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| Confidential Document DATA IMAGE CORPORATION LCD Module Specification ITEM NO.: TG642000FRNNB-01 Table of Contents 1. COVER & CONTENTS 2. RECORD OF REVISION 3. GENERAL SPECIFICATIONS 4. ABSOLUTE MAXIMUM RATINGS 5. ELECTRICAL CHARACTERISTICS 6. ELECTRO-OPTICAL CHARACTERISTIC 7. TIMING CHARACTERISTICS 8. PIN CONNECTIONS 9. POWER SUPPLY 10. BLOCK DIAGRAM 11. QUALITY ASSURANCE 12. LOT NUMBERING SYSTEM 13. LCM NUMBERING SYSTEM 14. PRECAUTIONS IN USE LCM 15 OUTLINE DRAWING 16 PACKAGE INFORMATION 1 2 3 4 5 5 8 12 12 13 15 19 19 20 21 22 R&D Dept. Q.C. Dept. Eng. Dept. Prod. Dept. Version: C Issued Date: 2003/3/14 Sheet Code: Total Pages: 22 Page: 1 /22 Confidential Document 2. Rev B RECORD OF REVISION Date JAN/10/01 MAR/14/03 Item 15 13 4,5,11.2.3, 11.3,15 Page 21 20 Comment 1. Change FFC Cable length form 150 to 127mm. C MAR/14/03 New model numbering system updated from old P/N# TG64201FRH 1.Change: 11.2.3 Inspection Parameters. 2.Add:11.3 Sampling Condition. 4-5,18-19 3.Modify: ELECTRICAL ABSOLUTE ,21 4.Modify: ELECTRICAL CHARACTERISTICS 5.Modify: OUTLINE DRAWING.. Page: 2 /22 Confidential Document 3. GENERAL SPECIFICATION 640 (W) x 0.27 (W) x 0.24 (W) x 178 (W) x 202 g max. STN Gray V Reflective Transmissive STN BLUE V FSTN TN (W) x 200 (H) 0.33 (H) 0.3 (H) 70.2 (H) dots mm mm mm Display Format : Dot Pitch : Dot Size : View Area : Outline Dimensions : Weight : LCD Type : Polarizer mode : 88.4 (H) x 10.5 (T) mm Max. Transflective Negative 12 O'clock EL Amber Others Others CCFL Blue Green View Angle : Backlight : Backlight Color : V 6 O'clock LED Yellow green White Controller / Driver : Temperature Range : NT7701,LH1562 Normal V Wide Temperature Operating 0 to 50C Operating -20 to 70C Storage -20 to 60C Storage -30 to 80C Page: 3 /22 Confidential Document 4. ABSOLUTE MAXIMUM RATINGS 4.1 ELECTRICAL ABSOLUTE MAXIMUM RATINGS VSS= 0V, Ta = 25C Item Supply Voltage (Logic) Operating Temperature Storage Temperature Symbol VDD-VSS TOP TSTG Min. 0 -20 -30 Max. 7.0 70 80 Unit V C C 4.2 Item ENVIRONMENTAL ABSOLUTE MAXIMUM RATINGS Operating (Min.) -20 Note (2) --4.9M/S 2 2 Storage (Min.) -30 Note(2) --19.6M/S 490M/S 2 2 Max.) 70 (Max.) 80 Comment Note (1) Without Condensation XYZ Direction XYZ Direction Ambient Temp Humidity Vibration Shock 29.4M/S Note(1) Ta = 0C : 50Hr Max. Note(2) Ta 40C : 90% RH Max. Ta 40C : Absolute humidity must be lower than the humidity of 90% RH at 40C. Page: 4 /22 Confidential Document 5. ELECTRICAL CHARACTERISTICS Item Supply Voltage (Logic) Symbol VDD-VSS -20C -10C 0C 25C 50C 70C -LCD- ON LCD- OFF Condition Min. 2.7 22.5 21.7 20.7 19.2 18.2 17 0.8VDD VSS --Typ. 3.0 23.0 22.2 21.2 19.7 18.7 17.5 --8.7 0.15 Max. 5.0 23.5 22.7 21.7 20.2 19.2 18 VDD 0.2VDD 12 0.2 Unit V Supply Voltage (LCD) VLCD V Input Voltage Logic Supply Current VIH VIL IDD V mA mA 6. ELECTRO-OPTICAL CHARACTERISTICS ITEM Rise Time Fall Time Contrast View Angle Frame Frequency Symbol Tr Tf CR 1~2 1, 2 Ff Condition 0C 25C 0C 25C 25C 25C & CR3 25C -25 -20 -Min. --Typ. 500 180 600 200 6 --64 25 30 -Hz Max. 600 200 850 300 Unit ms Note (1) ms Note (3) Note (2) Ref. Note (1) & (2) : See next page Note (3) : Contrast ration is defined under the following condition: CR= ( a ). ( b ). ( c ). ( d ). Brightness of non-selected condition Brightness of selected condition Temperature ---------- 25C Frame frequency ---- 64Hz Viewing angle -------- = 0, = 0 Operating voltage --- 19.7V Page: 5 /22 Confidential