# TFT LCD, 1 ", 128 x 96 Pixels, Landscape, RGB, 2.8V
**URL**: https://novapart.co/products/MCT010A0W12896LMLIPS/tft-lcd-1-128-x-96-pixels-landscape-rgb-28v
**SKU**: MCT010A0W12896LMLIPS
**Manufacturer**: MIDAS DISPLAYS
**Category**: Optoelectronics & Displays || Displays || LCD Displays || TFT LCD Displays
**Price**: €10.1800
**Stock**: 10+
## Description
Display Size:1"; Resolution:128 x 96 Pixels; VGA Size:-; Display Orientation:Landscape; Display Appearance:RGB; Logic Voltage:2.8V; Interface Type:SPI; Display Brightness:200cd/m²;
## Specifications
| Parameter | Value |
|---|---|
| Svhc | No SVHC (27-Jun-2024) |
| Vga Size | - |
| Resolution | 128 x 96 Pixels |
| Module Size | 23.75mm x 23.15mm |
| Touchscreen | No Touchscreen |
| Display Size | 1" |
| Logic Voltage | 2.8V |
| Product Range | - |
| Display Pinout | 21 Way FFC |
| Interface Type | SPI |
| Display Appearance | RGB |
| Display Brightness | 200cd/m² |
| Display Orientation | Landscape |
| Operating Temperature Max | 70°C |
| Operating Temperature Min | -20°C |
## Datasheet
📄 [Download PDF](https://novapart.co/datasheet/farnell:2888578/)
Electra House, 32 Southtown Road Great Yarmouth, Norfolk NR31 0DU, England
Telephone +44 (0)1493 602602 Fax +44 (0)1493 665111 Email:sales@midasdisplays.com www.midasdisplays.com
|MCT010A0W12896LMLIPS|MCT010A0W12896LMLIPS|128 x 96|128 x 96|SPIInterface|TFTModule|
|---|---|---|---|---|---|
|**Specification **||||||
|Version:2|||Date:09/04/2018|||
|**Revision**||||||
|1
2|07/04/2017
21/08/2017||First Issue.
Add Luminance and Uniformity.|||
Display Features Display Size 1.0” Resolution 128 x 96 VGA Size N/A Orientation Landscape Appearance RGB Logic Voltage 2.8V Interface 4-Line SPI ~~a~~ Brightness 200 cd/m[2 ] compliant ~~ps~~ Touchscreen N/A (Vaous Module Size 23.75 x 23.15 x 11.70 mm Operating Temperature -20°C ~ +70°C Box Quantity Weight / Display Pinout 21 - Way FFC -----
* - For full design functionality, please use this specification in conjunction with the ST7735S specification. (Provided Separately)
|**Display Accessories**|**Display Accessories**||**Optional Variants**||
|---|---|---|---|---|
|**Part Number **|**Description **||**Appearances**|**Voltage**|
|LEDV3|Constant current LED back light
driver.||||
## 1. Scope
This data sheet is to introduce the specification of MCT0010A0W12896LMLIPS active matrix TFT module. It is composed of a color TFT-LCD panel, driver IC, FPC and a backlight unit. The 1.0’’ display area contains 128(RGB) x 96 pixels.
## 2. Application
Digital equipments which need color display, mobile phone, mobile navigator/video systems.
