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| LCX028AMT 4.6cm (1.8-inch) Black-and-White LCD Panel Description The LCX028AMT is a 4.6cm diagonal active matrix TFT-LCD panel addressed by polycrystalline silicon super thin film transistors with a built-in peripheral driving circuit. Use of three LCX028AMT panels provides a full-color representation. The striped arrangement suitable for data projectors is capable of displaying fine text and vertical lines. The adoption of an advanced on-chip black matrix realizes a high luminance screen. And cross talk free circuit and ghost free circuit contribute to high picture quality. This panel has a polysilicon TFT high-speed scanner and built-in function to display images up/down and/or right/left inverse. The built-in 5V interface circuit leads to lower voltage of timing and control signals. The panel contains an active area variable circuit which supports 4:3 and 16:9 data signals by changing the active area according to the type of input signal. Features * Number of active dots: 1,310,720 (1.8-inch, 4.6cm in diagonal) * 4:3 and 16:9 aspect-ratio switching function 4:3 (1280 (H) x 960 (V)) 16:9 (1280 (H) x 720 (V)) * High optical transmittance: 27% (typ.) * Built-in cross talk free circuit and ghost free circuit * High contrast ratio with normally white mode: 250 (typ.) * Built-in H and V drivers (built-in input level conversion circuit, 5V driving possible) * Up/down and/or right/left inverse display function * Antidust glass package * Microlens used Element Structure * Dots: 1280 (H) x 1024 (V) = 1,310,720 * Built-in peripheral driver using polycrystalline silicon super thin film transistors Applications * Liquid crystal data projectors * Liquid crystal multimedia projectors * Liquid crystal rear-projector TVs, etc. The company's name and product's name in this data sheet is a trademark or a registered trademark of each company. Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- E99230-PS 1 PSIG VSSG COMR HST HCK2 HCK1 BLK RGT 31 Up/Down and/or Right/Left Inversion Control Circuit 2 17 Block Diagram Input Signal Level Shifter Circuit V Shift Register (Bidirectional Scanning) 19 18 Precharge Control Circuit Black Frame Control Circuit 22 16 25 24 29 26 23 27 28 VST VCK PCG DWN ENB VB1 VB2 15 H Shift Register (Bidirectional Scanning) -2- Black Frame Control Circuit V Shift Register (Bidirectional Scanning) HVDD VVDD Vss 30 20 3 4 5 6 7 VSIG1 VSIG2 VSIG3 VSIG4 VSIG5 8 COM PAD VSIG6 VSIG7 VSIG8 VSIG9 VSIG10 VSIG11 VSIG12 COML COM 9 10 11 12 13 14 21 32 LCX028AMT LCX028AMT Absolute Maximum Ratings (VSS = 0V) * H driver supply voltage HVDD * V driver supply voltage VVDD * Common pad voltage COM, COML, COMR * H shift register input pin voltage HST, HCK1, HCK2, RGT * V shift register input pin voltage VST, VCK, PCG, BLK, ENB, DWN VB1, VB2 * Video signal input pin voltage SIG1 to 12, PSIG * Operating temperature Topr * Storage temperature Tstg Panel temperature inside the antidust glass -1.0 to +20 -1.0 to +20 -1.0 to +17 -1.0 to +17 -1.0 to +17 V V V V V -1.0 to +15 -10 to +70 -30 to +85 V C C Operating Conditions (VSS = 0V) * Supply voltage HVDD 15.5 0.5V VVDD 15.5 0.5V * Input pulse voltage (Vp-p of all input pins except video signal and uniformity improvement signal input pins) -3- LCX028AMT Pin Description 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 32 Symbol PSIG COMR VSIG1 