Document Note (1) Response time is measured as the shortest period of time possible between the change in state of an LCD segment as demonstrated below: +Vop 1/f F 0 -Vop 90% 100% 10% tr Condition: ( a ) . Temperature ---------------25C ( b ) . Frame frequency --------- 64Hz ( c ) . View Angle ----------------- = 0, =0 ( d ) . Operating voltage -------- 19.7V Note (2) Definition of View Angle Top - Bottom direction Right -- Left direction 2 Top 1 2 Bottom Left Right 1 tf Page: 6 /22 Confidential Document 7. TIMING CHARACTERISTICS Segment timing: Item Shift Clock Period *1 Shift Clock Pulse Width Data Set Up Time Data Hold Time Latch Pulse "H" Pulse Width Shift Clock Rise to Latch Pulse Rise Time Shift Clock Fall to Latch Pulse Fall Time Latch Pulse Rise to Shift Clock Rise Time Latch Pulse Fall to Shift Clock Fall Time Input Signal Rise/ Fall Time *2 Enable Setup Time DISPOFFB Removal Time DISPOFFB "L" Pulse Width Output Delay Time (1) Output Delay Time (2) Output Delay Time (3) Symbol TWCK TWCKH TWCKL TDS TDH TWLPH TLD TSL TLS TLH TR, TF TS TSD TWDL TD TPD1, TPD2 TPD3 Condition TR,TF10ns Min. Typ. Max. Units 125 51 30 40 51 0 51 51 51 50 36 100 1.2 ns ns ns ns ns ns ns ns ns ns ns ns u 78 1.2 1.2 ns us us CL=15pF CL=15pF CL=15pF Note: *1. Take the cascade connection into consideration. *2. (TWCK-TWCKH-TWCKL)/2 is maximum in the case of high speed operation. Page: 7 /22 Confidential Document TWLPH CL1 (LP) TSL TLD TLS TLH TWCKH TWCKL CL2 (XCK) TR TF TWCK TDS TDH DI0-DI3 LAST DATA TWDL TSD TOP DATA DISPOFFB SEGMENT TIMING M tpd1 LP tpd2 DISPOFF tpd3 Y1~Y640 Page: 8 /22 Confidential Document common timing: Item Shift Clock Period Pulse "H" Pulse Width Data Set Up Time Data Hold Time Input Signal Rise/ Fall Time DISPOFFB Removal Time DISPOFFB "L" Pulse Width Output Delay Time (1) Output Delay Time (2) Output Delay Time (3) Symbol TWLP TWLPH TSU TH TR, TF TSD TWDL TDL TPD1, TPD2 TPD3 Condition TR,TF20ns VDD=+5.0V10% VDD=+2.5V~+4.5V Min. Typ. Max. Units 250 15 30 30 50 50 100 1.2 ns ns ns ns u 200 1.2 1.2 ns us us ns ns CL=15pF CL=15pF CL=15pF TWLP TWLPH LP TSU EIO2 TDL EI01 TSD DISPOFF TWDL COMMON TIMING TH TR TF Page: 9 /22 Confidential Document 7.1 TIMING CHART DF(M) 70HZ 1/Ff FLM 200 CL1 1 2 200 1 2 200 1 2 FLM CL1(CP) CL2(XCK) CP x ( 640 / 4 ) pulse DO-D3 Page: 10 /22 Confidential Document 7.2 S-8330 Timing common timing: Item Output Voltage range Potential division accuracy Electric volume resolution Error in linearity Data setup time Data hold time VCLK falling edge to VSTRB rising edge VSTRB pulse width VSTRB falling edge to VCLK rising edge VCLK pulse width VCLK period VDIN,VCLK,VSTRB input voltage "H" level VDIN,VCLK,VSTRB input voltage "L" level VDIN,VCLK,VSTRB input leakage current Symbol VOUT Condition S-8330A24 Min. Typ. Max. Units 12 1/256 4.17 8.33 24 2.4 1/2 0.2 1 V % LSB s s s s s s s V tsc thc tss tda ths tdc ttc VSHC1 VSHC2 VSLC ISLC VIN=9V VIN3.0V VIN 3.0V 0.5 0.5 0.5 0.5 0.5 0.5 5 2.4 1.6 -1 A VDIN D1 D2 nextMSB ttc tsc thc VCLK tdc tss ths tda VSTRB Data input Timing Note 1: An electric volume has 8-bit resolution. However, its error in linearity may exceed 1/2LSB only before and after switching from 127 to 128(from 01111111 to 10000000) and vice versa. When the electric volume is used within the variable range of 12 V,its error in linearity corresponds to 6 bits (2.4% potential division accuracy is ensured). Page: 11 /22 Confidential Document Electric Volume The S-8330/31 series incorporates an electric volume