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| Document No.: Tentative Product Specification Module name: P0340WQLB-T Issue date: 2009/08/03 Version: 2.3 Customer Approved by Customer Approved by CMEL PD Division ENG Division QA Dept For More information or to Order, Contact: AZ Displays, INC. 75 Columbia, Aliso Viejo, CA 92656 949-360-5830 fax: 949-360-5839 Note: 1. The information contained herein may be change without prior notice. It is therefore advisable to contact CHI MEI EL Corp. before designed your product based on this specification. 2. This tentative product specification is for reference, some item or setting maybe changed for evaluation. 1 Document No.: Reversion History Version Ver.1.0 Ver.1.1 Ver.1.2 Ver.1.3 Ver.1.4 Date 2008/02/29 2008/03/19 2008/04/08 2008/04/15 2008/05/28 Page All 18 10,11,12 14 10 5 10,11,12 15 10,11,12 10,11,12 19 3 20 10 10 10,11,12 10,11,12 3 19 21 4 Description Tentative specification was first issued Change External Dimension Modify Initial Register Setting Add System Diagram Modify Electro-Optical Characteristic Modify DC Characteristic Modify Initial Register Setting Modify Pin Assignment Modify Electro-Optical Characteristic & Initial Register Setting Ver.1.5 Ver.1.6 2008/07/08 2008/09/25 Ver.1.7 Ver.1.8 Ver.1.9 Ver.2.0 Ver.2.1 Ver.2.2 2008/10/02 2008/11/21 2008/12/01 2009/5/20 2009/6/17 2009/6/24 Modify Initial Register Setting Add Reliability Test Add Weight of Mechanical Data Add Package Drawing Modify Life Time Modify Electro-Optical Characteristic Modify Initial Register Setting(Gamma:6) Modify Initial Register Setting(Gamma:7) and Electro-Optical Characteristic Modify for Absolute ratings of environment Add Handling, Storage and Panel ID Label Naming Rule Add Warranty Add AR_VDD and AR_VSS Ver.2.3 2009/8/3 2 Document No.: 1. Purpose: This documentation defines general product specification for OLED module supplied by CMEL. The information described in this technical specification is tentative. Please Contact CMEL's representative while your product is modified. General Description: Driving Mode: Active Matrix Color Mode: Full Color (16.7M color) Driver IC: HX5116, COG Assembly Interface: 8bit serial RGB and 24bit parallel RGB interface Application: Portable DVD, PMP, GPS, Photo Frame etc. RoHS Compatible Mechanical Data: No. 1 2 3 4 5 6 7 Items Diagonal Size Resolution Pixel Pitch Active Area Outline Area Thickness Weight Specification 3.4 480 x RGB x 272 H: 156 V: 156 um mm mm mm g 74.88 x 42.43 82.8 x 54.3 2.8 30.1 Unit Inch 2. 3. 4. Absolute Maximum Ratings: Absolute ratings of environment Item Storage Temperature Operating Ambient Temperature Symbol TST TOP Value Min. -40 -20 Max. +85 +60 Unit C C Note (1) (2) Note (1) The storage duration for both critical temperature (-40 & 85) meet reliability test criteria. (2) The operating duration for both critical temperature (-20 & 60) meet reliability test criteria. 3 Document No.: 5. Electrical Characteristic: 5.1 DC Characteristic DC Characteristics (Unless otherwise specified, Voltage Referenced to VSS = 0V, VCC = 1.5 to 3.6V, TA = -20 to 70C) Parameter Positive power Negative power System power supply pins of the logic block Booster Reference Supply Voltage Range DDVDH Output Voltage 1 DDVDH Output Voltage 2 VGAM1OUT Output Voltage 1 VGAM1OUT Output Voltage 2 Gate driver High Output Voltage Gate driver Low Output Voltage OLED Diode Refer Voltage Logic High Output Voltage Logic Low Output Voltage