VSIG2 VSIG3 VSIG4 VSIG5 VSIG6 VSIG7 VSIG8 VSIG9 VSIG10 VSIG11 VSIG12 HVDD RGT HST HCK1 HCK2 VSS COML BLK ENB VCK VST DWN VB1 VB2 PCG VVDD VSSG COM Uniformity improvement signal Voltage for right CS (storage capacity) electrode line Video signal 1 to panel Video signal 2 to panel Video signal 3 to panel Video signal 4 to panel Video signal 5 to panel Video signal 6 to panel Video signal 7 to panel Video signal 8 to panel Video signal 9 to panel Video signal 10 to panel Video signal 11 to panel Video signal 12 to panel Power supply for H driver Drive direction pulse for H shift register (H: nomal, L: reverse) Start pulse for H shift register drive Clock pulse for H shift register drive 1 Clock pulse for H shift register drive 2 GND (H, V drivers) Voltage for left CS (storage capacity) electrode line Black Frame display pulse Enable pulse for gate selection Clock pulse for V shift register drive Start pulse for V shift register drive Drive direction pulse for V shift register (H: nomal, L: reverse) Display area switching 1 Display area switching 2 Improvement pulse for uniformity Power supply for V driver GND for V gate Common voltage of panel Description -4- LCX028AMT Input Equivalent Circuit To prevent static charges, protective diodes are provided for each pin except the power supplies. In addition, protective resistors are added to all pins except the video signal inputs. All pins are connected to VSS with a high resistor of 1M (typ.). The equivalent circuit of each input pin is shown below: (Resistance value: typ.) (1) VSIG1 to VSIG12, PSIG HVDD Input 1M (2) HCK1, HCK2 HVDD 250 Input 250 1M 250 Signal line Level conversion circuit (2-phase input) 250 1M Level conversion circuit (2-phase input) (3) RGT HVDD 2.5k Input 1M 2.5k Level conversion circuit (single-phase input) (4) HST HVDD 250 Input 1M 250 Level conversion circuit (single-phase input) (5) PCG, VCK VVDD 250 Input 1M 250 Level conversion circuit (single-phase input) (6) VST, BLK, ENB, DWN, VB1, VB2 VVDD 2.5k Input 1M 2.5k Level conversion circuit (single-phase input) (7) COM, COML, COMR VVDD Input 1M LC (8) HVDD, VSSG, VVDD Input 1M are all Vss. -5- LCX028AMT Input Signals 1. Input signal voltage conditions (VSS = 0V) Item H shift register input voltage (Low) HST, HCK1, HCK2, RGT (High) V shift register input voltage (Low) VB1, VB2, BLK, VST, VCK, PCG, ENB, DWN (High) Video signal center voltage Video signal input range1 Common voltage of panel2 Symbol VHIL VHIH VVIL VVIH VVC Vsig Vcom VpsigB VpsigG Min. -0.5 4.5 -0.5 4.5 6.9 VVC - 4.5 VVC - 0.6 VVC 4.4 VVC 1.7 Typ. 0.0 5.0 0.0 5.0 7.0 7.0 VVC - 0.5 VVC 4.5 VVC 1.8 Max. 0.4 5.5 0.4 5.5 7.1 VVC + 4.5 VVC - 0.4 VVC 4.6 VVC 1.9 V Unit V V V V V V V Uniformity improvement signal input voltage (PSIG)3 1 2 3 Input video signal shall be symmetrical to VVC. The typical value of the common pad voltage may lower its suitable voltage according to the set construction to use. In this case, use the voltage of which has maximum contrast as typical value. When the typical value is lowered, the maximum and minimum values may lower. Input a uniformity improvement signal PSIG in the same polarity with video signals VSIG1 to VSIG12 and which is symmetrical to VVC. PSIG wave form is 2 steps like below, in the upper chart, upper shows signal level of the 1st step, lower shows signal level of the 2nd step. Also, the rising and falling of PSIG