NEWHAVEN NHD-0416B1Z-FSPG-YBW-L3V

User’s Guide
NHD-0416B1Z-FSPG-YBW-L3V
LCM
(Liquid Crystal Display Module)
RoHS Compliant
NHD- Newhaven Display
0416- 4 Lines x 16 Characters
Version Line
B1ZTransflective
FSPG- Side Pure Green LED B/L
STN-Yellow/Green
Y6:00 View
BWide Temperature (-20 ~ +70c)
WL3V- Low Power (20mA) 3 .3 volts
For product support, contact
Newhaven Display International
2511 Technology Drive, #101
Elgin, IL 60124
Tel: (847) 844-8795 Fax: (847) 844-8796
F ebruary 29, 2008
NHD-0416B1Z
Newhaven Display
DOCUMENT REVISION HISTORY
Version
00
DATE
NOV-05-2005
DESCRIPTION
CHANGED BY
First issue
CONTENTS
Item
Page
Functions & Features
Mechanical specifications
Dimensional Outline
Absolute maximum ratings
Block diagram
Pin description
Contrast adjust
Optical characteristics
Electrical characteristics
Timing Characteristics
Instruction description
Display character address code:
character pattern
Quality Specifications
3
3
4
5
5
5
6
6
6
7-8
9-12
12
13
14--21
2
NHD-0416B1Z
Newhaven Display
1.Features
1.
2.
3.
4.
5.
6.
5x8 dots with cursor
Built-in controller (KS0066U or equivalent)
+3.3V power supply
1/16 duty cycle;1/5bias
BKL to be driven by pin1, pin2, or pin15, pin16 or A, K
16characters *4lines display
LCD type
†FSTN positive
†FSTN Negative
;STN Yellow Green
†STN Gray
View direction
;6 O’clock
†12 O’clock
Rear Polarizer
†Reflective
;Transflective
Backlight Type
;LED
†EL
†Internal Power
†CCFL
;External Power
Backlight Color
†White
†Amber
†Blue-Green
Temperature Range †Normal
;Wide
DC to DC circuit
†Build-in
;Not Build-in
El Driver IC
†Build-in
;Not Build-in
Touch screen
†With
;Without
;English-Japanese †English-European †English-Russian
Font type
†STN-Blue
†Transmissive
†4.2V input
;5.0 input
;Pure-Green
†Super Wide
† other
2. MECHANICAL SPECIFICATIONS
Module size
Viewing area
Character size
Character pitch
Weight
87.0mm(L)*60.0mm(W)* Max14.0(H)mm
61.8mm(L)*25.2mm(W)
2.95mm(L)*4.75mm(W)
3.55mm(L)*5.35mm(W)
Approx.
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4. Absolute maximum ratings
Item
Power voltage
Input voltage
Operating temperature range
Storage temperature range
Symbol
VDD-VSS
VIN
VOP
VST
0
VSS
-20
-30
Standard
-
Unit
7.0
VDD
+70
+80
V
ഒ
5. Block diagram
6.Interface pin description
Pin no.
Symbol
External
connection
1
2
3
4
5
6
VSS
VDD
V0
Power supply
RS
R/W
E
MPU
MPU
MPU
7~10
DB0~DB3
MPU
11~14
DB4~DB7
MPU
15
16
LED+
LED-
LED BKL power
supply
Function
Signal ground for LCM (GND)
Power supply for logic (+3.3V) for LCM
Contrast adjust
Register select signal
Read/write select signal
Operation (data read/write) enable signal
Four low order bi-directional three-state data bus lines.
Used for data transfer between the MPU and the LCM.
These four are not used during 4-bit operation.
Four high order bi-directional three-state data bus lines.
