ACER G24 MB243WABNS LCD Monitor Service Manual
Below you will find brief information for G24 MB243WABNS. This ACER monitor boasts a 24-inch WUXGA (1920x1200) resolution TFT-LCD display with 16.7M colors. It offers both analog and digital video inputs (D-SUB and DVI-D) and features an on-screen display (OSD) for adjusting brightness, contrast, position, and other settings. The monitor supports various video modes and includes power-saving functions.
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ACER ACER_LCD_G24_SM080519V1 Service Model ID:MB243WABNS Service Manual Table of Contents Important Safety Notice------------------------------------------------------------------------------------- 01 01. Product Specification--------------------------------------------------------------------------------- 02 02. OSD Menu-----------------------------------------------------------------------------------------------08 03. Exploded Diagram ------------------------------------------------------------------------------------- 10 04. Assembly and Disassembly Procedures-----------------------------------------------------------12 05. Troubleshooting----------------------------------------------------------------------------------------20 06. Firmware Upgrade Procedure------------------------------------------------------------------------31 07. Writing EDID Procedure-------------------------------------------------------------------------------33 08. Schematics and Layouts------------------------------------------------------------------------------ 35 Appendix I : User ’ s Manual Appendix II: Quick Setup Guide Appendix II : Spare Parts List Appendix IV: Software Pack Safety Notice Any person attempting to service this chassis must familarize with the chassis and be aware of the necessary safety precautions to be used when serving electronic equipment containing high voltage. Published by LITE-ON Service Printed in Taiwan © All rights reserved Subject to modification 19th-May-2008 Important Safety Notice ACER G24 Go to cover page Product Anouncement: This product is certificated to meet RoHS Directive and ! Using Lead-Free solder to well mounted the parts. Lead-Free produced definition. Using approved critical ! The fusion point of Lead-Free solder requested in the components only is recommended when the situation to replace defective parts. Vender assumes no liability express or implied, arising out of any unauthorized modification of design or replacing non-RoHS parts. Service providers assume all liability. Qualified Repairability: Proper service and repair is important to the safe, reliable operation of all series products. The service providers recommended by vender should being aware of notices listed in this service manual in order to minimize the risk of personal injury when perform service procedures. Furtermore, the possibile existed improper repairing method may damage equipment or products. It is recommended that service engineers should have repairing knowledge, experience, as well as appropriate product training per new model before performing the service procedures. NOTICE: ! To avoid electrical shocks, the products should be connect to an authorized power cord, and turn off the master power switch each time before removing the AC power cord. ! To prevent the product away from water or explosed in extremely high humility environment. ! To ensure the continued reliability of this product, use only original manufacturer s specified parts. ! To ensure following safty repairing behavior, put the replaced part on the components side of PWBA, not solder side. ! To ensure using a proper screwdriver, follow the torque and force listed in assembly and disassembly procedures to screw and unscrew screws. degree of 220 ° C. 1 2 ACER G24 1. Product Specification Go to cover page 1.1 SCOPE This document defines the design and performance requirements for a 24W inch diagonal , flat panel monitor MONITOR SPECIFICATIONS .The display element shall be a WUXGA (1920x1200) ITEM resolution TFT-LCD (Thin Film Transistor Liquid Crystal Signal Input Display).16.7M color(RGB Hi+FRC) images are displayed (Analog) Frequency SPEC Analog : H : 30kHz~94kHz V : 55Hz~76Hz on the panel.Video input signals are analog RGB (0.7Vp-p). Pixel clock 205MHz (Max) parameters for a pre-defined mode will be recalled if the Video Input Analog operating mode is one of stored in memory( 24 factory , 9 Display Pixels 640 x 480 (VGA) ~ 1920 x 1200 (WUXGA) When the systemis powered-on , previously stored screen users timing ).This monitor operates normal by non- Signal Input interlaced mode. DDC (Display Data Channel) function is (Digital) Sync Signal Separate SYNC for TTL (N or P) Frequency Digital : H : 30kHz~94kHz Pixel clock 165MHz (Max) V : 55Hz~76Hz DDC2Bi compliance Power saving function complies with Video Input the DPMS (Display Power Management Signaling) Connector 1.2 GENERAL REQUIREMENTS LTM240CT03 CA110 or BM7 or same equipment . Display Pixels 640 x 480 (VGA) ~ 1920 x 1200 (WUXGA) AC Input AC100V ~ AC240V ± 10% 50/60Hz , 3 pin AC power cord Input connector D-SUB 15 pin & DVI-D Power Consumption AC in 100V~240V active 90W, power saving < 2W User's Control Front Empowering,Auto Adjust,Adjust(-),Adjust (+),Menu,Power OSD Contrast , Brightness , Position ,Clock ,Phase ,Analog/Digital,RESET, Color , Language select , etc. Factory 24 Pre-Defined Timing pattern test mode following spec. Warm up more than 1 hr, ambient light < 10 Lux , Luminance meter 0.7Vp-p Audio Jack (OPTIONAL) Audio input 3.6F 1.2.1 Test Condition Brightness level & contrast level max. Full white Analog Input Impedance 75Ω standard. AMLCD: LTM240CT01 0.7Vp-p User Plug and Play 9 VESA DDC2Bi Power Saving VESA DPMS Input Signal Counter Tolerance ≦ H ± 1kHz, ≦ V ± 1 Hz 1.2.2 Test Equipment The reference signal source is a calibrated Chroma 2135 video generator or higher.The use of other signal generators during qualification and production is acceptable provided the product complies with this specification. 1.3.1 Interface Connectors 1.3.1.1 Power Connector and Cables The AC input shall have an IEC/CEE-22 type male 1.3 ELECTRICAL power receptacle for connection to mains power. This section describes the electrical requirement of the The power cord shall be with length of 1.8+/-0.005 monitor. The LCD monitor consists of an interface board , a meters. power board , a function key board. The interface board 1.3.1.2 Video Signal Connectors and Cable wil l house the flat panel control logic , brightness The signal cable shall be 1.8 +/-0.005 meters long. control logic, audio function control (option), key function At the end of the cable shall be a molded-over, control, DDC and DC to DC conversion to supply the shielded,triple row, 15 position, D-subminiature appropriate power to the whole board and LCD flat panel , connector. The CPU connection shall have captive and transmitting LVDS signals into LCD flat panel module screw locks, which will be adequate for hand to drive the LCD display circuit .The power board will tightening. The monitor connection may use small support main power DC5V to interface board, and the screws. power DC5.3V to audio function power of interface board, and drive the two CCFLs (Cold Cathode Fluorescent Tube).The interface board provides the power ON / OFF control over the whole monitor and control for DPMS LED indicator to function key board. ACER G24 1. Product Specification (continued) 3 Go to cover page C o n n ecto r P in A s s ig n m e n t 1.3.2.1 Video Signal Amplitudes D SU B P in S ig n a l P in S ig n a l P in S ig n a l The three video inputs consist of Red ,Green , and Blue 1 R e d -V id e o 6 R e d -G N D 11 N C 2 G re e n -V id e o 7 G re e n -G N D 12 D D C -S D A signals, each with its own coaxial cable terminated at the 3 B lu e -V id e o 8 B lu e -G N D 13 H -S Y N C monitor. These video signals are analog levels, where 0 4 5 N C D D C -G N D 9 10 +5V S y n c -G N D 14 15 V -S Y N C D D C -S C L V corresponds to black , and 700 mV is the maximum signal amplitude for the respective color, when each signal is terminated by a nominal 75.0 ohms .For a given C o n n e c to r P in D e s c r ip tio n D -S U B P in D e s c riptio n P in N ame 1 R e d - V id e o 2 G re e n- V id e o 3 B lue - V id e o 4 GN D 5 DDC -GN D 6 Red-G N D 7 G re e n- G N D 8 B lue - G N D 9 +5V 10 S ync - G N D 11 GN D 12 DDC _SDA 13 H-SYN C 14 V-SYN C 15 DDC -SC L monitor luminance levels are measured using this D e s c riptio n R e d vid e o signa l inp ut. G re e n vid e o signa l inp ut. B lue vid e o signa l inp ut. G ro und D D C gro und fo r the V E S A D D C 2 B i func tio n. A na lo g signa l gro und fo r the R e d vid e o . A na lo g signa l gro und fo r the G re e n vid e o . A na lo g signa l gro und fo r the B lue vid e o . + 5 V inp ut fro m ho st syste m fo r the V E S A D D C 2 B i func tio n. S igna l gro und G ro und S D A signa l inp ut fo r the V E S A D D C B 2 i func tio n. H o rizo nta l signa l inp ut fro m the ho st syste m . V e rtic a l signa l inp ut fro m the ho st syste m . S C L signa l inp ut fo r the V E S A D D C 2 B i func tio n. defined video amplitud driving a monitor meeting the termination requirements .The signal amplitude is not to be readjusted to compensate for variations in termination impedance. 1.3.2.2 Video Signal Termination Impedance This analog video signal termination shall be 75Ω+/-1% which shall be resistive with a negligible reactive component . DVI-I / DVI-D (If using DVI-D cable, C1, C2, C3, C4, C5 is NC) Pin 1 2 3 4 5 6 7 8 9 10 Signal RX2RX2+ GND NC NC SCL SCA Analog V-Sync (NC) RX1RX1+ Pin 11 12 13 14 15 16 17 18 19 20 Signal GND NC NC 5V GND HP RX0RX0+ GND NC Pin 21 22 23 24 C1 C2 C3 C4 C5 Signal NC GND RXC+ RXCAnalog Red (NC) Analog Green (NC) Analog Blue (NC) Analog H-Sync (NC) GND 1.3.2.3 Synchronization ( Sync ) Signals The Horizontal Sync (HS) TTL signal is used to initiate the display of a horizontal line. HS may be either active high or active low, depending upon the timing .The Vertical Sync (VS) TTL signal is used to initiate the display of a new frame .VS may be either active high or active low, depending on the timing 1.3.2.4 Sync Signal Levels The monitor must accept sync signals from both 3.3 and 5 volt TTL logic families.The inputs shall sense a logic 0 DVI-I / DVI-D ConnectorPinDescription Pin 1 2 3 4 5 6 7 Name RX2RX2+ GND NC NC SCL SDA Description TMDS link #0 channel#2 differentialpair TMDS link #0 channel#2 differentialpair GNDfor no link share NC NC Clock line for DDC interface Data line for DDC interface Pin 16 17 18 19 20 21 22 Analog V-sync for analoginterface V-Sync 9 RX1- TMDS link #0 channel#1 differentialpair 8 10 RX1+ TMDS link #0 channel#1 differentialpair 11 GND GNDfor no link share 12 NC NC 13 NC NC 14 5V +5Vinput fromhost systemfor DDC2Bfunction. 