are synchronized with the rising of PCG pulse, and the rise time trPSIG and fall time tfPSIG are suppressed within 400ns (as shown in a diagram below). Input waveform of uniformity improvement signal PSIG 90% PsigB PSIG PsigG VVC 10% trPSIG tfPSIG PCG PRG4 4 PRG shows the time of the 1st step of PSIG signal, and it is not input to the panel. Level Conversion Circuit The LCX028AMT has a built-in level conversion circuit in the clock input unit on the panel. The input signal level increases to HVDD or VVDD. The VCC of external ICs are applicable to 5 0.5V. -6- LCX028AMT 2. Clock timing conditions (Ta = 25C) Item Hst rise time HST Hst fall time Hst data set-up time Hst data hold time Hckn rise time5 HCK Hckn fall time5 Hck1 fall to Hck2 rise time Hck1 rise to Hck2 fall time Vst rise time VST Vst fall time Vst data set-up time Vst data hold time VCK Vck rise time Vck fall time Enb rise time Enb fall time ENB (SXGA mode: fHckn = 4.5MHz, fVck = 32.0kHz, fv = 60Hz) Symbol trHst tfHst tdHst thHst trHckn tfHckn to1Hck to2Hck trVst tfVst tdVst thVst trVck tfVck trEnb tfEnb tdEnb toPRG4 toPcg twEnb trPcg tfPcg toVck toVideo twPcg toPcgr toPcgf twPRG4 trBlk tfBlk toEnb toPcg Min. -- -- 35 35 -- -- -15 -15 -- -- 2 2 -- -- -- -- 4506 800 750 1800 -- -- -100 200 1600 -10 400 1100 -- -- 2 -1 Typ. -- -- 45 45 -- -- 0 0 -- -- 6 6 -- -- -- -- 700 1100 1000 -- -- -- 0 270 1800 0 600 1200 -- -- 1 0 Max. 30 30 55 55 30 30 15 15 100 100 10 10 100 100 100 100 -- -- -- -- 30 30 100 -- -- 10 -- -- 100 100 0 1 s ns s ns Unit Horizontal video period completed to Enb fall time Enb rise to horizontal video period started Enb fall to Pcg rise time Enb pulse width Pcg rise time Pcg fall time PCG Pcg rise to Vck rise/fall time Pcg fall to horizontal video period start time Pcg pulse width PRG4 rise to Pcg rise time PRG4 PRG4 fall to Pcg fall time PRG4 pulse width Blk rise time BLK5 Blk fall time Blk rise to Enb fall time Blk fall to Pcg rise time 5 6 7 Hckn means Hck1 and Hck2. The minimum value of tdEnb is 450ns. When H-BLK has a long cycle and has some time to spare, take more time prior to other value. Blk is the timing during 4:3 and 16:9 aspect-ratio mode, which keeps "H" level in other modes. -7- LCX028AMT Hst 10% trHst Waveform 90% 90% 10% tfHst Conditions * Hckn5 duty cycle 50% to1Hck = 0ns to2Hck = 0ns tfHst 8 Hst data set-up time tdHst 50% 50% Hst Hck1 Hst data hold time thHst tdHst 50% 50% thHst 90% 10% * Hckn5 duty cycle 50% to1Hck = 0ns to2Hck = 0ns Hckn rise time5 trHckn 90% 5 Hckn 10% Hckn fall time5 HCK Hck1 fall to Hck2 rise time tfHckn 8 to1Hck Hck1 * Hckn5 duty cycle 50% to1Hck = 0ns to2Hck = 0ns trHckn tfHckn 50% 50% 50% 50% Hck1 rise to Hck2 fall time to2Hck Hck2 to2Hck to1Hck 8 Definitions: The right-pointing arrow ( ) means +. The left-pointing arrow ( ) means -. The black dot at an arrow ( ) indicates the start of measurement. -8- LCX028AMT Vst 10% trVst 8 Waveform 90% 90% 10% tfVst Conditions tfVst Vst data set-up time tdVst 50% Vst 50% 50% 50% Vck Vst data hold time thVst tdVst 90% Vck 10% thVst 90% 10% Vck rise time VCK Vck fall time trVck tfVck trVckn tfVckn Enb rise time trEnb Enb 90% 10% 10% 90% Enb fall time Horizontal video period completed to Enb fall time ENB Enb rise to PRG4 fall time tfEnb tfEnb trEnb tdEnb H. Video period H. Blanking period 8 twEnb 50% 50% toPRG4 Enb PRG4 tdEnb 50% toPRG4 50% 50% Enb fall to Pcg rise time toPcg