PRODUCT SPECIFICATIONS AVC Liquid Crystal Displays Group LQ190E1LW01 TFT-LCD Module Spec. Issue Date: May 11, 2005 No: LD17443 These parts have corresponded with the RoHS directive. CUSTOMER :     1 2 3 4  REVISION HISTORY A Revision Date Prepared Checked Approved Summary A st 1 issue. 01A Apr. 9,2004 K. Y onemura T. Ito F.Yamada Change manufacture to SHARP. RoHS standard conformed product. Jan. 27,2005 F.Yamada 02A K. Y onemura E.Nitto T.Ito Change manufacture to SHARP. B B C C D D E 05 20040802 K.Yonemura T. Ito Revised P8,10 TITLE LQ190E1L W01 04 20040708 K.Yonemura T. Ito Revised P8 (FLC48SXC8V-11AA) DRAW. NO. CUST. 07 20050420 S.Fukutoku T. Ito Revised P3,19,23,26,31,33-36 LD17443   06 20050126 K.Yonemura E.Nitto T. Ito Add. of Rev.02A 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 1 / DESIG. APPR. CHECK 20040409 K.Yonemura T. Ito 38 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  TABLE OF CONTENTS 3 1㧚APPLICATIONS A A 㧚 2 PRODUCT NAME AND MODEL NUMBER 3 2-1.Product Name 3 2-2.Model Number 3 3㧚OVERVIEW 3 4㧚CONFIGURATION 3 㧚 5 MECHANICAL SPECIFICATIONS 4 6㧚ABSOLUTE MAXIMUM RATING 5 B B 7㧚RECOMMENDED OPERATING CONDITIONS 5 8㧚ELECTRICAL SPECIFICATIONS 6 㧚 9 OPTICAL SPECIFICATIONS 8 10㧚INTERFACE SPECIFICATIONS 12 10-1.Signal Descriptions 12 10-2.LVDS Data Assignment 13 10-3. Color Data Assignment 15 10-4. Input Signal Timing 16 C C 10-5. Correspondence between Data and Display Position 18 10-6.Power Supply Sequence 18 11㧚BACK-LIGHT SPECIFICATIONS 19 11-1.Pin configuration for Back-light 19 11-2.Life 19 11-3.Lamp assembly set 19 12㧚APPEARANCE SPECIFICATIONS 20 12-1.Appearance 20 12-2.Dot defects 21 D 13㧚ENVIRONMENTAL SPECIFICATIONS 22 D 14㧚INDICATIONS 23 15㧚PACKAGING 23 15-1.Packing Specifications 23 15-2.Packing Method 23 16㧚WARRANTY 29 㧚 17 PRECAUTIONS 29 18㧚PRECAUTIONS FOR USE 36 E 19㧚MISCELLANEOUS 36 TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 2 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  1. A 1. A 1. A 1. APPLICA PPLICA PPLICA PPLICATION TION TION TION This specification is applied to the 19-inch SXGA supported TFT-LCD module. A A 2 2䋮䋮 PRODUCT NAM PRODUCT NAME E AND M AND MODEL ODEL NU NUMBER MBER 2 2䋮䋮 PRODUCT NAM PRODUCT NAME E AND M AND MODEL ODEL NU NUMBER MBER 2–1 Product Name : LCD M LCD Mo od du ul le e LCD M LCD Mo od du ul le e 2–2 Model Name : LQ190E1LW01 (FLC48SXC8V-11AA) B B 3. OVE 3. OVE 3. OVE 3. OVER R R RVIEW VIEW VIEW VIEW This LCD module has a TFT active matrix type liquid crystal panel 1280x1024 pixels, and diagonal size of 48cm(19-inch). This LCD has a LVDS dual interface and can display 16,777,216 colors. The power supply of this LCD module is +5V DC 䌶䌯䌬䌴䌡䌧䌥. C C 4. C 4. C 4. C 4. CO O O ONFIG NFIG NFIG NFIGURA URA URA URATION TION TION TION This LCD module consists of a color TFT-LCD panel that is mounted with TFT driver ICs 䌡䌮䌤 a cold-cathode fluorescent tube back-light. D The inverter for the back-light is not included. D Figure 4-1 shows a block diagram of this LCD module. E    TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 The model name was changed. 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 3 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Input signals (LVDS Dual) RXE0+ RXO0+ A RSDS I/F A RXE0- RXO0- RXE1+ RXO1+ Data driver RXE1- RXO1- Internal LVDS RXE2+ RXO2+ Circuit Receiver RXE2- RXO2- RXE3+ RXO3+ Gate RXE3- RXO3- DC/DC converter TFT color LCD panel Driver RXEC+ RXOC+ 1280x3(RGB)x1024 RXEC- RXOC- Bias voltage PD Supply circuit SEL LVDS B B Vcc Back-light (+5V) (4 CCFL) (Separate) Power supply Inverter circuit C C Figure 4-1 Block Diagram 5. ME 5. MECHAN CHANICAL ICAL SPE SPEC CIFICA IFICATION TIONS S 5. ME 5. MECHAN CHANICAL ICAL SPE SPEC CIFICA IFICATION TIONS S Table 5-1 shows the mechanical specifications of this LCD module. Table 5-1 Mechanical Specifications Item Specifications Unit Remark D Dimensions 404.2x330x20(TYP.) mm D Edge type back-light is used. (CCFLx4) Display (1280x3)x1024 — Resolution Without inverter. 376.32x301.056 Display Dot Area mm For details on dimensions, see dimensional outline drawing. (0.098x3)x0.294 Dot Pitch mm (Figure 20-1,2) 䌐䌩䌸䌥䌬 Aspect Ratio 1:1 — Excluding inverter. 䌧 Weight 2,800 MAX. E FG-SG Short circuit — TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 4 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  6 6 6 6.... A A A AB B B BSO SO SO SOL L L LU U U UT T T TE E E E MAXI MAXI MAXI MAXIMU MU MU MUM R M R M R M RA A A AT T T TI I I IN N N NG G G G Table 6-1 shows the absolute maximum rating of this LCD module. A A Table 6-1 Absolute Maximum Rating Item SymbolConditionMIN. TYP. MAX. Unit Supply Voltage VCC Ta=25ºC –0.3 — 6.0 V Input Signal Voltage (LVDS signal, VIN Ta=25ºC –0.3 — 3.6 V PD,SEL LVDS ) B B 7. RECO 7. RECO 7. RECO 7. RECOMM MM MM MMEN EN EN ENDED DED DED DED OPER OPER OPER OPERA A A AT T T TIN IN IN ING CON G CON G CON G CONDITION DITION DITION DITIONS S S S Table 7-1 shows the recommended operating conditions of this LCD module. Table 7-1 Recommended Operating Conditions Item Symbol MIN. TYP. MAX. Unit C C Supply Voltage(Logic) VCC 4.75 — 5.25 V Ripple Voltage V V — — 0.1 V CC RP D D E TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 5 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  8. ELECTRIC 8. ELECTRIC 8. ELECTRIC 8. ELECTRICAL