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| LQ181E1LW31 TFT-LCD Module (Model Number: LQ181E1LW31) Specifications Spec No.: LD-13Z04 Dated: May 29, 2002 PREPARED BY : DATE SPEC No. LD-13Z04 FILE No. ISSUE : May.27.2002 APPROVED BY : DATE AVC LCD DEVELOPMENT GROUP SHARP CORPORATION PAGE : 22 pages APPLICABLE GROUP AVC Liquid Crystal Display SPECIFICATION Group DEVICE SPECIFICATION TFT-LCD Module MODEL No. LQ181E1LW31 CUSTOMER'S APPROVAL DATE BY PRESENTED BY M.TAKEDA Development General Manager Development Engineering Department 2 AVC LIQUID CRYSTAL DISPLAY Division AVC LIQUID CRYSTAL DISPLAY GROUP SHARP CORPORATION RECORDS OF REVISION LQ181E1LW31 REVISED SPEC No. LD-13Z04 DATE May.27.2002 No. - PAGE - SUMMARY - NOTE 1st Issue LD-13Z04-1 1. Application This specification applies to the color 18.1 SXGA TFT-LCD module LQ181E1LW31. These specification sheets are the proprietary product of SHARP CORPORATION("SHARP) and include materials protected under copyright of SHARP. Do not reproduce or cause any third party to reproduce them in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. The device listed in these specification sheets was designed and manufactured for use in OA equipment. In case of using the device for applications such as control and safety equipment for transportation(aircraft, trains, automobiles, etc. ), rescue and security equipment and various safety related equipment which require higher reliability and safety, take into consideration that appropriate measures such as fail-safe functions and redundant system design should be taken. Do not use the device for equipment that requires an extreme level of reliability, such as aerospace applications, telecommunication equipment(trunk lines), nuclear power control equipment and medical or other equipment for life support. SHARP assumes no responsibility for any damage resulting from the use of the device which does not comply with the instructions and the precautions specified in these specification sheets. Contact and consult with a SHARP sales representative for any questions about this device. 2. Overview This module is a color active matrix LCD module incorporating amorphous silicon TFT (Thin Film Transistor). It is composed of a color TFT-LCD panel, driver ICs, control circuit, power supply circuit and a back light unit. Graphics and texts can be displayed on a 1280x3x1024 dots panel with about 16 million colors (8 bit) by using LVDS (Low Voltage Differential Signaling) to interface and supplying +12 DC supply voltages for TFT-LCD panel driving and supply voltage for backlight. It is a wide viewing-angle-module using SHARP original technology. Backlight-driving DC/AC inverter is not built in this module. LD-13Z04-2 3. Mechanical Specifications Parameter Display size Active area Pixel format Pixel pitch Pixel configuration Display mode Unit outline dimensions *1 Mass Surface treatment Specifications 46 (Diagonal) 18.1 (Diagonal) 359.0 (H)x287.2 (V) 1280 (H)x1024 (V) (1 pixel=R+G+B dots) 0.2805 (H) x 0.2805 (V) R,G,B vertical stripe Normally Black 389 (W)x317.2 (H)x27.5(D) MAX 3.5 Anti-glare and hard-coating 2H mm kg mm Unit cm Inch mm Pixel *1.Note: excluding back light cables. The thickness of module (D) doesn't contain the projection. Outline dimensions are shown in Fig.1. LD-13Z04-3 