# TFT LCD, 0.96 ", 80 x 160 Pixels, Portrait, RGB, 3.3V
**URL**: https://novapart.co/products/MDT0096AISC-SPI/tft-lcd-096-80-x-160-pixels-portrait-rgb-33v
**SKU**: MDT0096AISC-SPI
**Manufacturer**: MIDAS DISPLAYS
**Category**: Optoelectronics & Displays || Displays || LCD Displays || TFT LCD Displays
**Price**: €15.1900
**Stock**: 10+
**Lead Time**: 106 days (indicative)
## Specifications
| Parameter | Value |
|---|---|
| Svhc | No SVHC (25-Jun-2025) |
| Vga Size | - |
| Resolution | 80 x 160 Pixels |
| Module Size | 18.7mm x 31.9mm |
| Touchscreen | Capacitive Touch |
| Display Size | 0.96" |
| Logic Voltage | 3.3V |
| Product Range | - |
| Display Pinout | 13 Way FFC |
| Interface Type | SPI |
| Display Appearance | RGB |
| Display Brightness | 400cd/m² |
| Display Orientation | Portrait |
| Operating Temperature Max | 70°C |
| Operating Temperature Min | -20°C |
## Datasheet
📄 [Download PDF](https://novapart.co/datasheet/farnell:3759045/)
**Sauls Wharf House Crittens Road Great Yarmouth Norfolk NR31 0AG**
Telephone +44 (0)1493 602602 Email:sales@midasdisplays.com Email:tech@midasdisplays.com www.midasdisplays.com
> MDT0096AISC-SPI 80 x 160 SPI Interface **Specification** Version: 1 Date: 26/09/2020 **Revision** 1 25/09/2020 First issue
TFT Module
~~OOOO~~ Display Features ~~es~~ Display Size 0.96” ~~PO~~ Resolution 80 x 160 Orientation Portrait ~~—“‘(ar’n”irh [= = es~~ Appearance ~~a 4 eee ey A~~ RGB ~~ee~~ Logic Voltage ~~a a~~ 3.3V Interface SPI ~~OO~~ Brightness 400 cd/m[2 ] - Touchscreen CTP ~~eS OD Oe | ee ee ey = \~~ compliant Module Size 18.70 x 31.90 x 2.59mm ~~OO™OCSS SSS PO~~ Operating Temperature -20°C ~ +70°C Pinout 13 way FFC Box Quantity Weight / Display ~~fT ”™~—“S”OCO~COCYTC™~™OOCOCOCSS (NN—C“<*SENSSSSSSSSSCSY PTT.~~ Pitch ~~LG —COCO—CO~~ 0.8mm ~~Ff~~ ----* - For full design functionality, please use this specification in conjunction with the ST7735S specification.(Provided Separately) **Display Accessories Optional Variants Part Number Description Appearances Voltage**
Page 1 of 22
## **Summary**
MDT0096AISC-SPI is a colour active matrix thin film transistor (TFT) liquid crystal empty cell. This model is composed of amorphous silicon TFT as a switching device. It is a transmissive type display operating in the normally black mode.
This TFT LCD has a 0.96-inch diagonally measured active display area with 80 x 160 dot (80 horizontal by 160 vertical pixel) resolution. Each pixel is divided into Red, Green, Blue dots which are arranged in vertical stripes.
## **General Specifications**
- Size: 0.96 inch
- Dot Matrix: 80 x RGB x 160(TFT) dots
- Module dimension: 18.7 (W) x 31.9 (H) x 2.59 (D) mm
- Active area: 10.8 x 21.696 mm
- Dot pitch: 0.135 x 0.1356 mm
- LCD type: TFT, Normally black, Transmissive
- Viewing Angle: 80/80/80/80
- Aspect Ratio: 1:2
- IC: ST7735S or equivalent
- TFT Interface: SPI Interface
- Backlight Type: LED, Normally White
- CTP Interface: I2C
- CTP IC: FT3267 or equivalent
- CTP FW Version: V06
- With /Without TP: With CTP
- Surface: Glare
*Color tone slight changed by temperature and driving voltage.
