Surenoo SMC0430B-800480 Series MCU Interface IPS LCD Module User Manual

June 10, 2024
Surenoo

SMC0430B-800480 Series
MCU Interface IPS LCD Module USER MANUALSurenoo SMC0430B 800480 Series
MCU Interface IPS LCD Module Model No.: SMC0430B-800480
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GENERAL INFORMATION

Item of general information Contents Unit
LCD Display Size (Diagonal) 4.3 inch
Module Structure LCD Display + CTP Touch + PCB
LCD Display Type TFT/TRANSMISSIVE
LCD Display Mode Normally Black
Recommended Viewing Direction ALL o’clock
Gray inversion Direction o’clock
Module size (W×H×T) 118.28×67.31×7.25 mm
Active area (W×H) 95.04×53.68 mm
Number of pixels (Resolution) 800RGB×480 pixel
Pixel pitch (W×H) 0.1188×0.1122 mm
LCD Driver IC

Module Interface Type

| LCD| MCU 16bit/8bit interface| –
CTP| IIC interface| –
Module Input voltage| 5.0V or 3.3V| V
Module Power consumption| –| mW
Color Numbers| 16.7M| –
Backlight Type| White LED| –
LCM Controller| LT7381| –

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module -
fig

ABSOLUTE MAXIMUM RATINGS

Parameter of absolute maximum ratings| Symbol| Min| Max| Unit
---|---|---|---|---
Operating temperature| Top| -20| 70| ℃
Storage temperature| TSgt| -30| 80| ℃
Humidity| RH| –| 90%(Max 60℃)| RH

Note: Absolute maximum ratings means the product can withstand short-term, not more than 120 hours. If the product is a long time to withstand these conditions, the life  time would be shorter.

ELECTRICAL CHARACTERISTICS(DC CHARACTERISTICS)

Parameter of DC characteristics| Symbol| Min.| Typ.| Max.| Unit
---|---|---|---|---|---
PCB operating voltage| VCC5V| –| 5.0| –| V
LCD I/O operating voltage| VDD| 3.0| 3.3| 3.6| V
Input voltage ‘H’ level| VIH| 2| –| 3.6| V
Input voltage ‘L’ level| VIL| -0.3| –| 0.8| V
Output voltage ‘H’ level| VOH| 2.4| –| –| V
Output voltage ‘L’ level| VOL| –| –| 0.4| V

BACKLIGHT CHARACTERISTICS

Item of backlight characteristics| Symbol| Min.| Typ.| Max.| Unit| Remark
---|---|---|---|---|---|---
Forward Voltage| If| 14| 15.5| 16.5| V| Note1
Forward Current| If| –| 40| –| mA| –
Number of LED| –| –| 52| –| Piece| –
LED Connection mode| P/S| –| 5S
2P| –| –| –
Lifetime of LED| –| –| 10000| –| hour| Note2

Note:

  • Note1: The LED Supply Voltage is defined by the number of LED at Ta=25℃ and If=40mA.
  • Note2: The LED lifetime define as the estimated time to 50% degradation of initial luminous. The LED lifetime could be decreased if operating If is larger than 20mA.
  • Backlight circuit:

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
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ELECTRO-OPTICAL CHARACTERISTICS

Item of electro-optical characteristics| Symbol| Condition| Min.| Typ.| Max.| Unit| Remark| Note
---|---|---|---|---|---|---|---|---
Response time| Tr+Tf| θ=0
=0
Ta=25℃| –| 30| 40| ms| FIG 1.| 4
Contrast Ratio| CR| 640| 800| –| –| FIG 2.| 1
Luminance uniformity| WHITE| –| 80| –| %| FIG 2.| 3
Surface Luminance| Lv| –| 350| –| cd/m2| FIG 2.| 2
CIE (x, y) chromaticity| White| White x| θ=0
=0
Ta=25℃| 0.309| 0.313| 0.315| –| FIG 2.| 5
White y| 0.337| 0.339| 0.341
Red| Red x| 0.629| 0.631| 0.633
Red y| 0.327| 0.329| 0.331
Green| Green x| 0.326| 0.328| 0.330
Green y| 0.546| 0.548| 0.550
Blue| Blue x| 0.134| 0.136| 0.138
Blue y| 0.139| 0.141| 0.143
Viewing angle range| =90(12 o’clock)| CR 10| 70| 80| –| deg| FIG 3.| 6
=270(6 o’clock)| 70| 80| –| deg
=0(3 o’clock)| 70| 80| –| deg
=180(9 o’clock)| 70| 80| –| deg
NTSC ratio| –| –| –| 50| –| %| –| –

Note 1. Contrast Ratio (CR) is defined mathematically by the following formula. For more information see FIG 2.: Surenoo SMC0430B 800480 Series MCU
Interface IPS LCD Module - fig 3Note 2. Surface luminance is the LCD surface from the surface with all pixels displaying white. For more information see FIG 2.
Lb=Average Surface Luminance with all white pixels (P1,P2,P3,P4,P5,P6,P7,P8,P9)
Note 3. The uniformity in surface luminance Whitelist determined by measuring
Note 3. The uniformity in surface luminance WHITE is determined by measuring luminance at each test position 1 through 9, and then dividing the maximum luminance of 9points luminance by minimum luminance of 9 points luminance. For more information see FIG 2.

