NHD-7.0-800480EF-ATXL#-CTP Datasheet by Newhaven Display Intl

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Newhaven Display International, Inc. www.newhavendisglay.com nhtech@newhavendisplayxom nhsales@newhavendisplav.com
NHD-7.0-800480EF-ATXL#-CTP
TFT (Thin-Film-Transistor) Color Liquid Crystal Display Module
NHD- Newhaven Display
7.0- 7.0” Diagonal
800480- 800xRGBx480 pixels
EF- Model
A- Built-in driver / No Controller
T- White LED backlight
X- TFT
L- 12:00 Optimal View, Wide Temperature
#- RoHS Compliant
CTP- Capacitive Touch Panel with Controller
Newhaven Display International, Inc.
2661 Galvin Ct.
Elgin IL, 60124
Ph: 847-844-8795 Fax: 847-844-8796
www.newhavendisplay.com
nhtech@newhavendisplay.com nhsales@newhavendisplay.com
Document Revision History Revision Date Description Changed by 0 8/30/2013 In Release ML 1 4/1/2015 CTP mechanical dimensions updated AK 2 3/15/16 Brightness Rating Updated, Backlight Lifetime Rating Added, SB Datasheet Reformat, CI'P Voltage Updated 3 7/5/16 Chromaticity Added SB 4 8/14/18 Updated CTP Driver 8. Panel SB 5 12/11/18 Updated Mechanical Drawing TM 6 5/7/19 CTP Timing Note Added SB
[2]
Document Revision History
Revision
Date
Description
Changed by
0
8/30/2013
Initial Release
ML
1
4/1/2015
CTP mechanical dimensions updated
AK
2
3/15/16
Brightness Rating Updated, Backlight Lifetime Rating Added,
Datasheet Reformat, CTP Voltage Updated
SB
3
7/5/16
Chromaticity Added
SB
4
8/14/18
Updated CTP Driver & Panel
SB
5
12/11/18
Updated Mechanical Drawing
TM
6
5/7/19
CTP Timing Note Added
SB
Functions and Features
800xRGBx480 resolution
LED backlight
24-bit digital RGB interface
16.7M colors
Capacitive touch panel with controller
o 10-point multi-touch input
o Gesture input
Zoom In/Out
Swipe Up/Down/Left/Right
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C
B
A
D
E
F
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D
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4321 8765
4321 8765
CHECKED BY:
DRAW N DATE:
12/11/18
NS
- THIRD ANGLE PROJECTION
DRAWING/PART NUMBER:
STANDARD TOLERANCES
(UNLESS OTHERWISE SPECIFIED)
LINEAR:
XX.
XX.X
XX.XX
UNLESS OTHERWISE SPECIFIED
NHD-7.0-800480EF-ATXL#-CTP
REVISION:
1.0
SIZE:
A3
SCALE:
DRAW N BY:
T. Mellenthin
CHECKED DATE:
THIS DRAWING IS SOLELY THE PROPERTY OF NEWHAVEN DISPLAY INTERNATIONAL, INC.
THE INFORMATION IT CONTAINS IS NOT TO BE DISCLOSED, REPRODUCED OR COPIED IN
WHOLE OR PART WITHOUT WRITTEN APPROVAL FROM NEWHAVEN DISPLAY.
±0.3 mm
±0.3 mm
±0.3 mm
- DIMENSIONS ARE IN MILLIMETERS
SYMBOL REVISION DATE
DO NOT SCALE DRAWING
S. Baxi
12/11/18
APPROVED BY:
APPROVED DATE:
12/11/18
S. Baxi
PIN
1
2
3
4
5
6
7
8
9
10
SYMBOL
LED-K
LED-A
GND
VDD
R0
R1
R2
R3
R4
R5
11
12
13
14
15
16
17
18
19
20
R6
R7
G0
G1
G2
G3
G4
G5
G6
G7
31
32
33
34
35
36
37
38
39
40
HSYNC
VSYNC
DEN
NC
GND
NC(XR)
NC(YD)
NC(XL)
NC(YU)
DISP
21
22
23
24
25
26
27
28
29
30
B0
B1
B2
B3
B4
B5
B6
B7
GND
DCLK
PIN
1
2
3
4
5
6
SYMBOL
VDD
GND
SCL
SDA
INT
RESET
165 0.3
154.9
0.15(CTP VA)
80.54
7.01
4 x R0.3
104 0.3
49.48
86.85
0.15(CTP VA)
6.05
71 0.5
70.82 38.1 56.08
7 78.75 0.5
13.34
38.15
20.39 0.5
153.84(LCD AA)
7.26
85.63(LCD AA)
6.89
A
Overall: 5.20±0.4
TFT: 3.50±0.3
CTP: 1.40±0.1
0.3 (Adhesive)
0.30 0.05
30.37
74.93 0.5
2.70
6 x 0.70
40.63
1.00(pitch)
