JP2545533Y2 - Laser diode control circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application field] The present invention reads a document image by image reading means such as a CCD (Charge Coupled Device) and converts it into an electric signal, and forms a digital copy by using a laser diode to form an image. The present invention relates to a laser diode control circuit in a machine or the like.

[Prior Art] Generally, a drive current vs. output power characteristic of a laser diode (LD) of this kind is determined by setting a current to a certain threshold as shown in FIG.
_{Ith 1, Ith 2 (Ith 1} <Ith 2) also does not emit light by applying to, and output power exceeds a threshold value Ith _1, Ith ₂ is proportional to the applied current. The thresholds Ith ₁ and Ith ₂ are the temperatures T ₁ and T ₂ (T ₁ <T ₂ )
Therefore, in order to form a stable image in an image forming apparatus such as a digital copying machine, it is necessary to always control the applied current and control the output power to be constant (APC). .

FIG. 4 shows a laser diode control circuit of a conventional digital copying machine.
Is disposed at a position where the photosensitive drum of the digital copying machine is exposed.

A predetermined bias voltage (+5 V) is applied to the anode of the light emitting element of the laser diode LD1 of the LD control unit 10, and the switching circuit 11 turns on and off the cathode side of the light emitting element of the laser diode LD1 according to image data. . In this case, the drive current of the light emitting element of the laser diode LD1 matches the current Iop between the collector and the emitter of the transistor Tr1.

The output light of the light emitting element is detected by the light receiving element of the laser diode LD1, the detection current is converted into a voltage by the differential amplifier OP1, a voltage proportional to the output power is detected by the differential amplifier OP2, and the LD control unit 10 Connector CN1
Is output via.

This detection voltage is input to the A / D converter 12 via the harness H and the connector CN2 on the main control circuit side of the digital copying machine, and is converted into, for example, an 8-bit digital value. The CPU (Central Processing Unit) 13 of the main control circuit outputs a value such that the output power becomes constant according to the digital value, and this value is converted into an analog value by the D / A converter 14, and the LD control unit Applied to the base of ten transistors Tr1.

Therefore, the current Iop between the collector and the emitter is controlled according to the base current of the transistor Tr1, and the output power of the light emitting element of the laser diode LD1 is controlled to be constant.

[Problem to be Solved by the Invention] However, in the above-described conventional laser diode control circuit, the LD control unit 10 is disposed at a position where the photosensitive drum of the digital copying machine is exposed, and the main control circuit side of the digital copying machine is located at a distance. Harness H placed at a distance
If the harness H is disconnected or if the connector CN1 or CN2 is connected incorrectly, an unstable detection voltage will be applied to the A / D converter 1 on the main control circuit side.
2, the output power of the light emitting element of the laser diode LD1 cannot be controlled to be constant.

In particular, in the worst case, even if the CPU 13 outputs a value that increases the output power, the detection voltage input to the A / D converter 12 is low, so that the CPU 13 further increases the output power and the laser diode LD1. Degrades or breaks beyond the maximum rating.

In view of the above-described conventional problems, the present invention can control the output power of the laser diode to be always constant, and can deteriorate the laser diode when the harness is disconnected or a connector connection failure occurs. It is an object of the present invention to provide a laser diode control circuit that can prevent the laser diode from being damaged.

Means for Solving the Problems According to the invention as set forth in claim (1), in order to achieve the above object, a monitor means for detecting an output power of a laser diode and outputting a detection voltage proportional to the output power; A line for applying a detection voltage output from the monitor means to the control means, and a pull-up resistor having a voltage applied to one end of which is equal to or more than the range of the detection voltage of the monitor means and the other end connected to the line. The control means controls the output power of the laser diode to be constant by the voltage when the voltage of the line is within the range of the detection voltage of the monitor means, and the voltage of the line is pulled up. When the voltage is pulled up by a resistor, the control of the laser diode is stopped.

The invention according to claim (2) is characterized in that when the voltage of the line is a voltage pulled up by a pull-up resistor, the control means warns of a disconnection of the line.

[Operation] According to the invention described in claim (1), the line of the detection voltage is pulled up to be higher than the range of the detection voltage of the monitor means due to the above configuration, so that the harness is disconnected or a connection failure of the connector occurs. In that case, the voltage of the line increases, and control of the laser diode is stopped. Therefore, deterioration and breakage of the laser diode can be prevented.

According to the invention described in claim (2), according to the above configuration, when the detection voltage line is equal to or more than the detection voltage range of the monitor means,
It warns of line breakage, so if the harness breaks,
Repair can be performed when a connector connection failure occurs, and therefore, control can be performed so that the output power of the laser diode is always constant.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a laser diode control circuit according to the present invention, and FIG. 2 is a waveform diagram showing main signals in the circuit of FIG.

In FIG. 1, an LD control unit 20 indicated by a broken line
In the same manner as in the conventional example, the laser diode LD2 of the LD control unit 20 is disposed at a position for exposing a photosensitive drum or the like, and a predetermined bias voltage (+5 V) is applied to the anode of the light emitting element of the laser diode LD2. The circuit 21 turns on and off the cathode side of the light emitting element of the laser diode LD2 according to the image data. In this case, the drive current of the light emitting element of the laser diode LD2 matches the current Iop flowing between the collector and the emitter of the transistor Tr2 and the emitter resistor R8.