Used for data transfer between the MPU
Power supply for BKL (+5.0V)
Power supply for BKL (GND)
NHD-0416B1Z
Newhaven Display
7. Contrast adjust
VDD~V0: LCD Driving voltage
VR: 10k~20k
8. Optical characteristics
TN type display module (Ta=25ഒ, VDD=3.3V)
Item
Viewing angle
Symbol
Condition
˥
Crุ4
˓
Cr
Tr
Tr
Contrast ratio
Response time (rise)
Response time (fall)
-
Min.
-25
Typ.
-
Max.
-
-30
-
2
120
120
30
150
150
Min.
-60
Typ.
-
Max.
35
-40
6
150
150
40
250
250
Unit
deg
ms
STN type display module (Ta=25ഒ, VDD=3.3V)
Item
Viewing angle
Symbol
Condition
˥
Crุ2
˓
Cr
Tr
Tr
Contrast ratio
Response time (rise)
Response time (fall)
-
-
Unit
deg
ms
9. Electrical characteristics
DC characteristics
Parameter
Supply voltage for LCD
Symbol
VDD-V0
Input voltage
Supply current
VDD
IDD
Input leakage current
“H” level input voltage
“L” level input voltage
“H” level output voltage
“L” level output voltage
Backlight supply voltage
Backlight supply current
ILKG
VIH
VIL
VOH
VOL
VF
Conditions
Ta =25ഒ
Min.
Typ.
Max.
Unit
-
3.2
-
V
3.2
Ta=25ഒ, VDD=3.3V
-
Twice initial value or less
LOH=-0.25mA
LOH=1.6mA
2.2
0
2.4
--
ILED
6
1.5
3.2
20
3.4
3.0
1.0
VDD
0.6
0.4
-----
mA
uA
V
mA
NHD-0416B1Z
Newhaven Display
10. Timing Characteristics
Write cycle (Ta=25ഒ, VDD=3.V)
Parameter
Symbol
Enable cycle time
tc
Enable pulse width
tw
Enable rise/fall time
tr, tf
RS; R/W setup time
tsu1
RS; R/W address hold
time
Read data output delay
Read data hold time
Test pin
Typ.
Max.
Unit
500
300
100
-
25
-
ns
10
-
-
60
10
-
-
E
RS; R/W
RS; R/W
th1
tsu2
th2
Min.
DB0~DB7
Write mode timing diagram
VIH1
VIL1
th1
tsu1
VIL1
VIL1
tw
th1
VIH1
VIH1
VIL1
tf
VIL1
tr
tsu2
th2
VIH1
VIL1
VALID DATA
tc
7
VIL1
VIH1
VIL1
NHD-0416B1Z
Newhaven Display
Read cycle (Ta=25ഒ, VDD=3.3V)
Parameter
Symbol
Enable cycle time
tc
Enable pulse width
tw
Enable rise/fall time
tr, tf
RS; R/W setup time
tsu
RS; R/W address hold
time
Read data output delay
Read data hold time
Read mode timing diagram
Test pin
E
RS; R/W
RS; R/W
th
td
tdh
DB0~DB7
Min.
Typ.
Max.
Unit
500
300
100
-
25
-
ns
10
-
-
60
20
-
90
-
VIH1
VIL1
th
tsu
VIL1
VIL1
th
tw
tf
VIH1
VIH1
VIL1
VIL1
VIL1
tr
tdh
td
VIH1
VIL1
VALID DATA
tc
8
VIH1
VIL1
NHD-0416B1Z
Newhaven Display
11. Instruction description
11.1Outline
To overcome the speed difference between the internal clock of KS0066U and the MPU clock, KS0066U
performs internal operations by storing control in formations to IR or DR. The internal operation is determined
according to the signal from MPU, composed of read/write and data bus (Refer to Table7).
Instructions can be divided largely into four groups:
1) KS0066U function set instructions (set display methods, set data length, etc.)
2) Address set instructions to internal RAM
3) Data transfer instructions with internal RAM
4) Others
The address of the internal RAM is automatically increased or decreased by 1.
Note: during internal operation, busy flag (DB7) is read “High”.
Busy flag check must be preceded by the next instruction.
