NHD-1.8-128160EF-CTXI

 N
NHD‐‐1.8‐‐128160EEF‐C
CTXI## TFTT (Thin‐‐Film Trransisto
or) Liquid Crysttal Disp
play Mo
odule NHD‐‐ 1.8‐ 1281
160‐ EF‐ C‐ T‐ X‐ I‐ #‐ Newhaven Display 1.8” Diagonal 12
28 x 160 Pixels (Portrait M
Mode) Model M
Built‐in Contro
oller White LED bac
W
cklight TFT 6:00 Optimal V
View, Wide Te
emperature
RoHS Compliant Newh
haven Disp
play Intern
national, In
nc. 2511 Techno
ology Drive, SSuite 101 Elggin IL, 60124
Ph: 8
847‐844‐8795
5 Fax: 8847‐844‐87966 www.new
whavendisplayy.com h@newhaven
ndisplay.com [email protected]
om nhtech
Document Revision History Revision 0 Date 9/11/2013 Description Initial Release Functions and Features 




128 x 160 pixels (portrait mode) LED backlight 2.8V power supply 8‐bit Parallel interface Built‐in ILI9163C controller [2] Changed by AK L
A
I
Mechanical Drawing
D
A
18.4±0.1
21.8±0.2
31.69±0.2
(5)
(1.5)
2±0.3
1.5±0.3
P=0.8
W=0.5
component area
24
2-
5
1.
(16.5)
A2 A1K2
K1
tape
1
25±0.15
4±0.15
5
25
.1
0
R
D
Date
09/11/13
DETAIL: A 5/1
Unit
Gen. Tolerance
±0.3mm
2
C
NC
NC
0.6
0.2
B
0.8
24
D.S.T(t=0.05mm)
(8.15)
(4.86)
A
1.3
D.S.T(t=0.05mm)
O
C
1
Back
Front
1
2.5±0.3
4.2±0.5
17.63±0.3
20±0.3
7.29±0.2
5.59±0.2
0.86±0.3
E
D
I
D.S.T
T=0.10MM
Date
GND
IOVDD
VDD
/CS
/RST
D/C
/WR
/RD
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
LED-A
LED-K1
LED-K2
GND
NC
NC
Newhaven Display
NHD-1.8-128160EF-CTXI#
WW YY
D.S.T
T=0.10MM
F
N
YU XL YD XR
K1 K2 A1 A2
6
Description
T
N
Newhaven Display
NHD-1.8-128160EF-CTXI#
WW YY
128(RGB)X160 DOTS
tape
C
2.25±0.2
Except the double side tape
Tear tape
5
Rev
(8.4)
4.1±0.15
(3.27)
1.69±0.2
BL 46.75±0.2
LCD 41.4(TFT)±0.2
LCD38.3(CF)±0.2
A.A 35.04
1.75±0.2
(3.34)
4
YU XL YD XR
B
BL 34.7±0.2
LCD 31.2±0.2
A.A 28.03
3
24
A
2
1
1
3
4
mm
5
Model:
NHD-1.8-128160EF-CTXI#
6
The drawing contained herein is the exclusive property of Newhaven Display International, Inc. and shall not be copied, reproduced, and/or disclosed in any format without permission.
[3]
Pin Descripttion and W
Wiring Diiagram Pin N
No. Symbol 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 GND
D IOVDD
D VDD /CS /RSTT D/C /WR
R /RD DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7 LED‐A
A LED‐K
K1 LED‐K
K2 GND
D NC NC NC NC External Connection Pow
wer Supply Pow
wer Supply Pow
wer Supply MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU Pow
wer Supply Pow
wer Supply Pow
wer Supply Pow
wer Supply ‐
‐
‐
‐
Function Desccription
Ground
Supply Voltage for Logic (2.88V) – Can be tied to VDD Power Supply for LCD (2.8V))
Active LOW Ch
hip Select sign al
Active LOW Re
eset signal
Data / Commaand selection: ‘1’ = Data ; ‘0’ = Command Active LOW W
Write signal
Active LOW Re
ead signal
8‐bit bi‐directional data bus
Backlight Anode
Backlight Cath
hode
Backlight Cath
hode
Ground
No Connect
No Connect
No Connect
No Connect
LCD cconnector: Hot‐bar solderr directly to PC
CB [4] Electrical Characteristics Item Operating Temperature Range Storage Temperature Range Supply Voltage for Logic Supply Voltage for LCD Supply Current “H” Level input “L” Level input “H” Level output “L” Level output Backlight Supply Voltage Backlight Supply Current Symbol Top Tst IOVDD VDD IDD Vih Vil Voh Vol Vled Iled Condition
Absolute Max
Absolute Max
Symbol Cr Lv Tr+Tf Condition
Vled=3.2V
Min.
‐20
‐30
1.65
2.5
‐
0.7*IOVDD
GND
0.8*IOVDD
GND
Typ.