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
4

Note 4. Response time is the time required for the display to transition from White to black(Rise Time, Tr) and from black to white(Decay Time, Tf). For additional  information see FIG 1.
Note 5. CIE (x, y) chromaticity ,The x,y value is determined by screen active area position 5.
For more information see FIG 2.
Note 6. Viewing angle is the angle at which the contrast ratio is greater than a specific value.
For TFT module, the specific value of contrast ratio is 10.The angles are determined for the horizontal or x axis and the vertical or y axis with respect to the z axis which is  normal to the LCD surface. For more information see FIG 3.
Note 7. For Viewing angle and response time testing, the testing data is base on Autronic-Melchers’s ConoScope. Series Instruments. For contrast ratio, Surface Luminance,
Luminance uniformity and CIE,the testing data is base on BM-7 photo detector.
Note 8. For TN type TFT transmissive module, Gray scale reverse occurs in the direction of panel viewing angle.

FIG.1. The definition of Response Time

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
5

FIG.2. Measuring method for Contrast ratio, surface luminance, Luminance uniformity, CIE (x , y) chromaticity
A : H/6 ;
B : V/6 ;
H,V : Active Area(AA) size
Measurement instrument: BM-7; Light spot size=5mm, 350mm distance from the LCD surface to detector lens.

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
6

FIG.3. The definition of viewing angle

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
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INTERFACE DESCRIPTION

LCD1 Interface Description
NO. S ymbol I/O DESCRIPTION
1 CS I Chip select
2 RS I Data/Command select
3 WR I Write strobe signal
4 RD I Read strobe signal
5 RST I LCD RESET signal, Low is active
6~21 DB0~ DB15 I/O Data bus(D0:LSB; D15:MSB)
22 GND Power supply Power ground
23 BL_CTRL I Backlight control pin
24~25 VCC(3.3V) Power supply Module Power input(3.3V Typ.) (*note1)
26~27 GND Power supply Power ground
28 VDD5V Power supply Module Power input (5V Typ.) (*note1)
29 NC O RTP Serial Data Output
30 CTP_SDA I TP Serial Data Input
31 CTP_INT I TP INT Interrupt Output
32 NC No connection
33 CTP_RST I TP Chip reset pin
34 CTP_SCL I TP Clock Input
LCD2 Interface Description
NO. Symbol I/O DESCRIPTION
1~2 GND Power supply Power ground
3 CS I Chip select
4 RS I Data/Command select
5 WR I Write strobe signal
6 RD I Read strobe signal
7 RST I LCD RESET signal, Low is active
8~23 DB0~DB15 I/O Data bus(D0:LSB; D15:MSB)
24 GND Power supply Power ground
25 BL_CTRL I Backlight control pin
26~28 NC No connection
29~30 VDD5V Power supply Module Power input (5V Typ.) (*note1)
31 TP_MISO/NC O No connection
32 CTP_SDA I TP Serial Data Input
33 CTP_INT I TP INT Interrupt Output
34 NC No connection
35 CTP_RST I TP Chip reset pin
36 CTP_SCL I TP Clock Input
37 NC I No connection
38 NC I No connection
39~40 NC No connection

Note1:
Power supply of module ,when used for LCD1 and LCD2 interface , The following instructions:
a The power input pin is used for LCD1,R2 should be removed on the PCB.
b The power input pin is used for LCD1 and used for VCC3.3 power pins only,R2 should be removed and R4 should be used on the PCB.

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
8

INPUT TIMING

8080 Parallel Mode Interface Timing

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
9

S ymbol Parameter Rating U nit Note
Min. Max.
TCYC8 Cycle Time 50 ns
TCC8 Strobe Pulse Width 20 ns
TAS8 Address Setup Time 0 ns
TAH8 Address Hold Time 10 ns
TDS8 Data Setup Time 20 ns
TDH8 Data Hold Time 10 ns
TACC8 Data Output Access Time 0 20 ns
TOH8 Data Output Hold Time 0 20 ns

Register Write:

  1. Address Write: Write the Register’s Address. For example, 00h i.e. REG[00h], 01h i.e. REG[01h], 02h i.e. REG[02h] ……
  2. Data Write: Write Data to the Register

Register Read:

  1. Address Write: Write the Register’s Address
  2. Data Write: Read Data from the Register
    Displays Memory (Display RAM) is where the TFT screen image data is stored,. Host through interface and write data into Display RAM. The procedure of access Display RAM is as following:

Display RAM Write:

  1. Set the Active Window Registers before writing any image data.
  2. Perform an register write to Graphic R/W Position Register 0, REG[5Fh]).
  3. Repeat step 2 until setup all the Active Window & Graphic R/W Position Coordinates.
  4. Perform an address write to point to Memory Data Port Register (REG[04h])
  5. Perform data writes to fill the window. Each write to the Memory Data Port will auto-increment the internal memory address.