Page 2 of 22
## **Interface 1. LCM PIN Definition**
|**Pin**|**Symbol**|**Function**|**Remark**|
|---|---|---|---|
|1|SPI4W|SPI4W=’0’, 3-wire SPI.
SPI4W=’1’, 4-wire SPI.||
|2|NC|No connection||
|3|SDA|Serial interface data||
|4|SCL|Serial interface clock||
|5|RS|Data/command selection pin (4-wire SPI use)||
|6|RES|Reset pin (low active)||
|7|CS|Chip selection pin (low active)||
|8|GND|Ground||
|9|NC|No connection||
|10|VCC|Power supply.||
|11
~~ie~~|VLED-
~~ieeee~~|Back light cathode
~~eee~~|~~eee~~|
|12
~~ie~~|VLED+
~~ieeee~~|Back light anode
~~eee~~|~~eee~~|
|13
~~ie~~|GND
~~ieeee~~|Ground
~~eee~~|~~eee~~|
## **2. CTP PIN Definition**
|**Pin**|**Symbol**|**Function**|**Remark**|
|---|---|---|---|
|1|VDDT|Power supply||
|2|SCL|IIC clock signal. Must be pulled high||
|3|SDA|IIC data signal. Must be pulled high.||
|4|INT|External interrupt to the host||
|5|RESET|External Reset. Low is active||
|6|VSS|Power ground.||
Page 3 of 22
## **Contour Drawing**
**==> picture [424 x 305] intentionally omitted <==**
**----- Start of picture text -----**
18.70 TP OD
2.60¡ Ó0.53.95 fel 13.50¡ Ó0.20 TFT OD10.80 TP VA TFT PFC
(3.95) 10.80 TFT AA 2.59¡ Ó0.5
=n C0.15max 1.54 ITO FILM OD 15.40 1.65 PINNO.| 1 SYMBOL SPI4W |
2 NC
3 SDA
| | NS SSeS R G B NJ Pull Tape | G 3 < “TA 2s 4 SCL
5 RS
6 RES
Adhesive
7 CS
(3M9495MP
80XRGBX160 Black printing T=0.14mm) 89 GNDNC
10 VCC
Optical bonding 11 VLED-
12 VLED+
13 GND
TP PFC
1 VDDT
2 SCL
Component ee oes eee x | Remove Tape | 3 [| SDA
Area 1.5MAX Steel 4 INT
Stiffener+DST(t=0.05mm) 5 RESET
1.40 P0.8*12=9.60 6 VSS
13 1 1 13
0.55¡ Ó0.5 ee (TFT PFC) ee sl 12.40 0.1¡ Ó0.03 1.00 10.400.40 |
(TFT PFC)
Contact side
1 il 6 ya Stiffener LULLEEE
W0.30¡ Ó0.05 0.30¡ Ó0.05 (TP PFC)
P0.5*5= 2.50¡ Ó0.1
3.13¡ Ó0.5 | [A] 3.50¡ Ó0.1 aa
(TP PFC) The non-specified tolerance of dimension is ¡ Ó0.3 mm .
