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| White Electronic Designs Display Systems Division ENH064V1-800 Color TFT-LCD Module Features GENERAL DESCRIPTION WEDC provides optically enhanced solutions to the standard Sharp LQ64D343 color active matrix LCD module. The ENH064V1-800 enhancement is an index matching (IM) film lamination to the front surface of the display polarizer. The IM film is available in two surface treatments - IM/Clear and IM/110 (a 10% diffusion). The second enhancement is the incorporation of an enhanced light guide (ELG) providing for up to 30% increase in brightness. This module is composed of a color TFT-LCD panel, driver ICs, control circuit and power supply circuit and a backlight unit. Graphics and texts can be displayed on a 640 x RGB x 480 dot panel with 262,144 colors by supplying 18-bit data signal (6-bit/color), four timing signals, +5V DC supply voltage for TFT-LCD panel driving and supply voltage for backlight. ENH064V1-800 The TFT-LCD panel used for this module is a low-reflection and higher-color-saturation type. Therefore, this module is also suitable for multimedia use. Viewing angle is 6 o'clock direction. This module offers a wide viewing angle and high brightness (800cd/m2). Backlight-driving DC/AC inverter is not built in this module. WEDC 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. WEDC does assume the responsibility for the warranty of the enhanced product. MECHANICAL SPECIFICATIONS Parameter Display Size Active Area Pixel Format Pixel Pitch Pixel Configuration Display Mode Unit Outline Dimensions (1) Mass Surface Treatment Note: 1. Excluding backlight cables. Specifications 16 (6.4") Diagonal 130.6(H) x 97.0(V) 640(H) x 480(V) (1 pixel=R+G+B dots) 0.204(H) x 0.202(V) RGB vertical stripe Normally white 175.0(W) x 126.5(H) x 16.0(D) 290 20 IM/Clear (glossy) or IM/110 and hardcoat 3H Unit cm mm pixel mm - - mm g - Original specifications created by Sharp. February, 2004 Rev. 0 1 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division INPUT TERMINALS TFT-LCD panel driving CN1 Used connector: Corresponding connector: 31 2 CN1 pin arrangement from module surface (Transparent view) ENH064V1-800 1 30 DF9BA-31P-1V (Hirose Electric Co., Ltd.) DF9-31S-1V (Hirose Electric Co., Ltd.) DF9A-31S-1V (Hirose Electric Co., Ltd.) DF9B-31S-1V (Hirose Electric Co., Ltd.) DF9M-31S-1V (Hirose Electric Co., Ltd.) Pin No. 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 Symbol GND CK Hsync Vsync GND R0 R1 R2 R3 R4 R5 GND G0 G1 G2 G3 G4 G5 GND B0 B1 B2 B3 B4 B5 GND ENAB Vcc Vcc R/L U/D Function - Clock signal for sampling each data signal Horizontal synchronous signal Vertical synchronous signal - RED data signal (LSB) RED data signal RED data signal RED data signal RED data signal RED data signal (MSB) - GREEN data signal (LSB) GREEN data signal GREEN data signal GREEN data signal GREEN data signal GREEN data signal (MSB) - BLUE data signal (LSB) BLUE data signal BLUE data signal BLUE data signal BLUE data signal BLUE data signal (MSB) - Signal to settle the horizontal display position +5.0V power supply +5.0V power supply Horizontal display mode select signal Vertical display mode select signal Remark - - (1) (1) - - - - - - - - - - - - - - - - - - - - - - (2) - - (3) (4) The shielding case is not connected with GND. Notes: 1) 480 line, 400 line or 350 line mode is selected by the polarity combination of both synchronous signals. 