# TFT LCD, 2 ", 240 x 320 Pixels, Portrait, RGB, 3.3V

![Product image](https://novapart.co/image/farnell:4351256/)

**URL**: https://novapart.co/products/MDT0200FIH-MULTI/tft-lcd-2-240-x-320-pixels-portrait-rgb-33v
**SKU**: MDT0200FIH-MULTI
**Manufacturer**: MIDAS DISPLAYS
**Category**: Optoelectronics & Displays || Displays || LCD Displays || TFT LCD Displays
**Price**: €11.3300
**Stock**: 25+
**Lead Time**: 106 days (indicative)

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (25-Jun-2025) |
| Vga Size | - |
| Resolution | 240 x 320 Pixels |
| Module Size | 38.8mm x 52.3mm |
| Touchscreen | No Touchscreen |
| Display Size | 2" |
| Logic Voltage | 3.3V |
| Product Range | - |
| Display Pinout | 40 Way FFC |
| Interface Type | MCU, SPI |
| Display Appearance | RGB |
| Display Brightness | 950cd/m² |
| Display Orientation | Portrait |
| Operating Temperature Max | 70°C |
| Operating Temperature Min | -20°C |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:4351256/)

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 

MDT0200FIH-MULTI 240 x 320 MULTI Interface TFT Module **Specification** Version:    1 Date:  18/07/2022 **Revision** 1 16/07/2022 First issue ~~[~~ Display Features ~~a~~ Display Size 2.00” Resolution 240 x 320 ~~Le _.—a“asoh~~ Orientation ~~lA~~ Portrait ~~es~~ Appearance ~~Sy 4 oe Wy 4~~ RGB ~~es~~ Logic Voltage ~~oa ee 7~~ 3.3V Interface MCU / SPI Brightness 950 cd/m[2 ] Touchscreen --- ~~DD TI SP A~~ compliant Module Size 38.80 x 52.30 x 2.15mm ~~a a~~ Operating Temperature -20°C ~ +70°C ~~a~~ Pinout 40 way FFC Box Quantity Weight / Display Pitch 0.5mm ----- ~~Se~~ 

- - For full design functionality, please use this 

|**Display Accessories**|**Display Accessories**||**Optional Variants**||
|---|---|---|---|---|
|**Part Number **|**Description **||**Appearances**|**Voltage**|
||40 Way FFC to cable and wires.||||
|MPBV6|Driven by any driver board that can<br>be wired to a 1mm pitch||||
||SHDR-40V-S-B receptacle.||||



Page 1 of 19 

## **Summary** 

TFT 2.0”is a IPS transmissive type color active matrix TFT liquid crystal display that use amorphous silicon TFT as switching devices. This module is a composed of a TFT_LCD module, It is usually designed for industrial application and this module follows RoHs. 

## **General Specifications** 

- Size: 2.0” inch 

- Dot Matrix: 240 x RGB x 320(TFT) dots 

- Module dimension: 38.8(W) x 52.3(H) x 2.15(D) mm 

- Active area: 30.60 x 40.80 mm 

- Pixel Pitch: 0.1275 x 0.1275 mm 

- LCD type: TFT, Normally Black, Transmissive 

- TFT Interface: MCU / SPI 

- TFT Driver IC: ST7789VI or Equivalent 

- Viewing angle: 80/80/80/80 

- Aspect Ratio: 3 ： 4 

- Backlight Type: LED,Normally White 

- With /Without TP: Without TP 

- Surface: Glare 

*Color tone slight changed by temperature and driving voltage. 

