| CPC H01S 5/0428 (2013.01) [G01S 7/484 (2013.01); G01S 17/10 (2013.01); H02J 7/345 (2013.01); H02J 2207/50 (2020.01)] | 7 Claims |
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1. A laser emitting circuit, comprising:
an energy charging circuit, comprising a power supply, a first energy storage element, and an energy charging switch element, wherein a negative terminal of the power supply is grounded, a positive terminal of the power supply is connected to a first terminal of the first energy storage element, a second terminal of the first energy storage element is connected to a first terminal of the energy charging switch element, and the second terminal of the energy charging switch element is grounded, and the energy charging circuit being configured to, in an energy charging stage when the energy charging switch element is in an on-state, charge the first energy storage element using energy charging current from the power supply;
an energy transfer circuit, connected to the second terminal of the first energy storage element and connected between the energy charging circuit and an energy releasing circuit, the energy transfer circuit comprising a second energy storage element and a boost rectifier diode, wherein the boost rectifier diode is respectively connected between the first energy storage element and the second energy storage element, the energy transfer circuit is configured to, in an energy transfer stage, charge the second energy storage element using energy transfer current from the first energy storage element; and
the energy releasing circuit, connected to the energy transfer circuit, the energy releasing circuit comprising a laser diode and an energy releasing switch element, wherein the laser diode is connected between the second energy storage element and the the first terminal of the energy releasing switch, a cathode of the laser diode is connected to a first terminal of the energy releasing switch element, a second terminal of the energy releasing switch element connected to ground, when the energy releasing switch element is in an on-state, and the energy charging switch element is in an off-state, electrical energy stored in the second energy storage element flows through the laser diode and the energy releasing switch element to form an energy releasing loop, and drive the laser diode to emit light;
wherein the energy transfer circuit further comprises a bypass diode configured to make the energy transfer current maintain a reverse-biased state for the laser diode in the energy transfer stage, the laser emitting circuit satisfies one of the following conditions a and b:
a) an anode of the bypass diode is connected to the anode of the boost rectifier diode, and a cathode of the bypass diode is connected to the cathode of the laser diode; or
b) the bypass diode is connected between the boost rectifier diode and the second energy storage element, the anode of the bypass diode is connected to the cathode of the laser diode, and the cathode of the bypass diode is connected to the
anode of the laser diode; and
wherein the energy releasing switch element is a metal oxide semiconductor (MOS) tube, and a drain and a source of the MOS tube are the first terminal and the second terminal of the energy releasing switch element respectively, a dynamic compensation capacitor forms an electric discharge loop via the drain and the source of the MOS tube, and releases electrical energy stored during an energy transfer for a next cycle of laser emission.
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