11.2 Instruction Table
Instruction code
Instruction
RS
DB
R/W DB7 DB6
5
DB
DB4 DB3 DB2
1
DB0
Clear
Display
0
0
0
0
0
0
0
0
0
1
Return
Home
0
0
0
0
0
0
0
0
1
-
Entry mode
Set
0
0
0
0
0
0
0
1
I/D
SH
Display ON/
OFF control
0
0
0
0
Cursor or
Display shift
0
0
0
0
Function
set
0
0
0
0
0
0
0
1
0
0
1
Set
CGRAM
Address
Set
DDRAM
Address
Read busy
Flag and
Address
Write data
to
Address
Read data
Execution
time (fosc=
270 KHZ
Description
Write “20H” to DDRA and set
DDRAM address to “00H” from
AC
Set DDRAM address to “00H”
From AC and return cursor to
Its original position if shifted.
The contents of DDRAM are
not changed.
Assign cursor moving direction
And blinking of entire display
Set display (D), cursor (C), and
Blinking of cursor (B) on/off
Control bit.
Set cursor moving and display
Shift control bit, and the
0
1
S/C R/L Direction, without changing of
DDRAM data.
Set interface data length (DL:
8Bit/4-bit), numbers of display
1
DL N
F
Line (N: =2-line/1-line) and,
Display font type (F: 5x11/5x8)
Set CGRAM address in
AC5 AC4 AC3 AC2 AC1 AC0 address
Counter.
0
0
1
D
C
Set
DDRAM
address
0
1
BF
1
0
D7
Whether during internal
Operation or not can be known
AC6 AC5 AC4 AC3 AC2 AC1 AC0 By reading BF. The contents of
Address counter can also be
read.
Write data into internal RAM
D6 D5 D4 D3 D2 D1 D0 (DDRAM/CGRAM).
1
1
D7
D6
D3
9
D2
D1
39us
D0
39us
39us
39us
in
Counter.
D4
1.53ms
B
AC6 AC5 AC4 AC3 AC2 AC1 AC0 address
D5
1.53ms
Read data from internal RAM
39us
0us
43us
43us
NHD-0416B1Z
Newhaven Display
(DDRAM/CGRAM).
From RAM
NOTE:
When an MPU program with checking the busy flag (DB7) is made, it must be necessary 1/2fosc is
necessary for executing the next instruction by the falling edge of the “E” signal after the busy flag (DB7) goes
to “Low”.
11.3Contents
1) Clear display
RS
R/W
0
0
DB7
0
DB6
0
DB5
0
DB4
0
DB3
0
DB2
0
DB1
0
DB0
1
Clear all the display data by writing “20H” (space code) to all DDRAM address, and set DDRAM address
to “00H” into AC (address counter).
Return cursor to the original status, namely, bring the cursor to the left edge on the fist line of the display.
Make the entry mode increment (I/D=“High”).
2)
Return home
RS
R/W
DB7
DB6
DB5
DB4
DB3
DB2
0
0
0
0
0
0
0
0
Return home is cursor return home instruction.
Set DDRAM address to “00H” into the address counter.
Return cursor to its original site and return display to its original status, if shifted.
Contents of DDRAM does not change.
3)
Entry mode set
RS
R/W
0
0
DB7
0
DB6
0
DB5
0
DB4
0
DB3
0
DB2
1
DB1
1
DB0
-
DB1
I/D
DB0
SH
Set the moving direction of cursor and display.
I/D: increment / decrement of DDRAM address (cursor or blink)
When I/D=“high”, cursor/blink moves to right and DDRAM address is increased by 1.
When I/D=“Low”, cursor/blink moves to left and DDRAM address is increased by 1.
*CGRAM operates the same way as DDRAM, when reading from or writing to CGRAM.
SH: shift of entire display
When DDRAM read (CGRAM read/write) operation or SH=“Low”, shifting of entire display is not performed. If
SH =“High” and DDRAM write operation, shift of entire display is performed according to I/D value. (I/D=“high”.
shift left, I/D=“Low”. Shift right).