Page 2 of 19 

## **Interface 1. LCM PIN Definition** 

|**NO**<br>~~a~~|**Symbol**|**Function**|
|---|---|---|
|1<br>~~a a~~|GND<br>~~a~~|Ground|
|2<br>~~aa~~|NC<br>~~aa~~|No connection<br>~~aa~~|
|3<br>~~a~~|NC<br>~~a~~<br>~~a~~|No connection|
|4<br>~~a~~<br>~~aa~~|NC<br>~~a~~<br>~~a~~<br>~~aa~~|No connection<br>~~aa~~|
|5<br>~~a~~|NC<br>~~a~~|No connection|
|6<br>~~a~~|NC<br>~~a~~<br>~~a~~|No connection|
|7<br>~~aa~~|VDD<br>~~aa~~|Power supply<br>~~aa~~|
|8<br>~~a~~|VDDI<br>~~a~~|Power Supplyfor I/O System.|
|9|TE|Tearing effect signal is used to synchronize MCU to frame memory<br>writing.<br>If not used, please let this pin open|
|10|CSX|Chip selection pin<br>Low enable.<br>High disable.|
|11|DCX(SCL)|(D/CX): This pin is used to select “Data or Command” in the parallel<br>interface.<br>DCX=’1’: display data or parameter.<br>DCX=’0’: command data.<br>(SCL): When SPI mode,This pin is used to be serial interface clock.|
|12|WRX(D/CX)|Display data/command selection<br>Second Data lane in 2 data lane serial interface.<br>(WRX): Write enable in MCU parallel interface.<br>(D/CX): When 4-SPI mode,This pin in 4-line serial interface<br>If not used, please fix this pin at VDDI or GND.|
|13|RDX|-Read enable in 8080 MCU parallel interface.<br>-If not used, please fix this pin at VDDI or GND.|
|14~29<br>~~a~~|DB0~DB15<br>~~a~~|Data bus line|
|30<br>~~**|**~~|RESX<br>~~**|**~~|System reset pin.<br>signal is active low|
|31<br>~~**|**~~|IM0<br>~~**|**~~|The MCU interface mode select.<br> po fo | o |ataxepeatair<br>| oemra)|<br>Pao | + |an-ttbepaateie<br>| pets<br>Pos [a | enootpeatair|oer<br>Po[a[+ en-o**n**epref [Dario<br>1 [2 |+ |st esotcea<br>ie | soa:out<br>Ca<br>~~ane ise~~iF~~| Sao~~<br>~~—C.C.C( NTT~~|
|32<br>~~**|**~~<br>~~__~~|IM1<br>~~**|**~~<br>~~__~~||
|33<br>~~__~~<br>~~fd~~<br>~~LS~~|IM2<br>~~__ ~~<br>~~fd~~<br>||
|34~35<br>~~fd~~<br>~~LS~~|DB16~DB17 Data bus line<br>~~fd~~<br>|DB16~DB17 Data bus line<br>~~ane ise~~ iF~~| Sao~~<br>~~—C.C.C( NTT~~|
|36<br>~~LS ~~|VLED-<br> ~~a~~|Cathode of LED backlight.<br>~~—C.C.C( NTT~~|



Page 3 of 19 

|37|VLED-|Cathode of LED backlight.|
|---|---|---|
|38|VLED+|Anode of LED backlight.|
|39|NC(SDA)|When SPI mode, This pin is SPI interface input/output pin.<br>The data is latched on the rising edge of the SCL signal.<br>If not used(NC), please fix this pin at VDDI or GND level.|
|40|NC|No connection|



Page 4 of 19 

## **Contour Drawin g** 

**==> picture [261 x 250] intentionally omitted <==**

**----- Start of picture text -----**<br>
(38.80)<br>38.40 (TFT OD)<br>2.70 33.00 (POL)<br>3.50 31.40 (TFT VA)<br>3.90 30.60 (TFT AA)<br>2.15¡ À0.20<br>2.03¡ À0.20<br>Pull tape<br>R G B<br>T y i y<br>240 x RGB x 320<br>|<br>' 7 . . ——— | . 7<br>Component area K A 1.2 MAX Black tape<br>Contact side Stiffener<br>1 40<br>0.35¡ À0.05 0.30¡ À0.5 40 1<br>P0.5*39=19.50¡ À0.1<br>13.45¡ À0.5 20.50¡ À0.1<br>2.70 3.30 3.70<br>(52.30)<br>43.10 (POL)<br>41.60 (TFT VA) 40.80 (TFT AA)<br>51.90 (TFT OD)<br>YU XL YD XR<br> À0.5¡  À0.53.25¡<br>33.00 3.50 Bending area<br>5.00<br>**----- End of picture text -----**<br>


**==> picture [47 x 222] intentionally omitted <==**

**----- Start of picture text -----**<br>
PIN NO. SYMBOL<br>1 GND<br>2 NC(YU)<br>3 NC(XL)<br>4 NC(YD)<br>5 NC(XR)<br>6 NC<br>7 VDD<br>8 VDDI<br>9 TE<br>10 CSX<br>11 D/CX(SCL)<br>12 WRX(D/CX)<br>13 RDX<br>14~29 DB0~DB15<br>30 RESX<br>31 IM0<br>32 IM1<br>33 IM2<br>34 DB16<br>35 DB17<br>36 VLED-<br>37 VLED-<br>38 VLED+<br>39 NC(SDA)<br>40 NC<br>**----- End of picture text -----**<br>


The non-specified tolerance of dimension is ¡ À0.3 mm . 

