HDSP-4501-JJ000 [AGILENT]
Large 5 X 7 Dot Matrix Alphanumeric Displays 17.3/26.5 mm Character Heights; 大5× 7点阵字符显示17.3 / 26.5毫米字符高度型号: | HDSP-4501-JJ000 |
厂家: | AGILENT TECHNOLOGIES, LTD. |
描述: | Large 5 X 7 Dot Matrix Alphanumeric Displays 17.3/26.5 mm Character Heights |
文件: | 总8页 (文件大小:93K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Large 5 X 7 Dot Matrix
Alphanumeric Displays
17.3/26.5 mm Character Heights
Technical Data
HDSP-450x Series
HDSP-510x Series
HDSP-M10x Series
Features
• Categorized for Intensity
• Mechanically Rugged
• Green Categorized for Color
• Multiple Colors Available
• Large Character Height
• 5 X 7 Dot Matrix Font
• Viewable Up to 18 Meters
(26.5 mm Display)
• X-Y Stackable
Description
The large 5 X 7 dot matrix alpha-
numeric display family consists of
26.5 mm (1.04 inch) and 17.3
mm (0.68 inch) character height
packages. These devices have
excellent viewability; the 26.5
mm character can be read at up
to 18 meters (12 meters for the
0.68 inch part).
• Ideal for Graphics Panels
• Available in Common Row
Anode and Common Row
Cathode Configurations
• AlGaAs Displays Suitable for
Low Power or Bright
Ambients
Applications include electronic
instrumentation, computer
peripherals, point of sale termi-
nals, weighing scales, and indus-
trial electronics.
Typical Intensity 1650 mcd
at 2 mA Average Drive
Current
The 26.5 mm font has a 10.2 mm
(0.4 inch) dual-in-line (DIP) con-
figuration, while the 17.3 mm font
has an industry standard 7.6 mm
(0.3 inch) DIP configuration.
Devices
High
Efficiency
Red
High
Performance
Green
AlGaAs
Red
Description
HDSP-M101
HDSP-M103
HDSP-4501
HDSP-4503
HDSP-5101
HDSP-5103
26.5 mm Common Row Anode
26.5 mm Common Row Cathode
2
Part Numbering System
HDSP - X X X X
Device Configuration/Color[1]
1: Common Row Anode
3: Common Row Cathode
Character Height/Device Configuration[1]
Refer to Respective Datasheet
Package Configuration[1]
1: 1.04 inch Character Height (for HDSP-5xxx only)
4: 0.68 inch Character Height (for HDSP-5xxx only)
5: 5 x 7 Dot Matrix
Package Type/Color[1]
5: 5 x 7 Dot Matrix
L: 17.3 mm (0.68 inch) 5 x 7 Dot Matrix
M: 26.5 mm (1.04 inch) 5 x 7 Dot Matrix
Notes:
1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest
Agilent representative for details.
2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typically restricted to 1
bin per tube (exceptions may apply). Please refer to respective datasheet for specific bin limit information.
