Four Character 5.0 mm
(0.2 inch) Smart
5 x 7 Alphanumeric Displays
Technical Data
Description
These are 5.0 mm (0.2 inch) four
character 5 x 7 dot matrix
displays driven by an on-board
CMOS IC. These displays are pin
for pin compatible with the
HPDL-2416. The IC stores and
decodes 7 bit ASCII data and
displays it using a 5 x 7 font.
Multiplexing circuitry, and
drivers are also part of the IC.
The IC has fast setup and hold
times which makes it easy to
interface to a microprocessor.
Features
• Enhanced Drop-in Replace-
ment to HPDL-2416
Smart Alphanumeric
Display
Built-in RAM, ASCII Decoder,
and LED Drive Circuitry
CMOS IC for Low Power
Consumption
Software Controlled
Dimming Levels and Blank
128 ASCII Character Set
End-Stackable
Categorized for Luminous
Intensity; Yellow and
Green Categorized for
Color
Low Power and Sunlight
Viewable AlGaAs Versions
Wide Operating
Temperature Range
-40°C to +85°C
Excellent ESD Protection
Wave Solderable
Wide Viewing Angle
(50° typ)
Devices:
Standard Red AlGaAs Red High Efficiency Red Orange Yellow Green
HDLR-2416 HDLS-2416 HDLO-2416 HDLA-2416 HDLY-2416 HDLG-2416
HDLU-2416
Absolute Maximum Ratings
Supply Voltage, VDD to Ground[1] ..................................... -0.5 V to 7.0 V
Input Voltage, Any Pin to Ground.......................... -0.5 V to VDD + 0.5 V
Free Air Operating Temperature Range, TA................ -40°C to +85°C
Storage Temperature, TS........................................ -40°C to 100°C
CMOS IC Junction Temperature, TJ (IC) ................................... +150°C
Relative Humidity (non-condensing) at 65°C ................................... 85%
Maximum Solder Temperature, 1.59 mm
(0.063 in.) below Seating Plane, t < 5 sec. ............................... 260°C
ESD Protection, R = 1.5 k, C = 100 pF ............. VZ = 2 kV (each pin)
Note:
1. Maximum Voltage is with no LEDs illuminated.
HDLX-2416 Series
ESD WARNING: STANDARD CMOS HANDLING PRECAUTIONS SHOULD BE OBSERVED WITH
THE HDLX-2416
2
The address and data inputs can
be directly connected to the
microprocessor address and data
buses.
The HDLX-2416 has several
enhancements over the HPDL-
2416. These features include an
expanded character set, internal 8
level dimming control, external
dimming capability, and individ-
ual digit blanking. Finally, the
extended functions can be
disabled which allows the HDLX-
2416 to operate exactly like an
HPDL-2416 by disabling all of the
enhancements except the ex-
panded character set.
The difference between the
sunlight viewable HDLS-2416 and
the low power HDLU-2416 occurs
at power-on or at the default
brightness level. Following power
up, the HDLS-2416 operates at
the 100% brightness level, while
Pin Pin
No. Function No. Function
1CE
1
Chip Enable 10 GND
2CE
2
Chip Enable 11 D0 Data Input
3 CLR Clear 12 D1 Data Input
4 CUE Cursor Enable 13 D2 Data Input
5 CU Cursor Select 14 D3 Data Input
6 WR Write 15 D6 Data Input
7A
1
Address Input 16 D5 Data Input
8A
0
Address Input 17 D4 Data Input
9V
DD 18 BL Display Blank
Notes:
1. Unless otherwise specified, the tolerance
on all dimensions is ±0.254 mm (±0.010")
2. All dimensions are in mm/inches.
3. For yellow and green displays only.
Package Dimensions
the HDLU-2416 operates at the
27% brightness level. Power on
sets the internal brightness
control (bits 3-5) in the control
register to binary code (000). For
the HDLS-2416 binary code (000)
corresponds to a 100% brightness
level, and for the HDLU-2416
binary code (000) corresponds to
a 27% brightness level. The other
seven brightness levels are
identical for both parts.
