JPH032878A - Semiconductor laser recorder - Google Patents

Abstract

PURPOSE:To prevent the waveform distortion from occurring in a semiconductor laser diode driving current and to miniaturize a circuit board by connecting a DC power source, the semiconductor laser diode, and a driving current switching circuit in the circuit board by means of short electric wiring. CONSTITUTION:The DC power source 9, the semiconductor laser diode 1 and the driving current switching circuit 8 are packaged on one first circuit board 3, and an image information signal operating circuit 7 is packaged on a second circuit board 5 which is different from the first circuit board 3. Then, the first circuit board 3 and the second circuit board 5 are connected by a lead wire 15. Thus a DC power source where a driving current flows, the semiconductor laser diode and the driving current switching circuit are connected by the short electric wire in the first circuit board. Therefore, the waveform distortion can be prevented from occurring in the semiconductor laser diode driving current by the impedance of the electric wiring. In addition, the image information signal operating circuit 7 to be recorded is packaged on the second circuit board 5 which is different from the first circuit board 3 so that the first circuit board 3 an be miniaturized.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a semiconductor laser recording device, and more particularly to a switching control circuit device for a semiconductor laser diode drive current.

[Conventional technology]

Laser diode drive current control for an electrophotographic laser beam printer that controls blinking of a laser beam output from a semiconductor laser diode according to image information to be recorded, and also exposes a photosensitive recording medium with the laser beam to record an information image. Due to component arrangement space, the circuit device mainly connects a first circuit board on which a semiconductor laser diode is mounted and a second circuit board on which a laser diode drive current control circuit is mounted using external lead wires. The structure is as follows.

FIG. 2 is a diagram showing the state of implementation of the electric circuit device of such a conventional laser beam printer, which is a semiconductor unit consisting of five semiconductor laser diodes and a photodiode for detecting the intensity of the laser beam output from the semiconductor laser diodes. A detection signal amplification circuit 2 that amplifies the detection signal M1 output from the laser diode unit 1 and the photodiode and outputs a detection signal Ml' is mounted on a single first circuit board 3, and is used in an information processing device. A second circuit board 5 connected to a certain host computer 4 and a CPU 6
, video signal processing circuit 7, drive current switching circuit 8
, a variable constant current power supply 9, a comparator 10, and first and second digital-to-analog converters 11 and 12 are mounted, and a setting circuit 14 is mounted on a third circuit board 13, and each of these circuit boards 3 , 5.13 are connected by external lead wires 15°, 16.17, respectively.

The first circuit board 3 is arranged coupled to the exposure optical system, the second circuit board 5 is arranged in the control box, and the third circuit board 13 is arranged in the operation panel.

The video signal processing circuit 7 performs duty control and the like on the video data signal VD supplied from the host computer 4 and supplies it to the drive current switching circuit 8 . A drive current for driving the semiconductor laser diode of the semiconductor laser diode unit 1 is supplied from a variable constant current power supply 9 controlled by the second digital-to-analog converter 12 to the drive current switching circuit 8 and the lead wire 1.
5 to the semiconductor laser diode, and switching is controlled by the drive current switching circuit 8 in accordance with the video data signal VD in accordance with the image information to be recorded.

In order to shape the recording dot size to a predetermined value, the intensity of the laser beam when the semiconductor laser diode is turned on is converted into an electrical detection signal MD by the photodiode, which is amplified by the detection signal amplification circuit 2 to produce the detection signal MD'. The reference signal REF is applied to the comparator 10 and compared in magnitude with the reference signal REF applied from the first digital-to-analog converter 11. The comparator 10 outputs the comparison result as a laser beam intensity excess/deficiency signal U/D. Reference signal R
The magnitude of EF is set in the first digital-to-analog converter 11 by the CPU 6 reading a command set in the setting circuit 14 .

Figure 3 shows the relationship between the magnitude of the semiconductor laser diode drive current and the intensity of the output laser beam.
The figure shows the relationship between the intensity of the laser beam and the size of the recording dot.

The CPU 6 causes the second digital-to-analog converter 12 to:
The variable constant current power source 9 is controlled by setting a drive current setting value such that the laser beam output intensity becomes a predetermined value.

The CPU 6 further executes data communication between the host computer 4 and the control data CD necessary for controlling the laser beam printer.9 FIG. It is a data processing flowchart of the said CPU6 for image recording.

In such a laser beam printer, a first circuit board 3 on which the semiconductor laser diode unit 1 and the like are mounted
By arranging the drive current switching circuit 8, the variable constant current power supply 9, etc., and the second circuit board 5 as close as possible to each other, the adverse effects of the impedance of the lead wire 15 (current waveform distortion) can be reduced. was.

Such a laser beam printer is, for example,
It is disclosed in Japanese Patent No. -37590.

By the way, recently, high-speed recording and high-resolution recording have been required for laser beam printers, and it has become necessary to control semiconductor laser diodes to blink at high speed. It has become necessary to make the rise and fall of the switching waveform even steeper.