15 GND Ground(Usingas Detect Cable) Name HP RX0RX0+ GND NC NC GND Description Hot plugging TMDS link #0 channel#0 differentialpair TMDS link #0 channel#0 differentialpair GNDfor no link share NC NC Clock shield when the input is 0.8 volt or less and shall sense a logic 23 RXC+ TMDS clock differentialpair (typically by using a Schmitt Trigger input ).That is , the 24 RXCAnalog C1 Red Analog C2 Green Analog C3 Blue Analog C4 H-Sync Analog C5 GND TMDS clock differentialpair input level at which the monitor actually detects a logic 0 1 when the input is 2.0 volts or greater. In addition to these level requirements, there shall also be a minimum of 0.3 volt hysteresis provided for noise immunity AnalogRed signal shall be at least 0.3 volt lower than the level at which it AnalogGreensignal actually detects a logic 1.If the monitor sync processing AnalogBlue signal circuits are designed around the 3.3 volt logic family H-sync for analoginterface ,then the sync inputs must be 5 volt tolerant . 1.3.2.5 Sync Signal Loading AnalogGND TTL input loading shall be equivalent to one TTL input load. When logic 0 is asserted by a sync input , the maximum current source from any single monitor sync input to the driver is 1.6 mA .When logic 1 is asserted , the maximum current source from the driver to any single monitor sync input is 400 uA . 1.3.2 Video Input Signals V id e o N o . S y m b o l F h S c a n n in g 2 3 F v V ih S c a n n in g V e r tic a l H i L e v e l I n p u t 4 V il L o w 5 V id e o N o te 1 ) I n p u t I t e m 1 R G B L e v e l F re q u e n c y F r e q u e n c y I n p u t A n a lo g S c h m itt- T rig g e rs S ig n a l M H o riz o n ta l V id e o L e v e l I n p u t , S u p p o r te d 3 .3 V in N o r m a l M a x U n it R e m a r k 3 0 9 4 k H z M in im u m r a n g e 5 5 2 7 6 5 H z M in im u m N o te 1 ) r a n g e 0 0 .8 V N o te V 7 5 Ω 0 .0 0 .7 d e v ic e H (& V ) 1 .0 s y n c o u tp u t fr o m P C . 1 ) to G ro u n d ACER G24 4 1. Product Specification (continued) Go to cover page 1.3.3.4 OSD adjustment 1.3.2.6 Abnormal Signal Immunity The monitor shall not be damaged by improper sync timing , pulse duration , or absence of sync , or ITEM CONTENT abnormal input signal amplitude ( video and/ or sync BRIGHTNESS Back light Luminance of the LCD panel is adjusted. too large or too small) , or any other anomalous CONTRAST A gain of R , G and B signal is adjusted. behavior of a graphics card video generator when AUTO CONTRAST A gain of R , G and B signal auto adjust. changing modes , or when any combination of input CLOCK The ratio of dividing frequency of the dot clock is adjusted. signals is removed or replaced . Additionally , under PHASE The phase of the dot clock is adjusted. these conditions , the monitor shall not cause H-POSITION The indication screen is horizontally moved right and left (1 Pixels pitch). damage to the driving source V-POSITION The indication screen is vertically moved up and down (1 Pixels pitch). AUTO ADJUST Clock system auto adjustment, about under 8 sec. COLOR BALANCE Select three kinds of modes. ( USER /WARM / Cold ). 1.3.3 User Controls and Indicators 1.3.3.1Power On / Off Switch The monitor shall have a power control switch visible and accessible on the front of the monitor . OSD POSITION The OSD indication position can be adjusted. OSD LANGUAGE Select the language used for the OSD menu among English , French , Italian , Deutsch and Spanish. The switch shall be marked with icons per IEC 417 , RECALL DEFAULTS All data copy from factory shipment data. # 5007 and # 5009.The switch shall interrupt the DC OSD DURATION Adjust OSD menu off time range from10~120 second. POWER-SAVE Back light of the LCD panel is cut when the signal is not input (AC line power consumption 2W or less). INFORMATION The frequency of the horizontal / vertical synchronizing signal under the input is indicated. supply to the monitor 1.3.3.2 Power Indicator LED The monitor shall make use of an LED type indicator located on the front of the monitor . ※ NOTE : OSD MENU SEE APPENDIX A The LED color shall indicate the power states as given in Table 1. 1.3.4 Monitor Modes and Timing Capability 1.3.4.1 Format and Timing Table 1 Function LED Color Full Power Blue color Sleep Orange color The monitor shall synchronize with any vertical frequency from 55 to 76 Hz , and with any horizontal frequency from 30 to 94KHz. If the input frequency is out of the above – specified range, the monitor shall display a warning screen indicating that the input frequency is out of range. 1.3.3.3 On-Screen Display The Lite-ON On Screen Display system shall be Under no circumstances shall any combination of used , controlled by a Menu button. If the buttons input signals cause any damage to the monitor . remain untouched for OSD turn off time while 1.3.4.2 Factory Assigned Display Modes displaying a menu , the firmware shall save the There are 24 factory pre-set frequency video current adjustments and exit. Also, if the video modes. These modes have a factory pre-set for all controller changes video mode while the OSD is characteristics affecting front-of-screen active, the current settings shall be saved performance. When the system is powered- immediately, the OSD turn off, and new video mode on,previously stored screen parameters for a pre- is displayed. defined mode will be recalled if the operating mode is one of those stored in memory. If the Description Key MENU When no OSD display OSD Displayed Menu Display 1. To display the OSD menu on the screen. memory, the monitor CPU will select the PRESET 2. To select the OSD sub-Menu timing for a mode that is the next lowest in 1. Back-forward selection of the OSD menu. 2. Decrease the value after sub-menu selected. horizontal scanning frequency to the mode being > Speaker Volume/Plus (with Audio) < Speaker Volume/Minus 1. Forward selection of the OSD menu. (with Audio) 2. Increase the value after sub-menu selected. Auto Auto Adjust Function operating mode is not one of those stored in Menu or sub.menu auto adjust currently used. The screen parameters may be adjusted by the use of the front bezel controls and then may be saved as a user defined mode. The E Empowering Menu or sub.menu EXIT/Scenario mode monitor shall include all the preset video timings shown in the following page.(Please see Note.(3) ) 1. Product Specification (continued) ACER G24 5 Go to cover page 1.3.4.3 Mode Recognition Pull-in ■ Digital inputs (DVI, HDMI): Conflicting video- and PC The monitor shall recognize preset modes within a timings are to be treated as Video timings with one range of +/-1KHz whichever is less for horizontal ; exception: 640x480p/60Hz timing to be treated as PC-timing. and within +/-1Hz for vertical. ■ Analog input (VGA) treats all timings as PC-timings. 1.3.4.4 User Display Modes In addition to the factory pre-set video modes, provisions shall be made to store up to 9 user modes. If the current mode is a user mode, the 1.3.5 Controller Requirements 1.3.5.1 General Requirements The monitor shall include a controller capable of monitor shall select its previously stored settings. converting the analog RGB signal from a standard If the user alters a setting, the new setting will be WUXGA resolution video controller in the CPU to a stored in the same user mode. The user modes signal which can be displayed on the panel. The are not affected by the pre-set command. If the controller will include a PLL, A/D converters, LVDS input signal requires a new user mode, storage of transmitter and other circuitry necessary to perform the new format is automatically performed during its function. The PLL shall be stable enough to user adjustment of the display (if required).( ensure that a static image from the CPU is placed Please see Note.(4) ) in the same physical location on the flat panel in Preset timing Chart each frame. P reset T im in g C h a rt 1 2 3 4 7 20 6 40 6 40 6 48 400 480 480 500 H -S y nc (K H z) 31 .4 72 31 .4 69 3 7.5 31 .2 34 5 6 8 00 x 6 0 0 8 00 x 6 0 0 37 .8 79 46 .8 75 60 .3 75 7 10 2 4 x 76 8 48 .3 63 60 65 - 8 10 2 4 x 76 8 60 .0 23 75 78 .7 5 + 9 1 2 80 x 1 0 24 63 .9 81 60 1 08 + + VESA Item 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 NOTE : R eso lu tio n x x x x 1 2 80 x 1 0 24 V -S y n c B an d W idth (H z) (M H z) 70 .4 2 8 .3 25 5 9 .9 4 2 5 .1 75 75 3 1.5 5 7.73 5 3 1 .2 34 79 .9 76 40 4 9.5 75 1 35 P o larity H V + + + + + + + + 1.3.5.2 Video Stretching S ou rce The monitor shall contain provisions to “stretch” the VGA VGA VESA M AC video signal, so that an input signal from the VESA VESA computer in any resolution smaller than 1920 x - VESA 1200 is automatically expanded to fill the entire + VESA + screen. 