TECHNOLOGY CO., LTD. LCD MODULE SPECIFICATION Model : MI0220IT-1 Revision Engineering Date Our Reference
DOCUMENT REVISION HISTORY DOCUMENT REVISION DATE DESCRIPTION FROM TO A 2008.03.10 First Release. CHANGED BY ZHANG YAN FANG CHECKED BY MOON WU A B 2008.04.01 Item 1 was updated. 1.) (Page 5, Figure 1) Module Specification was updated. ZHANG YAN FANG MOON WU P.2
CONTENTS Page No. 1. GENERAL DESCRIPTION 4 2. MECHANICAL SPECIFICATIONS 4 3. INTERFACE SIGNALS 7 4. ABSOLUTE MAXIMUM RATINGS 8 4.1 ELECTRICAL MAXIMUM RATINGS - FOR IC ONLY 8 4.2 ENVIRONMENTAL CONDITION 8 5. ELECTRICAL SPECIFICATIONS 9 5.1 TYPICAL ELECTRICAL CHARACTERISTICS 9 5.2 TOUCH PANEL ELECTRICAL SPECIFICATION 9 5.3 TIMING SPECIFICATIONS 10 5.4 POWER SUPPLY SETTING 12 5.5 INSTRUCTION SETTING 13 6. OPTICAL CHARACTERISTICS 14 7. TFT PANEL INSPECTION SPECIFICATION 16 8. REMARK 18 P.3
Preliminary Specification of LCD Module Type Model No.: MI0220IT-1 1. General Description 2.2, 176 (RGB) x 220 dots, transmissive, positive, amorphous silicon TFT LCD module. Viewing angle: 12 o clock. Drive scheme: 1/220 duty. Driving IC: SAMSUNG S6D0164 (COG) controller & driver for a liquid crystal TFT display or equivalent. Data interface: 8080 system 16-bit parallel bus interface. Logic voltage: 2.8V. White LED backlight. Touch panel. FPC connection. RoHS compliance. 2. Mechanical Specifications The mechanical detail is shown in Fig. 1 and summarized in Table 1 below. Table 1 Parameter Specifications Unit Outline dimensions 40.30(W) x 55.26(H) x 3.7(D) (Exclude FPC, cable of backlight & mm touch panel) Viewing area (T.P) 37.00(W) x 49.56(H) mm Active area (T.P) 36.00(W) x 48.56(H) mm Color TFT Active area (LCD) 34.85(W) x 43.56(H) mm 176 (RGB) x220 Display format 176 (RGB) x 220 dots Color configuration RGB stripes - Dot pitch 0.198(RGB)(W) x 0.198(H) mm Weight TBD gram P.4
1 4 Y+ X+Y-X- A K1K2 K3 1 2 3 GND 4 5 X- Y- X+ Y+ RESET 23 24 25 26 27 28 /RD /WR RS /CS VDD ID D15 6 7 D0 ------ 22 ------ 29 30 31 32 GND LED+ LED1- LED2-33 LED3- K3K2K1A X-Y-X+Y+ 4 1 DISPLAY TYPE VIEWING ANGLE LCD CONTROLLER/DRIVER OPERATING TEMPERATURE STORAGE TEMPERATURE BACKLIGHT REMARK: 262K COLOUR, TFT TRANSMISIVE 12 O' CLOCK TBD -20 C to +70 C -30 C to +80 C TYPE LUMINANCE(CD/M2) (ON THE B/L SURFACE) MI0220IT-1 LED05(3 CHIPS) MIN. -- TYP. 3200 MAX. Figure 1: Module Specification P.5
220 2.2" TFT LCD DISPLAY 176 ( RGB ) x 220 DOTS 176 (RGB) GND VDD RESET /CS RS /WR /RD ID D0~D15 'SAMSUNG' S6D0164 (COG) controller & driver for a liquid crystal TFT display or equivalent 16 X- Y- X+ Y+ TOUCH PANEL LEDA LED1- LED2- LED3- WHITE LED BACKLIGHT Figure 2: Block Diagram P.6
3. Interface signals Table 2: Pin assignment Pin No. Symbol Description 1 X- X Right position for touch panel. 2 Y- Y Down position for touch panel. 3 X+ X Left position for touch panel. 4 Y+ Y Up position for touch panel. 5 GND Ground. 