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HLMP-1521-EG4A1

SINGLE COLOR LED

器件类别:光电子/LED    光电   

厂商名称:AVAGO

厂商官网:http://www.avagotech.com/

器件标准:  

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器件参数
参数名称
属性值
是否无铅
不含铅
是否Rohs认证
符合
Objectid
1389784178
Reach Compliance Code
compliant
YTEOL
7.7
颜色
GREEN
配置
SINGLE
最大正向电流
0.03 A
JESD-609代码
e3
透镜类型
TINTED NONDIFFUSED
标称发光强度
22.0 mcd
安装特点
RADIAL MOUNT
功能数量
1
端子数量
2
最高工作温度
100 °C
最低工作温度
-20 °C
光电设备类型
SINGLE COLOR LED
总高度
4.7 mm
包装方法
BAG
峰值波长
565 nm
形状
ROUND
尺寸
3 mm
表面贴装
NO
T代码
T-1
端子面层
MATTE TIN
端子节距
2.79 mm
视角
45 deg
文档预览
HLMP-132x Series, HLMP-142x Series,
HLMP-152x Series
T-1 (3 mm) High Intensity LED Lamps
Data Sheet
Description
This family of T-1 lamps is specially designed for applica-
tions requiring higher on-axis intensity than is achiev-
able with a standard lamp. The light generated is focused
to a narrow beam to achieve this effect.
Features
High intensity
Choice of 3 bright colors
High Efficiency Red
Yellow
High Performance Green
Popular T-1 diameter package
Selected minimum intensities
Narrow viewing angle
General purpose leads
Reliable and rugged
Available on tape and reel
For more information, please refer to Tape and Reel
Option data sheet
Package Dimensions
Ø
3.17 (.125)
2.67 (.105)
3.43 (.135)
2.92 (.115)
4.70 (.185)
4.19 (.165)
1.14 (.045)
0.51 (.020)
6.35 (.250)
5.58 (.220)
Selection Guide
Package
Description
Tinted,
Non-diffused
Microtinted,
Non-diffused
Tinted,
Non-diffused
Microtinted,
Non-diffused
Tinted,
Non-diffused
Luminous Intensity
Iv (mcd) @ 10 mA
Color
High Efficiency
Red
0.65 (0.026) max.
Part Number
HLMP-1321
HLMP-1321-G00xx
24.1(.95) min.
Min.
8.6
8.6
9.2
Max.
HLMP-1420
HLMP-1421
Yellow
9.2
9.2
6.7
1.52 (.060)
1.02 (.040)
HLMP-1421-F00xx
HLMP-1520
HLMP-1521
Green
6.7
6.7
(0.022) 0.55 SQ. TYP.
(0.016) 0.40
HLMP-1521-E00xx
2.79 (.110)
2.29 (.090)
Notes:
1. All dimensions are in millimeters (inches).
2. An epoxy meniscus may extend about 1 mm (0.40") down the leads.
3. For PCB hole recommendations, see the Precautions section.
Part Numbering System
HLMP - 1 x xx - x x x xx
Mechanical Option
00: Bulk
01: Tape & Reel, Crimped Leads
02: Tape & Reel, Straight Leads
A1: Right Angle Housing, Uneven Leads
A2: Right Angle Housing, Even Leads
Color Bin Options
0: Full Color Bin Distribution
Maximum Iv Bin Options
0: Open (no max. limit)
Others: Please refer to the Iv Bin Table
Minimum Iv Bin Options
Please refer to the Iv Bin Table
Lens Options
20: Untinted or Microtinted, Non-diffused
21: Tinted, Non-diffused
Color Options
3: GaP HER
4: GaP Yellow
5: GaP Green
Package Options
1: T-1 (3 mm)
Absolute Maximum Ratings at T
A
= 25°C
Parameter
Peak Forward Current
Average Forward Current
[1]
DC Current
[2]
Power Dissipation
[3]
Reverse Voltage (I
R
= 100 µA)
Transient Forward Current
[4]
(10 µsec Pulse)
LED Junction Temperature
Operating Temperature Range
Storage Temperature Range
Red
90
25
30
135
5
500
110
-40 to +100
-40 to +100
Yellow
60
20
20
85
5
500
110
-40 to +100
-40 to +100
Green
90
25
30
135
5
500
110
-20 to +100
-40 to +100
Units
mA
mA
mA
mW
V
mA
°C
°C
Notes:
1. See Figure 5 (Red), 10 (Yellow), or 15 (Green) to establish pulsed operating conditions.