4)
Display ON/OFF control
RS
R/W
DB7
DB6
DB5
0
0
0
0
0
Control display/cursor/blink ON/OFF 1 bit register.
DB4
0
DB3
1
DB2
D
DB1
C
DB0
B
D: Display ON/OFF control bit
When D=“High”, entire display is turned on.
When D=“Low”, display is turned off, but display data remains in DDRAM.
C: cursor ON/OFF control bit
When D=“High”, cursor is turned on.
When D=“Low”, cursor is disappeared in current display, but I/D register preserves its data.
B: Cursor blink ON/OFF control bit
When B=“High”, cursor blink is on, which performs alternately between all the “High” data and display
characters at the cursor position.
When B=“Low”, blink is off.
5)
Cursor or display shift
10
NHD-0416B1Z
Newhaven Display
RS
R/W
DB7
DB6
DB5
DB4
DB3
DB2
DB1
0
0
0
0
0
1
S/C
R/L
Shifting of right/left cursor position or display without writing or reading of display data.
This instruction is used to correct or search display data.
During 2-line mode display, cursor moves to the 2nd line after the 40th digit of the 1st line.
Note that display shift is performed simultaneously in all the lines.
When display data is shifted repeatedly, each line is shifted individually.
When display shift is performed, the contents of the address counter are not changed.
DB0
-
Shift patterns according to S/C and R/L bits
S/C
0
0
1
1
6)
R/L
0
1
0
1
Function set
RS
R/W
0
0
Operation
Shift cursor to the left, AC is decreased by 1
Shift cursor to the right, AC is increased by 1
Shift all the display to the left, cursor moves according to the display
Shift all the display to the right, cursor moves according to the display
DB7
0
DB6
0
DB5
1
DB4
DL
DB3
N
DB2
F
DB1
-
DB0
-
DL: Interface data length control bit
When DL=“High”, it means 8-bit bus mode with MPU.
When DL=“Low”, it means 4-bit bus mode with MPU. Hence, DL is a signal to select 8-bit or 4-bit bus mode.
When 4-bit bus mode, it needs to transfer 4-bit data twice.
N: Display line number control bit
When N=“Low”, 1-line display mode is set.
When N=“High”, 2-line display mode is set.
F: Display line number control bit
When F=“Low”, 5x8 dots format display mode is set.
When F=“High”, 5x11 dots format display mode.
7)
Set CGRAM address
RS
R/W
DB7
0
0
0
DB6
1
DB5
AC5
DB4
AC4
DB3
AC3
DB2
AC2
DB1
AC1
DB0
AC0
DB4
AC4
DB3
AC3
DB2
AC2
DB1
AC1
DB0
AC0
Set CGRAM address to AC.
The instruction makes CGRAM data available from MPU.
8)
Set DDRAM address
RS
R/W
DB7
0
0
1
DB6
AC6
DB5
AC5
Set DDRAM address to AC.
This instruction makes DDRAM data available form MPU.
When 1-line display mode (N=LOW), DDRAM address is form “00H” to “4FH”.In 2-line display mode (N=High),
DDRAM address in the 1st line form “00H” to “27H”, and DDRAM address in the 2nd line is from “40H” to
“67H”.
9)
Read busy flag & address
RS
R/W
DB7
0
1
BF
DB6
AC6
DB5
AC5
DB4
AC4
DB3
AC3
DB2
AC2
DB1
AC1
DB0
AC0
This instruction shows whether KS0066U is in internal operation or not.
If the resultant BF is “High”, internal operation is in progress and should wait BF is to be LOW, which by then
the nest instruction can be performed. In this instruction you can also read the value of the address counter.