1.00 0.1
A
140
0.5±0.1
W=0.3±0.03
P0.5X(40-1)=19.5±0.05
20.5±0.1
3.5±0.3
1.75
0.3±0.03
R0.2
CENTER LINE
NOTES:
1. Display type: 7"TFT/An�-glare
2. Viewing direc�on: 12 O'CLOCK
3. Display Mode: Transmissive/Normal White / An� Glare
4. Driver IC: HX8264-D02
5. Power Supply Voltage: 3.3V
6. Backlight: White LED / 16V / 60mA (Typ)
7. Brightness: 230cd/m² (Typ)
8. 3M Brightness Enhancement Film
9. Touch Panel: PCAP
A+
LED CIRCUIT
5*3=15EA,20mA*3=60mA
K-
TFT: Pin No. Symbnl Connectlon Functlon Descrlptlnn 1 LED-K Power Supply Ground for Backlight 2 LED-A Power Supply Backllght Power Supply [SOmA @ 16V) 3 GND Power Supply Ground 4 VDD Power Supply Power Supply (+33v) 5-12 [RU-R7] MPU Red Data Signals 13-20 [GO-G7] MPU Green Data Signals 21-28 [BO-E7] MPU Blue Data Signals 29 GND Power Supply Ground 30 CLKIN MPU Clock for input data 31 DlSP MPU Display on/oh‘ DISP:1:Dlsp|ay on 32 HSD MPU Line synchronization signal 33 VSD MPU Frame synchronization signal 34 DEN MPU Data Enable signal 35 NC - ND Connect 35 GND Power Supply Ground 37 NC(XR| - No Connect 38 NClVD) - No Connect 39 mm - No Connect 40 NClvu) - No Connect LC B Capacitive Touch Panel: Pin No. Symbnl External Connectlon Functlon Descrlptlon 1 v Power Supply Power Supply (33v) 2 GND Power Supply Ground 3 SCL MPU Serial IZC Clock [Requires pull-up resistor] 4 SDA MPU Serial l2C Data [Requires pull-up resistorl 5 /|NT MPU Interrupt signal from touch panel module to nest e /RESET MPU Active LOW Reset signal. (Do not tie to v ) river: httpz/ www.mewhavendisplay.com app notes HX82647D02.pdf http: /www.newhavendisp|ay.Com app notes HX86647B.pdf Iler. http: /www.newhavendisp|av.Com appnotes datasheets touchpanel FT5x26.pdf
[4]
Pin Description
TFT:
Pin No.
Symbol
Connection
Function Description
1
LED-K
Power Supply
Ground for Backlight
2
LED-A
Power Supply
Backlight Power Supply (60mA @ 16V)
3
GND
Power Supply
Ground
4
VDD
Power Supply
Power Supply (+3.3V)
5-12
[R0-R7]
MPU
Red Data Signals
13-20
[G0-G7]
MPU
Green Data Signals
21-28
[B0-B7]
MPU
Blue Data Signals
29
GND
Power Supply
Ground
30
CLKIN
MPU
Clock for input data
31
DISP
MPU
Display on/off DISP=1:Display on
32
HSD
MPU
Line synchronization signal
33
VSD
MPU
Frame synchronization signal
34
DEN
MPU
Data Enable signal
35
NC
-
No Connect
36
GND
Power Supply
Ground
37
NC(XR)
-
No Connect
38
NC(YD)
-
No Connect
39
NC(XL)
-
No Connect
40
NC(YU)
-
No Connect
LCD connector: 0.5mm pitch 40-Conductor FFC. Molex p/n: 54104-4031 (top contact)
Backlight connector: on LCD connector Mates with: ---
Capacitive Touch Panel:
Pin No.
Symbol
External Connection
Function Description
1
VDD
Power Supply
Power Supply (3.3V)
2
GND
Power Supply
Ground
3
SCL
MPU
Serial I2C Clock (Requires pull-up resistor)
4
SDA
MPU
Serial I2C Data (Requires pull-up resistor)
5
/INT
MPU
Interrupt signal from touch panel module to host
6
/RESET
MPU
Active LOW Reset signal. (Do not tie to VDD)
Recommended connector: 1.0mm pitch 6-Conductor FFC. Molex p/n: 52271-0679
Driver/Controller Information
TFT:
Built-in HX8264-D02 Source Driver: http://www.newhavendisplay.com/app_notes/HX8264-D02.pdf
Built-in HX8664-B Gate Driver: http://www.newhavendisplay.com/app_notes/HX8664-B.pdf
Capacitive Touch Panel:
Built-in FocalTech FT5426 controller.