AL AL AL SPECIFIC SPECIFIC SPECIFIC SPECIFICA A A AT T T TION ION ION IONS S S S Table 8-1 shows the electrical specifications of this LCD module. Figure 8-1 shows the A A measurement circuit. Figure 8-2(A) shows the equivalent circuit of the logic signal input area. Figure 8-2(B) shows the equivalent circuit of the supply voltage Input area. Table 8-1 Electrical Specifications Remark Item Symbol Condition MIN.TYP. MAX. Unit Differential-input VIH — — 100 mV Voltage (Hign) VCM=+1.2V Differential-input VIL –100 — — mV Voltage (Low) B B Input Voltage (High) VIH 2.0 — 3.3 V PD SEL LVDS Input Voltage (Low) VIL 0 — 0.8 V VCC=+5.0±0.25V V =0V SS Supply Current ICC — 900 1500 mA *1 DCLK=54MHz Ta=25º C Supply Rush Current ISCC — — 3.5 A *2 Supply Rush Current TSCC — — 1.0 ms C Duration(1.5A excess) C 䕒䕑䕓䕛 fL=50kHz,Ta=25ºC — 1400 1600 CCFL Turn on VS Vrms Voltage fL=50kHz,Ta=0ºC — 1500 1600 䕜䕙䕗䕘䕤 fL=50kHz Lighting Voltage VL — 750 — Vrms I =7mA L Lighting Frequency fL VL=750Vrms 40 50 60 kHz (*3) D fL=50kHz mArms Tube Current IL 4 7 8 *4 V =750Vrms L D (*1) Typical current situation : Color bar pattern. Vcc=5.0V Maximum current situation : White pattern. Vcc=4.75V Without rush current. (*2) These items prescribe the rush current for starting internal DC/DC. Charging current to capacitors of Vcc is not prescribed. (*3) Back-light specifications are valid when using a suitable inverter such as the LQ0DDJ5006 (FLCV-13) (*4) Tube current (I ) shows the value of the current that is consumed at one lamp. L E This LCD module has 4 lamps. Each 2 lamps are placed at upper side and lower side of the display. 2 lamps is connected in parallel. Each low voltage terminals are connected with separate cable to Back-light connecter. TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 6 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Measurement circuit is based on Figure 8-1. +5V Icc A A Logic Analog Driver Vcc GND DC/DC Converter CL AC Back-light Vs B B GND 䌉L LCD module Figure 8-1 Measurement circuit Input signals (LVDS Dual) RXO0+ RXE0+ RXO0- RXE0- RXO1+ RXE1+ T-CON RXO1- RXE1- Differential 100ǡ RXO2+ RXE2+ Input 㧗 RXO2- RXE2- RXO3+ RXE3+ C C 㧙 RXO3- RXE3- Internal RXOC+ RXEC+ +3.3V circuit RXOC- RXEC- 10kǡ(Pull-up) PD SEL LVDS 50k㱅 (Pull-down) 0V D Figure 8-2(A) Equivalent circuit of logic signal Input D FB Fuse Internal Vcc Circuit FB Ǵ GND 10 F 100pF FG䋨Frame ground䋩 E Figure 8-2(B) Equivalent circuit of power supply TITLE LQ190E1LW01 (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 7 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  9. OPTICAL 9. OPTICAL 9. OPTICAL 9. OPTICAL SPECIFIC SPECIFIC SPECIFIC SPECIFICA A A AT T T TION ION ION IONS S S S Table 9-1 shows the optical specifications of this LCD module. A A Table 9-1 Optical Specifications Ta=25˚C䋬Signal timing=Typ. Specifications Remark Item Symbol Condition Unit MIN. TYP. MAX. Note Horizontal lj lj =0° 85 — — deg 䌌䋬䌒 䌕䋬䌄 (1)(2) Visual CRĢ10 Vertical lj lj =0° (3)(5) 85 — — deg 䌕䋬䌄 䌌䋬䌒 Angle (6) All Direction lj — 80 — deg White/ (1)(2) lj =0° Contrast Ratio CR 400 700 — — 䌌䋬䌒䋬䌕䋬䌄 B B Black (3)(5) Response lj Ǖrise 䌌䋬䌒䋬 Ta=25˚C — 16 — ms (1) 5 Time(Rise+Fall) + 䌕䋬䌄 (4) Ǖfall Ta=0˚C — 34 — ms (BńW㸢B) =0° (5) Average 㱔 Response 䌌䋬䌒䋬 of Time (Rise or Fall) Ta=25ºC — 10 — ms Ǖ avg 䌕䋬䌄 Response (All gray scale) Time, *2 =0㫦 2 䌉 Brightness lj =0° 210 300 — cd/m (1)(5) 䌌䋬䌒䋬䌕䋬䌄 䌖 =5V 䌃䌃 (1)(5) Brightness Uniformity 䂦䌉 70 — — 䋦 䌉 =7mA White 䌌 (7) *1 fL=50kHz 0.283 0.313 0.343 C 䌸 — C R*,G*,B* Signal W =All “H” 0.299 0.329 0.359 䌹 — (1) Chromaticity Red ( 0.640 , 0.349 ) Typ. (5) R G 䋨䌸䋬䌹䋩 Green ( 0.283 , 0.598 ) Typ. B Blue ( 0.142 , 0.071 ) Typ. LCD Panel Type TFT Color Display Mode Normaly Black Wide Viewing Angle Technology MVA D Optimum Viewing Angle — (symmentry) (6) D Display Color 16,777,216 (8-bit color) Color of non-display area Black Surface Treatment Anti-glare(Haze value:䋨25%䋩䋬2H) (*1) Value at 15䌾20 minutes after lighting on. (*2) In case of applying FLCB-12, (First Response Time Driving Circuit) (Note) 䊶CS-1000 (MINOLTA Co., Ltd.) Field=1°, L=500mm 䊶 Back-light current = 7mA, Dark room condition(1 lux or less) E Be carefull that the luminance meter, which you use, may not be able to get correct brightenss if it’s no set correctly. LQ190E1LW01 TITLE 05 20040802 Revise of Response time. (FLC48SXC8V-11AA) DRAW. NO. CUST. 04 20040708 Revise of Response time. LD17443 03 20040625 Addition of Response time. 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 8 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Note 1) Definition of Viewing Angle (1) Based on Figure 9-1. *0㫦(Front) A A 㱔 䌒 㱔 䌌 㱔 㱔 X+ U 䌄 Y+ Right (3 o’clock Direction) Top (12 o’clock Direction) LCD module B B Y- Bottom (6 o’clock Direction) X- Left (9 o’clock Direction) 䋪ń lj 䋽䋰°䋬lj 䋽䋰°䋬lj䋽䋰°䋬lj䋽䋰° U D L R Figure 9-1 Definition of Viewing Angle (1) Note 2) Definition of Viewing Angle (2) C C Based on Figure 9-2. Display Surface 㱔 MAX 㱔 TYP 㱔 MIN 㱔 L,R,U,D Display Surface =0㫦 D Figure 9-2 Definition of Viewing Angle (2) D White Note 3) Definition of Contrast Ratio (CR) L W Determined by Formula (1) based on Figure 9-3 Voltage-Brightness Brightness characteristics. 