2) The horizontal display start timing is settled in accordance with a rising timing of ENAB signal. In case ENAB is fixed "Low", the horizontal start timing is determined as described in Horizontal Display Position, p. 6. Do not keep ENAB "High" during operation. Original specifications created by Sharp. February, 2004 Rev. 0 2 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com Mode Hsync Vsync 480 lines negative negative 400 lines negative positive 350 lines positive negative White Electronic Designs Display Systems Division 3) ENH064V1-800 WEDC R/L=OPEN, U/D=OPEN display reverse 4) CDEW R/L=LOW, U/D=OPEN WEDC R/L=OPEN, U/D=OPEN display reverse R/L=OPEN, U/D=LOW BHR-03VS-1(JST) SM02(8.0)B-BHS(JST) Used connector: Corresponding connector: BACKLIGHT DRIVING CNA, CNB Pin No. 1 2 3 Symbol VHIGH NC VLOW Function Power supply for lamp (High voltage side) This is electrically opened Power supply for lamp (Low voltage side) ABSOLUTE MAXIMUM RATINGS Parameter Input Voltage +5V Supply Voltage Storage Temperature Operating Temperature (Ambient) Symbol VI VCC Tstg Topa Condition Ta=25C Ta=25C - - Ratings -0.3~ VCC + 0.3 0~+6 -25 ~ + 70 0 ~ + 55 Unit V V C C Remark (1) - (2) Notes: 1. CK, R0~R5, G0~G5, B0~B5, Hsync, Vsync, ENAB, R/L, U/D 2. Humidity : 95%RH Max. at Ta < 40C. Maximum wet-bulb temperature at 39C or less at Ta>40C. No condensation. Original specifications created by Sharp. February, 2004 Rev. 0 3 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com CDEW White Electronic Designs Display Systems Division ELECTRICAL CHARACTERISTICS TFT-LCD Panel Driving Parameter Supply Voltage +5V Current Dissipation Permissive Input Ripple Voltage Input Voltage (Low) Input Voltage (High) Input Current (Low) Input Current (High) Symbol VCC ICC VRF VIL VIH IOL1 IOL2 IOH1 IOH2 Min. +4.5 - - - 0.7VCC - - - - Typ. +5.0 250 - - - - - - - Max. +5.5 360 100 0.3VCC - 1.0 60.0 1.0 60.0 Unit V mA mVp-p V V A A A A Remark (1) (2) VCC=+5V (3) VI =0V (4) VI =0V (5) VI =VCC (6) VI =VCC (7) ENH064V1-800 Notes: 1) Vcc-turn-on conditions t1 10ms 0 < t2 10ms 0< t3 1s 4.5V 2.7V Vcc 4.5V data Vcc-dip conditions 1) 2.7V VCC < 4.5V td 10ms 2) VCC < 2.7V Vcc-dip conditions should also follow the Vcc-turn-on conditions t1 t2 t3 Vcc td Notes: 2) Typical current situation : 16-gray-bar pattern 480 line mode VCC = +50V CK, R0~R5, G0~G5, B0~B5, Hsync, Vsync, ENAB, R/L, U/D CK, R0~R5, G0~G5, B0~B5, Hsync, Vsync, ENAB R/L CK, R0~R5, G0~G5, B0~B5, Hsync, Vsync ENAB, U/D 3) 4) 5) 6) 7) RGB G3O RGB G34 RGB G38 ... 2.7V RGB G350 4.5V RGB G310 Original specifications created by Sharp. February, 2004 Rev. 0 4 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division BACKLIGHT DRIVING The backlight system is an edge-lighting type with four CCFTs (Cold Cathode Fluorescent Tube). The Characteristics of a single lamp are shown in the following table. Parameter Lamp Current Lamp Power Consumption Lamp Frequency Kick-off Voltage Lamp Life Time Symbol IL PL FL VS LL Min. 2.0 - 20 - - - Typ. 6.0 2.16 35 - - 25000 Max. 6.5 - 60 800 1000 - Unit mArms W KHz Vrms Vrms hour ENH064V1-800 TA=25C Remark (1) (2) (3) Ta=25C Ta=0C (4) (5) Notes: 1) Lamp current is measured with current meter for high frequency as shown below. 1 Module 3 ~ 3 pin is VLOW A Inverter 2) At the condition of YL=(300) cd/m2 3) Lamp frequency may produce interference with horizontal synchronous frequency, and this may cause horizontal 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. 