KR0169221B1 - Device and method of laser diode driving control for laser beam printer - Google Patents

Abstract

The present invention relates to an apparatus and method for driving a laser diode of a laser beam printer, and more particularly, to an apparatus and a method for controlling a laser diode driving and controlling the laser diode on / .

Laser diode drive of conventional laser beam printer Signal line and polygon motor synchronization Signal lines are simultaneously connected and controlled in the laser scanning unit 2 and the central processing unit 3 so that when a circuit abnormality occurs in the laser scanning mechanism, the polygon motor start of the central processing unit 3 There is a case where the laser diode is driven even when the polygon motor is not driven by the signal line, and the laser power is concentrated in one place.

In order to solve this problem, in the present invention, when an abnormality occurs in a circuit, the central processing unit 3 can perform software processing, Signal line and laser diode drive Signal lines are separately provided in the laser scanning unit 2 and the central processing unit 3 so as to control the laser emission and the polygon motor respectively by a predetermined program in the central processing unit 3. [

Description

Laser diode drive control device of laser beam printer and method thereof

FIG. 1 is a conventional laser diode drive circuit block diagram. FIG.

Figure 2 is a flow chart of the operation of the prior art;

FIG. 3 is a laser diode drive circuit block diagram according to the present invention. FIG.

4 is a flow chart of the operation of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: Printing controller 2: Laser scanning unit

2A: Laser control circuit 2B: Polygon motor driver

3: Central processing unit

The present invention relates to an apparatus for controlling the on / off operation of a laser diode and, more particularly, to an apparatus and method for controlling on / off driving of a laser diode. More particularly, And the like.

A conventional laser diode driver circuit of a conventional laser beam printer includes a 12-volt power source for operating a laser diode and a 24-volt power source for operating a polygon motor. Each relay switch SW ₁ ) (via the SW ₂₎ a laser scanning unit (LSU: is connected to a laser scanning unit), a laser control (2) circuit (2A) and the polygon motor driver (2B), the video to be printed, the laser scanning unit (2) A laser diode drive signal (R), which is connected to the printing controller (1) through a video line (VIDEO) for receiving data and controls laser emission on / Polygon motor sync signal to indicate that the line and the polygon motor have reached the specified speed Line is provided in each of the laser control circuit 2A and the polygon motor drive 2B and the polygon motor synchronizing signal of the polygon motor driver 2B By detecting the speed of the polygon motor through the line, the polygon motor start signal And a central processing unit 3 for controlling on / off of the polygon motor by a line.

In the laser beam printing of this configuration, a +12 volt power for operating the laser diode is applied to the laser control circuit 2A while the initial cover is closed, and a +24 volt power for operating the polygon motor is applied to the polygon motor driver 2B ), The central processing unit 3 judges that the polygon motor start signal The polygon motor driver 2B is driven (step 11) by the polygon motor driver 2B as shown in the operation flow chart of FIG. 2, and at the same time, the central processing unit 3 itself reaches the specified speed of the polygon motor An error time for determining the time is set (step 12).

On the other hand, when the polygon motor is driven and reaches the specified speed, the polygon motor driver (2B) The L signal indicates that the polygon motor has reached the predetermined speed by outputting the L signal to the central processing unit 3 through the line, and at the same time, the L signal is supplied to the central processing unit 3 through the laser diode drive signal Line. Thus, in the central processing unit 3, (Step 13). If the L signal is not detected during the predetermined speed reaching time, the polygon motor detects that the polygon motor is in error (steps 14 and 15) (Step 16). At the same time, an error time for determining the beam detection of the laser diode is set (step 17).

At this time, the laser diode drive signal When the laser diode is operated by a signal input through the line, the central processing unit 3 determines whether the laser beam is detected by the laser beam detection circuit (not shown in the figure) in the laser scanning unit 2 If the L signal is not detected during the predetermined beam detection time, it is detected that the beam detection error is present (steps 19 and 20). On the contrary, if the laser beam is detected, the laser beam detection error time is initialized (step 21) The video data is input via the video line VIDEO in the central processing unit 3 (step 22), the printing process is performed (step 23), the video data is turned off (step 24) (Step 25) by outputting the H signal through the line.

However, in this conventional technique, when a circuit abnormality occurs in the laser scanning mechanism, the polygon motor start signal of the central processing unit 3 Although the polygon motor is not driven by the line, the laser diode drive signal Line and polygonal motor synchronous signal Since the lines are simultaneously controlled, the laser diode driving signal When the line is L, the laser diode is kept in a continuously driven state, so that the laser power is concentrated in one place.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, Line and laser diode drive signal And the laser emission on / off control can be processed in hardware or software by separating the lines from each other, and the configuration of the present invention for implementing the same will be described in detail with reference to the accompanying drawings. .