Please download specification at http://www.newhavendisplay.com/appnotes/datasheets/touchpanel/FT5x26.pdf
E TFT: Item Symbol Cnndlllnn Min. Typ. Max. Unit Operating Temperature Range T Absolute Max -20 - +70 °C Storage Temperature Range T Absolute Max -30 - +80 °C Supply Voltage V - 3.0 3.3 3.5 V Supply Current | V :3.3V. 25% 60 85 120 mA “H“ Level Input V - 0.7‘V - V V "L“ Level Input V - V - 0.3”‘V V “H“ Level Output V - V -0.4 - - V "L“ Level Output V - V - V +0.4 V Backlignt Supply Current I - 45 50 75 mA Backlignt Supply Voltage mm 14.5 15 15.5 V Backllght Lifetime‘ - 20,000 50,000 - hrs. , Capacitive Touch Panel: Item Symbol Condltlon Min. Typ. Max. Unit Operating Temperature Range T Absolute Max -20 - +70 at: Storage Temperature Range T Absolute Max -30 - +80 at: Supply Voltage V - 2.8 3.3 3.5 V Supply Current + Operating | V : 3.3V - 15.0 - mA Supply Current + Hibernate | - 1.0 - uA “H“ Level Input V - 0.7’V - V V "L“ Level Input V - V - 0.3*V V “H“ Level Output V - 0.7’V - V V "L“ Level Output V - V - 0.3*V V Optical Characteristics Item Symbol Condltlon Min. Typ. Max. Unlt Top ov+ - 55 - ° Bottom rov- - 55 - ° Left SX- - 70 - 9 Right ex+ - 7o - ° Contrast Ratio CR - - 400 - - Luminance L Isl): 60mA 180 230 - cd/mZ Response Time - - 25 35 m5 X - 0.260 0.310 0.360 -
[5]
Electrical Characteristics
TFT:
Item
Symbol
Condition
Min.
Typ.
Max.
Unit
Operating Temperature Range
TOP
Absolute Max
-20
-
+70
C
Storage Temperature Range
T
ST
Absolute Max
-30
-
+80
C
Supply Voltage
VDD
-
3.0
3.3
3.6
V
Supply Current
IDD
VDD=3.3V. 25oC
60
85
120
mA
H Level Input
V
IH
-
0.7*V
DD
-
V
DD
V
L Level Input
VIL
-
VSS
-
0.3*VDD
V
H Level Output
VOH
-
VDD-0.4
-
-
V
L Level Output
VOL
-
VSS
-
VSS+0.4
V
Backlight Supply Current
ILED
-
45
60
75
mA
Backlight Supply Voltage
VLED
ILED = 60mA
14.5
16
16.5
V
Backlight Lifetime*
-
I
LED
= 60 mA
TOP = 25° C
20,000
50,000
-
hrs.
*Backlight lifetime is rated as Hours until half-brightness, under normal operating conditions. The LED of the backlight is driven by current drain; drive voltage is for
reference only. Drive voltage must be selected to ensure backlight current drain is below MAX level stated.
Capacitive Touch Panel:
Item
Symbol
Condition
Min.
Typ.
Max.
Unit
Operating Temperature Range
T
OP
Absolute Max
-20
-
+70
C
Storage Temperature Range
TST
Absolute Max
-30
-
+80
C
Supply Voltage
V
DD
-
2.8
3.3
3.6
V
Supply Current Operating
IDD
V
DD
= 3.3V
TOP = 25°C
-
15.0
-
mA
Supply Current Hibernate
I
DD
-
1.0
-
µA
H Level Input
V
IH
-
0.7*V
DD
-
V
DD
V
L Level Input
VIL
-
VSS
-
0.3*VDD
V
H Level Output
V
OH
-
0.7*V
DD
-
V
DD
V
L Level Output
VOL
-
V
SS
-
0.3*V
DD
V
Optical Characteristics
Item
Symbol
Condition
Min.
Typ.
Max.
Unit
Optimal
Viewing
Angles
Top
ϕY+
CR 10
-
65
-
Bottom
ϕY-
-
55
-
Left
θX-
-
70
-
Right
θX+
-
70
-
Contrast Ratio
CR
-
-
400
-
-
Luminance
LV
I
LED
= 60mA
180
230
-
cd/m2
Response Time
T
R
+ T
F
-
-
25
35
ms
Chromaticity
Red
X
R
-
0.540
0.590
0.640
-
Y
R
-
0.307
0.357
0.407
-
Green
X
G
-
0.287
0.337
0.387
-
Y
G
-
0.551
0.601
0.651
-
Blue
X
B
-
0.102
0.152
0.202
-
Y
B
-
0.079
0.129
0.179
-
White
XW
-
0.260
0.310
0.360
-
Y
W
-
0.280
0.330
0.380
-
Capacitive Touch Panel Material Charact Property Requlremenl Unlt iC FT5426 - iTO Glass thickness 0.55 mm Surface Hardness 25 H Light transmission 32% - Operating Humidity 20~90 RH Storage Humidity 20~90 RH
[6]
Capacitive Touch Panel Material Characteristics:
Property
Requirement
Unit
IC
FT5426
-
ITO Glass thickness
0.55
mm
Surface Hardness
6
H
Light transmission
82%
-
Operating Humidity
20~90
RH
Storage Humidity
20~90
RH
Reglster No. Reglster Name Descrlptlon 10 Swipe Up 18h Swipe Dow 1ch Swipe Left 14h Swipe Rig 48h Zoom Ou 49h Zoom In 00 No gesture 0: No touch detected A: 10 touch points detected 0 Put Down 1 Put Up 2 Contact 3 Reserved 03h R0 TOUCH 1_XH [3:0] 0 -1 Upper 4 bits ofX touch coordinate 04h R0 TOUCH 1_XL [7:0] 00 - FFh Lower 8 bits of X touch coordinate 05h R0 TOUCH 1_VH [3:0] 0 -1 Upper 4 bits of V touch coordinate 06h R0 TOUCH 1_VL [7:0] 00 - FFh Lower 8 bits of V touch coordinate 07h R0 TOUCH1_Weight [7:0] Touch Weight 08h R0 TOUCH 1_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 09h R0 TOUCH 1_XH [3:0] 0 -1 Upper 4 bits ofX touch coordinate OAh