3-193
Hexadecimal and Numeric
Displays for Industrial
Applications
Technical Data
Features
• Three Colors
High-Efficiency Red
Yellow
High Performance Green
• Two High-Efficiency Red
Options
Low Power
High Brightness
• Three Character Options
Numeric
Hexadecimal
Over Range
• Performance Guaranteed over
Temperature
• Memory Latch/Decoder/
Driver
TTL Compatible
• 4 x 7 Dot Matrix Character
• Categorized for Luminous
Intensity
• Yellow and Green
Categorized for Color
Typical Applications
• Industrial Equipment
• Computer Peripherals
• Instrumentation
• Telecommunication
Equipment
Device Selection Guide
Part Number Front
HDSP- Color Description View
0760 High-Efficiency Numeric, Right Hand DP A
0761 Red Numeric, Left Hand DP B
0762 Low Power Hexadecimal C
0763 Over Range 1D
0770 High-Efficiency Numeric, Right Hand DP A
0771 Red Numeric, Left Hand DP B
0772 High Brightness Hexadecimal C
0763 Over Range 1D
0860 Yellow Numeric, Right Hand DP A
0861 Numeric, Left Hand DP B
0862 Hexadecimal C
0863 Over Range 1D
0960 Green Numeric, Right Hand DP A
0961 Numeric, Left Hand DP B
0962 Hexadecimal C
0963 Over Range 1D
Description
These solid state display devices
are designed and tested for use in
adverse industrial environments.
The character height is 7.4 mm
(0.29 inch). The numeric and
hexadecimal devices incorporate
an on-board IC that contains the
data memory, decoder and display
driver functions.
The numeric devices decode
positive BCD logic into characters
“0-9”, a “–” sign, decimal point,
and a test pattern. The hexadeci-
mal devices decode positive BCD
logic into 16 characters, “0-9, A-F.”
An input is provided on the hexa-
decimal devices to blank the
display (all LEDs off) without
losing the contents of the memory.
The over range device displays
1” and right hand decimal point
and is typically driven via external
switching transistors.
HDSP-076X Series
HDSP-077X Series
HDSP-086X Series
HDSP-096X Series
H
5963-7395E
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Package Dimensions
Figure 2. Logic Block Diagram.
Figure 1. Timing Diagram
Z
3-195
Absolute Maximum Ratings
Description Symbol Min. Max. Unit
Storage Temperature, Ambient TS-65 +100 °C
Operating Temperature, Ambient[1] TA-55 +85 °C
Supply Voltage[2] VCC -0.5 +7.0 V
Voltage Applied to Input Logic, dp and Enable Pins VI, VDP, VE-0.5 VCC V
Voltage Applied to Blanking Input[2] VB-0.5 VCC V
Maximum Solder Temperature at 1.59 mm (0.062 inch) 260 °C
Below Seating Plane, t 5 seconds
Recommended Operating Conditions
Description Symbol Min. Nom. Max. Unit
Supply Voltage[2] VCC 4.5 5.0 5.5 V
Operating Temperature, Ambient[1] TA-55 +85 °C
Enable Pulse Width tW100 nsec
Time Data Must Be Held Before Positive tSETUP 50 nsec
Transition of Enable Line
Time Data Must Be Held After Positive tHOLD 50 nsec
Transition of Enable Line
Enable Pulse Rise Time tTLH 1.0 msec
Optical Characteristics at TA = 25°C, VCC = 5.0 V
Device Description Symbol Min. Typ. Max. Unit
HDSP-0760 Luminous Intensity per LED (Digit Average)[3,4] IV65 140 µcd
Peak Wavelength λPEAK 635 nm
Dominant Wavelength[5] λd626 nm
HDSP-0770 Luminous Intensity per LED (Digit Average)[3,4] IV260 620 µcd
Peak Wavelength λPEAK 635 nm
Dominant Wavelength[5] λd626 nm
HDSP-0860 Luminous Intensity per LED (Digit Average)[3,4] IV215 490 µcd
Peak Wavelength λPEAK 583 nm
Dominant Wavelength[5,6] λd585 nm
HDSP-0960 Luminous Intensity per LED (Digit Average)[3,4] IV298 1100 µcd
Peak Wavelength λPEAK 568 nm
Dominant Wavelength[5,6] λd574 nm
Notes:
1. The nominal thermal resistance of a display mounted in a socket that is soldered onto a printed circuit board is RθJA = 50°C/W/
device. The device package thermal resistance is RθJ-PIN = 15°C/W/device. The thermal resistance device pin-to-ambient through
the PC board should not exceed 35°C/W/device for operation at T
A = +85°C.
2. Voltage values are with respect to device ground, pin 6.
3. These displays are categorized for luminous intensity with the intensity category designated by a letter code located on the back of
the display package. Case temperature of the device immediately prior to the light measurement is equal to 25°C.
