AGILENT HLMP-3554

H
T-13/4 (5 mm) Low Profile
LED Lamps
HLMP-335X Series
HLMP-336X Series
HLMP-345X Series
HLMP-346X Series
HLMP-355X Series
HLMP-356X Series
Technical Data
Features
• High Intensity
• Low Profile: 5.8 mm
(0.23 in.) Nominal
• T-13/4 Diameter Package
• Diffused and Non-diffused
Types
• General Purpose Leads
• IC Compatible/Low Current
Requirements
• Reliable and Rugged
Description
The HLMP-335X/-336X Series are
Gallium Arsenide Phosphide on
Gallium Phosphide High
Efficiency Red Light Emitting
Diodes.
The HLMP-355X/-356X Series are
Gallium Phosphide Green Light
Emitting Diodes.
The Low Profile T-13/4 package
provides space savings and is
excellent for backlighting
applications.
Package Dimensions
5.34 (0.210)
4.83 (0.190)
The HLMP-345X/-346X Series are
Gallium Arsenide Phosphide on
Gallium Phosphide Yellow Light
Emitting Diodes.
5964-9295E
1-101
Selection Guide
Part
Number
HLMP3350
3351
3365
3366
3450
3451
3465
3466
3553
3554
3567
3568
1-102
Application
Indicator – General Purpose
Indicator – High Brightness
General Purpose Point Source
Indicator – High Brightness
Indicator – General Purpose
Indicator – High Brightness
General Purpose Point Source
Indicator – High Brightness
Indicator – General Purpose
Indicator – High Brightness
General Purpose Point Source
Indicator – High Brightness
Minimum
Intensity @
10 mA (mcd)
2.1
5.4
8.6
13.8
2.2
5.7
5.7
9.2
1.6
6.7
4.2
10.6
Lens
Tinted Diffused Wide Angle
HER
Tinted Non-diffused Narrow Angle
HER
Tinted Diffused Wide Angle
Yellow
Tinted Non-diffused Narrow Angle
Yellow
Tinted Diffused Wide Angle
Green
Tinted Non-diffused Narrow Angle
Green
High Efficiency Red HLMP-335X/-336X Series
Electrical Specifications at TA = 25°C
Device
HLMP-
Min.
Typ.
Axial Luminous Intensity
3350
3351
3365
3366
2.1
5.4
8.6
13.8
3.5
7.0
10.0
18.0
mcd
IF = 10 mA
(Figure 8)
2θ1/2
Including Angle Between Half
Luminous Intensity Points
3350
3351
3365
3366
50
50
45
45
Deg.
Note 1 (Figure 11)
λPEAK
Peak Wavelength
635
nm
Measurement at
Peak (Figure 1)
Dominant Wavelength
626
nm
Note 2
Spectral Line Halfwidth
40
nm
τs
Speed of Response
90
ns
C
Capacitance
11
pF
Thermal Resistance
260
°C/W
VF
Forward Voltage
1.9
VR
Reverse Breakdown Voltage
ηV
Luminous Efficacy
Symbol
IV
λd
∆λ1/2
RθJ-PIN
Description
5.0
145
Max.
2.4
Units
Test
Conditions
VF = 0; f = 1 MHz
Junction to
Cathode Lead
V
IF = 10 mA
(Figure 7)
V
IR = 100 µA
lm/W
Note 3
Notes:
1. θ1/2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
2. Dominant wavelength, λd, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color
of the device.
3. Radiant Intensity, Ie, in watts/steradian may be found from the equation Ie = Iv/ηv, where Iv is the luminous intensity in candelas and
ηv is the luminous efficacy in lumens/watt.
Figure 7. Forward Current vs.
Forward Voltage.
Figure 8. Relative Luminous Intensity
vs. Forward Current.
Figure 9. Relative Efficiency
(Luminous Intensity per Unit Current)
vs. Peak Current.
1-103
Figure 10. Maximum Tolerable Peak
Current vs. Pulse Duration. (IDC MAX
as per MAX Ratings).
Figure 11. Relative Luminous Intensity vs. Angular
Displacement.
