2000
DATA SHEET
DESCRIPTION
The NL8060BC26-17 is a TFT (thin film transistor) active-matrix color liquid crystal display (LCD) module
comprising an amorphous silicon TFT attached to each signal electrode, a driving circuit, and a backlight.
The NL8060BC26-17 has a built-in backlight. The backlight includes long-life lamps, which are replaceable, and
a holder.
The 26 cm diagonal display area contains 800 × 600 pixels and can display 262,144 colors simultaneously.
The NL8060BC26-17 is suitable for industrial application use because the viewing angle is wide and the luminance
is high. The viewing direction is selectable for either the upper or the lower side by changing the scan direction.
FEATURES
High luminance (280 cd/m2, typ.)
Wide viewing angle (with retardation film)
Low reflection
Reversible scan direction
6-bit digital RGB signals
Data enable (DE) function
Edge-type backlight with two long-filetime lamps (one lamp holder)
Replaceable lamp holder
Recommendation inverter for a backlight: Part No. 104PWBR1
APPLICATIONS
Display terminals for control systems
Monitors for process controllers
Document No. EN0493EJ1V1DS00 (1st edition)
Date Published January 2001 P CP(N)
Printed in Japan
The information in this document is subject to change without notice.
Please confirm the delivery specification before starting to design your system.
TFT COLOR LCD MODULE
NL8060BC26-17
26 cm (10.4 inches), 800 × 600 pixels, 262,144 colors
high luminance, wide viewing angle
NL8060BC26-17
2Data Sheet EN0493EJ1V1DS00
STRUCTURE AND FUNCTION
A color TFT (thin film transistor) LCD module is comprised of a TFT liquid crystal panel structure, LSIs for
driving the TFT array, and a backlight assembly. The TFT panel structure is created by sandwiching liquid crystal
material in the narrow gap between a TFT array glass substrate and a color filter glass substrate. After the driver
LSIs are connected to the panel, the backlight assembly is attached to the back side of the panel.
RGB (red, green, blue) data signals from a source system are modulated into a form suitable for active-matrix
addressing by the onboard signal processor and sent to the driver LSIs, which in turn address the individual TFT
cells.
Acting as an electro-optical switch, each TFT cell regulates light transmission from the backlight assembly
when activated by the data source. By regulating the amount of light passing through the array of red, green,
and blue dots, color images are created with clarity.
CHARACTERISTICS (at room temperature)
Display area 211.2 (H) × 158.4 (V) mm
Drive system a-Si TFT active matrix
Display colors 262,144 colors
Number of pixels 800 × 600 pixels
Pixel arrangement RGB vertical stripe
Pixel pitch 0.264 (H) × 0.264 (V) mm
Module size 243.0 (H) × 185.1 (V) × 11.5 max. (D) mm
Weight 520 (typ.)
Contrast ratio 300:1 (typ.)
Viewing angle (more than the contrast ratio of 10:1)
Horizontal: 50° (typ. left side, right side)
Vertical: 35° (typ. up side), 45° (typ. down side)
Designed viewing direction • Wider viewing angle with contrast ratio: down side
(6 o’clock, normal scan)
up side
(12 o’clock, reverse scan)
• Wider viewing angle without image reversal: up side
(12 o’clock, normal scan)
down side
(6 o’clock, reverse scan)
• Optimum gray-scale (γ = 2.2): perpendicular
Color gamut 43% (typ. center, to NTSC)
Response time 15 ms (max.), “white 100%” to “black 10%”
Luminance 280 cd/m2 (typ.) (lamp current: IL = 5 mA rms per lamp)
Signal system 6-bit digital signals for each of the RGB primary colors, synchronous signals
(Hsync, Vsync), dot clock (CLK)
Supply voltage 3.3 V [5.0 V] (logic, LCD driving)
Backlight Edge light type, two cold cathode fluorescent lamps in a holder, attached
inverter
• Lamp holder set: Part no.104LHS31
• Recommended inverter: Part no. 104PWBR1
Power consumption 7.0 W (typ. at 3.3 V, with recommended inverter)
NL8060BC26-17
3
Data Sheet EN0493EJ1V1DS00
BLOCK DIAGRAM
Note: Frame is not connected with GND (SG).
