including a heater configured to dry liquid applied to the recording medium with a high frequency wave. The heater includes a first electrode coupled to a power supply that outputs the high frequency wave and a second electrode coupled to the power supply that outputs the high frequency wave and disposed to be separated from the first electrode at a predetermined interval. The distance between the end of the first electrode and the recording medium is longer compared with the distance between the center of the first electrode and the recording medium.

According to an aspect of the present disclosure, there is provided a drying device disposed at a predetermined interval from a recording medium and including a heater configured to dry liquid applied to the recording medium with a high frequency wave. The heater includes a first electrode coupled to a power supply that outputs the high frequency wave and a second electrode coupled to the power supply that outputs the high frequency wave and disposed to be separated from the first electrode at a predetermined interval. The distance between the end of the first electrode and the recording medium is longer compared with the distance between the center of the first electrode and the recording medium.

A thawing method for a heating apparatus, and the heating apparatus. The heating apparatus includes a cavity capacitor used for placement of an object to be treated, and an electromagnetic wave generation module that generates an electromagnetic wave signal used for heating the object to be treated. The thawing method includes: receiving a thawing instruction input by a user, acquiring a feature parameter that reflects the weight of the object to be treated, a power value of the electromagnetic wave signal, and a rate of change in a dielectric coefficient of the object to be treated; and determining the thawing progress of the object to be treated according to the feature parameter, the power value and the rate of change. The present invention is less influenced by the precision of a sensing device itself, and achieves relatively accurate determination of the thawing progress.

A thawing method for a heating apparatus, and the heating apparatus. The heating apparatus includes a cavity capacitor used for placement of an object to be treated, and an electromagnetic wave generation module that generates an electromagnetic wave signal used for heating the object to be treated. The thawing method includes: receiving a thawing instruction input by a user, acquiring a feature parameter that reflects the weight of the object to be treated, a power value of the electromagnetic wave signal, and a rate of change in a dielectric coefficient of the object to be treated; and determining the thawing progress of the object to be treated according to the feature parameter, the power value and the rate of change. The present invention is less influenced by the precision of a sensing device itself, and achieves relatively accurate determination of the thawing progress.

A method for drying an article with a radio frequency (RF) applicator having anode elements and cathode elements includes capacitively coupling the anode elements, capacitively coupling the cathode elements, capacitively coupling an anode element to a cathode element, and energizing the RF applicator to generate an RF field between anode and cathode elements wherein liquid residing within the field will be dielectrically heated.

A method for drying an article with a radio frequency (RF) applicator having anode elements and cathode elements includes capacitively coupling the anode elements, capacitively coupling the cathode elements, capacitively coupling an anode element to a cathode element, and energizing the RF applicator to generate an RF field between anode and cathode elements wherein liquid residing within the field will be dielectrically heated.

A PEF cooking appliance includes a container for food to be cooked. The container includes two PEF electrodes which are spaced apart from one another and between which food to be cooked can be poured. A power factor correction filter is connected to a supply voltage and configured to generate a pulse voltage greater than 600 V, and an energy storage apparatus is connected to the power factor correction filter. Connected to energy storage apparatus are wo pulse forming apparatuses such that a first one of the two pulse forming apparatuses is connected to a first one of the two PEF electrodes and a second one of the pulse forming apparatuses is connected to a second one of the two PEF electrodes.