4. Input Terminals 4-1. TFT-LCD panel driving CN1 (Interface signals and +12VDC power supply) Using connector FI-SE30P-HF (Japan Aviation Electronics Ind.,Ltd.) Mating connector FI-S30S (Japan Aviation Electronics Ind.,Ltd.) Pin No. Symbol Function 1 Vcc +12VPower Supply 2 Vcc +12VPower Supply 3 Vcc +12VPower Supply 4 GND GND GND 5 GND GND 6 GND 7 SELLVDS Select LVDS data order Note1 NC 8 NC GND 9 GND Positive (+) LVDS differential data input (B port) 10 RxBIN3+ Negative (-) LVDS differential data input (B port) 11 RxBIN312 RxBCLKIN+ Positive (+) LVDS differential clock input (B port) 13 RxBCLKIN- Negative (-) LVDS differential clock input (B port) Positive (+) LVDS differential data input (B port) 14 RxBIN2+ Negative (-) LVDS differential data input (B port) 15 RxBIN2Positive (+) LVDS differential data input (B port) 16 RxBIN1+ Negative (-) LVDS differential data input (B port) 17 RxBIN1Positive (+) LVDS differential data input (B port) 18 RxBIN0+ Negative (-) LVDS differential data input (B port) 19 RxBIN0Positive (+) LVDS differential data input (A port) 20 RxAIN3+ Negative (-) LVDS differential data input (A port) 21 RxAIN322 RxACLKIN+ Positive (+) LVDS differential clock input (A port) 23 RxACLKIN- Negative (-) LVDS differential clock input (A port) Positive (+) LVDS differential data input (A port) 24 RxAIN2+ Negative (-) LVDS differential data input (A port) 25 RxAIN2Positive (+) LVDS differential data input (A port) 26 RxAIN1+ Negative (-) LVDS differential data input (A port) 27 RxAIN1Positive (+) LVDS differential data input (A port) 28 RxAIN0+ Negative (-) LVDS differential data input (A port) 29 RxAIN0GND 30 GND Remark 3.3V C-MOS Pull Up LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LVDS LD-13Z04-4 Note1SELLVDS(Thine:THC63LVDM83A) Transmitter Pin No Data 51 TA0 52 TA1 54 TA2 55 TA3 56 TA4 3 TA5 4 TA6 6 TB0 7 TB1 11 TB2 12 TB3 14 TB4 15 TB5 19 TB6 20 TC0 22 TC1 23 TC2 24 TC3 27 TC4 28 TC5 30 TC6 50 TD0 2 TD1 8 TD2 10 TD3 16 TD4 18 TD5 25 TD6 =L(GND) R0(LSB) R1 R2 R3 R4 R5 G0(LSB) G1 G2 G3 G4 G5 B0(LSB) B1 B2 B3 B4 B5 NC (RSV1) DE R6 R7(MSB) G6 G7(MSB) B6 B7(MSB) (NA) SELLVDS =H(3.3V) or Open R2 R3 R4 R5 R6 R7(MSB) G2 G3 G4 G5 G6 G7(MSB) B2 B3 B4 B5 B6 B7(MSB) NC (RSV1) DE R0(LSB) R1 G0(LSB) G1 B0(LSB) B1 (NA) LD-13Z04-5 SELLVDS= Low(GND) 1 cycle CKAIN+ CKAIN- RAIN0+ RAIN0RA1 RA0 GA0 RA5 RA4 RA3 RA2 RA1 RA0 GA0 RAIN1+ RAIN1GA2 GA1 BA1 BA0 GA5 GA4 GA3 GA2 GA1 BA1 RAIN2+ RAIN2BA3 BA2 DE NA NA BA5 BA4 BA3 BA2 DE RAIN3+ RAIN3RA7 RA6 NA BA7 BA6 GA7 GA6 RA7 RA6 NA Tcsq CKBIN- CKBIN+ RBIN0+ RBIN0RB1 RB0 GB0 RB5 RB4 RB3 RB2 RB1 RB0 GB0 RBIN1+ RBIN1GB2 GB1 BB1 BB0 GB5 GB4 GB3 GB2 GB1 BB1 RBIN2+ RBIN2BB3 BB2 DE RSV1 NA BB5 BB4 BB3 BB2 DE RBIN3+ RBIN3RB7 RB6 NA BB7 BB6 GB7 GB6 RB7 RB6 NA DE: Display Enable RSV1: Reserve (Fixed GND) NA: Not Available LD-13Z04-6 SELLVDS= High(3.3V) or Open 1 cycle CKAIN+ CKAIN- RAIN0+ RAIN0RA3 RA2 GA2 RA7 RA6 RA5 RA4 RA3 RA2 GA2 RAIN1+ RAIN1GA4 GA3 BA3 BA2 GA7 GA6 GA5 GA4 GA3 BA3 RAIN2+ RAIN2BA5 BA4 DE NA NA BA7 BA6 BA5 BA4 DE RAIN3+ RAIN3RA1 RA0 NA BA1 BA0 GA1 GA0 RA1 RA0 NA Tcsq CKBIN- CKBIN+ RBIN0+ RBIN0RB3 RB2 GB2 RB7 RB6 RB5 RB4 RB3 RB2 GB2 RBIN1+ RBIN1GB4 GB3 BB3 BB2 GB7 GB6 GB5 GB4 GB3 BB3 RBIN2+ RBIN2BB5 BB4 DE RSV1 NA BB7 BB6 BB5 BB4 DEB RBIN3+ RBIN3RB1 RB0 NA BB1 BB0 GB1 GB0 RB1 RB0 NA DE: Display Enable RSV1: Reserve (Fixed GND) NA: Not Available LD-13Z04-7 4-2 Interface block diagram Using receiverContained in a control IC. Corresponding TransmitterTHC63LVDM83A(THine electronics),DS90C383,DS90C383A(National semiconductor) Computer side G10G17 R10R17 B10B17 8 8 8 (TFT-LCD side) RxAIN0+(28) RxAIN0-(29) RxAIN1+(26) 8 8 8 R10R17 G10G17 B10B17 TTL LVDS (HSYC) (VSYC) ENAB RxAIN2+(24) RxAIN2-(25) RxAIN3+(20) RxAIN3-(21) LVDS TTL RxAIN1-(27) ENAB RxACLKIN+(22) CLK A Port B Port R20R27 G20G27 B20B27 8 8 8 PLL RxACLKIN-(23) PLL CK RxBIN0+(18) RxBIN0-(19) 8 8 R20R27 G20G27 B20B27 RxBIN1+(16) 8 TTL LVDS TxIN18~20 RxBIN2+(14) RxBIN2-(15) RxBIN3+(10) RxBIN3-(11) RxBCLKIN+(12) PLL RxBCLKIN-(13) PLL Fig.2 Interface block diagram LVDS TTL RxBIN1-(17) Internal circuits Controller LD-13Z04-9 6. Electrical Characteristics 6-1. TFT-LCD panel driving Parameter Supply voltage Current dissipation Symbol Vcc Icc VRF IIL IIH Min. +11.4 Typ. +12.0 350 Max. +12.6 600 100 10 10 Unit V mA mVp-p A A VI=GND VI=Vcc Ta=25 Remark Note1 Note2 Vcc Permissive input ripple voltage Input current (Low) Input current (High) Note1 1) On-off sequences of Vcc and data 0 < t1 60ms 0 < t2 10ms 0 t3 1s t4 100ms 2) Dip conditions for supply voltage Vmin=11.4V,Vt=9.6V i) Vt Vcc < Vmin td 20ms ii) Vcc < Vt This case is described below *1. Vcc 10.8V 10.8V Vcc LVDS Data 1.0V 1.0V LVDS Data t3 t4 t1 t2 Vcc Vt Vmin td *1 The LCD module shuts down when Vcc .... RGB GS224 RGB GS240 Note2 1) Typical current situation : 16-gray-bar pattern Vcc=+12.0V Gray scale : GS(16N) N=0 ~ 15 GS0 GS16 GS32 The explanation of each gray scale ,GS(16n), is described below section 8. 2) Maximum current situation : The dots described the following figure(left) are displayed the gray scale described the following figure(right). RGBRGB RGBRGB RGBRGB RGBRGB RGBRGB RGBRGB OSOSOS OSOSOS SOSOSO SOSOSO OSOSOS OSOSOS OV0 gray scale SV255 gray scale The voltage correspond one of the 256 gray scale. LD-13Z04-10 6-2. Back light driving The back light system is an edge-lighting type with six CCFTs (Cold Cathode Fluorescent Tube). The characteristics of the lamp are shown in the following table. The value mentioned below is at the case of one CCFT. CCFT Model Name : MBT26B19RX376NRBU(HARISON TOSHIBA LIGHTING Corp.) Parameter Symbol Min. Typ. Max. Unit Remark Lamp current range IL 2.5 6.0 7.0 mArms Note1 Lamp voltage VL 715 Vrms Ta=25 Lamp power consumption PL 4.3 W Note2 Lamp frequency FL 35 60 70 KHz Note3 1300 Vrms Ta=25Note4 Kick-off voltage Vs 1500 Vrms Ta=0Note4 Lamp life time TL 50000 hour Note5 Note1 A lamp can be light in the range of lamp current shown above.3570 Maximum rating for current is measured by high frequency current measurement equipment connected to VLOW at circuit showed below. (Note : To keep enough kick-off voltage and necessary steady voltage for CCFT.) Lamp frequency: 3570KHz 1 Module Ambient temperature: 0 50 2 Inverter Note2 Referential data per one CCFT by calculation ( IL x VL ) . The data don't include loss at inverter. Note3 Lamp frequency may produce interference with horizontal synchronous frequency, and this may cause beat on the display. Therefore lamp frequency shall be detached as much as possible from the horizontal synchronous frequency and from the harmonics of horizontal synchronous to avoid interference. Note4 Kick-off