Series
Series
Series
Series
3-196
Electrical Characteristics; TA = -55°C to +85°C
Description Symbol Test Conditions Min. Typ.[7] Max. Unit
Supply Current
HDSP-0760 Series ICC VCC = 5.5 V 78 105 mA
HDSP-0770 Series 120 175
HDSP-0860 Series
HDSP-0960 Series
Power Dissipation
HDSP-0760 Series PT390 573 mW
HDSP-0770 Series 690 963
HDSP-0860 Series
HDSP-0960 Series
Logic, Enable and Blanking Low-Level Input VIL VCC = 4.5 V 0.8 V
Voltage
Logic, Enable and Blanking High-Level VIH 2.0 V
Input Voltage
Logic and Enable Low-Level Input Current IIL VCC = 5.5 V -1.6 mA
Blanking Low-Level Input Current IBL VIL = 0.4 V -10 µA
Logic, Enable and Blanking High-Level IIH VCC = 5.5 V +40 µA
Input Current VIH = 2.4 V
Weight 1.0 gm
Leak Rate 5x10-8 cc/sec
Notes:
4. The luminous intensity at a specific operating ambient temperature, IV (TA) may be approximated from the following exponential
equation: IV (TA = IV (25°C) e[k (T - 25°C)].
Device K
HDSP-0760 Series -0.0131/°C
HDSP-0770 Series
HDSP-0860 Series -0.0112/°C
HDSP-0960 Series -0.0104/°C
5. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and is that single wavelength which defines the color of the
device.
6. The HDSP-0860 and HDSP-0960 series devices are categorized as to dominant wavelength with the category designated by a number on
the back of the display package.
7. All typical values at VCC = 5.0 V and TA = 25°C.
(Characters “5.”
or “B” Displayed)
A
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Operational
Considerations
Electrical
These devices use a modified
4 x 7 dot matrix light emitting
diode to display decimal/hexa-
decimal numeric information. The
high efficiency red and yellow
LEDs are GaAsP epitaxial layer
on a GaP transparent substrate.
The green LEDs are GaP epitaxial
layer on a GaP transparent
substrate. The LEDs are driven
by constant current drivers, BCD
information is accepted by the
display memory when the enable
line is at logic low and the data is
latched when the enable is at
logic high. Using the enable pulse
width and data setup and hold
times listed in the Recommended
Operating Conditions allows data
to be clocked into an array of
displays at a 6.7 MHz rate.
The decimal point input is active
low true and this data is latched
into the display memory in the
same fashion as the BCD data.
The decimal point LED is driven
by the on-board IC.
The blanking control input on the
hexadecimal displays blanks (turns
off) the displayed information
without disturbing the contents of
display memory. The display is
blanked at a minimum threshold
level of 2.0 volts. When blanked,
the display standby power is
nominally 250 mW at TA = 25°C.
Mechanical
The primary thermal path for
power dissipation is through the
device leads. Therefore, to insure
reliable operation up to an
ambient temperature of +85°C, it
is important to maintain a case-
to-ambient thermal resistance of
less than 35°C watt/device as
measured on top of display pin 3.
For information on soldering and
post solder cleaning see Applica-
tion Note 1027, Soldering LED
Components.
Contrast Enhancement
These display devices are
designed to provide an optimum
ON/OFF contrast when placed
behind an appropriate contrast
enhancement filter. For further
information, please refer to
Application Note 1015, Contrast
Enhancement Techniques for
LED Displays.
Over Range Display
The over range devices display
±1” and decimal point. The
character height and package
configuration are the same as the
numeric and hexadecimal
devices. Character selection is
obtained via external switching
transistors and current limiting
resistors.
NOTE: 1. DIMENSIONS IN MILLIMETRES AND (INCHES).
Package Dimensions
Pin
Character 1 2,3 4 8
+1XX1
-0XX1
1X1XX
Decimal Point X X 1 X
Blank 0 0 0 0
Notes:
0: Line switching transistor in Figure 7 cutoff.
1: Line switching transistor in Figure 7 saturated.
X: 'don't care'
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Absolute Maximum Ratings
Description Symbol Min. Max. Unit
Storage Temperature, Ambient TS-65 +100 °C
Operating Temperature, Ambient TA-55 +85 °C
Forward Current, Each LED IF10 mA
Reverse Voltage, Each LED VR5V
Recommended Operating Conditions VCC = 5.0 V
Forward Resistor Value
Current Per
Device LED, mA R1R2R3
HDSP-0763
Low Power 2.8 1300 200 300
High Brightness 8 360 47 68
HDSP-0863 8 360 36 56
HDSP-0963 8 360 30 43
Luminous Intensity per LED
(Digit Average)[3,4] at TA = 25°C
Device Test Conditions Min. Typ. Units
HDSP-0763 IF = 2.8 mA 65 140 µcd
IF = 8 mA 620 µcd
HDSP-0863 IF = 8 mA 215 490 µcd
HDSP-0963 IF = 8 mA 298 1100 µcd
Figure 3. Typical Driving Circuit.
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Electrical Characteristics: TA = -55°C to +85°C
Test
Device Description Symbol Conditions Min. Typ. Max. Unit
HDSP-0763 Power Dissipation (All LEDs illuminated) PTIF = 2.8 mA 72 mW
IF = 8 mA 224 282
Forward Voltage per LED VFIF = 2.8 mA 1.6 V
IF = 8 mA 1.75 2.2
HDSP-0863 Power Dissipation (All LEDs illuminated) PTIF = 8 mA 237 282 mW
Forward Voltage per LED VF1.90 2.2 V
HDSP-0963 Power Dissipation (All LEDs illuminated) PTIF = 8 mA 243 282 mW
Forward Voltage per LED VF1.85 2.2 V