Switching converter, control circuit and control method thereof, and lighting device and electronic apparatus using the same

What is claimed is: 1. A control circuit of a flyback type switching converter including: a transformer having a primary coil and a secondary coil; a switching transistor connected to the primary coil; and a detection resistor arranged on a path of a current flowing through the switching transistor in an ON period of the switching transistor, the control circuit comprising: a current detection comparator configured to compare a detection voltage corresponding to a voltage drop of the detection resistor with a reference voltage and generate a peak current detection signal asserted when the detection voltage reaches the reference voltage; a driving logic unit configured to generate a pulse signal indicating a turn-on/off operation of the switching transistor and change the pulse signal to an OFF level indicating the turn-off operation of the switching transistor when the peak current detection signal is asserted; a driver configured to drive the switching transistor based on the pulse signal; and a reference voltage setting unit configured to measure time (T RECT ) for which a current flows through the secondary coil and a switching period (T) of the switching transistor and adjust the reference voltage (V REF ) according to an equation: V REF =K×T/T RECT where K is a coefficient. 2. The control circuit of claim 1 , further comprising a zero-cross detection circuit configured to generate a zero-cross detection signal asserted when a current flowing through the secondary coil of the transformer is zeroed, in an OFF period of the switching transistor, wherein the driving logic unit is configured to change the pulse signal to an ON level indicating the turn-on operation of the switching transistor when the zero-cross detection signal is asserted. 3. The control circuit of claim 2 , wherein the switching converter further includes an auxiliary inductor coupled to the transformer, and wherein the zero-cross detection circuit is configured to generate the zero-cross detection signal based on a voltage across the auxiliary inductor. 4. The control circuit of claim 2 , wherein the reference voltage setting unit measures the time (T RECT ) for which the current flows through the secondary coil and the switching period (T) of the switching transistor based on the peak current detection signal and the zero-cross detection signal. 5. The control circuit of claim 1 , wherein the reference voltage setting unit measures the time (T RECT ) for which the current flows through the secondary coil and the switching period (T) of the switching transistor based on the pulse signal. 6. The control circuit of claim 1 , wherein a load of the switching converter includes a light emitting device, and wherein the reference voltage setting unit sets the coefficient (K) based on a control signal indicating brightness of the light emitting device. 7. The control circuit of claim 1 , wherein the control circuit is integrated with a single semiconductor substrate. 8. A switching converter comprising a control circuit of claim 1 . 9. A lighting device comprising: a light emitting unit including a plurality of light emitting diodes connected in series; a rectification circuit configured to smooth and rectify a general-purpose AC voltage to output a DC voltage; and a switching converter configured to receive the DC voltage from the rectification circuit as an input voltage, the light emitting unit being connected to the switching converter as a load, wherein the switching converter includes a control circuit of claim 1 . 10. An electronic apparatus comprising: a liquid crystal panel; and a lighting device of claim 9 , wherein the lighting device is configured as a backlight configured to irradiate a light on a rear side of the liquid crystal panel. 11. A control method of a flyback type switching converter including a transformer having a primary coil and a secondary coil; a switching transistor connected to the primary coil; and a detection resistor arranged on a path of a current flowing through the switching transistor in an ON period of the switching transistor, the control method comprising: comparing a detection voltage corresponding to a voltage drop of the detection resistor with a reference voltage and generating a peak current detection signal asserted when the detection voltage reaches the reference voltage; generating a pulse signal indicating a turn-on/off operation of the switching transistor and changing the pulse signal to an OFF level indicating the turn-off operation of the switching transistor when the peak current detection signal is asserted; driving the switching transistor based on the pulse signal; measuring at least one of time (T RECT ) for which a current flows through the secondary coil and a switching period (T) of the switching transistor; and adjusting the reference voltage (V REF ) based on at least one of the measured time (T RECT ) and the measured switching period (T). 12. The control method of claim 11 , wherein the adjusting the reference voltage (V REF ) includes adjusting the reference voltage (V REF ) inversely proportional to the measured time (T RECT ). 13. The control method of claim 11 , wherein the adjusting the reference voltage (V REF ) includes adjusting the reference voltage (V REF ) proportional to the measured switching period (T).