R0 TOUCH2_XL [7:0] 00 - FFh Lower 8 bits of X touch coordinate OBh R0 TOUCH2_VH [3:0] 0 -1 Upper 4 bits of V touch coordinate OCh R0 TOUCH2_VL [7:0] 00 - FFh Lower 8 bits of V touch coordinate ODh R0 TOUCH2_Weight [7:0] Touch Weight OEh R0 TOUCH2_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved OFh R0 TOUCH3_XH [3:0] 0 -1 Upper 4 bits ofX touch coordinate 10 R0 TOUCH3_XL [7:0] 00 - FFh Lower 8 bits of X touch coordinate 11h R0 TOUCH3_VH [3:0] 0 -1 Upper 4 bits of V touch coordinate 12h R0 TOUCH3_VL [7:0] 00 - FFh Lower 8 bits of V touch coordinate 13h R0 TOUCH3_Weight [7:0] Touch Weight 14h R0 TOUCH3_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 15h R0 TOUCH4_XH [3:0] 0 -1 Upper 4 bits ofX touch coordinate 16h R0 TOUCH4_XL [7:0] 00 - FFh Lower 8 bits of X touch coordinate 17h R0 TOUCH4_VH [3:0] 0 -1 Upper 4 bits of V touch coordinate 18h R0 TOUCH4_VL [7:0] 00 - FFh Lower 8 bits of V touch coordinate 1Ah R0 TOUCH4_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved
[7]
Capacitive Touch Panel Registers
Register No.
Access
Register Name
Bits
Value
Description
01h RO Gesture ID [7:0]
10
18h
1Ch
14h
48h
49h
00
Swipe Up
Swipe Down
Swipe Left
Swipe Right
Zoom Out
Zoom In
No gesture
02h RO Touch Points [7:0] 0-Ah
0: No touch detected
A: 10 touch points detected
03h RO TOUCH1_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
03h
RO
TOUCH1_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
04h
RO
TOUCH1_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
05h
RO
TOUCH1_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
06h
RO
TOUCH1_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
07h
RO
TOUCH1_Weight
[7:0]
Touch Weight
08h
RO
TOUCH1_Misc
[3:0]
00-0Fh
Touch Area
09h RO TOUCH2_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
09h
RO
TOUCH1_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
0Ah
RO
TOUCH2_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
0Bh
RO
TOUCH2_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
0Ch
RO
TOUCH2_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
0Dh
RO
TOUCH2_Weight
[7:0]
Touch Weight
0Eh
RO
TOUCH2_Misc
[3:0]
00-0Fh
Touch Area
0Fh RO TOUCH3_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
0Fh
RO
TOUCH3_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
10
RO
TOUCH3_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
11h
RO
TOUCH3_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
12h
RO
TOUCH3_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
13h
RO
TOUCH3_Weight
[7:0]
Touch Weight
14h
RO
TOUCH3_Misc
[3:0]
00-0Fh
Touch Area
15h RO TOUCH4_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
15h
RO
TOUCH4_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
16h
RO
TOUCH4_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
17h
RO
TOUCH4_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
18h
RO
TOUCH4_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
1Ah
RO
TOUCH4_Misc
[3:0]
00-0Fh
Touch Area
1Bh RO TOUCH5_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
Reglner No. Reglster Name Descrlptlon lBh R0 TOUCH5_XH [3:0] 0 -1 Upper 4 hits ofX touch coordinate 1Ch R0 TOUCH5_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 1Dh R0 TOUCH5_VH [3:0] 0 -1 Upper 4 hits of v touch coordinate 1Eh R0 TOUCH5_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate 1Fh R0 ToUCH5_Weight [7:0] Touch Weight 20 R0 TOUCH5_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 21h R0 TOUCH6_XH [3:0] 0 -1 Upper 4 hits ofX touch coordinate 22h R0 TOUCH6_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 23h R0 ToUCHe_VH [3:0] 0 -1 Upper 4 hits of v touch coordinate 24h R0 ToUCHe_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate 25h R0 ToUCHe_Weight [7:0] Touch Weight 26h R0 ToUCHe_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 27h R0 TOUCH7_XH [3:0] 0 -1 Upper 4 hits ofX touch coordinate 28h R0 TOUCH7_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 2% R0 TOUCH7_VH [3:0] or 1 UpperA hits otVtouch coordinate 2Ah R0 TOUCH7_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate ZBh R0 ToUCH7_Weight [7:0] Touch Weight 2Ch R0 TOUCH7_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 2Dh R0 TOUCH8_XH [3:0] 0 , 1 Upper 4 hits ofX touch coordinate 2Eh R0 