3
Character Set
NOTES: 1 = HIGH LEVEL
0 = LOW LEVEL
4
Recommended Operating Conditions
Parameter Symbol Min. Typ. Max. Unit
Supply Voltage VDD 4.5 5.0 5.5 V
Electrical Characteristics over Operating Temperature Range
4.5 < VDD < 5.5 V (unless otherwise specified)
All Devices
25°C[1]
Parameter Symbol Min. Typ. Max. Max. Units Test Conditions
IDD Blank IDD (blnk) 1.0 4.0 mA All Digits Blanked
Input Current II-40 10 µAV
IN = 0 V to VDD
VDD = 5.0 V
Input Voltage High VIH 2.0 VDD V
Input Voltage Low VIL GND 0.8 V
HDLO/HDLA/HDLY/HDLG-2416
25°C[1]
Parameter Symbol Min. Typ. Max. Max. Units Test Conditions
IDD 4 digits IDD(#) 110 130 160 mA "#" ON in all four
20 dots/character[2, 3] locations
IDD Cursor all IDD (CU) 92 110 135 mA Cursor ON in all
dots ON @ 50% four locations
Notes:
1. VDD = 5.0 V
2. Average IDD measured at full brightness. Peak IDD = 28/15 x Average IDD(#).
3. IDD(#) max. = 130 mA for HDLO/HDLA/HDLY/HDLG-2416, 146 mA for HDLR/HDLS-2416, and 42 mA for HDLU-2416 at default
brightness, 150°C IC junction temperature and VDD = 5.5 V.
HDLS/HDLU-2416
25°C[1]
Part Number Parameter Symbol Typ. Max. Max. Units Test Conditions
HDLS-2416 IDD 4 digits IDD(#) 125 146 180 mA Four "#" ON in
20 dots/character[2,3] all four locations
HDLU-2416 34 42 52
HDLS-2416 IDD Cursor all dots IDD(CU) 105 124 154 mA Four cursors ON
ON @ 50% in all four locations
HDLU-2416 29 36 45
HDLR-2416
25°C[1]
Parameter Symbol Min. Typ. Max. Max. Units Test Conditions
IDD 4 digits IDD (#) 125 146 180 mA "#" ON in all four
20 dots/character[2,3] locations
IDD Cursor IDD(CU) 105 124 154 mA Cursor ON in all
all dots ON @ 50% four locations
5
Optical Characteristics at 25°C[1]
VDD = 5.0 V at Full Brightness
HDLR-2416
Parameter Symbol Min. Typ. Units Test Conditions
Average Luminous IV0.5 1.1 mcd ''*'' illuminated in all four digits.
Intensity per digit, 19 dots ON
Character Average
Peak Wavelength λPEAK 655 nm
Dominant Wavelength[2] λd640 nm
HDLS/HDLU-2416
Part Number Parameter Symbol Min. Typ. Units Test Conditions
HDLS-2416 Average Luminous IV4.0 12.7 mcd ''*'' illuminated in all
Intensity per digit, four digits, 19 dots ON
HDLU-2416 Character Average 1.2 3.1 mcd per digit.
All Peak Wavelength λPEAK 645 nm
Dominant Wavelength[2] λd637 nm
HDLO-2416
Parameter Symbol Min. Typ. Units Test Conditions
Average Luminous IV1.2 3.5 mcd ''*'' illuminated in all four digits.
Intensity per digit, 19 dots ON
Character Average
Peak Wavelength λPEAK 635 nm
Dominant Wavelength[2] λd626 nm
HDLA-2416
Parameter Symbol Min. Typ. Units Test Conditions
Average Luminous IV1.2 3.5 mcd ''*'' illuminated in all four digits.
