Laser Diode Control Circuit - Toshiba e-STUDIO520 Service Manual
Multifunctional digital systems
Hide thumbs
Also See for e-STUDIO520:
- Service handbook (650 pages) ,
- User functions manual (202 pages) ,
- Network administration manual (124 pages)
Table of Contents
Advertisement
8.3
Laser Diode Control Circuit
This equipment uses an AlGaAs type semiconductive laser with 10 mW of optical output power rating.
This laser emits a beam in a single transverse mode in approx. 785 nm wavelength. PIN diode for mon-
itoring optical output in this laser controls the laser intensity.
The relation between the forward current and optical output of a semiconductive laser is as shown
below. Beam emission starts when the forward current exceeds a threshold current, and then the laser
outputs a monitor current which is proportionate to the optical output. Since semiconductive lasers have
an individual variability in their threshold current and monitor current, the optical output needs an
adjustment to be maintained at a certain value.
The optical output of a semiconductive laser decreases as the laser temperature rises. Therefore APC
(Auto Power Control) needs to be performed to maintain a constant optical output.
A block diagram of the semiconductive laser control circuit is shown below. The semiconductive laser
performs a monitor efficiency regulation (a process to control a monitor current for beam emission
amount). The initial beam emission is adjusted to be approx. 2.5 mW (510 µW on the drum surface) in
the e-STUDIO520/600/720, and approx. 3.0 mW (300 µW on the drum surface) in the e-STUDIO850.
The voltage of the monitor output, which has been regulated by this adjustment, is then fed back to a
laser power comparison circuit.
In the laser power comparison circuit, this voltage fed back and a laser power voltage set for the control
circuit are compared for every scanning. As the result of this, a laser driver circuit increases its forward
current when the laser power is insufficient and decreases it when the laser power is excessive to main-
tain a constant optical output.
Laser power
comparison
circuit
March 2005 © TOSHIBA TEC
Regulation
High temp.
Low temp.
Forward current
Monitor current
Current ( mA )
Threshould current
Fig.8-8
Power source
Laser driver
circuit
Constant
optical output
Monitor efficiency
regulation circuit
Fig.8-9
8 - 9
Semiconductive laser
Monitor output
e-STUDIO520/600/720/850 LASER OPTICAL UNIT
8
Advertisement
Table of Contents
