Product Specification Model: AWY-480800T43N01 Rev. No. A Issued Date. 2013/03/18 Thin Film Transistor LCD MODULE MODEL: AWY-480800T43N01 Customer’s No.: Acceptance Approved and Checked by Approved by Checked by Made by 樺 叡 樺 叡 樺 叡 2012/03/18 2012/03/18 2013/03/18 NICK JOE TOM MICROTIPS TECHNOLOGY USA 3504 Lake Lynda Dr, Suite 110, Orlando, Florida, 32817, TEL: 407-273-0204, FAX: 407-273-0771 Page. 1 / 15 Revision Record REV NO. REV DATE CONTENTS A 2013-03-18 NEW ISSUE Note 2 REV A Table Of Contents List Description Page No. Cover 1 Revision Record 2 Table Of Contents 3 1 Numbering System 4 2 General Information 4 3 External Dimensions 5 4 Interface Description 6 5 Absolute Maximum Ratings 7 6 Electrical Characteristics 7 7 Timing Characteristics 8 8 Backlight Characteristics 10 9 Optical Characteristics 10 10 Reliability Test Conditions And Methods 12 11 Inspection Standard 13 12 Handling Precautions 14 13 Precaution For Use 15 3 REV A 1. Numbering System 2. General Information ITEM LCD type STANDARD VALUES 4.3’’TFT 480(RGB)×800 Dot arrangement Viewing Direction Driver IC 80/80/80/80 deg(U/D/L/R @ C/R>10) ILI9806 60.86(W)×104.5(H)×2.15(T) Module size Active area 56.16(W)×93.6(H) Dot pitch 0.117(W)×0.117(H) Interface Operating temperature Storage temperature i80-system 8/16 bit MCU interface --- mm mm mm -℃ ℃ -30 ~ +80 Back Light 8 White LED In Serial - Weight - -20 ~ +70 - IPS / Transmission / Normally Black dots RGB vertical stripe Display mode -- Color filter array UNITS TBD 4 g REV A 3. External Dimensions 5 REV A 4. Interface Description Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 Symbol Description. LEDLED backlight (Cathode). LED+ LED backlight (Anode). YU(NC) XR(NC) NC. YD(NC) XL(NC) GND Power ground VCI A supply voltage to the analog circuit. NC NC. IOVCC A supply voltage to the logic circuit. TE Tearing effect output pin to synchronize MCU to frame writing. SDO Serial output signal in SPI I/F. SDI Serial input signal in SPI I/F. Writes strobe signal to write data when WRX is “Low” in MPU I/F. /WR_SCL A synchronous clock signal in SPI I/F. /CS Chip select input pin (“Low” enable) in MPU I/F and SPI I/F. /RESET Reset input pin, Active “L”. DB23 DB22 DB21 DB20 DB19 DB18 DB17 DB16 24-bit parallel bi-directional data bus for MPU system: 8DB15 bit I/F: DB[7:0] is used. DB14 16-bit I/F: DB[15:0] and DB[8:1] is used. 24DB13 bit I/F: DB[23:0] is used. DB12 24-bit input data bus for RGB I/F. DB11 16-bit/pixel: DB[20:16]=R[4:0], DB[13:8]=G[5:0] and DB[5:1]=B[4:0]; DB10 18-bit/pixel: DB[21:16]=R[5:0], DB[13:8]=G[5:0] and DB[5:0]=B[5:0]; DB09 24-bit/pixel: DB[23:16]=R[7:0], DB[15:8]=G[7:0] and DB[7:0]=B[7:0]. DB08 Connect unused pins to GND. DB06 DB07 DB05 DB04 DB03 DB02 DB01 DB00 ENABLE Data enable signal in RGB I/F mode 6 REV A 42 43 44 45 46 47 DOTCLK HSYNC VSYNC LEDPWM LEDON 48 49 50 51 RS /RD IM0 IM1 GND Pixel clock signal in RGB I/F. Horizontal sync signal in RGB I/F. Vertical sync signal in RGB I/F. Connect to the external LED driver. If not used, please open this pin. Connect to the external LED driver. If not used, please open this pin. Display data / command selection in 80-series MPU I/F. RS = ”0” : Command RS = ”1” : Display data or Parameter Reads strobe signal to write data when RD is “Low” in MPU interface. System interface Mode IM[1,0]=00, i80-system 8-bit MPU interface : DB[7:0] is used. IM[1,0]=01, i80-system 16-bit MPU interface : DB[15:0] is used. IM[1,0]=10, i80-system 24-bit MPU interface : DB[24:0] is used. IM[1,0]=11, RGB+SPI interface Power ground 5. Absolute Maximum Ratings Item Symbol Min. Max. Unit Logic Supply Voltage IOVCC -0.3 4.6 V Analog Supply Voltage VCC -0.3 4.6 V Input Voltage Vin -0.3 IOVCC+0.3 V Operating Temperature TOP -20 70 °C Storage Temperature TST -30 80 °C Storage Humidity HD 20 90 %RH 6. DC Characteristics Item Symbol Min. Typ. Max. Unit Remark