voltage value is described as the index in the state of lamp only. The kick-off voltage is estimated to be risen up as approx. +200V in the state of module only, and the further rise up can be seen according to the assembling status of user cabinet. Please set the kick-off voltage of inverter to avoid the lighting failures in the state of operation. Please design the inverter so that its open output voltage can be connected for more than 1 second to startup. Otherwise, the lamp may not be turned on. But, please set as 100ms when the ambient luminance around the lamp is more than 1lux. Note5 Lamp life time is defined as the time when either 1 or 2 occurs in the continuous operation under the condition of Ta=25 and IL=6.0 mArms. 1. Brightness becomes 50% of the original value under standard condition. 2. Kick-off voltage at Ta=0 exceeds maximum value, 1500 Vrms. NoteThe performance of the back light, for example life time or brightness, is much influenced by the characteristics of the DC-AC inverter for the lamp. When you design or order the inverter, please make sure that a poor lighting caused by the mismatch of the back light and the inverter (miss-lighting, flicker, etc.) never occurs. When you confirm it, the module should be operated in the same condition as it is installed in your instrument. LD-13Z04-11 7. Timing characteristics of input signals 7-1. 2pixel mode timing characteristics Timing diagrams of input signal are shown in Fig.3. Parameter Clock Frequency Skew Horizontal period Data enable signal Horizontal period (High) Vertical period Vertical period (High) Symbol 1/Tc Tcsq TH THd TV TVd Min. 34 -1 668 12.5 640 1026 1024 Typ. 45 0 848 15 640 1066 1024 Max. 67.5 1 928 640 1080 1024 Unit MHz clock clock s clock line line Note2 Remark Note1 Note1 Two pixel-data are sampled at the same time. Note2 In case of using the long vertical period, the deterioration of display quality, flicker etc. may occur. There should be integral horizontal period per one vertical period. TH THd DEA,DEB DA (RA,GA,BA) DB (RB,GB,BB) 1278 0 2 1278 1 1279 1 3 1279 2 Tc 1 2 1023 1024 DEA,DEB TVd TV DEA DEB Tcsq Fig.3 Timing diagrams of input signal LD-13Z04-12 7-2 Input Data Signals and Display Position on the screen Graphics and texts can be displayed on a 1280 x 3 x 1024 dots panel with 16M colors by supplying 48 bit data signal (8bit/color [256 gray scale] x 3 x 2 pixels). RA GA BA RB GB BB DA(1,1) DB(1,1) Two pixel-data are sampled at the same time. DA DB RA0RA7, GA0GA7, BA0BA7 RB0RB7, GB0GB7, BB0BB7 DA(1,1) DB(1,1) DA(2,1) DA(1,2) DB(1,2) DA(1,3) DB(640,1) RGB DA(1,1024) DB(640,1024) Display position of input data(H,V) LD-13Z04-13 8. Input Signals, Basic Display Colors and Gray Scale of Each Color Data signal Colors & Gray RA0 RA1 RA2 RA3 RA4 RA5 RA6 RA7 GA0 GA1 GA2 GA3 GA4 GA5 GA6 GA7 BA0 BA1 BA2 BA3 BA4 BA5 BA6 BA7 Gray scale Scale RB0 RB1 RB2 RB3 RB4 RB5 RB6 RB7 GB0 GB1 GB2 GB3 GB4 GB5 GB6 GB7 BB0 BB1 BB2 BB3 BB4 BB5 BB6 BB7 Black Blue GS0 GS1 Darker GS2 0 0 0 0 1 1 1 1 0 1 0 0 0 0 0 1 1 1 1 0 0 1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 0 1 0 1 0 1 0 1 0 0 0 Basic Color Gray Scale of Red Gray Scale of Green Gray Scale of Blue Green Cyan Red Magenta Yellow White Black Brighter GS250 GS251 Red Black GS252 GS0 GS1 Darker GS2 1 0 1 0 0 0 0 