T-13/4 (5 mm) Precision Optical
Performance AlInGaP LED
Lamps
Data Sheet
Features
• Well Defined Spatial
Radiation Patterns
• Viewing Angles: 6°, 15°,
23°, 30°
• High Luminous Output
• Colors:
590 nm Amber
605 nm Orange
615 nm Reddish-Orange
626 nm Red
• High Operating
Temperature:
TJLED = +130°C
• Superior Resistance to
Moisture
• Package Options:
With or Without Lead Stand-
Offs
Benefits
• Viewing Angles Match
Traffic Management Sign
Requirements
• Colors Meet Automotive and
Pedestrian Signal
Specifications
• Superior Performance in
Outdoor Environments
• Suitable for Autoinsertion
onto PC Boards
Applications
• Traffic Management:
Traffic Signals
Pedestrian Signals
Work Zone Warning Lights
Variable Message Signs
• Commercial Outdoor
Advertising:
Signs
Marquees
• Automotive:
Exterior and Interior Lights
Description
These Precision Optical Perform-
ance AlInGaP LEDs provide
superior light output for excellent
readability in sunlight and are
extremely reliable. AlInGaP LED
technology provides extremely
stable light output over long
periods of time. Precision Optical
Performance lamps utilize the
aluminum indium gallium phos-
phide (AlInGaP) technology.
These LED lamps are untinted,
nondiffused, T-13/4 packages
incorporating second generation
optics producing well defined
spatial radiation patterns at
specific viewing cone angles.
SunPower Series
HLMP-ELxx
HLMP-EJxx
HLMP-EHxx
HLMP-EGxx
These lamps are made with an
advanced optical grade epoxy,
offering superior high tempera-
ture and high moisture resistance
performance in outdoor signal
and sign applications. The high
maximum LED junction tempera-
ture limit of +130°C enables high
temperature operation in bright
sunlight conditions. The package
epoxy contains both uv-a and
uv-b inhibitors to reduce the
effects of long term exposure to
direct sunlight.
These lamps are available in two
package options to give the
designer flexibility with device
mounting.
22
Device Selection Guide
Typical
Viewing Color and Luminous
Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2]
2θ1
/2Wavelength on Leads on Leads @ 20 mA
(Deg.)[4] (nm), Typ.[3] (Outline Drawing A) (Outline Drawing B) Min. Max.
HLMP-EL08-VY000 HLMP-EL10-VY000 4200 12000
HLMP-EL08-VYK00* 4200 12000
HLMP-EL08-VXK00* 4200 9300
HLMP-EL08-VX400** 4200 9300
HLMP-EL08-VX000 4200 9300
HLMP-EL08-WZ000 HLMP-EL10-WZ000 5500 16000
Amber 590 HLMP-EL08-XZ400** 7200 16000
HLMP-EL08-XZ000 7200 16000
HLMP-EL08-XZK00* 7200 16000
HLMP-EL08-XY000 7200 12000
HLMP-EL08-XYK00* 7200 12000
HLMP-EL08-X1K00* 7200 21000
HLMP-EL08-X1000 HLMP-EL10-X1000 7200 21000
6°[5] HLMP-EJ08-WZ000 HLMP-EJ10-WZ000 5500 16000
Orange 605 HLMP-EJ08-X1000 HLMP-EJ10-X1000 7200 21000
HLMP-EJ08-Y2000 HLMP-EJ10-Y2000 9300 27000
HLMP-EH08-UX000 HLMP-EH10-UX000 3200 9300
HLMP-EH08-VY000 HLMP-EH10-VY000 4200 12000
Red-Orange 615 HLMP-EH08-WZ000 HLMP-EH10-WZ000 5500 16000
HLMP-EH08-X1000 HLMP-EH10-X1000 7200 21000
HLMP-EH08-Y2000 HLMP-EH10-Y2000 9300 21000
HLMP-EG08-VW000 4200 7200
HLMP-EG08-VY000 HLMP-EG10-VY000 4200 12000
HLMP-EG08-WZ000 HLMP-EG10-WZ000 5500 16000
Red 626 HLMP-EG08-X1000 HLMP-EG10-X1000 7200 21000
HLMP-EG08-YZ000 9300 16000
HLMP-EG08-Y1000 9300 21000
HLMP-EG08-Y2000 HLMP-EG10-Y2000 9300 27000
Notes:
1. The luminous intensity is measured on the mechanical axis of the lamp package.
2. The optical axis is closely aligned with the package mechanical axis.
3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.