If connecting the NEC-recommended inverter
Inverter
VDDB Backlight
BRTHL
BRTC
BRTH
BRTL
GNDB
(Part no. 104PWBR1)
47
R0 ~ R5
47
G0 ~ G5
47
B0 ~ B5
Digital
signal
processor
47
CLK
47
Hsync
47
Vsync
LCD
timing
controller
Power
supply
circuit
LSIs
Drivers
V-driver
600 lines
2400 lines
TFT LCD panel
H: 800 × 3 (R, G, B)
V: 600
·
·
·
·
·
Level
shift
· · · · · ·
47
DE
47
MODE
DPS
47 k
V
CC
GND (SG)
Frame
Backlight
V
HIGH
V
LOW
H-driver
NL8060BC26-17
4Data Sheet EN0493EJ1V1DS00
GENERAL SPECIFICATIONS
Item Specification Unit
Module size 243.0 ± 0.5 (H) × 185.1 ± 0.5 (V) × 11.5 max. (D) mm
Display area 211.2 (H) × 158.4 (V) mm
Number of pixels 800 (H) × 600 (V) pixel
Dot pitch 0.088 (H) × 0.264 (V) mm
Pixel pitch 0.264 (H) × 0.264 (V) mm
Pixel arrangement RGB (red, green, blue) vertical stripe
Display colors 262,144 color
Weight 520 (typ.) 550 (max.) g
ABSOLUTE MAXIMUM RATINGS
Parameter Symbol Rating Unit Remarks
Supply voltage VCC –0.3 to 6.5 V VI – VCC < 3.0
Input voltage VI–0.3 to 6.5 V Ta = 25 ˚C
Lamp voltage VL2000 Vrms Ta = 25 ˚C
Storage temp. TST –20 to 60 ˚C
Operating temp. TOP 0 to 50 ˚C Module surfaceNote
Relative humidity (RH) <
= 95 % Ta <
= 40 ˚C
<
= 85 % 40 < Ta <
= 50 ˚C
Absolute humidity Absolute humidity shall not g/m3Ta > 50 ˚C
exceed Ta = 50 ˚C, RH = 85 %
Note: Measured at the panel surface (including self-heat)
ELECTRICAL CHARACTERISTICS
(1) Logic, LCD Driving
Ta = 25 ˚C
Parameter Symbol Min. Typ. Max. Unit Remarks
Supply voltage VCC 3.0 3.3 3.6 V VCC = 3.3 V
(4.75) (5.0) (5.25) (VCC = 5.0 V)
Logic input “L” voltage VIL 0–VCC × 0.3 V CMOS level
Logic input “H” voltage VIH VCC × 0.7 VCC V
Supply current ICC 360 550 mA VCC = 3.3 V
(270)Note (500) (VCC = 5.0 V)
Note: Checker flag pattern (in EIAJ ED-2522)
NL8060BC26-17
5
Data Sheet EN0493EJ1V1DS00
(2) Backlight
Ta = 25 ˚C
Parameter Symbol Min. Typ. Max. Unit Remarks
Lamp current IL2.0 5.0 5.5 mA rms with one lamp
Lamp voltage VL 510 V rms
Lamp turn-on voltage VS840 V rms Ta = 25 ˚C *2
1265 Ta = 0 ˚C *2
Oscillator frequency Ft 50 54 58 kHz *1
Notes: 1. Recommended value of Ft.
• Ft is within the specification.
and
• Ft = 1/4Th × (2n –1) Th: Hsync period
n: a natural number (1, 2, 3…)
If Ft is out of the recommended value, interference between the Ft frequency and Hsync frequency
may cause a beat on the display.
2. When Vs is less than the minimum value, the lamp might be not turned on.
3. Recommended inverter: Part no. 104PWBR1
SUPPLY VOLTAGE SEQUENCE Notes: 1. The supply voltage for input signals
should be the same as VCC.
2. Turn on the backlight within the LCD
operation period. When the backlight
turns on before LCD operation or the
LCD operation turns off before the
backlight turns off, the display may
momentarily become white.