Page 5 of 19 

## **Block Diagram** 

Page 6 of 19 

## **Absolute Maximum Ratings** 

**Item Symbol Min Typ Max Unit** － Operating Temperature TOP -20 +70 ℃ － Storage Temperature TST -30 +80 ℃ ~~ae~~ 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 ℃ 

## **Electrical Characteristics** 

|**Electrical Characteristics**|||||||
|---|---|---|---|---|---|---|
|**1.Operating conditions**|||||||
|**Item**<br>**Symbol**<br>**Condition**<br>**Min**<br>**Typ**<br>**Max**<br>**Unit**<br>Supply Voltage For Analog<br>VDD<br>－<br>2.4<br>3.3<br>3.6<br>V<br>Interface Operation Voltage<br>VDDI<br>－<br>1.65<br>1.8<br>3.6<br>V<br>Supply Current For LCM<br>IDD<br>VDD= VDDI<br>= VCC=3.0V<br>－<br>6.0<br>9.0<br>mA<br>~~Sanoaae~~|||||||
|Note: to avoid power supply noise, please avoid using driving conditions close to min, or max|||||||
|value|||||||
|**2. LED driving conditions**|||||||
|**Parameter**<br>**Symbol**<br>**Min.**<br>LED current<br>－<br>－<br>LED voltage<br>VLED+<br>5.5<br>LED Life Time<br>－<br>－<br>Note 1 : There are 1 Groups LED<br>~~RE ~~|**Typ.**<br>**Max.**<br>**Unit**<br>**Remark**<br>60<br>－<br>mA<br>－<br>6.0<br>6.5<br>V<br>Note 1<br>50,000<br>－<br>Hr<br>Note<br>2,3,4<br> ~~EEEE~~||||||
|VLED-<br>VLED+|||||||
|Back Light Circuit|||||||



Note 2 : Ta = 25 ℃ 

Note 3 : Brightness to be decreased to 50% of the initial value Note 4 : The single LED lamp case 

Page 7 of 19 

## **DC Characteristics** 

|**Parameter**|**Symbol**|**Rating**|**Rating**|**Rating**|**Unit**|**Condition**|
|---|---|---|---|---|---|---|
|||**Min**|**Typ**|**Max**|||
|Low level input voltage|VIL|0|-|0.3VCC|V||
|High level input<br>voltage|VIH|0.7VCC|-|VCC|V||



## **AC Characteristics** 

## **1. 8080 Series MCU Parallel Interface Characteristics: 18/16/9/8-bit Bus** 

**Figure 1Parallel Interface Timing Characteristics (8080-Series MCU Interface)** 

Page 8 of 19 

**VDDI=1.65 to 3.6V, VDD=2.4 to 3.6V, GND=0V, Ta= 25** ℃ 

|**Signal**|**Symbol**|**Parameter**|**Min**|**Max**|**Unit**|**Description**|
|---|---|---|---|---|---|---|
|D/CX|TAST|Address setuptime|0||ns|-|
||TAHT|Address hold time (Write/Read)|10||ns||
|CSX|TCHW|Chipselect “H”pulse width|0||ns|-|
||TCS|Chip select setup time (Write)|15||ns||
||TRCS|Chip select setup time (Read ID)|45||ns||
||TRCSFM|Chipselect setuptime(Read FM)|355||ns||
||TCSF|Chipselect wait time(Write/Read)|10||ns||
||TCSH|Chipselect hold time|10||ns||
|WRX|TWC|Writecycle|66||ns||
||TWRH|Controlpulse “H” duration|15||ns||
||TWRL|Controlpulse “L” duration|15||ns||
|RDX (ID)|RDX (ID)<br>TRC|Read cycle(ID)|160||ns|When read ID data|
||RDX (ID)<br>TRDH|Controlpulse “H” duration(ID)|90||ns||
||TRDL|Controlpulse “L” duration(ID)|45||ns||
|RDX<br>(FM)|TRCFM|Read cycle(FM)|450||ns|When read from<br>frame memory|
||TRDHFM|Controlpulse “H” duration(FM)|90||ns||
||TRDLFM|Control pulse “L” duration (FM)|355||ns||
|D[17:0]|TDST|Data setuptime|10||ns|For CL=30pF|
||TDHT|Data hold time|10||ns||
||TRAT|Read access time (ID)||40|ns||
||TRATFM|Read access time (FM)||340|ns||
||TODH|Output disable time|20|80|ns||