䌛L䌝 Black 䌌W (Brightness at white) = ……(1) L 䌌 (Brightness at black) B 䌂 E 0 0 Panel Drive Voltage 䌛䌖䌝 Figure 9-3 Voltage-Brightness Characteristics LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 9 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Note 4) Definition of Response Time Based on Figure 9-4. 5 1 frame A A White 100% 90% 90% Relative 10% Brightnes Black 10% Black 0% 3 3 Ǖrise Ǖfall 0% B B ON Response Time OFF Response Time Figure 9-4 Definition of Response Time Note 5) Contrast Ratio and Response Measurement System Based on Figure 9-5. + Y C C + X + - Z Z Brightness Meter or Luminance colorimeter 㱔 (with luminosity correction function) D - X D - Y Drive and Measurement System Figure 9-5 Contrast Ratio and Response Time Measurement System E LQ190E1LW01 TITLE 05 20040802 Addition of response time definition. (FLC48SXC8V-11AA) DRAW. NO. CUST. 03 20040625 Change response time definition. LD17443 02 20040602 Change response time definition. 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 10 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Note 6) Definition of Optimum Viewing Angle A A MAX Contrast Ratio 10 B B 䋨-䋩 䋨+䋩 0 Viewing Angle㱔 6 o’clock㸠 㸢12 o’clock Figure 9-6 Definition of Viewing Angle Note 7) Definition of Brightness Uniformity Brightness uniformity is defined by the following formula. 1 9 Brightness (I1䌾I9) art measured at the following 9 points (䂾-䂾) on the display area C C that is shown in Figure 9-7. 䌼Min. In䌼 Brightness Uniformity (䂦L) 䋽 × 100 (%) , n = 1 to 9 䌼Max. In䌼 192 640 1088 Dot D 㽲 㽵 㽸 154 D 㽳 㽶 㽹 512 870 㽴 㽷 㽺 1 9 Note) Each measurement point (䂾-䂾) defines the center spot of view of Brightness Meter. The tolerance of measurement position is±3mm. E Figure 9-7 Measurement Points LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 11 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  1 10. INTERF 1 10 0 0... INTERF INTERF INTERFACE ACE ACE ACE SPE SPE SPE SPECIFIC C C CI I IFICA FICA FICA ATIONS TIONS TIONS TIONS 10-1 Signal descriptions A Table 10-1 shows the description and configuration of interface signals (CN1). A Table 10-1 Interface signals (CN1) Pin No. Symbol I/O Function 1 RxO0- I Negative differential input I 2 RxO0+ Positive differential input I RxO1- 3 Negative differential input I 4 RxO1+ Positive differential input I RxO2- 5 Negative differential input B B I 6 RxO2+ Positive differential input 7 GND 㵪 Ground I RxOC- 8 Negative differential input I 9 RxOC+ Positive differential input I 10 RxO3- Negative differential input I 11 RxO3+ Positive differential input I RxE0- 12 Negative differential input I 13 RxE0+ Positive differential input 㵪 14 GND Ground I RxE1- C 15 Negative differential input C I 16 RxE1+ Positive differential input 㵪 17 GND Ground I RxE2- 18 Negative differential input I 19 RxE2+ Positive differential input I RxEC- 20 Negative differential input I 21 RxEC+ Positive differential input I 22 RxE3- Negative differential input RxE3+ I 23 Positive differential input D 㵪 24 GND Ground D 25 SEL LVDS I Select LVDS Mapping 㵪 26 PD LVDS Core Power Down 㵪 27 TST Test pin *1 28 Vcc 㵪 +5V power supply 㵪 29 Vcc +5V power supply 㵪 30 Vcc +5V power supply Connector : FI-X30SSL-HF (Japan Aviation Electronics) User’s connector : FI-X30M (FPC type) FI-X30H (Wire type) , FI-X30HL (Wire with lock) E FI-X30C (Coaxial cable type) , FI-X30C2L (Coaxial cable with lock) *1: Keep open. (Internal test use only.) *2: When using a connector other than the recommended one , a defect in the initial stage or a problem concerning long term reliability may occur. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 12 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  10-2 LVDS Data Assignment Table 10-2A,10-2B show the LVDS Data Assignment. Table 10-2A LVDS Data Assignment(SE (SEL L L LV VDS DS=L =L) ) (SE (SEL L L LV VDS DS=L =L) ) A A Receiver Transmitter Interface connector LCD DS90CF386 DS90CF383,C385 THC63LVDF84 Input signal *1 Control LCD module input pin INPUT System side pin OUTPUT pin RO2 51 TxIN0 27 RxOUT0 RO2 RO3 52 TxIN1 29 RxOUT1 RO3 Tx OUT0+ RxO0+ 2 RO4 54 TxIN2 30 RxOUT2 RO4 RO5 55 TxIN3 32 RxOUT3 RO5 RO6 56 TxIN4 33 RxOUT4 RO6 Tx OUT0- 1 RxO0- RO7 3 TxIN6 35 RxOUT6 RO7 GO2 4 TxIN7 37 RxOUT7 GO2 GO3 6 TxIN8 38 RxOUT8 GO3 B B GO4 7 TxIN9 39 RxOUT9 GO4 Tx OUT1+ 4 RxO1+ GO5 11 TxIN12 43 RxOUT12 GO5 GO6 12 TxIN13 45 RxOUT13 GO6 GO7 14 TxIN14 46 RxOUT14 GO7 Tx OUT1- 3 RxO1- BO2 15 TxIN15 47 RxOUT15 BO2 BO3 19 TxIN18 51 RxOUT18 BO3 LVDS BO4 20 TxIN19 53 RxOUT19 BO4 BO5 22 TxIN20 54 RxOUT20 BO5 Tx OUT2+ RxO2+ Odd 6 BO6 23 TxIN21 55 RxOUT21 BO6 BO7 24 TxIN22 1 RxOUT22 BO7 RSVD 27 TxIN24 3 RxOUT24 Not use Tx OUT2- 5 RxO2- RSVD 28 TxIN25 5 RxOUT25 Not use ENAB 30 TxIN26 6 RxOUT26 ENAB RO0 50 TxIN27 7 RxOUT27 RO0 RO1 2 TxIN5 34 RxOUT5 RO1 Tx OUT3+ 11 RxO3+ GO0 8 TxIN10 41 RxOUT10 GO0 C GO1 10 TxIN11 42 RxOUT11 GO1 C BO0 16 TxIN16 49 RxOUT16 BO0 Tx OUT3- 10 RxO3- BO1 18 TxIN17 50 RxOUT17 BO1 RSVD 25 TxIN23 2 RxOUT23 Not use TxCLK OUT+ RxCLK IN+ 9 DCLK 31 TxCLK IN 26 RxCLK OUT DCLK TxCLK OUT- 8 RxCLK IN- RE2 51 TxIN0 27 RxOUT0 RE2 RE3 52 TxIN1 29 RxOUT1 RE3 Tx OUT0+ RxE0+ 13 RE4 54 TxIN2 30 RxOUT2 RE4 RE5 55 TxIN3 32 RxOUT3 RE5 RE6 56 TxIN4 33 RxOUT4 RE6 Tx OUT0- 12 RxE0- RE7 3 TxIN6 35 RxOUT6 RE7 GE2 4 TxIN7 37 RxOUT7 GE2 GE3 6 TxIN8 38 RxOUT8 GE3 D GE4 7 TxIN9 39 RxOUT9 GE4 Tx OUT1+ 16 RxE1+ GE5 11 TxIN12 43 RxOUT12 GE5 GE6 12 TxIN13 45 RxOUT13 GE6 D GE7 14 TxIN14 46 RxOUT14 GE7 Tx OUT1- 15 RxE1- BE2 15 TxIN15 47 RxOUT15 BE2 BE3 19 TxIN18 51 RxOUT18 BE3 LVDS BE4 20 TxIN19 53 RxOUT19 BE4 BE5 22 TxIN20 54 RxOUT20 BE5 Even Tx OUT2+ 19 RxE2+ BE6 23 TxIN21 55 RxOUT21 BE6 BE7 24 TxIN22 1 RxOUT22 BE7 RSVD 27 TxIN24 3 RxOUT24 Not use Tx OUT2- 18 RxE2- RSVD 28 TxIN25 5 RxOUT25 Not use RSVD 30 TxIN26 6 RxOUT26 Not use RE0 50 TxIN27 7 RxOUT27 RE0 RE1 2 TxIN5 34 RxOUT5 RE1 Tx OUT3+ RxE3+ 23 GE0 8 TxIN10 41 RxOUT10 GE0 GE1 10 TxIN11 42 RxOUT11 GE1 E BE0 16 TxIN16 49 RxOUT16 BE0 Tx OUT3- 22 RxE3- BE1 18 TxIN17 50 RxOUT17 BE1 RSVD 25 TxIN23 2 RxOUT23 Not use TxCLK OUT+ RxCLK IN+ 21 DCLK 31 TxCLK IN 26 RxCLK OUT Not use TxCLK OUT- RxCLK IN- 20 *1 䊶RSVD (reserved) pin on a transmitter should be connected with Ground. 