3. When the power is off, please keep
whole signals (Hsync, Vsync, CLK,
DE, R0 ~ R5, G0 ~ G5, B0 ~ B5) at
low level or high impedance.
4. The wrong power sequence may
damage the module.
5. The signal should not be down dur-
ing operation. Even if the signal
could recover, the LCD module
cannot be operated correctly and
the display may be non-uniform. If
the signal is down, VCC should be
turned off, and then VCC and the
signal should be turned on as in the
sequence above.
3.0 (4.75 V) 3.0 (4.75 V)
Time
0 s<t<35 ms 0 s<t<35 ms
V
CC
V
CC
- ON
VALID priod.
Signals: CLK, Hsync, Vsync, DE, R0 ~ R5, G0 ~ G5, B0 ~ B5
V
CC
- OFF
Signals
NL8060BC26-17
6Data Sheet EN0493EJ1V1DS00
INTERFACE AND CONNECTOR PIN ASSIGNMENT
(1) Interface Signals, Power Supply
Module side connector Mating connector
CN1 DF9-41P-1V (No. 1 to 41) DF9-41S-1V
Supplier: Hirose Electric Co., Ltd.
Pin No. Symbol Function
22 GND Ground
23 G3 Green data
24 G4 Green data
25 G5 Green data (MSB)
26 GND Ground
27 GND Ground
28 GND Ground
29 B0 Blue data (LSB)
30 B1 Blue data
31 B2 Blue data
32 GND Ground
33 B3 Blue data
34 B4 Blue data
35 B5 Blue data (MSB)
36 GND Ground
37 DE Data enable signal
38 DPS Scan direction select Note 3
39 VCC Power supply Note 1
40 VCC Power supply Note 1
41 MODE Mode select Note 2
LSB: Least-Significant Bit
MSB: Most-Significant Bit
Pin No. Symbol Function
1 GND Ground
2 CLK Dot clock
3 GND Ground
4 Hsync Horizontal sync.
5 Vsync Vertical sync.
6 GND Ground
7 GND Ground
8 GND Ground
9 R0 Red data (LSB)
10 R1 Red data
11 R2 Red data
12 GND Ground
13 R3 Red data
14 R4 Red data
15 R5 Red data (MSB)
16 GND Ground
17 GND Ground
18 GND Ground
19 G0 Green data (LSB)
20 G1 Green data
21 G2 Green data
Notes: 1. VCC: All VCC terminals should be connected to 3.3 V [5.0 V].
2. MODE: H = Fixed mode
L or open = DE mode
3. DPS can change scan direction (normal scan and reverse scan).
DPS: Vcc = normal scan
GND or open = reverse scan
See page 16, DISPLAY POSITION, for an altemate reversible scan.
NL8060BC26-17
7
Data Sheet EN0493EJ1V1DS00
(2) Lamp Connector
Lamp side connector Mating connector
CN2 ··· BHR-03VS-1 SM02 (4.0) B-BHS-TB
Supplier: J.S.T. Trading Company, Ltd.
Pin No. Symbol Function
1VLOW Low voltage terminal
2VHIGH High voltage terminal
3VHIGH High voltage terminal
Caution: VHIGH and VLOW must be connected correctly. If they are connected incorrectly, the user may get
hurt and the module may break.
a) Connection of recommended inverter: 104PWBR1 (NEC)
Inverter side connector 1 Mating connector 1
CN1 ··· LZ-5P-SL-SMT LZ-5S-SC3
Supplier: Japan Aviation Electronics Industry, Limited (JAE)
Pin No. Symbol Function Pin No. Symbol Function
1VDDB Power supply (12 V) 4 GNDB Backlight ground
2VDDB Power supply (12 V) 5 BRTHL Luminance selectNote
3 GNDB Backlight ground
Note: High luminance (100%): BRTHL = High (+5 V) or open
Low luminance (60%): BRTHL = Low (GNDB level)
Inverter side connector 2 Mating connector 2
CN3 ··· IL-Z-3PL-SMTY IL-Z-3S-S125C3
Supplier: Japan Aviation Electronics Industry, Limited (JAE)
Pin No. Symbol Function
1 BRTC Backlight On/Off signal Note 1
2 BRTH Luminance control input Note 2
3 BRTL Luminance control input Note 2
Notes: 1. TTL level
Backlight On: BRTC = High (+5 V) or open
Backlight Off: BRTC = Low (GNDB level)
NL8060BC26-17
8Data Sheet EN0493EJ1V1DS00
2. <1> Luminance control by a variable resistor
This way works when BRTHL (the no. 5 pin) of CN3 is opened.