## 3. General Information
|General Information|||
|---|---|---|
|**Item**|**Contents**|**Unit**|
|Size|1.0|inch|
|Resolution|128(RGB) x 96|/|
|Interface|4-line SPI|/|
|Technology type|IPS|/|
|Pixel Configuration|R.G.B. Vertical Stripe||
|Pixel pitch|0.154(H) x 0.154(V)||
|Outline Dimension (W x H x D)|23.75 x 23.15 x 1.7|mm|
|Active Area|20.35 x 15.26|mm|
|Display Mode|Transmissive,
Normally Black|/|
|Backlight Type|LED|/|
|Driver IC|ST7735S|/|
|Weight|TBD|g|
## 4. Outline Drawing
**==> picture [397 x 569] intentionally omitted <==**
**----- Start of picture text -----**
21 1
to) hee
=>%* R S
ca
ia i
SYMBOL GND NC NC NC NC NC VDD-28 VIO-18 GND CS# RES# D/C# LSCK LSDA GND GND NC NC NC K- A+
NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
Pin Assignment
MCT0010A0W12896LMLIPS
焊锡加高温胶高度MAX0.4MM
Midas Components
补强总厚度
0.2mm±0.03
1.0"
**----- End of picture text -----**
## 5. Interface signals
|**No**|**Symbol**|**Description**|**Remark**|
|---|---|---|---|
|1|GND|Ground||
|2|NC|No Connection||
|3|NC|No Connection||
|4|NC|No Connection||
|5|NC|No Connection||
|6|NC|No Connection||
|7|VDD-28|Power Supply for Analog, Digital System and
Booster Circuit(2.8V)||
|8|VIO-18|Power Supply for I/O System (1.8V/2.8V)||
|9|GND|Ground||
|10|CS#|Chip select||
|11|RES#|LCM Reset||
|12|D/C#|Data or Command select||
|13|LSCK|In Serial Interface, this is used as SCL||
|14|LSDA|Serial input/output signal||
|15|GND|Ground||
|16|GND|Ground||
|17|NC|No Connection||
|18|NC|No Connection||
|19|NC|No Connection||
|20|K-|Backlight cathode||
|21|A+|Backlight anode||
## 6. Absolute maximum Ratings
6.1. Electrical Absolute max. ratings
**Parameter Symbol MIN MAX Unit Remark** Power Supply Voltage VDD -0.3 3.3 V ~~ee~~ Notes: 1. VDD ≥ GND must be maintained.
2. The modules may be destroyed if they are used beyond the absolute maximum ratings.
6.2. Environment Conditions
**Item Symbol MIN MAX Unit Remark** Operating Temperature TOPR -20 70 ℃ Storage Temperature TSTG -30 80 ℃ ~~——~~
## 7. Electrical Specifications
7.1 Electrical characteristics
VDD=IOVDD=2.6V to 3.3V, GND=0V, Ta=25℃
|7. Electrical Specifications
7.1 Electrical characteristics
VDD=IOVDD=2.6V to 3.3V, GND=0V, Ta=25℃℃|7. Electrical Specifications
7.1 Electrical characteristics
VDD=IOVDD=2.6V to 3.3V, GND=0V, Ta=25℃℃|
|---|---|
|**Parameter**
**Symbol**
**Min**
**Typ**
**Max**
**Unit**
**Remark**
Supply voltage
VDD-GND
2.6
2.8
3.3
V
-
Supply current
IDD
-
6
-
mA
VDD=2.8V
~~pe~~||
|7.2LED Backlight||
|Ta=25℃||
|**Item**
**Symbol**
**MIN**
**TYP**
**MAX**
**Unit**
**Remark**
Forward Current
IF
-
15
-
mA
For One LED
Forward Voltage
VF
3.0
3.2
3.4
V
For One LED
Number of LED
-
-
1
-
Piece
~~—————~~||
7.2 LED Backlight
## 8. Command/AC Timing
## 8.1 Timing characteristics
Serial Interface Timing Characteristics (4-line serial)