3
Package Dimensions
HDSP-M10x/450x/510x Series
FUNCTION
HDSP-M101/
-4501/-5101
HDSP-M103/
-4503/-5103
PIN
1
2
COLUMN 1 CATHODE
NO PIN
ROW 1 CATHODE
NO PIN
3
4
5
ROW 3 ANODE
COLUMN 2 CATHODE
NO PIN
COLUMN 3 ANODE
ROW 3 CATHODE
NO PIN
6
7
ROW 5 ANODE
NO PIN
COLUMN 1 ANODE
NO PIN
8
9
ROW 6 ANODE
ROW 7 ANODE
COLUMN 3 CATHODE
COLUMN 5 CATHODE
NO PIN
ROW 4 ANODE
NO PIN
COLUMN 4 CATHODE
ROW 2 ANODE
NO PIN
COLUMN 2 ANODE
ROW 7 CATHODE
ROW 6 CATHODE
COLUMN 4 ANODE
NO PIN
ROW 5 CATHODE
NO PIN
ROW 4 CATHODE
ROW 2 CATHODE
NO PIN
10
11
12
13
14
15
16
17
18
ROW 1 ANODE
COLUMN 5 ANODE
4
Internal Circuit Diagrams
HDSP-M101/4501/5101
COMMON ANODE ROW
HDSP-M103/4503/5103
COMMON CATHODE ROW
Absolute Maximum Ratings at 25°C
Description
HDSP-M10X Series HDSP-450X Series HDSP-510X Series
Average Power per Dot
75 mW
(TA = 25°C)[1]
Peak Forward Current per Dot
125 mA
23 mA
90 mA
15 mA
90 mA
15 mA
(TA = 25°C)[1,2]
Average Forward Current per Dot
(TA = 25°C)[1,3]
Operating Temperature Range
Storage Temperature Range
–20°C to +85°C
–40°C to +85°C
–40°C to +85°C
250°C for 3 s
–20°C to +85°C
Wave Soldering Temperature
(1.59 mm [0.062 in.] below Body)
Notes:
1. Average power is based on 20 dots per character. Total package power dissipation should not exceed 1.5 W.
2. Do not exceed maximum average current per dot.
3. For the HDSP-L10X/M10X series displays, derate maximum average current above 35°C at 0.31 mA/°C. For the HDSP-L20X/450X
series and HDSP-540X/510X series displays, derate maximum average current above 35°C at 0.2 mA/°C. This derating is based on a
device mounted in a socket having a thermal resistance junction to ambient of 50°C/W per package.
5
Electrical/Optical Characteristics at TA = 25°C
AlGaAs Red HDSP-M10x Series
Description
Symbol
Test Conditions
10 mA pk: 1 of 5
Duty Factor (2 mA Avg.)
Min. Typ. Max. Units
Luminous Intensity/Dot[4]
(Digit Average)
IV
HDSP-L10x (17.3 mm)
HDSP-M10x (26.5 mm)
730 1650
760 1850
µcd
Luminous Intensity/Dot[4]
(Digit Average)
HDSP-L10x
30 mA pk: 1 of 14
Duty Factor (2.1 mA Avg.)
IV
1750
1980
µcd
HDSP-M10x
Peak Wavelength
λPEAK
λd
645
637
1.7
nm
nm
V
Dominant Wavelength[5]
Forward Voltage
VF
IF = 10 mA
2.1
Reverse Voltage[6]
VR
IR = 100 µA
3.0
15.0
-2.0
V
Temperature Coefficient of VF
∆VF/°C
mV/°C
Thermal Resistance LED
Junction-to-Pin per package
HDSP-L10x
RθJ-PIN
20
18
°C/W/
PACK
HDSP-M10x
High Efficiency Red HDSP-450x Series
Description
Symbol
IV
Test Conditions
Min. Typ. Max. Units
Luminous Intensity/Dot[4]
(Digit Average)
50 mA pk: 1 of 5
Duty Factor (10 mA Avg.)
HDSP-L20x (17.3 mm)
HDSP-450x (26.5 mm)
1150 2800
1400 3500
µcd
Luminous Intensity/Dot[4]
(Digit Average)
HDSP-L20x
30 mA pk: 1 of 14
Duty Factor (2.1 mA Avg.)
IV
740
µcd
930
HDSP-450x
Peak Wavelength
λPEAK
λd
635
626
2.6
nm
nm
V
Dominant Wavelength[5]
Forward Voltage
VF
IF = 50 mA
3.5
Reverse Voltage[6]
VR
IR = 100 µA
3.0
25.0
-2.0
V
Temperature Coefficient of VF
∆VF/°C
mV/°C
Thermal Resistance LED
Junction-to-Pin per package
HDSP-L20x
RθJ-PIN
15
13
°C/W/
PACK
HDSP-450x
6
High Performance Green HDSP-510x Series
Description
Symbol
Test Conditions
50 mA pk: 1 of 5
Min. Typ. Max. Units
Luminous Intensity/Dot[4]
(Digit Average)
IV
Duty Factor (10 mA Avg.)