2. For Red and Green series derate linearly from 50°C at 0.5 mA/°C. For Yellow series derate linearly from 50°C at 0.2 mA/°C.
3. For Red and Green series derate power linearly from 25°C at 1.8 mW/°C. For Yellow series derate power linearly from 50°C at 1.6 mW/°C.
4. The transient peak current is the maximum non-recurring peak current that can be applied to the device without damaging the LED die
and wirebond. It is not recommended that the device be operated at peak currents beyond the peak forward current listed in the Absolute
Maximum Ratings.
2
Electrical Characteristics at T
A
= 25°C
Device
Symbol
I
V
Description
Luminous Intensity
HLMP-
1320
1321
1420
1421
1520
1521
Min.
8.6
8.6
9.2
9.2
6.7
6.7
Typ.
30
30
15
15
22
22
45
Max.
Units
mcd
mcd
mcd
Deg.
Test Conditions
I
F
= 10 mA
(Figure 3)
I
F
= 10 mA
(Figure 8)
I
F
= 10 mA
(Figure 3)
I
F
= 10 mA
See Note 1
(Figures 6, 11, 16, 21)
Measurement
at Peak (Figure 1)
2q
1
/
2
Including Angle Between
Half Luminous Intensity
Points
Peak Wavelength
All
l
PEAK
132x
142X
152X
635
583
565
40
36
28
626
585
569
90
90
500
11
15
18
290
1.9
2.0
2.1
5.0
145
500
595
2.4
2.4
2.7
nm
Dl
1/2
Spectral Line Halfwidth
132x
142X
152X
nm
l
d
Dominant Wavelength
132x
142X
152X
nm
See Note 2 (Figure 1)
t
s
Speed of Response
132x
142X
152X
ns
C
Capacitance
132x
142X
152X
pF
V
F
= 0; f = 1 MHz
Rq
J-PIN
V
F
Thermal Resistance
Forward Voltage
All
132x
142X
152X
°C/W
V
Junction to
Cathode Lead
I
F
= 10 mA
V
R
h
V
Reverse Breakdown Voltage
Luminous Efficacy
All
132x
142X
152X
V
lumens
watt
I
R
= 100 µA
See Note 3
Notes:
1.
q
1
/
2
is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
2. The dominant wavelength,
l
d
, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of
the device.
3. Radiant intensity, I
e
, in watts/steradian, may be found from the equation I
e
= l
v
/h
v
, where l
v
is the luminous intensity in candelas and
h
v
is the
luminous efficacy in lumens/watt.
3
Figure 1. Relative intensity vs. wavelength.
T-1 High Efficiency Red Non-Diffused
90
80
I
F
– FORWARD CURRENT – mA
I
F
– FORWARD CURRENT – mA
70
60
50
40
30
20
10
90
80
I
F
– FORWARD CURRENT – mA
70
60
50
40
30
20
10
90
80
70
60
50
40
30
20
10
5.0
4.0
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10mA)
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10mA)
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
4.0
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10mA)
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
4.0
3.5
I
PEAK
– RELATIVE EFFICIENCY
3.0
2.5
2.0
1.5
1.0
0.5
0
010
5
1015
5
10
15
20
20
15
25
20
25
30
30
25
30
1.6
1.5
I
PEAK
– RELATIVE EFFICIENCY
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
0
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
I
PEAK
– RELATIVE EFFICIENCY
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
90
0
0
0
1.0 1.0 2.0 1.0 3.0 2.03.0 4.0 3.04.0 5.0 4.05.0
2.0
V
F
– FORWARD
F
VOLTAGE – V VOLTAGE – V
V
F
– FORWARD VOLTAGE – V
V – FORWARD
0
05
0.7
0.7
10 20 030 1040 20 40 30 50 4060 50 70 60 80 7090 80
0 10 20 30 50 60 70 80 90
I
PEAK
CURRENT PER mA
I
PEAK
PEAK
– PEAK – PEAK CURRENT PER LED – mA
I PEAK CURRENT PER LED – LED – mA
I
DC
– DC CURRENT DC CURRENT PER LED – mA
I
DC
– DC