䊶Input odd or even data depending on the display position of the LCD module. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 13 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Table 10-2B LVDS Data Assignment(SE (SE (SE (SEL L L L L L L LV V V VDS DS DS DS=H) =H) =H) =H) Receiver Transmitter A Interface connector DS90CF386 LCD A DS90CF383,C385 THC63LVDF84 Input signal *1 Control LCD module input pin INPUT System side pin OUTPUT pin RO0 51 TxIN0 27 RxOUT0 RO0 RO1 52 TxIN1 29 RxOUT1 RO1 Tx OUT0+ RxO0+ 2 RO2 54 TxIN2 30 RxOUT2 RO2 RO3 55 TxIN3 32 RxOUT3 RO3 RO4 56 TxIN4 33 RxOUT4 RO4 Tx OUT0- 1 RxO0- RO5 3 TxIN6 35 RxOUT6 RO5 GO0 4 TxIN7 37 RxOUT7 GO0 GO1 6 TxIN8 38 RxOUT8 GO1 GO2 7 TxIN9 39 RxOUT9 GO2 Tx OUT1+ 4 RxO1+ GO3 11 TxIN12 43 RxOUT12 GO3 B B GO4 12 TxIN13 45 RxOUT13 GO4 GO5 14 TxIN14 46 RxOUT14 GO5 Tx OUT1- 3 RxO1- BO0 15 TxIN15 47 RxOUT15 BO0 BO1 19 TxIN18 51 RxOUT18 BO1 LVDS BO2 20 TxIN19 53 RxOUT19 BO2 BO3 22 TxIN20 54 RxOUT20 BO3 Tx OUT2+ Odd 6 RxO2+ BO4 23 TxIN21 55 RxOUT21 BO4 BO5 24 TxIN22 1 RxOUT22 BO5 RSVD 27 TxIN24 3 RxOUT24 Not use Tx OUT2- 5 RxO2- RSVD 28 TxIN25 5 RxOUT25 Not use ENAB 30 TxIN26 6 RxOUT26 ENAB RO6 50 TxIN27 7 RxOUT27 RO6 RO7 2 TxIN5 34 RxOUT5 RO7 Tx OUT3+ 11 RxO3+ GO6 8 TxIN10 41 RxOUT10 GO6 GO7 10 TxIN11 42 RxOUT11 GO7 BO6 16 TxIN16 49 RxOUT16 BO6 Tx OUT3- 10 RxO3- C C BO7 18 TxIN17 50 RxOUT17 BO7 RSVD 25 TxIN23 2 RxOUT23 Not use TxCLK OUT+ RxCLK IN+ 9 DCLK 31 TxCLK IN 26 RxCLK OUT DCLK TxCLK OUT- 8 RxCLK IN- RE0 51 TxIN0 27 RxOUT0 RE0 RE1 52 TxIN1 29 RxOUT1 RE1 Tx OUT0+ 13 RxE0+ RE2 54 TxIN2 30 RxOUT2 RE2 RE3 55 TxIN3 32 RxOUT3 RE3 RE4 56 TxIN4 33 RxOUT4 RE4 Tx OUT0- 12 RxE0- RE5 3 TxIN6 35 RxOUT6 RE5 GE0 4 TxIN7 37 RxOUT7 GE0 GE1 6 TxIN8 38 RxOUT8 GE1 GE2 7 TxIN9 39 RxOUT9 GE2 Tx OUT1+ 16 RxE1+ GE3 11 TxIN12 43 RxOUT12 GE3 D GE4 12 TxIN13 45 RxOUT13 GE4 GE5 14 TxIN14 46 RxOUT14 GE5 Tx OUT1- 15 RxE1- BE0 15 TxIN15 47 RxOUT15 BE0 D BE1 19 TxIN18 51 RxOUT18 BE1 LVDS BE2 20 TxIN19 53 RxOUT19 BE2 BE3 22 TxIN20 54 RxOUT20 BE3 Even Tx OUT2+ RxE2+ 19 BE4 23 TxIN21 55 RxOUT21 BE4 BE5 24 TxIN22 1 RxOUT22 BE5 RSVD 27 TxIN24 3 RxOUT24 Not use Tx OUT2- RxE2- 18 RSVD 28 TxIN25 5 RxOUT25 Not use RSVD 30 TxIN26 6 RxOUT26 Not use RE6 50 TxIN27 7 RxOUT27 RE6 RE7 2 TxIN5 34 RxOUT5 RE7 Tx OUT3+ 23 RxE3+ GE6 8 TxIN10 41 RxOUT10 GE6 GE7 10 TxIN11 42 RxOUT11 GE7 BE6 16 TxIN16 49 RxOUT16 BE6 Tx OUT3- 22 RxE3- BE7 18 TxIN17 50 RxOUT17 BE7 E RSVD 25 TxIN23 2 RxOUT23 Not use TxCLK OUT+ RxCLK IN+ 21 DCLK 31 TxCLK IN 26 RxCLK OUT Not use TxCLK OUT- 20 RxCLK IN- *1 䊶RSVD (reserved) pin on a transmitter should be connected with Ground. 䊶Input odd or even data depending on the display position of the LCD module. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 14 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  10-3 Color Data Assignment Table 10-3 shows the Color Data Assignment. A A Table 10-3 Color Data Assignment R Input data Color G Input data B Input data R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0 Odd G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0 Even R7 R6 R5 R4 R3 R2 R1 R0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Black Blue 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 Green Cyan 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 B B 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Red Magenta 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 Yellow 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 White 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Black 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 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 � : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : � : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : Brighter 253 1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 � 254 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C C Red 255 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Black 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 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 � : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : � : : :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : Brighter 253 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 � 254 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 Green 255 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 Black 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 D � 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 D � :: :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : :: : : : : : : : : : : : : : :::: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : � :: :: : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : Brighter 253 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 1 � 254 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 Blue 255 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 Note.1) Definition of gray scale:Color (n)…”n” indicates gray scale level. Larger number means brighter level. Note.2) Data; 1:High, 0:Low E Note 3) Color data consist of 8 bit red, green and blue data of odd and even number pixel data. Total data number is 48 signals. This module is able to display 16,777,216 colors because each red, green and blue data is controlled independently. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 15 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 䌂䌬䌵䌥 䌇䌲䌥䌥䌮 䌒䌥䌤 䌂䌡䌳䌩䌣 䌃䌯䌬䌯䌲 1 2 3 4  10-4 Input Signal Timing Table 10-4 and Figure 10-1 shows the Input Signal Timing at LVDS transmitter. Table 10-4 Timing Characteristics (Ta=0~50˚C, Vcc=5±0.25V) A A Item SymbolMin. Typ. Max. Unit Remark Period Tc 14.3 18.5 25.0 ns DCLK Frequency 1/Tc 40 54 70 MHz signal Duty Tch/Tc 45 50 55 % (Clock) High time TclkH 5.0 — — ns Low time TclkL 5.0 — — ns DCLK-Data Setup time Tset 3 — — ns LVDS Tr Timing Hold time Thold 5 — — ns spec. *1 5350/Tc+435 Hor. Period (1) Th 844 887 DCLK Tc=ns 648 B B Hor. Period (2) Th — 1023 DCLK *4 640 Hor. Display period Thd 640 640 DCLK *2 ENAB *1 *1 Vertical Period Tv 1028 1066 1088 Th 16.67ms signal Ver. Frequency 1/Tv 50 60 76.2 Hz Ver. Display period Tvd 1024 1024 1024 Th *2 Data-ENAB timing Tdn — 0 — DCLK *3 *1)horizontal display position is specified by the rise of ENAB. The data latched at falling edge of DCLK after rise of ENAB is displayed at the left edge of the display area. Vertical display position is specified by the rise of ENAB after low level continuation over C C 2048 DCLK. The data latched at the rise of ENAB is displayed at the top line of the display area. *2)If the “High” level period of ENAB is less than 640 DCLK or the number of ENAB in a frame period (Tv) is less than 1024, black color is displayed at the rest of the display area. *3)If ENAB does not synchronize with the effective display data, the display position does not fit to the display area. *4)Hor. Period (2) shows the operating range where internal circuit can work correctly. 䊶When ENAB signal is out of Hor. Period (1), the display quality may deteriorate. D D E LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S S S SH H H HARP ARP ARP ARP CO CO CO COR R R RP P P PO O O OR R R RA A A AT T T TIO IO IO ION N N N 16 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Tc Tclk TclkL A A 2.3V 1.65 DCLK 0.9V Tch Tc1 Tset Thold ENAB 2.3V RO7-0, RE7-0 0.9V GO7-0, GE7-0 BO7-0, BE7-0 B B RO7-0, RE7-0 GO7-0, GE7-0 Th BO7-0, BE7-0 ENAB Thd RO7-0, RE7-0 C001 C1024 GO7-0, GE7-0 BO7-0, BE7-0 C C ENAB Tvd Tv Tc DCLK D 0001 0005 0009 1269 1273 1277 0003 0007 0011 1267 1271 1275 1279 RO7-0, RE7-0 D GO7-0, GE7-0 BO7-0, BE7-0 0002 0006 0010 1270 1274 1278 0004 0008 0012 1268 1272 1276 1280 ENAB Tdn Tdn Figure 10-1 Input Signal Timing Chart E LQ190E1LW01 TITLE (FLC48SXC8 V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 17 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 㩷 㩷 1 2 3 4  10-5 Correspondence between Data and Display Position Figure 10-2 shows the Correspondence between Data and Display Position. A A S3839 S3840 S0001 S0002 S0003 S0004 S0005 S0006 S0007 RO GO BO RE GE BE RO GO GE BE 0001 0001 0001 0002 0002 0002 0003 0003 1280 1280 C001 B B RO GO BO RE GE BE RO GO GE BE 0001 0001 0001 0002 0002 0002 0003 0003 1280 1280 C1024 Figure 10-2 Correspondence Data and Display Position C C 10-5 Power Supply Sequence The sequence of input signals and On/Off of the power supply of this LCD module should be in the specification shown in Figure 10-3 to prevent latch-up of the driver ICs and DC driving of the LCD panel. T4㻡20ms(Voltage descent) 亖亖 4.75V Vcc ON 4.75V 0.5V 4.75V 0.5V (4.5V) D OFF T6㻡20ms (0V) 0ms㻡T3 T1㻡20ms D 2.0V PD 0.5s㻡T7 亖亖 H LVDS 90% Tri-state 10% Differential Tri-state L Input DCLK should be in a range of  the spec.(Frequency etc.䋩of 0ms㻡T5㻡40ms T2 the LCD. 0ms㻡T2㻡40ms Inputs should be in a range of the spec. of the LVDS. E *Note : PD input can be set open, if it is not used.  Figure 10-3 Power Supply Sequence LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 18 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  1 1 1 11 1 1 1. BA . BA . BA . BACK CK CK CK- - - -LIGH LIGH LIGH LIGHT SP T SP T SP T SPECIFICA ECIFICA ECIFICA ECIFICATIONS TIONS TIONS TIONS 11-1 Pin configuration for Back-light A A Table 11-1 shows the description and Pin assignment of the connectors (CN-A to D) for the Back-light of this LCD module. Table 11-1 Pin Assignment of CN-A to CN-D Pin Signal Function Cable color 㷗 CN-A CN-B CN-C CN-D 䌖 䌖 䌖 䌖 Power supply 1 1 2 3 4 Pink ,Orange 䌌 䌌 䌌 䌌 2 — — — — — — 3 GND GND GND GND Ground Blue, Gray B B Connector : Housing : BHR-03VS-1 Contact : SBH-001T-P0.5 User’s Connector : Post with base: SM02(8.0)B-BHS-1-TB Supplier : Japan Solderless Terminal Trading Company LTD. (J.S.T.) 11-2 Life The life of the back-light is a minimum of 50,000 hours at the following conditions. (1) Working conditions 㽲Ambient temperature䋺 25㫧5㷄 C C 㽳Tube current (I ) 䋺 7mA or less L (2) Definition of life 㽲Brightness becomes 50% or less than the minimum brightness value shown in Table 9-1. 