**Table 8080 Parallel Interface Characteristics** 

Page 9 of 19 

Note: The rising time and falling time (Tr, Tf) of input signal and fall time are specified at 15 ns or less. Logic high and low levels are specifiedas 30% and 70% of VDDI for Input signals. 

Page 10 of 19 

## **2. 3-line Serial Interface** 

**Figure 4  3-line serial Interface Timing Characteristics** 

**VDDI=1.65 to 3.6V, VDD=2.4 to 3.6V, GND=0V, Ta= 25** ℃ age ae eee |e |e | 

**Table 3-line serial Interface Characteristics** 

Page 11 of 19 

## **3. Reset Timing:** 

**Figure 5 Reset Timing** 

VDDI=1.65 to 3.6V, VDD=2.4 to 3.6V, GND=0V, Ta=25 ℃ 

Notes: 

1. The reset cancel includes also required time for loading ID bytes, VCOM setting and other settings from NVM (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 RESXline does not cause irregular system reset according to the table below: 

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: 

Page 12 of 19 

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. 

## **4. Power sequences** 

The power on/off sequence is illustrated below 

Page 13 of 19 

## **ical Characteristics Opt** 

|**Item**|**Item**|**Symbol**<br>**Condition.**|**Condition.**|**Min**|**Typ. Max.**|**Typ. Max.**|**Unit**|**Remark**|
|---|---|---|---|---|---|---|---|---|
|Response time||Tr+ Tf<br>θ=0°|θ=0°、Φ=0°|-|35|45|ms|Note 3|
|Contrast ratio||CR<br>At optimized<br>viewing angle|At optimized<br>viewing angle|640|800|-|-|Note 4|
|Color<br>Chromaticity|White|Wx<br>θ=0°<br>Wy|θ=0°、Φ=0|0.246|0.296|0.346||Note<br>2,6,7|
|||||0.275|0.325|0.375|||
|Viewing angle<br>(Gray Scale<br>Inversion<br>Direction)|Hor.|ΘR<br>ΘL<br>ΦT<br>ΦB|CR≧10|-|80|-|Deg.|Note 1|
|||||-|80|-|||
||Ver.|||-|80|-|||
|||||-|80|-|||
|Brightness||-|-|850|950|-|cd/m2|Center of<br>display|
|Uniformity||(U)|-|75|-|-|%|Note5|



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. 

Fig. 11.2. Optical measurement system setup 

Page 14 of 19 

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 -----**<br>
Display<br>Data White(TFT OFF) Black(TFT ON) White(TFT OFF)<br>=~ 100%<br>90% |<br>2 10%<br>S 0%<br>**----- End of picture text -----**<br>


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 

Note 5: Definition of Luminance Uniformity 

Active area is divided into 9 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 

**==> picture [80 x 97] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3<br>6 5 4<br>7 8 9<br>**----- End of picture text -----**<br>


