SUBMINIATURE T-3/4 LED
DIFFUSED and CLEAR LAMPS
HIGH EFF. RED
YELLOW
GREEN
AIGaAs RED
HLMP-6305A
HLMP-6405A
HLMP-6505A
HLMP-Q105A
Water
Water
Water
Water
Clear
Clear
Clear
Clear
MV6700A
MV6300A
MV6400A
HLMP-Q150A
Red Diffused
Yellow Diffused
Green Diffused
Red Diffused
PACKAGE DIMENSIONS
.087 (2.2)
.079 (2.0)
.024 (.6)
.016 (.4)
.276 (7.0)
MIN
FEATURES
• Subminiature T-3/4 transfer molded
• Low package profile
• Axial leads
• Wide viewing angle
.091 (2.3)
.083 (2.1)
• SMT versions
DIA
.010 (.26)
.002 (.06)
.075 (1.9)
.063 (1.6)
.020 (.5)
.012 (.3)
DESCRIPTION
These T-3/4 subminiature LED lamps feature a square-base,
transfer molded package for surface mount applications. A tinted
diffused or water clear epoxy lens
available in AIGaAs red,
high-efficiency red, green, and yellow
produces wide-angle
beam emission and sharp on/off contrast. They are available with
gullwing lead bends for top mounting, as well as yoke lead bends
and Z-bends for mounting to the back of a PCB.
.058 (1.48)
.050 (1.28)
.056 (1.44)
.048 (1.24)
.031 (.78)
.023 (.58)
CATHODE MARK
(COLOR STRIPE ON SIDE OF PACKAGE)
NOTES:
ALL DIMENSIONS ARE IN INCHES (mm).
ABSOLUTE MAXIMUM RATING
Parameter
Power Dissipation
Average Forward Current
Peak Forward Current
(1
µS
pulsewidth, 0.1% DF)
Lead Soldering Time at 260° C
Operating Temperature
Storage Temperature
(T
A
=25°C)
HLMP-6305A
MV6700A
135
30
90
5
-55 to +100
-55 to +100
HLMP-6405A
MV6300A
85
20
60
5
-55 to +100
-55 to +100
HLMP-6505A
MV6400A
135
30
90
5
-50 to +100
-50 to +100
HLMP-Q105A
HLMP-Q150A
85
30
300
5
-20 to +100
-20 to +100
UNITS
mW
mA
mA
sec
°C
°C
2001 Fairchild Semiconductor Corporation
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SUBMINIATURE T-3/4 LED
DIFFUSED and CLEAR LAMPS
ELECTRICAL / OPTICAL CHARACTERISTICS
Part Number QTLP-
Luminous Intensity (mcd)
Minimum
Typical
Forward Voltage (V)
Maximum
Typical
Peak Wavelength (nm)
Spectral Line Half Width (nm)
Reverse Voltage (V)
Viewing Angle (°)
3.0
1.8
635
40
5
50
3.0
2.0
585
36
5
50
3.0
2.0
565
28
5
50
1.8*
1.6*
660
20
5
50
*Tested at I
F
= 1mA
I
F
= 10mA
I
F
= 10mA
I
R
= 100µA
I
F
= 10mA
1.0
3.0
1.0
3.0
1.0
3.0
1.0*
1.8*
*Tested at I
F
= 1mA
I
F
= 10mA
MV6700A
(T
A
=25°C)
MV6400A
HLMP-Q150A
Condition
I
F
= 10mA
MV6300A
ELECTRICAL / OPTICAL CHARACTERISTICS
Part Number QTLP-
Luminous Intensity (mcd)
Minimum
Typical
Forward Voltage (V)
Maximum
Typical
Peak Wavelength (nm)
Spectral Line Half Width (nm)
Reverse voltage (V)
Viewing Angle (°)
3.0
1.8
635
40
5
25
3.0
12.0
HLMP-6305A
(T
A
=25°C)
HLMP-6505A
3.0
12.0
3.0
2.0
565
28
5
25
HLMP-Q105A
20.0**
50.0**
2.4**
1.8**
660
20
5
25
**Tested at I
F
= 20mA
I
F
= 10mA
I
F
= 10mA
I
R
= 100µA
I
F
= 10mA
**Tested at I
F
= 20mA
I
F
= 10mA
Condition
I
F
= 10mA
HLMP-6405A
3.0
12.0
3.0
2.0
585
36
5
25
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DS300000
SUBMINIATURE T-3/4 LED
DIFFUSED and CLEAR LAMPS
TYPICAL PERFORMANCE CURVES
(T
A
=25°C)
90
2.5
RELATIVE LUMNOUS INTENSITY
(NORMALIZED AT 10 mA)
80
AlGaAs
RED
I
F
- FORWARD CURRENT (mA)
70
60
50
40
30
20
10
GREEN
0
1.0
2.0
3.0
4.0
5.0
YELLOW
HER
2.0
HER
YELLOW
GREEN
1.5
1.0
AlGaAs
RED
0.5
0.0
0
5
10
15
V
F
- FORWARD VOLTAGE (V)
I
F
- DC FORWARD CURRENT (mA)
Fig. 1 Forward Current vs. Forward Voltage
Fig. 2 Relative Luminous Intensity vs.