㽳The lamp cannot be lit by the minimum value of the breakdown voltage(1760Vrms) shown in Table 8-1. 㽴Flashing. 11-4 Lamp assembly set (for replacement) D Lamp assembly set(with charge)is prepared for replacing old lamp to new one. This set consists of a upper lamp assembly and a lower lamp assembly. D Type number : LQ0DDB5467䋨FLCL-䋳䋳䋩 Minimum order qty. unit : 20 pcs. E LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Lamp Assy No. was changed. 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 19 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  12. APPEA 12. APPEA 12. APPEA 12. APPEARAN RAN RAN RANCE CE CE CE SPECIFIC SPECIFIC SPECIFIC SPECIFICA A A AT T T TION ION ION IONS S S S 12-1 Appearance A A No. Item Judgment method and standard 1 Bright spot (high and Low) <4 dots (Note 1 ) 2 Bright spot connection <2 pair (Note 1) (high and low) (2 dot connection in horizontal only) 3 Total of bright spot <4 dots 4 Dark spot <8 dots (Note 2) 5 Dark spot connection <3 pairs (Note 2) 6 Total of dark spot <8 dots (Note 2) B B 7 Total of dot defect < 8 dots (bright and dark) 8 hig Distance of h-hgh>15mm bright spot others > 5mm 9 Distance of dark spot > 5mm 10 Scratch on polarizer, ̆̆̆̆ W<0.03 Ignore line shape L≤6 Ignore 0.0350͠): Display colors shift to blue. 㨯Storage under high temperature(>60͠): The polarizer film deteriorates and contrast decreases. 㨯 ͠ Operation under low temperature(< 0 ): The response speed decreases considerably. 㨯Storage under low temperature(<-20͠): The liquid crystal may solidify and become damaged. B B 㽵㽵㽵㽵B B B Be e e e sur s s su u ur r re e e e to i to to to i i in n n np p put the cont pu u ut the cont t the cont t the control sign rol sign rol rol sign signals at the correct als at the correct al als at the correct s at the correct ti timing. timing. timing. ming. If control signals (DCLK, ENAB) are not input, or if the timing is out of the specified timing, DC voltage may be applied to the liquid crystal and, as a result, cause image sticking or deterioration of contrast. ( (5 ( (5 5 5) Preca ) Preca ) ) Preca Precaut ut utio utio io ions i ns i ns i ns in reg n reg n n reg regard ard ard ards of s of s s of of desig desig design design n ning ing ing mo ing m m mo o odu du du dule m le m le mo le mo o ount unt unti unti i ing ng n ng g 㽲㽲Exces Excessive force sho sive force shoul uld d n not be ap ot be app plie lied d to the scree to the screen or the rear sid n or the rear side of the LCD e of the LCD mo mod du ul le. e. 㽲㽲Exces Excessive force sho sive force shoul uld d n not be ap ot be app plie lied d to the scree to the screen or the rear sid n or the rear side of the LCD e of the LCD mo mod du ul le. e. Excessive pressure on the screen caused by the installation of the LCD module may deteriorate display quality and reliability. C C Brightness uniformity and the reliability of CCFL may decrease if the pressure is applied to the backlight module. 㽳㽳A Av voi oid d twi twist sti in ng an g and d ben bend di ing the L ng the LC CD mo D mod du ul le e.. 㽳㽳A Av voi oid d twi twist sti in ng an g and d ben bend di ing the L ng the LC CD mo D mod du ul le e.. Excessive twist and bend may damage display quality and reliability. 㽴㽴㽴㽴A A A Av v v void oid oid oid exten exten exten extend d d ding the p ing the p ing the p ing the pow ow ow ower cable between the er cable between the er cable betw er cable between the een the LC LC LC LCD D D D mod mod mod module a ule a ule a ule an n n nd d d d i i i in n n nverter verter verter verter. ... This may cause the backlight to flicker or not to light. 㽵㽵㽵㽵Keep Keep Keep Keep the backl the backl the backl the backlight cab ight cab ight cab ight cable ap le ap le ap le apart from the metal en art from the metal en art from the metal en art from the metal enc c c cl l l losur osur osur osure of the LC e of the LC e of the LC e of the LCD mod D mod D mod D modul ul ul ule. e. e. e. When frequency current for backlight driving leak to the metal enclosure, the desired D brightness may not be assured. D 㽶㽶When m When moun ount tin ing L g LC CD mo D mod du ule wi le with th M M3 3 s screws crews (x4) (x4),, ti tigh ghten ten th the s e sc cr re ews ws wi with th torqu torque e 3.5kgf. 3.5kgf. 㽶㽶 When When m moun ount tin ing L g LC CD mo D mod du ule wi le with th M M3 3 s screws crews (x4) (x4),, ti tigh ghten ten th the s e sc cr re ews ws wi with th torqu torque e 3.5kgf. 3.5kgf. ( (6 ( (6 6 6) ) ) ) Storage metho Storage metho Storage metho Storage method d d d 㽲㽲㽲㽲D D D Do not store the LCD o not store the LCD o not store the LCD o not store the LCD mo mo mo mod d d du u u ul l l le in an atmo e in an atmo e in an atmo e in an atmosp sp sp sphere of here of here of here of organic solve organic solve organic solve organic solvent or corros nt or corros nt or corros nt or corrosive gas. ive gas. ive gas. ive gas. In an organic solvent atmosphere, the polarizer film discolors and display quality deteriorates. In a corrosive gas environment, various parts of the module may corrode or deteriorate. 㽳㽳Store Store the L the LC CD module i D module in n a a SHAR SHARP P p pa ack ckage. age. 