2-?0.80
4-R0.50
1.20
1.83¡ Ó0.5 3.53 (3.53) 4-
21.696 TP VA 21.696 AA
31.90 TP OD
27.95 TFT OD ITO FILM OD 26.93
2.79
15.00¡ Ó0.5
2.00
4.00
28.00¡ Ó0.5 1.70
3.50 5.00
**----- End of picture text -----**
## **Absolute Maximum Ratings**
|**Absolute Maximum Ratings**|**Absolute Maximum Ratings**|||||
|---|---|---|---|---|---|
|**Item**|**Symbol**|**Min**|**Typ**|**Max**|**Unit**|
|Operating Temperature|TOP|-20|-|+70|℃|
|Storage Temperature|TST|-30|-|+80|℃|
Note: Device is subject to be damaged permanently if stresses beyond those absolute maximum ratings listed above
1. Temp. ≦ 60 ℃ , 90% RH MAX. Temp. > 60 ℃ , Absolute humidity shall be less than 90% RH at 60 ℃
Page 4 of 22
|**Item**
~~eeaeaoe~~|**Symbol**
~~eeaeaoe~~|**Min**
~~eeaeaoe~~|**Typ**
~~eeaeaoe~~|**Max**
~~eeaeaoe~~|**Unit**
~~eeaeaoe~~|
|---|---|---|---|---|---|
|Supply Voltage
~~eeaeaoe~~|VCC
~~eeaeaoe~~|3.0
~~eeaeaoe~~|3.3
~~eeaeaoe~~|3.6
~~eeaeaoe~~|V
~~eeaeaoe~~|
|Supply LCM current
~~eeaeaoe~~|ICC
~~eeaeaoe~~|-
~~eeaeaoe~~|2
~~eeaeaoe~~|3
~~eeaeaoe~~|mA
~~eeaeaoe~~|
|Supply CTP
~~eeaeaoe~~|VDDT
~~eeaeaoe~~|2.8
~~eeaeaoe~~|-
~~eeaeaoe~~|3.3
~~eeaeaoe~~|V
~~eeaeaoe~~|
||IVDDT
~~eeaeaoe~~|-
~~eeaeaoe~~|2
~~eeaeaoe~~|3
~~eeaeaoe~~|mA
~~eeaeaoe~~|
**2. LED driving conditions Parameter Symbol Min. Typ. Max. Unit Remark** - - LED current ILED 20 mA LED voltage VLED 2.8 3.0 3.3 V Note 1 - - LED Life Time 50000 Hr Note 2,3,4 Note 1 : There are 1 Groups LED ~~SwipaS~~ VLED+ VLEDCircuit diagram
Note 2 : Ta = 25 ℃ Note 3 : Brightness to be decreased to 50% of the initial value Note 4 : The single LED lamp case
Page 5 of 22
## **Data Color Coding**
## **1. 3-Wire SPI Mode: RGB 5-6-5-bit Input, 65K-Colors, 3AH=“05h”**
Note 1: Pixel data with the 16-bit color depth information Note 2: The most significant bits are: Rx4, Gx5 and Bx4 Note 3: The least significant bits are: Rx0, Gx0 and Bx0
Page 6 of 22
## **8.2. 4-Wire SPI Mode: RGB 5-6-5-bit Input, 65K-Colors, 3AH=“05h”**
Note 1. Pixel data with the 16-bit color depth information Note 2. The most significant bits are: Rx4, Gx5 and Bx4 Note 3. The least significant bits are: Rx0, Gx0 and Bx0
Page 7 of 22
## **Power ON/OFF Sequence**
Page 8 of 22
## **Reset Timing**
Page 9 of 22
## **Optical Characteristics**
|**Item**|**Item**|**Symbol**|**Condition.**|**Min**|**Typ.**|**Max.**|**Unit**|**Remark**|
|---|---|---|---|---|---|---|---|---|
|Response time||Tr|θ=0°、Φ=0°|-|30|40|.ms|Note 3|
|||Tf|||||||
|Contrast ratio||CR|At optimized
viewing angle|-|800|-|-|Note 4|
|Color
Chromaticity|White|Wx|θ=0°、Φ=0|0.255|0.305|0.355||Note
2,6,7|
|||Wy||0.275|0.325|0.375|||
|Viewing
angle|Hor.|ΘR|CR≧10|-|80|-|Deg.|Note 1|
|||ΘL||-|80|-|||
||Ver.|ΦT||-|80|-|||
|||ΦB||-|80|-|||
|Brightness||-|-|300|400|-|cd/m2|Center of
display|
|Uniformity||(U)|-|75|-|-|%|Note 5|
Ta=25±2 ℃
Note 1: Definition of viewing angle range
Fig.11.1. Definition of viewing angle
Note 2: Test equipment setup:
After stabilizing and leaving the panel alone at a driven temperature for 10 minutes, the measurement should be executed. Measurement should be executed in a stable, windless, and dark room. Optical specifications are measured by Topcon BM-7 or BM-5 luminance meter 1.0° field of view at a distance of 50cm and normal direction.
