CW LASER DIODES
L10452 , L10451 , L8763 , L8828 SERIES
PRELIMINARY DATA
High radiant flux from a single chip
FEATURES
High radiant flux and its density(CW)
L10452 series : 0.5 W / 50
µ
m
L10451 series : 1 W / 100
µ
m
L8763 series : 1 W / 50
µ
m
L8828 series : 2 W / 100
µ
m
High stability
Long life
Compact
APPLICATIONS
Pumping source for solid state lasers
Printing
Medical instrument
Measuring instrument
Material Processing
Marking
HAMAMATSU CW laser diodes, L10452, L10451, L8763, L8828 series feature high radiant flux of 0.5 to 2.0 W
under CW operation. As this is single chip and single element type, emitting area is small (50
µ
m to 100
µ
m X 1
µ
m). Therefore, it is easy to focus on to a small spot with optics. It can be used for various applications such as
pumping of solid lasers, printers, medical instruments etc.
Information furnished by HAMAMATSU is believed to be reliable. However, no responsibility is assumed for possible inaccuracies or omissions.
Specifications are subject to change without notice. No patent rights are granted to any of the circuits described herein. ©2006 Hamamatsu Photonics K.K.
CW LASER DIODES L10452 , L10451 , L8763 , L8828 SERIES
ABSOLUTE MAXIMUM RATINGS (Top(c) = 25
°C)
Parameter
Radiant Flux
Reverse Voltage
Operating Temperature
Storage Temperature
Symbol
Φ
e
V
r
T
op(c)
T
stg
Value
L10452
0.6
L10451
1.2
2
0 to +30
-30 to +80
L8763
1.2
L8828
2.2
Unit
W
V
°C
°C
CHARACTERISTICS (Top(c) = 25
°C)
Parameter
Operating Current
Peak Emission Wavelength
Spectral Radiation Half Bandwidth
Operating Voltage
Emitting Area Size
Beam Spread Angle
Horizontal
Vertical
Symbol
I
op
λ
p
∆λ
V
op
-
θ
//
θ
⊥
I
th
Value
Conditions
L10452
Φ
e
= 0.5 W
L10451
Φ
e
= 1 W
L8763
Φ
e
= 1 W
L8828
Φ
e
= 2 W
Value at designing
FWHM
-
0.15
0.35
50
X
1
100
X
1
8
32
0.35
0.6
L10452
0.65
L10451
1.2
2
2
50
X
1
100
X
1
L8763
1.2
L8828
2.4
Unit
A
nm
nm
V
808
±
3 , 808
±
10
*
1
µ
m
degree
degree
A
Lasing Threshold Current
*
1 Tolerance of peak emission wavelength can be selected from +/- 3nm and +/- 10nm for every type of laser diodes listed above. For its details, see the table of
SUFFIX in the next page.
Other laser diodes of different peak emission wavelength are available, such as 830nm, 940nm and 980nm. Contact your local representative for more information.
Figure 1: Radiant Flux vs. Forward Current (Typ.)
2.5
( T
op(c)
= 25
°C
)
Figure 2: Emission Spectrum (Typ.)
( T
op(c)
= 25
°C
)
100
L8828
2.0
Relative Radiant Flux (%)
Radiant Flux
Φ
e
(W)
80
1.5
60
L8763
L10451
1.0
L10452
0.5
40
20
0
0
0.5
1.5
1.0
2.0
Forward Current I
f
(A)
2.5
0
804
806
808
Wavelength (nm)
810
812
Figure 3: Directivity (
Example from Measurement
)
100
Horizontal
Direction
Horizontal
Direction
(T
op(c)
= 25
°C
)
Vertical
Direction
Vertical
Direction
80
Relative Radiant Flux (%)
Top View
Side View
Side View
Horizontal
Direction
Top View
Vertical
Direction
60
Top View
Top View
40
20
0
40
30
20
10
0
10
Angle (degree)
20
30
40
SUFFIX / DIMENSIONAL OUTLINE (Unit : mm)
Parameter
Peak Emission Wavelength (nm)
Package
Dimensional Outline
*
φ9.0CD
package is not available with 2W type L8288 series.
Pigtailed type is available as custom option. Contact your local representative for details.