4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.
5. The intensity of narrow viewing angle lamps is measured at the intensity peak.
Part numbers in bold are recommended for new designs.
*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.
**HLMP-xLxx-xx400 are selected to amber color bin 4 only.
3
Typical
Viewing Color and Luminous
Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2]
2θ1/2Wavelength on Leads on Leads @ 20 mA
(Deg.)[4] (nm), Typ.[3] (Outline Drawing A) (Outline Drawing B) Min. Max.
HLMP-EL15-PS000 HLMP-EL17-PS000 880 2500
HLMP-EL15-QR000 1150 1900
HLMP-EL15-QRK00* 1150 1900
HLMP-EL15-QS000 1150 2500
HLMP-EL15-QS400** 1150 2500
HLMP-EL15-QSK00* 1150 2500
HLMP-EL15-QT000 HLMP-EL17-QT000 1150 3200
HLMP-EL15-QTK00* 1150 3200
HLMP-EL15-RU000 HLMP-EL17-RU000 1500 4200
HLMP-EL17-SV000 1900 5500
Amber 590 HLMP-EL15-TW000 HLMP-EL17-TW000 2500 7200
HLMP-EL15-TWK00* 2500 7200
HLMP-EL15-TUK00* 2500 4200
15°HLMP-EL15-TV400** 2500 5500
HLMP-EL15-UX000 HLMP-EL17-UX000 3200 9300
HLMP-EL15-VY000 HLMP-EL17-VY000 4200 12000
HLMP-EL15-VYK00* 4200 12000
HLMP-EL15-VX000 4200 9300
HLMP-EL15-VXK00* 4200 9300
HLMP-EL15-VX400** 4200 9300
HLMP-EL15-VW000* 4200 7200
HLMP-EL15-VWK00* 4200 7200
HLMP-EJ15-PS000 880 2500
Orange 605 HLMP-EJ15-RU000 HLMP-EJ17-RU000 1500 4200
HLMP-EJ15-SV000 HLMP-EJ17-SV000 1900 5500
HLMP-EH15-QT000 HLMP-EH17-QT000 1150 3200
Red-Orange 615 HLMP-EH15-RU000 HLMP-EH17-RU000 1500 4200
HLMP-EH15-TW000 HLMP-EH17-TW000 2500 7200
HLMP-EH15-UX000 HLMP-EH17-UX000 3200 9300
Device Selection Guide (Continued)
Notes:
1. The luminous intensity is measured on the mechanical axis of the lamp package.
2. The optical axis is closely aligned with the package mechanical axis.
3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.
4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.
5. The intensity of narrow viewing angle lamps is measured at the intensity peak.
Part numbers in bold are recommended for new designs.
*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.
**HLMP-xLxx-xx400 are selected to amber color bin 4 only.
44
Device Selection Guide (Continued)
Typical
Viewing Color and Luminous
Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2]
2θ1/2Wavelength on Leadson Leads @ 20 mA
(Deg.)[4] (nm), Typ.[3] (Outline Drawing A) (Outline Drawing B) Min. Max.