Page 10 of 22
Fig. 11.2. Optical measurement system setup
## Note 3: Definition of Response time:
The response time is defined as the LCD optical switching time interval between “White” state and “Black” state. Rise time, Tr, is the time between photo detector output intensity changed from 90%to 10%. And fall time, Tf, is the time between photo detector output intensity changed from 10%to 90%
**==> picture [379 x 81] intentionally omitted <==**
**----- Start of picture text -----**
Display
Data White(TFT OFF) Black(TFT ON) White(TFT OFF)
zi 100% -
SoSeco 90% = —-_
es
SS l,
= ma || |
10%
0% : |
**----- End of picture text -----**
Note 4: Definition of contrast ratio:
The contrast ratio is defined as the following expression.
Luminance measured when LCD on the "White" state Contrast ratio (CR) = Luminance measured when LCD on the "Black" state
Page 11 of 22
## Note 5: Definition of Luminance Uniformity
Active area is divided into 3 measuring areas (reference the picture in below). Every measuring point is placed at the center of each measuring area. Luminance Uniformity (U) = Lmin/Lmax x100% L = Active area length W = Active area width
~~A~~ **1 2 3**
Fig11.3. Definition of uniformity
Note 6: Definition of color chromaticity (CIE 1931) Color coordinates measured at the center point of LCD
Note 7: Measured at the center area of the panel when all the input terminals of LCD panel are electrically opened.
Page 12 of 22
## **Reliability**
## Content of Reliability Test (Wide temperature, -20 ℃ ~70 ℃ )
**Environmental Test**
**==> picture [462 x 378] intentionally omitted <==**
**----- Start of picture text -----**
||||||||
|---|---|---|---|---|---|---|
|Test Item|Content|of Test|Test|Condition|Note|
|High Temperature|Endurance test applying the high storage temperature|80|℃|2|
|storage|for a long time.|200hrs|
|Low Temperature|Endurance test applying the low storage temperature|-30|℃|1,2|
|storage|for a long time.|200hrs|
|High Temperature|Endurance test applying the electric stress (Voltage &|70|℃|——|
|Operation|Current) and the thermal stress to the element for a|200hrs|
|long|time.|
|Low Temperature|Endurance test applying the electric stress under low|-20|℃|1|
|Operation|temperature for a long time.|200hrs|
|High Temperature/|The module should be allowed to stand at|60|℃|,90%RH|1,2|
|Humidity Operation|60|℃|,90%RH max|96hrs|
|Thermal shock|The sample should be allowed stand the following 10|-20|℃|/70|℃|——|
|resistance|cycles of|10 cycles|
|operation|
|-20|℃|25|℃|70|℃|
|30min 5min 30min|
|1 cycle|
|Vibration test|Endurance test applying the vibration during|Total fixed amplitude : 3|
|transportation and using.|1.5mm|
|Vibration Frequency :|
|10~55Hz|
|One cycle 60|
|seconds to 3|
|directions of X,Y,Z for|
|Each 15 minutes|
|Static electricity test|Endurance test applying the electric stress to the|VS=±600V(contact)|——|
|terminal.|,±800v(air),|
|RS=330Ω|
|CS=150pF|
|10 times|
**----- End of picture text -----**
Note1: No dew condensation to be observed. Note2: The function test shall be conducted after 4 hours storage at the normal Temperature and humidity after remove from the test chamber. Note3: The packing have to including into the vibration testing.
