Inverter device and method of controlling the same

What is claimed is: 1 . An inverter device, comprising: an inverter circuit configured to drive and control an electric motor; a control circuit comprising a controller, which is configured to supply a gate signal to the inverter circuit, and a power supply circuit; a start management terminal through which a start signal for starting the power supply circuit and a drive prohibition signal for prohibiting the control circuit from driving and controlling the electric motor are to be input from outside the inverter device; and a start switch, which is connected between the start management terminal and the control circuit, and is configured to be turned on upon receiving the start signal as input, to thereby supply external electric power to the power supply circuit and drive the power supply circuit, and to hold an on state during a period in which a hold signal from the controller is received, the controller comprising: a power supply holding unit configured to output the hold signal after the power supply circuit is started; and a drive and control determination unit configured to determine whether or not to drive and control the electric motor depending on a state of the start signal after the power supply circuit is started. 2 . The inverter device according to claim 1 , wherein the start signal comprises a digital signal, and the drive and control determination unit is configured to determine whether or not to drive and control the electric motor depending on a logic state of the start signal, wherein the inverter device further comprises a plurality of detection sensors configured to detect states of portions of the electric motor and the inverter device, and wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when rpm of the electric motor, which is detected by one of the plurality of detection sensors, is within a set rpm range. 3 . The inverter device according to claim 1 , further comprising a plurality of detection sensors configured to detect the external electric power and states of portions of the electric motor and the inverter device, wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when a voltage of the external electric power, which is detected by one of the plurality of detection sensors, is outside a set voltage range after the start with the start signal. 4 . The inverter device according to claim 1 , further comprising a plurality of detection sensors configured to detect states of portions of the electric motor and the inverter device, wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when at least one of the electric motor, the inverter circuit, and the control circuit, which are detected by the plurality of detection sensors, is outside a set temperature range thereof after the start with the start signal. 5 . The inverter device according to claim 1 , further comprising a plurality of detection sensors configured to detect the external electric power and states of portions of the electric motor and the inverter device, wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when a current of the external electric power, which is detected by one of the plurality of detection sensors, is outside a set current range after the start with the start signal. 6 . The inverter device according to claim 1 , further comprising a communication terminal through which a communication signal is to be input/output from/to outside the inverter device, wherein the start signal comprises a digital signal, and the drive and control determination unit is configured to determine whether or not to drive and control the electric motor depending on a logic state of the start signal, and wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when the communication signal input/output through the communication terminal is not input for a set period or more. 7 . The inverter device according to claim 1 , wherein the start signal includes a period of being a duty signal, wherein the drive and control determination unit is configured to determine not to drive and control the electric motor when the start signal does not include the period of being the duty signal, and wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when determining that the start signal has been in a state of a level indicating an inactive state longer than a set period. 8 . The inverter device according to claim 1 , wherein the start signal includes a period of being a duty signal in a set frequency range, wherein the drive and control determination unit is configured to determine not to drive and control the electric motor when the start signal does not include the period of being the duty signal in the set frequency range, and wherein the power supply holding unit is configured to stop outputting the hold signal to stop the inverter device when the start signal does not include the period of being the duty signal in the set frequency range. 9 . The inverter device according to claim 1 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 10 . The inverter device according to claim 2 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 11 . The inverter device according to claim 3 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 12 . The inverter device according to claim 4 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 13 . The inverter device according to claim 5 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 14 . The inverter device according to claim 6 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 15 . The inverter device according to claim 7 , wherein the control circuit comprises a drive determination circuit, which is configured to determine whether or not to supply the gate signal from the controller to the inverter circuit depending on the state of the start signal and the drive prohibition signal. 16 . The inverter device according to claim 8 , wherein the control circuit comprises a drive determination circuit, which is co