Logic High Input voltage Logic Low Input voltage Logic Input Current Pull high resistance Pull low resistance High Output Current Low Output Current Output leakage Current Output voltage offset Symbol AR_VDD AR_VSS VCC Test condition Min. 4.97 -5.03 1.5 Typ. 5.0 -5.0 Max. 5.03 -4.97 3.6 Unit V V V VCI DDVDH DDVDH VGAM1OUT VGAM1OUT VGH VGL ARREF VOH VOL VIH VIL IIL/IIH RH RL IOH IOL IOZ VOS Set CP1X=0 Set CP1X=1 Set CP1X=0 Set CP1X=1 Iout=-400A Iout=400A No pull up or pull low Pull up pins Pull low pins S1~S107, Vo=4.9V vs. 4V S1~S107, Vo=0.1V vs. 1V S1~S107, Vo=0.1V~DDVDH-0.1V S1~S107, Vo=0.1V~DDVDH-0.1V VCI=3.0V, Stand by mode VCI=3.0V, S1~S160 no load - 3.0 4.9 5.8 4.7 5.7 +3 -8 -8 0.8 * VCC 0 0.8 * VCC 0 -1 600 600 50 -1 5.1 6.0 4.8 5.8 900 900 10 3.6 5.3 6.2 4.9 5.9 +8 -3 +8 VCC 0.2 * VCC VCC 0.2 * VCC 1 1200 1200 -50 1 V V V V V V V V V V V V A K K A A A mV Output voltage deviation Analog standby current VOD ISTB 10 10 mV uA Analog operating current Logic Pins Input Capacitance IVCI CIN 5 20 7.5 mA pF 4 Document No.: 5.2 AC Characteristic 5.2.1AC Electrical Characteristics 5 Document No.: Clock and Data input waveforms Define the HSYNC to VSYNC timing for RGB mode 6 Document No.: 5.2.2 480RGB X 272 serial RGB interface 5.2.3 480RGB X 272 parallel RGB interface 7 Document No.: Serial RGB Horizontal Data Format Parallel RGB Horizontal Data Format Digital RGB Vertical Data Format 8 Document No.: 6. Electro-Optical Characteristic: Items Operating Luminance Power Consumption Maximum Current Response Time CIEx (White) CIEy (White) CIEx (Red) CIEy( Red) CIEx (Green) CIEy( Green) CIEx (Blue) CIEy( Blue) Viewing Angle Contrast Operation Lifetime Note: Measuring surrounding: dark room Surrounding temperature: 25oC Symbol L Pon Icc Tres Wx Wy Rx Ry Gx Gy Bx By VA CR LTop Min 136 Typ. 160 500 Max 184 680 210 50 Unit Cd/m mW mA uS Degree Hrs 2 Remark (1)(5) 30% pixels on (1) (1) (2) (5) (5) (5) (5) (5) (5) (5) (5) (3) (4) (1)(6) 0.23 0.25 0.615 0.300 0.195 0.610 0.100 0.110 160 5000:1 30000 0.28 0.30 0.655 0.340 0.235 0.650 0.140 0.150 170 10000:1 0.33 0.35 0.695 0.380 0.275 0.690 0.180 0.190 1. Test condition: a. AR_VDD= 5.0V +/-0.03V, AR_VSS= -5.0V +/-0.03V b. IC Initial Register Setting: Gamma Setting Group7 24-bit parallel RGB (DE) Index_out(0x04); Index_out(0x05); Index_out(0x07); Index_out(0x34); Index_out(0x35); Index_out(0x36); Index_out(0x37); Index_out(0x02); Parameter_out(0x23); //set display mode 24-bit parallel RGB (DE) Parameter_out(0x82); //set display mode Parameter_out(0x0F); //set driver capability Parameter_out(0x18); //set display timing Parameter_out(0x28); //set display timing Parameter_out(0x16); //set display timing Parameter_out(0x01); //set display timing Parameter_out(0x02); //OTP On Ver. 7 9 Document No.: Index_out(0x0A); Index_out(0x09); Index_out(0x10); Index_out(0x11); Index_out(0x12); Index_out(0x13); Index_out(0x14); Index_out(0x15); Index_out(0x16); Index_out(0x17); Index_out(0x18); Index_out(0x19); Index_out(0x1A); Index_out(0x1B); Index_out(0x1C); Index_out(0x1D); Index_out(0x1E); Index_out(0x1F); Index_out(0x20); Index_out(0x21); Index_out(0x22); Index_out(0x23); Index_out(0x24); Index_out(0x25); Index_out(0x26); Index_out(0x27); Index_out(0x28); Index_out(0x29); Index_out(0x2A); Index_out(0x06); AR_VDD= +5.0V AR_VSS= -5.0V 8-bit serial RGB (DE) Index_out(0x04); Index_out(0x05); Index_out(0x07); Parameter_out(0x21); //set display mode 8-bit serial RGB (DE) Parameter_out(0x82); //set