Page 13 of 22
## (Inspection Specification)
- (Scope): TFT-LCD (The document shall be applied to TFT-LCD Module)
(Inspection Standard):MIL-STD-105E, II(MIL-STD-105E Table Normal Inspection Single Sampling Level II)
(Defect Level):AQL:0.65; AQL:2.5(Major Defect AQL:0.65;Minor Defect AQL:2.5)
(Test conditions):
(Temperature):15℃~25℃;(Humidity):55 ±15%
(Visual inspection)::500 Lux ;:20cm~30cm (Illumination:More than 500 Lux; Inspection Distance: 20cm~30cm)
(Electrical inspection)::100Lux~300Lux;:20cm~30cm(Illumination:100Lux~300Lux; Inspection Distance: 20cm~30cm)
- (Visual angle): 45 º(The test direction is base on about around 45º of Vertical line)
- (5)(Definition of area):
5. ( Pixel Definition ): MMe [F[ele[e[e[e GHOG Googe]| Coooonce lee ele | ow
Note 1:If pixel or partial sub-pixel defects exceed 50% of the affected pixel or sub-pixel area, it shall be considered as1 defect.
Note 2: There should be no distinct non-uniformity visible through 6% ND Filter within 2 sec inspection times.
Page 14 of 22
|5. (Ins|InspectionStandard):|||
|---|---|---|---|
|(No)|(Inspection item)|(Inspection Standard)|(Defect Level)|
|1|PACKING
&INDICATE|1.1.(Mixde product types).
1.2.(The part number is inconsistent with work order of
production).
1.3.(Assembled in inverse direction).
1.4.(The quantity is inconsistent with work order of production).|1.4.(The quantity is inconsistent with work order of production).
(Maj)|
|2|(Size)|(Product size and structure must meet the structure diagram)|(Maj)|
|3|(The crack of glass)|(Symbols):
X:(Symbols)
Y:(The width of crack).
Z:(The thickness of crack).
W:(Terminal length)
T:(The thickness of glass).
a:LCD(LCD side length).|(Min)|
|||3.1.一(General glass chip):
3.1.1.(Chip onpanel surface and crack between panels);
X
Y
Z
≤a
VA (Crack can't enter viewing
area)
≤1/2t
≤a
SP 一(Crack can't exceed the half of
SP width)
1/2t<Z≤2t
[0K
sai
Seal width SEE||
Page 15 of 22
|||3.1.2.(Corner crack):||
|---|---|---|---|
|(No)|(Inspection item)|(Inspection Standard)|(Defect Level)|
|||X
Y
Z
≤1/5a
VA (Crack can't enter viewing
area)
≤1/2t
≤1/5a
SP 一(Crack can't exceed the
half of SP width)
1/2t<Z≤2t||
|||3.2.(Protrusion over terminal):
3.2.1.(Chip on electrode pad):
(Position)
X
Y
Z
(Front)
≤a
≤1/2W
≤t
(Back)
≤a
≤W
≤1/2t
1,
Ks, 4
ZL||
Page 16 of 22
||||(Note):
(If the chipped area touches the ITO terminal,over 2/3 of
the ITO must remain and be inspected according to
electrode terminal specifications).|||
|---|---|---|---|---|---|
||||3.2.3.(Glass remain):
X
Y
Z
≤a
≤1/3W
≤t|||
||(No)|(Inspection item)|(Inspection Standard)|(Defect Level)||
||4|(Black or white
dot)Round type|4.1 Round type(Non-displayor display):
(Size) (Judging standard)
(Acceptance(Q'ty))
0.96”
D≤0.1 mm
(Ignore)
0.10mm < D≤0.4mm
N≦3
D > 0.4mm
N≦0
distance >=5mm|(Min)||
||5|(scratch、
contamination)
Line type
re|5.1 Line type(Non-displayor display):
(Size)(Judging standard)
(Acceptance(Q'ty))
0.96”
W
L
W≦ 0.03mm
—
(Ignore)
0.03mm<W≦
0.05mm
L ≦5mm
N≦4
W > 0.05mm L > 5mm
N≦0
distance >=5mm|(Min)||
||6|POL (Polarizer
Bubble)|(area)
(Judging standard)
(Acceptance(Q'ty))
A(Viewing
area)
D < 0.2 mm
(Ignore)
0.2mm<D≦0.3mm
N≦3
0.3mm<D≦0.5mm
N≦1
~~ee ee~~
~~a~~
~~a~~|(Min)||
Page 17 of 22
||~~_~~|0.5mm<D
N≦0
B (Outside
of viewing
area)
_
(Ignore)
~~Pp ff~~|~~-~~|
|---|---|---|---|
|(No)|(Inspection item)|(Inspection Standard)|(Defect Level)|
|7|POL (The folding and
peeled offin polarizer)|(The folding and peeled offin polarizer are not acceptable).|(Min)|
|8|(Brightness and
uniformity、Chroma)|(Shall be in accordance with the drawings and specification
requirements specifications).|(Maj)|
|9|MURA|(5% ND Filter) 50%||
|10|Electrlcal Testing)|1.(Missing line character and icon).