HDSP-540x (17.3 mm)
HDSP-510x (26.5 mm)
1290 4000
1540 4500
µcd
Luminous Intensity/Dot[4]
(Digit Average)
HDSP-540x
30 mA pk: 1 of 14
Duty Factor (2.1 mA Avg.)
IV
570
630
µcd
HDSP-510x
Peak Wavelength
λPEAK
λd
566
571
2.6
nm
nm
V
Dominant Wavelength[5,7]
Forward Voltage
VF
IF = 50 mA
3.5
Reverse Voltage[6]
VR
IR = 100 µA
3.0
25.0
-2.0
V
Temperature Coefficient of VF
∆VF/°C
mV/°C
Thermal Resistance LED
Junction-to-Pin per package
HDSP-540x
RθJ-PIN
15
13
°C/W/
PACK
HDSP-510x
Notes:
4. The displays are categorized for luminous intensity with the intensity category designated by a letter on the left hand side of the
package. The luminous intensity minimum and categories are determined by computing the numerical average of the individual dot
intensities.
5. The dominant wavelength is derived from the C.I.E. Chromaticity diagram and is that single wavelength which defines the color of the
device.
6. Typical specification for reference only. Do not exceed absolute maximum ratings.
7. The displays are categorized for dominant wavelength with the category designated by a number adjacent to the intensity category
letter.
50
40
30
20
1.4
1.2
1.0
0.8
0.6
0.4
0.2
140
120
100
80
Rθ
= 50°C/W/PACK
J-A
AlGaAs RED
AlGaAs RED
AlGaAs RED
HER/GREEN
60
GREEN
HER
40
HER/GREEN
10
0
20
0
-5
15
35
55
75
95
0
0.5
1.0
V – FORWARD VOLTAGE – V
F
1.5
2.0
2.5
3.0
3.5
0
20
40
60
80
100
120
I
– PEAK DOT CURRENT – mA
T
– AMBIENT TEMPERATURE – °C
PEAK
A
Figure 1. Maximum Allowable Average
Current Per Dot as a Function of
Ambient Temperature.
Figure 2. Forward Current vs. Forward
Voltage.
Figure 3. Relative Efficiency
(Luminous Intensity per Unit Dot) vs.
Peak Current per Dot.
7
Intensity Bin Limits (mcd)
HDSP-510x
Min.
HDSP-M10x
IV Bin Category
Max.
1.88
2.82
4.23
6.34
9.50
14.26
IV Bin Category
Min.
0.810
1.20
1.80
2.73
4.09
Max.
1.50
2.20
3.30
5.00
7.50
G
H
I
J
K
L
1.03
1.54
2.31
3.46
5.18
7.78
E
F
G
H
I
HDSP-450x
Min.
IV Bin Category
Max.
2.51
3.76
5.64
8.64
Color Categories
F
G
H
I
J
K
1.37
2.05
3.08
4.62
6.93
10.39
Dominant Wavelength (nm)
Color
Green
Bin
2
Min.
Max.
573.00
570.00
567.00
564.00
577.00
574.00
571.00
568.00
3
4
5
12.70
19.04
Note:
All categories are established for classification of products. Products
may not be available in all categories. Please contact your local
Agilent representatives for further clarification/information.
Operational Considerations
Electrical Description
These display devices are com-
posed of light emitting diodes, with
the light from each LED optically
stretched to form individual dots.
IPEAK = 125 mA
IFAVG = 10 mA
RθJ-A = 50°C/W
N = 35
IVAVG is the calculated time
averaged luminous intensity
resulting from IFAVG.
TJMAX = 110°C
For example, what is the luminous
intensity of an AlGaAs Red (HDSP-
L10X) driven at 50 mA peak 1/5
duty factor?
