Programmable continuous wave high power laser diode system

Abstract

The present invention provides a programmable continuous wave high power laser diode system, which comprised digital control unit, a switch module unit, and a latch current controlling unit so as to provide user to set the latch current of the high power laser diode via the digital control unit controlling the switch module unit and the latch current controlling unit, therefore, the laser diode system includes advantages of high system efficiency, reliability, low output ripple current range and fast switching reaction time.

Claims

1. A programmable continuous wave high power laser diode system comprises: a control command unit; a digital control unit, disposed for digital converting command from the control command unit; a switching DC-DC converter unit, disposed for converting power source and can be controlled by the control command unit and the digital control unit; a latch current controlling unit, coupled to the switching DC-DC converter unit, and latch current of the latch current controlling unit can be instantly adjusted by the control command unit and the digital control unit; a switch module unit, coupled to the switching DC-DC converter unit, and driving current on and off command signal of the switch module unit can be instantly adjusted by the control command unit and the digital control unit; and a laser diode unit, respectively coupled to the latch current controlling unit and switch module unit; wherein the digital control unit can respectively control the latch current controlling unit, switch module unit and switching DC-DC converter unit, so as to adjust output current of the laser diode unit.

2. The programmable continuous wave high power laser diode system of claim 1, wherein the digital control unit can receive current command of the laser diode unit and power switch controlling command from the control command unit and convert to digital signals, so as to respectively adjust latch current of the latch current controlling unit and control switches of the switch module unit.

3. The programmable continuous wave high power laser diode system of claim 2, wherein users can operate and adjust laser diode current command of the control command unit through a control program.

4. The programmable continuous wave high power laser diode system of claim 1, wherein the switching DC-DC converter unit is a multi-phase interleaved buck converter circuit or a multi-phase interleaved synchronous rectification buck converter circuit.

5. The programmable continuous wave high power laser diode system of claim 1, wherein the laser diode unit is formed by a plurality of laser diodes, and laser diodes are disposed by series, parallel or matrix layout ways.

6. The programmable continuous wave high power laser diode system of claim 1, wherein latch current of the latch current controlling unit is the critical current value of the output laser of the laser diode unit.

7. The programmable continuous wave high power laser diode system of claim 1, wherein the switch module unit is consist of a plurality of electronic switches and a plurality of diodes disposed in parallel way.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention as well as a preferred mode of use and advantages thereof will be best understood by referring to the following detailed description of an illustrative embodiment in conjunction with the accompanying drawings, wherein:

(2) FIG. 1 shows a block diagram of the programmable continuous wave high power laser diode system according to the present invention;

(3) FIG. 2 shows a circuit diagram of the programmable continuous wave high power laser diode system according to the present invention;

(4) FIG. 3 shows a temperature profile of a latch current controlling unit;

(5) FIGS. 4a-4c show comparison diagrams between current of laser diode and latch current under the first condition;

(6) FIGS. 5a-5c show comparison diagrams between current of laser diode and latch current under the second condition;

(7) FIG. 6 shows driving current ripple of laser diode under the second condition; and

(8) FIG. 7 shows falling and rising time of the driving current under the second condition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(9) To more clearly describe a programmable continuous wave high power laser diode system according to the present invention, embodiments of the present invention will be described in detail with reference to the attached drawings hereinafter.

(10) Please refer to FIG. 1 and FIG. 2, there are block diagram and circuit diagram of embodiment of the programmable continuous wave high power laser diode system according to the present invention. As shown in FIG. 1 and FIG. 2, the programmable continuous wave high power laser diode system comprises: a digital control unit D, a switching DC-DC converter unit A, a latch current controlling unit B, a switch module unit S, a laser diode unit L, and a control command unit C.

(11) The switching DC-DC converter unit A is disposed for converting power source, and the latch current controlling unit B is coupled to the switching DC-DC converter unit A, moreover, the latch current of the latch current controlling unit can be instantly adjusted by the control command unit and the digital control unit.

(12) Furthermore, the switch module unit S is coupled to the switching DC-DC converter unit A and the laser diode unit L is respectively coupled to the latch current controlling unit B and switch module unit S, wherein the driving current on and off command signal of the switch module unit can be instantly adjusted by the control command unit and the digital control unit.

(13) Inheriting to above description, the digital control unit is disposed for digital converting the command from the control command unit, and the digital control unit can respectively control the latch current controlling unit, switch module unit and switching DC-DC converter unit, so as to adjust the output current of the laser diode unit, therefore, the output power of the laser diode unit L can be controlled and adjust by the way mentioned above.