TOUCH8_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 2Fh R0 TOUCH8_VH [3:0] 0 , 1 Upper 4 hits of v touch coordinate 30 R0 TOUCH8_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate 31h R0 ToUCHs_Weight [7:0] Touch Weight 32h R0 TOUCH8_Misc [3:0] 00-0Fh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 33h R0 TOUCH9_XH [3:0] 0 - 1 Upper 4 hits ofX touch coordinate 34h R0 TOUCH9_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 35h R0 TOUCH9_VH [3:0] or 1 UpperA hits otVtouch coordinate 36h R0 TOUCH9_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate 37h R0 ToUCH9_Weight [7:0] Touch Weight 38h R0 ToUCH9_Misc [3:0] 00 - OFh Touch Area 0 Put Down 1 Put Up 2 Contact 3 Reserved 3% R0 TOUCH10_XH [3:0] 0 , 1 Upper 4 hits ofX touch coordinate 3Ah R0 TOUCH10_XL [7:0] 00 - FFh Lower 8 hits of x touch coordinate 33h R0 TOUCH10_VH [3:0] or 1 UpperA hits otVtouch coordinate 3Ch R0 TOUCH10_VL [7:0] 00 - FFh Lower 8 hits of it touch coordinate
[8]
Register No.
Access
Register Name
Bits
Value
Description
1Bh
RO
TOUCH5_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
1Ch
RO
TOUCH5_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
1Dh
RO
TOUCH5_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
1Eh
RO
TOUCH5_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
1Fh
RO
TOUCH5_Weight
[7:0]
Touch Weight
20
RO
TOUCH5_Misc
[3:0]
00-0Fh
Touch Area
21h RO TOUCH6_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
21h
RO
TOUCH6_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
22h
RO
TOUCH6_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
23h
RO
TOUCH6_YH
[3:0]
0 -1
Upper 4 bits of Y touch coordinate
24h
RO
TOUCH6_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
25h
RO
TOUCH6_Weight
[7:0]
Touch Weight
26h
RO
TOUCH6_Misc
[3:0]
00-0Fh
Touch Area
27h RO TOUCH7_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
27h
RO
TOUCH7_XH
[3:0]
0 -1
Upper 4 bits of X touch coordinate
28h
RO
TOUCH7_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
29h
RO
TOUCH7_YH
[3:0]
0 1
Upper 4 bits of Y touch coordinate
2Ah
RO
TOUCH7_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
2Bh
RO
TOUCH7_Weight
[7:0]
Touch Weight
2Ch
RO
TOUCH7_Misc
[3:0]
00-0Fh
Touch Area
2Dh RO TOUCH8_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
2Dh
RO
TOUCH8_XH
[3:0]
0 1
Upper 4 bits of X touch coordinate
2Eh
RO
TOUCH8_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
2Fh
RO
TOUCH8_YH
[3:0]
0 1
Upper 4 bits of Y touch coordinate
30
RO
TOUCH8_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
31h
RO
TOUCH8_Weight
[7:0]
Touch Weight
32h
RO
TOUCH8_Misc
[3:0]
00-0Fh
Touch Area
33h RO TOUCH9_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
33h
RO
TOUCH9_XH
[3:0]
0 - 1
Upper 4 bits of X touch coordinate
34h
RO
TOUCH9_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
35h
RO
TOUCH9_YH
[3:0]
0 1
Upper 4 bits of Y touch coordinate
36h
RO
TOUCH9_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
37h
RO
TOUCH9_Weight
[7:0]
Touch Weight
38h
RO
TOUCH9_Misc
[3:0]
00 - 0Fh
Touch Area
39h RO TOUCH10_Event_Flag [7:6]
0
1
2
3
Put Down
Put Up
Contact
Reserved
39h
RO
TOUCH10_XH
[3:0]
0 1
Upper 4 bits of X touch coordinate
3Ah
RO
TOUCH10_XL
[7:0]
00 - FFh
Lower 8 bits of X touch coordinate
3Bh
RO
TOUCH10_YH
[3:0]
0 1
Upper 4 bits of Y touch coordinate
3Ch
RO
TOUCH10_YL
[7:0]
00 - FFh
Lower 8 bits of Y touch coordinate
Reglster No. Reglster Name Descrlptlon 3Dh R0 TOUCH10_Weight [7:0] OO-FFh Touch Weight 3Eh R0 TOUCH 10_lVl lsc [3:0] OO-OFh Touch Area Mutual-Capacitive touch Threshold / 4 Default: 45h Mutual-Capacitive Peak Threshold / 4 Default: 46h Points Filtering Range Threshold / 15 Default: A0 Allowed to switch to monitor mode or not ll:Allowed, 0: NDtAlIowedl 88h RW lD_G_PER|ODACTIVE [3:0] 3h-Eh Period of Active Status 89h RW lD_G_PER|ODMONITOR [7:0] lEh-FFh Timer to enter ”idle” while in Monitor lmsl App library version high-byte Default: 0 App library version low-byte Default: 2n Chip Vendor ID Default: 0x54 INT Trigger Mode INT Polling Mode wi—oi—o Active Monit Sleep Firmware ID N umber Default: 3 CTPM Vendor‘s Chip ID Default: 79h Glove Mode Switch Disable Glove Mode Switch Enable HOD-‘0 Cover Mode Switch Disable Cover Mode Switch Enable
[9]
Register No.