Mating variable resistor: 10 K ±5 %
Minimum luminance (50%): R = 0
Maximum luminance (100%): R = 10 K
<2> Luminance control by voltage
This way works when BRTL is opened. The range of input voltage between BRTH
and GNDB is as follows.
Minimum luminance (50%): 2.5 V
Maximum luminance (100%): <
= 1.2 V
BRTLBRTH
R
NL8060BC26-17
9
Data Sheet EN0493EJ1V1DS00
(3) Connector Location
Upper side
<Rear view>
Lower side
CN2
1
2
3
1
3
41
2
4
40
<Lamp side pin arrangement of CN2>
<Module side pin arrangement of CN1>
CN1
CN3
Recommended
inverter (104PWBR1)
1
2
3
1
2
3
4
5
<Inverter side pin arrangement of CN3>
<Inverter side pin arrangement of CN1>
NL8060BC26-17
10 Data Sheet EN0493EJ1V1DS00
DISPLAY COLORS vs. INPUT DATA SIGNALS
Display Colors Data Signal (0: Low level; 1: High level)
R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0
Black 000000 000000 000000
Blue 000000 000000 111111
Red 111111 000000 000000
Basic colors Magenta 111111 000000 111111
Green 000000 111111 000000
Cyan 000000 111111 111111
Yellow 111111 111111 000000
White 111111 111111 111111
Black 000000 000000 000000
000001 000000 000000
Dark 000010 000000 000000
|||
Red gray-scale | | |
|||
Bright 111101 000000 000000
111110 000000 000000
Red 111111 000000 000000
Black 000000 000000 000000
000000 000001 000000
Dark 000000 000010 000000
|||
Green gray-scale | | |
|||
Bright 000000 111101 000000
000000 111110 000000
Green 000000 111111 000000
Black 000000 000000 000000
000000 000000 000001
Dark 000000 000000 000010
|||
Blue gray-scale | | |
|||
Bright 000000 000000 111101
000000 000000 111110
Blue 000000 000000 111111
Note: Colors are developed in combination with 6-bit signals (64 steps in gray-scale) of each primary red, green,
and blue color. This process can result in up to 262,144 (64 × 64 × 64) colors.
NL8060BC26-17
11
Data Sheet EN0493EJ1V1DS00
INPUT SIGNAL TIMING
(1) Input Signal Specifications
Parameter
Symbol
Min. Typ. Max. Unit Remarks
CLK Frequency 1/tC34.0 38.362 40.0 MHz 26.067 ns (typ.)
Duty tch/tC0.4 0.5 0.6 ––
Rise, fall tcrf ––10 ns
Hsync Period th 24.3 26.693
µ
s 37.468 kHz (typ.)
1024 CLK
Display period thd 800 CLK
Front porch thf 24 CLK Fixed mode
424CLK DE mode
Pulse width thp 2 72 127 CLK Fixed mode
272CLK DE mode
Back porch thb 2 128 198 CLK Fixed mode
2 128 CLK DE mode
thp + thb 200 CLK Fixed mode
15 200 CLK DE mode
CLK-Hsync timing thch 10 ––ns
Hsync-CLK timing thcs 8 ––ns
Hsync-Vsync timing thv 1 ––CLK
Vsync-Hsync timing tvs 15 ––ns
Rise, fall thrf ––10 ns
Vsync Period tv 16.1 16.683 17.2 ms 59.94 Hz (typ.)
625 H
Display period tvd 600 H
Front porch tvf 1H Fixed mode
1H DE mode
Pulse width tvp 1 2 23 H Fixed mode
12H DE mode
Back porch tvb 1 22 23 H Fixed mode
122H DE mode
tvp + tvb 24 H Fixed mode
2 24 254 H DE mode
Rise, fall tvrf ––10 ns
CLK-DATA timing tds 8 ––ns
DATA-CLK timing tdh 12 ––ns
Rise, fall tdrf ––10 ns
DE DE-CLK timing tes 8 ––ns
CLK-DE timing teh 12 ––ns
Rise, fall terf ––10 ns
Note: All parameters should be kept in the specified range.
