SLD302V

SLD302V
200mW High Power Laser Diode
Description
The SLD302V is a gain-guided, high-power laser diodes fabricated by MOCVD.
MOCVD: Metal Organic Chemical Vapor Deposition
Features
• High power
Recommended power output
• Low operating current
Pin Configuration
Po = 180mW
2
Applications
• Solid state laser excitation
• Medical use
1
3
1. LD cathode
2. PD anode
3. COMMON
Structure
GaAlAs double-hetero-type laser diode
Bottom View
Operating Lifetime
MTTF 10,000H (effective value) at Po = 180mW, Tc = 25°C
Absolute Maximum Ratings (Tc = 25°C)
• Optical power output
Po
200
• Reverse voltage
VR LD
2
PD
15
• Operating temperature
Topr
–10 to +50
• Storage temperature
Tstg
–40 to +85
mW
V
V
°C
°C
Warranty
This warranty period shall be 90 days after receipt of the product or 1,000 hours operation time whichever is
shorter.
Sony Quality Assurance Department shall analyze any product that fails during said warranty period, and if the
analysis results show that the product failed due to material or manufacturing defects on the part of Sony, the
product shall be replaced free of charge.
Laser diodes naturally have differing lifetimes which follow a Weibull distribution.
Special warranties are also available.
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by
any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the
operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
–1–
E88060C08-PS
SLD302V
Electrical and Optical Characteristics
(Tc: Case temperature, Tc = 25°C)
Item
Symbol
Min.
Conditions
Typ.
Max.
Unit
150
200
mA
Threshold current
Ith
Operating current
Iop
PO = 180mW
350
500
mA
Operating voltage
Wavelength∗1
Vop
PO = 180mW
1.9
3.0
V
λp
PO = 180mW
840
nm
Monitor current
Imon
PO = 180mW
VR = 10V
Perpendicular
Radiation angle
(F. W. H. M.∗)
Positional accuracy
θ⊥
Parallel
θ//
Position
∆X, ∆Y
Angle
∆φ⊥
ηD
Differential efficiency
770
mA
0.3
PO = 180mW
28
40
degree
12
17
degree
±50
µm
±3
degree
PO = 180mW
PO = 180mW
0.65
0.9
mW/mA
∗ F. W. H. M. : Full Width at Half Maximum
∗1 Wavelength Selection Classification
Type
Wavelength (nm)
SLD302V-1
785 ± 15
SLD302V-2
810 ± 10
SLD302V-3
830 ± 10
Type
Wavelength (nm)
SLD302V-21
798 ± 3
SLD302V-24
807 ± 3
SLD302V-25
810 ± 3
Handling Precautions
Eye protection against laser beams
The optical output of laser diodes ranges from
several mW to 1W. However the optical power
density of the laser beam at the diode chip
reaches 1mW/cm2. Unlike gas lasers, since
Lens
Laser diode
laser diode beams are divergent, uncollimated
laser diode beams are fairly safe at a laser
diode. For observing laser beams, ALWAYS use
safety goggles that block infrared rays. Usage of
IR scopes, IR cameras and fluorescent plates is
also recommended for monitoring laser beams
safely.
Optical
material
Safety goggles for
protection from
laser beam
IR fluorescent plate
AP
C
ATC
Optical boad
Optical power output control device
temperature control device
–2–
SLD302V
Example of Representative Characteristics
Optical power output vs.
Forward current characteristics
Optical power output vs. Monitor current characteristics
200
TC = 0°C
TC = 25°C
Po – Optical power output [mW]
Po – Optical power output [mW]
TC = –10°C
TC = 0°C
TC = 25°C
100
TC = 50°C
200
TC = 50°C
100
0
0
0
250
IF – Forward current [mA]
TC = –10°C
0
0.1
Imon – Monitor current [mA]
0.2
500
Power dependence of far field pattern
(parallel to junction)
Threshold current vs. Temperature characteristics
1000
Radiation intensity (optional scale)
500
100
–10
0
10
20
30
Tc – Case temperature [°C]
40
PO = 180mW
PO = 90mW
PO = 30mW
50
–30
Power depecdence of near field pattern
–20
–10
0
10
Angle [degree]
20
30
Oscillation wavelength vs. Temperature characteristics
830
PO = 180mW
PO = 180mW
PO = 150mW
PO = 100mW
PO = 75mW
PO = 50mW
PO = 25mW
λp – Oscillation wavelength [nm]
TC = 25°C
Radiation intensity (optional scale)
Ith – Threshold current [mA]
TC = 25°C
820
810
800
790
780
–10
50µm
–3–
0
10
20
30
Tc – Case temperature [°C]
40
50
SLD302V
Differential efficiency vs. Temperature characteristics
Power dependence of polarization ratio
80
1.5
60
1.0
Polarization ratio
ηD – Differential efficiency [mW/mA]
Tc = 25°C
40
0.5
20
0
–10
0
10
20
30
40
0
50
Tc – Case temperature [°C]
0
50
100
150
200
Po – Optical power output [mW]
–4–
250
SLD302V
Power dependence of wavelength
Relative radiant intensity
Tc = 25°C
Po = 80mW
Relative radiant intensity
Tc = 25°C
Po = 40mW
800
805
810
800
Wavelength [nm]
805
810
Wavelength [nm]
Relative radiant intensity
Tc = 25°C
Po = 160mW
Relative radiant intensity
Tc = 25°C
Po = 120mW
800
805
810
800
Wavelength [nm]
Wavelength [nm]
Relative radiant intensity
Tc = 25°C
Po = 200mW
800
805
805
810
Wavelength [nm]
–5–
810
SLD302V
Temperature dependence of wavelength (Po = 180mW)
Relative radiant intensity
Tc = 12°C
Relative radiant intensity
Tc = –6°C
805
815
825
805
Wavelength [nm]
815
825
Wavelength [nm]
Relative radiant intensity
Tc = 35°C
Relative radiant intensity
Tc = 23°C
805
815
825
805
Wavelength [nm]
Wavelength [nm]
Relative radiant intensity
Tc = 45°C
805
815
815
825
Wavelength [nm]
–6–
825
SLD302V
Unit: mm
M-248 (LO-11)
Reference
Slot
0.4
1.0
3
2
1
Photo
Diode
0
φ9.0 – 0.015
φ7.7 MAX
Reference
Plane
LD Chip
3 – φ0.45
7.0 MAX
φ3.5
1.5 3.4 MAX
0.6 MAX
φ6.9 MAX
Window
Glass
∗2.45
Package Outline
∗Optical
Distance = 2.55 ± 0.05
PCD φ2.54
SONY CODE
M-248
PACKAGE MASS
1.2g
EIAJ CODE
JEDEC CODE
–7–
Sony Corporation