[Problem to be solved by the invention]

However, as described above, the semiconductor laser diode unit 1 and drive current switching circuit 8 (and variable constant current power supply 9) are connected by a relatively long external lead wire 15.
If the lead wire 15 is connected with a wire, as shown in FIG. 6, distortion (overshoot or undershoot) will occur in the drive current waveform due to the impedance of the lead wire 15, resulting in a decrease in the quality of the recorded image and damage to the semiconductor laser diode. I found out that it occurs. Also, to prevent drive current waveform distortion.

Attempts have been made to insert a filter or the like into the drive current circuit, but it has been found that this has the problem of blunting the waveform of the drive current and reducing the recording dot size, as shown in Figure 7. .

This problem can be solved by placing all the control circuits close to the semiconductor laser diode unit, but in small laser beam printers, the semi-quadruple laser diode unit and all the control circuits are integrated. There is no space to connect and arrange the exposure optical unit inside.

An object of the present invention is to provide a semiconductor laser diode drive current switching control circuit device suitable for high-speed recording and high-resolution recording by solving the problems of the conventional device.

[Means to solve the problem]

The present invention controls switching of a drive current supplied from a DC power supply to a semiconductor laser diode by a drive current switching circuit according to an image information signal to be recorded outputted from an image information signal generation circuit, and controls the switching of a drive current supplied from a DC power source to a semiconductor laser diode. In a semiconductor laser recording device that records an information image on a recording medium with a beam, the DC power supply, the semiconductor laser diode, and the drive current switching circuit are mounted on a single first circuit board, and the image information signal is generated. The present invention is characterized in that the circuit is mounted on a second circuit board separate from the first circuit board, and the first circuit board and the second circuit board are connected by a lead wire.

[Effect]

Since the DC power source through which the semiconductor laser diode drive current flows, the semiconductor laser diode, and the drive current switching circuit can be connected by short electrical wiring within one first circuit board, the impedance of the electrical wiring causes the semiconductor laser diode drive current to It is possible to prevent waveform distortion from occurring.

Moreover, since the image information signal generation circuit to be recorded is mounted on a second circuit board separate from the first circuit board,
The first circuit board can be made relatively small enough to be coupled to an exposure optical unit.

〔Example〕

FIG. 8 is a perspective view of an electrophotographic laser beam printer according to the present invention.

Along the outer peripheral surface of the photosensitive drum 21, a charger 22,
Exposure optical unit 23, developing device 24, transfer device (not shown), and cleaner (not shown).

An eraser (not shown) is placed. The photosensitive drum 21 is driven to rotate at a constant speed in the direction of the arrow by a drive device (not shown), and the charger 22 uniformly charges its surface. The exposure optical unit 23 includes a polygon mirror and an F-8 lens, and scans and exposes the surface of the photosensitive drum 21 charged in the -like manner with a laser beam 25 to form a charge latent image on the surface.

A developing device 24 develops the latent charge image into a toner image.

The paper feed cassette 26 accommodates a recording paper 27, and one recording paper 27 is extracted by a paper feed roller (not shown) in order to transfer the 1-toner images. The toner image is transferred onto the extracted recording paper 27 by a transfer device (not shown). The recording paper 27 onto which the toner image has been transferred is sent to a fixing device 28, where the toner image is welded and fixed. This configuration is the same as that of a conventional electrophotographic laser beam printer.

A semiconductor laser diode unit l, which is an integrated semiconductor laser diode and photodiode that supplies a laser beam to the exposure optical unit 23, is mounted on the first circuit board 3 and coupled to the exposure optical unit 23. 5 is a second circuit board.

13 is a third circuit board, 29 is a fourth circuit board,
30 is a power supply device.

The mounting state of the control circuit device on the first to fourth circuit boards 3, 5, 13, and 29 will be described with reference to FIG. Note that the same components as the conventional components described with reference to FIG. 2 are designated by the same reference numerals, and detailed description thereof will be omitted.

In addition to the semiconductor laser diode unit 1 and the detection signal amplification circuit 2, a drive current switching circuit 8 and a variable constant current power supply 9 are mounted on the first circuit board 3 and are electrically connected on the circuit board 3. . The drive current switching circuit 8 and variable constant current power supply 9 are connected to a video signal processing circuit 7 and a second digital signal processing circuit mounted on the second circuit board 5.
It is connected to the analog converter 12 by an external glue board g15.

Other control circuits (not shown) are mounted on the fourth circuit board 29.

FIG. 9 shows the arrangement of the first and second circuit boards 3 and 5 and the exposure optical unit 23 mounted in this manner. 31, 32, and 33 are connectors, respectively.

11 and 12 show the mounting structure of the semiconductor laser diode unit 1, the detection signal amplification circuit 2, the drive current switching circuit 8, and the variable constant current power supply 9 on the first circuit board 3. Semiconductor laser diode unit 1
is integrally mounted with the coupling lens unit 34 on the first surface of the first circuit board 3, and the circuit elements of the detection signal amplification circuit 2 and the drive current switching circuit 8 are mounted on the opposite second surface. A circuit element group and a variable constant current power supply 9 circuit element group are implemented.