6 RESET 7 D15 8 D14 9 D13 10 D12 11 D11 12 D10 13 D9 14 D8 15 D7 16 D6 17 D5 18 D4 19 D3 20 D2 21 D1 22 D0 23 /RD (RD,E_RDB) 24 /WR (WR,RW_WRB) 25 RS 26 /CS (CS,CSB) Reset pin. Initializes the LSI when low. Must be reset after power-on. An 16-bit parallel bi-directional data bus for 80-system interfaces 16-bit bus: D17~10,D8~D1 In 80-system mode, this serves as a read strobe signal. In 80-system mode, this serves as a write strobe signal. Selects the register. Low: Index / status High: Control Selects the S6D0164: Low: S6D0164 is selected and can be accessed. High: S6D0164 is not selected and cannot be accessed. 27 VDD Power supply. 28 ID Identification pin. 29 GND Ground. 30 LED+ Anode of LED backlight input. 31 LED1- Cathode of LED backlight input. 32 LED2- Cathode of LED backlight input. 33 LED3- Cathode of LED backlight input. P.7
4. Absolute Maximum Ratings 4.1 Electrical Maximum Ratings for IC Only Table 3 Parameter Symbol Min. Max. Unit Supply voltage for logic block VDD-GND -0.3 +3.3 V Supply voltage for I/O block VDD3-GND -0.3 +5.0 V Supply voltage for step-up circuit VCI-GND -0.3 +5.0 V AVDD-GND -0.3 +6.5 V VGH-GND -0.3 +22.0 V LCD Supply voltage range GND-VGL -0.3 +22.0 V GND-VCL -0.3 +5.0 V VGH-VGL -0.3 +33 V Input voltage range Vin -0.3 VDD3+0.3 V Note 1: Absolute maximum rating is the limit value. When the IC is exposed operating environment beyond this range, the IC is not guaranteed for the normal operations and may be damaged permanently, not be able to be recovered. Note 2: Operating temperature means the possible range of device-operating temperature. It does not mean that the performance of the driver IC would be guaranteed over this temperature range. Note 3: Absolute maximum rating is guaranteed only when our company s package used. 4.2 Environmental Condition Item Operating temperature (Topr) Table 4 Storage temperature (Tstg) (Note 1) Remark Min. Max. Min. Max. Ambient temperature -20 C +70 C -30 C +80 C Dry 90% max. RH for Ta 40 C< 50% RH for Humidity (Note 1) 40 C < Ta Maximum operating temperature Vibration (IEC 68-2-6) cells must be mounted on a suitable connector Shock (IEC 68-2-27) Half-sine pulse shape Frequency: 10 55 Hz Amplitude: 0.75 mm Duration: 20 cycles in each direction. Pulse duration: 11 ms Peak acceleration: 981 m/s 2 = 100g Number of shocks: 3 shocks in 3 mutually perpendicular axes. Note 1: Product cannot sustain at extreme storage conditions for long time. No condensation 3 directions 3 directions P.8
5. Electrical Specifications 5.1 Typical Electrical Characteristics At Ta = 25 C, VDD = 2.8V, GND=0V. Table 5 Parameter Symbol Conditions Min. Typ. Max. Unit Supply voltage (logic) VDD-GND 2.7 2.8 2.9 V TFT gate ON voltage VGH Note 1 12-18 V TFT gate OFF voltage VGL Note 2-12 - -7 V TFT common electrode voltage Vcom Note 3-2 - 5 V TFT kick-back voltage max ΔVp Max 0.2-1.5 V TFT kick-back voltage min ΔVp Min 0.2-1.5 V Input signal voltage V IH H level 0.7VDD - VDD V Supply current (logic & LCD) Supply voltage of white LED backlight Luminance (on the backlight surface) V IL L level 0-0.3VDD V IDD VDD=2.8V - TBD - ma VLED Forward current =45mA Number of LED dies = 3-3.2 - V 3200 - - cd/m 2 Note 1: VGH is TFT Gate operating voltage. Note 2: VGL is TFT Gate operating voltage. The low voltage level of VGL signal must be fluctuates with same phase as Vcom. Note 3: Vcom must be adjusted to optimize display quality, as Crosstalk and Contrast Ratio etc. 5.2 Touch Panel Electrical Specification Table 6 Item Specification Condition Resistance between terminals X: 300 ~ 900 ohm Glass side Y: 100 ~ 500 ohm Film side Connect material FPC (AU+NI) - Linearity ±1.5% or less - Hardness of surface 3H Min - Transmittance 80% Min - Insulating resistance 10M ohm Min @25V (DC) Panel life >1000000 times At 10V. 1mA & 120GM P.9