display mode Parameter_out(0x0F); //set driver capability Ver. 7 Parameter_out(0x79); //VGHVGL=+/-6V Parameter_out(0x28); //VGAM1OUT=5.02V Parameter_out(0x77); //set R slop Parameter_out(0x76); //set G slop Parameter_out(0x77); //set B slop Parameter_out(0x00); //set R_0 Parameter_out(0x00); //set R_10 Parameter_out(0x00); //set R_36 Parameter_out(0x00); //set R_80 Parameter_out(0x00); //set R_124 Parameter_out(0x00); //set R_168 Parameter_out(0x01); //set R_212 Parameter_out(0x03); //set R_255 Parameter_out(0x00); //set G_0 Parameter_out(0x03); //set G_10 Parameter_out(0x00); //set G_36 Parameter_out(0x02); //set G_80 Parameter_out(0x01); //set G_124 Parameter_out(0x02); //set G_168 Parameter_out(0x02); //set G_212 Parameter_out(0x06); //set G_255 Parameter_out(0x00); //set G_0 Parameter_out(0x02); //set B_10 Parameter_out(0x01); //set B_36 Parameter_out(0x02); //set B_80 Parameter_out(0x02); //set B_124 Parameter_out(0x03); //set B_168 Parameter_out(0x03); //set B_212 Parameter_out(0x08); //set B_255 Parameter_out(0x03); //set display on 10 Document No.: Index_out(0x34); Index_out(0x35); Index_out(0x36); Index_out(0x37); Index_out(0x02); Index_out(0x0A); Index_out(0x09); Index_out(0x10); Index_out(0x11); Index_out(0x12); Index_out(0x13); Index_out(0x14); Index_out(0x15); Index_out(0x16); Index_out(0x17); Index_out(0x18); Index_out(0x19); Index_out(0x1A); Index_out(0x1B); Index_out(0x1C); Index_out(0x1D); Index_out(0x1E); Index_out(0x1F); Index_out(0x20); Index_out(0x21); Index_out(0x22); Index_out(0x23); Index_out(0x24); Index_out(0x25); Index_out(0x26); Index_out(0x27); Index_out(0x28); Index_out(0x29); Index_out(0x2A); Index_out(0x06); AR_VDD= +5.0V AR_VSS= -5.0V Parameter_out(0x48); //set display timing Parameter_out(0x78); //set display timing Parameter_out(0x42); //set display timing Parameter_out(0x01); //set display timing Parameter_out(0x02); //OTP On Parameter_out(0x79); //VGHVGL=+/-6V Parameter_out(0x28); //VGAM1OUT=5.02V Parameter_out(0x77); //set R slop Parameter_out(0x76); //set G slop Parameter_out(0x77); //set B slop Parameter_out(0x00); //set R_0 Parameter_out(0x00); //set R_10 Parameter_out(0x00); //set R_36 Parameter_out(0x00); //set R_80 Parameter_out(0x00); //set R_124 Parameter_out(0x00); //set R_168 Parameter_out(0x01); //set R_212 Parameter_out(0x03); //set R_255 Parameter_out(0x00); //set G_0 Parameter_out(0x03); //set G_10 Parameter_out(0x00); //set G_36 Parameter_out(0x02); //set G_80 Parameter_out(0x01); //set G_124 Parameter_out(0x02); //set G_168 Parameter_out(0x02); //set G_212 Parameter_out(0x06); //set G_255 Parameter_out(0x00); //set G_0 Parameter_out(0x02); //set B_10 Parameter_out(0x01); //set B_36 Parameter_out(0x02); //set B_80 Parameter_out(0x02); //set B_124 Parameter_out(0x03); //set B_168 Parameter_out(0x03); //set B_212 Parameter_out(0x08); //set B_255 Parameter_out(0x03); //set display on 11 Document No.: 2. Response Time test condition Tr 100% 90% Tf 10% Time 3. Viewing angle test condition: 4. Contrast Luminance with all pixels white CR = Luminance with all pixels black 5. Optical tester: CA210 6. Brightness of 30% power consumption. Operating Life Time is defined when the luminance has decayed to less than 50% of the initial measured luminance before life test. 12 Document No.: 7. System Diagram: HOSTs HX5116 Serial Interface SDA SCL NCS NRESET DCLK VSYNC HSYNC DE DB (24bit) DB(24bit) RGB Interface 13 Document No.: 8. PIN Pin Assignment: Symbol I/O I I I