The image data input to the switching circuit 21 is a modulation signal of a document image read by image reading means 25 such as a CCD in a digital copying machine, and is a modulation signal of an image input from a host computer in a laser printer. In a laser facsimile, it is a modulated signal of a received image.

The output light of this light emitting element is detected by the light receiving element of the laser diode LD2, the detection current is converted to a voltage by the differential amplifier OP3, a voltage proportional to the output power is detected by the differential amplifier OP4, and the LD control unit 20 Connector CN1
Is output via. Note that the current-
The voltage conversion ratio can be adjusted by a variable feedback resistor R5,
The gain of the differential amplifier OP4 is determined by the input resistance R6 and the feedback resistance R.
Determined by the ratio of 7.

The connector CN1 of the LD control unit 20 is connected to the connector CN2 of the main control circuit side of a digital copying machine or the like via the harness H.
The other end of the resistor R9 whose one end is pulled up to, for example, + 5V is connected to the line on the connector CN2 side.

The voltage of the connector CN2 is input to the A / D converter 22. The A / D converter 22 quantizes a voltage in the range of, for example, 0 to 5 V and converts the voltage into an 8-bit digital value (value “OOH” to “OOH” in FIG. 3). "OFFH"). The CPU (central processing unit) 23 outputs a value such that the output power of the laser diode LD2 becomes constant based on the digital value, and this value is converted into an analog value by the D / A converter 24, and the LD control unit 20 Transistor Tr
2 applied to the base.

Also, on the main control circuit side, the harness H is disconnected,
Lights up when a connection failure occurs between connectors CN1 and CN2.
A photodiode PD for serviceman call that warns of line disconnection is provided.
Lights up under the control of U23.

Next, the operation of the above embodiment will be described. First, the characteristics of the detection voltage of the laser diode LD2 and the LD control unit 20 will be described with reference to FIG.

Emitting element of the laser diode LD2 is not emitting be applied to the threshold Ith _1, Ith ₂ is a current as described above (Ith ₁ <Ith _2), the output power exceeds the threshold value Ith _1, Ith ₂ applied The thresholds Ith ₁ and Ith ₂ are proportional to the current and the temperatures T ₁ and T
₂ (T ₁ <T ₂ ).

Here, the normal detection voltage of the LD control unit 20 is the second detection voltage.
As shown in FIG. 3 and FIG.
The D / A converter 23 outputs a digital value for the drive current such that the detection voltage becomes 3 V.

On the other hand, if the harness H is disconnected or a connection failure occurs between the connectors CN1 and CN2, the resistance R9 pulled up to + 5V is applied.
As a result, the detection voltage becomes +5 V (the maximum value “OFFH” in FIG. 3). Therefore, the CPU 23 of the main control circuit stops the entire copy control and the like including the control of the laser diode LD2, and turns on the photodiode PD for serviceman call.

Therefore, in the above-described embodiment, the pull-up resistor R9 is connected to the line on the connector CN2 side of the main control circuit, and when the harness H is disconnected or the connection failure of the connectors CN1 and CN2 occurs, the detection voltage increases, and the laser voltage increases. Since the entire copy control including the control of the diode LD2 is stopped, the deterioration and damage of the laser diode LD2 can be prevented.

Further, when the harness H is disconnected or the connection of the connectors CN1 and CN2 is defective, a serviceman can repair the harness H, so that the output power of the laser diode can be controlled to be always constant.

[Effects of the Invention] As described above, the invention according to claim (1) detects the output power of the laser diode and outputs a detection voltage proportional to the output power, and the output from the monitor means. A line for applying a detection voltage to the control means, and a pull-up resistor having one end to which a voltage higher than the range of the detection voltage of the monitor means is applied and the other end connected to the line, Controls the output power of the laser diode to be constant by the voltage when the voltage of the line is within the range of the detection voltage of the monitoring means, and the voltage of the line is pulled up by the pull-up resistor. Control of the laser diode is stopped when the voltage is
When the connection failure of the connector occurs, the voltage of the line increases, and the control of the laser diode is stopped. Therefore, deterioration and breakage of the laser diode can be prevented.

According to the invention of claim (2), when the voltage of the line is a pull-up voltage, a warning of the disconnection of the line is issued, so that the repair is performed when the harness is disconnected or the connection failure of the connector occurs. Therefore, the output power of the laser diode can be controlled to be always constant.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a laser diode control circuit according to the present invention, FIG. 2 is a waveform diagram showing main signals in the circuit of FIG. 1, and FIG. 3 shows characteristics of the laser diode. FIG. 4 is a block diagram showing a conventional laser diode control circuit. LD: Laser diode, OP3, OP4: Differential amplifier, R9
…… Pull-up resistor, PD …… Photodiode, 23 ……
CPU (central processing unit).

Claims (2)

(57) [Scope of request for utility model registration] 1. A monitoring means for detecting the output power of a laser diode and outputting a detection voltage proportional to the output power; a line for applying the detection voltage output from the monitoring means to a control means; A voltage higher than the range of the detection voltage of the monitor means is applied, and the other end is provided with a pull-up resistor connected to the line; and the control means sets the voltage of the line within the range of the detection voltage of the monitor means. In this case, the output power of the laser diode is controlled to be constant by the voltage, and the control of the laser diode is stopped when the voltage of the line is a voltage pulled up by the pull-up resistor. Laser diode control circuit. 2. The apparatus according to claim 1, wherein said control means warns a disconnection of said line when said voltage of said line is a voltage pulled up by said pull-up resistor.
A laser diode control circuit according to any one of the preceding claims.