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Brighter GS250 GS251 Green Black GS252 GS0 GS1 Darker GS2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 0 0 0 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Brighter GS250 GS251 Blue GS252 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 : Low level voltage, 1 : High level voltage. Each basic color can be displayed in 256 gray scales from 8 bit data signals. According to the combination of total 48 bit data signals, the 16-million-color display can be achieved on the screen. LD-13Z04-14 9. Optical Characteristics Ta=25, Vcc=+12V Parameter Viewing Angle range Horizontal Vertical Symbol 11 12 21, 22 CR d r Wx Wy Rx Ry Gx Gy Bx By Condition CR=10 Min. 70 70 70 Typ. 85 85 85 400 5 20 0.308 0.320 0.642 0.339 0.290 0.608 0.143 0.085 Max. 25 50 0.338 0.350 0.672 0.369 0.320 0.638 0.173 0.115 Unit Deg. Deg Deg. Remark Note1,4 Contrast ratio Response Time Decay Rise =0 0.278 0.290 0.612 0.309 0.260 0.578 0.113 0.055 Note2,4 ms ms IL=6.0mA rms cd/m2 Note4 Note3,4 Chromaticity of white Chromaticity of red Chromaticity of green Chromaticity of blue Luminance of white YL w 180 220 - FL=60KHz Note4 Note5 White Uniformity - - 1.25 - * The measurement shall be executed 30 minutes after lighting at rating. The optical characteristics shall be measured in the state of module only in a dark room or equivalent st ate with the method shown in Fig.4 below. Photodetector (BM-5A:TOPCON) Field=2 400mm TFT-LCD module LCD panel Center of the screen Fig.4 Optical characteristics measurement method LD-13Z04-15 Note1Definitions of viewing angle range: Norma line 11 22 12 21 6 o'clock Note2Definition of contrast ratio: The contrast ratio is defined as the following. Contrast Ratio (CR) = Luminance (brightness) with all pixels white Luminance (brightness) with all pixels black Note3Definition of response time: The response time is defined as the following figure and shall be measured by switching the input signal for "black" and "white". Photodetector Output (Relative Value) White 100% 90% black white 10% 0% r Note4This shall be measured at center of the screen. Note5Definition of white uniformity: White uniformity is defined as the following with five measurements (AE). 320 640 960 pixel d time A C B D 256 512 w Maximum Luminance of five points (brightness) Minimum Luminance of five points (brightness) E 768 pixel LD-13Z04-16 10. Handling Precautions a) b) c) d) e) f) Be sure to turn off the power supply when inserting or disconnecting the cable. Be sure to design the cabinet so that the module can be installed without any extra stress such as warp or twist. Since the front polarize is easily damaged, pay attention not to scratch it. Since long contact with water may cause discoloration or spots, wipe off water drop immediately. When the panel surface is soiled, wipe it with absorbent cotton or other soft cloth. Since the panel is made of glass, it may break or crack if dropped or bumped on hard surface. Handle with care. g) Since CMOS LSI is used in this module, take care of static electricity and take the human earth into consideration when handling. h) Make sure the four mounting holes of the module are grounded sufficiently. Take electro-magnetic interference (EMI) into consideration. i) The module has some printed circuit boards (PCBs) on the