NHD-4.3-480272EF-ATXL#-CTP by Newhaven Display Intl Datasheet

.— .sz-“EYL’E‘MFI‘T PE???“ Newhaven Display International, Inc. www.newhavendisglay.com nhtech@newhavendisplayxom nhsales@newhavendisplav.com

NHD-4.3-480272EF-ATXL#-CTP

TFT (Thin-Film-Transistor) Color Liquid Crystal Display Module

NHD- Newhaven Display

4.3- 4.3” Diagonal

480272- 480xRGBx272 Pixels

EF- Model

A- Built-in Driver / No Controller

T- White LED Backlight

X- TFT

L- 6:00 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 8/29/2012 ln't'al Release AK 1 7/12/2013 Mechanical and Optical characteristics updated KA 2 02/14/2014 Mechanical drawing updated KA 3 6/24/2014 Timing characteristics updated ML 4 12/12/2014 CTP mechanical dimensions updated AK 5 3/4/2015 CTP registers updated ML 6 3/16/2015 CTP mechanical dimensions updated ML 7 8/28/2015 LCD Connector Updated SB 8 7/7/16 Mechanical Drawing Updated SB 9 11/10/16 Mechanical Drawing & Electrical Characteristics Updated SB 10 6/21/17 Driver IC Updated SB 11 8/4/17 CTP Firmware Updated SB 12 7/25/18 Display Thickness Updated to Show CTP Adhesive SB 13 10/4/18 CTP Driver & Panel Updated SB 14 2/8/19 Backlight Current Corrected SB 15 5/3/19 CTP Timing Note Added

[2]

Document Revision History

Revision

Date

Description

Changed by

0

8/29/2012

Initial Release

AK

1

7/12/2013

Mechanical and Optical characteristics updated

KA

2

02/14/2014

Mechanical drawing updated

KA

3

6/24/2014

Timing characteristics updated

ML

4

12/12/2014

CTP mechanical dimensions updated

AK

5

3/4/2015

CTP registers updated

ML

6

3/16/2015

CTP mechanical dimensions updated

ML

7

8/28/2015

LCD Connector Updated

SB

8

7/7/16

Mechanical Drawing Updated

SB

9

11/10/16

Mechanical Drawing & Electrical Characteristics Updated

SB

10

6/21/17

Driver IC Updated

SB

11

8/4/17

CTP Firmware Updated

SB

12

7/25/18

Display Thickness Updated to Show CTP Adhesive

SB

13

10/4/18

CTP Driver & Panel Updated

SB

14

2/8/19

Backlight Current Corrected

SB

15

5/3/19

CTP Timing Note Added

Functions and Features

• 480xRGBx272 resolution, up to 16.7M colors

• 16-LED backlight

• 24-Bit RGB interface

• Capacitive touch panel with controller

o 10 point multi-touch input

o Gesture input

 Zoom In/Out

 Swipe Up/Down/Left/Right

10550101 12) 95 4410.15 (VA) V (21 11) 44 5710:0‘1 54101015 37‘28i034 37‘91i034 ll] ‘ 7 ‘ L ‘ Pin No. Symbol i 6‘50i0.1 ‘ 7 l LEDK H 2 4950:04 2 LEDA d‘ LLLLLLLL 05 0‘ tttttttt 8 3 GND 45‘ 3, EEEEEEEE 2" J 4 VDD “f — 14.50 ' HALL»? , , g g; $1 542 [R0-R7] ‘— 534. 1320 [GO-G7] l ,7, 4 5 1 L 4‘71HW1 V Cr 21»2s [BO-B7] Vp. 310105 29 GND ‘ g” 7‘00i0.1 ‘ 7 g 3 N A 30 CLK g 31 DISP :e' 1.00 4" 32 HSYNC 33 VSYNC P iiiiiii JR Pin No. Symbol 34 DEN i 1 ﬂ 7 1 VDD 35 NC 1% ‘ f1" 7777777 ,3 2 GND 36 GND 3 SCL 37 NC 4 SDA 38 NC 5 /|NT 39 NC 6 /RESET 40 NC / / / / / / .— i W/ / / .oerE.VY'/5¥FE“,PJ§EPAY UNEAR. :0 3mm 13 [// E// [/4 [// [// [// A3 5 Baxx s 8sz uwmswamMUN/mmmtrtxi K 02/08/19 02/08/19 NS mammmmm ©E} no NOV mm Dwawws ‘ g m 1 o; 1 ms DRAWWG IS 5mm THE PROPERW or NEWHAVEN mspw INTERNATWONAL, WC