11
NHD-0416B1Z
Newhaven Display
10) Write data to RAM
RS
R/W
DB7
1
0
D7
DB6
D6
DB5
D5
DB4
D4
DB3
D3
DB2
D2
DB1
D1
DB0
D0
Write binary 8-bit data to DDRAM/CGRAM.
The selection of RAM from DDRAM, and CGRAM, is set by the previous address set instruction (DDRAM
address set, CGRAM address set).
RAM set instruction can also determine the AC direction to RAM.
After write operation. The address is automatically increased/decreased by 1, according to the entry mode.
11) Read data from RAM
RS
R/W
DB7
1
1
D7
DB6
D6
DB5
D5
DB4
D4
DB3
D3
DB2
D2
DB1
D1
DB0
D0
Read binary 8-bit data from DDRAM/CGRAM.
The selection of RAM is set by the previous address set instruction. If the address set instruction of RAM
is not performed before this instruction, the data that has been read first is invalid, as the direction of AC is not
yet determined. If RAM data is read several times without RAM address instructions set before, read operation,
the correct RAM data can be obtained from the second. But the first data would be incorrect, as there is no
time margin to transfer RAM data.
In case of DDRAM read operation, cursor shift instruction plays the same role as DDRAM address set
instruction, it also transfers RAM data to output data register.
After read operation, address counter is automatically increased/decreased by 1 according to the entry
mode.
After CGRAM read operation, display shift may not be executed correctly.
NOTE: In case of RAM write operation, AC is increased/decreased by 1 as in read operation.
At this time, AC indicates next address position, but only the previous data can be read by the read
instruction.
12. Display character address code:
1
00
40
10
50
2
01
41
11
51
3
02
42
12
52
4
03
43
13
53
5
04
44
14
54
6
05
45
15
55
7
06
46
16
56
12
8
07
47
17
57
9
08
48
18
58
10
09
49
19
59
11
0A
4A
1A
5A
12
0B
4B
1B
5B
13
0C
4C
1C
5C
14
0D
4D
1D
5D
15
0E
4E
1E
5E
16
0F
4F
1F
5F
NHD-0416B1Z
Newhaven Display
13. Standard character pattern
13
NHD-0416B1Z
Newhaven Display
14. QUALITY SPECIFICATIONS
14.1 Standard of the product appearance test
Manner of appearance test: The inspection should be performed in using 20W x 2 fluorescent lamps.
Distance between LCM and fluorescent lamps should be 100 cm or more. Distance between LCM and
inspector eyes should be 30 cm or more.
Viewing direction for inspection is 45° from vertical against LCM.
Fluorescent
Lamps
30cm min
o
45
LCM
100cm min
o
45
LCD
Definition of zone:
A Zone
B Zone
A Zone: Active display area (minimum viewing area).
B Zone: Non-active display area (outside viewing area).
14
NHD-0416B1Z
Newhaven Display
14.2 Specification of quality assurance
AQL inspection standard
Sampling method: MIL-STD-105E, Level II, single sampling
Defect classification (Note: * is not including)
Classify
Major
Display state
Item
Note
AQL
Short or open circuit
1
0.65
LC leakage
Flickering
No display
Wrong viewing direction
Contrast defect (dim, ghost)
Back-light
Non-display
Minor
2
1,8
Flat cable or pin reverse
10
Wrong or missing component
11
Display
Background color deviation
2
state
Black spot and dust
3
Line defect, Scratch
4
Rainbow
5
Chip
6
Pin hole
7
Polarizer
Protruded
12
Bubble and foreign material
3
Soldering
Poor connection
9
Wire
Poor connection
10
TAB
Position, Bonding strength
13
15
1.0
NHD-0416B1Z
Newhaven Display
Note on defect classification
No.
1
Item
Criterion
Short or open circuit
Not allow
LC leakage
Flickering
No display
Wrong viewing direction
Wrong Back-light
2
Contrast defect
Background
deviation
3
Refer to approval sample
color
Point defect,
Black spot, dust
(including Polarizer)
Point
Size
I0.10
Y
X
I = (X+Y)/2
0.10Iื0.20
Disregard
3
0.20Iื0.25
2
0.25Iื0.30
1
Unit᧶mm
0
I>0.30
4
Line defect,
W
Scratch
Line
L
---
L
Acceptable Qty.