(14) Besides, the digital control unit D can receive the laser diode current command and the power switch control command of the control command unit C and convert to digital signals, so as to respectively control the latch current of the latch current controlling unit B and the laser diode current switches of the switch module unit S; moreover, users can operate and adjust the laser diode current command of the control command unit C through a control program.

(15) The switching DC-DC converter unit A can be a multi-phase interleaved buck converter circuit or a multi-phase interleaved synchronous rectification buck converter circuit or any kinds of converter unit.

(16) Moreover, in the present invention, the switching DC-DC converter unit A is design in modular form with closed-loop and interleaved controlled, so as to provide a high power for high-current laser diode and achieve the effect of low output current ripple. Furthermore, according to the modular form with closed-loop and interleaved controlled design, the high power laser diode of the present invention can achieve advantages of high reliability, high efficiency, high heat dissipation, and balancing each current phases.

(17) In the present invention, the latch current of the latch current controlling unit B is the constant value, meanwhile, the constant value is also be the critical current of the laser diode unit L. Continuously referring to FIG. 1 and FIG. 2, and please refer to FIG. 3, there is shown the temperature profile of a latch current controlling unit. As the FIGS. shown, the output current might be changed with the working temperature and the physical condition thereof, so the latch current is also be a flowctuation.

(18) Therefore, the change of latch current causes time deviation of output of diode laser, when switching control is operated, even the input current is under the same condition, the output time will be different. And in the present invention, the accurate, rapid regulation of the power output needed to be maintained through the instant controlled of the latch current so as to maintain the accuracy of the original design.

(19) Inheriting to above description, control module of the latch current can implement a precision current command tracking function by an instant controllable current source, when the function is launched, the current source can be synchronously adjusted for coordinating the controlling condition of the laser diode, so as to adjust and maintain the current of the laser diode for achieving quickly current switching function of the high-power laser diode.

(20) Therefore, through above descriptions, the programmable continuous wave high power laser diode system provided by the present invention has been introduced completely and clearly; then the advantages of the present invention will be introduced via the following data diagrams.

(21) FIG. 4a to FIG. 4c show comparison diagrams between current of laser diode and latch current under the first condition, wherein, the continuous wave of the high-power laser diode is 50 A, and the simulate time is 8 ms, current stop every 1 ms and restart after 0.1 ms, stop and restart five times.

(22) As FIG. 4a shows, when latch current value I_th do not been set, the laser diode current I_LD reduced to 0 A under each switching operation; however, as FIG. 4b shows, when latch current value I_th is set as 3 A, the laser diode current I_LD reduced to about 3 A under each switching operation; moreover, as FIG. 4c shows, when latch current value I_th is set as 5 A, the laser diode current I_LD reduced to about 5 A under each switching operation.

(23) Besides, FIG. 5a to FIG. 5c show comparison diagrams between current of laser diode and latch current under the second condition, wherein, the continuous wave of the high-power laser diode is 50 A, and the simulate time is 8 ms, current stop every 1 ms and respectively restart after 0.2 ms, 0.4 ms, 0.6 ms, 0.8 ms, and 1 ms, stop and restart five times.

(24) As FIG. 5a shows, when latch current value I_th has not been set, the laser diode current I_LD reduced to 0 A under each switching operation; however, as FIG. 5b shows, when latch current value I_th is set as 3 A, the laser diode current I_LD reduced to about 3 A under each switching operation; moreover, as FIG. 5c shows, when latch current value I_th is set as 5 A, the laser diode current I_LD reduced to about 5 A under each switching operation.

(25) Please refer to FIG. 6 and FIG. 7, there are respectively shown current wave data of laser diode and falling and rising time of the current. As the condition described above in FIG. 5b, when the latch current value I_th is set as 3 A and the continuous wave of the high-power laser diode is 50 A, as FIG. 6 shows, the peak-to-peak value is very small and the ripple current is very stable (0.04%); moreover, as FIG. 7 shows, according to the present invention, when the driving current of laser diode is operated on and off, the reaction time thereof is very short (0.96 s and 0.97 s).

(26) Therefore, through above descriptions, the programmable continuous wave high power laser diode system provided by the present invention has been introduced completely and clearly; in summary, the present invention includes the advantages of:

(27) (1) High system efficiency and high reliability.

(28) (2) Low output ripple current range

(29) (3) Can instantly adjust latch current of laser diode.

(30) (4) With high-efficiency and fast (microsecond) on and off switch control.

(31) (5) With programmable continuous wave on and off switch control.

(32) The above description is made on embodiments of the present invention. However, the embodiments are not intended to limit scope of the present invention, and all equivalent implementations or alterations within the spirit of the present invention still fall within the scope of the present invention.