HLMP-EG15-PS000 880 2500
HLMP-EG15-QT000 HLMP-EG17-QT000 1150 3200
15°Red 626 HLMP-EG15-RU000 HLMP-EG17-RU000 1500 4200
HLMP-EG15-UX000 HLMP-EG17-UX000 3200 9300
HLMP-EG15-TW000 HLMP-EG17-TW000 2500 7200
HLMP-EL24-MQ000 520 1500
HLMP-EL24-NR000 HLMP-EL26-NR000 680 1900
HLMP-EL24-PS000 HLMP-EL26-PS000 880 2500
HLMP-EL24-PSK00* 880 2500
HLMP-EL24-PR400** 880 1900
HLMP-EL24-PQK00* 880 1500
HLMP-EL24-QR000 1150 1900
HLMP-EL24-QRK00* 1150 1900
HLMP-EL24-QS000 1150 2500
HLMP-EL24-QSK00* 1150 2500
HLMP-EL24-QS400** 1150 2500
23°Amber 590 HLMP-EL24-QT000 HLMP-EL26-QT000 1150 3200
HLMP-EL24-QTK00* 1150 3200
HLMP-EL24-RU000 HLMP-EL26-RU000 1500 4200
HLMP-EL24-RUK00* 1500 4200
HLMP-EL26-SV000 1900 5500
HLMP-EL24-ST000 1900 3200
HLMP-EL24-STK00* 1900 3200
HLMP-EL24-SU000 1900 4200
HLMP-EL24-SUK00* 1900 4200
HLMP-EL24-SU400** 1900 4200
HLMP-EL24-SV000 1900 5500
HLMP-EL24-SVK00* 1900 5500
HLMP-EL24-TW000 HLMP-EL26-TW000 2500 7200
HLMP-EL24-TWK00* 2500 7200
Notes:
1. The luminous intensity is measured on the mechanical axis of the lamp package.
2. The optical axis is closely aligned with the package mechanical axis.
3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.
4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.
5. The intensity of narrow viewing angle lamps is measured at the intensity peak.
Part numbers in bold are recommended for new designs.
*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.
**HLMP-xLxx-xx400 are selected to amber color bin 4 only.
5
Typical
Viewing Color and Luminous
Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2]
2θ1/2Wavelength on Leads on Leads @ 20 mA
(Deg.)[4] (nm), Typ.[3] (Outline Drawing A) (Outline Drawing B) Min. Max.
Orange 605 HLMP-EJ24-QT000 HLMP-EJ26-QT000 1150 3200
HLMP-EJ24-RU000 HLMP-EJ26-RU000 1500 4200
HLMP-EH26-PS000 880 2500
Red-Orange 615 HLMP-EH24-QT000 HLMP-EH26-QT000 1150 3200
23º HLMP-EH24-RU000 HLMP-EH26-RU000 1500 4200
HLMP-EH24-SV000 HLMP-EH26-SV000 1900 5500
HLMP-EG24-PS000 HLMP-EG26-PS000 880 2500
Red 626 HLMP-EG24-QT000 HLMP-EG26-QT000 1150 3200
HLMP-EG24-RU000 HLMP-EG26-RU000 1500 4200
HLMP-EL30-MQ000 HLMP-EL32-MQ000 520 1500
HLMP-EL30-NR000 HLMP-EL32-NR000 680 1900
HLMP-EL30-PQ000 880 1500
HLMP-EL30-PQK00* 880 1500
HLMP-EL30-PR000 880 1900
HLMP-EL30-PR400** 880 1900
HLMP-EL30-PRK00* 880 1900
HLMP-EL30-PS000 HLMP-EL32-PS000 880 2500
30°Amber 590 HLMP-EL30-PSK00* 880 2500
HLMP-EL30-QT000 HLMP-EL32-QT000 1150 3200
HLMP-EL30-QTK00* 1150 3200
HLMP-EL30-QS000 1150 2500
HLMP-EL30-QS400** 1150 2500
HLMP-EL30-QRK00* 1150 1900
HLMP-EL30-SU000 1900 4200
HLMP-EL30-SUK00* 1900 4200
HLMP-EL30-SU400** 1900 4200
HLMP-EL30-ST000 1900 3200
Device Selection Guide (Continued)
Notes:
1. The luminous intensity is measured on the mechanical axis of the lamp package.
2. The optical axis is closely aligned with the package mechanical axis.
3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.
4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.
5. The intensity of narrow viewing angle lamps is measured at the intensity peak.
Part numbers in bold are recommended for new designs.
*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.