C

B

A

D

E

F

C

B

A

D

E

F

4321 8765

DRAW N DATE:

02/08/19

NS

SHEET 1 OF 1

- THIRD ANGLE PROJECTION

DRAWING/PART NUMBER:

STANDARD TOLERANCE:

(UNLESS OTHERWISE SPECIFIED)

LINEAR: ±0.3mm

UNLESS OTHERWISE SPECIFIED:

NHD-4.3-480272EF-A TXL#-CTP

REVISION:

1B

SIZE:

A3

SCALE:

DRAW N BY:

S. Baxi

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.

- DIMENSIONS ARE IN MILLIMETERS

SYMBOL REVISION DATE

DO NOT SCALE DRAWING

APPROVED BY:

APPROVED DATE:

02/08/19

S. Baxi

140

P0.5*39=19.5±0.1

0.3

3.5±0.3

0.35

1.4

DETAIL A

A1

B/L CIRCUIT DIAGRAM

A2

K1

K2

Notes:

1. Display Size: 4.3” TFT

2. Op�mal View: 6:00

3. Display Mode: Transmissive / Normally White / An�-Glare

4. Driver IC: ST7282T2

5. Supply Voltage: 3.3V

6. Backlight: White LED / 19.2 V / 40 mA (Typ)

7. Luminance: 330 cd/m² (Typ)

8. Touch Panel: PCAP

Pin No.

Symbol

1

VDD

2

GND

3

SCL

4

SDA

5

/INT

6

/RESET

5±0.5

PI S�ﬀer

45.6±0.5

25.22±0.5

TFT: 2.95±0.2

0.3±0.05

Contact side

S�ﬀener

95.04(LCD A.A)

53.86(LCD A.A) (4.18)

*45.67±0.5

20.5±0.2*18.75±0.5

480(RGB) X 272

VIEW DIRECTION

20.35±0.3

TFT 4.3"

(31.11)

(52.75)

1 40

A

R GB

140

YD

XR

K2

K1

A1

A2

K

A

4.00

5.03

105.50±0.1

95.44±0.15 (VA)

67.20±0.1

54.20±0.15

4-R0.30

37.28±0.4

CTP: 1.4±0.1

Adhesive (0.3)

Overall: 4.65±0.3

Pin No.

Symbol

1

LEDK

2

LEDA

3

GND

4

VDD

5-12

[R0-R7]

13-20

[G0-G7]

21-28

[B0-B7]

29

GND

30

CLK

31

DISP

32

HSYNC

33

VSYNC

34

DEN

35

NC

36

GND

37

NC

38

NC

39

NC

40

NC

Pin Assignment

1.00 (Pitch)

6*0.70

TFT: Pin No. Symbnl External Connectlan Functlon Descrlptlon 1 LED- Power Supply Eacklight Cathode lGroundl 2 LED+ Power Supply Eacklight Anode [AOmA @ 25.5v) 3 GND Power Supply Ground 4 VDD Power Supply Supply Voltage for LCD and logic (3.3V) 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 CLK MPU Data sample Clock signal 31 DlSP MPU Display ON/OFF signal 32 HSVNC MPU Line synchronization signal 33 VSVNC MPU Frame synchronization signal 34 DE MPU Data Enable signal 35 NC - No Connect 35 GND Power Supply Ground 37 NC - No Connect 38 NC - No Connect 39 NC - No Connect 40 NC - No Connect R B Capacitive Touch Panel: Pin No. Symbol External Connectlon Functlon Descrlptlon 1 v Power Supply Power supply for Ioglc (33w 2 GND Power Supply Ground 3 SCL MPU Serial |2c Clock (Requires pull-up resistor) 4 SDA MPU Serial |2c Data (Requires pull-up resistor) 5 /|NT MPU Interrupt signal from 1P module to host (Requires pull-up resistor) 6 /RESET MPU Active LOW Reset signal (Do not tie to V )

[4]

Pin Description

TFT:

Pin No.