Intensity per digit, 19 dots ON
Character Average
Peak Wavelength λPEAK 600 nm
Dominant Wavelength[2] λd602 nm
HDLY-2416
Parameter Symbol Min. Typ. Units Test Conditions
Average Luminous IV1.2 3.7 mcd ''*'' illuminated in all four digits.
Intensity per digit, 19 dots ON
Character Average
Peak Wavelength λPEAK 583 nm
Dominant Wavelength[2] λd585 nm
6
HDLG-2416
Parameter Symbol Min. Typ. Units Test Conditions
Average Luminous IV1.2 5.6 mcd ''*'' illuminated in all four digits.
Intensity per digit, 19 dots ON
Character Average
Peak Wavelength λPEAK 568 nm
Dominant Wavelength[2] λd574 nm
Notes:
1. Refers to the initial case temperature of the device immediately prior to the light measurement.
2. Dominant wavelength, λd, is derived from the CIE chromaticity diagram, and represents the single wavelength which defines
the color of the device.
AC Timing Characteristics over Operating
Temperature Range at V
DD = 4.5 V
Parameter Symbol Min Units
Address Setup tAS 10 ns
Address Hold tAH 40 ns
Data Setup tDS 50 ns
Data Hold tDH 40 ns
Chip Enable Setup tCES 0ns
Chip Enable Hold tCEH 0ns
Write Time tW75 ns
Clear tCLR 10 µs
Clear Disable tCLRD 1µs
Timing Diagram Enlarged Character Font
Notes:
1. Unless otherwise specified the
tolerance on all dimensions is ±0.254
mm (0.010")
2. Dimensions are in mm (inches).
7
Display Internal Block
Diagram
Figure 1 shows the HDLX-2416
display internal block diagram.
The CMOS IC consists of a 4 x 7
Character RAM, a 2 x 4 Attribute
RAM, a 5 bit Control Register, a
128 character ASCII decoder and
the refresh circuitry necessary to
synchronize the decoding and
driving of four 5 x 7 dot matrix
displays.
Four 7 bit ASCII words are stored
in the Character RAM. The IC
reads the ASCII data and decodes
it via the 128 character ASCII
decoder. The ASCII decoder
includes the 64 character set of
the HPDL-2416, 32 lower case
ASCII symbols, and 32 foreign
language symbols.
A 5 bit word is stored in the
Control Register. Three fields
within the Control Register
provide an 8 level brightness
control, master blank, and ex-
tended functions disable.
For each display digit location,
two bits are stored in the Attribute
RAM. One bit is used to enable a
cursor character at each digit
location. A second bit is used to
individually disable the blanking
features at each digit location.
The display is blanked and
dimmed through an internal
blanking input on the row drivers.
Logic within the IC allows the user
to dim the display either through
the BL input or through the
brightness control in the control
register. Similarly the display can
be blanked through the BL input,
the Master Blank in the Control
Register, or the Digit Blank
Disable in the Attribute RAM.
Electrical Description
Pin Function Description
Chip Enable CE1 and CE2 must be a logic 0 to write to the
(CE1 and CE2, display.
pins 1 and 2)
Clear When CLR is a logic 0 the ASCII RAM is reset
(CLR, pin 3) to 20hex (space) and the Control Register/
Attribute RAM is reset to 00hex.
Cursor Enable CUE determines whether the IC displays the
(CUE pin 4) ASCII or the Cursor memory. (1 = Cursor,
0 = ASCII).
Cursor Select CU determines whether data is stored in the
(CU, pin 5) ASCII RAM or the Attribute RAM/Control
Register. (1 = ASCII, 0 = Attribute
RAM/Control Register).
Write WR must be a logic 0 to store data in the
(WR, pin 6) display.
Address A0-A1 selects a specific location in the display
Inputs memory. Address 00 accesses the far right
(A1 and A0, display location. Address 11 accesses the far
pins 8 and 7) left location.