**HLMP-xLxx-xx400 are selected to amber color bin 4 only.
66
Typical
Viewing Color and Luminous
Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2]
2θ1
/2Wavelength on Leads on Leads @ 20 mA
(Deg.)[4] (nm), Typ.[3] (Outline Drawing A) (Outline Drawing B) Min. Max.
HLMP-EL30-STK00* 1900 3200
Amber HLMP-EL30-SV000 1900 5500
HLMP-EL30-SVK00* 1900 5500
HLMP-EL32-SV000 1900 5500
HLMP-EJ30-MQ000 520 1500
Orange 605 HLMP-EJ30-NR000 HLMP-EJ32-NR000 680 1900
HLMP-EJ30-PS000 HLMP-EJ32-PS000 880 2500
HLMP-EH30-MQ000 HLMP-EH32-MQ000 520 1500
30°HLMP-EH30-NR000 HLMP-EH32-NR000 680 1900
Red-Orange 615 HLMP-EH30-PS000 HLMP-EH32-PS000 880 2500
HLMP-EH30-QT000 HLMP-EH32-QT000 1150 3200
HLMP-EH30-RU000 HLMP-EH32-RU000 1500 4200
HLMP-EG30-KN000 310 880
HLMP-EG30-MQ000 HLMP-EG32-MQ000 520 1500
HLMP-EG30-NQ000 680 1500
HLMP-EG30-NR000 HLMP-EG32-NR000 680 1900
Red 626 HLMP-EG30-PQ000 880 1500
HLMP-EG30-PR000 880 1900
HLMP-EG30-PS000 HLMP-EG32-PS000 880 2500
HLMP-EG30-QT000 HLMP-EG32-QT000 1150 3200
Device Selection Guide (Continued)
Notes:
1. The luminous intensity is measured on the mechanical axis of the lamp package.
2. The optical axis is closely aligned with the package mechanical axis.
3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.
4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.
5. The intensity of narrow viewing angle lamps is measured at the intensity peak.
Part numbers in bold are recommended for new designs.
*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.
**HLMP-xLxx-xx400 are selected to amber color bin 4 only.
7
HLMP - x x xx - xxxxx
Mechanical Options
00: Bulk Packaging
DD: Ammo Pack
YY: Flexi-Bin; Bulk Packaging
ZZ: Flexi-Bin; Ammo Pack
Color Bin Selections
0: No color bin limitation
4: Amber color bin 4 only
K: Amber color bins 2 and 4 only
Maximum Intensity Bin
0: No Iv bin limitation
Minimum Intensity Bin
Viewing Angle & Lead Stand Offs
08: 6 deg without lead stand offs
10: 6 deg with lead stand offs
15: 15 deg without lead stand offs
17: 15 deg with lead stand offs
24: 23 deg without lead stand offs
26: 23 deg with lead stand offs
30: 30 deg without lead stand offs
32: 30 deg with lead stand offs
Color
G: 626 nm Red
H: 615 nm Red-Orange
J: 605 nm Orange
L: 590 nm Amber
Package
E: 5 mm Round
Part Numbering System
88
NOTES:
1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).
2. LEADS ARE MILD STEEL, SOLDER DIPPED.
3. TAPERS SHOWN AT TOP OF LEADS (BOTTOM OF LAMP PACKAGE) INDICATE AN
EPOXY MENISCUS THAT MAY EXTEND ABOUT 1 mm (0.040 in.) DOWN THE LEADS.
4. RECOMMENDED PC BOARD HOLE DIAMETERS:
• LAMP PACKAGE A WITHOUT STAND-OFFS: FLUSH MOUNTING AT BASE OF
LAMP PACKAGE = 1.143/1.067 (0.044/0.042).
• LAMP PACKAGE B WITH STAND-OFFS: MOUNTING AT LEAD STAND-OFFS
= 0.965/0.889 (0.038/0.035).
5. FOR DOME HEIGHTS ABOVE LEAD STAND-OFF SEATING PLANE, d, LAMP PACKAGE
B, SEE TABLE.
