Digital high-efficiency laser pump source
A laser pumping, high-efficiency technology, used in lasers, laser parts, laser monitoring devices, etc., can solve the problems of reducing output current stability, reducing overall efficiency, increasing electrical loss of power control modules, etc., to prevent repeated actions , the effect of improving safety
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Embodiment 1
[0039] Embodiment 1 Overall structure of the system
[0040] Such as figure 1 As shown, the structure includes a laser module 1, a power control module 2, an analog-to-digital conversion module 3, a temperature control module 4, a single-chip microcomputer 5, an input module 6, a display module 7 and a front panel 8. The power control module 2 provides the driving current to the laser module 1, the temperature control module 4 controls the operating temperature of the laser module 1 to make it work in a constant temperature state, and the analog-to-digital conversion module 3 collects the output power and the operating temperature of the laser module 1 and digitalizes the The result is sent to the single-chip microcomputer 5, and the input module 6 transmits the various parameters set by the front panel 8 to the single-chip microcomputer 5, and the display module 7 transmits the system important parameters provided by the single-chip microcomputer 5 to the liquid crystal disp...
Embodiment 2
[0041] Embodiment 2 The structure of the power control module 2 of the present invention
[0042] The structure of the power control module 2 is as figure 2 As shown, the structure comprising the power control module 2 includes a digital-to-analog conversion module 201, a power sampling module 202, a PID operation module 203, a soft start module 204 and an LD drive module 205, and it is characterized in that the power control module The structure of 2 also includes a load judging module 206 , a delay compensation module 207 , a voltage tracking module 208 , an overcurrent judging module 209 , an overtemperature judging module 210 and a power-off protection module 211 . The digital-to-analog conversion module 201 receives the output power parameters, current limit preset parameters, and temperature limit preset parameters sent by the microcontroller and converts them into corresponding analog signals, which are respectively output to the PID operation module 203 and the overcur...
Embodiment 3
[0046] Embodiment 3 The load judging module of the present invention
[0047] The structure of the load judging module 206 of the present invention is as follows Figure 4 As shown: the non-inverting input terminal of the operational amplifier U2A is used as the first input terminal of the load judgment module 206, which is denoted as port Vjdg-in1, and is connected to the port PWR-out1 of the LD driver module 205, and the inverting input terminal of the operational amplifier U2A is connected to the The output terminal of operational amplifier U2A is connected to one end of resistor R5, the other end of resistor R5 is connected to one end of resistor R6 and the same-inverting input terminal of operational amplifier U3A, the other end of resistor R6 is grounded, and the output terminal of operational amplifier U3A is connected to the in-phase input terminal of operational amplifier U3A. One end is connected to one end of the resistor R9, the other end of the resistor R8 is conn...
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