Switching current control circuit, LED dimmer system, and LED illumination device

1. A switching current control comprising:

• a DC power supply;
  
  a light emitting diode having an anode is connected to the DC power supply;
  
  an inductor having one end connected to a cathode of the light emitting diode;
  
  a diode having an anode connected to another end of the inductor and a cathode connected to an anode of the light emitting diode;
  
  a switching element having one end connected to a cathode of the diode;
  
  a current sensing resistor having one end connected to another end of the switching element and another end is grounded;
  
  an RS flip-flop configured to generate a signal indicating an ON/OFF period of the switching element;
  
  a frequency counter configured to input a clock signal of predetermined frequency and then count the input clock signal to be output as a counted value;
  
  a frequency setting circuit where a particular switching frequency value is held;
  
  a first comparator circuit configured to compare the counted value from the frequency counter and the switching frequency value, and then output a set signal to the RS flip-flop when the counted value reaches the switching frequency value;
  
  a second comparator circuit configured to detect a current flowing through the current sensing resistor during an ON period of the switching element, and then compare the detected current with a peak current value, the second comparator circuit further configured to output a reset signal to the RS flip-flop when the detected current reaches the peak current value;
  
  an A/D conversion circuit configured to detect the current flowing through the current sensing resistor during the ON period of the switching element, and then convert the detected current into digital data; and
  
  an arithmetic control means for calculating a lower limit of the detected current for providing a timing of switching the switching element from OFF to ON based on data of at least two points of the detected current output from the A/D conversion circuit, whereinthe arithmetic control means calculates the lower limit using the following equation;
  
  
  Y0=((y0+y 1)/2)-(y1-y0)=(3y0-y1)/2,where Y0 is the lower limit; and
  
  y0 and y1 are respectively the currents flowing through the current sensing resistor in time points t0 and t1 during the ON period of the switching element, whereinthe arithmetic control means determines whether it is in a discontinuous mode on the basis of the lower limit of the detected current calculated by the arithmetic control means, and then determines that it is in the discontinuous mode when the lower limit of the detected current is a negative value, whereinthe arithmetic control means increases a frequency of the switching element by changing the switching frequency value held in the frequency setting circuit when determining that it is in the discontinuous mode.