An induction heating type cooktop according to an embodiment of the present disclosure includes: a case; a cover plate configured to be coupled to an upper end of the case and provided with an upper plate portion on which an object to be heated is disposed; a thin film configured to be coated on the upper plate portion and having an opening in a center thereof; a working coil provided inside the case and including a first working coil and a second working coil; and at least one inverter configured to be driven to allow electric currents to flow through the first working coil and the second working coil, wherein a direction of the electric current flowing through the first working coil is the same as or different from a direction of the electric current flowing through the second working coil according to the object to be heated.

The present disclosure is directed to an aerosol delivery device and a consumable unit for use with a holder of an aerosol delivery device. In one example implementation, the consumable unit comprises an ignitable heat source and a substrate material having an aerosol precursor composition configured to form an aerosol upon application of heat thereto. The heat source of the consumable unit is contained within a susceptor pouch, and the susceptor pouch is configured to be heated by an inductive heating assembly to ignite the heat source. In some implementations, the susceptor pouch comprises the consumable unit. In other implementations, the substrate material is contained within a substrate container.

The present disclosure is directed to an aerosol delivery device and a holder for use with a removable substrate cartridge. The removable cartridge comprises an ignitable heat source and a substrate portion that includes a substrate material having an aerosol precursor composition configured to form an aerosol upon application of heat thereto. The holder includes a main body defining a receiving chamber configured to receive the substrate cartridge, a power source, and an inductive heating assembly. A least a portion of the inductive heating assembly is integral with the main body and is configured to ignite the ignitable heat source and to heat at least a portion of the substrate material.

The present disclosure relates to an induction heating device and a control method thereof. In one embodiment, at a time of a simultaneous operation of a first working coil operating at a first driving frequency and a second working coil operating at a second driving frequency, control for removing interference noise is performed based on a difference between the first driving frequency and the second driving frequency. An induction heating device of one embodiment may adjust the duty ratio of a switching signal provided to a first inverter circuit after adjusting the first driving frequency to adjust the actual output value of the first working coil to a value the same as the required output value of the first working coil.

A cooking article detection system for an induction cooktop having a first power-delivery induction coil includes a first detector coil overlying the first power-delivery induction coil and including a first conductive element revolving continuously around a centroid in a first tangential direction to define a shape of the first coil that extends in a first linear direction and a second linear direction along a plane and a second detector coil overlying the first power-delivery coil and including a second conductive element connected with the first detector coils and revolving continuously around a centroid in a second tangential direction, opposite the first tangential direction. The second detector coil is linearly arranged with the first detector coil and is spaced apart therefrom in the second linear direction. A controller drives the first and second detection coils, simultaneously, with a low-voltage, high frequency detection signal, and measures a voltage across the first and second detection coils to identify a cooking article on the induction cooktop.

In a method for operating a cooktop having a cooktop plate and adjacent heating means arranged thereunder along a straight line, and a pan detection means for detecting a relative coverage of each heating means by cooking vessels placed thereover, it is detected in a preceding step over which of the heating means a cooking vessel has been placed and thus that a relative coverage is present. In a subsequent step, the pan detection means is used to detect how great is the relative coverage of each covered heating means, and from this result and a comparison of these results for each heating means a case analysis is performed into one of several cases. For a 1st case, in which it is detected for the three heating means arranged along the straight line, that the relative coverage of the middle heating means is less than the relative coverage of the other two adjacent heating means, it is determined that no cooking vessel has been placed over the three heating means which contiguously covers all three heating means, but rather that at least two cooking vessels have been placed over the three heating means.

An induction cooktop includes: a first induction heater and a second induction heater; a control unit; a first switching current generator and a second switching current generator, operable by the control unit in subsequent control periods to energize the first induction heater and the second induction heater, respectively. The control unit configured to: operate both the first switching current generator and the second switching current generator with a first switching frequency in a first control interval of each control period; operate only the first switching current generator with at least two respective different switching frequencies in a second control interval and in a third control interval of each control period, while the second switching current generator is inactive; operate only the second switching current generator with at least two respective different switching frequencies in a fourth control interval and in a fifth control interval of each control period, while the first switching current generator is inactive.

An induction heating device includes: a first board including a first working coil, a first inverter configured to apply a resonant current to the first working coil, a first current transformer configured to adjusting a magnitude of the first resonant current, a first control unit configured to control the first inverter; and a second board including a second working coil, a second inverter configured to apply a resonant current to the second working coil, a second current transformer configured to adjust a magnitude of the second resonant current, a first relay configured to selectively connect the second working coil to the second current transformer or to the first working coil, a second relay configured to selectively connect the second working coil to the first working coil or to the second resonant capacitor, and a second control unit configure to control the second inverter, the first relay, and the second relay.

An electronic induction heating cooker is provided. The electronic induction heating cooker may include a rectifier that rectifies an input voltage into a direct current (DC) voltage and output the DC voltage, an inverter including first, second and third switches connected in series between a positive power source terminal and a negative power source terminal to generate an alternating current (AC) voltage by switching the DC voltage, a first heater driven by the AC voltage so as to heat a first cooking container, a second heater connected in parallel to the first heater and driven by the AC voltage so as to heat a second cooking container, and a switching controller that generates a switching signal for controlling the first and second heaters in accordance with a set of operating conditions input thereto and adjusts a duty cycle of the switching signal.

A cooking device includes a housing including a non-ferromagnetic surface and a lower shell positioned below the non-ferromagnetic surface. The cooking device also includes an induction cooking coil, a battery assembly configured to provide power to the induction cooking coil via a circuit board assembly, and a heat sink surrounding the battery assembly and the circuit board assembly. The induction cooking coil, the battery assembly, and the circuit board assembly are enclosed by the housing. The cooking device also includes a controller operatively coupled to the circuit board assembly and configured to switch from usage of a first driver circuit of the circuit board assembly to a second driver circuit of the circuit board assembly to power the induction cooking coil.