Data Inputs D0-D6 are used to specify the input data for the
(D0-D6, display.
pins 11-17)
VDD VDD is the positive power supply input.
(pin 9)
GND GND is the display ground.
(pin 10)
Blanking BL is used to flash the display, blank the
Input display or to dim the display.
(BL, pin 18)
8
Figure 1. Internal Block Diagram
9
CUE BL CLR CE1CE2WR CU A1A0D6D5D4D3D2D1D0Function
011 Display ASCII
111 Display Stored Cursor
XX XXXX X XXX X X X
XX0 Reset RAMs
Blank Display but do not reset
X01 RAMS and Control Register
Extended Intensity Master Digit Digit Write to Attribute RAM
0 0 0 Functions Control Blank Blank Cursor and Control Register
Disable Disable 0 0
0 = 000 = 100%* 0 = Digit Digit DBDn = 0, Allows Digit n to be
0 0 1 Enable 001 = 60% Display Blank Cursor blanked
D1-D5010 = 40% ON Disable 1 1
011 = 27% DBDn = 1 Prevents Digit n
X X 1 0 0 0 1 = 100 = 17% 1 = Digit Digit from being blanked.
0 1 0 Disable 101 = 10% Display Blank Cursor
D1-D5110 = 7% Blanked Disable 2 2 DCn = 0 Removes cursor from
111 = 3% Digit n
D0Digiit Digit
0 1 1 Always Blank Cursor DCn = 1 Stores cursor at
Enabled Disable 3 3 Digit n
1 0 0 Digit 0 ASCII Data (Right Most Character)
1 0 1 Digit 1 ASCII Data
XX1 000 Write to Character RAM
1 1 0 Digit 2 ASCII Data
1 1 1 Digit 3 ASCII Data (Left Most Character)
1X X
X X 1 X 1 X X X X X X X X X X X No Change
XX 1
Display Clear
Data stored in the Character
RAM, Control Register, and
Attribute RAM will be cleared if
the clear (CLR) is held low for a
minimum of 10 µs. Note that the
display will be cleared regardless
of the state of the chip enables
(CE1, CE2). After the display is
cleared, the ASCII code for a
space (20hex) is loaded into all
character RAM locations and
00hex is loaded into all Attribute
RAM/Control Register memory
locations.
Data Entry
Figure 2 shows a truth table for
the HDLX-2416 display. Setting
the chip enables (CE1, CE2) to
logic 0 and the cursor select (CU)
to logic 1 will enable ASCII data
loading. When cursor select (CU)
is set to logic 0, data will be
loaded into the Control Register
and Attribute RAM. Address
inputs A0-A1 are used to select the
digit location in the display. Data
inputs D0-D6 are used to load
information into the display. Data
will be latched into the display on
the rising edge of the WR signal.
D0-D6, A0-A1, CE1, CE2, and CU
must be held stable during the
write cycle to ensure that correct
data is stored into the display.
Data can be loaded into the
display in any order. Note that
when A0 and A1 are logic 0, data is
stored in the right most display
location.
Cursor
When cursor enable (CUE) is a
logic 1, a cursor will be displayed
in all digit locations where a logic
1 has been stored in the Digit
Cursor memory in the Attribute
RAM. The cursor consists of all
35 dots ON at half brightness. A
flashing cursor can be displayed
by pulsing CUE. When CUE is a
logic 0, the ASCII data stored in
the Character RAM will be dis-
played regardless of the Digit
Cursor bits.
