FAIRCHILD MAN6440

0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
Description
PACKAGE DIMENSIONS
.985"
(25.02 mm)
±.010"
.500"
(12.70 mm)
A
A
F
.750"
(19.05 mm)
+.010"
E
.066" DIA
(1.68 mm)
DIGIT = 1
PART
IDENTIFICATION
PART NO.
.020"
(0.51 mm)
+.004"
-.000"
E
DP
D
C
DP
Features
.160"
(4.06 mm)
+.015"
.315"
(8.00 mm)
±.010"
XYY Z
PIN #1
(NOTE SQUARE .100"
(2.54 mm)
BASE ON
LEAD)
C
D
B
G
LIGHT
INTENSITY CAT.
8°
DATE CODE
.320"
(8.13 mm)
B
G
.560"
(14.22 mm)
F
.050"
+.004"
-.000"
(1.27 mm)
.010"
(0.25 mm)
+.007"
-.000"
.600"
(15.24 mm)
+.015"
.480"
(12.20 mm)
±.010"
A
.560"
+0.010"
(14.22 mm)
.750"
(19.05 mm)
+.010"
F
E
G
D
B
C
DP
.320"
(8.13 mm)
PART
IDENTIFICATION
PIN #1
.100" TYP
(2.54 mm)
.066" DIA
8° LIGHT INTENSITY CAT.
DATE CODE
.160"
(4.06 mm)
+.015"
.315"
(8.00 mm)
±.010"
PART
NO. XYY Z
.050"
(1.27 mm)
.020"
(0.51 mm)
+.004"
-.000"
The MAN6400 Series is a family of large digits
which includes double and single digits. The series
features the sculptured font which minimizes “gappiness” at the segment intersections. All models have
right hand decimal points and are available in common anode or common cathode configuration. This
device has a Grey face and clear segments to
enhance ON and OFF contrast.
• High Efficiency Green nitrogen-doped GaAsP on
GaP
• Large, easy to read, digits
• Common anode or common cathode models
• Fast switching — excellent for multiplexing
• Low power consumption
• Bold solid segments that are highly legible
• Solid state reliability — long operation life
• Rugged plastic construction
• Directly compatible with integrated circuits
• High brightness with high contrast
• Categorized for Luminous Intensity (See Note 5)
• Wide angle viewing...150°
• Low forward voltage
• Two-digit package simplifies alignment and
assembly
Applications
For industrial and consumer applications such as:
PIN #5
.600"
(15.24 mm)
+.015"
.010"
(0.25 mm)
+.007"
-.000"
•
•
•
•
•
Digital readout displays
Instrument panels
Point of sale equipment
Digital clocks
TV and radios
MODEL NUMBERS
Part Number
Color
Description
Package
Drawing
Pin Out
Specification
MAN6410
High Eff. Green
2 Digit; Common Anode; Rt. Hand Decimal
A
A
MAN6440
High Eff. Green
2 Digit; Common Cathode; Rt. Hand Decimal
A
B
MAN6460
High Eff. Green
Single Digit; Common Anode; Rt. Hand Decimal
B
C
MAN6980
High Eff. Green
Single Digit; Common Cathode; Rt. Hand Decimal
B
D
© 2003 Fairchild Semiconductor Corporation
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0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
RECOMMENDED OPTICAL FILTERS
For optimum ON and OFF contrast, one of the following filters or equivalents should be used over the display:
Device Type
Filter
Panelgraphic Green 48
Homalite 100-1440 Green
Panelgraphic Grey 10
Homalite 100-1266 Grey
MAN6400 Series
ELECTRO-OPTICAL CHARACTERISTICS
(Per Diode 25°C Free Air Temperature Unless Otherwise Specified)
Luminous Intensity, digit average (See Note 1)
Peak emission wavelength
Spectral line half width
Forward voltage
Segment
Decimal point
Dynamic resistance
Segment
Decimal point
Capacitance
Segment
Decimal point
Reverse current
Segment
Decimal point
Ratio IL
Min.
Typ.
510
2200
565
30
Units
Test Conditions
µcd
nm
nm
IF = 10 mA
V
V
IF = 20 mA
IF = 20 mA
26
26
Ω
Ω
IF = 20 mA
IF = 20 mA
35
35
pF
pF
V=0
V=0
µA
µA
—
VR = 3.0V
VR = 3.0V
IF = 10 mA
2.1
2.1
Max.
2.8
2.8
100
100
2:1
ABSOLUTE MAXIMUM RATINGS
MAN64X0
Power dissipation at 25°C ambient
Derate linearly from 50°C
Storage and operating temperature
Continuous forward current
Total
Per segment
Decimal point
Reverse voltage
Per segment
Decimal point
Soldering time at 260°C (See Notes 3 and 4)
© 2003 Fairchild Semiconductor Corporation
600mW
-40°C to +85°C
30 mA
30 mA
6.0 V
6.0 V
5 sec.
