Head drive device, thermal printer, and method of controlling a head drive device

What is claimed is: 1. A head drive device, comprising: a thermal head, which is configured to cause one of a first group of heat generators and a second group of heat generators having a smaller number of heat generators than the first group of the heat generators, to generate heat; a capacitor configured to store power; a control circuit programmed, based on printing data, to select whether to perform printing with use of the first group of the heat generators or to perform printing with use of the second group of the heat generators; and a drive circuit programmed to: supply power of a power source and the power stored in the capacitor to the thermal head when the first group of the heat generators are used; and supply the power of the power source to the thermal head when the second group of the heat generators are used, the control circuit being programmed to: determine whether a predetermined amount of power is stored in the capacitor; allow printing with use of at least a part of the first group of the heat generators when the control circuit determines that the predetermined amount of power is stored in the capacitor; and allow printing with use of at least a part of the second group of the heat generators when the control circuit determines that the predetermined amount of power is not stored in the capacitor. 2. A head drive device according to claim 1 , wherein the control circuit is programmed to: calculate a number of heat generators to be caused to generate heat based on the printing data; allow printing with use of at least a part of the second group of the heat generators when the calculated number of heat generators is equal to or smaller than a threshold value; and allow printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is larger than the threshold value and the control circuit determines that the predetermined amount of power is stored in the capacitor, and allow printing with use of at least a part of the second group of the heat generators when the control circuit determines that the predetermined amount of power is not stored in the capacitor. 3. A head drive device according to claim 1 , wherein the thermal head is configured to cause one of the first group of the heat generators and the second group of the heat generators, to generate heat, the second group of the heat generators corresponding to at least one block obtained when the first group of the heat generators are divided into a plurality of blocks, and the control circuit is programmed to: calculate a number of heat generators to be caused to generate heat in one row of the thermal head; allow printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is equal to or smaller than an upper limit value of the number of heat generators that is able to be printed by the power of the power source; and allow printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is larger than the upper limit value of the number of heat generators that is able to be printed by the power of the power source and the control circuit determines that the predetermined amount of power is stored in the capacitor, and allow printing with use of at least a part of the second group of the heat generators when the control circuit determines that the predetermined amount of power is not stored in the capacitor. 4. A head drive device according to claim 1 , wherein the control circuit is programmed to determine that the predetermined amount of power is stored in the capacitor when a printing medium is conveyed by an amount that is equal to or larger than a predetermined movement amount after the capacitor supplies power to the thermal head. 5. A head drive device according to claim 4 , further comprising a counting unit programmed to count a number of lines of printing, wherein the control circuit is programmed to determine that the predetermined amount of power is stored in the capacitor when the printing medium is conveyed by an amount that is equal to or larger than a predetermined number of lines after the capacitor supplies power to the thermal head. 6. A thermal printer, comprising: a conveyance mechanism configured to convey a printing medium; and the head drive device of claim 1 , wherein the heat generators are arranged in one row that is orthogonal to a conveyance direction of the printing medium, and the drive circuit is programmed to control a speed at which the conveyance mechanism conveys the printing medium. 7. A method of controlling a head drive device, the head drive device including a thermal head, which is configured to cause one of a first group of heat generators and a second group of heat generators a smaller number of heat generators than the first group of the heat generators, to generate heat; and a capacitor configured to store power, the method comprising: selecting based on printing data whether to perform printing with use of the first group of the heat generators or to perform printing with use of the second group of the heat generators; supplying power of a power source and the power stored in the capacitor to the thermal head when the first group of the heat generators are used, and supplying the power of the power source to the thermal head when the second group of the heat generators are used; determining whether a predetermined amount of power is stored in the capacitor; allowing printing with use of at least a part of the first group of the heat generators when the predetermined amount of power is determined to be stored in the capacitor; and allowing printing with use of at least a part of the second group of the heat generators when the predetermined amount of power is not determined to be stored in the capacitor. 8. A method of controlling a head drive device according to claim 7 , further comprising: calculating a number of heat generators to be caused to generate heat based on the printing data; allowing printing with use of at least a part of the second group of the heat generators when the calculated number of heat generators is equal to or smaller than a threshold value; and allowing printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is larger than the threshold value and the predetermined amount of power is determined to be stored in the capacitor, and allowing printing with use of at least a part of the second group of the heat generators when the predetermined amount of power is not determined to be stored in the capacitor. 9. A method of controlling a head drive device according to claim 7 , wherein the thermal head is configured to cause one of the first group of the heat generators and the second group of the heat generators, to generate heat, the second group of the heat generators corresponding to at least one block obtained when the first group of the heat generators are divided into a plurality of blocks, and the method further comprising: calculating a number of heat generators to be caused to generate heat in one row of the thermal head; allowing printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is equal to or smaller than an upper limit value of the number of heat generators that is able to be printed by the power of the power source; and allowing printing with use of at least a part of the first group of the heat generators when the calculated number of heat generators is larger than the upper limit value of the number of h