4) The open output voltage of the inverter shall be maintained for more than 1 sec; otherwise the lamp may not be turned on. 5) Since lamp is consumable, the life time written above is referential value and is not guaranteed in this specification sheet by WEDC. Lamp life time is defined that it applied either (1) or (2) under this condition (Continuous turning on at Ta=25C, IL=6mArms) 1) Brightness becomes 50% of the original value under standard condition. 2) Kickoff voltage at Ta=0C exceeds maximum value, 1000 Vrms. If operating under lower temp environment, the lamp exhaustion is accelerated and the brightness becomes lower. (Continuous operating for around 1 month under lower temp condition may reduce the brightness to half of the original brightness.) In case of such usage under lower temp environment, periodic lamp exchange by WEDC is recommended. Note: 1) The performance of the backlight, for example life time or brightness, is influenced by the characteristics of the DC /AC inverter for the lamp. When designing or ordering the inverter, make certain that poor lighting caused by the mismatch of the backlight and the inverter (mis-lighting, flicker, etc.) do not occur. Once this is confirmed, the module should be operated in the same condition as it is installed in the instrument. Original specifications created by Sharp. February, 2004 Rev. 0 5 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division TIMING CHARACTERISTICS OF INPUT SIGNALS Timing diagrams of input signal are shown in Fig. 2-1~3. ENH064V1-800 TIMING CHARACTERISTICS Parameter Frequency Clock High Time Low Time Data Setup Time Hold Time Cycle Pulse Width Cycle Pulse Width Horizontal Display Period Hsync-Clock Phase Difference Hsync-Vsync Phase Difference Symbol 1/Tc Tch Tcl Tds Tdh TH THp TV TVp THd THc TVh Mode all 480 Vertical sync. Signal 400 350 all Min. - 5 10 5 10 30.00 770 2 515 446 447 2 640 10 0 Typ. 25.18 - - - - 31.78 800 96 525 449 449 - 640 - - Max. 28.33 - - - - - 900 200 560 480 510 34 640 TC-10 TH-THp Unit MHz ns ns ns ns s clock clock line line line line clock ns clock Horizontal sync. Signal Note: 1) In case of lower frequency, the deterioration of display quality, flicker, etc., may occur. HORIZONTAL DISPLAY POSITION The horizontal display position is determined by ENAB signal and the input data corresponding to the rising edge of ENAB signal is displayed at the left end of the active area. Parameter Enable Signal Setup time Pulse width Symbol Tes Tep THe Min. 5 2 44 Typ. - 640 - Max. Tc-10 640 TH-664 Unit ns clock clock Hsync-Enable Signal Phase Difference Note: 1) When ENAB is fixed "Low", the display starts from the data of C104 (clock) as shown in Fig. 2-1~3. Be careful the module does not work when ENAB is fixed "High". Original specifications created by Sharp. February, 2004 Rev. 0 6 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division VERTICAL DISPLAY POSITION The vertical display position is automatically centered in the active area at each mode of VGA, 480-, 400-, and 350-line mode. Each mode is selected depending on the polarity of the synchronous signals described in Note 1 on page 2. In each mode, the data of TVn is displayed on the top line of the active area. The display position will be centered Mode 480 400 350 ENH064V1-800 on the screen like the following figure when the period of vertical synchronous signal, TV, is typical value. In 400-, and 350-line mode, the data in the vertical data invalid period is also displayed. So inputting all data "()" is recommended during vertical data invalid period. ENAB signal has no relation to the vertical display position. V-data Start (TVs) V-data Period (TVd) V-display Start (TVn) V-display Period 34 34 61 480 400 350 34 443-TV 445-TV 480 480 480 Unit line line line data invalid period 4 0 lines data invalid period 6 5 lines data period 4 0 0 lines data period 3 5 0 lines data invalid period 4 0 lines data invalid period 6 5 lines 400 lines mode (TV=449) 350 lines mode (TV=449) INPUT DATA SIGNALS AND DISPLAY POSITION ON THE SCREEN Display postion of input data (480 lines mode) UP D1, DH1 D1, DH2 D1, DH3 D2, DH1 D2, DH2 D3, DH1 D640, DH1 R G B R/L = OPEN U/D = OPEN D1, DH480 D640, DH480 Original specifications created by Sharp. February, 2004 Rev. 0 7 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division TH ENH064V1-800 THp Horizontal sync. signal (Hsync) 0.3Vcc 0.3Vcc 0.7Vcc 0.3Vcc *Only when enable terminal is fixed "low" THc Clock signal (CK) Tc Tch Tc 0.7Vcc 0.3Vcc 0.3Vcc C1* 0.3Vcc 0.3Vcc C104* C2* Number of clock D1 D2 Tds 0.3Vcc Tdh 0.7Vcc 0.3Vcc THd Number of H-data Data signal (R0~R5, G0~G5 B0~B5) Horizontal invalid data period D3 D639 D640 Horizontal invalid data period THe Data enable signal (ENAB) 0.7Vcc Tes Tep 0.3Vcc TV Vertical sync. signal (Vsync) TVp 0.3Vcc 0.7Vcc 0.3Vcc TVh Horizontal sync. signal (Hsync) 0.7Vcc 1 2 34 TVs Vertical invalid data period Number of line TVd Data signal (R0~R5, G0~G5 B0~B5) DH1 DH2 DH3 DH479 DH480 Vertical invalid data period Number of V-data line Fig 2-1 Input signal waveforms (480 line mode) Original specifications created by Sharp. February, 2004 Rev. 0 8 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division ENH064V1-800 TH THp Horizontal sync. signal (Hsync) 0.3Vcc 0.3Vcc 0.7Vcc 0.3Vcc Tc Tch Tc THc *Only when enable terminal (ENAB) is fixed "Low" Clock signal (CK) 0.7Vcc 0.3Vcc 0.3Vcc 0.3Vcc 0.3Vcc C2* Number of clock C1* Data signal (R0~R5, G0~G5, B0~B5) C104* Tds Tdh 0.7Vcc 0.3Vcc Number of H-data Horizontal invalid data period D1 D2 D3 D639 D640 Horizontal invalid data period THe Data enable signal (ENAB) THd 0.7Vcc Tes Tep 0.3Vcc TV Vertical sync. signal (Vsync) 0.7Vcc 0.7Vcc TVp TVh 0.3Vcc Horizontal sync. signal (Hsync) 0.7Vcc 1 2 34 TVs Data signal (R0~R5, G0~G5, B0~B5) Vertical invalid data period Number of line TVd DH1 DH2 DH3 DH399 DH400 Vertical invalid data period Number of V-data line Fig. 2-2 Input signal waveforms (400 line mode) Original specifications created by Sharp. February, 2004 Rev. 0 9 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division TH Horizontal sync. signal 0.7Vcc (Hsync) ENH064V1-800 0.7Vcc 0.3Vcc 0.7Vcc Tc Tch Tc 0.7Vcc THp Clock signal (CK) THc *Only when enable terminal (ENAB) fixed "low" 0.3Vcc 0.3Vcc 0.3Vcc 0.3Vcc C1* Data signal (R0~R5, G0~G5, B0~B5) C2* Number of clock C104* Tds D2 Tdh D3 0.7Vcc 0.3Vcc D639 D640 Number of H-data Horizontal invalid data period D1 Horizontal invalid data period THe Data enable signal (ENAB) THd 0.7Vcc Tes 0.3Vcc Tep TV Vertical sync. signal (Vsync) TVp 0.3Vcc 0.7Vcc 0.3Vcc TVh Horizontal sync. signal (Hsync) 0.3Vcc 1 2 TVs Vertical invalid data period 61 Number of line TVd Data signal (R0~R5, G0~G5, B0~B5) DH1 DH2 DH3 DH349 DH350 Vertical invalid data period Fig 2-3 Input signal waveforms (350 line mode) Number of V-data line Original specifications created by Sharp. February, 2004 Rev. 0 10 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division Colors & Gray scale Black Blue Green Cyan Red Magenta Yellow White Black Darker Brighter Red Black Gray Scale of Green ENH064V1-800 INPUT SIGNALS, BASIC DISPLAY COLOR AND GRAY SCALE OF EACH COLOR Data Signal Gray R0 R1 R2 R3 R4 R5 G0 