Logic Supply Voltage IOVCC 1.65 1.8/2.8 3.3 V - Analog Supply Voltage VCC 2.5 2.8 3.3 V - Input High Voltage VIH 0.7IOVCC - IOVCC V Digital input pins Input Low Voltage VIL -0.3 - 0.3IOVCC V Digital input pins Output High Voltage VOH 0.8IOVCC - Output Low Voltage VOL 0 - I/O Leak Current ILI -1.0 - 7 IOVCC V Digital output pins 0.2IOVCC V Digital output pins 1.0 mA - REV A 7. Timing Characteristics 7.1 Reset Timing Characteristics 7.2 i80-System Interface Timing Characteristics 8 REV A 7.3 Display Serial Interface Timing Characteristics (3-line SPI system) 7.4 Parallel 24/18/16-bit RGB Interface Timing Characteristics 9 REV A 8. Backlight Charasterics LEDA LEDK Item Supply Voltage Supply Current Luminous Intensity for LCM Uniformity for LCM Life Time Backlight Color Symbol Vf If - MIN 24.0 - TYP 25.6 120 MAX 28.0 160 UNIT V mA 200 250 - Cd/m2 80 20000 - White % Hr Test Condition If=20mA If=20mA If=20mA If=20mA 9. Optical Characteristics *Note (1) Definition of Contrast Ratio (CR): The contrast ratio can be calculated by the following expression. Contrast Ratio (CR) = L63 / L0. L63: Luminance of gray level 63. L 0: Luminance of gray level 0. CR = CR (5). CR (X) is corresponding to the Contrast Ratio of the point X at Figure in Note (5). 10 REV A *Note (2) Definition of Response Time (Ton, Toff): *Note(3) Definition of Viewing Angle *Note (4) Measurement Set-Up: The LCD module should be stabilized at a given temperature for 20 minutes to avoid abrupt temperature change during measuring. In order to stabilize the luminance, the measurement should be executed after lighting Backlight for 20 minutes in a windless room. *Note (5) 11 REV A 10. Reliability Test Conditions And Methods NO. TEST ITEMS TEST CONDITION ① High Temperature Storage 80℃±2℃×200Hours ② Low Temperature Storage -30℃±2℃×200Hours ③ High Temperature Operating 70℃±2℃×120Hours Low Temperature Operating -20℃±2℃×120Hours ④ ⑤ Temperature Cycle(Storage) ⑥ Damp Proof Test (Storage) ⑦ Vibration Test ⑧ ⑨ 25℃ 70℃ (5min) (30min) 1cycle Total 10cycle 50℃±5℃×90%RH×120Hours -20℃ (30min) Frequency:10Hz~55Hz~10Hz Amplitude:1.5M X,Y,Z direction for total 3hours (Packing Condition) Drooping Test Drop to the ground from 1M height one time every side of carton. (Packing Condition) ESD Test Voltage:±8KV,R:330Ω,C:150PF,Air Mode,10times INSPECTION AFTER TEST Inspection after 2~4hours storage at room temperature,the samples should be free from defects: 1,Air bublle in the LCD. 2,Sealleak. 3,Non-display. 4,Missing segments. 5,Glass crack. 6,Current IDD is twice higher than initial value. 7,The surface shall be free from damage. 8,The electric charateristic requirements shall be satisfied. REMARK: 1,The Test samples should be applied to only one test item. 2,Sample side for each test item is 5~10pcs. 3,For Damp Proof Test,Pure water(Resistance>10MΩ)should be used. 4,In case of malfunction defect caused by ESD damage,if it would be recovered to normal state after resetting,it would be judge as a good part. 5,EL evaluation should be excepted from reliability test with humidity and temperature:Some defects such as black spot/blemish can happen by natural chemical reaction with humidity and Fluorescence EL has. 6,Failure Judgment Criterion:Basic Specification Electrical Characteristic,Mechanical Characteristic,Optical Characteristic. 12 REV A 11. Inspection Standard 13 REV A 12. Handling Precautions 12.1 Mounting method The LCD panel of SC LCD module consists of two thin glass plates with polarizes which easily be damaged. And since the module in so constructed as to be fixed by utilizing fitting holes in the printed circuit board. Extreme care should be needed when handling the LCD modules. 