toPcg PCG Enb pulse width twEnb -9- LCX028AMT Item Pcg rise time Symbol trPcg Pcg 10% Waveform 90% 90% 10% tfpcg Conditions Pcg fall time tfPcg trpcg PCG9 Pcg rise to Vck rise/fall time toVck 8 H. blanking period twPcg H. video period toVideo Pcg fall to horizontal video period start time toVideo Pcg 50% 50% toVck Vck 50% Pcg pulse width twPcg PRG4 rise to Pcg rise time toPcgr 8 4 PRG4 PRG fall to Pcg fall time 9 twPRG4 toPcgf 50% 50% toPcgr PRG4 toPcgf Pcg 50% 50% PRG4 pulse width twPRG4 Blk rise time trBlk tfBlk 90% 10% 10% trBlk 90% Blk fall time tfBlk BLK Blk rise to Enb fall time toEnb 8 Blk 50% toPcg 50% toEnb Pcg 50% Blk fall to Pcg rise time toPcg Enb 50% 9 PCG input pin and PRG4 should be "H" level during the horizontal 1H period, where the above BLK is low more than 10ns. - 10 - LCX028AMT Electrical Characteristics (Ta = 25C, HVDD = 15.5V, VVDD = 15.5V) 1. Horizontal drivers Item Input pin capacitance HCKn HST Input pin current HCK1 HCK2 HST RGT Video signal input pin capacitance Current consumption 2. Vertical drivers Item Input pin capacitance VCK VST Input pin current VCK,PCG Symbol CVck CVst Min. -- -- -500 -150 IV -- Typ. 15 15 -150 -35 4.0 Max. 20 20 -- -- 6.0 Unit pF pF A A mA VCK = GND, PCG = GND VST, ENB, DWN,BLK, HB VB = GND VCK: (32.0kHz) Condition Csig IH Symbol CHckn CHst Min. -- -- Typ. 35 25 Max. 40 30 -- -- -- -- 250 25.0 Unit pF pF A A A A pF mA HCKn: HCK1, HCK2 (4.5MHz) HCK1 = GND HCK2 = GND HST = GND RGT = GND Condition -1000 -500 -1000 -500 -500 -150 -- -- -190 -40 200 17.0 VST, ENB, DWN, BLK, HB, VB Current consumption 3. Total power consumption of the panel Item Symbol Min. -- Typ. 330 Max. 480 Unit mW Total power consumption of the panel PWR 4. Pin input resistance Item Pin - VSS input resistance 5. Uniformity improvement signal Item Symbol Symbol Rpin Min. 0.4 Typ. 1 Max. -- Unit M Min. -- Typ. 15 Max. 18 Unit nF Input pin capacitance for uniformity CPSIGo improvement signal 6. COM pin capacitance Item COM pin capacitance (COM, COML, COMR Total) Symbol COM Min. -- Typ. 25 Max. 30 Unit nF - 11 - LCX028AMT Electro-optical Characteristics Item Contrast ratio Optical transmittance 25C 25C Symbol Measurement method Min. CR T RV90-25 25C V90 60C GV90-25 BV90-25 RV90-60 GV90-60 BV90-60 RV50-25 25C V-T characteristics V50 60C GV50-25 BV50-25 RV50-60 GV50-60 BV50-60 RV10-25 25C V10 60C GV10-25 BV10-25 RV10-60 GV10-60 BV10-60 ON time Response time OFF time Flicker Image retention time Cross talk 0C 25C 0C 25C 60C 25C 25C ton0 ton25 toff0 toff25 F YT60 CTK 5 6 7 4 3 1 2 150 24 0.9 1.0 1.2 0.9 1.0 1.1 1.3 1.4 1.5 1.2 1.3 1.4 1.7 1.8 1.9 1.7 1.8 1.8 -- -- -- -- -- -- -- Typ. 250 27 1.3 1.4 1.6 1.3 1.4 1.5 1.7 1.8 1.9 1.6 1.7 1.8 2.1 2.2 2.3 2.1 2.2 2.2 24.0 9.0 99.0 27.0 (SXGA mode) Max. -- -- 1.6 1.7 1.9 1.6 1.7 1.8 2.0 2.1 2.2 1.9 2.0 2.1 2.4 2.5 2.6 2.4 2.5 2.5 80.0 40.0 200.0 70.0 dB s % ms V Unit -- % -82.0 -40.0 0 -- -- 5 Reflection Preventive Processing When a phase substrate which rotates the polarization axis is used to adjust to the polarization direction of a polarization screen or prism, use a phase substrate with reflection preventive processing on the surface. This prevents characteristic deterioration caused by luminous reflection. - 12 - LCX028AMT Approx. 