back side. Take care to keep them form any stress or pressure when handling or installing the module; otherwise some of electronic parts on the PCBs may be damaged. j) k) Observe all other precautionary requirements in handling components. When some pressure is added onto the module from rear side constantly, it causes display non-uniformity issue , functional defect, etc. So, please avoid such design. l) When giving a touch to the panel at power supply, it may cause some kinds of degradation. In that case, once turn off the power supply, and turn on after several seconds again, and that is disappear. m) When handling LCD modules and assembling them into cabinets, please be noted that long-term storage in the environment of oxidization or deoxidization gas and the use of such materials as reagent, solvent, adhesive, resin, etc. which generate these gasses, may cause corrosion and discoloration of the LCD modules. 11. Packing form a) Piling number of cartons : maximum 10 cartons b) Packing quantity in one carton : 2 module c) Carton size : 543mm(W) x 463mm(H) x 172(D) d) Total mass of one carton filled with full modules : 9.5kg e) Packing form is shown in Fig.5 LD-13Z04-17 12Reliability test items No. 1 2 3 Test item High temperature storage test Low temperature storage test High temperature & high humidity operation test High temperature operation test Low temperature operation test Ta=60 Ta=-25 240h 240h Conditions Ta=40 ; 95%RH 240h (No condensation) Ta=50 240h 4 5 (The panel temp. must be less than 60) Ta=0 240H Waveform : Sine wave Frequency : 10 57Hz/Vibration width (one side) : 0.075mm 6 Vibration test (non- operating) : 58 500Hz/Gravity : 9.8m/s2 Sweep time : 11minutes Test period : 3 hours (1 hour for each direction of X,Y,Z) Max. gravity : 490m/s2 7 Shock test (non- operating) Thermal shock test 8 Altitude 9 Result Evaluation Criteria Under the display quality test conditions with normal operation state, these shall be no change which may affect practical display function. Pulse width : 11ms, sine wave Direction : X, Y, Z, once for each direction. Ta=-2060 ; 5 cycles Test period : 10 hours (1 hour for each temperature) Ta=50,70kPa,3,048m(10,000ft), t=24h (Operating) Ta=50,18.75kpa,12,192m(40,000ft), t=24h (Storage) LD-13Z04-18 13Others 1) Lot No. and indication Label: SHARP LQ181E1LW31 YY XXXXXXX S MADE IN JAPAN Model No. Bar Code(Lot No.) How to express Lot No. Lot No. Serial No. A production year (the last figures of the Christian Era) A production month (19,X,Y,Z) 2) Adjusting volume have been set optimally before shipment, so do not change any adjusted value. If adjusted value is changed, the specification may not be satisfied. 3) Disassembling the module can cause permanent damage and should be strictly avoided. 4) Please be careful since image retention may occur when a fixed pattern is displayed for a long time. 5) The chemical compound which causes the destruction of ozone layer is not being used. 6) Material information of LPG(Light Pipe Guide) are labeled on the back of the module. MATERIAL INFORMATION >PLASTIC LIGHT GUIDE:PMMA< 7) Cold cathode fluorescent lamp in LCD PANEL contains a small amount of mercury, Please follow local ordinances or regulations for disposal. (put on the back of the module. :Size: 63x14mm ) COLD CATHODE FLUORESCENT LAMP IN LCD PANEL CONTAINS A SMALL AMOUNT OF MERCURY,PLEASE FOLLOW LOCAL ORDINANCES OR REGULATION FOR DISPOSAL 8) When any question or issue occurs , it shall be solved by mutual discussion. 