with an 8-bit shift register and an 8-bit latch. The output voltage is variable in the width of 12V. The output voltage can be held in the data transmission mode because the data read in the shift register is fetched into the latch by unshyncronized strobe input . Figure 1 shows a block diagram and timing charts VDIN VCLK RESET 8-bit shift Register VDIN D7 D6 (MSB) D5 D4 D3 D2 D1 D0 (LSB) VSTRB 8-bit Latch VCLK Reset Hold Read Hold Electric Volume VSTRB VOUT VOUT Min. value Setting value Figure 1 Block Diagram and Timing VDIN :Inputs data to the electric volume. "Data 1"is input at "H" level; "Data 0" is input at "LOW" level. VCLK :Inputs clock to the electric volume. Fetches data at VDIN pin into the shift register at the rising edge of clocks. When clocks of over 8 bits are input, the read data is shifted in succession for each clock, and data corresponding to 8 bits which was input lastly is valid. VSTRB :Inputs strobe signal . The contents of the shift register are latched by turning the strobe signal to "H". When the data fetched into the latch is directly transmitted to the electric volume, the output voltage changes. Data in the latch is held by turning the strobe signal to "L". Page: 12 /22 Confidential Document 8. PIN CONNECTIONS No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Symbol VDD VSS FLM CL1 CL2 M DBO DB1 DB2 DB3 ON/OFF VDIN VCLK VSTRB Function Logic Power Input. Ground, 0V First line mark. Data latch pulse. Data shift pulse. Switch signal to convert LCD drive wave form into AC Input data signal 0. Input data signal 1. Input data signal 2. Input data signal 3. Display ON/ OFF control input S8330 serial data input. S8330 serial clock input. S8330 strobe signal input. 9. POWER SUPPLY +3.0V VDD LCM VSS VDIN VCLK VSTRB ON/OFF Page: 13 /22 Confidential Document 10. BLOCK DIAGRAM Pixel 0.0 200 FLM Common Driver X1 LCD PANEL 640X200 DOTS 640 D0 D3 M CL1 CL2 ON/OFF Segment Driver 160X 4 VDIN VCLK VSTRB VDD VSS Digital Control VLCD S8330A24 Page: 14 /22 Confidential Document 11. QUALITY ASSURANCE 11.1 Test Condition 11.1.1 Temperature and Humidity(Ambient Temperature) Temperature : 20 5C Humidity : 65 5% 11.1.2 Operation Unless specified otherwise, test will be conducted with LCM in operation. 11.1.3 Container Unless specified otherwise, vibration test will be conducted on module only. 11.1.4 Test Frequency Single cycle. 11.1.5 Test Method No. 1 2 3 4 5 6 7 Parameter High Temperature Operating Low Temperature Operating High Temperature Storage Low Temperature Storage Vibration Test (Non-operation state) Damp Proof Test (Non-operation state) Shock Test (Non-operation state) Conditions 70 2 C -20 2 C 80 2 C -30 2 C Total fixed amplitude : 1.5mm Vibration Frequency : 10 ~ 55Hz One cycle 60 seconds to 3 directions of X.Y.Z. for each 15 minutes 40C 2C, 90~95%RH, 96h Regulations Note 3 Note 3 Note 3 Note 3 Note 3 Note 1,2 Note 3 To be measured after dropping from 60cm high once concrete surface in packing state Note 1: Returned under normal temperature and humidity for 4 hrs. Note 2: No dew condensation to be observed. Note 3: No change on display and in operation under the test condition Page: 15 /22 Confidential Document 11.2 Inspection condition 11.2.1 Inspection conditions The LCD shall be inspected under 40W white fluorescent light. 