Ink-jet recording apparatus

What is claimed is: 1. An ink-jet recording apparatus, comprising: a conveyor configured to convey a sheet in a conveyance direction, a recording head including first nozzles, second nozzles, first driving elements corresponding to the first nozzles respectively, and second driving elements corresponding to the second nozzles respectively; a controller; and a head driving circuit connected to the controller by a first signal line, a second signal line, and a third signal line through which a clock signal is transmitted, the head driving circuit connected electrically to the first driving elements and the second driving elements, wherein each of the first driving elements is configured to be driven to jet an ink droplet from one of the first nozzles corresponding thereto in a case that driving voltage is applied from the head driving circuit to each of the first driving elements, each of the second driving elements is configured to be driven to jet an ink droplet from one of the second nozzles corresponding thereto in a case that driving voltage is applied from the head driving circuit to each of the second driving elements, the controller is configured to repeatedly execute conveyance processing and recording processing, the conveyance processing being processing in which the sheet is conveyed with the conveyor in a state where an area of the sheet for which the image is to be recorded faces the recording head, the recording processing being processing in which pattern signals indicating patterns of the driving voltage are outputted serially to the first signal line in synchronization with the clock signal and a jetting instruction signal is outputted serially to the second signal line in synchronization with the clock signal, in a case that the recording processing is executed multiple times, the controller is configured to execute reset processing at least once, the reset processing being processing in which a reset signal indicating a beginning of a new jetting instruction signal is outputted to the second signal line, the reset processing being executed between the recording processing executed twice successively, the jetting instruction signal includes first selection signals corresponding to the first driving elements respectively, second selection signals corresponding to the second driving elements respectively, a first output signal, and a second output signal, each of the first selection signals is used to select, from among the pattern signals, the driving voltage to be applied to the corresponding first driving element, each of the second selection signals is used to select, from among the pattern signals, the driving voltage to be applied to the corresponding second driving element, the first output signal indicates a timing at which the driving voltage is outputted to the first driving elements, the second output signal indicates a timing at which the driving voltage is outputted to the second driving elements, the head driving circuit is configured to repeatedly execute first extraction processing, second extraction processing, first application processing, and second application processing, the first extraction processing being processing in which the pattern signals inputted through the first signal line are extracted in response to the clock signal inputted through the third signal line; the second extraction processing being processing in which the first selection signals, the second selection signals, the first output signal, the second output signal, and the reset signal inputted through the second signal line are extracted in response to the clock signal inputted through the third signal line; the first application processing being processing in which, after extracting the first output signal, the driving voltage selected based on the first selection signals is applied in parallel to the first driving elements corresponding thereto, the second application processing being processing in which, after extracting the second output signal, the driving voltage selected based on the second selection signals is applied in parallel to the second driving elements corresponding thereto, and in the second extraction processing, the head driving circuit is configured to extract a signal inputted through the second signal line subsequent to the reset signal, as the beginning of the new jetting instruction signal. 2. The ink-jet recording apparatus according to claim 1 , wherein the controller is configured to execute discharge processing after repeatedly executing the conveyance processing and the recording processing for a first sheet, the discharge processing being processing in which the first sheet at a position facing the recording head is discharged by use of the conveyor, the controller is configured to repeatedly execute the conveyance processing and the recording processing for a second sheet which is subsequent to the first sheet, after executing the discharge processing, and the controller is configured to execute the first-time conveyance processing for the second sheet in parallel with the reset processing. 3. The ink-jet recording apparatus according to claim 2 , further comprising: a carriage carrying the recording head and configured to move the recording head in a main scanning direction intersecting with the conveyance direction; and an ink receiver arranged on an outside of a sheet-facing area in the main scanning direction and configured to receive ink droplets jetted from the first nozzles and the second nozzles, the sheet-facing area being an area where the recording head faces the sheet, wherein the reset signal includes signal patterns of the first output signal and the second output signal, and the controller is configured to execute movement processing, in which the carriage is moved to a position where the recording head faces the ink receiver, before the reset processing. 4. The ink-jet recording apparatus according to claim 3 , wherein the controller is configured to execute flushing processing in which the ink droplets are jetted from the first nozzles and the second nozzles to the ink receiver in response to completion of the reset processing. 5. The ink-jet recording apparatus according to claim 3 , wherein the first nozzles and the second nozzles are arranged in the recording head to be separated from each other in the main scanning direction. 6. The ink-jet recording apparatus according to claim 1 , wherein the controller is configured to execute subsequent reset processing in a case that predefined time has elapsed since the reset processing and that a single execution of the recording processing, among multiple execution of the recording processing, has completed. 7. The ink-jet recording apparatus according to claim 1 , wherein the recording head further includes pressure chambers communicating with the first nozzles and the second nozzles respectively, and each of the pressure chambers is capable of storing the ink, each of the first driving elements and the second driving elements is a driving element configured to keep the pressure chamber corresponding thereto a first volume in a case that first voltage is being applied, and to cause the pressure chamber corresponding thereto to swell and have a second volume larger than the first volume in a case that second voltage smaller than the first voltage is being applied, each of the pattern signals indicates a timing and time at which the second voltage is applied to the driving element of which standby voltage is kept at the first voltage, the controller is configured to execute first switch processing, in which the standby voltage of the driving element is switched from the first voltage to the second voltage, before the reset processing, and the con