Fig 11.3.  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 15 of 19 

## **Reliability** 

## Content of Reliability Test (Wide temperature, -20 ℃ ~70 ℃ ) 

|**Reliability**<br>Content of Reliability Test (Wide temperature, -20℃~70℃)|**Reliability**<br>Content of Reliability Test (Wide temperature, -20℃~70℃)|**Reliability**<br>Content of Reliability Test (Wide temperature, -20℃~70℃)|**Reliability**<br>Content of Reliability Test (Wide temperature, -20℃~70℃)|
|---|---|---|---|
|**Environmental Test**||||
|**Test Item**|**Content of Test**|**Test Condition**|**Note**|
|High Temperature<br>storage|Endurance test applying the high storage<br>temperature for a long time.|80℃<br>200hrs|2|
|Low Temperature<br>storage|Endurance test applying the low storage<br>temperature for a long time.|-30℃<br>200hrs|1,2|
|High Temperature<br>Operation|Endurance test applying the electric stress<br>(Voltage & Current) and the thermal stress to<br>the element for a long time.|70℃<br>200hrs|——|
|Low Temperature<br>Operation|Endurance test applying the electric stress<br>under low temperature for a long time.|-20℃<br>200hrs|1|
|High Temperature/<br>Humidity Operation|The module should be allowed to stand at<br>60℃,90%RH max|60℃,90%RH<br>96hrs|1,2|
|Thermal shock<br>resistance|The sample should be allowed stand the<br>following 10 cycles of operation<br>-20℃25℃70℃<br>30min   5min    30min<br>1 cycle|-20℃/70℃<br>10 cycles|——|
|Vibration test|Endurance test applying the vibration during<br>transportation and using.|Total fixed<br>amplitude : 1.5mm<br>Vibration<br>Frequency :<br>10~55Hz<br>One cycle 60<br>seconds to 3<br>directions of X,Y,Z<br>for Each 15 minutes|3|
|Static electricity test|Static electricity testEndurance test applying the electric stress to<br>the finished product housing.|Contact±4KV<br>Air±8KV<br>10 times|4|



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. 

Note4: Some performance degradation allowed. Need Power off self-recoverable.No hardware failure 

Page 16 of 19 

## **Initial Code For Reference** 

void ST7789SV_RF0200B(void) for SPI & MCU mode { Write_Command(0x11);    //Sleep out delay(150); //Delay 120ms Write_Command(0x36); // Write_Data(0x00); 

Write_Command(0x3A);   // Write_Data(0x55); 

//ST7789S Frame rate setting 

Write_Command(0xb2);    //Porch Setting Write_Data(0x0c); Write_Data(0x0c); Write_Data(0x00); Write_Data(0x33); Write_Data(0x33); Write_Command(0xb7);  //Gate Control //Write_Data(0x35);         //vgh vgl Write_Data(0x64); 

//ST7789S Power setting 

Write_Command(0xbb);  //Gate Control  VCOMS=1.425V Write_Data(0x30); 

Write_Command(0xc0);  //LCM Control Write_Data(0x2c); 

Write_Command(0xc2);  //VDV and VRH Command Enable Write_Data(0x01); 

Write_Command(0xc3);  //VRH Set (AVDD=VRH+1.675 Write_Data(0x0b); Write_Command(0xc4);  //VRH Set Write_Data(0x20); Write_Command(0xc6);  //Frame Rate Control in Normal Mode Write_Data(0x0f); Write_Command(0xca);  //Register Value Selection 2 Write_Data(0x0f); Write_Command(0xc8);  //Register Value Selection 1 Write_Data(0x08); 

Write_Command(0x55);  //Write Content Adaptive Brightness Control and Color Enhancemen 

Page 17 of 19 

t 

Write_Data(0x90); Write_Command(0xd0);    //Power Control Write_Data(0xa4); Write_Data(0xa1); Write_Command(0x35);    // 

Write_Command(0x26);    //Set Gamma Write_Data(0x02); 

//ST7789S gamma setting Write_Command(0xe0); Write_Data(0xd0); Write_Data(0x00); Write_Data(0x02); Write_Data(0x07); Write_Data(0x0b); Write_Data(0x1a); Write_Data(0x31); Write_Data(0x54); Write_Data(0x40); Write_Data(0x29); Write_Data(0x12); Write_Data(0x12); Write_Data(0x12); Write_Data(0x17); Write_Command(0xe1); Write_Data(0xd0); Write_Data(0x00); Write_Data(0x02); Write_Data(0x07); Write_Data(0x05); Write_Data(0x25); Write_Data(0x2d); Write_Data(0x44); Write_Data(0x45); Write_Data(0x1c); Write_Data(0x18); Write_Data(0x16); Write_Data(0x1c); Write_Data(0x1d); 

Page 18 of 19 

Write_Command(0x21); 

Write_Command(0x2A); 

Write_Data(0x00); Write_Data(0x00); Write_Data(0x00); Write_Data(0xEF); 

Write_Command(0x2B); Write_Data(0x00); Write_Data(0x0); Write_Data(0x01); Write_Data(0x3F); 

Write_Command(0x29); 

} 

Page 19 of 19 



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