Output
Suffix
L####-04
L####-42
L####-06
L####-62
L####-07
L####-72
808
±
10
808
±
3
φ
9.0 CD
808
±
3
808
±
10
Side-out OHS
808
±
3
808
±
10
Head-out OHS
φ
9.0 CD Package
Glass Window
LD Chip
φ
9.0
+0
-0.1
φ
5.7
±
0.2
φ
2.8
±
0.3
φ
0.45
φ
2.54
1.0
0.4
Anode
(Case)
1.5
2.4
7.0
±
0.5 5.1
±
0.5
L10452-04 , L10451-04 , L8763-04
L10452-42 , L10451-42 , L8763-42
Cathode
(Connection)
NC
Anode
Cathode
2
Output
LD Chip
10
1.8
2.4
5.8
1.5 0.15
Cathode Lead
1
Side-out OHS Package
Back Output
(Connection)
9.45
3.8
9.4
8.8
φ
3
7.8
L10452-06 , L10451-06 , L8763-06 , L8828-06
L10452-62 , L10451-62 , L8763-62 , L8828-62
6
Isolator
Anode Block
Anode
Cathode
Head-out OHS Package
0.6
Isolator
2.0
5.0
LD Chip
2.0
0.15
Output
(Connection)
5.0
8.0
Back
Output
2.0
1.0
Cathode Lead
L10452-07 , L10451-07 , L8763-07 , L8828-07
L10452-72 , L10451-72 , L8763-72 , L8828-72
Anode Block
φ
2.2
6.0
1.0
2.4
Anode
Cathode
CW LASER DIODES L10452 , L10451 , L8763 , L8828 SERIES
Handling precautions & instructions
1. Absolute maximum ratings
When LDs are driven exceeding its absolute maximum ratings, it will be broken instantly or it leads to degradation of performance &
reliability. Please be careful not to exceed absolute maximum ratings even only a moment. The absolute maximum ratings in this
datasheet are specified based on case temperature at 25
°C.
When the operating temperature is higher, the radiant output power &
dissipation will be reduced and it affects other characteristics. When designing the operating circuitry for LDs, please surely take
absolute maximum ratings into account.
2. Protection of electrostatic discharge sensitive (ESDS) devices
The LDs may be damaged or its performance may deteriorate due to such factors as electric field, electrostatic discharges (ESD), surge
voltage, leakage voltage etc. As a countermeasure against ESD, the device, operator, work place and jigs must all be set at the same
electric potential. When handling LDs, please wear conductive finger-cap. And please take following countermeasures ;
(1) Install protection circuit for excess voltage, reverse voltage, surge voltage into power supply, measuring instrument etc.
(2) When using soldering iron, protect LDs from leakage current & electrostatic discharge from soldering iron bit.
(3) Conductive sheet, electrically grounded through 1Mohm resistor should be laid on both the work table and the floor of the working
area. In order to protect the device from ESD which accumulate on the operator or the operator’s clothes, ground electrically through
1Mohm resistor and wear a wrist strap etc.
(4) Goods like parts, container to contact / approach to LDs should be materials which is taken a countermeasures for ESD.
3. Protection for stain, stress, external damage, etc.
The LDs whose suffix -06 & -07 are bare type product, vital & fragile part is naked. Dusts, expiration, finger print, sputum, condensation
bending, chip off of LD chip, re-forming of wire may leads to degradation of performance of the LDs. Please unpack, keep, handle,
operate, drive in air-conditioned clean room so that the LDs are keep away from dust & condensation. When handling, please take
enough care not to drop, not to stain any part of LDs. When dropped or stained, do not use it.
4. Heat dissipation
Reliability of LDs is deeply correlated with junction temperature. Under higher operating temperature, the reliability deteriorates sooner.
Heat dissipating device (material: Aluminum, Copper) should be attached to the base of LDs, and cooling devices (air, water, peltier etc.)
should be operate with the LDs in order to dissipate the heat from the LDs, so that the operating temperature is kept within the absolute
maximum ratings.
5. Safety for operators and users
These LDs emit invisible laser radiation. It’s classified into Class 4 according to the laser product standards of the IEC 60825-1 (Safety
of laser products Part 1: Equipment classification, requirements and user’s guide) and/or ANSI Z136.1 (American National Standard for
Safe Use of Lasers) etc. Direct or reflected laser beam from these LDs may damage eyes or skin by being absorbed by cells. In the
worst case, it leads to burn or loss of eyesight. The operator must not stare the emitting area of LDs, must avoid direct exposure to the
laser beam. Wear eye-protectors (glasses or goggles) against laser radiation while operating a device. Please provide adequate
information to the end-user of its classification, performances and warnings of the products using these LDs, defying the regulations of
IEC 60825-1 etc.
INVISIBLE LASER RADIATION
AVOID EYE OR SKIN EXPOSURE TO
DIRECT OR SCATTERED RADIATION
MAXIMUM OUTPUT PULSE DURATION WAVELENGTH
CLASS 4 LASER PRODUCT IEC 60825-1:2001
CLASS 4 LASER PRODUCT
Warning label
Explanatory label
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5000, Hirakuchi, Hamamatsu City, Shizuoka, 434-8601, Japan,
Telephone: (81)53-584-0227, Fax: (81)53-584-0228, E-mail: laser-g@lsr.hpk.co.jp
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Cat. No. LLD1010E05
DEC. 2006
Printed in Japan