|**Signal**
~~ia~~|**Symbol**
~~iaWi~~|**Parameter**
~~Wi~~
~~tay~~|**Min**
~~tay~~
~~|X~~|**Max**
~~|X|~~|**Unit**
~~|™s=~~|**Description**
~~™s=~~|
|---|---|---|---|---|---|---|
|CSX
~~ia~~
~~|~~
~~|~~|TCSS
~~iaWi~~
~~|AF~~|Chipselect setuptime(Write)
~~Wi~~
~~tay~~
~~AFTi~~
~~£8iFJrerm~~|15
~~tay~~
~~|X~~
~~iFJrerm~~|~~|X|~~
~~iFJrerm~~|ns
~~|™s=~~
~~iFJrerm~~|~~™s=~~|
||TCSH
~~ia Wi~~
~~|AF~~
~~|~~
~~wl~~|Chipselect hold time(Write)
~~Wi~~
~~tay~~
~~AFTi~~
~~£8iFJrerm~~
~~wlTF~~
~~égy~~|15
~~tay~~
~~|X~~
~~iFJrerm~~
~~gy~~
~~|~~|~~|X |~~
~~iFJrerm~~
~~NN~~|ns
~~| ™s=~~
~~iFJrerm~~
~~|~~||
||TCSS
~~| AF~~
~~|~~
~~wl~~
~~a~~|Chipselect setuptime(Read)
~~AF Ti~~
~~£8iFJrerm~~
~~wlTF~~
~~égy~~
|60
~~iFJrerm~~
~~gy~~
~~|~~
~~ee~~
|~~iFJrerm~~
~~NN~~
|ns
~~iFJrerm~~
~~|~~
||
||TSCC
~~|~~
~~wl~~
~~a~~
~~a~~|Chipselect hold time(Read)
~~wl TF~~
~~é gy~~
~~ee~~
|65
~~gy~~
~~|~~
~~ee~~
~~ee~~
|~~NN~~
~~ee~~
|ns
~~|~~
~~ee~~
||
||TCHW
~~a~~|Chipselect “H”pulse width
~~ee~~|40
~~ee~~
~~ee~~|~~ee~~|ns
~~ee~~||
|SCL
~~JVESIQH~~
~~po~~|TSCYCW
~~ee~~
~~JVESIQH~~
~~es~~|Serial clock cycle(Write)
~~ee~~
~~JVESIQH~~
~~©~~|66
~~ee~~|~~ee~~
~~©SUDT~~|ns
~~ee~~
~~SUDT~~|~~SUDT~~
~~FT~~|
||TSHW
~~JVESIQH~~
~~es~~|SCL “H”pulse width(Write)
~~JVESIQH~~
~~©~~
~~IMNdNUldCluUre~~|30
~~IMNdNUldCluUre~~|~~IMNdNUldCluUre~~
~~©SUDT~~|ns
~~IMNdNUldCluUre~~
~~SUDT~~||
||TSLW
~~JVESIQH~~
~~es~~|SCL “L”pulse width(Write)
~~JVESIQH~~
~~©~~|30|~~©SUDT~~|ns
~~SUDT~~||
||TSCYCR
~~es~~
~~a ~~|Serial clock cycle(Read)
~~ee~~|150
~~ee~~|~~© SUDT~~
~~ee~~|ns
~~SUDT~~
~~ee~~||
||TSHR
~~a~~|SCL “H”pulse width(Read)
~~ee~~|60
~~ee~~|~~ee~~|ns
~~ee~~||
||TSLR
~~**a**~~|SCL “L”pulse width(Read)
~~**ee**~~
~~ft~~|60
~~**ee**~~
~~ft~~|~~**ee**~~
~~ft~~|ns
~~**ee**~~||
|D/CX
~~po~~|TDCS
~~**a**~~|D/CX setuptime
~~**ee**~~
~~ft~~|~~**ee**~~
~~ft~~|0
~~**ee**~~
~~ft~~|ns
~~**ee**~~|~~FT~~|
||TDCH
~~**a**~~|D/CX hold time
~~**ee**~~
~~ft~~|10
~~**ee**~~
~~ft~~|~~**ee**~~
~~ft~~|ns
~~**ee**~~||
|SDA
(DIN)
(DOUT)
~~po~~|TSDS
~~**a** ~~
~~a~~|Data setuptime
~~**ee**~~
~~ft~~|10
~~**ee**~~
~~ft~~|~~**ee**~~
~~ft~~|ns
~~**ee**~~|~~FT~~|
||TSDH
~~a~~|Data hold time
~~ee~~|10
~~ee~~|~~ee~~|ns
~~ee~~||
||TACC
~~a ~~|Access time
~~ee~~|10
~~ee~~
~~ee~~|50
~~ee~~|ns
~~ee~~||
||TOH
~~a~~|Output disable time
~~ee~~|~~ee~~
~~ee~~|50
~~ee~~|ns
~~ee~~||
## 8.2 Reset Input Timing
## Reset Timing
|Related Pins|Symbol|Parameter|Min|Max|Unit|
|---|---|---|---|---|---|
|RESX|tRESW|Resetpulse duration|10|-|us|
||tREST|Reset cancel|-|5|ms|
|||||120|ms|
Notes :
1. The reset cancel includes also required time for loading ID bytes, VCOM setting and other settings from EEPROM (or similar device ) to registers. This loading is done every time when there is HW reset cancel time (tRT) within 5 ms after a rising edge of RESX.