G1 G2 G3 G4 G5 B0 B1 B2 B3 B4 B5 Scale - 000000000000000000 - 000000000000111111 - 000000111111000000 - 000000111111111111 - 111111000000000000 - 111111000000111111 - 111111111111000000 - 111111111111111111 GS0 000000000000000000 GS1 110000000000000000 GS2 010000000000000000 GS61 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 GS62 0 0 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 GS63 0 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 GS0 000000000000000000 GS1 000000100000000000 GS2 000000010000000000 GS61 0 0 0 0 0 0 1 0 1 1 1 1 0 0 0 0 0 0 GS6 000000011111000000 GS63 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 GS0 000000000000000000 GS1 000000000000100000 GS2 000000000000010000 GS61 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 1 GS62 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 GS63 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 Gray Scale or Red Gray Scale of Blue Basic Color Darker Brighter Green Black Darker Brighter Blue Notes: 1) 0: Low level voltage 1: High level voltage 2) Each basic color can be displayed in 64 gray scales from 6 bit data signals. According to the combination of total 18 bit data signals, the 262,144-color display can be achieved on the screen. Original specifications created by Sharp. February, 2004 Rev. 0 11 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division OPTICAL CHARACTERISTICS Ta=25C, VCC=+5V Parameter Horizontal Viewing Angle Range Vertical Contrast Ratio Response Time Chromaticity of White Luminance of White White Uniformity Viewing Angle Range as a Brightness Definition Horizontal Vertical Rise Decay Symbol 21 22 11 12 CR tr td X Y YL w 21 22 11 12 Condition Min. 60 60 35 55 100 - - - - 700 - - - - - Typ. 70 70 40 70 - 20 40 0.313 0.325 800 - 45 45 45 45 Max. - - - - - - - - - - 1.45 - - - - ENH064V1-800 (CR5) Best Viewing Angle Unit Deg. Deg. Deg. Deg. - ms ms - - cd/m2 - Deg. Deg. Deg. Deg. Remark (4) (2,4) (3,4) = 0 (4) (5) 50% of the maximum brightness (1) Note: 1) The measurement shall be executed 30 minutes after lighting at rating. (typical condition: IL=6mArms) The optical characteristics shall be measured in a dark room or equivalent state with the method shown in Fig. 3 below. Photodetector (BM-5A: TOPCON) Field=2 400mm TFT-LCD Module LCD Panel Center of the screen Fig. 3 Optical Characteristics Measurement Method Original specifications created by Sharp. February, 2004 Rev. 0 12 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division Normal line Notes: 1) Definitions of viewing angle range: ENH064V1-800 22 12 11 21 6 o'clock direction white Photodetector output (Relative Value) 2) Definition of contrast ratio: The contract ratio is defined as the following. Contrast Ratio (CR) = Luminance (brightness) with all pixels white Luminance (brightness) with all pixels black black white 100% 90% 3) Definition 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". 10% 0% r d time 160 4) This shall be measured at center of the screen. 5) Definition of white uniformity: White uniformity is defined as the following with five measurements. 