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0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
TYPICAL THERMAL CHARACTERISTICS
Thermal resistance junction to free air φJA
160°C/W
Wavelength temperature coefficient (case temperature)
1.0Å/°C
Forward voltage temperature coefficient
-2.0 mV/°C
Notes:
1. The digit average Luminous Intensity is obtained by summing the Luminous Intensity of each segment and dividing by the total
number of segments. Intensity will not vary more than ±33.3% between all segments within a digit.
2. The curve in Figure 3 is normalized to the brightness at 25°C to indicate the relative efficiency over the operating temperature
range.
3. Leads of the device immersed to 1/16 inch from the body. Maximum device surface temperature is 140°C.
4. For flux removal, Freon TF, Freon TE, Isoproponal or water may be used up to their boiling points.
5. All displays are categorized for Luminous Intensity. The Intensity category is marked on each part as a suffix letter to the part
number.
ELECTRICAL CONNECTIONS
ELECTRICAL CONNECTIONS
Pin
No.
A
MAN6410
B
MAN6440
C
MAN6460
D
MAN6480
1
Cathode E 1
Anode E 1
Cathode E
Anode E
2
Cathode D 1
Anode D 1
Cathode D
Anode D
3
Cathode C 1
Anode C 1
Common Anode
Common Cathode
4
Cathode D.P. 1
Anode D.P. 1
Cathode C
Anode C
5
Cathode E 2
Anode E 2
Cathode D.P.
Anode D.P.
6
Cathode D 2
Anode D 2
Cathode B
Anode B
7
Cathode G 2
Anode G 2
Cathode A
Anode A
8
Cathode C 2
Anode C 2
Common Anode
Common Cathode
9
Cathode D.P. 2
Anode D.P. 2
Cathode F
Anode F
10
Cathode B 2
Anode B 2
Cathode G
Anode G
11
Cathode A 2
Anode A 2
12
Cathode F 2
Anode F 2
13
Anode Digit 2
Cathode Digit 2
14
Anode Digit 1
Cathode Digit 1
15
Cathode B 1
Anode B 1
16
Cathode A 1
Anode A 1
17
Cathode G 1
Anode G 1
18
Cathode F 1
Anode F 1
© 2003 Fairchild Semiconductor Corporation
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0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
100
90
80
70
60
50
40
30
20
10
0
1.0
Relative Luminous Intensity
Forward Current IF = mA
TYPICAL CHARACTERISTIC CURVES
(Dotted Line
Indicates
Pulsed Operation
See Figs. 3, 5)
2.0
1.0
0
4.0
5
10
15
20
25
DC Forward Current – IF mA
30
Fig. 2. Relative Luminous Intensity vs. DC Forward Current
130
1000
800
600
400
Relative Intensity %
Maximum Peak Current mA
Normalized at IF = 10 mA
3.0
0
2.0
3.0
Forward Voltage (VF) – Volts
Fig. 1 Forward Current vs. Forward Voltage
200
10
100
80
60
40
KH
3.0
z
KH
1.0
z
KH
30
z
10
0H
z
0H
z
20
0
4.0
10
100
1000
Pulse Duration µs
100
90
80
-25
0
25
50
75
Temperature – TA °C
100
Fig. 4 Relative Luminous Intensity vs. Temperature
Fig. 3 Maximum Peak Current vs. Pulse Duration
Relative Efficiency
(IL at drive/IL at 10mA DC)
110
70
-55
10000
Normalized
at 25°C
120
4.0
IF (AVG) = 20 mA
10 mA
5 mA
2.5 mA
3.0
2.0
1.0
0
2.0
5.0 19
20
% Duty Cycle
50
DC
Fig. 5 Relative Efficiency vs. Duty Cycle
© 2003 Fairchild Semiconductor Corporation
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0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
INTERNAL CONNECTIONS
14
FIRST
E
1
D
2
C
3
14
13
DIGIT
FIRST
SECOND DIGIT
B A G F DP E
15 16 17 18 4 5
D
6
G
7
C
8
B A F DP
10 11 12 9
E
1
D
2
C
3
13
DIGIT
B A G F DP E
15 16 17 18 4 5
MAN6410
3
E
1
D
2
C
4
SECOND DIGIT
A
7
3
F
9
E
1
G DP
10 5
MAN6460
© 2003 Fairchild Semiconductor Corporation
G
7
C
8
B A F DP
10 11 12 9
MAN6640
8
B
6
D
6
D
2
C
4
8
B
6
A
7
F
9
G DP
10 5
MAN6480
Page 5 of 6
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0.560-INCH
SEVEN SEGMENT DISPLAYS
HIGH EFFICIENCY GREEN MAN6400 SERIES
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES 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 the labeling, can be reasonably expected to
result in a significant injury of the user.
© 2003 Fairchild Semiconductor Corporation
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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