DATA
R0 ~ R5
G0 ~ G5
B0 ~ B5
NL8060BC26-17
12 Data Sheet EN0493EJ1V1DS00
(2) Input Signal Timing
<Vertical>
tvp
tv
Vsync
Display period (Note)
tvb tvf
tvd
DE
<Horizontal>
thp
th
Hsync
Display period
thb thf
thd
DE
(Note)
Note: These do not exist as signals.
NL8060BC26-17
13
Data Sheet EN0493EJ1V1DS00
(3) Input Signal Timing Chart
tC
tch
CLK
Hsync
thsthv
0.5 VCC
0.7 VCC
0.5 VCC
0.3 VCC
tvrf
Vsync
CLK
thcsthch
0.5 VCC
0.7 VCC
0.5 VCC
0.3 VCC
thrf
Hsync
0.7 VCC
0.5 VCC
0.3 VCC
terf
DE
(R0 ~ R5) 0.7 VCC
(G0 ~ G5) 0.5 VCC
DATA
tdrftdrf
tdhtds
Invalid
(B0 ~ B5) 0.3 VCC
terf
testehtesteh
Invalid
0.7 VCC
0.5 VCC
0.3 VCC
tcrf tcrf
NL8060BC26-17
14 Data Sheet EN0493EJ1V1DS00
a) Fixed timing mode
12 201200
(Note: Y = 0 to 599)
1000 1001 1023 0
CLK
Hsync
2 CLK (min.)
200 CLK (fixed)
1 CLK
800 CLK (fixed) 24 CLK
Invalid
Invalid D (0, Y) D (1, Y) D (798, Y) D (799, Y)
Hsync
Invalid
R0 ~ R5
G0 ~ G5
B0 ~ B5
24 25 623 624 0
623
624
23
321
24 H (fixed)
Hsync
Vsync
1 H (min.) 1 H
600 H (fixed)
1 H
Hsync
D (X, 0) D (X, Y) D (X, 598) D (X, 599) Invalid
(Note: X = 0 to 799)
Invalid
D (X, Y)
D (799, Y) Invalid
1 H (min.)
R0 ~ R5
G0 ~ G5
B0 ~ B5
R0 ~ R5
G0 ~ G5
B0 ~ B5
2 CLK (min.)
D (0, Y) D (1, Y)
24
0
NL8060BC26-17
15
Data Sheet EN0493EJ1V1DS00
b) DE mode
102
(Note: Y = 0 to 599)
10
CLK
Hsync
thb
1 CLK
800 CLK (fixed) thf
Invalid
Invalid D (0, Y) D (1, Y) D (798, Y) D (799, Y)
Invalid
R0 ~ R5
G0 ~ G5
B0 ~ B5
210
tvb
Hsync
Vsync
1 H
600 H (fixed)
01
DE
D (X, 0) D (X, Y) D (X, 599) Invalid
(Note: X = 0 to 799)
Invalid D (0, Y) D (1, Y)
D (X, Y)
D (799, Y) Invalid
R0
~
R5
G0
~
G5
B0
~
B5
R0 ~ R5
G0 ~ G5
B0 ~ B5
thp
DE
DE
tvp tvf
NL8060BC26-17
16 Data Sheet EN0493EJ1V1DS00
DISPLAY POSITION
Normal scan (DPS = "Vcc")
D (0, 1) D (1, 1) - -------- D (X, 1) - - ------- D (798, 1) D (799, 1)
D (0, 1) D (1, 1) - -------- D (X, 1) - - ------- D (798, 1) D (799, 1)
--------- ---------
D (0, Y) D (1, Y) - -------- D (X, Y) - - ------- D (798, Y) D (799, Y)
--------- ---------
D (0, 598) D (1, 598) - -------- D (X, 598) - - ------- D (798, 598) D (799, 598)
D (0, 599) D (1, 599) - -------- D (X, 599) - - ------- D (798, 599)
D (799, 599)
Reverse scan (DPS = "GND" or "Open")
D (799,599) D (798,599) - -------- D (X, 599) - - ------- D (1,599) D (0,599)
D (799,598) D (798,598) - -------- D (X, 598) - - ------- D (1,598) D (0,598)
--------- ---------
D (799, Y) D (798, Y) - -------- D (X, Y) - - ------- D (1, Y) D (0, Y)
--------- ---------
D (799, 1) D (798, 1) - -------- D (X, 1) - - ------- D (1, 1) D (0, 1)
D (799, 0) D (798, 0) - -------- D (X, 0) - - ------- D (1, 0)
D (0, 0)
The drawings below show the relationship between the scan direction and the viewing direction.
