A toaster includes a housing, a conveyor configured to support food products, a motor configured to drive the conveyor to move the food products through the housing, a heating element disposed adjacent the conveyor and configured to emit thermal energy toward the food products as the food products are moved through the housing, a temperature sensor configured to sense a temperature within the housing, and a controller operatively coupled to the temperature sensor and configured to control the motor to drive the conveyor at a conveyor speed. The controller is configured to store the sensed temperature within the housing as a function of time and calculate a derivative of the sensed temperature with respect to time. The controller is configured to vary the conveyor speed based on a value of the derivative.

An apparatus is provided for toasting a food item arranged to receive and support said food item during toasting. The apparatus includes a heating element assembly arranged to heat the surface of the food item by radiant heat. The apparatus is arranged to operate in a first mode where the heating element assembly operates at a first power and a second mode where the heating element assembly operates at a second power. The apparatus further includes a thermally sensitive actuator having a first and a second position and being arranged to switch from the first mode to the second mode at a predetermined temperature by moving from the first position to the second position. The apparatus further includes an arrangement for forcing the actuator to return to its first position.

A flatbread toaster is an apparatus that is utilized to toast flatbread. Flatbreads of various sizes are toasted within a plurality of toasting slot assemblies. The flatbread toaster features an expandable slot assembly that is capable of accommodating and cooking additional types and sizes of food as well. The expandable slot assembly includes a translating wall that may be moved in order to adjust the size of the expandable slot assembly. The flatbread toaster is regulated through a plurality of physical inputs located on a control panel that allows the user to provide commands. User commands provided through the plurality of physical inputs are processed by a computing unit. Heat is provided to cook food via a plurality of heating elements within each of the plurality of toasting slot assemblies and a first heating element and a second heating element within the expandable slot assembly.

A toaster comprising: a body configured to hold toastable foodstuff; one or more heating elements mounted to the body and configured to heat foodstuff held by the body; one or more acoustic sensors mounted to the body and configured to: pick up one or more sounds produced by the foodstuff when the foodstuff is heated by the heating elements; and generate an audio signal based on the sounds; and a controller configured to control the heating elements based at least in part on the audio signal generated by the acoustic sensors.

A toaster comprising: a body configured to hold toastable foodstuff; one or more heating elements mounted to the body and configured to heat foodstuff held by the body; one or more acoustic sensors mounted to the body and configured to: pick up one or more sounds produced by the foodstuff when the foodstuff is heated by the heating elements; and generate an audio signal based on the sounds; and a controller configured to control the heating elements based at least in part on the audio signal generated by the acoustic sensors.

Cooking systems with improved heating consistency and corresponding methods are provided. A cooking system includes a cooking compartment for receiving food, and a control system for controlling food cooking therein. The control system stores multiple heating times corresponding to different user inputs (e.g., a food shade, a food type, a cooking mode, etc.) The control system can determine temperatures of the cooking compartment from the past to present, as well as a temperature change between the past and present. When the cooking system is activated, the control system receives the user inputs and selects a stored heating time based upon these user inputs and the present cooking compartment temperature. At certain present temperatures, the cooking system also selects the stored heating time based upon the temperature change. This allows the controller to adjust the heating time based upon the cooking compartment temperature, and optionally temperature change, to avoid overcooking food.

A toaster comprising: a body configured to hold toastable foodstuff; one or more heating elements mounted to the body and configured to heat foodstuff held by the body; one or more acoustic sensors mounted to the body and configured to: pick up one or more sounds produced by the foodstuff when the foodstuff is heated by the heating elements; and generate an audio signal based on the sounds; and a controller configured to control the heating elements based at least in part on the audio signal generated by the acoustic sensors.

A toaster heating assembly (55A, 55B) including: a frame (60); a panel (65) at least partly supported by the frame (60); a spacer (80) mounted to the panel (65); and an elongate heating element (93) having a plurality of spaced apart elongate heating element portions (95) supported by the spacer (80), so that the spacer (80) is located between the plurality of heating element portions (95) and the panel (65) to provide a gap (94) between the plurality of heating element portions (95) and the panel (65).