2.(No function or no display).
3.(Display malfunction).
4.(LCD viewing angle defect).
5.(Current consumption exceeds product specifications).|(Maj)|
|11|(Bright dot、Dark
dot)On-display
Pixel:3 dot in 1 pixel|3 dot in 1 pixel
(Size)Item
(Judging standard)
(Acceptance(Q'ty))
0.96”
Bright
dot
D≦1/2Dot
(Ignore)
1/2Dot<D≦1Dot
N≦1
Dark
dot
D≦1/2Dot
(Ignore)
1/2Dot<D≦1Dot
N≦2
Total
N≦2
Dark and bright dot is defined more than 50% area of one
dot.|(Min)|
Page 18 of 22
## **Initial Code for Reference**
GATE = 160; SOURCE = 80;
//RESET SPI_RST = 1; delay1(10); SPI_RST = 0; delay1(1000); SPI_RST = 1; delay1(10);
//RA0
//20180302 Brian add //Sleep out SPI_WrCmd(0x11); delay(120);
//Sleep out
//ST7735S Frame Rate Setting in normal mode: fosc/ (((RTNA*2)+40)*(LINE+FPA+BPA+2))=80 SPI_WrCmd(0XB1); // fosc=850KHz SPI_WriteData(0X05); // RTNA=5 SPI_WriteData(0X3C); //20180612 // FPA=58 SPI_WriteData(0X3C); //20180612 // BPA=58 //ST7735S Frame Rate Setting in idle mode: fosc/ (((RTNB*2)+40)*(LINE+FPB+BPB+2))=80 SPI_WrCmd(0XB2); // fosc=850KHz SPI_WriteData(0X05); // RTNB=5 SPI_WriteData(0X3C); //20180612 // FPB=58 SPI_WriteData(0X3C); //20180612 // BPB=58
//ST7735S Frame Rate Setting in parital mode (dot inverson): fosc/ (((RTNC*2)+40)*(LINE+FPC+BPC+2))=80
//ST7735S Frame Rate Setting in parital mode (column inverson): fosc/ (((RTNC*2)+40)*(LINE+FPC+BPC+2))=80 SPI_WrCmd(0XB3); // fosc=850KHz SPI_WriteData(0X05); // RTNC=5 SPI_WriteData(0X3C); //20180612 // FPC=58 SPI_WriteData(0X3C); //20180612 // BPC=58 SPI_WriteData(0X05); // RTND=5 SPI_WriteData(0X3C); //20180612 // FPD=58 SPI_WriteData(0X3C); //20180612 // BPD=58
//ST7735S Display Inversion Control SPI_WrCmd(0XB4); modify from Sitronix initial code SPI_WriteData(0X07); normal mode
mode partial mode
// Dot inversion: 20184019 // 0xB4[2]=Inversion setting in // 0xB4[1]=Inversion setting in idle // 0xB4[0]=Inversion setting in
//ST7735S Power on Sequence
Page 19 of 22
SPI_WrCmd(0XC0); // power control 1 SPI_WriteData(0XE9); //{Par.3[0],Par.1[4:0]}=VRHP[5:0]=2→GVDD=4.6, //Par.1[7:5]=AVDD [2:0]=6→AVDD=5.1 SPI_WriteData(0X09); // {Par.3[1],Par.2[4:0]}=VRHN[5:0]=2→GVCL=-4.6
SPI_WriteData(0X04);
// Par.3[7:6]=MODE[1:0]=2X
// power control 2
SPI_WrCmd(0XC1); SPI_WriteData(0XC5); //[1:0]=VGHBT[1:0]=0→VGH=2*AVDD+VGH25-0.5
[3:2]=VGLSEL[1:0]=0→VGL=-7.5
// Par.1
[7:6]=VGLSEL[1:0]=3→VGH25=2.4
// Par.1
SPI_WrCmd(0XC2); // power control 3 SPI_WriteData(0X0D); //20180612 // (Sitronix initial) {Par.1