B
Package Dimensions
A
1.14 ± 0.20
(0.045 ± 0.008)
5.80 ± 0.20
(0.228 ± 0.008)
5.00 ± 0.20
(0.197 ± 0.008)
31.60
(1.244) MIN.
0.70 (0.028)
MAX.
1.00
(0.039)MIN.
8.71 ± 0.20
(0.343 ± 0.008)
2.54 ± 0.38
(0.100 ± 0.015)
0.50 ± 0.10
(0.020 ± 0.004)SQ. TYP.
CATHODE
LEAD
2.35 (0.093)
MAX.
CATHODE
FLAT
1.14 ± 0.20
(0.045 ± 0.008)
5.80 ± 0.20
(0.228 ± 0.008)
5.00 ± 0.20
(0.197 ± 0.008)
31.60
(1.244) MIN.
0.70 (0.028)
MAX.
1.00
(0.039)MIN.
8.71 ± 0.20
(0.343 ± 0.008)
2.54 ± 0.38
(0.100 ± 0.015)
0.50 ± 0.10
(0.020 ± 0.004)SQ. TYP.
CATHODE
LEAD
CATHODE
FLAT
d
1.50 ± 0.15
(0.059 ± 0.006)
PART NO. d
HLMP-XX10
12.37 ± 0.25
(0.487 ± 0.010)
HLMP-XX17
12.42 ± 0.25
(0.489 ± 0.010)
HLMP-XX26
12.52 ± 0.25
(0.493 ± 0.010)
HLMP-XX32
11.96 ± 0.25
(0.471 ± 0.010)
9
Electrical/Optical Characteristics at TA = 25°C
Parameter Symbol Min. Typ. Max. Units Test Conditions
Forward Voltage IF = 20 mA
Amber (λd = 590 nm) 2.02
Orange (λd = 605 nm) VF1.98 2.4 V
Red-Orange (λd = 615 nm) 1.94
Red (λd = 626 nm) 1.90
Reverse Voltage VR520 VI
F
= 100 µA
Peak Wavelength: Peak of Wavelength of
Amber (λd = 590 nm) 592 Spectral Distribution
Orange (λd = 605 nm) λPEAK 609 nm at IF = 20 mA
Red-Orange (λd = 615 nm) 621
Red (λd = 626 nm) 635
Spectral Halfwidth ∆λ1/2 17 nm Wavelength Width at
Spectral Distribution
1/2 Power Point at
IF = 20 mA
Speed of Response τs20 ns Exponential Time
Constant, e-t/τ
Capacitance C 40 pF VF = 0, f = 1 MHz
Thermal Resistance RθJ-PIN 240 °C/W LED Junction-to-Cathode
Lead
Luminous Efficacy[1] Emitted Luminous
Amber (λd = 590 nm) 480 Power/Emitted Radiant
Orange (λd = 605 nm) ηv370 lm/W Power
Red-Orange (λd = 615 nm) 260
Red (λd = 626 nm) 150
Note:
1. The radiant intensity, Ie, in watts per 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.
Absolute Maximum Ratings at TA = 25°C
DC Forward Current[1,2,3] ............................................................ 50 mA
Peak Pulsed Forward Current[2,3] .............................................. 100 mA
Average Forward Current[3] ......................................................... 30 mA
Reverse Voltage (IR = 100 µA) ......................................................... 5 V
LED Junction Temperature.......................................................... 130°C
Operating Temperature .............................................. -40°C to +100°C
Storage Temperature .................................................. -40°C to +120°C
Dip/Drag Soldering Temperature ........................... 260°C for 6 seconds
Through-the-Wave Preheat Temperature ......................................145°C
Through-the-Wave Solder Temperature ................. 245°C for 3 seconds
[1.59 mm (0.060 in.) below seating plane]
Notes:
1. Derate linearly as shown in Figure 4.
2. For long term performance with minimal light output degradation, drive currents
between 10 mA and 30 mA are recommended. For more information on recommended
drive conditions, please refer to Application Brief I-024 (5966-3087E).
3. Operating at currents below 1 mA is not recommended. Please contact your local
representative for further information.
s
1010
Figure 2. Forward Current vs.