I I I I I I/O I/O I/O I/O I/O I/O I/O Touch panel P1 Touch panel P2 Touch panel P3. Touch panel P4 Negative voltage for OLED Negative voltage for OLED Positive voltage for OLED Positive voltage for OLED Panel refers voltage of the regulator ARREF or external input voltage. (-8V~+8V) Low Voltage output of regulator VGL or external input voltage. (-3V~-8V) High Voltage output of regulator VGH or external input voltage. (+3V~+8V) Negative output voltage of the booster2. (-8.5V) Connect to the step-up circuit, capacitors according to the step-up factor. Leave this pin open if the internal step-up circuit is not used. Positive output voltage of the booster2. (8.5V) Connect to the step-up circuit, capacitors according to the step-up factor. Leave this pin open if the internal step-up circuit is not used. Description Remarks 1 TP1 2 TP2 3 TP3 4 TP4 5 AR_VSS 6 AR_VSS 7 TEST1_VS 8 AR_VDD 9 AR_VDD 10 TEST2_VD 11 ARREF 12 VGL 13 VGH 14 LVO 15 C22N 16 C22P 17 HVO 18 C21P 19 C21N 20 C11N 21 C11P 22 C12N 23 C12P 24 PVSS 25 DDVDH 26 VSSA 27 VSSA 28 VCI 29 VCI 30 VGAM1OUT open CMEL test pin, it must be open. open CMEL test pin, it must be open. I/O Connect to the step-up circuit, 4capacitors according to the step-up factor. Leave this pin open if the internal step-up circuit is not used. P I/O P P P P I/O Charge pump ground pin, it must connect to external ground. Output voltage of the booster1. (5.1V/6.0V) Analog ground pin. It must connect to external ground. Analog ground pin. It must connect to external ground. A power supply for the Analog circuit. (3.0V~3.6V) A power supply for the Analog circuit. (3.0V~3.6V) Output voltage of the VGAM1OUT regulator and used positive power of source driver. (4.8V/5.8V) Internal logic voltage input or output pin I/O 31 VDDD VDC_ENB=0, VDDD is output, please connect to 1uF capacitor. VDC0 0 VDDD 1.8V Status Normal display 14 Document No.: 1 2.5V OTP program VDC_ENB=1, VDDD is input. (Input range = 1.6V~2.75V) 32 VCC 33 VSSD 34 NRESET 35 NCS 36 SCL 37 SDA P P I I I I I A power supply for the Digital circuit. (1.5V~3.6V) Digital ground pin. It must connect to external ground. Reset pin. Setting either pin low initializes the LSI. Must be reset after power is supplied. (Normally pull high) Serial Interface chip enable pin. (Normally pull high) Serial Interface clock input pin. (Normally pull high) Serial Interface data line. (Normally pull high) Data enable: When VSYNC+HSYNC+DE mode, DE=H: Data enable, DE=L: Data disable (Black). (Normally pull low) Frame synchronizing signal. 38 DE I 39 VSYNC I 40 HSYNC I 41 DCLK 42 D27 43 D26 44 D25 45 D24 46 D23 47 D22 48 D21 49 D20 50 D17 51 D16 52 D15 53 D14 54 D13 55 D12 56 D11 57 D10 58 D07 59 D06 I If VSPL=0: Active low. If VSPL=1: Active high. Line synchronizing signal. If HSPL=0: Active low. If HSPL=1: Active high. Dot clock signal. If DPL=0: Data are input on the rising edge of DOTCLK. If DPL=1: Data are input on the falling edge of DOTCLK. Digital data input. DX0 is LSB and DX7 is MSB. (Normally pull low) 1. If parallel RGB input mode is used, D0X, D1X, and D2X indicate R, G, and B data in turn. 2. If serial RGB or RGBD or CCIR601 or CCIR656 input mode is selected, only D07~D00 are used, and others short to GND. DX7~DX0 has 8-bit width, respectively to compose 16,777,216 color and 256 gray scale of 1 pixel. 