320 480 pixel A (A~E). D C 120 240 Luminance of ve points (brightness) w= MaximumLuminance of fifive points (brightness) Minimum B E 360 pixel Original specifications created by Sharp. February, 2004 Rev. 0 13 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division DISPLAY QUALITY The display quality of the color TFT-LCD module shall be in compliance with the Incoming Inspection Standard. ENH064V1-800 HANDLING PRECAUTIONS 1) 2) Be sure to turn off the power supply when inserting or disconnecting the cable. Design the cabinet so that the module can be installed without any extra stress such as warp or twist. Since the front polarizer is easily damaged, pay attention to avoid rubbing with something hard or sharp. Wipe water off immediately. Long contact with water may cause discoloration or spots. When the panel surface is soiled, use an absorbent cotton or other soft cloth to wipe it off. Since the panel is made of glass, refined wires and components, it may break, crack or cause internal wire breaking if dropped or bumped on hard surface. Handle with care. Since CMOS LSI is used in this module, make certain one is grounded when handling. Observe all other precautionary requirements in handling components. This module has its circuitry PCBs on the rear side and should be carefully handled in order to avoid being stressed. 10) Laminated film is attached to the module surface to prevent it from being scratched. Before use, peel the film off slowly, with strict attention to electrostatic charges. Ionized air shall be blown over during the action. Blow off `dust' on the polarizer by using an ionized nitrogen gun. 11) Connect GND to 4 place of mounting holes to stabilize against EMI and external noise. 12) The high voltage portions on the backlight are very dangerous. Careless handling may lead to electrical shock. 3) PACKING FORM 1) 2) 3) 4) Piling number of cartons: MAX 10 Package quantity in one carton: 20pcs Carton size: 355 (W) X 282 (D) X 265 (H) mm Total mass of 1 carton filled with full modules: 7.0kg 4) 5) 6) OTHERS 1) 2) Disassembling the module can cause permanent damage and should be avoided. Image retention may occur when a fixed pattern is displayed for a long time. 7) 8) 9) EXCHANGE OF LAMPS This must be action must be performed by WEDC. RELIABILITY TEST ITEMS No. Test item 1 2 3 4 5 6 High Temperature Storage Test Low Temperature Storage Test High Temperature & High Humidity Operation Test High Temperature Operation Test Low Temperature Operation Test Vibration Test (Non-Operating) Conditions Ta=70C Ta=25C Ta=40C, 95%RH (No Condensation) Ta=55C Ta=0C Frequency Sweep time Test period Max. gravity Pulse width Direction 240h 240h 240h 240h 240h :10~57Hz/Vibration width (one side):0.075mm :58~500Hz/Gravity: 9.8m/s2 :11 minutes :3 hours (1 hour for each direction of X,Y,Z) :490m/s2 :11ms, half sine wave :X, Y, Z (once for each direction.) 7 Shock Test (Non-Operating) Original specifications created by Sharp. February, 2004 Rev. 0 14 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com White Electronic Designs Display Systems Division 0.638 ENH064V1-800 5.362 [136.20 mm] Bezel Opening 4.980 4.892 4.459 4.399 2.157 [54.79 mm] Active Area 3.819 [97.00 mm] Bezel Opening 3.937 [100.00 mm] 0.581 0.521 0.089 0.000 5.142 Active Area [130.60 mm] 0.000 0.089 1.055 1.217 6.358 6.417 6.801 6.890 4X o0.083 Mounting Holes 1) TOLERANCE 2) TOLERANCE 3) TOLERANCE 4) TOLERANCE X-DIRECTION X-DIRECTION Y-DIRECTION Y-DIRECTION A:4x120x8 B:1x520x8 C:1x520x8 D:1x520x8 IE-FI<0x8 Notes: 1) Unspecified tolerance to be 0.5. 2) Floating of PWB and chassis are excluded from module thickness. 3) Diameter of mounting boss shall be the range of 3.5mm to 4mm. (center of oval hole) 5) OBLIQUITY OF DISPLAY AREA Original specifications created by Sharp. February, 2004 Rev. 0 15 White Electronic Designs - Display Systems Division * (503) 690-2460 * www.wedc.com |
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