2. Spike due to an electrostatic discharge on RESX line does not cause irregular system reset according to the table below:
|2. Spike due to an electrostatic discharge on RESX line does not cause irregular system reset according
too thehee tablelee below:low:ow:w:|2. Spike due to an electrostatic discharge on RESX line does not cause irregular system reset according|
|---|---|
|RESX Pulse|Action|
|Shorter than 5 us|Reset Rejected|
|Longer than 9 us|Reset|
|Between 5 us and 9 us|Reset starts|
3. During the Resetting period, the display will be blanked (The display is entering blanking sequence, which maximum time is 120 ms, when Reset Starts in Sleep Out –mode. The display remains the blank state in Sleep In -mode.) and then return to Default condition for Hardware Reset.
4. Spike Rejection also applies during a valid reset pulse as shown below:
5. When Reset applied during Sleep In Mode.
6. When Reset applied during Sleep Out Mode.
7. It is necessary to wait 5msec after releasing RESX before sending commands. Also Sleep Out command cannot be sent for 120msec.
## 9. Optical Specification
Ta=25 ℃
|**Item**
~~ee~~|**Item**
~~ee~~|**Symbol**
~~|~~
|**Condition**
~~|TT~~
|**Min**
~~TT~~
|**Typ.**
~~TT|~~
|**Max.**
~~|~~
|**Unit**
|**Remark**
|
|---|---|---|---|---|---|---|---|---|
|Contrast Ratio
~~PT~~
~~ee~~||CR
~~PT~~
~~|~~
|θ=0°
~~PT~~
~~|TT~~
|750
~~PT~~
~~TT~~
|900
~~PT~~
~~TT|~~
|-
~~PT~~
~~|~~
|~~PT~~
|Note1
Note2
~~PT~~
|
|Response Time
~~ee~~||Tr
~~|~~
~~ee~~
~~ee~~|25℃
~~|TT~~
~~ee~~
|-
~~TT~~
~~ee~~
~~e~~|30
~~TT|~~
~~ee~~
~~e~~|-
~~|~~
~~ee~~~~**e**~~
~~e~~|ms
~~ee~~|Note1
Note3
~~ee~~|
|||Tf
~~|~~
~~ee~~
~~ee~~
~~|~~||~~TT~~
~~ee~~
~~e~~
|30
~~TT|~~
~~ee~~
~~e~~
~~|~~
|-
~~|~~
~~ee~~~~**e**~~
~~e~~
~~|~~
|ms
~~ee~~||
|View Angles
~~ee ~~
~~|~~||θT
~~|~~
~~ee~~
~~ee~~
~~|~~
~~|~~
~~|~~|CR≧10
~~| TT~~
~~ee ~~
|-
~~TT~~
~~ee~~
~~e~~
~~|~~
|85
~~TT |~~
~~ee~~
~~e~~
~~|~~
~~|~~
~~|~~
|-
~~|~~
~~ee~~~~**e** ~~
~~e~~
~~|~~
~~|~~
~~|~~
|Degree Note 4
~~ee~~|Degree Note 4
~~ee~~|
|||θB
~~| ~~
~~|~~
~~|~~
~~a~~||-
~~|~~
~~|~~
|85
~~|~~
~~|~~
~~|~~
~~|~~
~~|~~
|-
~~|~~
~~|~~
~~|~~
~~|~~
~~||~~
|||
|||θL
~~| ~~
~~| ~~
~~a~~||-
~~|~~
~~|~~
|85
~~|~~
~~|~~
~~|~~
~~|~~
~~|~~
~~|~~|-
~~|~~
~~|~~
~~|~~
~~|~~
~~||~~