5.3 Timing Specification 5.3.1 Reset Timing Characteristics Table 7 Figure 3: AC characteristics (RESET timing) Note. Reset low pulse width shorter than 10us do not make reset. It means undesired short pulse such as glitch, bouncing noise or electrostatic discharge do not cause irregular system reset. Please refer to Table 7. 5.3.2 80-16bit CPU interface Bit Assignment Figure 4: Bit Assignment of Instructions on 80-16bit CPU Interface Figure 5: Bit Assignment of GRAM Data on 80-16bit CPU Interface P.10
Timing Diagram There are 4 timing conditions for 80-16bit CPU interface, which are index write timing condition, data write timing condition, data read timing condition and status read timing condition. Figure 6: Timing Diagram of 80-16bit CPU Interface P.11
5.4 Power Supply Setting Figure 7: Setup Flow of Generated Power Supply P.12
5.5 Instruction Setting 5.5.1 Display ON / OFF Sequence P.13
6. Optical Characteristics The test of Optical specifications shall be measured in a dark room (ambient luminance 1 lux and temperature = 25±2 ) with the equipment of Luminance meter system (Goniometer system and TOPCONE BM-5) and test unit shall be located at an approximate distance 50cm from the LCD surface at a viewing angle of θ and Φ equal to 0. The center of the measuring spot on the Display surface shall stay fixed. The backlight should be operating for 30 minutes prior to measurement. Optimum viewing angle direction is 12 o clock. Table 8 Fig. 8 Note: 1.Viewing angle is the angle at which the contrast ratio is greater than 10. The viewing are determined for the horizontal or 3, 9 o clock direction and the vertical or 6, 12 o clock direction with respect to the optical axis which is normal to the LCD surface (see Fig.9) 2. Contrast measurements shall be made at viewing angle of θ= 0 and at the center of the LCD surface. Luminance shall be measured with all pixels in the view field set first to white, then to the dark (black) state. (See Fig. 9) Luminance Contrast Ratio (CR) is defined mathematically. P.14
3. Transmittance is the value with Polarizer. 4. The color chromaticity coordinates specified in Table 8 shall be calculated from the spectral data measured with all pixels first in red, green, blue and white. Measurements shall be made at the center of the C/F. Measurement condition is C -light source & Halogen Lamp. 5. The electro-optical response time measurements shall be made as Fig. 10 shown in Appendix by switching the data input signal ON and OFF. The times needed for the luminance to change from 10% to 90% is Tr, and 90% to 10% is Td. Figure 8: The definition of Vth & Vsat Figure 9: Measurement Set Up Figure 10: Response Time Testing P.15
7. TFT panel inspection specification P.16
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8. Remark - END - P.18