Access
Register Name
Bits
Value
Description
3Dh
RO
TOUCH10_Weight
[7:0]
00-FFh
Touch Weight
3Eh
RO
TOUCH10_Misc
[3:0]
00-0Fh
Touch Area
80 RW ID_G_MC_THGROUP [7:0] 00-FFh
Mutual-Capacitive touch Threshold / 4
Default: 4Bh
81h RW ID_G_MC_THPEAK [7:0] 00-FFh
Mutual-Capacitive Peak Threshold / 4
Default: 46h
85h RW ID_G_THDIFF [7:0] 00-FFh
Points Filtering Range Threshold / 16
Default: A0
86h RW ID_G_CTRL [1:0] 0-1
Allowed to switch to monitor mode or not
(1: Allowed, 0: Not Allowed)
88h
RW
ID_G_PERIODACTIVE
[3:0]
3h-Eh
Period of Active Status
89h
RW
ID_G_PERIODMONITOR
[7:0]
1Eh-FFh
Timer to enteridle” while in Monitor (ms)
A1h RO ID_G_LIB_VERSION_H [7:0] 00-FFh
App library version high-byte
Default: 0
A2h RO ID_G_LIB_VERSION_L [7:0] 00-FFh
App library version low-byte
Default: 2h
A3h RO ID_G_CHIPER_HIGH [7:0] 00-FFh
Chip Vendor ID
Default: 0x54
A4h RW ID_G_MODE [0]
0
1
INT Trigger Mode
INT Polling Mode
A5h RW ID_G_PMODE [1:0]
0
1
3
Active
Monitor
Sleep
A6h RO ID_G_FIRMID [7:0] 00-FFh
Firmware ID Number
Default: 3
A8h RO ID_G_VENODRID [7:0] 00-FFh
CTPM Vendors Chip ID
Default: 79h
C0h RW ID_G_GLOVE_MODE_EN [0]
0
1
Glove Mode Switch Disable
Glove Mode Switch Enable
C1h RW ID_G_COVER_MODE_EN [0]
0
1
Cover Mode Switch Disable
Cover Mode Switch Enable
Spec. . Parameter Symbol Min. Typ. Max. Unlt HS setup time Thu 8 — — ns HS hold time Tm 8 - - ns VS setup time TN 8 - - ns VS hold time Tm 8 — — ns Data setup lime Tm. 8 - - ns Data hold time Tm 8 - - ns DE setup time T...“ 8 - - ns DE hold time Tm 8 — - ns VDD Power On Slew rate Tm - - 20 ms RSTB pulse width Tag 10 - - us CLKIN cycle time Tm 20 - - ns CLKIN pulse duty Tm. 40 50 60 “la Output stable time T“. - - 6 us Horizontal Timing Spec. . Parameter Symbol Min. Typ. Max. Unit Horizontal Display Area thd 800 DCLK DCLK frequency fclk - 30 50 MHz One Horizontal Line th 889 928 1143 DCLK HS pulse width lhpw 1 48 255 DCLK HS Back Porch (Blanking) thb 88 DCLK HS Front Porch thfp 1 40 255 DCLK DE mode Blanking th—thd 85 128 512 DCLK Vertical Timing Spec. - Parameter Symbol Min. Typ. Max. Unit Vertical Display Area tvd 480 TH VS period time tv 513 525 767 TH VS pulse width tva 3 3 255 TH VS Back Porch (Blanking) tvb 32 TH VS Front Porch Mp 1 13 255 TH DE mode Blanking tv—tvd 4 45 255 TH
[10]
Timing CharacteristicsTFT Display
Horizontal Timing
Vertical Timing
Horizontal Timing ”$252-er U— (HVmode) :012345678 wmoOOO IIIIIIIIIIII IIIIIIIIIII OOOO mwOOO IIIIIIIIIII IIIIIIIIIII OOOO mmoOOO IIIIIIIIIII » IIIIIIIIII OOOO mmoOOO IIIIIIIIIIII IIIIIIIIIII OOjOO mmoOOO IIIIIIIIIIII IIIIIIIIII OOOO @nggDDDIIBEGGGBEBD IIIIIIIIII OOOO DEN ? Mum—«4 : Hmwcnm ma mam Vertical Timing vso : pr + Hso WWWW-WWJWWWTWW W as MU—ULHJiJiJLHJiH-i mu
[11]
Horizontal Timing
Vertical Timing
Parallel 24-bit RGB mode Parameter symbol Min Typ. Max. Unit Conditions CLKIN Frequency Fclk — 4O 50 MHz VDD=3.0V~3.6V CLKIN Cycle Time Tclk 20 25 - ns - CLKIN Pulse Duty Tcwh 40 50 60 % Talk Time from HSD to Source Output Thso 64 CLKIN - Time from HSD to L0 Thld 64 CLKIN - Time from HSD to STV Thstv 2 CLKIN - Time from HSD to CKV Thckv 20 CLKIN - Time from HSD to OEV Thoev 4 CLKIN — LD Pulse Width Twld 10 CLKIN - CKV Pulse Width Twckv 66 CLKIN - OEV Pulse Width Twoev 74 CLKIN - Input Clock and Data Timing CLKIN Dela DEN CLKIN HSD \ '" VSD W l/w Source Output Timing HSD \L/ hm. Source outnul ><>
[12]
Parallel 24-bit RGB mode
Input Clock and Data Timing
Source Output Timing
