Service Manuals, User Guides, Schematic Diagrams or docs for : . Various LCD Panels Panel_SHARP_LQ0DZA1003_0_[DS]

<< Back | Home

Most service manuals and schematics are PDF files, so You will need Adobre Acrobat Reader to view : Acrobat Download Some of the files are DjVu format. Readers and resources available here : DjVu Resources
For the compressed files, most common are zip and rar. Please, extract files with Your favorite compression software ( WinZip, WinRAR ... ) before viewing. If a document has multiple parts, You should download all, before extracting.
Good luck. Repair on Your own risk. Make sure You know what You are doing.




Image preview - the first page of the document
Panel_SHARP_LQ0DZA1003_0_[DS]


>> Download Panel_SHARP_LQ0DZA1003_0_[DS] documenatation <<

Text preview - extract from the document
SPEC No.     DATE        REVISED          SUMMARY    NOTE
                           No.     PAGE
LD-15919   Sep.26 2003      -       -        -      1st Issue
                                                                                                       LD-15919-1
1. Application
     This specification applies to the color 18.1 SXGA TFT-LCD module LQ0DZA1003.




  The device listed in these specification sheets was designed and manufactured for use in OA equipment.


  In case of using the device for applications such as control and safety equipment for transportation(aircraft,
  trains, automobiles, etc. ), rescue and security equipment and various safety related equipment which require
  higher reliability and safety, take into consideration that appropriate measures such as fail-safe functions and
  redundant system design should be taken.


  Do not use the device for equipment that requires an extreme level of reliability, such as aerospace applications,
  telecommunication equipment(trunk lines), nuclear power control equipment and medical or other equipment
  for life support.




2. Overview
     This module is a color active matrix LCD module incorporating amorphous silicon TFT                (Thin Film
Transistor). It is composed of a color TFT-LCD panel, driver ICs, control circuit, power supply circuit and a back
light unit. Graphics and texts can be displayed on a 1280 3    1024 dots panel with about 16 million colors (8 bit)
by supplying 48 bit data signals(8bit 2pixel RGB) or 96 bit data signals(8bit 4pixel RGB), two display
enable signals, two dot clock signals, +5V DC and +15V DC supply voltages for TFT-LCD panel driving and
supply voltage for back light.
                                                                               LD-15919-2