2000mm Screen Luminance Meter LCD Projector Measurement Equipment Screen: Made by Sony (VPS-120FH: Gain 2.8, Glass Beaded Type) or equivalent Projection lens: Focal distance 80mm, F1.9 Light source: 155W metal Haloid arc lamp (Color temperature 7500K 500) (x 24, Sensor area: 7mm) Polarizer: Nitto Denko's EG-1224DU or Polatechno's SKN-18242T or equivalent * Measurement system II Optical fiber Light receptor lens Light Detector Measurement Equipment Drive Circuit LCD panel Light Source 1. Contrast Ratio Contrast Ratio (CR) is given by the following formula (1). CR = L (White) ... (1) L (Black) L (White): Surface luminance of the center of the screen at the input signal amplitude VAC = 0.5V. L (Black): Surface luminance of the center of the screen at VAC = 4.5V. Both luminosities are measured by System I. - 13 - LCX028AMT 2. Optical Transmittance Optical Transmittance (T) is given by the following formula (2). T= White luminance Luminance of light source x 100 [%] ... (2) "White luminance" means the maximum luminance on the screen at the input signal amplitude VAC = 0.5V on Measurement System I. Transmittance [%] 3. V-T Characteristics V-T characteristics, or the relationship between signal amplitude and the transmittance of the panels, are measured by System II by inputting the same signal amplitude VAC to each input pin. V90, V50, and V10 correspond to the voltages which define 90%, 50%, and 10% of transmittance respectively. 90 50 10 V90 V50 V10 VAC - Signal amplitude [V] 4. Response Time Response time ton and toff are defined by formulas (5) and (6) respectively. ton = t1 - tON ...(5) toff = t2 - tOFF ...(6) t1: time which gives 10% transmittance of the panel. t2: time which gives 90% transmittance of the panel. The relationships between t1, t2, tON and tOFF are shown in the right figure. Input signal voltage (Waveform applied to the measured pixels) 4.5V 7.0V 0.5V 0V Optical transmittance output waveform 100% 90% 10% 0% tON t1 ton tOFF t2 toff - 14 - LCX028AMT 5. Flicker Flicker (F) is given by formula (7). DC and AC (SXGA: 30Hz, rms) components of the panel output signal for gray raster mode are measured by a DC voltmeter and a spectrum analyzer in System II. F [dB] = 20log { AC component } ...(7) DC component Each input signal voltage for gray raster mode is given by Vsig = 7.0 V50 [V] where: V50 is the signal amplitude which gives 50% of transmittance in V-T characteristics. 6. Image Retention Time Apply the monoscope signal to the LCD panel for 60 minutes and then change this signal to the gray scale of Vsig = 7.0 VAC (VAC: 3 to 4V). Judging by sight at the VAC that holds the maximum image retention, measure the time till the residual image becomes indistinct. Monoscope signal conditions: Vsig = 7.0 4.5 or 2.0 [V] (shown in the right figure) Vcom = 6.6V Black level 4.5V 2.0V 7.0V 2.0V 4.5V White level 0V Vsig waveform 7. Cross Talk Cross talk is determined by the luminance differences between adjacent areas represented by Wi' and Wi (i = 1 to 4) around a black window (Vsig = 4.5 V/1V). Cross talk value CTK = W2 W2' W3 W3' W1 W1' W4 W4' Wi' - Wi x 100 [%] Wi - 15 - LCX028AMT Viewing angle characteristics (without microlens) 90 CR = 5 10 20 50 100 180 150 250 200 10 30 50 70 0 Theta Phi 270 0 Z 90 Marking 180 Y 0 X 270 Measurement method - 16 - LCX028AMT Optical transmittance of LCD panel (Typical Value) 30 20 Trans. [%] 10 0 400 500 600 Wavelength [nm] Measurement method: Measurement system II 700 - 17 - 1. Dot Arrangement The dots are arranged in a stripe. The shaded