Symbol

External Connection

Function Description

1

LED-

Power Supply

Backlight Cathode (Ground)

2

LED+

Power Supply

Backlight Anode (40mA @ 25.6V)

3

GND

Power Supply

Ground

4

VDD

Power Supply

Supply Voltage for LCD and logic (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

CLK

MPU

Data sample Clock signal

31

DISP

MPU

Display ON/OFF signal

32

HSYNC

MPU

Line synchronization signal

33

VSYNC

MPU

Frame synchronization signal

34

DE

MPU

Data Enable signal

35

NC

-

No Connect

36

GND

Power Supply

Ground

37

NC

-

No Connect

38

NC

-

No Connect

39

NC

-

No Connect

40

NC

-

No Connect

Recommended LCD connector: 0.5mm pitch 40-Conductor FFC. Molex p/n: 54104-4033

Backlight connector: on LCD connector Mates with: ---

Capacitive Touch Panel:

Pin No.

Symbol

External Connection

Function Description

1

VDD

Power Supply

Power supply for logic (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 T.P. module to host (Requires pull-up

resistor)

6

/RESET

MPU

Active LOW Reset signal (Do not tie to V

DD

)

Recommended connector: 1.0mm pitch 6-Conductor FFC. Molex p/n: 52271-0679

E TFT: Item Symbol Cnndlllnn Min. Typ. Max. Unlt OperatingTemperature 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 I V : 3.3V 12 25 50 mA “H“ level input V - 0.8 ' V - V V “L“ level input V - GND - 0.3 ' V V “H“ level output V - 0.9 ' V - V V “L“ level output V - GND - 0.1 ' V V Backllght Supply Current I - - 40 50 mA Backllght Supply Voltage mm It : 40 mA 15.8 19.2 20.4 V Backllght Lifetime‘ - hm , 40m 20,000 50,000 - Hrs. Top : 25°C , Capacitive Touch Panel: Item Symbol Cnndlllnn Min. Typ. Max. Unlt 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 loberating) I Vat, : 3.3V 12 13 14.5 mA Supply Current IHibernate) I T : 25°C - 1.0 - uA “H“ level input V - 0.7 ‘ V - V V “L“ level input V - GND - 0.3 ' V V “H“ level output V - 0.7 ' V - V V “L“ level output V - GND - 0.3 ' V V Optical Characteristics Item Symbol Cnndlllnn Min Typ. Max. Unit Top wV+ - 55 - 0 Bottom (pV- - 75 - 0 Left ex- - 75 - ° Right ex+ - 75 - 0 Contrast Ratio CR - 400 500 - - Luminance L - 260 330 - cd/m2 Response Time Rise + Fall T + T T : 25°C - 25 30 ms X - 0.531 0.581 0.631 - V - 0.300 0.350 0.400 - X - 0.263 0.313 0.363 - V - 0.568 0.618 0.668 - X - 0.093 0.143 0.193 - V - 0.050 0.100 0.150 - X - 0.233 0.283 0.333 - V - 0.286 0.336 0.386 -

[5]

Electrical Characteristics

TFT:

Item

Symbol

Condition

Min.

Typ.

Max.

Unit

Operating Temperature Range

TOP

Absolute Max

-20

-

+70

⁰C

Storage Temperature Range

T

ST

Absolute Max

-30

-

+80

⁰C

Supply Voltage

VDD

-

3.0

3.3

3.6

V

Supply Current

IDD

VDD = 3.3V

12

25

50

mA

“H” level input

V

IH

-

0.8 * V

DD

-

V

DD

V

“L” level input

VIL

-

GND

-

0.3 * VDD

V

“H” level output

VOH

-

0.9 * VDD

-

VDD

V

“L” level output

VOL

-

GND

-

0.1 * VDD

V

Backlight Supply Current

ILED

-

40

50

mA

Backlight Supply Voltage

VLED

ILED = 40 mA

16.8

19.2

20.4

V

Backlight Lifetime*

-

I

LED

= 40mA

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

⁰C

Storage Temperature Range

TST

Absolute Max

-30

-

+80

⁰C

Supply Voltage

VDD

-

3.0

3.3

3.6

V

Supply Current (Operating)

IDD

V

DD

= 3.3V

TOP = 25°C

12

13

14.5

mA

Supply Current (Hibernate)

IDD

-

1.0

-

µA

“H” level input

VIH

-

0.7 * VDD

-

VDD

V

“L” level input

VIL

-

GND

-

0.3 * VDD

V

“H” level output

V

OH

-

0.7

*

V

DD

-

V

DD

V

“L” level output

VOL

-

GND

-

0.3 * VDD

V

Optical Characteristics

Item

Symbol

Condition

Min.