3. Mechanical Specifications
              Parameter                         Specifications         Unit
     Display size                     46 (Diagonal)                     cm
                                      18.1 (Diagonal)                  Inch
     Active area                      359.0 (H) 287.2 (V)              Mm
     Pixel format                     1280 (H) 1024 (V)                Pixel
                                      (1 pixel R      G   B dots)
     Pixel pitch                      0.2805 (H) 0.2805 (V)            Mm
     Pixel configuration              R,G,B vertical stripe
     Display mode                     Normally Black
     Unit outline dimensions *1       414 (W) 335 (H) 24 (D)           Mm
     Mass                             3280      80                      g
     Surface treatment                Anti-glare and hard-coating 2H
    *1.Note: excluding back light cables.
       The thickness of module (D) doesn't contain the projection.
       Outline dimensions are shown in Fig.1.
                                                                           LD-15919-3
4. Input Terminals
 4-1. TFT-LCD panel driving
  CN1 (Interface signals and +5VDC +15VDC power supply)
     Using connector      SD-53493-1400 (Molex-Japan Co., Ltd.)
     Mating connector SD-52777-1400 (Molex-Japan Co., Ltd.)
       Pin No.      Symbol                           Function     Remark
          1          GND        Gnd
          2          GND        Gnd
          3          GND        Gnd
          4          GND        Gnd
          5           RC7       RED odd data signal (MSB)
          6          RA7        RED odd data signal (MSB)
          7           RC6       RED odd data signal
          8          RA6        RED odd data signal
          9           RC5       RED odd data signal
         10          RA5        RED odd data signal
         11           RC4       RED odd data signal
         12          RA4        RED odd data signal
         13           Vcc       +5V power supply
         14           Vcc       +5V power supply
         15           RC3       RED odd data signal
         16          RA3        RED odd data signal
         17           RC2       RED odd data signal
         18          RA2        RED odd data signal
         19           RC1       RED odd data signal
         20          RA1        RED odd data signal
         21           RC0       RED odd data signal (LSB)
         22          RA0        RED odd data signal (LSB)
         23          GND        Gnd
         24          GND        Gnd
         25          GC7        GREEN odd data signal (MSB)
         26          GA7        GREEN odd data signal (MSB)
         27          GC6        GREEN odd data signal
         28          GA6        GREEN odd data signal
         29          GC5        GREEN odd data signal
         30          GA5        GREEN odd data signal
         31          GC4        GREEN odd data signal
         32          GA4        GREEN odd data signal
         33           Vcc       +5V power supply
         34           Vcc       +5V power supply
         35          GC3        GREEN odd data signal
         36          GA3        GREEN odd data signal
         37          GC2        GREEN odd data signal
         38          GA2        GREEN odd data signal
         39          GC1        GREEN odd data signal
         40          GA1        GREEN odd data signal
         41          GC0        GREEN odd data signal (LSB)
         42          GA0        GREEN odd data signal (LSB)
         43          GND        Gnd
         44          GND        Gnd
         45           BC7       BLUE odd data signal (MSB)
         46          BA7        BLUE odd data signal (MSB)
         47           BC6       BLUE odd data signal
         48          BA6        BLUE odd data signal
                                                                          LD-15919-4
 49    BC5   BLUE odd data signal
 50    BA5   BLUE odd data signal
 51    BC4   BLUE odd data signal
 52    BA4   BLUE odd data signal
 53    Vcc   +5V power supply
 54    Vcc   +5V power supply
 55    BC3   BLUE odd data signal
 56    BA3   BLUE odd data signal
 57    BC2   BLUE odd data signal
 58    BA2   BLUE odd data signal
 59    BC1   BLUE odd data signal
 60    BA1   BLUE odd data signal
 61    BC0   BLUE odd data signal (LSB)
 62    BA0   BLUE odd data signal (LSB)
 63   GND    Gnd
 64   GND    Gnd
 65    DEB   Data enable signal (Signal to settle the display position)
 66   DEA    Data enable signal (Signal to settle the display position)
 67    Vcc   +5V power supply
 68    Vcc   +5V power supply
 69   CLKB   Sampling clock (for even data signal)
 70   CLKA   Sampling clock (for odd data signal)
 71   GND    Gnd
 72   GND    Gnd
 73    RD7   RED even data signal (MSB)
 74    RB7   RED even data signal (MSB)
 75    RD6   RED even data signal
 76    RB6   RED even data signal
 77    RD5   RED even data signal
 78    RB5   RED even data signal
 79    RD4   RED even data signal
 80    RB4   RED even data signal
 81    Vcc   +5V power supply
 82    Vcc   +5V power supply
 83    RD3   RED even data signal
 84    RB3   RED even data signal
 85    RD2   RED even data signal
 86    RB2   RED even data signal
 87    RD1   RED even data signal
 88    RB1   RED even data signal
 89    RD0   RED even data signal (LSB)
 90    RB0   RED even data signal (LSB)
 91   GND    Gnd
 92   GND    Gnd
 93    GD7   GREEN even data signal (MSB)
 94    GB7   GREEN even data signal (MSB)
 95    GD6   GREEN even data signal
 96    GB6   GREEN even data signal
 97    GD5   GREEN even data signal
 98    GB5   GREEN even data signal
 99    GD4   GREEN even data signal
100    GB4   GREEN even data signal
101    Vcc   +5V power supply
102    Vcc   +5V power supply
                                                                                                   LD-15919-5
      103          GD3          GREEN even data signal
      104          GB3          GREEN even data signal
      105          GD2          GREEN even data signal
      106          GB2          GREEN even data signal
      107          GD1          GREEN even data signal
      108          GB1          GREEN even data signal
      109          GD0          GREEN even data signal (LSB)
      110          GB0          GREEN even data signal (LSB)
      111         GND           Gnd
      112         GND           Gnd
      113          BD7          BLUE even data signal (MSB)
      114          BB7          BLUE even data signal (MSB)
      115          BD6          BLUE even data signal
      116          BB6          BLUE even data signal
      117          BD5          BLUE even data signal
      118          BB5          BLUE even data signal
      119          BD4          BLUE even data signal
      120          BB4          BLUE even data signal
      121          Vcc          +5V power supply
      122          Vcc          +5V power supply
      123          BD3          BLUE even data signal
      124          BB3          BLUE even data signal
      125          BD2          BLUE even data signal
      126          BB2          BLUE even data signal
      127          BD1          BLUE even data signal
      128          BB1          BLUE even data signal
      129          BD0          BLUE even data signal (LSB)
      130          BB0          BLUE even data signal (LSB)
      131         GND           Gnd
      132         GND           Gnd
      133         BLON          Back Light Status    1                                   Output
      134         MODE          H 2pixel mode       L 4pixel mode
      135         GND           Gnd
      136         GND           Gnd
      137          Vdd          +15V power supply
      138          Vdd          +15V power supply
      139          Vdd          +15V power supply
      140          Vdd          +15V power supply

