1. An inverter device for converting DC power supplied from
a DC bus bar into AC power to drive a three-phase motor, the
inverter device comprising:
an inverter main circuit to convert the DC power into three-phase AC power by using a plurality of pairs of semiconductor switching elements, in each pair of which an upper arm switching element and a lower arm switching element are connected in series, disposed between a positive-side DC bus bar and a negative-side DC bus bar constituting the DC bus bar;
a DC current detection circuit to detect a current flowing through the DC bus bar; and
an inverter control unit to output PWM drive signals for controlling the inverter main circuit based on a DC current detected by the DC current detection circuit, wherein
each of the plurality of semiconductor switching elements is a wide band gap semiconductor element, and a parasitic diode of each of plurality of the wide band gap semiconductor elements is a reflux diode, and
when it is defined that a short-circuit prevention time for preventing short-circuit between the upper arm switching element and the lower arm switching element be td, a reverse recovery time trr of the parasitic diode is set to have characteristics of (td/100)≤trr≤(td/10).
2. The inverter device according to claim 1, wherein
the inverter control unit includes a signal correction unit to correct the PWM drive signals to detect pieces of phase current information for two phases from the DC current in one control period, wherein
the signal correction unit performs control so that

output voltage vectors per control period before and after the correction are equal to each other.
3. The inverter device according to claim 2, wherein
the signal correction unit performs correction so that a correlation interval between timings at each of which the DC current is detected in a rising edge or a falling edge of the PWM drive signals is secured for a time required for detection and the time required for detection is set to be equal to or longer than a time in which the short-circuit time, a ringing time caused by switching of the semiconductor switching elements, and a sample hold time to detect the DC current are added.
4. The inverter device according to claim 3, wherein
the inverter control unit fixes the time required for
detection in a single control period of a carrier.
5. The inverter device according to claim 2, wherein
the signal correction unit holds a first time required for detection in which at least a time obtained by adding the short-circuit time, a ringing time caused by switching of the semiconductor switching elements, and a sample hold time to detect the DC current is secured, a second time required for detection in which at least a time obtained by adding the ringing time and the sample hold time is secured, and a third time required for detection in which at least a time obtained by adding the short-circuit time and the sample hold time is secured, and switches the time required for detection of the correlation interval between the timings at each of which the DC current is detected in the rising edge or the falling edge of the PWM drive signals to any one of the first time required for detection, the

second time required for detection, and the third time required for detection based on a polarity of each phase current.
6. The inverter device according to claim 5, wherein
the inverter control unit switches a section, in which the DC current for the two phases is detected, between a carrier rising section and a carrier falling section based on the polarity of each phase current for each control period.
7. The inverter device according to any one of claims 2
to 6, wherein
the inverter control unit detects the pieces of the phase current information for two phases in a half carrier period of each control period.
8. The inverter device according to any one of claims 1
to 7, wherein
a carrier frequency of the PWM drive signals is set within a range of 6 kHz to 18 kHz.
9. The inverter device according to any one of claims 1
to 8, wherein
each of the plurality of semiconductor switching elements is a SiC-MOSFET.
10. A compressor drive device, wherein
the inverter device according to any one of claims 1 to 9 is connected to a compressor in which a permanent magnet motor to be driven by three-phase AC power to be output from the inverter main circuit is mounted.

11. An air conditioner comprising:
the compressor drive device according to claim 10.