DC
– PER LED – LED – mA
I CURRENT PER mA
Figure 2. Forward current vs. forward voltage
characteristics.
Figure 3. Relative luminous intensity vs. DC
forward current.
Figure 4. Relative efficiency (luminous intensity
per unit current) vs. peak LED current.
6
RATIO OF MAXIMUM
TOLERABLE PEAK CURRENT
TORATIO OF MAXIMUM
MAXIMUM TOLERABLE
TOLERABLE PEAK CURRENT
DC CURRENT
TO MAXIMUM TOLERABLE
DC CURRENT
5
4
3
6
5
4
3
20° 20°
30° 30°
40° 40°
50° 50°
10° 10° 0° 1.0 1.0
.8 .8
.6 .6
60° 60°
2
70° 70°
80° 80°
90° 90°
Hz
100
Hz
100 Hz
300
Hz
300 z
1 KH
z
1 KHz
3 KH
z
3 KH z
H
10 K
Hz
10 K
z
30 KH
z
30 KH
z
H
100 K
2
.4 .4
I
PEAK
MAX.
I
DC
MAX.
I
PEAK
MAX.
I
DC
MAX.
.2 .2
NON-DIFFUSED
NON-DIFFUSED
0° 0° 20° 20° 40° 40° 60° 60° 80° 80° 100°100°
1 1
1.0 1.0
Figure 5. Maximum tolerable peak current vs.
pulse duration. (I
DC
MAX as per MAX ratings).
Hz
100 K
Hz
300 K
Hz
300 K
10 10
100 100
1,000
1,000 10,000
10,000
t
p
– PULSE DURATION – µs– µs
t
p
– PULSE DURATION
Figure 6. Relative luminous intensity vs. angular displacement.
4
T-1 Yellow Non-Diffused
60
I
F
– FORWARD CURRENT – mA
I
F
– FORWARD CURRENT – mA
50
40
30
20
10
60 60
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10 mA)
I
F
– FORWARD CURRENT – mA
50 50
40 40
30 30
20 20
10 10
2.5
2.5 2.5
RELATIVE LUMINOUS EFFICIENCY
(NORMALIZED AT 10 mA DC)
T = 25° T =T = 25°
A
A
A 25°
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
1.6 1.6
1.5 1.5
1.4 1.4
1.3 1.3
1.2 1.2
1.1 1.1
1.0 1.0
0.9 0.9
0.8 0.8
0.7 0.7
100 020 1030 2040 30 40 40 60 50 60 60
50
10
20
30
50
I
PEAK
– PEAK I
PEAK
– PEAKmA – mA mA
I
PEAK
CURRENT – CURRENT –
– PEAK CURRENT
2.0
2.0 2.0
1.5 1.5
1.0 1.0
0.5 0.5
0
0 50
1.5
1.0
0.5
0
1.0
0 0
1.5 1.0 1.5 1.5 2.0 2.03.0 2.5 3.0 3.0 3.5 3.5 4.0 4.0
2.5
3.5
4.0
1.0 2.0
2.5
V
F
– FORWARD VOLTAGEVOLTAGE – V – V
V
F
– V
F
– FORWARD VOLTAGE
FORWARD – V
0
0
0
5 10 5
10 1510
15
15 20
20 20
I
F
– FORWARD CURRENT –
I
F
– FORWARD CURRENT – mA – mA mA
I
F
– FORWARD CURRENT
Figure 7. Forward current vs. forward voltage
characteristics.
Figure 8. Relative luminous intensity vs.
forward current.
Figure 9. Relative efficiency (luminous intensity
per unit current) vs. peak current.
RATIO OF MAXIMUM
TOLERABLEMAXIMUM
RATIO OF PEAK CURRNT
TO MAXIMUM TOLERABLE
TOLERABLE PEAK CURRNT
DC CURRENT
TO MAXIMUM TOLERABLE
DC CURRENT
6 6
5 5
4 4
3 3
40° 40°
50° 50°
60° 60°
70° 70°
80° 80°
90° 90°
30° 30°
20° 20°
10° 10° 0° 1.0
1.0
.8 .8
.6 .6
.4 .4
.2 .2
NON-DIFFUSED
NON-DIFFUSED
0° 0° 20° 20° 40° 40° 60° 60° 80° 80° 100°
100°
2 2
Hz
100
Hz
100 Hz
300
Hz
300 z
1 KH
Hz
1 KKHz
3
z
3 KH z
H
10 K
Hz
10 K
KHz
30
z
30 KH
z
H
100 K
Hz
100 K
Hz
300 K
Hz
300 K
I
PEAK
MAX.
I
PEAK
MAX.
I
DC
I
DC
MAX.
1 1
1.0 1.0
10 10
100100 1,000
1,000
t
p
–tPULSE DURATION – µs µs
– PULSE DURATION –
p
10,000
10,000
Figure 10. Maximum tolerable peak current vs.
pulse duration. (I
DC
MAX as per MAX ratings).
Figure 11. Relative luminous intensity vs. angular displacement.
5
RELATIVE LUMINOUS EFFICIENCY
(NORMALIZED AT 10 mA DC)
RELATIVE LUMINOUS EFFICIENCY
(NORMALIZED AT 10 mA DC)
0
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10 mA)
RELATIVE LUMINOUS INTENSITY
(NORMALIZED AT 10 mA)
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