   1 When Vcc and Vdd are turned on, the output signal BLON goes to high typically 212 milliseconds later. The
maximum output current is 1 milliampere.
                                                                                                                  LD-15919-6


4-2. Back light driving
 CN 2, 3
      The module-side connector         : XHP     9            (JST)
      The user-side connector           : S9B    XH    A        (JST)
    Pin no.   Symbol                             Function
       1         HIGH       Power supply for lamp A         (High voltage side)
       2        NC          This is electrically opened.
       3        NC          This is electrically opened.
       4         HIGH       Power supply for lamp B (High voltage side)
       5        NC          This is electrically opened.
       6        NC          This is electrically opened.
       7         LOW        Power supply for lamp B (Low voltage side)
       8        NC          This is electrically opened.
       9         LOW        Power supply for lamp A        (Low voltage side)
The pair of pin 1 and pin 9 is for the same CCFT lamp. The pair of pin 4 and 7 is in the same way.




                                                                             9pin connector
                                 Module
                                                                             (XHP     9)




5. Absolute Maximum Ratings
                Parameter                Symbol Condition                   Ratings           Unit       Remark
    Input voltage                          VI      Ta=25                0.3         +5.5                 Note1
    +5.0V supply voltage                   Vcc     Ta=25                0             6
    +15.0V supply voltage                 Vdd      Ta=25                0             17
    Storage temperature                   Tstg                      25              60                   Note2
    Operating temperature (Ambient) Topa                                0           50
  Note1 CLKA, CLKB, RA0             RA7, GA0 GA7, BA0 BA7, RB0                      RB7, GB0     GB7, BB0 BB7,
           RC0 RC7, GC0          GC7, BC0 BC7, RD0             RD7, GD0 GD7, BD0 BD7, DEA, DEB, MODE
  Note2 Humidity 95%RH Max. ( Ta 40                    )
                          Maximum wet-bulb temperature at 39             or less. ( Ta>40            )
                          No condensation.
                                                                                                          LD-15919-7
6. Electrical Characteristics
6-1. TFT-LCD panel driving                                                                    Ta 25
               Parameter                       Symbol Min.   Typ.        Max.     Unit        Remark
      Vcc   Supply voltage                      Vcc   +4.75 +5.0         +5.25     V          Note1
            Current dissipation                 Icc           130         500     mA          Note2
     Vdd    Supply voltage                      Vdd   +14.15 +15.0       +15.8     V          Note1
              Current dissipation               Idd                300   600      mA          Note2
      Permissive input ripple voltage           VRFVcc                   100     mVp-p       Vcc=+5.0V
                                                VRFVdd                   300     mVp-p
      Input voltage (Low)                       VIL       0              +0.6     V               Note3
      Input voltage (High)                      VIH      +2.7            +3.3         V           Note3
      Input current (Low)                       IIL                       10          A       VI=GND
                                                                                               Note3
      Input current (High)                      IIH                       10          A       VI=Vcc
                                                                                                Note3
      Output voltage (Low)                      VOL                      +0.4         V       IOL=1mA
      Output voltage (High)                     VOH      2.4                          V      IOH=-1mA
  Note1
      On sequence of two power supplies
      (sequence free)                                                                                     Va
                                                                          Vmina
      The case of     Va, Vb         Vcc,Vdd             power A
       Vmina, Vminb             4.75V, 14.0V


      The case of     Va, Vb         Vdd,Vcc                                                              Vb

       Vmina, Vminb             14.0V, 4.75 V                                             Vminb
                                                         power B




      Off sequence of two power supplies
                                                                                 Va
                                                                                          Vmina
                                                          power A
      The case of     Va, Vb         Vcc,Vdd
       Vmina, Vminb             4.75V, 14.0V

                                                                                 Vb
      The case of     Va, Vb         Vdd,Vcc
                                                                                                      Vminb
       Vmina, Vminb             14.0V, 4.75V
                                                          power B
                                                                                                        LD-15919-8



     On-off sequences of Vcc and data            Vcc                                                           Vcc
                                                                   4.5V                      4.5V
         0 t1 10ms
                                                                      3.8V               3. 9V
         0 t2 10ms                            data                                                           data    Note3
         0 t3 10ms
             t4 1s

                                                              t3                t4                t1    t2




     Dip conditions for supply voltage
      The case of Vp=Vcc
       Vmin,Vth = 4.75V,3.8V
        1) 3.8V Vcc 4.75V
           td 10ms
                                                                                            Vth        Vmin
        2) Vcc 3.8V
      This case is described below *1.
      The case of
       Vmin,Vth = 14.0V,4.2V
        1) 4.2V Vdd 14.0V
          td 10ms
        2) Vdd      4.2V
*1     The LCD module shuts down when (Vcc < Vth) or (Vdd < Vth).
     If they(Vcc,Vdd) recover, the LCD module turns on following the 2 power sequence.




Note2       Typical current situation : 16-gray-bar pattern
            Vcc=+5.0V, Vdd=+15.0V
            Gray scale : GS(16N)
                           N=0    15
           The explanation of each gray scale ,GS(16n), is described
           below section 8.


Note3 CLKA, CLKB, RA0              RA7, GA0 GA7, BA0 BA7, RB0                RB7, GB0   GB7, BB0 BB7,
           RC0 RC7, GC0          GC7, BC0 BC7, RD0        RD7, GD0 GD7, BD0 BD7, DEA, DEB, MODE
                                                                                                          LD-15919-9
6-2. Back light driving
        The back light system is an edge-lighting type with four CCFTs (Cold Cathode Fluorescent Tube). The
        characteristics of the lamp are shown in the following table. The value mentioned below is at the case of
       one CCFT.
          Parameter            Symbol         Min.       Typ.    Max.       Unit     Remark
 Lamp current range              IL                       6.5    7.5      mArms Note1
 Lamp voltage                    VL                      715               Vrms Ta=25
 Lamp power consumption          PL                      4.65               W    Note2
 Lamp frequency                  FL            50         60      70       KHz   Note3
 Kick-off voltage                Vs                              1250      Vrms Ta=25    Note4
                                                                 1600      Vrms Ta=0    Note4
 Lamp life time                    TL         50000                        hour  Note5

  Note1     A lamp can be light in the range of lamp current shown above.
            Maximum rating for current is measured by high frequency current measurement equipment
            connected to VLOW at circuit showed below. (Note : To keep enough kick-off voltage and necessary
            steady voltage for CCFT.)
            Lamp frequency : 50 70kHz
           Ambient temperature : 0       50




  Note2     Referential data per one CCFT by calculation ( IL        VL ) .
           The data don't include loss at inverter.
  Note3     Lamp frequency may produce interference with horizontal synchronous frequency, and this may
           cause beat on the display. Therefore lamp frequency shall be detached as much as possible from the
           horizontal synchronous frequency and from the harmonics of horizontal synchronous to avoid
           interference.
  Note4 The voltage above this value should be applied to the lamp for more than 1 second to startup.
          Otherwise the lamp may not be turned on.
  Note5     Lamp life time is defined as the time when either       or        occurs in the continuous operation under
          the condition of Ta=25        and IL=6.5 mArms.
                    Brightness becomes 50% of the original value under standard condition.
                    Kick-off voltage at Ta=0         exceeds maximum value, 1600 Vrms.
  Note The performance of the back light, for example life time or brightness, is much influenced by the
characteristics of the DC-AC inverter for the lamp. When you design or order the inverter, please make sure that a
poor lighting caused by the mismatch of the back light and the inverter (miss-lighting, flicker, etc.) never occurs.
When you confirm it, the module should be operated in the same condition as it is installed in your instrument.
                                                                                                          LD-15919-10
7. Timing characteristics of input signals
  7-1-1. 2pixel mode timing characteristics
   Timing diagrams of input signal are shown in Fig.2.
                  Parameter                     Symbol       Min.       Typ.       Max.       Unit      Remark
   Clock          Frequency                       1/Tc        34         55          60       MHz        Note1
                  High time                       Tch          4                               ns
                  Low time                         Tcl         4                               ns
                  Skew                            Tcsq        



◦ Jabse Service Manual Search 2026 ◦ Jabse PravopisonTap.bg ◦ Other service manual resources online : FixyaeServiceinfo