‐
‐
2.8
2.8
3
‐
‐
‐
‐
3.0
‐
3.2
30
Max. +70 +80 3.3 3.3 ‐ IOVDD 0.3*IOVDD IOVDD 0.2*IOVDD 3.4 40 Unit
°C
°C
V
V
mA
V
V
V
V
V
mA
Optical Characteristics Item Viewing Angle – Top Viewing Angle – Bottom Viewing Angle – Left Viewing Angle – Right Contrast Ratio Luminance Response Time (rise + fall) Cr ൒ 10 Iled=30mA
Min.
‐
‐
‐
‐
400
290
‐
Typ.
50
20
45
45
500
350
20
Max. ‐ ‐ ‐ ‐ ‐ ‐ 30 Viewing angles based on 12:00 gray scale inversion Controller Information Built‐in ILI9163C controller. Please download specification at http://www.newhavendisplay.com/app_notes/ILI9163.pdf [5] Unit
⁰ ⁰ ⁰ ⁰ ‐ cd/m2
ms
Tab
ble of Com
mmands [6] For C
Command Descriptions, ple
ease see: http
p://www.new
whavendisplay.com/app_n
notes/ILI9163
3.pdf [7] Tim
ming Charracteristiccs Paraallel 8‐bit B
Bus [8] Reseet Timing [9] Example Program Code void TFT_18E_Init(void) { GPIO_ResetBits(GPIOC, CS1); GPIO_SetBits(GPIOC, nRD); GPIO_ResetBits(GPIOC, nWR); GPIO_WriteBit(GPIOC, RES, Bit_RESET); delay(5); TFT_delay(10); GPIO_WriteBit(GPIOC, RES, Bit_SET); delay(100); TFT_delay(10); TFT_18E_Write_Command(0x11); TFT_delay(100); TFT_18E_Write_Command(0x26);TFT_18E_Write_Data(0x04); TFT_18E_Write_Command(0xF2);TFT_18E_Write_Data(0x00); TFT_18E_Write_Command(0xB1);TFT_18E_Write_Data(0x0A);TFT_18E_Write_Data(0x14); TFT_18E_Write_Command(0xC0);TFT_18E_Write_Data(0x0A);TFT_18E_Write_Data(0x00); TFT_18E_Write_Command(0xC1);TFT_18E_Write_Data(0x02); TFT_18E_Write_Command(0xC5);TFT_18E_Write_Data(0x2F);TFT_18E_Write_Data(0x3E); TFT_18E_Write_Command(0xC7);TFT_18E_Write_Data(0x40); TFT_18E_Write_Command(0x2A); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x7F); TFT_18E_Write_Command(0x2B); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x00); TFT_18E_Write_Data(0x9F); TFT_18E_Write_Command(0x36);TFT_18E_Write_Data(0x48); TFT_18E_Write_Command(0x3A);TFT_18E_Write_Data(0xC5); TFT_18E_Write_Command(0x29); TFT_18E_Write_Command(0x2C); } /***************************************************************************************/ void TFT_18E_Write_Command(unsigned char command) { GPIO_ResetBits(GPIOC, RS); GPIO_Write(GPIOB, command); GPIO_ResetBits(GPIOC, nWR); GPIO_SetBits(GPIOC, nWR); } /***************************************************************************************/ void TFT_18E_Write_Data(unsigned char data1) { GPIO_SetBits(GPIOC, RS); GPIO_Write(GPIOB, data1); GPIO_ResetBits(GPIOC, nWR); GPIO_SetBits(GPIOC, nWR); } /***************************************************************************************/ [10] Quality Information Test Item Content of Test High Temperature storage Endurance test applying the high storage temperature for a long time. Endurance test applying the low storage temperature for a long time. Endurance test applying the electric stress (voltage & current) and the high thermal stress for a long time. Endurance test applying the electric stress (voltage & current) and the low thermal stress for a long time. Endurance test applying the electric stress (voltage & current) and the high thermal with high humidity stress for a long time. Endurance test applying the electric stress (voltage & current) during a cycle of low and high thermal stress. Endurance test applying vibration to simulate transportation and use. Low Temperature storage High Temperature Operation Low Temperature Operation High Temperature / Humidity Operation Thermal Shock resistance Vibration test Static electricity test Test Condition Endurance test applying electric static discharge. 2 ‐30⁰C , 48hrs
1,2
+70⁰C , 48hrs
2 ‐20⁰C , 48hrs
1,2
+50⁰C , 90% RH , 48hrs 1,2
‐20Ԩ 30 min ~ +70Ԩ 30 min, 10 cycles 10‐55Hz , 1.5mm amplitude. 2 hours in each of 3 directions X,Y,Z. For 6 hours total VS=4KV, RS=330Ω, CS=150pF Five times 3 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 [11] Note
+80⁰C , 48hrs