45 11.2.2 Definition of applicable Zones B LCD A BEZEL PCB A : Display Area B : Non-Display Area Page: 16 /22 Confidential Document 11.2.3 Inspection Parameters No. Parameter Black or White spots Acceptable Class number Of Defects A B Dimension D < 0.15 4 4 0.15 D< 0.2 Minor 2 2 0.2 D 0.25 0 1 D 0.3 D = (Long + Short) / 2 * : Disregard Zone AQL Level Criteria 1 2.5 2 Scratch, Substances Class Acceptable Of number X (mm) Y(mm) Defects A B 0.04 W 4 4 3.0 L 0.06 W Minor 2 3 2.0 L 0.08 W 0 1 0.1 < W X : Length Y : Width : Disregard Total defects should not exceed 4/module Zone AQL Level 2.5 3 Air Bubbles (between glass & polarizer) Zone Dimension D 0.15 0.15 < D 0.25 Acceptable number A B 2 Class of Defects Minor AQL Level 2.5 0 1 0.25 < D : Disregard Total defects shall not excess 3/module. 4 Uniformity of Pixel (1) Pixel shape (with Dent) 0.152 Page: 17 /22 Confidential Document (2) Pixel shape ( with Projection) Should not be connected to next pixel 0.152 (3) Pin hole X 4 Uniformity of Pixel Y ( X + Y )/2 0.02mm (Less than 0.1 mm is no counted) (4) Deformation X ( X + Y ) / 2 0.3mm Y Total acceptable number : 1/pixel, 5/cell Definition It is a defect that is likely to result in failure or to reduce materially the usability of the product for the intended function. It is a defect that is likely to assembly size and not result in functioning problem. It is a defect that will not result in functioning problem with deviation classified. Major Class of defects Minor AQL 0.65% AQL 1.00% AQL 2.5% 11.3 Sampling Condition Unless otherwise agree in written, the sampling inspection shall be applied to the incoming inspection of customer. Lot size: Quantity of shipment lot per model. Sampling type: normal inspection, single sampling Inspection level: Level II Sampling table: MIL-STD-105E Page: 18 /22 Confidential Document 12. LOT NUMBERING SYSTEM 9 7 4 2 Production week number Production year 13. LCM NUMBERING SYSTEM TG 642000 F R N N B - 01 VERSION :01 View direction & Temp. Range A-Bottom view 6H & Normal temp. B-Bottom view 6H & Wide temp. C-Top View & Normal temp. D-Top View & Wide temp. Backlight Color B -Blue W -White N -None Backlight S -edge light LED B/L E -EL N -No Back light MODE M - transmissive R - Reflective F - transflective N - Negative LCD type G - STN Gray S -STN Yellow F - FSTN Series code 642000 -640 Dots X200 Dot, 0 LCD type, 0 PCB type Model type CM - Character Module GM - Graphic Module TG-Single TAB/COG Graphic Module TX-Custom Single TAB/COG Graphic Module Page: 19 /22 Confidential Document 14. PRECAUTION FOR USING LCM 1. LIQUID CRYSTAL DISPLAY (LCD) LCD is made up of glass, organic sealant, organic fluid, and polymer based polarizers. The following precautions should be taken when handing, (1). Keep the temperature within range of use and storage. Excessive temperature and humidity could cause polarization degredation, polarizer peel off or bubble. (2). Do not contact the exposed polarizers with anything harder than an HB pencil lead. To clean dust off the display surface, wipe gently with cotton, chamois or other soft material soaked in petroleum benzin. (3). Wipe off saliva or water drops immediately. Contact with water over a long period of time may cause polarizer deformation or color fading, while an active LCD with water condensation on its surface will cause corrosion of ITO electrodes. (4). Glass can be easily chipped or cracked from rough handling, especially at corners and edges. (5). Do not drive LCD with DC voltage. 