1.3.5.3 Panel Timing and Interface VESA 14 4 0 x 90 0 55 .4 69 5 9 .0 1 88 .7 5 + C V T -R B 14 4 0 x 90 0 55 .9 35 5 9.88 7 10 6 .5 + CVT 14 4 0 x 90 0 70 .6 35 7 4 .9 8 1 3 6.75 + CVT 12 8 0 x 72 0 45 60 74 .2 5 + + C E A -8 61 12 8 0 x 80 0 49 .7 02 60 8 3.5 + CVT 12 8 0 x 80 0 62 .7 95 75 10 6 .5 + CVT 1 6 00 x 1 2 00 75 60 1 62 + + VESA 1 6 00 x 1 2 00 74 .0 06 5 9.92 4 1 3 0.25 + C V T -R B 1 6 00 x 1 2 00 93 .7 5 75 20 2 .5 + + /VESA 1 6 80 x 1 0 50 65 .2 9 5 9.95 4 1 4 6.25 + CVT 1 6 80 x 1 0 50 64 .6 74 5 9.88 3 1 19 + C V T -R B 1 6 80 x 1 0 50 82 .3 06 7 4.89 2 1 87 + CVT 1 9 20 x 1 2 00 74 .0 38 5 9 .9 5 1 54 + C V T -R B 1 9 20 x 1 2 00 74 .5 56 5 9.88 5 1 9 3.25 + CVT (1 ) 76 ≦ F V ≦ 8 6 : m on ito r can d isp lay bu t do esn't gu aran tee. (2 ) fV < 5 5, o r fV > 86 : w arn in g in v alid m o de. (3 ) F acto ry m od el : A fter w e first b urn th e co de into th e flash , every p reset-m o del w e run first m u st d o au to -adjustin g . T h en it'll n ot d o au to -adjust again w h en w e chan ged p reset-m o de b ack in clu d in g A C o n /o ff D C on /o ff. T h e on ly w ay th at preset-m o d e d o au to -ad ju st ag ain is p ress '' Internal F actory R eset''. (4 ) U ser m od e : T h e co de sh ou ld m em orize 9 tim in g m o de ex clusive o f p reset-m od es as u se m o de an d d o au to -adju stin g . W h en u ser set a n ew m o de th at is no t am on g p reviou sly . It'll do auto-ad ju stin g th en b e so lv ed to u ser m o de T h e new m o d e w ill ov erw rite the first m em o rized u ser m od es. T h e user m o des b e cleared is sam e as F acto ry m od e. Ju st do '' In ternal F acto ry R eset''. (5 ) Internal F acto ry R eset an d O S D F acto ry R eset behavior. FACTORY PRESET VIDEO TIMINGS (DIGITAL INPUTS) The controller supplied with the monitor shall control all panel timing. This controller shall adequately insulate the monitor from the computer, so that no possible combination of input signals from the computer shall cause damage to the flat panel or any other component of the monitor. The LCD panel interface shall support the TFT standard. 1.3.6 DC - AC Inverter Requirements The DC-AC inverter is on the power board. The frequencies used by the DC-AC inverter used to power the backlight shall be chosen so as to prevent any noticeable effects on the flat panel (such as a rolling effect). Pixel CEA-861-C H-Active V-Active I/P H-tot. HB V-tot. H-freq V-freq (kHz) (Hz) VB code freq Inputs (MHz) 1.3.7 Power Supply Requirements The AC to DC converter power supply for the monitor shall 17,18 720 576 P 864 144 625 49 31.250 50.000 27.000 DVI,HDMI 19 1280 720 P 1980 700 750 30 37.500 50.000 74.250 DVI,HDMI 20 1920 1080 I 2640 720 1125 22.5 28.125 50.000 74.250 DVI,HDMI have an IEC receptacle for main power input and a pin - in 21, 22 1440 576 I 1728 288 625 24.5 15.625 50.000 27.000 HDMI ---socket for DC power out. The brick shall provide 31 1920 1080 P 2640 720 1125 45 56.250 50.000 148.500 DVI,HDMI sufficient power for both the monitor and the backlight 39 1920 1080 I 2304 384 1250 85 31.250 50.000 72.000 DVI,HDMI 2, 3 720 480 P 858 138 525 45 31.469 59.940 27.000 DVI,HDMI 4 1280 720 P 1650 370 750 30 44.955 59.940 74.176 DVI,HDMI 5 1920 1080 I 2200 280 1125 22.5 33.716 59.940 74.176 DVI,HDMI 6, 7 1440 480 I 1716 276 525 22.5 15.734 59.940 27.000 HDMI 16 1920 1080 P 2200 280 1125 45 67.433 59.940 148.352 DVI,HDMI be an external AC to DC converter ”brick” This brick shall assembly, and shall meet requirements specified in Table 2. ACER G24 6 1. Product Specification (continued) Go to cover page Table 2 AC to DC Converter Requirements 1.4.2 Panel Timings The controller included with the monitor shall translate all Input Voltage Range The operating range shall be from 90 to 132 and 195 to 265 AVC sinusoidal for all models specified. Input Frequency Range Input power frequency range sha;; be from 47.5 to 63 Hz over the specified input voltage range. Power Consumption Power consumption for the monitor shall be less than 46W over the specified voltage and frequency ranges. In suspend or sleep mode the power consumption will be less than 2W. Line Fuse The AC input shall be fused and become electrically open as a result on an unsafe current level. The fuse many not be user replaceable. The power supply shall start and function properly when under full load, with worst case conditions of input voltage, input frequenct, operating temperature, and cold backlight lamps. CPU , so that the panel shall always be driven per it's own Initial Cold Start CPU. Inrush Current The inrush current must be limited to 30A when operated at 120VAC, and 50A when operated at 220VAC. Inrush current is measured at an ambient temperature of 25oC, with the unit temperature stabilized in the power-off. Hot Start Cycle The power supply shall be damaged when switched ON for one second and OFF for one second for seven consecutive after operating for one hour at full load, 25oC, and nominal input line voltage. Under Voltage The power supply shall contain protection circuitry such that the application of an input voltage below the minimum specified in this table shall not cause damage to the power supply unit nor cause failure of the input. Line Transient The power supply shall operate within IEC 801-4 (± 1KV) and IEC 801-5 (± 2KV) for the domestic U.S. version. The UPS power supply shall operate and comply with CE mark. 1.3.8 Display Communications Channel The monitor assembly shall provide a display communications channel that conforms to VESA DDC2Bi hardware requirements. This configuration shall contain the 128-byte EDID file as specified by VESA EDID standard.The monitor should not write to the EDID file for the first two minutes of operation following power-up UNLESS some action taken by the user or the host CPU forces the write (for instance, requesting the serial number via the OSD). Furthermore, it is recommended that CMOS switches be incorporated to isolate the DDC IC from outside connections while the EDID Fault Management is being updated. This is to prevent corruption of the data by attempts to read the data while it is being changed. 1.3.9 Firmware Update Function (same ISP function) The update firmware need through from the D-Sub connector, use DDC I2C bus to do update firmware. 1.4 PANEL ELECTRICAL 1.4.1 General Requirements The panel used as the display device shall be an WUXGA resolution, 24W TFT-LCD. This panel shall be approved for use in this monitor. video timings from the CPU that meet the timing requirements listed in Panel specification into timings appropriate for the panel. Under no circumstances may the controller supply the panel with timings that may result in damage. The controller shall insulate the panel from the specification regardless of the timings being sent from the 1.4.3 Polarizer Hardness The outer face of the front polarizer panel shall be covered with a coating with a # 3 hardness value . 1.4.4 Backlight Requirements 1.4.4.1 General Requirements The backlight assembly shall be designed to support field replacement at the customer site or authorized service center. The lamps shall have a continuous operating life of at least 40,000 hours at 25. The operating life is defined as having ended when the illumination of light has reached 50% of the initial value. The lamps shall extend a sufficient amount from the edge of the light guide that sputtering over the life of the lamps shall not cause degradation of the luminance uniformity (such as non-illuminated bands along the edges of the display). 1.4.4.2 Lamps Startup Time The backlight lamps shall start about 2 sec of the time the monitor power switch is pressed or the monitor is restarted from a power - down mode .The starting time shall stay about 2 sec. for the minimum expected life of the lamps. Test conditions are as follows : Ambient Light ---------------------- < 1.0 lux Temperature-------------------------- 10℃ Inactive Time ----------------------- > 24 hours 1.4.5 Defects 1.4.5.1 Visual Inspection The LCD panel shall be inspected with all pixels set to white,black , red , green , and blue. The color variation, brightness variation , and overall appearance must not be perceived as poor quality by Lite-On . Areas and / or parameters considered questionable shall be subjected to detailed measurements . ACER G24 1. Product Specification (continued) 7 Go to cover page 1.4.5.2 Display Degradation Over the life of the product , variation of the parameters 1.4.5.6 Smudges, Streaks and Smears specified in Panel specification shall be maintained When viewing the panel oriented so as to maximize within reasonable limits.The panel must not exhibit any reflected light , there shall be no visible smudging , significant defects while in operation ( excluding the streaking, smearing or other nonuniformity from CCFL operation ).This does not in any way change the contaminants ,fingerprints,or defects in any of the warranty given by the panel manufacturer . visible surfaces. This is independent of whether the 1.4.5.3 Light Leakage unit is operating or off . Except for the active display area , there shall be no 1.4.5.7 Other Defects light emission visible from any angle from any other part Undefined defects that are considered to be of the display . For this test , the ambient illumination rejectable by Lite–On will be reviewed by Lite-On as must follow panel's specification. they become apparent. These panels will be referred 1.4.5.4 Allowable Defects No cosmetic defects are allowed except those specified below.The conditions of visual inspections are as follows to the Lite - On Corporate / Manufacturer Purchasing Agreement for disposition. 1.4.5.8 LCD Inspection For 24W Series. Put LCD panel on inspection table and illuminate the ■Viewing distance is to be approximately 35-50cm panel with a daylight fluorescent lamp located above ■Ambient illumination is to be 300 to 700 lux. the panel surface such that the luminance at the ■Viewing angle shall be at 90 degree. LCD panel is between 1000 lux and 1500 lux .Defect limits are given in Table 4 . ■Defects not apparent within one minute shall be ignored. 