Normal scan Reverse scan
D (0, 0) D (799, 0)
D (0, 599) D (799, 599)
C
N
1
C
N
2D (0, 0) D (799, 0)
D (0, 599) D (799, 599) C
N
1
C
N
2
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NL8060BC26-17
17
Data Sheet EN0493EJ1V1DS00
OPTICAL CHARACTERISTICS
Ta = 25°C Note 1
Item Symbol Condition Min. Typ. Max. Unit Remarks
Contrast ratio CR Note 2 150 300 ––Note 3
Luminance Lu max Note 2 200 280 cd/m2Note 4
Luminance uniformity max./min. ––1.4 Note 5
Reference data
Item Symbol Condition Min. Typ. Max. Unit Remarks
Response time ton White to black 100% 10% 15 50 ms Note 6
toff Black to white 0% 90% 65 80 ms
Color gamut C at center, to NTSC 43 %
Horizontal
θ
x+ CR > 10,
θ
y = ±0°45 50 deg. Note 7
θ
xCR > 10,
θ
y = ±0°45 50 deg.
Vertical
θ
y+ CR > 10,
θ
y = ±0°30 35 deg.
θ
yCR > 10,
θ
y = ±0°40 45 deg.
Notes: 1. VCC = 3.3 V; IL = 5.0 mA rms; DPS = High at normal scan with recommended inverter.
2. Viewing angle:
θ
x = ±0°,
θ
y = ±0°, at center.
3. The contrast ratio is calculated by using the following formula.
Luminance with all pixels in "white"
Luminance with all pixels in "black"
The luminance is measured in darkroom.
4. The luminance is measured after 20 minutes from the module works, with all pixels in "white". Typical
value is measured after luminance saturation. The luminance is measured in darkroom.
1°
Photodetector (TOPCON BM-5A)
50 cm
LCD Module
Viewing
angle range
Contrast ratio (CR) =
NL8060BC26-17
18 Data Sheet EN0493EJ1V1DS00
5. The luminance uniformity is calculated by using following formula.
Maximum luminance
Minimum luminance
The luminance is measured at or near the five points shown below.
(160)Column
Line
(320) (480)
(120)
(240)
(360)
1
2
3
4
5
6. Definition of response time is as follows.
The photodetector output signal is measured when the luminance changes from white to black or from
black to white.
0%
10%
100%
90%
ton toff
White
Black
Time
Display color
Luminance
range
7. Definitions of viewing angles are as follows.
Left
Right
Lower
Perpendicular
Upper
12 oclock
x+
x
θ
θ
θ
y+
θ
y
Luminance uniformity =
NL8060BC26-17
19
Data Sheet EN0493EJ1V1DS00
RELIABILITY TEST
Test Items Test Conditions Notes
High temperature/humidity 50 ± 2°C, 85% relative humidity Note 1
operation 240 hours
Display data is black.
Heat cycle (operation) <1> 0°C ± 3°C 1 hour Note 1
55°C ± 3°C 1 hour
<2> 50 cycles, 4 hours/cycle
<3> Display data is black.