As shown in FIG. 3, the laser control circuit 2A of the laser scanning unit 2 to which the +12 volt power for operating the laser diode is directly applied is connected to the laser diode power supply signal LDV5 line and the central processing unit 3 The laser diode drive signal from Soon as the line is provided at the same time, relay switch polygon motor driver (2B) of the printing controller (1) connected via the video lines (VIDEO) for receiving the video data and, and a laser scanning unit (2) to be printed (SW ₂ ) And a polygon motor start signal for controlling on / off of the polygon motor from the central processing unit 3 The polygon motor synchronizing signal informing the central processing unit (3) that the line and the polygon motor have reached the specified speed And a laser diode power signal line (LDPWR) line for controlling the laser emission on / off of the laser control circuit 2A is additionally provided in the central processing unit 3. The laser diode power signal line is connected to the laser control the laser diode power signal (LDV5) line and to switch the +5 volt power supply applied to the switching means of the circuit (2A) is a NAND gate (G ₁₎ and the transistor (Q for controlling the laser emission on / off when the cover open ₁ ).

In the drive control method of the present invention related to the laser diode drive circuit constructed as described above, as shown in FIG. 4, in the central processing unit 3, when the polygon motor is driven, If the synchronous state of the polygon motor is determined after the error time is arbitrarily set, the beam detection error time is set after the polygon motor error time is initialized in the synchronous state, and if it is not synchronous, A step of recognizing whether the polygon motor is in an error state if it is determined that the beam is detected after setting the beam detection error time in the first process; The laser diode power signal line (LDPWR) and the laser diode Copper signal line A second step of setting a beam detection error time after outputting a logic H signal through the first step; and a second step of determining whether a beam is detected after setting the beam detection error time in the second step, The video line is turned on and the video line is turned off, and the laser diode power signal line (LDPWR) and the laser diode Driving signal line A logic L signal is outputted through the polygon motor to turn off the polygon motor and then the third process is performed.

In the operation of the present invention as described above, the +12 volt power source for operating the laser diode is always supplied to the laser control circuit 2A, and the H signal from the COVER to the NAND gate G ₁ and a relay switch (SW ₂₎ to +24 volts is applied to the polygon motor driver (2B) through power source polygon motor in the central processing unit 3, as in the still is fed, so the fourth-degree operational flow diagram, while the cover is closed, start The polygon motor is driven by outputting the L signal through the signal line (step 31). At the same time, the central processing unit 3 itself arbitrarily sets the error time (step 32) in order to judge the arrival time of the specified speed of the polygon motor .

On the other hand, when the polygon motor is driven and reaches the specified speed, the polygon motor driver (2B) And outputs an L signal to the central processing unit 3 via the signal line to indicate that the polygon motor has reached the prescribed speed.

After the polygon motor is driven, the central processing unit 3 determines the synchronous state of the polygon motor (step 33). If the polygon motor does not reach the specified speed within the set prescribed time (step 34) 35), performs a separate service routine corresponding to the error state, and recognizes that the synchronous state determination result reaches the specified speed at night, the polygon motor error time is initialized (step 36) and an arbitrary error time for laser beam detection is set (Step 37). Then, it is checked whether the laser beam is detected by the laser beam detection circuit (not shown in the figure) of the laser scanning unit 2 (step 38).

At this time, when the laser beam is detected, the central processing unit 3 immediately detects the error state of the laser beam, The polygon motor driver 2B outputs an H signal through the signal line to stop the operation of the polygon motor (step 39), performs another ordinary service routine corresponding to the error state, and sets the laser beam error time The central processing unit 3 immediately recognizes that the laser beam is in a normal state and outputs an H signal through the laser diode power (LDPWR) signal line and the laser diode drive (LDON) signal line (Step 42), and the laser beam detection state is again checked (step 43).

In this state, if the laser beam is not detected within the prescribed time (step 44), the polygon motor is immediately stopped (step 45). On the contrary, if the laser beam is detected, the beam detection error time is initialized (step 46) The video data VIDEO is turned off (step 49), and the laser diode power (LDPWR) signal line of the central processing unit 3 and the laser beam Diode driving The L signal is output through the signal line (step 50) to turn off the laser emission, and then the polygon motor start The H signal is outputted through the signal line to stop driving the polygon motor (step 51).

Therefore, the present invention can solve the problem that the laser power is concentrated in one place by controlling the laser diode on / off in hardware and software in the laser beam printer.

Claims (2)

A laser scanning unit 2 having a laser control circuit 2A for controlling laser emission and a driver 2B for driving a polygon motor and a central processing unit 3 for controlling the laser scanning unit 2 Wherein the central processing unit (3) is provided with a laser diode power signal (LDPWR) line for controlling laser on / off of the laser control circuit (2A), and the laser diode power signal (LDPWR) And a switching means for switching a +5 volt power source applied to the laser diode power supply signal (LDV5) line of the laser control circuit (2A). A laser scanning unit 2 having a laser control circuit 2A for controlling laser emission and a driver 2B for driving a polygon motor and a central processing unit 3 for controlling the laser scanning unit 2 A first step of detecting a synchronization state of a polygon motor and recognizing a beam detection error time and a polygon motor error state in the central processing unit; After setting the time, it is judged whether or not the beam is detected to control the polygon motor drive, and the laser diode power signal line (LDPWR) and the laser diode drive signal line A second step of setting a beam detection error time by outputting a logic H signal through the second line, and a second step of determining whether a beam is detected after setting the beam detection error time in the second step, The laser diode power signal line (LDPER) and the laser diode drive signal line And a third step of turning off the polygon motor by outputting a logic L signal through the third step.