Blanking
Blanking of the display is con-
trolled through the BL input, the
Control Register and Attribute
RAM. The user can achieve a
variety of functions by using these
controls in different combinations,
such as full hardware display
blank, software blank, blanking of
individual characters, and syn-
chronized flashing of individual
characters or entire display (by
Figure 2. Display Truth Table
0 = Logic 0; 1 = Logic 1; X = Do Not Care; * 000 = 27% for HDLU-2416
10
Table 1. Current Requirements at Different Brightness Levels
Symbol D5D4D3Brightness 25°C Typ. 25°C Max. Max. over Temp. Units
IDD(#) 0 0 0 100% 110 130 160 mA
0 0 1 60% 66 79 98 mA
0 1 0 40% 45 53 66 mA
0 1 1 27% 30 37 46 mA
1 0 0 17% 20 24 31 mA
1 0 1 10% 12 15 20 mA
1 1 0 7% 9 11 15 mA
11 1 3% 4 6 9 mA
EFD MB DBDnBL
0 0 0 0 Display Blanked by BL
0 0 X 1 Display ON
Display Blanked by BL. Individual characters
0X 1 0
"ON" based on "1" being stored in DBDn
0 1 0 X Display Blanked by MB
Display Blanked by MB. Individual characters
0111
"ON" based on "1" being stored in DBDn
1 X X 0 Display Blanked by BL
1 X X 1 Display ON
Figure 3. Display Blanking Truth Table
Bits 3-5 in the Control Register
provide internal brightness
control. These bits are interpreted
as a three bit binary code, with
code (000) corresponding to the
maximum brightness and code
(111) to the minimum brightness.
In addition to varying the display
brightness, bits 3-5 also vary the
average value of IDD. IDD can be
specified at any brightness level as
shown in Table 1.
strobing the blank input). All of
these blanking modes affect only
the output drivers, maintaining the
contents and write capability of
the internal RAMs and Control
Register, so that normal loading of
RAMs and Control Register can
take place even with the display
blanked.
Figure 3 shows how the Extended
Function Disable (bit D6 of the
Control Register), Master Blank
(bit D2 of the Control Register),
Digit Blank Disable (bit D1 of the
Attribute RAM), and BL input can
be used to blank the display.
When the Extended Function
Disable is a logic 1, the display
can be blanked only with the BL
input. When the Extended
Function Disable is a logic 0, the
display can be blanked through
the BL input, the Master Blank,
and the Digit Blank Disable. The
entire display will be blanked if
either the BL input is logic 0 or
the Master Blank is logic 1,
providing all Digit Blank Disable
bits are logic 0. Those digits with
Digit Blank Disable bits a logic 1
will ignore both blank signals and
remain ON. The Digit Blank
Disable bits allow individual
characters to be blanked or
flashed in synchronization with the
BL input.
Dimming
Dimming of the display is con-
trolled through either the BL input
or the Control Register. A pulse
width modulated signal can be
applied to the BL input to dim the
display. A three bit word in the
Control Register generates an
internal pulse width modulated
signal to dim the display. The
internal dimming feature is
enabled only if the Extended
Function Disable is a logic 0.
11
Mechanical and Electrical
Considerations
The HDLX-2416 is an 18 pin DIP
package that can be stacked
horizontally and vertically to
create arrays of any size. The
HDLX-2416 is designed to operate
continuously from -40°C to + 85°C
for all possible input conditions.
The HDLX-2416 is assembled by
die attaching and wire bonding
140 LEDs and a CMOS IC to a
high temperature printed circuit
board. A polycarbonate lens is
placed over the PC board creating
an air gap environment for the
LED wire bonds. Backfill epoxy
environmentally seals the display
package. This package construc-
tion makes the display highly
tolerant to temperature cycling
and allows wave soldering.
The inputs to the CMOS IC are
protected against static discharge
and input current latchup. How-
ever, for best results standard
CMOS handling precautions
should be used. Prior to use, the
HDLX-2416 should be stored in
anti-static tubes or conductive
material. During assembly a
grounded conductive work area
should be used, and assembly
personnel should wear conductive
wrist straps. Lab coats made of
synthetic material should be
avoided since they are prone to
static charge build-up.