Yellow HLMP-345X/-346X Series
Electrical Specifications at TA = 25°C
Device
HLMP-
Min.
Typ.
Axial Luminous Intensity
3450
3451
3465
3466
2.2
5.7
5.7
9.2
4.0
10.0
12.0
18.0
mcd
IF = 10 mA
(Figure 13)
2θ1/2
Including Angle Between Half
Luminous Intensity Points
3450
3451
3465
3466
50
50
45
45
Deg.
Note 1 (Figure 16)
λPEAK
Peak Wavelength
583
nm
Measurement at
Peak (Figure 1)
λd
Dominant Wavelength
585
nm
Note 2
∆λ1/2
Spectral Line Halfwidth
36
nm
τs
Speed of Response
90
ns
C
Capacitance
15
pF
Thermal Resistance
260
°C/W
VF
Forward Voltage
2.0
VR
Reverse Breakdown Voltage
ηV
Luminous Efficacy
Symbol
IV
RθJ-PIN
Description
5.0
Max.
2.4
Units
V
V
500
lm/W
Test
Conditions
VF = 0; f = 1 MHz
Junction to
Cathode Lead
IF = 10 mA
(Figure 12)
IR = 100 µA
Note 3
Notes:
1. θ1/2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
2. Dominant wavelength, λd, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color
of the device.
3. Radiant Intensity, Ie, in watts/steradian may be found from the equation Ie = Iv/ηv, where Iv is the luminous intensity in candelas and
ηv is the luminous efficacy in lumens/watt.
1-104
I F – FORWARD CURRENT – mA
60
50
40
30
20
10
0
1.0
1.5
2.0
2.5
3.0
3.5
4.0
V F – FORWARD VOLTAGE – V
Figure 12. Forward Current vs.
Forward Voltage.
Figure 15. Maximum Tolerable Peak
Current vs. Pulse Duration. (IDC MAX
as per MAX Ratings).
Figure 13. Relative Luminous
Intensity vs. Forward Current.
Figure 14. Relative Efficiency
(Luminous Intensity per Unit Current)
vs. Peak Current.
Figure 16. Relative Luminous Intensity vs. Angular Displacement.
1-105
Green HLMP-355X/-356X Series
Electrical Specifications at TA = 25°C
Device
HLMP-
Min.
Typ.
Axial Luminous Intensity
3553
3554
3567
3568
1.6
6.7
4.2
10.6
3.2
10.0
7.0
15.0
mcd
IF = 10 mA
(Figure 18)
2θ1/2
Including Angle Between Half
Luminous Intensity Points
3553
3554
3567
3568
50
50
40
40
Deg.
Note 1 (Figure 21)
λPEAK
Peak Wavelength
565
nm
Measurement at
Peak (Figure 1)
λd
Dominant Wavelength
569
nm
Note 2
∆λ1/2
Spectral Line Halfwidth
28
nm
τs
Speed of Response
500
ns
C
Capacitance
18
pF
Thermal Resistance
260
°C/W
VF
Forward Voltage
2.1
VR
Reverse Breakdown Voltage
ηV
Luminous Efficacy
Symbol
IV
RθJ-PIN
Description
5.0
595
Max.
2.7
Units
Test
Conditions
VF = 0; f = 1 MHz
Junction to
Cathode Lead
V
IF = 10 mA
(Figure 17)
V
IR = 100 µA
lm/W
Note 3
Notes:
1. θ1/2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
2. Dominant wavelength, λd, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color
of the device.
3. Radiant Intensity, Ie, in watts/steradian may be found from the equation Ie = Iv/ηv, where Iv is the luminous intensity in candelas and
ηv is the luminous efficacy in lumens/watt.
Figure 17. Forward Current vs.
Forward Voltage.
1-106
Figure 18. Relative Luminous
Intensity vs. Forward Current.
Figure 19. Relative Efficiency
(Luminous Intensity per Unit
Current) vs. Peak Current.
Figure 20. Maximum Tolerable Peak
Current vs. Pulse Duration. (IDC MAX
as per MAX Ratings).
Figure 21. Relative Luminous Intensity vs. Angular Displacement.
1-107