According to the control circuit device as described above, the variable constant current power supply 9
Since there is no relatively long external lead wire that distorts the waveform of the drive current in the drive current circuit extending from the semiconductor laser diode unit 1 to the semiconductor laser diode unit 1, as shown in FIG. The fall becomes steep and the recorded dot size reaches a predetermined value.

〔Effect of the invention〕

As described above, in the present invention, the DC power supply through which the semiconductor laser diode drive current flows, the semiconductor laser diode, and the N-dynamic current switching circuit can be connected by short electrical wiring within one first circuit board. The impedance can prevent waveform distortion from occurring in the semiconductor laser diode drive current, allowing high-speed recording and high-resolution recording. Moreover, since the image information signal generation circuit to be recorded is mounted on a second circuit board separate from the first circuit board, the first circuit board can be arranged in combination with the exposure optical system. Making it relatively small
It can also be applied to small printers.

[Brief explanation of the drawing]

Figure 1 is a diagram of the mounting state of the control circuit device on the circuit board;
Figure 2 is a diagram of the mounting state of an electric circuit device in a conventional laser beam printer, Figure 3 is a characteristic diagram showing the relationship between the magnitude of the drive current and the intensity of the output laser beam, and Figure 4 is a diagram showing the relationship between the intensity of the laser beam and the intensity of the output laser beam. A characteristic diagram showing the dimensional relationship of recording dots, Figure 5 is a data processing flowchart of the CPU, and Figure 6 is a data processing flowchart of the CPU.
7 and 7 are characteristic diagrams showing semiconductor laser diode drive current and recording dot shape, and FIG. 8 is a perspective view of an electrophotographic laser beam printer according to the present invention. Fig. 9 is a perspective view showing the coupling relationship between the exposure optical unit and the circuit board, Fig. 10 is a partially longitudinal side view showing the mounting structure of the first circuit board, Fig. 11 is a plan view thereof, and Fig. 12 is FIG. 3 is a characteristic diagram showing a semiconductor laser diode drive current and a recording dot shape by the control circuit device according to the present invention. DESCRIPTION OF SYMBOLS 1... Semiconductor laser diode unit, 2... Detection signal amplification circuit, 3... First circuit board, 5... Second circuit board, 7... Video data signal processing circuit, 8
・・・Fig.Fig.Fig.Fig.Fig.Fig.Fig.Fig.Fig.Fig.Fig.Fig.

Claims (1)

[Claims] 1. Switching control of a drive current supplied from a constant current power source to a semiconductor laser diode by a drive current switching circuit in accordance with an image information signal to be recorded outputted from an image information signal generation circuit; In a semiconductor laser recording device that records information images on a recording medium with a laser beam output from the semiconductor laser diode, the constant current power supply, the semiconductor laser diode, and the drive current switching circuit are mounted on a single first circuit board. Implemented on top,
The image information signal generation circuit is mounted on a second circuit board separate from the first circuit board, and the first circuit board and the second circuit board are connected by a lead wire. Semiconductor laser recording device. 2. In claim 1, the semiconductor laser recording device further includes a photodiode that detects the intensity of the laser beam output from the semiconductor laser diode, and amplifies the detection signal output from the photodiode. and a constant current value control circuit that controls the output current of the constant current power supply based on the output signal of the detection signal amplification circuit, and the photodiode and the detection signal amplification circuit are connected to the first detection signal amplification circuit. 1. A semiconductor laser recording device, characterized in that the constant current value control circuit is mounted on the second circuit board. 3. Switching of the drive current supplied from the DC power source to the semiconductor laser diode is controlled by a drive current switching circuit in accordance with the image information signal to be recorded output from the image information signal generation circuit, and the drive current is output from the semiconductor laser diode. In a semiconductor laser recording device that records an information image on a recording medium with a laser beam, the DC power supply, the semiconductor laser diode, and the drive current switching circuit are mounted on a single first circuit board, and the image information is A semiconductor laser characterized in that a signal generation circuit is mounted on a second circuit board separate from the first circuit board, and the first circuit board and the second circuit board are connected by a lead wire. Recording device. 4. In claim 3, the semiconductor laser recording device further includes a photodiode that detects the intensity of the laser beam output from the semiconductor laser diode, and amplifies the detection signal output from the photodiode. and a constant current value control circuit that controls the output current of the constant current power supply based on the output signal of the detection signal amplification circuit, and the photodiode and the detection signal amplification circuit are connected to the first detection signal amplification circuit. A semiconductor laser recording device, characterized in that the constant current value control circuit is mounted on a circuit board, and the constant current value control circuit is mounted on the second circuit board. 5. A semiconductor laser recording device according to claim 1 or 3, wherein the semiconductor laser diode is mounted integrally with a coupling lens on the first circuit board.