12.2 Caution of LCD handling and cleaning When cleaning the display surface, Use soft cloth with solvent [recommended below] and wipe lightly Isopropyl alcohol Ethyl alcohol Do not wipe the display surface with dry or hard materials that will damage the polarizer surface. Do not use the following solvent: Water Aromatics Do not wipe ITO pad area with the dry or hard materials that will damage the ITO patterns Do not use the following solvent on the pad or prevent it from being contaminated: Soldering flux Chlorine (Cl) , Salfur (S) If goods were sent without being sili8con coated on the pad, ITO patterns could be damaged due to the corrosion as time goes on. If ITO corrosion happen by miss-handling or using some materials such as Chlorine (CI), Salfur (S) from customer, Responsibility is on customer. 12.3 Caution against static charge The LCD module use C-MOS LSI drivers, so we recommended that you: Connect any unused input terminal to Vdd or Vss, do not input any signals before power is turned on, and ground your body, work/assembly areas, assembly equipment to protect against static electricity. 12.4 packing Module employ LCD elements and must be treated as such. Avoid intense shock and falls from a height. To prevent modules from degradation, do not operate or store them exposed direct to sunshine or high temperature/humidity 12.5 Caution for operation It is an indispensable condition to drive LCD’s within the specified voltage limit since the higher voltage then the limit cause the shorter LCD life. An electrochemical reaction due to direct current causes LCD’s undesirable deterioration, so that the use of direct current drive should be avoided. Response time will be extremely delayed at lower temperature then the operating temperature range and on the other hand at higher temperature LCD’s how dark color in them. However those phenomena do not mean malfunction or out of order with LCD’s, which will come back in the specified operation temperature. If the display area is pushed hard during operation, some font will be abnormally displayed but it resumes normal condition after turning off once. A slight dew depositing on terminals is a cause for electro-chemical reaction resulting in terminal open circuit. Usage under the maximum operating temperature, 50%Rh or less is required. 14 REV A 12.6 storage In the case of storing for a long period of time for instance, for years for the purpose or replacement use, the following ways are recommended. Storage in a polyethylene bag with the opening sealed so as not to enter fresh air outside in it . And with no desiccant. Placing in a dark place where neither exposure to direct sunlight nor light’s keeping the storage temperature range. Storing with no touch on polarizer surface by the anything else. [It is recommended to store them as they have been contained in the inner container at the time of delivery from us 12.7 Safety It is recommendable to crash damaged or unnecessary LCD’s into pieces and wash off liquid crystal by either of solvents such as acetone and ethanol, which should be burned up later. When any liquid leaked out of a damaged glass cell comes in contact with your hands, please wash it off well with soap and water 13. Precaution For Use 13.1 A limit sample should be provided by the both parties on an occasion when the both parties agreed its necessity. Judgment by a limit sample shall take effect after the limit sample has been established and confirmed by the both parties. 13.2 On the following occasions, the handing of problem should be decided through discussion and agreement between responsible of the both parties. When a question is arisen in this specification When a new problem is arisen which is not specified in this specifications When an inspection specifications change or operating condition change in customer is reported to GT LCD , and some problem is arisen in this specification due to the change When a new problem is arisen at the customer’s operating set for sample evaluation in the customer site. 15 REV A