LED driving circuit

What is claimed is: 1. An LED driving circuit, comprising: a) a rectifier circuit configured to receive an AC input power supply through a tri-electrode AC switch (TRIAC), and to generate a bus voltage; b) a driving current generator configured to convert said bus voltage to a constant driving current and an output voltage to drive an LED load; and c) a current distribution circuit coupled between a positive pole and a negative pole of said bus voltage, wherein said current distribution circuit is configured to sample an input current to generate a sense signal, and to compare said sense signal against a voltage reference signal that represents an expected input current, so as to regulate said input current according to said voltage reference signal. 2. The LED driving circuit of claim 1 , wherein said current distribution circuit comprises: a) an operational amplifier configured to receive said sense signal and said voltage reference signal, and to generate a current control signal; b) a sampling resistor, wherein said input current is sampled through said sampling resistor; and c) a power transistor controllable by said current control signal to control a current that flows through said power transistor, wherein said input current is maintained to be consistent with the voltage reference signal. 3. The LED driving circuit of claim 2 , wherein said driving current generator is configured to sample the current that flows through said LED load, and to maintain an output current as substantially constant via feedback control. 4. The LED driving circuit of claim 2 , wherein: a) each half power frequency cycle comprises a TRIAC ignition time, a holding time, and a discharging time; b) said voltage reference signal is consistent with a latching current of said TRIAC during said TRIAC ignition time; c) said voltage reference signal is consistent with said holding current during said holding time; and d) said voltage reference signal is in consistent with said discharging current during said discharging time. 5. The LED driving circuit of claim 1 , further comprising a bus voltage detector and an LED configuration controller, wherein said LED configuration controller is configured to turn on corresponding LED lights according to said bus voltage. 6. The LED driving circuit of claim 5 , wherein said bus voltage detector comprises: a) a comparator configured to compare said bus voltage against a threshold voltage, and to generate a conduction angle signal that represents the conduction angle of said TRIAC; and b) a frequency dividing circuit configured to generate a first clock signal that represents a positive half cycle of said conduction angle signal, and a second clock signal that represents a negative half cycle of said conduction angle signal, wherein said positive and negative half cycles of said conduction angle signal have a same duration. 7. The LED driving circuit of claim 6 , wherein said output current of said driving current generator is regulated according to said conduction angle signal, by reducing said output current when said conduction angle is large, and increasing said output current when said conduction angle is small. 8. An LED driving circuit, comprising: a) a rectifier circuit configured to receive an AC input power supply through a tri-electrode AC switch (TRIAC), and to generate a bus voltage; b) a driving current generator configured to convert said bus voltage to a constant driving current and an output voltage to drive an LED load; and c) a current distribution circuit being coupled between a positive pole and a negative pole of said bus voltage, wherein said current distribution circuit is configured to sample a current flowing through said current distribution circuit to generate a sense signal, and to compare said sense signal against a voltage reference signal that represents an expected current flowing through said current distribution circuit, so as to regulate an input current according to said voltage reference signal. 9. The LED driving circuit of claim 8 , wherein said current distribution circuit comprises: a) an operational amplifier configured to receive said sense signal and said voltage reference signal, and to generate a current control signal; b) a sampling resistor, wherein said current flowing through said current distribution circuit is sampled through said sampling resistor; and c) a power transistor controllable by said current control signal to control a current that flows through said power transistor, wherein said current flowing through said current distribution circuit is maintained to be consistent with the voltage reference signal.