Typ.

Max.

Unit

Optimal

Viewing

Angles

Top

ϕY+

Cr ≥ 10

-

55

-

⁰

Bottom

ϕY-

-

75

-

⁰

Left

θX-

-

75

-

⁰

Right

θX+

-

75

-

⁰

Contrast Ratio

CR

-

400

500

-

Luminance

LV

-

260

330

-

cd/m2

Response Time

Rise + Fall

TR + TF

TOP = 25°C

-

25

30

ms

Chromaticity

Red

XR

-

0.531

0.581

0.631

-

YR

-

0.300

0.350

0.400

-

Green

XG

-

0.263

0.313

0.363

-

Y

G

-

0.568

0.618

0.668

-

Blue

XB

-

0.093

0.143

0.193

-

YG

-

0.050

0.100

0.150

-

White

XW

-

0.233

0.283

0.333

-

YW

-

0.286

0.336

0.386

-

Capacitive Touch Panel Material Characte Property Requirement Unlt iC FT5425 - iTO Glass Thickness 0.55 mm Surface Hardness 26 H Transparency 82% - Operating Humidity 20~9o RH Storage Humidity 20~9o RH r. htlp: /www.newhavendisp|av.com appnotes datasheets/LCDs/ST7282T2.pdf Iler. http: /www.newhavendiSD|av.com anpnotes datasheets/louchpanei FT5x26.pdf

[6]

Capacitive Touch Panel Material Characteristics

Property

Requirement

Unit

IC

FT5426

-

ITO Glass Thickness

0.55

mm

Surface Hardness

≥6

H

Transparency

82%

-

Operating Humidity

20~90

RH

Storage Humidity

20~90

RH

Driver/Controller Information

TFT:

Built-in Sitronix ST7282T2 Driver.

Please download specification at http://www.newhavendisplay.com/appnotes/datasheets/LCDs/ST7282T2.pdf

Capacitive Touch Panel:

Built-in FocalTech FT5426 controller.

Please download specification at http://www.newhavendisplay.com/appnotes/datasheets/touchpanel/FT5x26.pdf

Capacitive Touch Panel Registers Register No. Access Reglster Name Bits Value 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: 54h INT Trigger Mode INT Polling Mode wi—oi—o Active Monit Sleep Firmware ID N umber Default: 2 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

80h 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 enter “idle” 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: 54h

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: 2

A8h RO ID_G_VENODRID [7:0] 00-FFh

CTPM Vendor’s 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

T Parallel RGB input timing requirement Item Symbnl Mln. Typ. Max. Unlt Remark DCLK Frequency FCLK 9 12 15 MHZ DCLK Period TCLK 10 50 - uS R:10KQ, lpF Period Time Th 485 525 532 DCLK Display Period Thdisp - 480 - DCLK Back Porch Thbp 3 43 so DCLK By H_Elanking Setting Front Porch Thfp 2 2 2 DCLK Pulse Width Thw 1 1 1 DCLK Period Time TV 275 285 303 H Display Period Tvdisp - 272 - H Back Porch Tvbp 2 12 30 H By V_E|anking Setting Front Porch vap 1 1 1 H Pulse Width va 1 1 1 H

[10]

Timing Characteristics – TFT Display

Parallel RGB input timing requirement

Item

Symbol

Min.

Typ.

Max.