Forward Voltage.
Figure 3. Relative Luminous Intensity
vs. Forward Current. Figure 4. Maximum Forward Current
vs. Ambient Temperature. Derating
Based on TJMAX = 130°C.
Figure 1. Relative Intensity vs. Peak Wavelength.
Figure 5. Representative Spatial Radiation Pattern for 6° Viewing
Angle Lamps.
I
F
– FORWARD CURRENT – mA
0
0
T
A
– AMBIENT TEMPERATURE – °C
40 80
50
40
30
20
10
20 60 100
Rθ
JA
= 585° C/W
Rθ
JA
= 780° C/W
RELATIVE INTENSITY – %
100
0
θ – ANGULAR DISPLACEMENT – DEGREES
80
60
50
70
20
-20 -15
10
30
40
-10 0 5 10 15 20 25
90
-25 -5
WAVELENGTH – nm
RELATIVE INTENSITY
550 600 650 700
1.0
0.5
0
AMBER RED-ORANGE
ORANGE RED
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 20 mA)
0
0
I
F
– DC FORWARD CURRENT – mA
40
3.0
2.0
1.5
1.0
0.5
20 60
2.5
CURRENT – mA
1.0
0
V
F
– FORWARD VOLTAGE – V
2.5
100
40
30
1.5 2.0
60
3.0
10
20
50 RED
AMBER
70
80
90
11
Bin
Name Min. Max.
K 310 400
L 400 520
M 520 680
N 680 880
P 880 1150
Q 1150 1500
R 1500 1900
S 1900 2500
T 2500 3200
U 3200 4200
V 4200 5500
W 5500 7200
X 7200 9300
Y 9300 12000
Z 12000 16000
1 16000 21000
2 21000 27000
Intensity Bin Limits
(mcd at 20 mA)
Tolerance for each bin limit is ± 15%.
Bin
Name Min. Max.
1 584.5 587.0
2 587.0 589.5
4 589.5 592.0
6 592.0 594.5
Amber Color Bin Limits
(nm at 20 mA)
Tolerance for each bin limit is
± 0.5 nm.
Note:
1. Bin categories are established for
classification of products. Products
may not be available in all bin
categories.
Figure 7. Representative Spatial Radiation Pattern for 23° Viewing
Angle Lamps.
RELATIVE INTENSITY – %
100
0
θ – ANGULAR DISPLACEMENT – DEGREES
80
60
50
70
20
10
30
40
90
-20 -15 -10 0 5 10 15 20 25-25 -5
Figure 8. Representative Spatial Radiation Pattern for 30° Viewing
Angle Lamps.
RELATIVE INTENSITY – %
100
0
θ – ANGULAR DISPLACEMENT – DEGREES
80
60
50
70
20
10
30
40
90
-20 -15 -10 0 5 10 15 20 25-25 -5
RELATIVE INTENSITY – %
100
0
θ – ANGULAR DISPLACEMENT – DEGREES
80
60
50
70
20
10
30
40
90
-20 -15 -10 0 5 10 15 20 25-25 -5
Figure 6. Representative Spatial Radiation Pattern for 15° Viewing
Angle Lamps.
www.agilent.com/semiconductors
For product information and a complete list of
distributors, please go to our web site.
For technical assistance call:
Americas/Canada: +1 (800) 235-0312 or
(916) 788-6763
Europe: +49 (0) 6441 92460
China: 10800 650 0017
Hong Kong: (+65) 6756 2394
India, Australia, New Zealand: (+65) 6755 1939
Japan: (+81 3) 3335-8152 (Domestic/Interna-
tional), or 0120-61-1280 (Domestic Only)
Korea: (+65) 6755 1989
Singapore, Malaysia, Vietnam, Thailand,
Philippines, Indonesia: (+65) 6755 2044
Taiwan: (+65) 6755 1843
Data subject to change.
Copyright © 2004 Agilent Technologies, Inc.
Obsoletes 5988-4275EN
February 3, 2004
5989-0659EN