1.4.5.5 Defect Terminology Table 3 gives the descriptive terms used in classifying defects. D a rk / S p o ts / L in e s S p o ts o r lin e s th a t a p p e a r d a rk in th e d is p la y p a tte rn s a n d a re u s u a lly th e re s u lt o f c o n ta m in a tio n . D e fe c ts d o n o t v a ry in s iz e o r in te n s ity (c o n tra s t) w h e n c o n tra s t v o lta g e is v a rie d . C o n tra s t v a ria tio n c a n b e a c h ie v e d th ro u g h th e u s e o f v a ry in g g ra y s h a d e p a tte rn s . B rig h t S p o ts / L in e s S p o ts o r lin e s th a t a p p e a r lig h t in th e d is p la y p a tte rn s . D e fe c ts d o n o t v a ry in s iz e o r in te n s ity (c o n tra s t) w h e n c o n tra s t v o lta g e is v a rie d . C o n tra s t v a ria tio n c a n b e a c h ie v e d th ro u g h th e u s e o f v a ry in g g ra y s h a d e p a tte rn s . P o la riz e r S c ra tc h W h e n th e u n it lig h ts , lin e s a p p e a r lig h t (w h ite ) w ith d is p la y p a tte rn s d a rk a n d d o n o t v a ry in s iz e . P h y s ic a l d a m a g e to th e p o la riz e r th a t d o e s n o t d a m a g e th e g la s s P o la riz e r D e n t W h e n th e u n it lig h ts , s p o ts a p p e a r lig h t (w h ite ) w ith d is p la y p a tte rn s d a rk a n d d o n o t v a ry in s iz e . P h y s ic a l d a m a g e to th e p o la riz e r th a t d o e s n o t d a m a g e th e g la s s . R u b b in g L in e N e w to n R in g M o ttlin g D im L in e H o riz o n ta l o r d ia g o n a l lin e s th a t a p p e a r g ra y w ith th e d is p la y p a tte rn s d a rk a n d m a y h a v e re s u lte d fro m a n “ o u t o f c o n tro l” ru b b in g p ro c e s s o n th e p o ly im id e o r “ w a v e s ” o n th e B E F s o r p ris m s h e e ts . T h e “ ra in b o w ” e ffe c t c a u s e d b y n o n -u n ifo rm c e ll th ic k n e s s . W h e n th e u n it lig h ts , v a ria tio n / n o n – u n ifo rm ity (s p lo tc h in e s s ) a p p e a rs lig h t (w h ite ) w ith th e d is p la y a n d m ig h t v a ry in s iz e . W h e n th e u n it lig h ts , lin e (s ) in th e m o n ito r (v e rtic a l) o r m a jo r (h o riz o n ta l) a x is a p p e a r d im , b u t n o t c o m p le te ly o n o r o ff. C ro s s L in e s O ff W h e n th e u n it lig h ts , lin e s in b o th th e m in o r a n d m a jo r a x is d o n o t a p p e a r. B rig h t / D a rk D o t A s u b – p ix e l (R ,G ,B d o t) s tu c k o ff / o n (e le c tric a l). Average Diameter smaller of (L+W)/2 or L/20+2W Acceptable Number Minimum Separation < 0.1mm Non countable N/A 0.1 mm ~ 0.3 mm 10 15 mm 0.31 mm ~ 0.5 mm 10 15 mm 0.51 mm ~ 1.25 mm 5 15 mm 1.26 mm ~ 2.5 mm 3 25.4 mm 2.51 mm ~ 3.75 mm 3 25.4 mm Greater than 3.75 mm NONE Not applicable Note : Allowable distance between spots of two sizes is the minimum separation number for the smaller spot. Therefore, if there are two spots, 1.30mm and 0.4mm in diameter, they must be at least 15mm apart. 1.5 Optical Characteristics Depends on the LCD supplier's spec. Details refer to QA Inspection Spec. 8 ACER G24 Go to cover page 2.1 MAIN OSD MENU Outline: The description for control function: 2 OSD Menu 2. OSD Manu (continued) ACER G24 Go to cover page 9 10 ACER G24 Go to cover page 3.1 Packing Exploded Diagram 3. Exploded Diagram 3. Exploded Diagram (continued) ACER G24 Go to cover page 3.2 Product Exploded Diagram 11 ACER G24 12 4. Assembly and Disassembly Procedures Go to cover page 4.1 Assembly procedures: Connect the cable between power board(P802) S1 and interface board (P301) Use a Phillips-head screwdriver screwed the S4 No.1~4 screws till that interface board and bracket Connect the function key cable into interface chassis base firmly attached. board(P303) (No1~4 screw size=M3x6; Torque=9~10KGFxCM). Connect the cable between power board(P803)and 2 3 inverter board (Cn001) Connect the FFC cable into interface board P301 1 4 P802 CN01 P803 P303 S5 Take a bracket chassis base on a protective S2 Take the key function cable out from the hole shown as photo Fix the function key cable with a PVC tape cushion and stick an insulator on the specific position, take a power board and turn it over. Then, put it on the specific positions of bracket chassis base. No.1~5 screws till that power board and bracket Turn over the bracket chassis base then fix the inverter board Use a Phillips-head screwdriver screwed the No.1~4 screws till that inverter board and bracket chassis base firmly attached. chassis base firmly attached.(No1~4 screw (No1~4 screw size=M3x6; Torque=9~10KGFxCM). S6 Use a Phillips-head screwdriver screwed the S3 size=M3x6; No5 screw size=M4x8; Torque=9~10KGFxCM). 4 2 1 1 2 3 3 5 4 4. Assembly and Disassembly Procedures (continued) ACER G24 13 Go to cover page S7 Connect cable into inverter board(CN001) Take an inverter shielding bracket to cover the inverter board Use a Phillips-head screwdriver screwed the No.1~6 screws till that inverter shielding bracket and bracket chassis base firmly attached. (No1~6 screw size=M3x4; Torque=9~10KGFxCM). Plug in parallel direction 1 4 CNOO1 5 2 3 6 Angel < 5 degrees Connect the FFC cable to the connector of the LCD S8 panel. Take lamp cables out from the holes shown as the S10 photo. Turn the monitor faced down and put it on the S9 bracket chassis module till both parts firmly Connect FFC cable to LCD panel. There are two locks over here when plugging in should be noticed Plug 6 lamp cables to the connectors of inverter S11 board. ACER G24 14 4. Assembly and Disassembly Procedures (continued) Go to cover page S12 Use a Phillips-head screwdriver screwed the No.1~4 screws on both side and assemble the Take a key function board to hook with front S16 bezeland connect to key function cable. LCD panel and bracket chassis module. (No1~4 screw size=M3x6; Torque=2.5 KGFxCM). 2 1 4 3 S13 Use a Phillips-head screwdriver screwed the No.1~2 screws. (No1~2 screw size=M4x10; Torque=5~7KGFxCM). Put a rear cover on the assembled unit and S17 press on force mechanisms locked and firmly attached. 1 2 4 4 3 3 2 2 Use a Hex-head and Phillips-head screwdriver S14 screwed the DVI , D-SUB and HDMI connectors 1 1 (No.1~4 Hex Nut screws Size=M3x8;Torque=6.5±0.5KGFxCM). (No.5 screw size=M3x8; Torque=6.5±0.5KGFxCM). Assemble the stand upper side to the rear cover S18 1 2 5 3 4 through the way of screwing 4 screws till both units firmly attached. (No1~4 Screw Size=M4x10; Torque=13 1 KGFxCM). Use a Phillips-head screwdriver screwed the S15 No.1~2 screws. (No1~2 screw size=M3x6; Torque=5~7KGFxCM). 1 2 1 3 2 4 ACER G24 4. Assembly and Disassembly Procedures (continued) 15 Go to cover page Assemble the hinge cover into both two sides S19 S23 Take two cushion foams; one is held the above side of LCD monitor, and another is held the below side. S20 Stick a screen card on the front bezel with two tapes. Put accessories of stand, DVI cable, and S24 user’s manual ,power cable on specific positions as photo below. PUT CABLE IN THIS POSITION S21 Stick Vista and TC003 label on the correct position the same as below photo PUT USER S MANUAL IN THIS POSITION Move previous assembled parts into the carton then S25 stick Vista and feature label on the carton then packing the carton Take a LDPE+EPE bag to cover the LCD S22 monitor. FEATURE LABEL VISTA LABEL ACER G24 16 4. Assembly and Disassembly Procedures (continued) Go to cover page 4.2 Disassembly procedures S1 Open the carton with a proper tool. S4 Put returned unit on a protective cushion,then remove LDPE+EPE bag. Tear off tapes to remove the screen protector card then turn over the LCD monitor (screen faced down), FEATURE LABEL VISTA LABEL S2 Take out all accessories including D-SUB cable power cable, DVI cables, user’s manual, and packing material from the carton. (Note: It depends on whether users returning the accessories.) PUT CABLE IN THIS POSITION S5 Disassemble the stand cover. PUT USER S MANUAL IN THIS POSITION S3 Take off two cushion foams S6 Use a Phillips-head screwdriver unscrew 4 screws to release the stand base. (No1~4 Screw Size=M4x10; Torque=13±1KGFxCM). 2 1 3 S7 4 Turn over the LCD monitor (screen faced up). 4. Assembly and Disassembly Procedures (continued) ACER G24 17 Go to cover page S8 Put the dissembled monitor closed to by myself S9 RIGHT SIDE Hold the one upside corner of the front bezel after separating the upside of the front bezel Using properly force to pull up front bezel that will let the locking mechanism of left side, right side and down side separated DOWN SIDE UP SIDE LEFT SIDE Wedge your finger between the front bezel and the panel, then pry up on the front bezel to disengage the locking mechanism. Hold one side of down side that had been separated from front bezel Use properly force to pull up front bezel S10 Insert steel rule between panel and front bezel .Using properly force to let the locking mechanism of front bezel and rear cover separated Separating all of the locking mechanism of the front bezel in turn S11 Unhook the key function board from front bezel, disconnect the key function cable ACER G24 18 4. Assembly and Disassembly Procedures (continued) Go to cover page S12 Use a Hex-head screwdriver unscrewed 5 screws to release the DVI ,D-SUB and HDMI connectors S15 Unplug 6 lamp cables (No1~4Hex Nut screws Size=M3x8;Torque=6.5 0.5KGFxCM). (No.5 screw size=M3x8; Torque=6.5 0.5KGFxCM). 1 2 5 4 3 S16 Disconnect the FFC cable to the connector of panel. Use finger to push the lock according to arrow direction then take out the FFC cable Use a Phillips-head screwdriver unscrewed the S13 No.1~2 screws to lease power plug (No1~2 screw size=M3x10; Torque=5~7KGFxCM). 1 S14 2 Use a Phillips-head screwdriver unscrewed the No.1~4 screws to disassemble the LCD panel Take out lamp cables right through the No.1-3 and bracket chassis module. S17 (No1~4 screw size=M3x6; Torque=2.5 1 square holes and separate the bracket chassis module and LCD panel apart. KGFxCM). 2 1 2 3 3 4 19 ACER G24 4. Assembly and Disassembly Procedures (continued) Go to cover page S18 Use a Phillips-head screwdriver unscrewed the Examine the panel surface accoring to inspection S21 criteria. Put it aside. No.1~4 screws to release the interface board. (No1~4 screw size=M3x6; Torque=9~10KGFxCM). 2 3 1 4 S19 Disconnect the cable from inverter board Use a Phillips-head screwdriver unscrewed the No.1~8 screws (No1~6 screw size=M3x4; Torque=9~10KGFxCM). (No7~8 screw size=M3x6; Torque=5~7KGFxCM). Use a Phillips-head screwdriver unscrewed the S22 Remove inverter shielding bracket No.1~5 screws to disassemble the power board. (No 1~4 screw size=M3x6; No 5 screw size=M4x8; Torque=9~10KGFxCM). 4 8 7 1 3 2 6 5 1 2 4 5 3 S20 Use a Phillips-head screwdriver unscrewed the No.1~4 screws (No1~4 screw size=M3x6; Torque=9~10KGFxCM). Disconnect all of the cable S23 Remove the inverter board 2 3 P301 1 4 P802 CN01 P303 P803 20 ACER G24 5. Troubleshooting Go to cover page 5.1 No display on the screen (Screen is black and colour of LED is amber.) Does OSM display upon pressing the “MENU” button? NG Proceed to “5.5 Abnormal OSM display” section. OK Check if the sync signal output from connected computer and the video cable is connected properly OK Proceed to “5.4 Abnormal Screen” section. NG Input the sync signal of computer, or change to a standard shipped cable for cross test. ACER G24 5. Troubleshooting (continued) Go to cover page 5.2 Nothing displays on the screen (Screen is black and colour of LED is blue.) Check if the backlight is slightly lightened from upper corners (right/left) of LCD panel Proceed to “5.3 Checking the backlight unit” section NG OK Does RGB video signals output from connected PC host? NG 1. Change pattern of video signal outputs from the PC host to optimum resolution. 