RELIABILITY TEST CONDITIONS

No. Test Item Test Condition
1 High Temperature Storage 80℃/120 hours
2 Low Temperature Storage -30℃/120 hours
3 High Temperature Operating 70℃/120 hours
4 Low Temperature Operating -20℃/120 hours
5 Temperature Cycle Storage -20℃(30min.)~25(5min.)~70℃(30min.)×10cycles

A Inspection after test:
Inspection after 2~4 hours storage at room temperature, the sample shall be free from defects:

  • Air bubble in the LCD;
  • Selleck; Non-display;
  • Missing segments;
  • Glass crack;
  • Current is twice higher than initial value.

Premark :

  • The test samples should be applied to only one test item.
  • Sample size for each test item is 5~10pcs.
  • Failure Judgment Criterion: Basic Specification, Electrical Characteristic, Mechanical
    Characteristic, Optical Characteristic.

INSPECTION CRITERION

This specification is made to be used as the standard of acceptance/rejection criteria for TFT-LCD/IPS TFT-LCD module product, and this specification is applicable only  in the case that the size of module equal to or exceed than 3.5 inch.

10.1 Sample plan
Sampling plan according to GB/T2828.1-2003/ISO 2859-1:1999 and ANSI/ASQC Z1.4-1993,normal level 2 and based on:
Major defect: AQL 0.65
Minor defect: AQL 1.5

10.2 Inspection condition
Viewing distance for cosmetic inspection is about 30cm with bare eyes, and under an environment of 20~40W light intensity, all directions for inspecting the sample should  be within 45°against perpendicular line. (Normal temperature 20~25℃and normal humidity 60 ±15%RH )

10.3 Definition of Inspection Item.
A Definition of inspection zone in LCD.

Surenoo SMC0430B 800480 Series MCU Interface IPS LCD Module - fig
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Zone A: character/Digit area
Zone B: viewing area except Zone A (Zone A + Zone B=minimum Viewing area)
Zone C: Outside viewing area (invisible area after assembly in customer’s product)
Fig.1 Inspection zones in an LCD
Note: As a general rule, visual defects in Zone C are permissible, when it is no trouble for quality and assembly of customer’s product.
B Definition of some visual defect

Bright dot| Because of losing all or part function, bad pixel dots appear bright and the size is more than 50% of one dot in which LCD panel is displaying under black pattern.
---|---
Dark dot| Dots appear dark and unchanged in size in which LCD panel is displaying  under pure red, green, blue picture, or pure whiter picture.

10.4 Major Defect

Item No.| Items to be inspected| Inspection standard| Classification of defects
---|---|---|---
1| Functional defects| 1)  No display
2)  Display abnormally
3)  Missing vertical, horizontal segment
4)  Short circuit
5)  Excess power consumption
6)Backlight    no   lighting,   flickering    and   abnormal lighting| major
2| Missing| Missing component
3| Outline dimension| Overall outline dimension beyond the drawing is not allowed

10.5 Minor Defect

Item ****

No.

| Items to be ****

inspected

| Inspection standard| Classification of defects
---|---|---|---
1| Bright dot /dark dot defect| | Zone| Acceptable Qty| | Minor
A+B| ****


C

3.5” ~ 7”| 7~10.1”| >10.1”
Bright pixel dot| 1| 2| 3| Acceptable
Dark pixel dot| 4| 4| 4
2bright dots adjacent| 0| 0| 0
2dark dots adjacent| 0| 0| 0
Total bright and dark dots| 5| 6| 7
Note: Minimum distance between defective dots is more than 5mm; Pixel dots’ function is normal, but bright dots caused by foreign material and other reasons are judged by the dot defect of 5.2.
2| | | Zone Size(mm)| Acceptable Qty| | Minor
A+B| ****