Acceptable Qty.
W
0.015ุW
Disregard
3.0ุL
0.03ุW
2.0ุL
0.05ุW
1.0ุL
0.1᧺W
1
---
0.05W
Applied as point defect
2
Unit: mm
5
Rainbow
Not more than two color changes across the viewing area.
16
NHD-0416B1Z
No
6
Newhaven Display
Item
Criterion
Chip
Acceptable criterion
X
Remark:
X: Length
direction
X
Y
t
Z
ื2
Y
0.5mm
Z
ืW/2
Y: Short
direction
Z: Thickness
direction
X
t: Glass
thickness
Acceptable criterion
Y
X
Y
0.5mm
ื2
W: Terminal
Width
Z
ืW
Z
Acceptable criterion
X
Y
Z
ื3
ื2
shall not reach to ITO
Y
ืW
X
Acceptable criterion
W
Y
Z
X
Disregard
Y
Z
ื0.2
ืW
X
Acceptable criterion
X
Y
Y
ื
X
17
Z
ื
Z
ืt/3
NHD-0416B1Z
No.
7
Newhaven Display
Item
Segment
pattern
W = Segment width
I = (X+Y)/2
Criterion
(1) Pin hole
I < 0.10mm is acceptable.
X
X
Point Size
IืW
Y
Y
W
Acceptable Qty
Disregard
W IืW
1
I᧺W
0
U i
8
Back-light
9
Soldering
(1) The color of
specification.
backlight
should
correspond
(2) Not allow flickering
(1) Not allow heavy dirty and solder ball on PCB.
(The size of dirty refer to point and dust defect)
(2) Over 50% of lead should be soldered on Land.
Lead
Land
50% lead
10
Wire
(1) Copper wire should not be rusted
(2) Not allow crack on copper wire connection.
(3) Not allow reversing the position of the flat cable.
(4) Not allow exposed copper wire inside the flat cable.
11*
PCB
(1) Not allow screw rust or damage.
(2) Not allow missing or wrong putting of component.
18
its
NHD-0416B1Z
No
12
Newhaven Display
Item
Criterion
Protruded
W: Terminal Width
Acceptable criteria:
W
Y d 0.4
Y
X
13
TAB
1. Position
W
W1
H
W1ื1/3W
H1ื1/3H
H1
2
ITO
TAB
TAB bonding strength test
F
TAB
P (=F/TAB bonding width) ุ650gf/cm ,(speed rate: 1mm/min)
5pcs per SOA (shipment)
14
Total no. of acceptable
A. Zone
Defect
Maximum 2 minor non-conformities per one unit.
Defect distance: each point to be separated over 10mm
B. Zone
It is acceptable when it is no trouble for quality and assembly
in customer’s end product.
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14.3 Reliability of LCM
Reliability test condition:
Item
Condition
Time (hrs)
High temp. Storage
80qC
48
High temp. Operating
70qC
48
Low temp. Storage
-30qC
48
Low temp. Operating
-20qC
48
Humidity
40qC/ 90%RH
48
Temp. Cycle
0qC m 25qC o50qC
10cycles
Assessment
No abnormalities
in functions
and appearance
(30 min m 5 min o 30min)
Recovery time should be 24 hours minimum. Moreover, functions, performance and appearance shall be free
from remarkable deterioration within 50,000 hours under ordinary operating and storage conditions room
temperature (20+8qC), normal humidity (below 65% RH), and in the area not exposed to direct sun light.
14.4 Precaution for using LCD/LCM
LCD/LCM is assembled and adjusted with a high degree of precision. Do not attempt to make
any alteration or modification. The followings should be noted.
