SINGLE FREQUENCY LASER DIODES
Distributed Feedback Laser
General Product Information
Product
Tunable 760 nm DFB Laser
with hermetic 14 Pin Butterfly Housing (RoHS compliant)
including Monitor Diode, Thermoelectric Cooler and Thermistor
with integrated Beam Collimation
Application
Spectroscopy
Metrology
Oxygen Detection
Absolute Maximum Ratings
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Storage Temperature
TS
°C
-40
85
Stress in excess of one of the Absolute Maximum Ratings may damage the laser. Please note that a damaging optical power level may occur although the maximum current is not reached. These are stress ratings only, and functional operation at these or any other conditions beyond those indicated under Recommended Operational Conditions is not implied.
Operational Temperature at Case
TC
°C
-40
85
Operational Temperature at Laser Chip
TLD
°C
10
50
Forward Current
IF
mA
130
Reverse Voltage
VR
V
2
Output Power
Popt
mW
50
TEC Current
ITEC
A
1.1
TEC Voltage
VTEC
V
2.8
Recommended Operational Conditions
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Operational Temperature at Case
Tcase
°C
-20
65
Operational Temperature at Laser Chip
TLD
°C
10
35
measured by integrated thermistor
Forward Current
IF
mA
120
Output Power
Popt
mW
10
40
Characteristics at TLD = 25° C at BOL
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Center Wavelength
λC
nm
759.9
760.9
761.9
Target Wavelength
λT
nm
760.9
reached within TLD =10° and 35° C at 40 mW
Linewidth (FWHM)
Δλ
MHz
2
Popt = 40 mW
Mode-hop free Tuning Range
Δλtune
pm
40
at target wawevelength
Sidemode Supression Ratio
SMSR
dB
30
50
Popt = 40 mW
Characteristics at TLD = 25° C at BOL cont'd
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Temperature Coefficient of Wavelength
dλ/ dT
nm / K
0.06
Current Coefficient of Wavelength
dλ/ dI
nm / mA
0.002
Laser Current @ Popt = 40 mW
ILD
mA
120
Slope Efficiency
η
W / A
0.6
0.8
1.3
Threshold Current
Ith
mA
70
Divergence parallel (FWHM)
Θ∥
°
0.1
parallel to the base plate of the housing
Divergence perpendicular (FWHM)
Θ⊥
°
0.1
perpendicular to base plate of the housing
Beam Diameter horizontal (1/e2)
Θ∥
mm
1.0
1.2
parallel to the base plate of the housing
Beam Diameter vertical (1/e2)
Θ⊥
mm
0.8
1.2
perpendicular to base plate of the housing
Degree of Polarization
DOP
%
90
Popt = 40 mW; E field perpendicular to base plate
Monitor Diode
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Monitor Detector Responsivity
Imon / Popt
μA/mW
3
60
UR = 5 V
Thermoelectric Cooler
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Current
ITEC
A
0.4
Popt = 40 mW, ΔT = 20 K
Voltage
UTEC
V
1.3
Popt = 40 mW, ΔT = 20 K
Power Dissipation (total loss at case)
Ploss
W
0.4
Popt = 40 mW, ΔT = 20 K
Temperature Difference
ΔT
K
50
Popt = 40 mW, ΔT = |Tcase - TLD|
Thermistor (Standard NTC Type)
Parameter
Symbol
Unit
min
typ
max
Measurement Conditions / Comments
Resistance
R
kΩ
10
TLD = 25° C
Beta Coefficient
β
3892
R1 / R2 = eβ (1/T1 - 1/T2) at TLD = 0° … 50° C
Steinhart & Hart Coefficient A
A
1.1293 x 10-3
1/T = A + B(ln R) + C(ln R)3
Steinhart & Hart Coefficient B
B
2.3410 x 10-4
T: temperature in Kelvin
Steinhart & Hart Coefficient C
C
8.7755 x 10-8
R: resistance at T in Ohm
Pin Assignment
1 Thermoelectric Cooler (+)
14 Thermoelectric Cooler (-)
2 Thermistor
13 Case
3 Photodiode (Anode)
12 not connected
4 Photodiode (Cathode)
11 Laser Diode (Cathode)
5 Thermistor
10 Laser Diode (Anode)
6 not connected
9 not connected
7 not connected
8 not connected
Package Drawings
Typical Measurement Results
Performance figures, data and any illustrative material provided in this specification are typical and must be specifically confirmed in writing by eagleyard Photonics before they become applicable to any particular order or contract. In accordance with the eagleyard Photonics policy of continuous improvement specifications may change without notice.
商品属性 [波长] 760nm [功率] 40mW