C

3.5”~7”| 7~10.1”| >10.1”
Φ≤0.2| Acceptable| Acceptable| Acceptable| Acceptable
0.2<Φ≤0.5| 4| 5| 6
Φ>0.5| 0| 0| 0
Note:
1. Minimum distance between defective dots is more than 5 mm;
2. The quantity of defect is zero in operating condition.
3| Linear defect| | Zone Size (mm)| Acceptable Qty
---|---
A+B| C
Length| Width| 3.5”~7”| 7~10.1”| >10.1”
Ignore| W≤0.05| Acceptable| Acceptable| Acceptable| Acceptable
L≤5.0| 0.05< W≤0.1| 4| 5| 6
L>5.0| W>0.1| 0| 0| 0

Minor
4| Polarizer defect| 5.4.1  Polarizer Position
( i) Shifting in position should not exceed the glass outline dimension.
( ii ) Incomplete covering of the viewing area due to shifting is not allowed.
5.4.2  Dirt on polarizer
Dirt which can be wiped easily should be acceptable.
5.4.3  Polarizer Dent & Air bubble
5.4.4  Polarizer scratch
(i) If the polarizer scratch can be seen after cover assembling or in the operating condition, judge by the linear defect of 5.3. ( ii )If the polarizer scratch can be seen only in non-operating condition or some special angle, judge by the following:| Minor
---|---|---|---
| Zone Size (mm)| Acceptable Qty|
A+B| ****


C

Length| Width| 3.5”~7”| 7~10.1”| >10.1”
Ignore| W≤0.05| Acceptable| Acceptable| Acceptable| Acceptable
1.0<L ≤5.0| 0.05< W≤0.20| 4| 5| 6
L>5.0| W>0.2| 0| 0| 0
5| MURA| Using 3% ND filter, it’s NG if it can be seen in R,G,B picture.| Minor
White/Black dot(MURA)| Visible under:ND3%;D≦0.15mm, Acceptable; 0.15mm<D≦0.5mm, N≦4;D>0.5mm, Not allowable.
6| Glass defect| (i) Crack Cracks are not allowed.
| Minor
---|---|---|---
(ii) TFT chips on corner
| X| Y| Z| Acceptable
---|---|---|---
≤3.0| ≤3.0| Not more than the thickness of glass| N≤3

Chips on the corner of terminal shall not be allowed to extend into the ITO pad or expose perimeter seal.

Minor
(iii) Usual surface crack
| X| Y| Z| Acceptable
---|---|---|---
≤1.5| ≤1.5| Not more than the thickness of glass| N≤4

It is only applicable to the upper glass of LCD.

Minor

Item No.| Items to be inspected| Inspection Standard| Classification of defects
---|---|---|---
1| Difference in Spec.| Not allowable| Major
2| Pattern peeling| No substrate pattern peeling and floating| Major
3| Soldering defects| No soldering missing| Major
No soldering bridge| Major
No cold soldering| Minor
4| Resist flaw on PCB| Visible copper foil (Φ0.5 mm or more) on substrate pattern is not allowed| Minor
5| FPC gold finger| No dirt, breaking, oxidation lead to black| Major
6| Backlight plastic frame| No deformation, crack, breaking, backlight positioning column breaking, obvious nick.| Minor
7| Marking printing effect| No dark marking, incomplete, deformation lead to unable to judge| Minor
8| Accretion of metallic Foreign matter| No accretion of metallic foreign matter (Not exceed Φ0.2mm)| Minor
9| Stain| No stain to spoil cosmetic badly| Minor
10| Plate discoloring| No plate fading, rusting and discoloring| Minor
11| 1. Lead parts| a. Soldering side of PCB Solder to form a ‘Filet’ all around the lead. Solder should not hide the lead form perfectly.| Minor
b. Components side(In case of ‘Through Hole PCB’) Solder to reach the Components side of PCB.| Minor
2. Flat packages| Either ‘Toe’(A) or ‘Seal’(B)of the lead to be covered by “Filet”. Lead form to be assume over Solder.| ** Minor
3. Chips| (3/2) H ≥h ≥(1/2) H| Minor
4. Solder ball/Solder splash| a. The spacing between solder ball and the conductor or solder pad h ≥0.13 mm. The diameter of solder ball d≤0.15 mm.| Minor
b. The quantity of solder balls or solder splashes isn’t beyond 5 in 600 mm2.| Minor
c. Solder balls/Solder splashes do not violate minimum electrical clearance.| Major
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Shenzhen Sorento Technology Co.,Ltd.
www.surenoo.com
Skype: Surenoo365
Reference Controller Datasheet
MCU Interface LCD Module Selection Guide
LT7381

Documents / Resources

| Surenoo SMC0430B-800480 Series MCU Interface IPS LCD Module [pdf] User Manual
SMC0430BA3-800480, SMC0430B-800480 Series, SMC0430B-800480 Series MCU Interface IPS LCD Module, MCU Interface IPS LCD Module, Interface IPS LCD Module, IPS LCD Module, LCD Module, Module
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References

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