area is used for the dark border around the display. Gate SW Gate SW Gate SW Gate SW Photo-Shielding Active area 4 dots 1280 dots (Effective 35.84mm) 8 dots 1296 dots LCX028AMT 8 dots 4 dots 1024 dots (Effective 28.672mm) 1032 dots - 18 - LCX028AMT 2. LCD Panel Operations [Description of basic operations] * A vertical driver, which consists of vertical shift registers, enable-gates and buffers, applies a selected pulse to every 1024 gate lines sequentially in a single horizontal scanning period. (SXGA mode) * A horizontal driver, which consists of horizontal shift registers, gates and CMOS sample-and-hold circuits, applies selected pulses to every 1280 signal electrodes sequentially in a single horizontal scanning period. These pulses are used to supply the sampled video signal to the row signal lines. * Vertical and horizontal shift registers address one pixel, and then Thin Film Transistors (TFTs; two TFTs) turn on to apply a video signal to the dot. The same procedures lead to the entire 1024 x 1280 dots to display a picture in a single vertical scanning period. * The data and video signals shall be input with the 1H-inverted system. [Description of operating mode] This LCD panel can change the active area by displaying a black frame to support various computer or video signals. The active area is switched by VB1, VB2 and BLK. However, the center of the screen is not changed. The active area setting modes are shown below. HB H L L 1 VB H H L BLK H 1 Screen aspect ratio 5:4 1280 x 1024 4:3 1280 x 960 16:9 1280 x 720 1 Input BLK pulse (refer to drive waveform and vertical blanking period of black frame mode). - 19 - LCX028AMT This LCD panel has the following functions to easily apply to various uses, as well as various broadcasting systems. * Right/left inverse mode * Up/down inverse mode These modes are controlled by two signals (RGT and DWN). The right/left and/or up/down setting modes are shown below. RGT H L Mode Right scan Left scan DWN H L Mode Down scan Up scan Right/left and/or up/down mean the direction when the Pin 1 marking is located at the right side with the pin block upside. To locate the active area in the center of the panel in each mode, polarity of the start pulse and clock phase for both the H and V systems must be varied. The phase relationship between the start pulse and the clock for each mode is shown below. (1) Vertical direction display cycle (1.1) SXGA VD VST VCK (DWN = H, L) 1 2 3 4 1021 1022 1023 1024 Vertical display cycle 1024H - 20 - LCX028AMT (2) Horizontal direction display cycle (2.1.1) SXGA (RGT = H) HD HST HCK1 HCK2 1 2 3 4 105 106 107 108 Horizontal display cycle (2.1.2) SXGA (RGT = L) HD HST HCK1 HCK2 1 2 3 4 105 106 107 108 Horizontal display cycle (3) Vertical blanking cycle of black frame mode (4:3 and 16:9 display mode) The input waveforms of PCG, PRG1 and PSIG should be changed as shown below when BLK pulse is input. Vertical blanking cycle BLK VCK ENB PCG PRG1 PSIG 1 PRG shows the period of PSIG black level, it is not input to the panel. - 21 - LCX028AMT 3. 