VFMAX = 2.0 V + (0.125 A)(10)
= 3.25 V
PD = (3.25 V)(0.01 A)
= 0.0325 W
These display devices are well
suited for strobed operation. The
typical forward voltage values can
be scaled from Figure 2. These
values should be used to calculate
the current limiting resistor value
and the typical power dissipation.
Expected maximum VF values, for
driver circuit design and maximum
power dissipation, may be
IFAVG = 50 mA * 0.2 = 10 mA
IFAVG DATA SHEET = 2 mA
ηPEAK = 0.98
TA = 110°C –
(50°C/W)(0.0325 W)(35)
= 53°C
IV DATA SHEET = 1650 µcd
The maximum number of dots ON
for the ASCII character set is 20.
What is the maximum ambient
temperature an HDSP-L10X can
operate with the following
conditions:
Therefore
IVAVG = (10 mA/2 mA)(0.98)
calculated using the following
VFMAX models:
(1650 µcd) = 8085 µcd
IPEAK = 125 mA
IFAVG = 10 mA
RθJ-A = 50°C/W
N = 20
Thermal Considerations
The device thermal resistance may
be used to calculate the junction
temperature of the central LED.
The equation below calculates the
junction temperature of the central
(hottest) LED.
AlGaAs Red
(HDSP-M10x):
VFMAX = 1.8 V + IPEAK(20 Ω)
For IPEAK ≤ 20 mA
VFMAX = 2.0 V + IPEAK(10 Ω)
For IPEAK ≥ 20 mA
TJMAX = 110°C
VFMAX = 3.25 V
PD = 0.0325 W
HER (HDSP-450x):
VFMAX = 1.75 V + IPEAK(35 Ω)
For IPEAK ≥ 5 mA
Green (HDSP-510x):
VFMAX = 1.75 V + IPEAK(38 Ω)
For IPEAK ≥ 5 mA
TA = 110°C –
TJ = TA + (PD)(RθJ-A)(N)
PD = (VFMAX)(IFAVG)
RθJ-A = RθJ-PIN+ RθPIN-A
(50°C/W)(0.0325 W)(20)
= 77°C
Therefore, the maximum ambient
temperature can be increased by
reducing the average number of
dots ON from 35 to 20 dots ON per
display.
TJ is the junction temperature of
the central LED.
TA is the ambient temperature.
PD is the power dissipated by one
LED.
Figure 3 allows the designer to
calculate the luminous intensity at
different peak and average
currents. The following equation
calculates intensity at different
peak and average currents:
Contrast Enhancement
For information on contrast
enhancement, please see
Application Note 1015.
N is the number of LEDs ON per
character.
VFMAX is calculated using the
appropriate VF model.
RθJ-A is the package thermal
resistance from the central LED
to the ambient.
RθJ-PIN is the package thermal
resistance from the central LED
to pin.
IVAVG = (IFAVG/IFAVG DATA
SHEET)(ηPEAK)(IV DATA SHEET)
Soldering/Cleaning
For Soldering/Cleaning information
on soldering LEDs, please refer to
Application Note 1027.
Where:
IFAVG is the desired time averaged
LED current.
IFAVG DATA SHEET is the time
averaged data sheet test current
for IVDATA SHEET.
ηPEAK is the relative efficiency at
the peak current, scaled from
Figure 3.
IV DATA SHEET is the time
averaged data sheet luminous
intensity, resulting from IFAVG
DATA SHEET.
RθPIN-A is the package thermal
resistance from the pin to the
ambient.
For product information and a complete list of
Agilent contacts and distributors, please go to
our web site.
www.agilent.com/semiconductors
E-mail: SemiconductorSupport@agilent.com
For example, what is the maximum
ambient temperature an HDSP-
L10X can operate with the
following conditions:
Data subject to change.
Copyright © 2004 Agilent Technologies, Inc.
Obsoletes 5988-2224EN
July 8, 2004
5988-5215EN
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