15 Document No.: 60 D05 61 D04 62 D03 63 D02 64 D01 65 D00 66 TEST3_W 67 AR_VDD 68 AR_VDD 69 AR_VSS 70 AR_VSS 71 TEST4_P open CMEL test pin, it must be open. I I I I Positive voltage for OLED Positive voltage for OLED Negative voltage for OLED Negative voltage for OLED open CMEL test pin, it must be open. 16 Document No.: 9. External Dimension: 17 Document No.: 10. Reliability Test: No. 1 2 3 4 5 6 7 Items High Temp. Storage Low Temp. Storage High Temp. Operation Low Temp. Operation High Temp / Humidity Storage 85C, 240hrs -40C, 240hrs 60C, 240hrs -20C, 240hrs 85C, 85%RH, 240hrs -40C ~85C (-40C /30min; transit/3min; 85C /30min; transit /3min) 1cycle: 66min, 100 cycles Follow ISTA standard Test axis: X, Y, Z Height: Follow ISTA standard Sequence : 1 angle3 edges and 6 faces Cycles: 1 10 ESD (1) Contact discharge mode: +/- 2kV, 3 times/FPC pin (2) Air discharge mode: +/- 8 kV, 10 times/central area Specification High Temp / Humidity Operation 60C, 90%RH, 240hrs Thermal shock 8 Packing Vibration 9 Packing Drop Test and measurement conditions All measurements shall not be started until the specimens attain to temperature stability. The degradation of Polarizer is ignored for item 1, 5 & 6. The test pattern at operating condition is 30%P.C. alternating pictures. Evaluation Criteria No damage to glass or encapsulation No drastic change to display Defects / Mura follow product specification Luminance: Within +/-50% of initial value Current consumption: within +/-50% of initial value 18 Document No.: 11. Handling: 11.1. Do not scratch the surface of the polarizer film as it is easily damaged. 11.2. When cleaning the display surface, use soft cloth with solvent (as recommended below) and wipe lightly Ethyl alcohol Isopropyl alcohol 11.3. Do not wipe the display surface with dry or hard materials that damage the polarizer surface. 11.4. Since this OLED panel is made of glass, dropping the module or banging it against hard objects may cause cracks or fragmentation. 11.5. Do not disassemble the OLED module as it may cause permanent damage. 11.6. Hold OLED very carefully when placing OLED module into the system housing. Do not excessive stress or pressure to OLED module. 12. Storage: 12.1. Storing in a polyethylene bag with the opening sealed. 12.2. Placing in a dark place where neither exposure to direct sunlight nor any fluorescent light is permitted and keep at room temperature & room humidity. 12.3. Storing with no contact with polarizer surface. It is recommended to store them in the inner container which we delivered. 13. Panel ID Label Naming Rule Single format example: 19 Document No.: 14. Package: 20 Document No.: 15. Warranty Warranty term is 12 months of reliability characteristics of quality level after the outgoing date in Chi Mei EL Corporation. Chi Mei EL Corporation could compensate for defectives, which happen within warranty term under condition that products should be stored or be used as specified under normal condition within the contents of specification. Otherwise, it is unable to compensate for defectives when below items happen: (1) Defectives happen by customer's mistake such as careless handling or design change, etc. (2) Defectives caused by natural uncontrolled disaster. (3) The direct and/or indirect damage caused by unapproved or disagreed use behavior, condition, environment, which is over or not belong to the product specification or other related technique document published by CMEL. After 12 months of warranty term, all replacement for defectives will be charged. 21 |
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