General Precautions:
1. LCD panel is made of glass. Avoid excessive mechanical shock or applying strong
pressure onto the surface of display area.
2. The polarizer used on the display surface is easily scratched and damaged. Extreme care
should be taken when handling. To clean dust or dirt off the display surface, wipe gently
with cotton, or other soft material soaked with isopropyl alcohol, ethyl alcohol or
trichlorotriflorothane, do not use water, ketone or aromatics and never scrub hard.
3. Do not tamper in any way with the tabs on the metal frame.
4. Do not make any modification on the PCB without consulting Newhaven Display.
5. When mounting a LCM, make sure that the PCB is not under any stress such as bending
or twisting. Elastomer contacts are very delicate and missing pixels could result from
slight dislocation of any of the elements.
6. Avoid pressing on the metal bezel, otherwise the elastomer connector could be deformed
and lose contact, resulting in missing pixels and also cause rainbow on the display.
7. Be careful not to touch or swallow liquid crystal that might leak from a damaged cell. Any
liquid crystal adheres to skin or clothes, wash it off immediately with soap and water.
Static Electricity Precautions:
1. CMOS-LSI is used for the module circuit; therefore operators should be grounded
whenever he/she comes into contact with the module.
2. Do not touch any of the conductive parts such as the LSI pads; the copper leads on
the PCB and the interface terminals with any parts of the human body.
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Newhaven Display
3. Do not touch the connection terminals of the display with bare hand; it will cause
disconnection or defective insulation of terminals.
4. The modules should be kept in anti-static bags or other containers resistant to static
for storage.
5. Only properly grounded soldering irons should be used.
6. If an electric screwdriver is used, it should be grounded and shielded to prevent
sparks.
7. The normal static prevention measures should be observed for work clothes and
working benches.
8. Since dry air is inductive to static, a relative humidity of 50-60% is recommended.
Soldering Precautions:
1. Soldering should be performed only on the I/O terminals.
2. Use soldering irons with proper grounding and no leakage.
3. Soldering temperature: 280qC+10qC
4. Soldering time: 3 to 4 second.
5. Use eutectic solder with resin flux filling.
6. If flux is used, the LCD surface should be protected to avoid spattering flux.
7. Flux residue should be removed.
Operation Precautions:
1. The viewing angle can be adjusted by varying the LCD driving voltage Vo.
2. Since applied DC voltage causes electro-chemical reactions, which deteriorate the display,
the applied pulse waveform should be a symmetric waveform such that no DC component
remains. Be sure to use the specified operating voltage.
3. Driving voltage should be kept within specified range; excess voltage will shorten display
life.
4. Response time increases with decrease in temperature.
5. Display color may be affected at temperatures above its operational range.
6. Keep the temperature within the specified range usage and storage. Excessive
temperature and humidity could cause polarization degradation, polarizer peel-off or
generate bubbles.
7. For long-term storage over 40qC is required, relative humidity should be kept below 60%,
and avoid direct sunlight.
Limited Warranty:
Newhaven Display LCDs and modules are not consumer products, but may be incorporated by
Newhaven Display customers into consumer products or components thereof, Newhaven Display does
not warrant that its LCDs and components are fit for any such particular purpose.
1. The liability of Newhaven Display is limited to repair or replacement on the terms set forth
below. Newhaven Display will not be responsible for any subsequent or consequential events
or injury or damage to any personnel or user including third party personnel and/or user.
Unless otherwise agreed in writing between Newhaven Display and the customer, Newhaven
Display will only replace or repair any of its LCD which is found defective electrically or visually
when inspected in accordance with Newhaven Display general LCD inspection standard.
(Copies available on request)
2. No warranty can be granted if any of the precautions stated in handling of liquid crystal display
above has been disregarded. Broken glass, scratches on polarizer mechanical damages as
well as defects that are caused accelerated environment tests are excluded from warranty.
3. When returning the LCD/LCM, they must be properly packaged and should have a detailed description of
the failures or defect
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