2. Reconnect the video cable. 3. Cross-test the other workable video cable. OK Failure Point Check if OSM menu is displayed upon pressing the “MENU” key NG Check if video signal cable is connected properly between LCD monitor and PC host NG The cable is disconnected. OK Proceed to “5.4 Abnormal Screen” section. OK Check if 3.3V is supplied from I301 pin2; 2.5V is supplied from I303, pin2, and the 1.8V power is supplied from I302 pin2. Failure Point NG OK Check if the Voltage on I301, I303, I320 pin3 is high DC level at 5V. OK Failure Point I301, I302, I303, or I320 is damaged. Check all LVDS signal pins; output from I314 OK NG Failure Point Failure Point 1. The cable is broke between P306 and LCD panel. 2. LCD panel is defected. Printed wire is broke or short between P306, I314 NG 1. Printed wire is broken between P301 pin1, pin2, pin3, pin4 and I301, I303, I320. 2. Check power board 21 22 ACER G24 5. Troubleshooting (continued) Go to cover page 5.3 Check the backlight unit Check the BKLT_EN signal of rectangle input P301 pin11 at TTL high level. OK Failure Point NG Does the I306 pin16 output a TTLvoltage level at “H” status? <or> Is BKLT_EN signal of the rectangle being output? OK Failure Point Check the PWM signal supplied from I314 pin251 is a PWM, pulse-width modulation. OK Failure Point Inverter of LCD module is defected. NG 1. Printed wire is broke between I314 pin251 and P301. 2. I314 is defected. NG Printed wire is broken between I306 pin16 and P301. ACER G24 5. Troubleshooting (continued) Go to cover page 5.4 Abnormal Screen: Failure Point Check R.G.B video signals output from PC host to D-Sub R.G.B connector NG 1. Check connected PC host if there’s no R.G.B signals output. 2. Video signal cable disconnected. OK Failure Point Check the R.G.B signals on I314 pin40, pin42, and pin45 which should have voltage level at 0.7Vpp max. NG Green, Blue, Red signals are flow in the same path. In the case, the Red signal is example. 1. Printed wire is broken between D-Sub [R] and I314 pin45. 2. R391 is short. 3. C356 is open. 4. R390 is open. OK Failure Point Check all LVDS signal pins of I314 whether if output correct signals. OK Proceed to “5.8 Checking the resolution change IC movement” section. NG 1. The I314 is defected. 2. Printed wire is broken between I314 and P306. 23 24 ACER G24 5. Troubleshooting (continued) Go to cover page 5.5 Abnormal OSM display - OSD Adjusment Problem Failure Point Check the input TTL level whether if it was altered upon pressing the function keys. OK Proceed to “5.4 Abnormal Section” NG 1. 2. 3. 4. 5. 6. 7. 8. Printed wire is broken between P303 pin 2 and I306 pin 87. Printed wire is broken between P303 pin 3 and I306 pin 88. Printed wire is broken between P303 pin 4 and I306 pin 89. Printed wire is broken between P303 pin 5 and I306 pin 90. Printed wire is broken between P303 pin 6 and I306 pin 22. Printed wire is broken between P303 pin 7 and I306 pin 1. C325, C326, C327, C328, C329,C330 is short. R339, R340, R341, R342, R343, R346, R347, R348, R349, R350 ,R351, R352 is short or open. 9. I306 is defected. (Note: more than one components defected is possible.) ACER G24 5. Troubleshooting (continued) Go to cover page 5.6 Abnormal Plug and Play Operation 5.6.1 Abnormal DDC2 (D-SUB) Failure Point Confirm the output of serial data on I312 pin6 synchronize SCLK at TTL level NG I312 is defected OK Failure Point 1. The host machine isn’t communicating in DDC2 mode. 2. The video cable may have defected or may not be established connection for DDC. 3. The I312 pin6 and P304 pin15 may have no signal or incorrect. 4. The R374, R377 is open. 5. I312 pin6 is short. 6. The input source cable is defected. 7. Check I312 pin5 signal whether if correct. 5.6.2 Abnormal DDC2 (DVI) Failure Point Confirm the output of serial data on I313 pin6 synchronize SCLK at TTL level NG OK Failure Point 1. The host machine isn’t communicating in DDC2 mode. 2. The video cable may have defected or may not be established connection for DDC. 3. The I313 pin6 and P305 pin6 may have no signal or incorrect. 4. The R393 or R397 is open. 5. I313 pin6 is short. 6. The input source cable is defected. 7. Check I313 pin5 signal whether if correct. I313 is defected 25 26 ACER G24 5. Troubleshooting (continued) Go to cover page 5.7 Checking the interface circuit of sync signal 5.7.1 Checking the control circuit of horizontal sync pulse Failure Point Check the horizontal sync signal on I314 pin46 TTL level NG 1. 2. 3. 4. 5. Video cable is defected. Printed wire is broken between P304 pin13 and I314 pin46. FB305, R364, R363 is open. R371, C336, D305 is short. I311 is defected. OK Proceed to “5.8 Checking the resolution change IC movement” section 5.7.2 Checking the control circuit of vertical sync pulse Failure Point Check the vertical sync signal on I314 pin47 TTL level OK Proceed to “5.8 Checking the resolution change IC movement” section NG 1. 2. 3. 4. 5. Video cable is defected. Printed wire is broken between P314 pin14 and I314 pin47. FB306, R368, R369 is open or more than one component. R370, C335, D303 is short. I311 is defected. ACER G24 5. Troubleshooting (continued) Go to cover page 5.8 Checking the resolution change IC movement Is there +3.3V Supplied on I314 pin107, pin48, pin61, pin250, pin12, pin70, pin170, pin184, pin203, pin216, pin236, pin252, pin20, pin28, pin38, pin19, pin37, pin131? NG Proceed to “5.9 Checking the DC/DC converter circuit” section NG Proceed to “5.9 Checking the DC/DC converter circuit” section OK Is there +1.8V supplied on I314 pin16, pin22, pin50, pin2, pin78, pin96, pin143, pin160, pin181, pin225 OK Is 14.318MHz clock input to I314 pin35 and pin36 at TTL level during power on? NG Failure Point Is 14.318MHz clock output from X302 pin1 at TTL level during power on? X302 is defected. OK Failure Point Print wire is broken between X302 pin1 and I314, pin36 Is +3.3V supplied to I314 pin9 at low level (Reset again)? NG OK Failure Point Failure Point Check the output of 3.3V “H” pulse from I306 pin12 I314 is defected. OK Failure Point Print wire is broken between I306 pin12 and I314 pin9. NG I306 is defected. 27 28 ACER G24 5. Troubleshooting (continued) Go to cover page 5.9 Checking the DC/DC converter circuit Failure Point Check if the 5V is output from P301 pin1, pin2, pin3, pin4 to I301, I303, I320 pin3. NG Printed wire is broken between P301 pin1, pin2, pin3, pin4 and I301, I303, I320 pin3. OK Check if the 3.3V, 2.5V and 1.8V line voltage is output from I301, I302, I303 pin2 NG Is the output FB301 being supplied to I301, I303, I320 pin3? OK NG OK Failure Point Printed wire is broken between I301, I302, I303 pin2, and I314 power supply pin. Failure Point I301, I303, I320 is defected. Failure Point Printed wire is broken between I301, I303, I320 pin3 and output of FB301 5. Troubleshooting (continued) ACER G24 Go to cover page 5.10 Checking the inverter board circuit Does 22V output pin have voltage around 20V? Does On/Off pin have voltage over 3V? Does brightness pin have voltage in the range of 0V~3.2V? NG Check F101, I101, Q110, Q111, Q112, Q113 and repair them if be damaged OK Does I101 pin6 have 5V output? NG Check I101 and repair them if be damaged NG Check CCFL and repair if damage. NG Check I101 and repair if damage NG Repair 101 OK Check D102, D103, D107, D108, D114, D115, D112, D113 and repair if damage. NG Check Q104, Q105, Q106, Q107, Q108 and repair them if damage NG Check T101 and T102 if damage OK Does P101, P102, P103, P104 be firmly connected? OK Does I101 pin4, pin5 have triangle pulse? OK Does I101 pin1 have soft start edge up to 2.4V? OK Does I101 pin8 have voltage up to 1.2V from output detection? NG Does half bridge (Q104, Q105, Q106, Q107, Q108) work successful? OK Does transformer (T101, T102) have output AC voltage to P101, P102, P103, P104? OK Check panel module if damage 29 30 ACER G24 5. Troubleshooting (continued) Go to cover page 5.11 HDMI signal check 5.11.1 No video Check the TMDS signal from computer input on HDMI connector Failure Point NG 1.Check the host PC to see if there’s no TMDS signal output 2.HDMI cabled disconnected. Reconnect the cable till firmly connected 3.P311 is disconnected. Reconnect the cable till firmly connected OK Check the TMDS signal of I322 Failure Point OK I322 was damaged. NG Failure Point I314 was damaged 6. Firmware Upgrade Process ACER G24 31 Go to cover page Hardware Configuration Select AUTO DETECT button that will automatically detect the device then shows “OK” on the right side. S2. Press [Connect] button. Connect VGA cable between monitor and kit Connect printer cable between PC and kit Mstar ISP Utility Configuration: Launch the utility of “ISP_Tool Winbond 0315.exe” There s a Dialog window shown on the screen. It is the meaning of connection successful . Press Config button Check the video cable and ISP board (D-sub to Printer port) between LCD monitor to PC host to see if it disconnected. ACER G24 32 6. Firmware Upgrade Process (continued) Go to cover page Press [Device] button to select the “ WP pin pull to high Press [Run] button and waiting for firmware upgrade during ISP “ completed .The screen will show “PASS” Press [Read] button. 1. Press Read folder to browse firmware image. 