Switching power supply device

What is claimed is: 1. A switching power supply device comprising: a transformer which has a primary winding receiving a DC voltage, a secondary winding and an auxiliary winding; a semiconductor switch which is connected in series with the primary winding so as to perform switching operation; an output voltage generation circuit which includes a rectifying and smoothing circuit connected to the secondary winding so as to output a DC output voltage; an output voltage detection portion which is connected to the auxiliary winding so as to generate and output an output voltage detection signal corresponding to the DC output voltage of the output voltage generation circuit; a control circuit which performs switching control on the semiconductor switch upon reception of the output voltage detection signal so as to output a control signal for stabilizing the DC output voltage; and a load transient detection portion which is connected to the output voltage generation circuit so as to detect a load transient in which the DC output voltage suddenly changes in a decreasing direction, and to output a load transient detection signal to the control circuit; wherein: the control circuit performs switching control on the semiconductor switch upon reception of the load transient detection signal so that the output voltage detection portion can detect the DC output voltage appearing after the reception of the load transient detection signal; and the load transient detection portion includes a first capacitor having one end connected to a secondary-side ground of the output voltage generation circuit and another end connected to a primary-side ground of a primary-side circuit of the transformer, an impedance element having one end connected to the other end of the first capacitor, and a second capacitor having one end connected to another end of the impedance element and another end connected to a voltage output terminal of the output voltage generation circuit; and a signal occurring between the one end and the other end of the impedance element is outputted as the load transient detection signal to the control circuit. 2. The switching power supply device according to claim 1 , wherein: the impedance element is one of a resistor, a third capacitor or a parallel circuit between the resistor and the third capacitor. 3. The switching power supply device according to claim 2 , wherein: the first capacitor of the load transient detection portion uses a noise reduction capacitor which is connected between a secondary-side ground of the output voltage generation circuit and a primary-side ground of a primary-side circuit of the transformer and which is provided for reducing noise occurring due to switching operation of the semiconductor switch. 4. A switching power supply device comprising: a transformer which has a primary winding receiving a DC voltage, a secondary winding and an auxiliary winding; a semiconductor switch which is connected in series with the primary winding so as to perform switching operation; an output voltage generation circuit which includes a rectifying and smoothing circuit connected to the secondary winding so as to output a DC output voltage; an output voltage detection portion which is connected to the auxiliary winding so as to generate and output an output voltage detection signal corresponding to the DC output voltage of the output voltage generation circuit; a control circuit which performs switching control on the semiconductor switch upon reception of the output voltage detection signal so as to output a control signal for stabilizing the DC output voltage; and a load transient detection portion which is connected to the output voltage generation circuit so as to detect a load transient in which the DC output voltage suddenly changes in a decreasing direction, and to output a load transient detection signal to the control circuit; wherein: the control circuit performs switching control on the semiconductor switch upon reception of the load transient detection signal so that the output voltage detection portion can detect the DC output voltage appearing after the reception of the load transient detection signal; the control circuit outputs the control signal with a frequency which is lower as the DC output voltage is more stable or which increases as the DC output voltage decreases; and the control circuit stops oscillation of the control signal in a low frequency range including an audible range.