㽳㽳 Store Store the L the LC CD mod D module i ule in n a a SHAR SHARP P pack packa age. ge. E At storing, SHARP packages can be stacked up to 3 boxes. The LCD module is in an anti-static bag. Keep the module in that status. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Company Name was changed 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 31 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  㽴㽴㽴㽴T T T Th h h he e e e L L L LC C C CD m D m D m D module odule odule odule is re is re is re is recommen commen commen commend d d deeeed d d d to be sto to be sto to be sto to be storrrreeeed d d d in in in in hu hu hu humi mi mi mid d d diiiity contro ty contro ty contro ty controlle lle lle lled d d d,,,, cool a cool a cool a cool an n n nd d d d d d d da aa arrrrk k k k locatio locatio locatio locations. ns. ns. ns. Recommended storage environment A A 䊶Place : Dark (avoid direct sunlight) 䊶Temperature : 10㨪35͠ 䊶Humidity : 50㨪60%RH Note) If the module is left in an environment of 60͠ and above for a long period of time, optical characteristics may deteriorate. (7 (7) ) Di Disp spos osa al l Meth Metho od d ( (7 7) ) Di Disp spos osa al l Meth Metho od d 㽲㽲 LCD LCD m mood du ule le 㽲㽲 LCD LCD m mood du ule le The components of this LCD module can be grouped into metal, resin, glass and so on. As B B the backlight contains CCFL which includes mercury, it must be disposed according to the local ordinance or regulations. 㽳㽳㽳㽳 Package Package Package Package All the packages are made of recyclable papers except the anti-ESD bag. (8 (8) ) CA CAUT UTI IO ON N I IN N DE DESI SIG GN NI IN NG INV G INVERT ERTER ER (8) (8) CA CAUT UTI IO ON N I IN N DE DESI SIG GN NI IN NG INV G INVERT ERTER ER Fluorescent lamps driven by high voltage are included in this LCD module. Please stand to the instructions below when designing inverter that lights the fluorescent lamps. C C Otherwise it may lead to FATAL FAILURE, such as SMOKING or FIRING. 㽲㽲㽲㽲 A A A AP P P PPL PL PL PLY Y Y Y P P P PR R R RO O O OT T T TECT ECT ECT ECTIVE IVE IVE IVE CI CI CI CIRCU RCU RCU RCUIIIIT T T T in preparation for lamp breaking, wire breaking and short circuit. The protective circuit should also detect half open circuit and wire breaking in narrow gap etc.. Otherwise it may lead to fatal failure. 㽳㽳㽳㽳 KEE KEE KEE KEEP P P P EN EN EN ENOU OU OU OUGH CUR GH CUR GH CUR GH CURREN REN REN RENT T T T C C C CA A A AP P P PAC AC AC ACIT IT IT ITY Y Y Y of inverter output for leakage current, which D leaks from lamps and wire to surrounding metal material. Usually output current of about 1.5 times as same as the lamp current is necessary. But it sometimes varies due to D characteristics of the inverter itself. So before determining design, please check characteristics of the inverter by connecting it to the LCD module. 㽴㽴㽴㽴 KE KE KE KEE EE EPPPP EN E EN EN NOU OUGH OU OUGH GH GH TTE TTEE EM MP M MPPPER EER ER RAAA ATTTTURE U URE URE RE M MA M MARGI ARGI ARGI RGIN N N N for each parts mounted on inverter. Temperature of the parts becomes higher when they are mounted in the final products due to heating inside. The temperature of each parts MUST NOT increase over the guaranteed temperature. E LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 32 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  㧔㧔㧔㧔8 8㧕㧕㧕㧕R Re etur turn n metho method d of the L of the LC CD mo D mod du ul le e reque reques ste ted d for rep for repai air or r or a an nal alys ysi is s of of the pr the problem oblem 8 8 R Re etur turn n metho method d of the L of the LC CD mo D mod du ul le e reque reques ste ted d for rep for repai air or r or an ana al ly ys si is s of of the pr the problem oblem ࡮When returning the LCD modules, adhere to the following procedures not to damage the LCD A A panel or the backlight cables. (Fig. 17-1(a)~(b)) When the LCD module is returned without following the specified packaging procedures, SHARP will not take responsibility for the damages caused by the failure of the packaging method. ࡮Please be cautious not to put fingerprints or other stains on the display by wearing a glove or fingerstall when managing LCD module modules, including faulty modules that require to be returned . B B (1) Attach protective sheet. Protective sheet (Please tape the sheet onto the frame) Tape Front side Tape C C (2) Put the backlight cables in slots. Rear side * If the cables are not fixed, the connectors may scratch the LCD panel surface or the Backlight cable D cables may be damaged. D (3) Put the LCD module into the anti-electrostatic bag (Please do not use torn anti-electrostatic bags) Anti-electrostatic bag Front side E Fig. 17-1(a) Packaging method LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Company Name was changed 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 33 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  (4) Storage into the carton box ࡮ When using the carton box manufactured by SHARP (Please use carton boxes and arrowheads that are not collapsed) A A Partition Box Anti- Electrostatic bag 㽳㽳㽳㽳 㽲㽲㽲㽲 LCD Unit B B C C Holder 㽵㽵㽵㽵 㽴㽴㽴㽴 D D E ٨Cautious٨ The bending direction should  Do not to put Anti-electrostatic bag be arranged. in the partition box. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Company Name was changed 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 34 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  Holder A 㽶㽶㽶㽶 A 㽷㽷㽷㽷 B B The Front side of LCD units should be faced to the direction of the making on carton box. 㽸㽸 㽹㽹㽹㽹 㽸㽸 C C 464 464 464 464 499 499 499 499 Carton Box 250 250 250 250 D D **The arrowheads are shown on the holders.** Fig. 17-1(b) Packaging method ࡮When not using the carton box manufactured by SHARP E Please pack the LCD modules one by one and make sure not to damage the LCD modules when transporting. LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Company Name was changed 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 35 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 1 2 3 4  ( (9 ( (9 9 9) O ) O ) ) O Oth t t th h he e e ers r r rs s s 㽲㽲㽲㽲If If If If t t t the LCD he LCD he LCD he LCD pa pa pa panel i nel i nel i nel is s dam s dam s dam damag ag ag aged, ed, ed, ed, do no do no do no do not in t in t t in inha ha ha hale an le an le an le and d d d d d d do o o o not sw not sw not not sw swallow allow allow allow the li the li t the li he liqui qui qui quid d d d crystal. crystal. crystal. crystal. If the liquid crystal adhere to the body or cloths, wash it off with soap immediately. A A Follow regular precautions for electronic components. 㽳㽳㽳㽳Flux re Flux re Flux re Flux resi si si sid due o d du u ue o e o e on n n n the p the pr the p the pr r riiiin n n nted circ ted ted ted circ circ circuit bo uit bo uit bo uit board ard i ard ard i i is s s s har har har harmless to the q m m mless to the q less to the q less to the qu u u ual al al ality an ity an ity an ity and d d d reliab reliab reliab reliability of ility of ility of ility of L L L LC C C CD D D D mod modu ul le. e. mod modu ul le. e. SHARP has adopted non-wash technology on module assembly process. 18. PRECAU 18. PRECAU 18. PRECAU 18. PRECAUTION TION TION TIONS S S S FOR U FOR U FOR U FOR US S S SE E E E This Product is designed, developed and manufactured as contemplated for general use, B B including without limitation, general office use, personal use, household use, and ordinary industrial use, but is not designed, developed and manufactured as contemplated for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could lead directly to death, personal injury, severe physical damage or other loss (hereinafter “High Safety Required Use”), including without limitation, nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system. If customer’s product possibly falls under the category of High Safety Required Use, please consult with our sales representatives in charge before such use. In addition, SHARP shall not be liable against the Customer and/or any third C C party for any claims or damages arising in connection with the High Safety Required Use of the Product without permission. 19. M 19. M 19. M 19. MISC ISC ISC ISCE E E ELLA LLA LLA LLANE NE NE NEOUS OUS OUS OUS Specifications of the TFT-LCD panel and other components used in the LCD module are subject to change. Both parties shall discuss together before change. If any doubt is raised in the content of the specifications, both parties shall discuss and make best effort for the agreement. D D E LQ190E1LW01 TITLE (FLC48SXC8V-11AA) DRAW. NO. CUST. LD17443 07 20050420 Company Name was changed 䕣䕘䕕䕕䕤 F EDIT DATE DESIG. DES CHECK APPR. CRIPTION S SH HARP ARP CO COR RP PO OR RA AT TIO ION N S SH HARP ARP CO COR RP PO OR RA AT TIO ION N 36 / DESIG. APPR. CHECK 1 DATE DOCUMENT CONTROL SECTION 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 SHARP Microelectronics Europe SHARP Corporation 5700 NW Pacific Rim Blvd. Division of Sharp Electronics (Europe) GmbH Electronic Components & Devices 22-22 Nagaike-cho, Abeno-Ku Camas, WA 98607, U.S.A. Sonninstrasse 3 Phone: (1) 360-834-2500 Osaka 545-8522, Japan 20097 Hamburg, Germany Fax: (1) 360-834-8903 Phone: (49) 40-2376-2286 Phone: (81) 6-6621-1221 Fax: (81) 6117-725300/6117-725301 Fast Info: (1) 800-833-9437 Fax: (49) 40-2376-2232 www.sharp-world.com www.sharpsma.com www.sharpsme.com TAIWAN SINGAPORE KOREA SHARP Electronic Components SHARP Electronic Components SHARP Electronics (Singapore) PTE., Ltd. (Taiwan) Corporation 438A, Alexandra Road, #05-01/02 (Korea) Corporation RM 501 Geosung B/D, 541 8F-A, No. 16, Sec. 4, Nanking E. Rd. Alexandra Technopark, Dohwa-dong, Mapo-ku Taipei, Taiwan, Republic of China Singapore 119967 Phone: (886) 2-2577-7341 Seoul 121-701, Korea Phone: (65) 271-3566 Fax: (886) 2-2577-7326/2-2577-7328 Fax: (65) 271-3855 Phone: (82) 2-711-5813 ~ 8 Fax: (82) 2-711-5819 CHINA HONG KONG SHARP Microelectronics of China SHARP-ROXY (Hong Kong) Ltd. (Shanghai) Co., Ltd. 3rd Business Division, 28 Xin Jin Qiao Road King Tower 16F 17/F, Admiralty Centre, Tower 1 Pudong Shanghai, 201206 P.R. China 18 Harcourt Road, Hong Kong Phone: (86) 21-5854-7710/21-5834-6056 Phone: (852) 28229311 Fax: (86) 21-5854-4340/21-5834-6057 Fax: (852) 28660779 Head Office: www.sharp.com.hk No. 360, Bashen Road, Shenzhen Representative Office: Xin Development Bldg. 22 Room 13B1, Tower C, Waigaoqiao Free Trade Zone Shanghai Electronics Science & Technology Building 200131 P.R. China Shen Nan Zhong Road Email: smc@china.global.sharp.co.jp Shenzhen, P.R. China Phone: (86) 755-3273731 Fax: (86) 755-3273735