2.The position according to where the firmware be put Check firmware version Turn off the power,then press force on “ POWER ” and “ E ” button at the same time then press on “ MENU ”button to enter factory mode Note: Please pay attention ,Don’t change any parameter which is measured by precise machine before shipping out 1 2 Press [Auto] button When you writing F/W face on interrupting that cause monitor shut down . You can unplug AC power then press “AUTO”button and plug AC power at the same time to solve this problem then re-write F/W again. ACER G24 7. Writing EDID Process 33 Go to cover page 1 Writing EDID Procedure Hardware Configuration: 1.)Connect the PRINTER PLUG of DDC FIXTURE with the printer port of Desktop PC. (Refer to figure 1) 2.)Plug USB A PLUG of DDC FIXTURE to USB socket of Desktop PC (Refer to figure 2) 3.)Extend the DVI cable on DVI EXTENDING SOCKET of DDC FIXTURE. (Refer to figure 3) 4.1)Connect the D-sub plug of Chroma with D-SUB PLUG of DDC FIXTURE (Refer to figure 4) 4.2) Take a video cable then connect the D-SUB PLUG and the D-sub socket of monitor. (Refer to figure 5) 5.)Connect the extended DVI cable to DVI socket of monitor (Refer to figure 5) 6.)Re-confirm all the connectors are connected well. D-SUB PLUG DVI EXTENDING SOCKET USB A SOCKET PRINTER PLUG 4 3.Select Model: Key in password”cedid” then select model which one you want to write EDID code that it depends on panel type. DVI EXTENDING SOCKET USB A PLUG 1 2. Writing VGA/DVI Process Chose the folder:”Acer-VGA&DVI” then double click Select the “Acer-M1&M3-XPEDID-DVI-.exe” to execute it 2 5 3 6 CAUTION: The timing of Chroma shall be setup at T254/ P41 before data recording. the detail setting parameter from chroma .Please See below photo cedid 34 ACER G24 7. Writing EDID Process (continued) Go to cover page 4. Choose "WRITE" from menu then select "Scan S/N And Write EDID And Test DDC” 5. Key in series number(22 characters) in the input column Press write button after key in S/N 6. When EDID was written successfully that will show below message on the screen Writing HDMI Process Chose the folder:”Acer-HDMI” then double click Select the “acer HDMI.EXE” to execute it According to the previous process(step3-step6) to write HDMI-EDID. 8.Schematics and Layouts AC 110/220v Input Power Board Inverter Board 1 2 2 8.1 ACER_LCD_G24_SCHEMATICS_BLOCK DIAGRAM A B C D E F G 1 3 3 4 DC-DC 5v-3.3v 3.3v-1.8v Brightness,Inv_On/Off +5V P301 I326 I320 I302 I321 Digital Video Input HDMI DDC 24LC02B DDC_SCL_D DDC_SDA_D 4 5 6 LCD Module LTM240CT03 DVI-D Switch 7 LVDS Scaler 8 P306 9 I306 MCU W79L659A25FL XTAL 14.3MHZ I312 9 P304 D_SUB_SCL D_SUB_SDA DDC 24LC02B Analog Video Input DSUB I314 8 R,G,B,Hs,Vs MST 9259D 7 P305 I322 TMDS LTM240CT01 DDC_SCL_D1 DDC_SDA_D1 P311 6 Digital Video Input DDC 24LC02B I313 EM6A9320BI DDR I315 5 10 10 I307 11 Flash W39L040Ap70Z 11 12 P303 12 PCB No. 13 Function Key Board 13 A B C D E F G ACER G24 Go to cover page 35 P801 L 1 1 3.15AH250V F801 0.47U/275V 2 C806 0.33U/275V T802 ET-24 C802 1000P/250V R0805 R823 61.9K C813 X7R C811 1U 1206 3 C817 102P 0805 X7R R877 R0805 10 R853 C828 680P/250V VRMS RI OTP IEA IPFC 1 - 4 D811 1N4007-G 4 C809 L801 280uH 5 CUT T804 PQ2625 L806 6 BEAD/6mm Q802 FQPF13N50C R831 10K R0805 + 7 VAUX 5.2V 200 R0805 R821 1N4148 2 D806 C804 4700P/1KV 1 8 D801 5 T801 PQ-3225 C805 2200P/250V FBPWM 1KV X7R C847 100P 6 3 4 CUT 2 R860 270 R1206 R818 0.33 2W P6KE180A D804 LT2A06 -G Q801 17A/800V R817 10K R1206 2 8 C841 0.1 0805 X7R C826 1U 1206 X7R C837 1000U/25V + VBUS R869 100K/2W R868 0.22 1W R878 680k R1206 R804 680k R1206 R805 680k R1206 1 R806 24K R1206 R820 10 R0805 R829 100 R0805 L803 2.8U C836 1000U/25V R857 4 I807 LTV817 3 VDD 1K R60A 7 10K R1206 R859 Q806 KN2907A Q807 KN2222A + VBUS1 C807 103P 1KV X7R + C835 C810 222P 1206 X7R + C839 VA 30K R0805 R858 ZD801 22B 1000U/25V 1000U/25V 6 R854 22K R60A R875 100 R60A R833 15K R0805 1KV X7R C801 150U/450V C848 100P BEAD/6mm D803 5A/600V L804 R807 10K R1206 C858 100P 1KV X7R 1N4148 R809 10 D805 R0805 1 2 R832 100 R0805 VDD C819 104P 0805 X7R D817 X R872 R1206 R855 20K R0805 C840 2200P 0805 X7R D816 FCH30A10 20 D815 R1206 FCH30A10 R873 220P/100V X7R 20 C845 10 R856 4.7K R0805 I806 AP431 1% 12 2200P/250V C812 T805 PQ2625 C856 1uF/450V MEF/P15 R812 604K R1206 C849 4700P 1KV X7R D812 1N4007-G + R813 604K R1206 R830 47K R0805 R843 220 R0805 C833 47U/50V VAUX D809 1N4937-G 3 4 6 CUT 2 C818 103P 0805 X7R R841 3.3 + 1 1U 1206 X7R C855 1uF/450V MEF/P15 11 12 13 14 15 16 17 18 19 20 0.43 2W 0.43 2W R815 R814 4700P 1KV X7R C850 D802 4A/800V R811 IAC VEA OVP RANGE OPFC VDD ISENSE SS OPWM GND IPWM SG6901 R850 0.33 2W C846 R75A 100P 1KV X7R VA L805 D808 PG108R D807 C843 4700P/1KV P6KE150A BEAD/6mm Q803 7N65C VBUS AGND FBPWM IMP FBPFC 2.4M 2.4M R1206 R1206 I801 R810 C829 680P/250V 1 2 3 4 5 6 7 8 9 10 D814 2 2 1N4148 1 100 D810 R0805 1N4148 R849 1 R874 100K/2W T803 RING CHOKE C808 1000P/250V 4 100 R0805 R851 10K R1206 1 R842 1K R0805 + 5 1 R802 C803 510K R1206 R803 510K 2 R824 24K R0805 R825 102P 0805 X7R C814 100P 0805 X7R 10K R0805 C815 NC R827 5 6 7 8 2.7KR0805 C816 102P 0805 X7R I803 GATE VDD RT SENSE C834 4.7U/50V + I804 LTV817 2 C838 4.7U/50V 3 1 3 2 R1206 R826 2.7K R0805 R828 RI VIN FB GND 100 R1206 R844 510K R1206 R845 510K R1206 1 2 3 4 3 C832 470P 0805 X7R 4 3 4 4 5 10 G N CON3 SCK055 R801 FBPWM 4 R879 510K R1206 VBUS1 C830 X7R 102P 0805 2 SG5841J C831 470P 0805 X7R 3 2 8.2 ACER_LCD_G24_SCHEMATICS_POWER BOARD A B C R846 100 R0805 C857 0.1U 1206 X7R R847 33.2K R0805 1 3 2 3 3 2 2 3 D E F G 1 1 1 12 9 4 3 9 C822 220P 1KV 1 2 10 x R1206 R876 R839 18.7K 1% R0805 R838 169K 1% *** + + C824 C823 1000U/35V 1000U/35V R871 R1206 20 R870 20 R1206 R835 1.2K 0805 10 C821 0.01U 0805 X7R R822 1K 0805 R836 I805 AP431 1% 4.7K R0805 X7R D813 20A/150V I802 LTV817 C820 1U 1206 X7R 9 L802 2.8U 11 11 + C825 1000U/35V 12 24V C827 1U 1206 X7R 12 PCB No. 24V 24V 24V 24V GND GND GND GND BRI ON-OFF ON-OFF BRI 5V-RTN 5.2V 5.2V 5.2V 5.2V 5.2V 5.2V GND GND GND OFF P803 TO INV 2.0 1 2 3 4 5 6 7 8 9 10 2.0 13 12 11 10 9 8 7 6 5 4 3 2 1 P802 13 13 6832194100P01 A B C D E F G ACER G24 Go to cover page 36 1 1 2 3 4 5 P301 +5.1V +5.1V +5.1V +5.1V 5V_RTN 6 7 8 9 10 11 12 13 1 3 2 TP1 GND SOT-223 VOUT TAB AIC1117A-33PYTR ADJ(GND) VIN I301 JWT-A2001WV2-13P GND GND GND AUDIO_DET AUDIO_EN BKLT_EN BKLT_ADJ OFF +5V C312 220u/25V 4 2 TP13 TP17 100u/10V C313 +3V3 3 8.3 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_POWER A B C GND 3 OFF R570 4.7K TP549 +5V 10K R301 Q331 MMBT3904 GND TP546 R568 4 0 I316 1 2 3 FOR POWER SAVING CONTROL TP14 5 6 7 +3V3 C306 C307 TP8 C305 TP7 C304 TP5 C302 0.1u TP4 C301 0.1u TP470 PBY201209T-170Y-S 5.6K(NC) 100(NC) 100(NC) 100 100 100 FB301 PBY201209T-170Y-S R302 R303 R304 R305 R306 R496 FB302 C493 0.1u +5VD +5VD 0.1u R308 +5V 8 TP455 TAB VOUT SOT-223 VCC_LCD1 VIN I326 ADJ(GND) 1 3 9 AUDIO_DET BKLT_ADJ 6 3 1K +5V +5V +3V3 OFF 3 +5VD GND GND 11 VIN I303 +5V GND +5V GND VOUT TAB 12 R500 TP456 10K(NC) R501 47K(NC) Q313 MMBT3904(NC) TP458 R502 10K AUDIO_EN 13 TP457 TP459 BKLT_EN 3 TP23 C315 100u/10V TP22 6832194600P0 13 100u/10V C314 +1V8 +2V5_VDDM R503 47K Q314 MMBT3904 2 4 2 4 PCB No. 12 TO-252-GOI ADJ(GND) TAB VOUT AP1117E25L-13 TO-263 I302 VIN ADJ(GND) H161R315-8 8 1 AIC1084-18PMTR M304 1 3 1 3 HI==> POWER ON TP543 10 R505 10K 100 10K R504 TP460 R565 TP542 R567 TP545 C538 +3V3D 10uF M303 100u/10V C491 TP428 GND C536 4 2 10uF Q325 MMBT3904 Q315 MMBT3904 2 4 TO-263 VOUT TAB AIC1084-33PMTR ADJ(GND) VIN I320 AIC1117A-33PYTR GND 1 3 0.1u C537 +5VD C535 GND 4.7u GND TP16 C311 VCC_LCD2 FB303 C310 PBY201209T-300Y-S TP15 4.7u TP544 0.1u VCC_LCD2 0.1u 5 6 7 8 TP547 3 Q302 AO3401 FDS4435 C309 2 R307 M302 4 5 11 GND 2 M301 1 8 H161R315-8 7 100K 4 5 GND 3 0.1u 1 8 H161R315-8 10 6 0.1u 4 5 GND 2 +3V3 TP18 1 8 H161R315-8 9 7 0.1u 30K GND 8 3 10K R309 4 5 7 2 C308 TP19 GND 6 3 7 R488 47K D301 MM4148 5 6 TP9 TP10 TP11 TP12 6 GND TP21 47K Q301 MMBT3904 4 2 220u/25V TP446 R489 47K Q309 MMBT3906 TP20 R310 3 1 D VCC_LCD1 3 LCD_EN TP445 2 3 7 E F G 1 6 4 3 A B C D E F G ACER G24 Go to cover page 37 8 1 CAM_MIC_DIAG 1 2 I305 STL8110PCH300 OUT GND VCC 2 TP54 TP469 R526 10K(NC) +3V3 GND Q324 MMBT3904(NC) R322 4.7K(NC) 0 0 R337 10K 4.7K(NC) 47K(NC) 4 4.7K(NC) 4.7K(NC) 3 +3V3_VDD R476 R525 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 8 USB_EN USB_DET R468 R469 8 2 RD WP TP468 TP70 4.7K R342 10K TP76 R336 10K R335 4.7K 100 0 100 6 INT 6 ALE 2 LCD_EN BKLT_EN 4 WP_EN 4 DSUB_DET 5 DVI_DET HP_DET_DVI 6 HWRESET 5 R470 R471 R472 R473 R474 R475 +3V3_VDD +3V3_VDD 0 RXD 0 R325 TXD R467 R327 R524 0 TP95 TP96 R328 MSCL MSDA R338 10K +3V3_VDD WE VGA_SCL_3V SELECT R523 VGA_SDA_3V 10u/50V(NC) C318 +3V3 GND TP67 WP R344 R345 6 +3V3_VDD TP89 R341 10K 10K R340 10K R354 TP117 10K 4.7K TP109 R357 TP540 R360 R361 TP116 E LED_B LED_A RST ISP 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 2 3 4 5 22p 22p NC NC NC NC P5.0 P5.1 P5.2 P5.3 RST P5.4 P5.5 P5.6 P5.7 P3.0/RXD P4.3 P3.1/TXD P3.2/INT0 P3.3/INT1 P3.4T0 P3.5/T1 P3.6/WR NC NC NC NC NC 5 R352 10K TP84 C322 X301 24MHz C321 TP77 POWER MSCL MSDA GND R343 10K Q303 MMBT3906 TP105 Q304 MMBT3906 TP113 5 R346 R347 R348 R349 R350 R351 GND GND 6 R479 R478 R477 7 +3V3_AVDD +3V3_VDD 4.7K(NC) 4.7K(NC) 4.7K(NC) +3V3 8 5 GND MAD0 MAD1 MAD2 9 C487 TP24 C317 0.1u +3V3 R331 10K R332 TP71 10 R512 2 2 +5V TP429 C488 0.1u 6 11 GND DVI_SDA 11 VGA_SDA_3V VGA_SDA DVI_SDA_3V TP467 TP58 WR R321 4.7K 6 +5V AD[0..3] +3V3_VDD GND FB339 +3V3_AVDD PBY201209T-300Y-S 10 Q320 2SK3018 R510 X4.7K +3V3_VDD 4.7K(NC) R514 Q318 2SK3018 R508 X4.7K +3V3_VDD 4.7K(NC) TP500 TP501 TP502 TP503 +3V3_VDD DVI_SDA_3V DVI_SCL_3V VGA_SDA_3V VGA_SCL_3V 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 4.7K(NC) 0.1u R311 R312 R313 R314 R315 R316 R317 R318 0R 0R 0R 0R MAD3 MAD4 MAD5 MAD6 MAD7 4.7K(NC) TP57 TP60 R319 R320 R323 R324 MALE PSEN TP63 TP65 TP68 R522 A14 A13 A12 10K +3V3_VDD R330 TP88 10K 9 TP87 R329 TP86 10 9 8 7 6 5 4 3 2 1 10K GND EX POWER PLUS MINUS MENU SELECT TP85 TP78 TP79 TP80 TP83 SDA2 SCL2 SDA1 SCL1 FB304 +3V3_VDD PBY201209T-300Y-S I306 W79L659A25FL 80 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 79 78 77 76 75 74 A11 A10 A9 A8 AD3 AD2 AD1 AD0 DVI_HDMI_SW AUDIO_DET 2 AUDIO_EN 2 OFF 2 NC NC NC NC NC NC P0.3/AD3 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 P6.7/SDA2 P6.6/SCL2 P6.5/SDA1 P6.4/SCL1 EA /EA P4.1 ALE /PSTN P2.7/A15 P2.6/A14 P2.5/A13 P2.4/A12 +3V3_VDD TP601 C330 TP94 C329 TP93 C328 TP92 C327 TP91 C326 8 LED_BLUE LED_AMBER C325 GND 0.1u GND 0.1u GND 0.1u GND 0.1u GND 0.1u GND 7 0.1u TP90 GND 1K 1K 1K 1K 1K 1K GND LED_BLUE C331 0.1u LED_AMBER C332 0.1u 6 MALE MAD0 MAD1 MAD2 MAD3 MAD4 MAD5 MAD6 MAD7 1 11 3 4 7 8 13 14 17 18 12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 