~~|~~|||
|||θR
~~a ~~||-
~~|~~|85
~~|~~
~~|~~
~~|~~|-
~~| |~~
~~|~~
~~|~~|||
|Chromaticity|White
~~|~~|x
~~ee~~|Brightness
is on
~~)~~
~~4~~|-
~~|~~|0.296
~~|~~
~~|~~|-
~~|~~
~~|~~||Note5,
Note1|
|||y
~~ee~~||-
~~|~~
~~a ee~~|0.324
~~|~~
~~|~~
~~ee~~|-
~~|~~
~~|~~
~~ee~~|||
||Red
~~|~~
~~SS~~
~~AD~~|x
~~ee~~
~~SS~~
~~AD~~||-
~~|~~
~~|~~
~~P|~~
|0.626
~~|~~
~~|~~
~~P|~~
|-
~~|~~
~~|~~
~~P|~~
~~em~~
|||
|||y
~~SS~~
~~AD~~||-
~~|~~
~~P|~~
|0.310
~~|~~
~~P|~~
|-
~~|~~
~~P|~~
~~em~~
|||
||Green
~~|~~
~~SS~~
~~AD~~
~~|e~~
~~J~~|x
~~SS~~
~~AD~~
~~|e~~
||-
~~| ~~
~~P|~~
~~ws~~
~~YY~~|0.296
~~|~~
~~P|~~
~~ws~~
~~YY \|~~|-
~~|~~
~~P|~~
~~em~~
~~ws~~
~~\|~~|||
|||y
~~AD~~
~~|e~~
~~i~~||-
~~ws~~
~~YY~~
~~) J~~|0.518
~~ws~~
~~YY \|~~|-
~~em~~
~~ws~~
~~\|~~|||
||Blue
~~AD~~
~~|e~~
~~J ~~
~~gi.~~|x
~~AD ~~
~~|e~~
~~i~~
~~gi.~~||-
~~ws~~
~~YY~~
~~) J~~
~~4~~|0.144
~~ws~~
~~YY \|~~
|-
~~em~~
~~ws~~
~~\|~~
~~F=~~|||
|||y
~~i~~
~~gi.~~||-
~~YY~~
~~) J~~
~~4AT-~~|0.139
~~YY \|~~
~~AT-~~|-
~~\|~~
~~AT-~~
~~F=~~|||
|NTSC
~~gi.~~||S
~~gi.~~|~~4~~|--
~~4~~|50
|--
~~F=~~|%|Note5|
|Luminance||L||--|200|--|cd/m2|Note1
Note6|
|Uniformity||U||--|80|--|%|Note1
Note7|
## Note 1: Definition of optical measurement system.
Temperature = 25℃( ± 3℃); LED back-light: ON, Environment brightness < 150 lx
## Note 2: Contrast ratio is defined as follow:
## Surface Luminance with all white pixels Contrast Ratio = Surface Luminance with all black pixels
## Note 3: Response time is defined as follow:
Response time is the time required for the display to transition from black to white (Rise Time, Tr) and from white to black(Decay Time, Tf).
## Note 4: Viewing angle range is defined as follow:
Viewing angle is measured at the center point of the LCD.
## Note 5: Color chromaticity is defined as follow: (CIE1931)
Color coordinates measured at center point of LCD.
area of RGB triangle S = × 100% area of NTSC triangle
## Note 6: Luminance is defined as follow:
Luminance is defined as the brightness of all pixels “ White ” at the center of display area on optimum contrast.
## Note 7: Luminance Uniformity is defined as follow:
Active area is divided into 9 measuring areas (Refer Fig. 2). Every measuring point is placed at the center of each measuring area.