Thermal shock (nonoperation) <1> 20°C ± 3°C 30 minutes Note 1
60°C ± 3°C 30 minutes
<2> 100 cycles
<3> Temperature transition time within 5 minutes
Vibration (nonoperation) <1> 5 - 100 Hz, 19.6 m/s2 (2G) Note 1
1 minute/cycle, Note 2
X, Y, Z direction
<2> 120 times each direction
Mechanical shock <1> 539 m/s2 (55G), 11 ms Note 1
(nonoperation) X, Y, Z direction Note 2
<2> 5 times each direction
ESD (operation) 150 pF, 150 , ±10 kV Note 1
9 places on a panel Note 3
10 times each place at one-second intervals
Dust (operation) 15 kinds of dust (JIS Z 8901) Note 1
Hourly 15 seconds stir, 8 times repeat
Notes: 1. Display function is checked by the same condition as the LCD module outgoing inspection.
2. Physical damage.
3. Discharge points are shown as follows.
NL8060BC26-17
20 Data Sheet EN0493EJ1V1DS00
GENERAL CAUTIONS
The figures and statements below are very important. Please be sure you understand their contents
completely.
This mark indicates that you will get hurt and/or the module will be damaged if you make a
mistake in operation.
This figure indicates that you will get hurt if you make a mistake in operation.
CAUTION
(1) Caution when taking out the module
<1> Pick up the pouch only, when removing the module from a carrier box.
(2) Cautions for handling the module
<1> As electrostatic discharges may break the LCD module, handle the LCD module with care against
electrostatic discharges.
<2> As the LCD panel and backlight element are made from fragile glass material, impact and
pressure to the LCD module should be avoided.
<3> As the surface of the polarizer is very soft and easily scratched, use a soft dry cloth without chemicals
for cleaning.
<4> Do not pull the interface connectors in or out while the LCD module is operating.
<5> Put the module display side down on a flat horizontal plane.
<6> Handle connectors and cables with care.
<7> When the module is operating, do not lose the CLK, Hsync, or Vsync signal. If any one of these signals
is lost, the LCD panel will be damaged.
<8> The torque for mounting screws should never exceed 0.294 N·m (3 kgf·cm).
<9> Don’t push or rub the surface of the LCD module.
If you do, scratches or rubbing marks may be left on the surface of the module.
<10> Do not give any stress to the interface connector.
(3) Cautions regarding atmosphere
<1> Dew-drop atmosphere must be avoided.
<2> Do not store and/or operate the LCD module in a high-temperature and/or high-humidity atmosphere.
Storage in an electro-conductive polymer packing pouch and in a relatively low-temperature atmosphere
is recommended.
<3> This module uses cold cathode fluorescent lamps. Therefore, the lifetime of the lamp is shortened
conspicuously at very low temperatures.
<4> Do not operate the LCD module in a high magnetic field.
(4) Cautions about module characteristics
<1> Do not apply any fixed-pattern data signals to the LCD module at product aging. Applying a fixed pattern
for a long time may cause image sticking.
<2> This module has retardation film, which may cause variation of the color hue at different viewing angles.
Nonuniformity may appear on the screen during high-temperature operation.
<3> A light vertical stripe may be observed, depending on the display pattern. This is not a defect or a
malfunction.
<4> Noise from the inverter circuit may be observed in the luminance control mode. This is not a defect or
a malfunction.
CAUTION
NL8060BC26-17
21
Data Sheet EN0493EJ1V1DS00
(5) Other cautions
<1> Do not disassemble and/or reassemble the LCD module.
<2> Do not readjust variable resistors or switches, etc.
<3> When returning the module for repair, etc., please pack the module properly so as to avoid damages. We
recommend using the original shipping packages.
<4> If a scan converter is used to convert the VGA signal to NTSC, it is recommended to use the frame memory
type, not the line memory.
The liquid crystal display has the following specific characteristics. These are not defects or
malfunctions.
The display condition of the LCD module may be affected by the ambient temperature.
The LCD module uses a cold cathode tube for backlighting. Optical characteristics, like luminance or
uniformity, will change over time.
Uneven brightness and/or small spots may be observed, depending on different display patterns.
NL8060BC26-17
22 Data Sheet EN0493EJ1V1DS00
OUTLINE DRAWING
FRONT SIDE (Unit: mm)
Notes : 1. The torque on mounting screws should never exceed 0.294 N·m (3Kgf·cm).