DC Forward Current
1.0
GREEN
YELLOW
AlGaAs RED
RELATIVE INTENSITY
0.5
HER
0
500
550
600
650
700
750
WAVELENGTH (nm)
Fig. 3 Relative Intensity vs. Peak Wavelength
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SUBMINIATURE T-3/4 LED
DIFFUSED and CLEAR LAMPS
OPTIONAL CONFIGURATIONS
GULLWING LEAD CONFIGURATION
FEATURES
• Available in Gullwing, Yoke and Z-bend lead formings
• Compatible with automatic placement equipment
.087 (2.2)
.079 (2.0)
CATHODE
ANODE
• Compatible with vapor phase reflow soldering processes
• Long life
solid state reliability
• Reel and tape or bulk packaging available
.091 (2.3)
.083 (2.1)
.024 (.6)
.016 (.4)
.154 (3.90)
.148 (3.75)
DESCRIPTION
.020 (.5)
.012 (.3)
These subminiature solid state lamps are transfer molded in an
axial lead package. They are available in yellow, green, high effi-
ciency red and AIGaAs red in both diffused and water clear lens.
Automatic placement equipment can be used to mount the LEDs
on the PC board. The lamps can be mounted using either batch
or in line vapor phase reflow solder processes.
.078 (1.9)
.063 (1.6)
.058 (1.48)
.050 (1.28)
.115 (2.92)
.099 (2.52)
.010 (.26)
.002 (.06)
.016 (.4)
.008 (.2)
.033 (.82)
.000 (.00)
.039 (1.0)
.028 (.7)
NOTES:
ALL DIMENSIONS ARE IN INCHES (mm)
YOKE LEAD CONFIGURATION
Z-BEND LEAD CONFIGURATION
.087 (2.2)
.079 (2.0)
.020 (.5)
.012 (.3)
.087 (2.2)
.079 (2.0)
ANODE
CATHODE
.091 (2.3)
.083 (2.1)
.024 (.6)
.016 (.4)
.024 (.6)
.016 (.4)
CATHODE
.091 (2.3)
.083 (2.1)
.240 (6.1)
.232 (5.9)
.020 (.5)
.012 (.3)
.300 (7.62) MAX
ANODE
.128 (3.24)
.112 (2.84)
.078 (1.9)
.063 (1.6)
.058 (1.48)
.050 (1.28)
.047 (1.2)
.031 (0.8)
.010 (.26)
.002 (.06)
.033 (.85)
.026 (.65)
.078 (1.9)
.063 (1.6)
.058 (1.48)
.050 (1.28)
.039 (.99)
.023 (.59)
.010 (.26)
.002 (.06)
.115 (2.92)
.099 (2.52)
.117 (2.96)
.100 (2.56)
.048 (1.22)
.032 (.82)
.033 (.85)
.026 (.66)
.189 (4.8)
.173 (4.4)
.034 (.86)
.026 (.66)
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DS300000
SUBMINIATURE T-3/4 LED
DIFFUSED and CLEAR LAMPS
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE
TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT
ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT
DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE
RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD
SEMICONDUCTOR CORPORATION. As used herein:
1. Life support devices or systems are devices or
systems which, (a) are intended for surgical
implant into the body,or (b) support or sustain life,
and (c) whose failure to perform when properly
used in accordance with instructions for use provided
in labeling, can be reasonably expected to result in a
significant injury of the user.
2. A critical component in any component of a life support
device or system whose failure to perform can be
reasonably expected to cause the failure of the life
support device or system, or to affect its safety or
effectiveness.
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