OPTODIODE OD880W

HIGH-POWER GaAlAs IR EMITTERS
GLASS
.006 HIGH
MAX
.015
1.00
MIN.
OD-880W
FEATURES
• High reliability liquid-phase epitaxially grown GaAlAs
• 880nm peak emission for optimum matching with
ODD-45W photodiode
• Wide range of linear power output
• Hermetically sealed TO-46 package
• Wide emission angle to cover a large area
ANODE
(CASE)
.209
.220
.183 .152
.187 .156
.100
20
.017
.098
.112
All surfaces are gold plated. Dimensions are nominal
values in inches unless otherwise specified. Window
caps are welded to the case.
13
.041
.036
CATHODE
45°
.143
.150
PARAMETERS
MB
E
ELECTRO-OPTICAL CHARACTERISTICS AT 25°C
TEST CONDITIONS
Total Power Output, Po
IF = 100mA
MIN
TYP
18
20
mW
16
mW/sr
880
nm
80
nm
CE
Radiant Intensity, Ie
R
RoHS
Peak Emission Wavelength, λP
Spectral Bandwidth at 50%, Δλ
IF = 50mA
Half Intensity Beam Angle, θ
70
DE
IF = 100mA
Forward Voltage, VF
IR = 10μA
Reverse Breakdown Voltage, VR
5
E
Rise Time
LI
F
Fall Time
UNITS
Deg
80
1.55
VR = 0V
Capacitance, C
MAX
1.9
Volts
30
Volts
17
pF
0.5
μsec
0.5
μsec
ABSOLUTE MAXIMUM RATINGS AT 25°C CASE
Power Dissipation1
190mW
Continuous Forward Current
OF
100mA
Peak Forward Current (10μs, 400Hz)2
3A
Reverse Voltage
5V
Lead Soldering Temperature (1/16" from case for 10sec)
260°C
EN
D
1Derate per Thermal Derating Curve above 25°C
2Derate linearly above 25°C
THERMAL PARAMETERS
Storage and Operating Temperature Range
-55°C TO 100°C
Maximum Junction Temperature
100°C
Thermal Resistance, RTHJA1
400°C/W Typical
Thermal Resistance, RTHJA2
135°C/W Typical
1Heat transfer minimized by measuring in still air with minimum heat conducting through leads
2Air circulating at a rapid rate to keep case temperature at 25°C
750 Mitchell Road, Newbury Park, California 91320
Phone: (805) 499-0335, Fax: (805) 499-8108
Email: [email protected], Website: www.optodiode.com
Revision February 26, 2013
HIGH-POWER GaAlAs IR EMITTERS
10
PEAK FORWARD CURRENT, Ip (amps)
POWER DISSIPATION (mW)
INFINITE
HEAT SINK
160
140
NO
HEAT SINK
120
100
80
60
40
20
50
75
AMBIENT TEMPERATURE (°C)
t = 500μs
100
T
IF = 50mA
80
70
TCASE = 25°C
NO PRE BURN-IN PERFORMED
RELATIVE POWER OUTPUT
FE
2
1
100
40
20
0
–100
105
DE
104
LI
FORWARD CURRENT, IF (amps)
3
10
60
–80
–60
–40
–20
0
20
40
BEAM ANGLE, θ(deg)
60
80
100
POWER OUTPUT vs TEMPERATURE
FORWARD I-V CHARACTERISTICS
4
1
DUTY CYCLE, D (%)
80
CE
IF = 100mA
50
103
STRESS TIME, (hrs)
0.1
RADIATION PATTERN
90
102
t
T
Ip
100
IF = 20mA
101
D=
t
0.1
DEGRADATION CURVE
60
t = 100μs
1
MB
ER
100
25
t = 10μs
0.01
0.01
RELATIVE POWER OUTPUT (%)
0
RELATIVE POWER OUTPUT (%)
TYPICAL CHARACTERISTICS
MAXIMUM RATINGS
180
MAXIMUM PEAK PULSE CURRENT
13
THERMAL DERATING CURVE
20
200
OD-880W
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
OF
0.6
0.5
–50
0
0
1
2
3
4
FORWARD VOLTAGE, VF (volts)
5
6
75
100
1,000
D
80
POWER OUTPUT, Po (mW)
RELATIVE POWER OUTPUT (%)
0
25
50
AMBIENT TEMPERATURE (°C)
POWER OUTPUT vs FORWARD CURRENT
SPECTRAL OUTPUT
100
EN
–25
60
40
100
10
20
0
750
800
850
900
WAVELENGTH, λ(nm)
950
1,000
1
10
DC
PULSE
10μs, 100Hz
100
1,000
FORWARD CURRENT, IF (mA)
10,000
750 Mitchell Road, Newbury Park, California 91320
Phone: (805) 499-0335, Fax: (805) 499-8108
Email: [email protected], Website: www.optodiode.com
Revision February 26, 2013