2. The values in parentheses are for reference.
11.5 MAX.
5.25 ±0.3
2.75 ±0.2
(6.3)
(88.3)
(3.7)
8.25 TYP.
5.25 ±0.3
2.75 ±0.2
CN1 DF9C-41P-1 V
185.1 ±0.5
(29.4)
166.6 ±0.3
(5.7) (5.1)
17 ±0.3
(5.7)(5.1)
243 ±0.5
235 ±0.3
(215.4) (BEZEL OPENING)
(4.8)
7.2 ±0.3
(211.2) (ACTIVE AREA) (9.3)
(2.8) (4) (2.9) (3.9)
11.5 MAX 8.25 TYP.
(8.1) (4.7)
132.6 ±0.3
(8.1)(4.7)
(158.4) (ACTIVE AREA)
146.6 ±0.3
(12.9)
(161.8) (BEZEL OPENING)
(2.9) (3.9)
8.25 TYP.
11.5 MAX.
(88.3)
5.25 ±0.3
2.75 ±0.2
(2.8) (4)
5.25 ±0.3
2.75 ±0.2
4-CPIMS × M2 × L4
2- 3.5
φ
(1.8)
(3.15)
(ACTIVE AREA)
(MODULE CENTER)
2-R1.75
NL8060BC26-17
23
Data Sheet EN0493EJ1V1DS00
OUTLINE DRAWING
REAR SIDE (Unit: mm)
2000A483324KMADE IN JAPAN
ES2228423
K2000A483324
NL8060BC26-17
BHR-03VS-1 (JST)
(4.5)
(5)
(5)
(3.4)
(6.8)(8)
(5)
(5)(6.8)
(5)
(5)
(3.4)(3.4)
(4.5)
(2.4)(6.6)
(2.4)
(5.6)
2.3 ±0.5
4.0 ±0.5
(5)(5.3) (16)(22)
88.9 ±0.5 (5.3)(5)
1 PIN: COLD: 2, 3 PINS: HOT
60 ±10
DF9C-41P-1 V
NION VOLTEGE
CAUTION
RISK OF ELECTRIC SHOCK.
DISCONNECT THE ELECTRIC
POWER BEFORE SERVICE.
Name
104DLM-
S
∗ ∗ ∗ − ∗
Pal No.
THE TFT COLOR LCD
PANEL CONTAINS COLD CATHODE
FLUORESCENT LAMPS. PLEASE
FOLLOW LOCAL ORDINANCES
OR REGULATIONS FOR THEIR
DISPOSAL.
NL8060BC26-17
No part of this document may be copied or reproduced in any form or by any means without the
prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any
errors which may appear in this document.
NEC Corporation does not assume any liability for infringement of patents, copyrights or other
intellectual property rights of third parties by or arising from use of a device described herein or
any other liability arising from use of such device. No license, either express, implied or
otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC
Corporation or others.
While NEC Corporation has been making continuous effort to enhance the reliability of its
electronic components, the possibility of defects cannot be eliminated entirely. To minimize risks
of damage or injury to persons or property arising from a defect in an NEC electronic component,
customers must incorporate sufficient safety measures in its design, such as redundancy, fire-
containment, and anti-failure features. NEC devices are classified into the following three quality
grades:
"Standard," "Special," and "Specific". The Specific quality grade applies only to devices
developed based on a customer designated "quality assurance program" for a specific
application. The recommended applications of a device depend on its quality grade, as indicated
below. Customers must check the quality grade of each device before using it in a particular
application.
Standard: Computers, office equipment, communications equipment, test and measurement
equipment, audio and visual equipment, home electronic appliances, machine tools,
personal electronic equipment and industrial robots
Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems,
anti-disaster systems, anti-crime systems, safety equipment and medical
equipment (not specifically designed for life support)
Specific: Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control
systems, life support systems or medical equipment for life support, etc.
The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets
or Data Books. If customers intend to use NEC devices for applications other than those
specified for Standard quality grade, they should contact an NEC sales representative in
advance.
(Note)
(1) "NEC" as used in this statement means NEC Corporation and also includes its majority-
owned subsidiaries.
(2) "NEC electronic component products" means any electronic component product developed
or manufactured by or for NEC (as defined above).
DE0202