[7:6],Par.2[7:0]=DCA[9:0]=000000000'b→Booster set up cycle BCLK/1 BCLK/3 BCLK/1 BCLK/1 BCLK/1 in normal mode
SPI_WriteData(0X00); // Par.1[5:3]=SAPA[2:0]=001'b→ OP current is small in normal mode
// Par.1[2:0]=APA[2:0]=001'b→ OP
current is Large in normal mode
SPI_WrCmd(0XC3); // power control 4 SPI_WriteData(0X8D); //20180612 // (Sitronix initial){Par.1
[7:6],Par.2[7:0]=DCB[9:0]=1001101010'b→Booster set up cycle BCLK/2 BCLK/1 BCLK/2 BCLK/2 BCLK/2 in idle mode
SPI_WriteData(0X6A); OP current // Par.1[5:3]=SAPB[2:0]=001'b→ is small in idle mode
// Par.1[2:0]=APB[2:0]=011'b→ OP
current is Medium in idle mode
SPI_WrCmd(0XC4); // power control 5 SPI_WriteData(0X8D); //20180612 // (Sitronix initial){Par.1 [7:6],Par.2[7:0]=DCC[9:0]=1011101110'b→Booster set up cycle BCLK/2 BCLK/2 BCLK/2 BCLK/4 BCLK/2 in partial mode SPI_WriteData(0XEE); // Par.1[5:3]=SAPC[2:0]=001'b→ OP current is small in partial mode
// ST7735S VCOM SPI_WrCmd(0XC5); SPI_WriteData(0X15); //20180612 →VCOM=-0.875
// VCOM setting value // 0XC5[5:0]=010010'b
// ST7735 Memory data access control: add from Sitronix initial code SPI_WrCmd(0X36); // VCOM setting value SPI_WriteData(0XC8); //ST7735 Display Inversion on SPI_WrCmd(0X21);
Page 20 of 22
// ST7735 Gamma Sequence SPI_WrCmd(0XE0);(Positive // Gamma setting value Polarity) SPI_WriteData(0X07); //20180612 // Par.1[5:0]=VRF0P[5:0]=000011'b (Variable Resistor VRHP) SPI_WriteData(0X0E); //20180612 // Par.2[5:0]=VOS0P[5:0]=011011'b (Variable Resistor VRLP) SPI_WriteData(0X08); //20180612 // Par.3[5:0]=PK0P[5:0]=010010'b (Voltage of V3 grayscale) SPI_WriteData(0X07); //20180612 // Par.4[5:0]=PK1P[5:0]=010001'b (Voltage of V4 grayscale) SPI_WriteData(0X10); //20180612 // Par.5[5:0]=PK2P[5:0]=111111'b (Voltage of V12 grayscale) SPI_WriteData(0X07); //20180612 // Par.6[5:0]=PK3P[5:0]=111010'b (Voltage of V20 grayscale) SPI_WriteData(0X02); //20180612 // Par.7[5:0]=PK4P[5:0]=111010'b (Voltage of V28 grayscale) SPI_WriteData(0X07); //20180612 // Par.8[5:0]=PK5P[5:0]=110100'b (Voltage of V36 grayscale) SPI_WriteData(0X09); //20180612 // Par.9[5:0]=PK6P[5:0]=101111'b (Voltage of V44 grayscale) SPI_WriteData(0X0F); //20180612 // Par.10[5:0]=PK7P[5:0]=101011'b (Voltage of V52 grayscale) SPI_WriteData(0X25); //20180612 // Par.11[5:0]=PK8P[5:0]=110000'b (Voltage of V56 grayscale) SPI_WriteData(0X36); //20180612 // Par.12[5:0]=PK9P[5:0]=111010'b (Voltage of V60 grayscale) SPI_WriteData(0X00); // Par.13[5:0]=SELV0P[5:0]=000000'b (Voltage of V0 grayscale) SPI_WriteData(0X08); //20180612 // Par.14[5:0]=SELV1P[5:0]=000001'b (Voltage of V1 grayscale) SPI_WriteData(0X04); //20180612 // Par.15[5:0]=SELV62P[5:0]=000010'b (Voltage of V62 grayscale) SPI_WriteData(0X10); //20180612 // Par.16[5:0]=SELV63P[5:0]=001001'b (Voltage of V63 grayscale) SPI_WrCmd(0XE1);(Negative // Gamma setting value Polarity) SPI_WriteData(0X0A); //20180612 // Par.1[5:0]=VRF0N[5:0]=000011'b (Variable Resistor VRHN) SPI_WriteData(0X0D); //20180612 // Par.2[5:0]=VOS0N[5:0]=011011'b (Variable Resistor VRLN) SPI_WriteData(0X08); //20180612 // Par.3[5:0]=PK0N[5:0]=010010'b (Voltage of V3 grayscale) SPI_WriteData(0X07); //20180612 // Par.4[5:0]=PK1N[5:0]=010001'b (Voltage of V4 grayscale) SPI_WriteData(0X0F); //20180612 // Par.5[5:0]=PK2N[5:0]=110010'b (Voltage of V12 grayscale) SPI_WriteData(0X07); //20180612 // Par.6[5:0]=PK3N[5:0]=101111'b (Voltage of V20 grayscale) SPI_WriteData(0X02); //20180612 // Par.7[5:0]=PK4N[5:0]=101010'b (Voltage of V28 grayscale)
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> SPI_WriteData(0X07); //20180612 // Par.8[5:0]=PK5N[5:0]=101111'b (Voltage of V36 grayscale)
> SPI_WriteData(0X09); //20180612 // Par.9[5:0]=PK6N[5:0]=101110'b (Voltage of V44 grayscale)
> SPI_WriteData(0X0F); //20180612 // Par.10[5:0]=PK7N[5:0]=101100'b (Voltage of V52 grayscale)
> SPI_WriteData(0X25); //20180612 // Par.11[5:0]=PK8N[5:0]=111001'b (Voltage of V56 grayscale) SPI_WriteData(0X35); // Par.12[5:0]=PK9N[5:0]=111111'b (Voltage of V60 grayscale) SPI_WriteData(0X00); // Par.13[5:0]=SELV0N[5:0]=000000'b (Voltage of V0 grayscale) SPI_WriteData(0X09); //20180612 // Par.14[5:0]=SELV1N[5:0]=000000'b (Voltage of V1 grayscale) SPI_WriteData(0X04); //20180612 // Par.15[5:0]=SELV62N[5:0]=000001'b (Voltage of V62 grayscale) SPI_WriteData(0X10); //20180612 // Par.16[5:0]=SELV63N[5:0]=001001'b (Voltage of V63 grayscale)
SPI_WrCmd(0XFC); // Enable Gate power save mode
SPI_WriteData(0XC0); //
0XFC[7:6]=GCV_Enable[1:0]=10'b→ Gate Pump Clock Frequency disable // 0XFC[3:2]=CLK_Variable[1:0]=11'b→ Save Power Ability is Large SPI_WrCmd(0X3A);
SPI_WriteData(0X05); // 65K Mode
SPI_WrCmd(0X2A); SPI_WriteData(0X00); SPI_WriteData(0X1A); SPI_WriteData(0X00); SPI_WriteData(0X69);
// 65K Mode // 65K Mode // 65K Mode // 65K Mode
SPI_WrCmd(0X2B); SPI_WriteData(0X00); SPI_WriteData(0X01); SPI_WriteData(0X00); SPI_WriteData(0XA0);
// 6 // // //
SPI_WrCmd(0X29);
// Display on
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---
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