Input current latchup is caused
when the CMOS inputs are sub-
jected either to a voltage below
ground (Vin < ground) or to a
voltage higher than VDD (Vin >
VDD) and when a high current is
forced into the input. To prevent
input current latchup and ESD
damage, unused inputs should be
connected either to ground or to
V
DD. Voltages should not be
applied to the inputs until V
DD has
been applied to the display.
Transient input voltages should be
eliminated.
Soldering and Post
Solder Cleaning
Instructions for the
HDLX-2416
The HDLX-2416 may be hand
soldered or wave soldered with
SN63 solder. When hand soldering
it is recommended that an elec-
tronically temperature controlled
and securely grounded soldering
iron be used. For best results, the
iron tip temperature should be set
at 315°C (600°F). For wave
soldering, a rosin-based RMA flux
can be used. The solder wave
temperature should be set at
245°C ±5°C (473°F ±9°F), and
dwell in the wave should be set
between 1 1/2 to 3 seconds for
optimum soldering. The preheat
temperature should not exceed
110°C (230°F) as measured on the
solder side of the PC board.
For further information on solder-
ing and post solder cleaning, see
Application Note 1027, Soldering
LED Components.
Contrast Enhancement
The objective of contrast enhance-
ment is to provide good readabil-
ity in the end user’s ambient
lighting conditions. The concept is
to employ both luminance and
chrominance contrast techniques.
These enhance readability by
having the OFF-dots blend into the
display background and the ON-
dots vividly stand out against the
same background. For additional
information on contrast enhance-
ment, see Application Note 1015.
Figure 4 shows a circuit designed
to dim the display from 98% to 2%
by pulse width modulating the BL
input. A logarithmic or a linear
potentiometer may be used to
adjust the display intensity.
However, a logarithmic potenti-
ometer matches the response of
the human eye and therefore
provides better resolution at low
intensities. The circuit frequency
should be designed to operate at
10 kHz or higher. Lower frequen-
cies may cause the display to
flicker.
Extended Function
Disable
Extended Function Disable (bit D6
of the Control Register) disables
the extended blanking and dim-
ming functions in the HDLX-2416.
If the Extended Function Disable
is a logic 1, the internal brightness
control, Master Blank, and Digit
Blank Disable bits are ignored.
However the BL input and Cursor
control are still active. This allows
downward compatibility to the
HPDL-2416.
Figure 4. Intensity Modulation Control
Using an Astable Multivibrator
(reprinted with permission from
Electronics magazine, Sept. 19, 1974,
VNU Business pub. Inc.)
www.semiconductor.agilent.com
Data subject to change.
Copyright © 2001 Agilent Technologies, Inc.
July 20, 2001
Obsoletes 5964-6380E (11/99)
5988-3269EN
Color Range (nm)
Color Bin Min. Max.
Yellow 3 581.5 585.0
4 584.0 587.5
5 586.5 590.0
6 589.0 592.5
Green 1 576.0 580.0
2 573.0 577.0
3 570.0 574.0
4 567.0 571.5
Intensity Range (mcd)
Bin Min. Max.
A 0.54 0.90
B 0.74 1.31
C 0.93 1.42
D 1.16 1.77
E 1.45 2.21
Note:
Test conditions as specified in Optical Characteristic table.
Color Bin Limits
Note:
Test conditions as specified in Optical Characteristic table.
Intensity Range (mcd)
Bin Min. Max.
E 3.97 6.79
F 5.55 9.50
G 7.78 13.30
H 10.88 18.62
I 15.24 26.07
J 21.33 36.49
Note:
Test conditions as specified in Optical Characteristic table.
Intensity Bin Limits for HDLR-2416
Intensity Bin Limits for HDLS-2416
Intensity Range (mcd)
Bin Min. Max.
A 1.20 1.77
B 1.25 2.47
C 2.02 3.46
D 2.83 4.85
E 3.97 6.79
F 5.55 9.50
G 7.78 13.30
Note:
Test conditions as specified in Optical Characteristic table.
Intensity Bin Limits for HDLX-2416