Vertical Timing HV (Cascade) VSDfi e” .H _ “SD _. JH'L . i“ . 1"“. _ Data ... 1 2 3 N—1 N . TSN=TVb+1 STV — - - - " ' CLKV—t )“i L.. L._ _ 1'” L” L._) OEV Vertical Timing DE (Cascade) DEN Data Internal VS mummmmm Internal HS as filling in Imnawwa :I STV CLKV OEV Gate Output Timing (Cascade) HSD —J J LD H Tma M H ma —I STV1/2 _@ rm J ch Him—Jim PM OEV I—Thoev ‘ Tm" (—Th —I
[13]
Vertical Timing HV (Cascade)
Vertical Timing DE (Cascade)
Gate Output Timing (Cascade)
Vertical Timing HV (Dual Gate) VSD — _l— L HSD STV Data —— JIJLl Tslv=Tvb+ 1 1 {—IEE E A |_ : CLKV LH—n— OEV JLLlL |_ll_ UULlLlLlLlLJLlLlL EE Vertical Timing DE (Dual Gate) DEN Data Internal VS Imemal HS STV CLKV OEV 1'st User define _ f_(_'l WI fl ~: 4: E E E ~ Ll mwmm DEM—l J u w u [LIL ll_ll_l Gate Output Timing (Dual Gate) HSD Internal D_HS LD STV1/2 CKV OEV m J TJ J J (— Thld @ (— Tnld H—l (— Thld j _ TMIV —~‘ (AWE PM“ Hum em ”mm: em —I
[14]
Vertical Timing HV (Dual Gate)
Vertical Timing DE (Dual Gate)
Gate Output Timing (Dual Gate)
Power ON/OFF Sequence an Enter/Exit Standby Mode Sequence Em sum munc-
[15]
Power ON/OFF Sequence
Enter/Exit Standby Mode Sequence
T Data Transfer Format .— w .............. I' 7 SDA u\[ / X X _______ X X \ / \ X X ______ X X X i/: : I MSB ACK from ACK from : | I : slave receiver I | SCL M W l u - | ST'XRJT 1 2 3~6 7 8 9 1 2 3~7 8 9 I : 01‘ _ ACK repeat START ACK Slop Parameter Min Max Unit SCL Frequency 0 400 KHz Bus free time between 3 STOP 81 START condition 1.3 - us Hold time Repeated START condition 0.6 us Data Setup Time 100 ns Setup time for a repeated START condition 0.6 us Setup time for 3 STOP condition 0.6 us SLV addr Data[n] Data[n+l] Data[n+2] ’4 b 4 b 4 b 4 - A[6:0] W| A [17:01 A om] A Dim] | A- I2C master write, slave read SLV addr Data[n] Data[n+l] Data[n+2] ’4 P 4 P 4 > 4 D‘ - A[6:0] R A D[7:0] A [17:01 A mm] W- I2C master read. slave write
[16]
Timing Characteristics Capacitive Touch Panel
Data Transfer Format
Parameter
Min
Max
Unit
SCL Frequency
0
400
KHz
Bus free time between a STOP & START condition
1.3
-
µs
Hold time Repeated START condition
0.6
-
µs
Data Setup Time
100
-
ns
Setup time for a repeated START condition
0.6
-
µs
Setup time for a STOP condition
0.6
-
µs
Power ON/Reset Sequence P o w e r Power 0 . 3 V , 1 Trrp 1 1 Tvdr i 11‘ Since run fl: 11 i 1 Reset \j i/ 1H / \l ’/ ’/ m >10>0< 1="" x="">< power="" 0n="" sequence="" .="" i="" i="" power="" i="" i="" i="" ii="" e="" s="" e="" r="" u="" i="" i="" n="" i="" i="" 2="" c="" reset="" sequence="" parameter="" descrlptlan="" mln="" max="" unlt="" tris="" rise="" time="" from="" 0.1v="" to="" 0.9v="" »="" 5="" m5="" tpdt="" time="" of="" the="" voltage="" of="" suppiy="" being="" beiew="" 0.3v="" 5="" -="" m5="" trip="" time="" of="" resetting="" to="" be="" inw="" before="" powering="" on="" 100="" -="" p5="" tpon="" time="" to="" start="" reporting="" after="" power="" on="" »="" 200="" m5="" tvdr"="" reset="" time="" after="" applying="" v="" 1="" -="" m5="" trsi="" time="" to="" start="" reporting="" after="" reset="" »="" 200="" m5="" trst‘="" reset="" time="" 1="" -="" m5="">
[17]
Power ON/Reset Sequence
Power On Time
Power Cycle Requirement
Power ON Sequence
Reset sequence
Parameter
Description
Min
Max
Unit
Tris
Rise time from 0.1V
DD
to 0.9V
DD
-
5
ms
Tpdt
Time of the voltage of supply being below 0.3V
5
-
ms
Trtp
Time of resetting to be low before powering on
100
-
µs
Tpon
Time to start reporting after power on
-
200
ms
Tvdr*
Reset time after applying VDD
1
-
ms
Trsi
Time to start reporting after reset
-
200
ms
Trst*
Reset Time
1
-
ms
*Note: If Reset is tied to VDD data corruption can occur