Minimum Luminance(brightness) in 9points = Uniformity(U) Maximum Luminance(brightness )in 9points
Fig. 2 Definition of uniformity
## 10. Environmental / Reliability Tests
|**No**|**Test Item**|**Condition**|**Judgment criteria**|
|---|---|---|---|
|1|High Temp Operation Ts=+70|High Temp Operation Ts=+70℃, 96hrs|Per table in below|
|2|Low Temp Operation Ta=-20|Low Temp Operation Ta=-20℃, 96hrs|Per table in below|
|3|High Temp Storage|Ta=+80℃, 96hrs|Per table in below|
|4|Low Temp Storage|Ta=-30℃, 96hrs|Per table in below|
|5|High Temp & High
Humidity Storage|High Temp & High
Ta=+60℃, 90% RH
96 hours|Per table in below
(polarizer discoloration is
excluded)|
|6|Thermal
Shock
(Non-operation)|Shock
-30℃30 min~+80℃30 min,
Change time:5min, 5 Cycles|Per table in below|
|7|ESD (Operation)|C=150pF, R=330Ω,5points/panel
Air:±8KV, 5times;
Contact:±4KV, 5 times;|Per table in below|
|8|Vibration
(Non-operation)|10Hz~150Hz, 100m/s2, 120min|Per table in below|
|9|Shock
(Non-operation)|Half- sine wave,300m/s2,11ms|Per table in below|
|10|Package
DropTest|Height:80 cm,
1 corner,3 edges,6 surfaces|Per table in below|
|**INSPECTION**|**CRITERION(after test)**|
|---|---|
|Appearance|No Crack on the FPC, on the LCD Panel|
|Alignment of LCD Panel|No Bubbles in the LCD Panel
No other Defects of Alignment in Active area|
|Electrical current|Within device specifications|
|Function / Display|No Broken Circuit, No Short Circuit or No Black line
No Other Defects of Display|
## 11. Precautions for Use of LCD Modules
## 11.1 Safety
The liquid crystal in the LCD is poisonous. Do not put it in your mouth. If the liquid crystal touches your skin or clothes, wash it off immediately using soap and water.
## 11.2 Handling
A. The LCD and touch panel is made of plate glass. Do not subject the panel to mechanical shock or to excessive force on its surface.
- B. Do not handle the product by holding the flexible pattern portion in order to assure the reliability
C. Transparency is an important factor for the touch panel. Please wear clear finger sacks, gloves and mask to protect the touch panel from finger print or stain and also hold the portion outside the view area when handling the touch panel.
D. Provide a space so that the panel does not come into contact with other components.
- E. To protect the product from external force, put a covering lens (acrylic board or similar board) and keep an appropriate gap between them.
F. Transparent electrodes may be disconnected if the panel is used under environmental conditions where dew condensation occurs.
G. Property of semiconductor devices may be affected when they are exposed to light, possibly resulting in IC malfunctions.
H. To prevent such IC malfunctions, your design and mounting layout shall be done in the way that the IC is not exposed to light in actual use.
## 11.3 Static Electricity
A. Ground soldering iron tips, tools and testers when they are in operation.
B. Ground your body when handling the products.
C. Power on the LCD module before applying the voltage to the input terminals.
D. Do not apply voltage which exceeds the absolute maximum rating.
E. Store the products in an anti-electrostatic bag or container.
## 11.4 Storage
A. Store the products in a dark place at +25 ℃± 10 ℃ with low humidity (40% RH to 60% RH). Don't expose to sunlight or fluorescent light.
B. Storage in a clean environment, free from dust, active gas, and solvent.
## 11.5 Cleaning
A. Do not wipe the touch panel with dry cloth, as it may cause scratch.
B. Wipe off the stain on the product by using soft cloth moistened with ethanol. Do not allow ethanol to get in between the upper film and the bottom glass. It may cause peeling issue or defective operation. Do not use any organic solvent or detergent other than ethanol.
## 16.6 Cautions for installing and assembling
Bezel edge must be positioned in the area between the Active area and View area. The bezel may press the touch screen and cause activation if the edge touches the active area. A gap of approximately 0.5mm is needed between the bezel and the top electrode. It may cause unexpected activation if the gap is too narrow. There is a tolerance of 0.2 to 0.3mm for the outside dimensions of the touch panel and tail. A gap must be made to absorb the tolerance in the case and connector.
In order to make the display assembly stable and firm, Midas recommends to design some supporting at the display backside, especially for the display with tape-attached touch panel, such supporting is important and essential, or else, the display may drop-off from front after some period of time.
## Links
- [View this product on Novapart](https://novapart.co/products/MCT010A0W12896LMLIPS/tft-lcd-1-128-x-96-pixels-landscape-rgb-28v)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/midas/mct010a0w12896lmlips/lcd-display-tft-rgb-landscape/dp/2888578)
---
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