12-dot Simultaneous Sampling The horizontal shift register samples signals VSIG1 to VSIG12 simultaneously. This requires phase matching between signals VSIG1 to VSIG12 to prevent the horizontal resolution from deteriorating. Thus, phase matching between each signal is required using an external signal delaying circuit before applying the video signal to the LCD panel. The block diagram of the delaying procedure using the sample-and-hold method is as follows. The following phase relationship diagram indicates the phase setting for right scan (RGT = High level). For left scan (RGT = Low level), the phase settings for signals VSIG1 to VSIG12 are exactly reversed. VSIG (odd) S/H CK1 S/H 3 VSIG1 S/H CK2 S/H 4 VSIG2 S/H CK3 S/H 5 VSIG3 S/H CK4 S/H 6 VSIG4 S/H CK5 S/H 7 VSIG5 8 VSIG6 VSIG (even) S/H CK1 S/H CK2 CK6 S/H 9 VSIG7 S/H 10 VSIG8 S/H CK3 S/H 11 VSIG9 S/H CK4 S/H CK5 S/H 12 VSIG10 S/H 13 VSIG11 14 VSIG12 S/H CK6 - 22 - LCX028AMT S/H LCX028AMT HCKn CK1 CK2 CK3 CK4 CK5 CK6 Display System Block Diagram An example of display system is shown below. CXA3197R D/A R-IN G-IN B-IN Digital Signal Driver D/A D/A S/H Driver CXA2112R S/H Driver CXA2112R LCX028 D/A S/H Driver CXA2112R LCX028 S/H Driver CXA2112R VSYNC CXD2467Q HSYNC D/A D/A S/H Driver CXA2112R LCX028 S/H Driver CXA2112R FRP * PRG HCK * VCK MCK OSC - 23 - LCX028AMT Notes on Handling (1) Static charge prevention Be sure to take the following protective measures. TFT-LCD panels are easily damaged by static charges. a) Use non-chargeable gloves, or simply use bare hands. b) Use an earth-band when handling. c) Do not touch any electrodes of a panel. d) Wear non-chargeable clothes and conductive shoes. e) Install conductive mats on the working floor and working table. f) Keep panels away from any charged materials. g) Use ionized air to discharge the panels. (2) Protection from dust and dirt a) Operate in a clean environment. b) When delivered, the panel surface (glass panel) is covered by a protective sheet. Peel off the protective sheet carefully so as not to damage the glass panel. c) Do not touch the glass panel surface. The surface is easily scratched. When cleaning, use a cleanroom wiper with isopropyl alcohol. Be careful not to leave a stain on the surface. d) Use ionized air to blow dust off the glass panel. (3) Other handling precautions a) Do not twist or bend the flexible PC board especially at the connecting region because the board is easily deformed. b) Do not drop the panel. c) Do not twist or bend the panel or panel frame. d) Keep the panel away from heat sources. e) Do not dampen the panel with water or other solvents. f) Avoid storing or using the panel at a high temperature or high humidity, which may result in panel damages. g) Minimum radius of bending curvature for a flexible substrate must be 1mm. h) Torque required to tighten screws on a panel must be 3kg * cm or less. i) Use appropriate filter to protect a panel. j) Do not pressure the portion other than mounting hole (cover). - 24 - LCX028AMT Package Outline Unit: mm 16.5 0.05 4 1 5.4 0.1 Thickness of the connector 0.3 0.05 2.3 0.1 (51.6) 107.6 1.4 Incident light Polarizing Axis 56.0 0.15 50.0 0.1 2.2 0.1 25.0 0.25 (28.7) 3.0 0.1 0.5 0.15 P 0.5 0.02 x 31 = 15.5 0.03 0.5 0.1 0.35 0.03 4.0 0.4 3.0 4-R 3-2.3 0.05 C0.8 2 3 5 7 6 Incident light 9 8 Active Area Output light Polarizing Axis 2.2 0.1 (35.8) 40.0 0.1 50.0 0.15 25.0 0.25 5.0 0.1 No 1 2 3 4 Description FPC Molding material Outside frame Reinforcing board PIN1 PIN32 5 Reinforcing material 6 7 electrode (enlarged) The rotation angle of the active area relative to H and V is 1. 8 9 Glass 1 Glass 2 Cover 1 Cover 2 weight 25g - 25 - |
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