2. Liquid Crystal Display Modules 2.1 Mechanical Considerations LCM are assembled and adjusted with a high degree of precision. Avoid excessive shocks and do not make any alterations or modifications. The following should be noted. (1). Do not tamper in any way with the tabs on the metal frame. (2). Do not modify the PCB by drilling extra holes, changing its outline, moving its components or modifying its pattern. (3). Do not touch the elastomer connector, especially insert an backlight panel (for example, EL). (4). When mounting a LCM make sure that the PCB is not under any stress such as bending or twisting . Elastomer contacts are very delicate and missing pixels could result from slight dislocation of any of the elements. (5). Avoid pressing on the metal bezel, otherwise the elastomer connector could be deformed and lose contact, resulting in missing pixels. 2.2. Static Electricity LCM contains CMOS LSI's and the same precaution for such devices should apply, namely (1). The operator should be grounded whenever he/she comes into contact with the module. Never touch any of the conductive parts such as the LSI pads, the copper leads on the PCB and the interface terminals with any parts of the human body. (2). The modules should be kept in antistatic bags or other containers resistant to static for storage. (3). Only properly grounded soldering irons should be used. (4). If an electric screwdriver is used, it should be well grounded and shielded from commutator sparks. (5) The normal static prevention measures should be observed for work clothes and working benches; for the latter conductive (rubber) mat is recommended. (6). Since dry air is inductive to statics, a relative humidity of 50-60% is recommended. 2.3 Soldering (1). Solder only to the I/O terminals. (2). Use only soldering irons with proper grounding and no leakage. (3). Soldering temperature : 280C 10C (4). Soldering time: 3 to 4 sec. (5). Use eutectic solder with resin flux fill. (6). If flux is used, the LCD surface should be covered to avoid flux spatters. Flux residue should be removed after wards. 2.4 Operation (1). The viewing angle can be adjusted by varying the LCD driving voltage V0. (2). Driving voltage should be kept within specified range; excess voltage shortens display life. (3). Response time increases with decrease in temperature. (4). Display may turn black or dark blue at temperatures above its operational range; this is (however not pressing on the viewing area) may cause the segments to appear "fractured". (5). Mechanical disturbance during operation (such as pressing on the viewing area) may cause the segments to appear "fractured". 2.5 Storage If any fluid leaks out of a damaged glass cell, wash off any human part that comes into contact with soap and water. Never swallow the fluid. The toxicity is extremely low but caution should be exercised at all the time. 2.6 Limited Warranty Unless otherwise agreed between DATA IMAGE and customer, DATA IMAGE will replace or repair any of its LCD and LCM which is found to be defective electrically and visually when inspected in accordance with DATA IMAGE acceptance standards, for a period on one year from date of shipment. Confirmation of such date shall be based on freight documents. The warranty liability of DATA IMAGE is limited to repair and/or replacement on the terms set forth above. DATA IMAGE will not responsible for any subsequent or consequential events. Page: 20 /22 Confidential Document 15. OUTLINE DRAWING Page: 21 /22 Confidential Document 16. PACKAGE INFORMATION Anti-static bag LCM Carton Page: 22 /22 |
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