14. Carton storage condition Temperature Humidity 0 to 40 95%RH or less : 5 to 15 , 85%RH or less (winter) the total storage time (40,95%RH) : 240H or less Sunlight Atmosphere Notes Be sure to shelter a product from the direct sunlight. Harmful gas, such as acid and alkali which bites electronic components and/or wires, must not be detected. Be sure to put cartons on palette or base, don't put it on floor, and store them with removing from wall Please take care of ventilation in storehouse and around cartons, and control changing temperature is within limits of natural environment Storage period 1 year Reference condition : 20 to 35 , 85%RH or less (summer) SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE. Suggested applications (if any) are for standard use; See Important Restrictions for limitations on special applications. See Limited Warranty for SHARP's product warranty. The Limited Warranty is in lieu, and exclusive of, all other warranties, express or implied. ALL EXPRESS AND IMPLIED WARRANTIES, INCLUDING THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR USE AND FITNESS FOR A PARTICULAR PURPOSE, ARE SPECIFICALLY EXCLUDED. In no event will SHARP be liable, or in any way responsible, for any incidental or consequential economic or property damage. NORTH AMERICA EUROPE JAPAN SHARP Microelectronics of the Americas 5700 NW Pacific Rim Blvd. Camas, WA 98607, U.S.A. Phone: (1) 360-834-2500 Fax: (1) 360-834-8903 Fast Info: (1) 800-833-9437 www.sharpsma.com SHARP Microelectronics Europe Division of Sharp Electronics (Europe) GmbH Sonninstrasse 3 20097 Hamburg, Germany Phone: (49) 40-2376-2286 Fax: (49) 40-2376-2232 www.sharpsme.com SINGAPORE SHARP Corporation Electronic Components & Devices 22-22 Nagaike-cho, Abeno-Ku Osaka 545-8522, Japan Phone: (81) 6-6621-1221 Fax: (81) 6117-725300/6117-725301 www.sharp-world.com TAIWAN KOREA SHARP Electronic Components (Taiwan) Corporation 8F-A, No. 16, Sec. 4, Nanking E. Rd. Taipei, Taiwan, Republic of China Phone: (886) 2-2577-7341 Fax: (886) 2-2577-7326/2-2577-7328 SHARP Electronics (Singapore) PTE., Ltd. 438A, Alexandra Road, #05-01/02 Alexandra Technopark, Singapore 119967 Phone: (65) 271-3566 Fax: (65) 271-3855 SHARP Electronic Components (Korea) Corporation RM 501 Geosung B/D, 541 Dohwa-dong, Mapo-ku Seoul 121-701, Korea Phone: (82) 2-711-5813 ~ 8 Fax: (82) 2-711-5819 CHINA HONG KONG SHARP Microelectronics of China (Shanghai) Co., Ltd. 28 Xin Jin Qiao Road King Tower 16F Pudong Shanghai, 201206 P.R. China Phone: (86) 21-5854-7710/21-5834-6056 Fax: (86) 21-5854-4340/21-5834-6057 Head Office: No. 360, Bashen Road, Xin Development Bldg. 22 Waigaoqiao Free Trade Zone Shanghai 200131 P.R. China Email: smc@china.global.sharp.co.jp SHARP-ROXY (Hong Kong) Ltd. 3rd Business Division, 17/F, Admiralty Centre, Tower 1 18 Harcourt Road, Hong Kong Phone: (852) 28229311 Fax: (852) 28660779 www.sharp.com.hk Shenzhen Representative Office: Room 13B1, Tower C, Electronics Science & Technology Building Shen Nan Zhong Road Shenzhen, P.R. China Phone: (86) 755-3273731 Fax: (86) 755-3273735 |
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