Unit

Remark

DCLK Frequency

FCLK

9

12

15

MHz

DCLK Period

TCLK

10

50

-

µS

R=10KΩ, 1µF

HSYNC

Period Time

Th

485

525

532

DCLK

Display Period

Thdisp

-

480

-

DCLK

Back Porch

Thbp

3

43

50

DCLK

By H_Blanking Setting

Front Porch

Thfp

2

DCLK

Pulse Width

Thw

1

DCLK

VSYNC

Period Time

Tv

275

285

303

H

Display Period

Tvdisp

-

272

-

H

Back Porch

Tvbp

2

12

30

H

By V_Blanking Setting

Front Porch

Tvfp

1

H

Pulse Width

Tvw

1

H

- SYNC Made Timing I L III I ,. I vsmc IVDP0L=0I ,‘ I m . Tvbp [VDPOL=1I I ' I Vbucknorch vsvuc I IVDPOL:|) I I I "S'"°UHLL|J7/HL|LIUlf//\Ll [UL I u I V ITvprVDPOLmII TvaIsp I Tvtp I I v back porch I Display penod :v from porch 1 INPUT ' I I ”A” —EEEII IEEE ‘ GROUP I I ‘ I HSVNC I m IHDPOHJI i I I "M ITnDp IIIDPOLwI I HSVNC I I Hbaekporcn I (HDPOL=H I WWI/WWW DRU'O] I Tnbp (HDPOL=I )I Thdlsp I H back much I Display I- no I TTIlp' H from porch M ULWU

[11]

- SYNC Mode Timing

- SYNC-DE Made Timing | Tv VSVNC va HSYNC U Ll L: H‘V/MHHU/M JUL 9300/ HSVNC Thw me/AWWWMWW E H back porch : Display period 1-th Thdlsp Thlp i E H from porch W —/)IIII(: I—aaanr II-W I—HHHIIUIIW

[12]

- SYNC-DE Mode Timing

Input setup timing requirement Item ‘ Symbnl ‘ Mln. ‘ Typ. ‘ Max. Unlt ‘ Cnndltlnns System Operation Timing v Power Source Slew Time TPOR - - 20 ms FrOm 0v to 99% V GRE Pulse Width tRSTw 10 50 - us R:10Kn, 1uF lnput/OutputTimirig CLK pulse Duty TCW 40 50 so % Hsync Width Thw 1 - - DCLK Hsync Period Th 50 60 65 us Vsync setup time Tvst 12 - - ns Vsync hold time thd 12 - - ns Hsync setup time Thst 12 - - ns Hsync hold time Thhd 12 - - ns Data setup time Tdsu 12 - - ns Data hold time Tdhd 12 - - ns SD output stable time Tst - - 12 us Output settled Within +20mv Loading : e.8k+28.2pl= GD output rise and fall time Tgst - - 6 us Output settled (5%~95%) Loading : 4.7k+29.8pl= C Tait iii DCLK V‘ Tvsl VSVNC W DCLK l “5”“ ‘ w i’/ﬁ‘+ i Talk i iii DCLK ‘ VlL // Vii 7 i Tdest Tilehd l DE V '7‘ VIN 3 “ vit i l Tdsu Tdhd } DIN 1sldale 1 2nd data X . . . . . . rheiasidaia

[13]

Input setup timing requirement

Item

Symbol

Min.

Typ.

Max.

Unit

Conditions

System Operation Timing

VDD Power Source Slew Time

TPOR

-

20

ms

From 0V to 99% VDD

GRB Pulse Width

tRSTW

10

50

-

µS

R=10KΩ, 1µF

Input / Output Timing

CLK pulse Duty

TCW

40

50

60

%

Hsync Width

Thw

1

-

DCLK

Hsync Period

Th

50

60

65

µS

Vsync setup time

Tvst

12

-

ns

Vsync hold time

Tvhd

12

-

ns

Hsync setup time

Thst

12

-

ns

Hsync hold time

Thhd

12

-

ns

Data setup time

Tdsu

12

-

ns

Data hold time

Tdhd

12

-

ns

SD output stable time

Tst

-

12

µS

Output settled within +20mV

Loading = 6.8k+28.2pF

GD output rise and fall time

Tgst

-

6

µS

Output settled (5%~95%)

Loading = 4.7k+29.8pF

- Clock And Data Input Timing Diagram

- Power On Sequence 1 Frame 2 Frame 1 Frame 2 Frame 2 Frame VDD,VDD|, PVDD VSYNC DE STB AVDD VGH VGL AVCL Source output | Output = 0V i Blank VCOM | Output = (N VLED Description Min. Tine T0 Determined by the external power T1 Time from stable VDD, VDDI. PVDD set-up to the ﬁrst VSYNC T1=D T2 Time from AVDD=0V to AVDD=3.3V T2=T0 T3 Time from AVDD=3.3V to AVDD=6,0V T3=T1+ (1’Frame) T4 Time from stable VDD, VDDI, PVDD set-up to DISP asserted T4=0 T5 Time from VGH=0V lo VGH=3.3V T5=TO