Touch Stan Touch End Data \ . Blank yfatao Packe ”Data finicky ______ Xbatafiacly Blank \ \ \ Interrupt trigger mode
[18]
Sample code to read touch data:
i2c_start();
i2c_tx(0x70); //Slave Address (Write)
i2c_tx(0x00); //Start reading address
i2c_stop();
i2c_start();
i2c_tx(0x71); //Slave Address (Read)
for(i=0x00;i<0x1F;i++)
{touchdata_buffer[i] = i2c_rx(1);}
i2c_stop();
Sample code to overwrite default register values:
i2c_start();
i2c_tx(0x70); //Slave Address (Write)
i2c_tx(0xA4); //ID_G_Mode
i2c_tx(0x01); //Disable interrupt status to host
i2c_stop();
Quality Information Test Item Content of Test Test Condition Note High Temperature storage Endurance test applying the high storage +80%, 96hrs 2 temperature for a long time. Low Temperature storage Endurance test applying the low storage -30%, 96hrs 1,2 temperature for a long time. High Temperature Endurance test applying the electric stress +70%, 95hrs 2 (voltage a; current) and stress tor a long time. Low Temperature Endurance test applying the electric stress -20%, 96hrs 1,2 (voltage a; current) and stress tor a long time. High Temperature / Endurance test applying the electric stress +50%, 90% RH , 96hrs 1,2 (voltage a; current) and the high thermal with high humidity stress for a longtime. Thermal Shock resistance Endurance test applying the electric stress -30%, 30min -> 80°C, 30min, (voltage a; current) during change tlm and high thermal stress. 10 cycles Vibration test Endurance test applying vibration to 10-55Hz, 1.5mm amplitude. 3 so sec x,v,2 For 15 minutes Static electricity test Endurance test applying electric static discharge. V5:800V, RS:1.5kfl, CS:100pF One time N N N P for using LCDs/LCMs S www.newhavendisglay.com[specs[Qrecautionspdf Warranty Information and Terms & Conditio htip: /www.newhavendispiav.com index.php?main page=terms
[19]
Quality Information
Test Item
Content of Test
Test Condition
Note
High Temperature storage
Endurance test applying the high storage
temperature for a long time.
+80C , 96hrs
2
Low Temperature storage
Endurance test applying the low storage
temperature for a long time.
-30C , 96hrs
1,2
High Temperature
Operation
Endurance test applying the electric stress
(voltage & current) and the high thermal
stress for a long time.
+70C, 96hrs
2
Low Temperature
Operation
Endurance test applying the electric stress
(voltage & current) and the low thermal
stress for a long time.
-20C , 96hrs
1,2
High Temperature /
Humidity Operation
Endurance test applying the electric stress
(voltage & current) and the high thermal
with high humidity stress for a long time.
+50C , 90% RH , 96hrs
1,2
Thermal Shock resistance
Endurance test applying the electric stress
(voltage & current) during a cycle of low
and high thermal stress.
-30C, 30min -> 80⁰C, 30min,
Change time: 5min,
10 cycles
Vibration test
Endurance test applying vibration to
simulate transportation and use.
10-55Hz , 1.5mm amplitude.
60 sec in each of 3 directions
X,Y,Z
For 15 minutes
3
Static electricity test
Endurance test applying electric static
discharge.
VS=800V, RS=1.5kΩ, CS=100pF
One time
Note 1: No condensation to be observed.
Note 2: Conducted after 4 hours of storage at 25C, 0%RH.
Note 3: Test performed on product itself, not inside a container.
Precautions for using LCDs/LCMs
See Precautions at www.newhavendisplay.com/specs/precautions.pdf
Warranty Information and Terms & Conditions
http://www.newhavendisplay.com/index.php?main_page=terms

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