Method and system for auto-calibrating an ignition process of a digital gas cooking appliance

What is claimed is: 1. A digital gas cooking appliance, comprising: a gas cooking element including an igniter; an electromechanical valve coupled with the gas cooking element to regulate a gas flow rate thereto; a flame detector configured to detect a flame of the gas cooking element; a user control configured to control an output level of the gas cooking element through movement of the user control within a range of positions; and a controller coupled to the igniter, the electromechanical valve, the flame detector, and the user control to control the electromechanical valve to regulate the output level of the gas cooking element in response to user input received through the user control, wherein the controller is configured to initiate a calibration process by performing a plurality of ignition sequences for the gas cooking element at a plurality of respective valve positions for the electromechanical valve, including, during each of the plurality of ignition sequences: setting the electromechanical valve to the respective valve position; and determining a respective ignition duration between a start of the respective ignition sequence when the igniter is active and the electromechanical valve is open, and detection of the flame of the gas cooking element by the flame detector. 2. The digital gas cooking appliance of claim 1 , wherein the controller is further configured to determine an optimum valve position of the electromechanical valve for ignition of the gas cooking element from the determined respective ignition durations to minimize ignition duration. 3. The digital gas cooking appliance of claim 2 , wherein the controller is further configured to use the determined optimum valve position to set the electromechanical valve during ignition in response to user input to ignite the gas cooking element. 4. The digital gas cooking appliance of claim 2 , wherein the controller is configured to perform the plurality of ignition sequences by: determining a starting valve position corresponding to a starting ignition duration; initiating a first ignition sequence of the plurality of ignition sequences by moving the electromechanical valve from the starting valve position in a first valve moving direction to a first ignition sequence valve position and determining a first ignition sequence ignition duration corresponding to the first ignition sequence valve position; determining a desired valve moving direction of decreasing the ignition duration for use in at least one additional ignition sequence of the plurality of ignition sequences subsequent the first ignition sequence by comparing the first ignition sequence ignition duration with the starting ignition duration, wherein the desired valve moving direction is: the first valve moving direction if the first ignition sequence ignition duration is shorter than the starting ignition duration; or a second valve moving direction opposite from the first valve moving direction if the first ignition sequence ignition duration is longer than the starting ignition duration; and initiating the at least one additional ignition sequence of the plurality of ignition sequences, including, during each of the at least one additional ignition sequence of the plurality of ignition sequences, moving the electromechanical valve in the desired valve moving direction to the respective valve position and determining the respective ignition duration. 5. The digital gas cooking appliance of claim 4 , wherein the controller is configured to move the electromechanical valve in the desired valve moving direction with a fixed change amount of the gas flow rate to the respective valve position and determine the respective ignition duration. 6. The digital gas cooking appliance of claim 4 , wherein the controller is configured to determine the starting valve position corresponding to the starting ignition duration based on a size of the gas cooking element, a type of the gas cooking element, a size of the electromechanical valve, a type of the electromechanical valve, and/or a type of gas being supplied to the gas cooking element. 7. The digital gas cooking appliance of claim 2 , wherein the controller is further configured to delay between each of the plurality of ignition sequences to allow for cooling down of the gas cooking element. 8. The digital gas cooking appliance of claim 2 , wherein the controller is further configured to override the determined optimum valve position of the electromechanical valve for ignition of the gas cooking element in response to user input. 9. The digital gas cooking appliance of claim 1 , wherein the controller is further configured to initiate the calibration process after conversion of the digital gas cooking appliance to use a different type of gas. 10. The digital gas cooking appliance of claim 1 , wherein the controller is further configured to initiate the calibration process at an initial setup of the digital gas cooking appliance. 11. The digital gas cooking appliance of claim 1 , wherein the controller is further configured to initiate the calibration process on demand in response to user input. 12. The digital gas cooking appliance of claim 2 , wherein the controller is further configured to generate an alert for a user in response to determining a calibrated ignition duration determined after the calibration process meets a predetermined ignition duration criterion. 13. The digital gas cooking appliance of claim 12 , wherein the predetermined ignition duration criterion includes an optimum ignition duration based on empirical testing and set during manufacture. 14. The digital gas cooking appliance of claim 12 , wherein the controller is further configured to initiate a diagnostic process by suggesting an ignition performance improving action to a user. 15. The digital gas cooking appliance of claim 14 , wherein the ignition performance improving action includes an adjustment/cleaning of the gas cooking element and/or the igniter, or an inspection of the type/pressure of the gas supplied. 16. The digital gas cooking appliance of claim 12 , wherein the alert for the user includes an audible alert, a visual alert, or a haptic alert. 17. The digital gas cooking appliance of claim 1 , wherein the flame detector includes a thermocouple, a flame sense rod, or a vision system. 18. The digital gas cooking appliance of claim 1 , wherein the controller is configured to initiate the calibration process in response to determining a present ignition duration for the gas cooking element between a start of a present ignition sequence when the igniter is active and the electromechanical valve is open, and detection of the flame of the gas cooking element by the flame detector, meets a predetermined ignition duration criterion.