[14]

Power On/Off Sequence

- Power On Sequence

- Power Off Sequence 1 Frame. 2 Frame 2 Frame . VDD,VDD|, ‘e—N—~—>: : ,, PVDD § ' // /I VSYNC Ll U U U U U U // Ll DE Wﬂd DISP . (Standby) ' = ' i AVDD. VGH AVCL, VGL Source oulput | Normal > Blank : Output - ov VCOM [ 3 mm." = w VLED

[15]

- Power Off Sequence

T Data Transfer Format SDA 5R"; / x x::::;x x \ / \ x x__-___x x x 5/; : I : | l L —' 1 2 3~6 7 8 9 1 2 3~7 8 9 . : START or A CK ACK _ repeal START Stop 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 - n5 Setup time for a repeated START condition 0.6 - us Setup time for a 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 mm] A Df7.0] | A- I2C master write, slave read 4 >4 SLV addr Data[n] Data[n+l] k > > < data[n+2]="" ﬂ="" -="" 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 Tris P o w e r Power 0 . 3 V VDD ‘r—ﬂ R E S e E IN —,,7, 12c P o w e r i i i R E s E T U i i I I: I 2 c X X 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 Trtp Time of resetting to be iew 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 0.1VDD to 0.9VDD

-

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 bala Pack\e ”Data Packy/ >

[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 Hign Temperature storage Endurance test applying tne nigh storage +80%, 96 Hrs. 2 temperature for a long time. Low Temperature storage Endurance test applying tne law storage -30%, 95 Hrs. 1,2 temperature for a long time. Hign Temperature Endurance test applying tne electric stress +70%, 96 Hrs. 2 (voltage a current) and stress for a long time. Low Temperature Endurance test applying tne electric stress -20%, 95 Hrs. 1,2 (voltage a current) and stress for a long time. Hign Temperature/ Endurance test applying tne electric stress +50%, 90% RH , 95 Hrs. 1,2 (voltage a current) and tne nign thermal With nign nurniciity stress for a longtime. Thermal Shock resistance Endurance test applying the electric stress -20°C,60min >> 25°C,5min . (voltage a current) during >70°C,60m and high thermal stress. 20 cycles Vibration test Endurance test applying vibration to 10-50Hz, 15mm amplitude. 3 30 Ml x,v,2 Static electricity test Endurance test applying electric static Air: Vs:t8KV, Contact: V :14KV Rs:3300 5 Times for using LCDs/LCMs www.newhavendisglaycomlspecszQrecautionspdf rmation http: /www.newhavendisplav.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.

+80⁰C , 96 Hrs.

2

Low Temperature storage

Endurance test applying the low storage

temperature for a long time.

-30⁰C , 96 Hrs.

1,2

High Temperature

Operation

Endurance test applying the electric stress

(voltage & current) and the high thermal

stress for a long time.

+70⁰C , 96 Hrs.

2

Low Temperature

Operation

Endurance test applying the electric stress

(voltage & current) and the low thermal

stress for a long time.

-20⁰C , 96 Hrs.

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.

+50⁰C , 90% RH , 96 Hrs.

1,2

Thermal Shock resistance

Endurance test applying the electric stress

(voltage & current) during a cycle of low

and high thermal stress.

-20⁰C,60min -> 25⁰C,5min -

>70⁰C,60min = 1 cycle

20 cycles

Vibration test

Endurance test applying vibration to

simulate transportation and use.

10-50Hz , 15mm amplitude.

30 Min. Each Direction

X,Y,Z

3

Static electricity test

Endurance test applying electric static

discharge.

Air: V

S

=±8KV, Contact: V

S

=±4KV

RS=330Ω CS=150pF

5 Times

Note 1: No condensation to be observed.

Note 2: Conducted after 4 hours of storage at 25⁰C, 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

See Terms & Conditions at http://www.newhavendisplay.com/index.php?main_page=terms

NHD-4.3-480272EF-ATXL#-CTP Datasheet by Newhaven Display Intl

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