30 1 I304 2 5 6 9 12 15 16 19 +3V3_VDD I307 IO1 IO2 IO3 IO4 IO5 IO6 IO7 IO8 31 24 22 A0 A1 A2 A3 A4 A5 A6 A7 13 C316 0.1u GND DVI_SCL TP55 TP56 TP59 TP61 TP62 TP64 TP66 TP69 TP25 TP26 TP27 TP32 TP33 TP42 TP43 TP44 C319 0.1u GND MAD0 MAD1 MAD2 MAD3 MAD4 MAD5 MAD6 MAD7 WE PSEN +5V +5V 6832194600P0 13 VGA_SCL_3V VGA_SCL DVI_SCL_3V TC7SU04FU I308 4 +3V3_VDD WE OE CE C323 0.1u 13 14 15 17 18 19 20 21 74LVC373A Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 +3V3_VDD 12 D0 D1 D2 D3 D4 D5 D6 D7 OC G GND A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 10K GND TP75 TP74 TP73 TP72 R513 4.7K(NC) 2 2 4.7K(NC) +3V3_VDD Q321 2SK3018 R511 X4.7K PCB No. 12 R515 Q319 2SK3018 R509 X4.7K +3V3_VDD SDA2 SCL2 SDA1 SCL1 GND 2 R520 GND W39L040AP70Z A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 5,6 4 20 VCC TP431 TP432 TP433 TP434 TP435 0(NC) 0(NC) 0(NC) 0(NC) 0(NC) TRST R481 TDO R482 TD R483 TMS R484 TCK R485 UP DOWN MENU SELECT 8.4 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_MCU AND FUNCTION KEY A B 3 C320 0.1u I309 8 7 6 5 +3V3_VDD R339 10K POWER UP DOWN MENU SELECT E +5V Q316 MMBT3904 4.7K 4 TP28 TP29 TP30 TP31 A18 A17 A16 A15 8 7 6 1 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 GND 10 32 VCC VSS 16 C324 0.1u VCC WP SCL SDA P302 JWT-A2001WV2-4 4 3 2 1 4 3 2 1 TP97 TP98 TP99 TP102 TP103 TP600 LED_B R506 +5V Q317 4.7K TP465 MMBT3904 TP463 LED_B ACTIVE LOW TP108 +3V3 R507 LED_A LED_A ACTIVE LOW TP110 +3V3 3 5 3 A0 A1 A2 VSS 24LC16B +3V3_VDD TCK TMS TD TDO TRST INT ISP DVI_HDMI_SW ALE HWRESET HP_DET_DVI DVI_DET DSUB_DET GND R333 4.7K(NC) P1.7 P1.6 P1.5 P1.4 P1.3/PWM3 P1.2/PWM2 P1.1/PWM1 P1.0/PWM0 P4.2 TRST TDO TD TMS TCK P7.7 P7.6 P7.5 P7.4 AVDD VDD VDD P0.0/AD0 P0.1/AD1 P0.2/AD2 P3.7/RD XTAL2 XTAL1 NC AVSS VSS VSS NC P4.0 P7.0 P7.1 P7.2 P7.3 P6.0 P6.1 P6.2 P6.3 P2.0/A8 P2.1/A9 P2.2/A10 P2.3/A11 NC NC NC NC NC 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 1 2 3 4 GND TXD RXD TP442 TP441 TP440 TP439 TP438 TP46 TP47 TP48 TP49 TP50 TP51 TP52 TP53 2 P303 JWT-A2001WV2-10p TP100 TP101 R334 4.7K(NC) C D E F G 1 3 1 3 1 3 1 3 1 TP81 TP82 5,6 4 A B C D E F G ACER G24 Go to cover page 38 1 DSUB Connector P304 8 15 7 14 6 13 5 12 4 11 3 10 2 9 1 GNDA 2 VSYNC TP131 GND HSYNC BAV99 BLUE +5V_VGA VGA_RX VGA_TX TP135 TP138 TP124 GND TP134 3 GNDA +5V 4 GND 27p C335 SBK201209T-431Y-S FB306 FB305 D314 +5V TP142 NC 100 NC 100 5 R367 R369 R362 R364 TP129 TP122 11 3 10 R386 47 R486 470 R387 10 R389 47 R390 10 R392 47 6 I311E 10 74LVC14 I311B 4 C358 0.047u TP128 TP121 I311F BIN0M 6 SOG 6 GIN0P 6 GIN0M 6 RIN0P 6 RIN0M 6 7 12 74LVC14 +3V3 74LVC14 I311A 2 7 GND 1 13 DSUB-SCL DSUB-SDA VGA_SDA 3 TP149 TP154 TP443 TP156 TP161 TP163 TP168 BIN0P 6 VGA_SCL 3 TP139 R378 0 74LVC14 6 TP169 C356 0.047u TP164 C354 0.047u TP162 C344 0.047u TP157 C489 1000p TP444 C342 0.047u TP155 C340 0.047u TP150 TP137 TP136 R380 0 R381 DSUB_DET 3 NC R382 TP140 VGA_TX NC TP151 TP165 R384 VGA_RX NC TP158 NC FB311 C357 0R FB309 C353 0R FB307 C341 0R TP123 TP130 R370 2.2K GND R371 2.2K R374 R375 GND 0 0 R376 TP152 TP159 GNDA R385 75/1% 4.7K GND 27p C336 SBK201209T-431Y-S TP146 TP141 GND GND 8.5 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_VGA INPUT A B C D GNDA CONNECTOR DB15 GNDA 0.1u C343 D324 R388 75/1% GNDA TP166 R391 75/1% NC 5 8 100 TP127 100 TP118 8 R368 C334 NC GND R363 C333 NC GND +5V_VGA +5V 9 VSYNC0 6 TP132 HSYNC0 6 D302 TP120 MM4148 D307 5 DDC_WP MM4148 DSUB-SCL DSUB-SDA 9 R492 10K TP133 10 TP449 GND C339 47p C338 11 5 9 I311C 6 74LVC14 I311D 8 +3V3 74LVC14 R497 100 R379 DDC_WP 100 R377 TP453 Q312 MMBT3906 11 R372 4.7K 47K 47p R373 4.7K TP452 Q305 MMBT3904 GND GND 10 12 VCC WP SCL SDA 47K R493 47K TP126 8 7 6 5 +3V3 GND C361 0.1u R365 13 WP_EN 3 +5V_EDID TP125 1 2 3 4 1u C337 I312 A0 A1 A2 VSS GND 13 6832194600P0 24LC02B PCB No. 12 TP144 TP143 GREEN 0.1u C355 D325 +5V GNDA 4 D313 MMSZ5232B BAV99 GNDA RED 0.1u C359 3 MMSZ5232B D309 MMSZ5232B D308 MMSZ5232B D303 MMSZ5232B D305 NC D304 NC D306 BAV99 GNDA 2 MMSZ5232B D311 E F G 1 NC D310 NC D312 16 17 A B C D E F G ACER G24 Go to cover page 39 27 1 P305 1 2 3 4 5 6 7 8 2 R398 +5V_DVI 1K R400 3 DVI_RX2DVI_RX2+ DVI_RX1DVI_RX1+ TP172 DVI_RX0DVI_RX0+ DVI_RXC+ DVI_RXC- 4.7K +3V3 R517 47K GND DVI_DET TP454 GND 3 +5V 4 GND DDC_SCL_D 100R 100R R532 47K D326 C363 47p C364 R394 4.7K 47p DDC_WP +5V_EDID 7 R395 4.7K 1 2 3 4 1u C495 +5V_EDID D317 BAV99 C345 DVI_RX2+ 0.1u A0 A1 A2 VSS 24LC02B VCC WP SCL SDA I321 GND GND 8 7 6 5 GND +5V_EDID NC SCL1 SDA1 I328 PCA9515ADP 6 HDMI_RX0- HDMI_RX1- HDMI_RX0+ HDMI_RX1+ HDMI_RX2- HDMI_RX2+ C526 1uF 7 1 18 DDC_SDA_D HDMI_RXC- 7 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 HDMI_RXC+ 17 DDC_SCL_D 19 100 100 MM4148 6 DDC_WP TP485 DVI_RX2- D316 BAV99 GND C362 +5V_DVI GND R533 47K C499 X27p R397 R399 0.1u DDC_SCL_D1 DDC_SDA_D1 DDC_WP 5 4 MM4148 R531 GND TMDS_D2- TMDC_D1+ TMDS_GND2 TMDC_D1- TMDS_D0+ TMDS_GND3 TMDS_D0- TMDS_CLK+ TMDS_GND4 TMDS_CLK- CE_REMOTE_IN DDC_CLK_IN DDC_DAT_IN HOTPLUG_DET_IN 6 X27p C498 XMM4148 TP148 R383 4.7K DDC_SCL_D1 DDC_SDA_D1 +5V D340 GND 3 47K TP486 R555 +3V3 DDC_SDA_D TP487 CM2021 CEC_OUT DDC_CLK_OUT DDC_DAT_OUT HOTPLUG_DET_OUT I325 HP_DET_HDMI R530 +5V_HDMI D342 HP_DET_DVI TP476 100 D329 MMSZ5232B MMBT3904 Q329 20 21 22 23 TMDS_CLK-O TMDS_GND5 TMDS_CLK+O TMDS_D0-O TMDS_GND6 TMDS_D0+O TMDS_D1-O TMDS_GND7 TMDC_D1+O TMDS_D2-O TMDS_D2+ TMDS_GND1 GND1 LV_ SUPPLY 5V SUPPLY 6 TP173 0.1u 8 7 6 5 D327 I313 A0 A1 A2 VSS +5V C360 1u GND 9 10 11 12 0.1u C522 13 C352 0.1u C521 0.1u 0.1u C520 D323 BAV99 C351 DVI_RXC- 0.1u C519 3,6 3,6 0.1u RX2+ 6 RX2- 6 RX1+ 6 RX1- 6 RX0+ 6 RX0- 6 RXC+ 6 RXC- 6 DVI_SCL DVI_SDA DVI_HDMI_SW 6832194600P0 13 DVI_HDMI_SW=1, the voltage level must <=3.3V & >2V 0:DVI INPUT , 1:HDMI INPUT 100 100 C518 2 3 7 8 11 12 14 15 19 20 17 5 51 52 54 R528 R529 0.1u A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 SEL NC1 NC2 NC3 NC4 12 PCB No. 3 C517 0.1u +3V3HDSW 0B1 1B1 2B1 3B1 4B1 5B1 6B1 7B1 0B2 1B2 2B2 3B2 4B2 5B2 6B2 7B2 8B1 9B1 8B2 9B2 VCC VCC VCC VCC VCC VCC VCC 11 TS3DV520RHUR GND GND GND GND GND GND GND GND GND GND GND GND GND GND 0.1u D322 BAV99 C350 DVI_RXC+ FB343 48 47 43 42 37 36 32 31 22uF/50V PBY201209T-300Y-S C515 DVI_RX2+ DVI_RX2DVI_RX1+ DVI_RX1DVI_RX0+ DVI_RX0DVI_RXC+ DVI_RXC- 46 45 41 40 35 34 30 29 GND HDMI_RX2+ HDMI_RX2HDMI_RX1+ HDMI_RX1HDMI_RX0+ HDMI_RX0HDMI_RXC+ HDMI_RXC- 22 23 25 26 +3V3HDSW 1 6 9 13 16 21 24 28 33 39 44 49 53 55 4 10 18 27 38 50 56 DDC_SCL_D1 DDC_SDA_D1 DDC_SCL_D2 DDC_SDA_D2 GND C516 0.1u +3V3 +5V 10 I322 D321 BAV99 C349 DVI_RX0+ 4.7K 0.1u 4.7K D320 BAV99 C348 DVI_RX0- R535 9 R536 0.1u DDC_SDA_D2 D319 BAV99 C347 DVI_RX1+ DDC_SCL_D2 0.1u 1 2 3 4 XMM4148 8 VCC WP SCL SDA 24LC02B 1u 3 5 8 2 GND EN SCL0 SDA0 +3V3 GND C500 D318 BAV99 C346 DVI_RX1- TP183 32 31 RX2RX2+ GND RX4RX4+ SCL SDA VS 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 C1 C2 C3 C4 C5 TP190 MMBT3904 Q323 R437 HPD_I DDC_SDA_D DDC_SCL_D 24 25 26 27 28 29 30 31 32 33 TMDS_GND8 TMDS_D2+O GND2 ESD_BYP NC9 D332 MMSZ5232B RX1RX1+ GND RX3RX3+ 5V GND HP RX0RX0+ GND RX5RX5+ GND RXC+ RXCRED GRN BLU HS GND GND 100 R534 1K HPD_I C497 0.1uF D331 MMSZ5232B 8.6 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_HDMI AND DVI INPUT A 30 29 28 TP189 GND R401 C496 +5V_HDMI TP481 0.1u GND GND C486 TP451 0.1u GND DDC_SCL_D DDC_SDA_D GND HDMI_RXC- HDMI_RXC+ HDMI_RX0- HDMI_RX1- HDMI_RX0+ HDMI_RX1+ HDMI_RX2- 34 35 36 37 38 C525 D315 MMSZ5232B NC D328 NC D330 0.1uF 5 TP491 DVI-D TP482 DVI Connector 18 17 15 16 19 13 HDMI_RX0+ HDMI_RX0HDMI_RX1+ HDMI_RX1HDMI_RX2+ HDMI_RX2- 2 5 8 11 7 9 4 6 1 3 HDMI_RXC+ HDMI_RXC- 20 21 10 12 GND HDMI_RX2+ 4 TP484 B GND P311 shield shield shield shield +5V CEC/DDC GND DDC SCL DDC SDA HPD CEC Dat2 Dat1 Dat0 clk DAT0+ DAT0DAT1+ DAT1DAT2+ DAT2clk+ clkGND1 GND2 HDMI CONNECTOR GNDA 3 TP483 C D E F G GND 2 P.S. GND, GNDA must be connected. 1 TP490 D347 MMSZ5232B D333 MMSZ5232B TP182 8 VCC GND 4 D341 MMSZ5232B A B C D E F G ACER G24 Go to cover page 40 1 +3V3D FB313 AVDD_ADC PBY201209T-300Y-S C365 22u/50V BIN0M BIN0P GIN0M GIN0P SOG RIN0M RIN0P HSYNC0 VSYNC0 TP504 TP505 TP506 TP507 TP508 TP509 TP511 3 HWRESET 4 4 4 4 4 4 4 4 4 5 HP_DET_HDMI 3,5 DVI_SDA 3,5 DVI_SCL 5 RXC5 RXC+ 5 RX05 RX0+ 5 RX15 RX1+ 5 RX25 RX2+ GND 22u/50V C374 2 3 C367 22u/50V C368 0.1u C369 TP192 0.1u +1V8 FB314 AVDD_APLL PBY201209T-300Y-S C366 C377 TP196 0.1u GND 0.1u +3V3D FB318 AVDD_LPLL PBY201209T-300Y-S C376 GND TP201 TP202 100 C389 22p R402 10/1% 10/1% 10/1% 10/1% 10/1% 10/1% 10/1% 10/1% AD0 AD1 AD2 AD3 ALE RD WR INT R403 R404 R405 R406 R407 R408 R409 R410 GND X302 14.318MHz C382 22p 22u/50V ALE RD WR INT RXCKN RXCKP RX0N RX0P RX1N RX1P RX2N RX2P R411 390/1% 100 36 7 8 35 13 14 15 23 24 26 27 29 30 32 33 39 40 41 42 43 44 45 46 47 51 52 53 54 55 56 57 58 59 162 163 164 165 166 167 168 169 172 65 66 67 68 71 72 73 74 254 255 256 1 4 6 5 75 76 77 0.1u 63 TP239 64 TP240 251 TP235 9 TP236 21 TP237 62 0.1u C418 0.1u R412 C419 0.1u 3 C420 C417 AUMCK AUSCK AUWS AUSD MUTE TP203 C375 DVI_SDA DVI_SCL AUMCK AUSCK AUWS AUSD MUTE 3 3 3 3 AUMCK AUSCK AUWS AUSD C416 GND AVDD_DVI R413 0.1u(NC) GND 2 2 BKLT_ADJ 10K(NC) 9 9 9 9 3 AD[0..3] HP_DET_HDMI DVI_SDA DVI_SCL 0.1u +3V3D FB317 AVDD_MCLK PBY201209T-300Y-S TP195 GND TP191 8.7 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_SCALER A B C D E F G 1 4 5 AVDD_LPLL AVDD_APLL AVDDPLL2 AVDD18_DVI AVDD_MCLK AVDD_MPLL AVDD18_ADC AVDD_PLL AVDD_ADC AVDD_DVI XIN XOUT MDA MCL DDC_HPD DDC_SDA DDC_SCL RXCKN RXCKP RX0N RX0P RX1N RX1P RX2N RX2P BIN0M BIN0P GIN0M GIN0P SOGIN0 RIN0M RIN0P HSYNC0 VSYNC0 BIN1M BIN1P GIN1M GIN1P SOGIN1 RIN1M RIN1P HSYNC1 VSYNC1 NC NC NC NC NC NC NC NC NC DBUS[0] DBUS[1] DBUS[2] DBUS[3] ALE RDZ WRZ INT AUMCK/GPIO[3] AUSCK/GPIO[4] AUWS/GPIO[5] AUSD/GPIO[6] SPDIFO/GPIO[7] AUMUTE/GPIO[8] AUPWM/GPIO[9] GPIO[0] GPIO[1] GPIO[2] HWRESET REXT REFP REFM RMID PWM[0] 4 5 VDDC GND 6 6 VDDM I314A VDDP MST9259D 7 7 8 8 LVB1M LVB1P LVB2M LVB2P LVBCKM LVBCKP LVB3M LVB3P LVB4M LVB4P LVA0M LVA0P LVA1M LVA1P LVA2M LVA2P LVACKM LVACKP LVA3M LVA3P LVA4M LVA4P FG2N FG2P FG1N FG1P FG0N FG0P FR3N FR3P FR2N FR2P FR1N FR1P FR0N FR0P MDATA[0] MDATA[1] MDATA[2] MDATA[3] MDATA[4] MDATA[5] MDATA[6] MDATA[7] MDATA[8] MDATA[9] MDATA[10] MDATA[11] MDATA[12] MDATA[13] MDATA[14] MDATA[15] MDATA[16] MDATA[17] MDATA[18] MDATA[19] MDATA[20] MDATA[21] MDATA[22] MDATA[23] MDATA[24] MDATA[25] MDATA[26] MDATA[27] MDATA[28] MDATA[29] MDATA[30] MDATA[31] DQM[0] DQM[1] DQS[0] DQS[1] DQS[2] DQS[3] WEZ CASZ RASZ BADR[1] BADR[0] MCLK MCLKZ MCLKE MVREF AR11 AR10 AR9 AR8 AR7 AR6 AR5 AR4 AR3 AR2 AR1 AR0 9 LVB0M LVB0P LVB1M LVB1P LVB2M LVB2P LVBCKM LVBCKP LVB3M LVB3P 157 156 155 154 153 152 150 149 148 147 146 145 140 139 138 137 100 99 98 97 94 93 92 91 90 89 86 85 84 83 82 81 DQM0 DQM1 DQS0 DQS1 DQS2 DQS3 MDATA0 MDATA1 MDATA2 MDATA3 MDATA4 MDATA5 MDATA6 MDATA7 MDATA8 MDATA9 MDATA10 MDATA11 MDATA12 MDATA13 MDATA14 MDATA15 MDATA16 MDATA17 MDATA18 MDATA19 MDATA20 MDATA21 MDATA22 MDATA23 MDATA24 MDATA25 MDATA26 MDATA27 MDATA28 MDATA29 MDATA30 MDATA31 LVA0M LVA0P LVA1M LVA1P LVA2M LVA2P LVACKM LVACKP LVA3M LVA3P 135 102 158 136 101 80 SWE CAS RAS SBA1 SBA0 MCLKMCLK+ CKE MVREF 214 213 212 211 210 209 208 207 206 205 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 180 179 178 177 176 175 174 173 116 115 114 112 113 110 109 106 104 9 10 10 11 +3V3D FB315 AVDD_MPLL PBY201209T-300Y-S C370 22u/50V GND +1V8 AVDD18_DVI FB337 PBY201209T-300Y-S C378 22u/50V GND +3V3D FB319 AVDD_DVI PBY201209T-300Y-S C383 22u/50V GND +1V8 VDDC FB321 PBY201209T-300Y-S C390 22u/50V GND +2V5_VDDM FB322 VDDM PBY201209T-300Y-S C398 22u/50V GND C407 22u/50V GND TP193 C371 0.1u TP197 C379 0.1u 0.1u C385 22u/50V C386 13 AVDD_PLL +3V3D FB320 PBY201209T-300Y-S GND 22u/50V C380 +1V8 AVDD18_ADC FB338 PBY201209T-300Y-S GND 22u/50V C372 +3V3D AVDDPLL2 FB316 PBY201209T-300Y-S 12 C384 TP199 0.1u TP194 C373 0.1u TP198 C381 0.1u TP200 0.1u C393 0.1u C402 0.1u C394 0.1u C412 0.1u C403 0.1u C395 0.1u C413 0.1u C404 0.1u C396 0.1u C414 0.1u C405 0.1u C397 0.1u C415 0.1u C406 C388 C392 C401 C411 0.1u 0.1u 0.1u 0.1u C387 C391 C400 C410 0.1u 0.1u 0.1u 0.1u GND C399 C409 TP204 0.1u 0.1u TP214 TP205 C408 LVA3P LVA3M LVACKP LVACKM LVA2P LVA2M 6832194600P0 13 FPC-FFC-30S-100C 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 P306 0.1u LVA1P LVA1M GND VCC_LCD2 TP215 TP216 TP217 TP218 TP219 TP220 C422 TP221 TP222 0.01u LVA0P LVA0M LVB3P LVB3M LVBCKP LVBCKM C421 TP223 TP224 TP225 TP226 TP227 TP228 0.1u LVB2P LVB2M LVB1P LVB1M LVB0P LVB0M 12 TP229 TP230 TP231 TP232 TP233 TP234 R415 TP238 1K/1% 1K/1% R414 VDDM +3V3D FB323 VDDP PBY201209T-300Y-S MDATA[0..15] 7 7 7 7 7 7 7 7 MDATA[16..31] 7 DQM0 DQM1 DQS0 DQS1 DQS2 DQS3 SWE 7 CAS 7 RAS 7 SBA1 7 SBA0 7 MCLK- 7 MCLK+ 7 CKE 7 MVREF 7 AR[0..11] GND 11 PCB No. 32 31 238 237 234 233 232 231 230 229 228 227 224 223 222 221 220 219 218 217 FSP BSP BB3N BB3P BB2N BB2P BB1N BB1P BB0N BB0P BG3N BG3P BG2N BG2P BG1N BG1P LVB0M LVB0P MADR[0] MADR[1] MADR[2] MADR[3] MADR[4] MADR[5] MADR[6] MADR[7] MADR[8] MADR[9] MADR[10] MADR[11] 118 119 120 121 122 123 124 125 126 127 132 133 248 247 246 245 244 243 242 241 240 239 GPO[9] GPO[8] GPO[7] GPO[6] GPO[5] GPO[4] GPO[3] GPO[2] GPO[1] GPO[0] PAD GND 257 12 70 170 184 203 216 236 252 VDDP VDDP VDDP VDDP VDDP VDDP VDDP VDDP 88 105 117 128 134 142 151 159 VDDM VDDM VDDM VDDM VDDM VDDM VDDM VDDM 2 78 96 143 160 181 225 VDDC VDDC VDDC VDDC VDDC VDDC VDDC 20 28 AVDD_DVI AVDD_DVI 107 AVDD_MCLK 48 61 AVDD_ADC AVDD_ADC 50 AVDD18_ADC 22 AVDD18_DVI GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND 3 10 11 17 18 25 31 34 49 60 69 79 87 95 103 108 111 129 130 141 144 161 171 182 183 204 215 226 249 253 235 250 AVDD_LPLL 16 AVDD_APLL 131 AVDD_PLL2 37 AVDD_MPLL 38 19 AVDD_PLL AVDD_PLL A B C D E F G ACER G24 Go to cover page 41 2 3 5 C428 C429 0.1u C430 0.1u C431 0.1u C432 0.1u C433 4 C427 0.1u TP254 C426 0.1u +2V5_DMC C425 0.1u C436 0.1u C437 0.1u C438 0.1u C439 0.1u C440 0.1u C441 0.1u C442 GND 0.1u +2V5_DMQ C435 TP257 0.1u C444 0.1u C445 0.1u C446 5 C434 0.1u GND C443 GND 0.1u +2V5_DMQ 2 4 10uF FB326 PBY201209T-300Y-S 0.1u 3 10uF FB325 PBY201209T-300Y-S +2V5_VDDM 1 8.8 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_SDRAM A B C D E F G 1 6 MVREF GND 6 R417 6 6 SBA0 6 SBA1 +2V5_DMQ R416 1K(NC) 7 TP255 TP256 AR11 AR10 AR9 AR8 AR7 AR6 AR5 AR4 AR3 AR2 AR1 AR0 TP259 8 R419 6 AR[0..11] SBA0 SBA1 TP241 TP243 TP244 TP245 TP246 TP247 TP248 TP249 TP250 TP251 TP252 TP253 TP258 C448 N4 M5 M7 L6 M8 N11 N10 N9 M9 N8 N7 M6 N6 N5 L9 M10 C4 C11 H4 H11 M3 N3 M4 L12 L13 M13 N13 TP260 M11 M12 TP261 TP262 N2 M2 L2 L3 N12 AR11 AR10 AR9 AR8 AR7 AR6 AR5 AR4 AR3 AR2 AR1 AR0 256M C447 0 R418 NC DQS_3 DQS_2 DQS_1 DQS_0 GND 8 22 22 22 22 L5 K6 L10 K7 K8 F6 F7 F8 F9 G6 G7 G8 G9 H6 H7 H8 H9 J6 J7 J8 J9 B13 H2 H13 B2 TP275 TP276 22 DM3 B12 22 DM2 H3 22 DM1 H12 22 DM0 B3 22 150/1% GND 0.01u GND R426 R427 R428 R429 TP273 TP274 R422 R423 R424 R425 R421 R420 0.1u GND DQM0 RAS CAS SWE CKE MCLK+ MCLK- 1K(NC) RAS CAS SWE CKE 6 MCLK+ 6 MCLK- 6 6 6 6 6 DQM0 DQM1 DQM0 DQM1 DQS0 DQS1 DQS2 DQS3 DQS1 DQS3 DQS0 DQS2 TP333 TP335 TP337 TP339 TP341 TP343 DM0 DM1 DM2 DM3 DQS_0 DQS_1 DQS_2 DQS_3 DQS1 DQS3 DQS0 DQS2 6 DQM1 6 6 6 6 TP331 TP332 TP334 TP336 TP338 TP340 TP342 TP344 7 I315 9 BA0 BA1 A11 A10 A9 A8(AP) A7 A6 A5 A4 A3 A2 A1 A0 NC/RFU NC/RFU NC NC NC NC NC NC NC NC NC DSF,MCL VREF CK /CK CS RAS CAS WE CKE DM3 DM2 DM1 DM0 DQS3 DQS2 DQS1 DQS0 TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS TH VSS VSS VSS VSS VSS VSS EM6A9320BI 9 DQ31 DQ30 DQ29 DQ28 DQ27 DQ26 DQ25 DQ24 DQ23 DQ22 DQ21 DQ20 DQ19 DQ18 DQ17 DQ16 DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDD VDD VDD VDD VDD VDD VDD VDD VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSS VSS VSS VSS VSS B8 C9 B9 B10 C13 D12 D13 E13 K3 K2 J2 J3 G2 G3 F2 F3 F12 F13 G12 G13 J12 J13 K12 K13 E2 D2 D3 C2 B5 B6 C6 B7 C3 C5 C7 C8 C10 C12 E3 E12 F4 F11 G4 G11 J4 J11 K4 K11 D7 D8 E4 E11 L4 L7 L8 L11 B4 B11 D4 D5 D6 D9 D10 D11 G10 E9 F5 F10 G5 H5 H10 J5 J10 K5 K10 E6 E5 E7 E8 E10 K9 10 GND MDATA_15 MDATA_14 MDATA_13 MDATA_12 MDATA_11 MDATA_10 MDATA_9 MDATA_8 MDATA_31 MDATA_30 MDATA_29 MDATA_28 MDATA_27 MDATA_26 MDATA_25 MDATA_24 MDATA_7 MDATA_6 MDATA_5 MDATA_4 MDATA_3 MDATA_2 MDATA_1 MDATA_0 MDATA_23 MDATA_22 MDATA_21 MDATA_20 MDATA_19 MDATA_18 MDATA_17 MDATA_16 10 RN306 RN305 RN304 RN303 RN302 RN301 22x4 22x4 22x4 22x4 22x4 22x4 22x4 11 RN307 22x4 MDATA_0 MDATA_1 MDATA_2 MDATA_3 MDATA_4 MDATA_5 MDATA_6 MDATA_7 MDATA_8 MDATA_9 MDATA_10 MDATA_11 MDATA_12 MDATA_13 MDATA_14 MDATA_15 MDATA_16 MDATA_17 MDATA_18 MDATA_19 MDATA_20 MDATA_21 MDATA_22 MDATA_23 MDATA_24 MDATA_25 MDATA_26 MDATA_27 MDATA_28 MDATA_29 MDATA_30 MDATA_31 RN308 +2V5_DMQ +2V5_DMC 11 12 MDATA15 MDATA14 MDATA13 MDATA12 MDATA11 MDATA10 MDATA9 MDATA8 MDATA31 MDATA30 MDATA29 MDATA28 MDATA27 MDATA26 MDATA25 MDATA24 MDATA7 MDATA6 MDATA5 MDATA4 MDATA3 MDATA2 MDATA1 MDATA0 MDATA23 MDATA22 MDATA21 MDATA20 MDATA19 MDATA18 MDATA17 MDATA16 TP263 TP265 TP267 TP269 TP271 TP277 TP279 TP281 TP283 TP285 TP287 TP289 TP291 TP293 TP295 TP297 TP299 TP301 TP303 TP305 TP307 TP309 TP311 TP313 TP315 TP317 TP319 TP321 TP323 TP325 TP327 TP329 12 PCB No. 13 TP264 TP266 TP268 TP270 TP272 TP278 TP280 TP282 TP284 TP286 TP288 TP290 TP292 TP294 TP296 TP298 TP300 TP302 TP304 TP306 TP308 TP310 TP312 TP314 TP316 TP318 TP320 TP322 TP324 TP326 TP328 TP330 MDATA[0..31] 6 MDATA0 MDATA1 MDATA2 MDATA3 MDATA4 MDATA5 MDATA6 MDATA7 MDATA8 MDATA9 MDATA10 MDATA11 MDATA12 MDATA13 MDATA14 MDATA15 MDATA16 MDATA17 MDATA18 MDATA19 MDATA20 MDATA21 MDATA22 MDATA23 MDATA24 MDATA25 MDATA26 MDATA27 MDATA28 MDATA29 MDATA30 MDATA31 13 6832194600P0 A B C D E F G ACER G24 Go to cover page 42 3 1 TP447 R491 47K TP377 2 +3V3 R430 10K TP353 GND USBUP_DP VDD33(IO) VDD33(REG) 3 30K Q308 AO3401 2 C450 30 31 DN1 DP1 DN0 DP0 0.1u 2 DP 12 4 DN R452 3 TP345 C451 0.1u TP354 100K R442 +U3V3 R453 R573 NC R572 NC R571 NC 4 +U5V C452 100u/10V +U5V UGND TP372 TP374 TP415 PBY201209T-170Y-S FB336 UGND 100K UGND 100K UGND UGND C534 C550 0.1u C549 C533 C548 UGND C547 0.1u 3 1 3 1 +U3V3 UGND 0.1u 4 UGND TP512 0.1u TP513 0.1u C543 0.1u 0.1u UGND C546 1u C542 1u C545 12K/1% R454 TP379 USDA USCL 2514_DET 3 16 22 24 25 35 23 15 5 10 29 36 14 34 C544 0.1u UGND 1u USCL USDA R463 NC TP421 R462 NC VDDPLL18 VDDCR18 VDDA33 VDDA33 VDDA33 VDDPLLREF/VDDA33 +U3V3 8 7 6 5 1 Q307 MMBT3904 D334 MM4148 R490 47K TP356 R431 Q310 MMBT3906 TP355 47K TP448 R434 Upstream USBUP_DM USBDN1_DP USBDN1_DM Downstream 1 PRTPWR1 USBDN2_DP PRTPWR2 USBDN2_DM Downstream 2 Common RBIAS SDA/SMBDATA/NON_REM1 SCL/SMBCLK/CFG_SEL0 HS_IND/CFG_SEL1 EEPROM/Config VSS(FLAG) VCC WP SCL SDA NC XTAL2/CLKIN_EN XTAL1/CLKIN TEST LOCAL_PWR/NON_REM0/SUSP_IND_N RESET OCS2 OCS1 VBUS_DET I318 USB2512 USB2512 27 13 17 26 28 11 33 32 37 C474 I319 A0 A1 A2 VSS NC TP420 3 VIN I317 5 TAB VOUT SOT-223 ADJ(GND) TAB VOUT AIC1117A-33PYTR VIN I327 ADJ(GND) TP366 AIC1117A-33PYTR TP416 TP408 5 2 4 2 4 TP346 6 C454 UGND R458 1M 37 32 33 11 28 26 21 19 17 13 27 FB328 +U3V3 TP348 PBY201209T-170Y-S C453 22u/50V +U3V3 R440 10K TP515 OVR2 OVR3 OVR4 OVR5 0.1u C472 100K R456 +U3V3 24MHz X304 UGND TP395 0 UGND 0.1u +C3V3 R460 C490 100u/10V UGND 2514_DET +U3V3 R438 NC R441 100K TP399 UGND C469 18pF 18pF TP409 C471 UGND UGND 6 I323 USB2514 Upstream USBDN1_DP USBUP_DM USBUP_DP 7 Common PRTPWR1 USBDN2_DP PRTPWR2 USBDN3_DP PRTPWR3 USBDN4_DP RBIAS SDA/SMBDATA/NON_REM1 SCL/SMBCLK/CFG_SEL0 HS_IND/CFG_SEL1 EEPROM/Config PRTPWR4 USBDN4_DM Downstream 4 USBDN3_DM Downstream 3 USBDN2_DM Downstream 2 USBDN1_DM Downstream 1 VBUS_DET OCS1 OCS2 OCS3 OCS4 RESET VDDA18PLL VDD18CR VDDA33 VDDA33 VDDA33 VDDA33/VDD33PLL VDD33REG VDD33IO LOCAL_PWR/NON_REM0/SUSP_IND TEST XTAL1/CLKIN XTAL2/CLKIN_EN VSS(FLAG) 7 DP DP2 DN DN2 31 2 4 DN3 DP3 7 DN4 DP4 8 C555 C556 0.1u C557 9 OVR4 P308 USB_B 10 GND +U5V F301 5V 0.75A 1 C461 1 2 3 4 2 0.1u FB329 TP357 DN2 DP2 FB331 2 UGND 4 3 L302 L303 1 2 11 NC C460 TP365 C459 1 2 UGND VBUS4 UGND +C3V3 1 2 0 1 2 1 2 1 1 2 2 2 4 3 L301 R439 4 3 10K 1 2 FB330 2 TP369 TP371 D343 MM4148 DN0 DP0 12 1 2 1 F302 5V 0.75A UGND +U5V 10K TP359 GND GND C458 0.1u USB_DET 1 2 3 4 5 P310 UGND VBUS3 1 2 3 4 5 C467 0.1u 3 JWT-A2008WR0-12P 1 2 3 4 5 6 7 8 9 10 11 12 P307 UGND VBUS5 13 TP381 100uF/10V UGND 0.1u VCC DMDP+ GND VCC DMDP+ GND P309 USB_A_DUAL 1 2 3 4 5 6 7 8 C470 VBUS1 DN1 DP1 DIAG_LOOP GND JWT-A2008WR0-5P FB327 PBY201209T-170Y-S 13 6832194600P0 UGND UGND 1 VBUS3 2 DD2M 3 DD2P 4 GND 5 6 7 VBUS4 8 DD1M 9 DD1P 10 GND 11 12 R527 18K UGND TP350 0.1u UGND 100uF/10V 2 C462 FB332 UGND TP358 R450 15K UGND VBUS1 VBUS3 VBUS2 TP387 PBY201209T-170Y-S R447 C466 1 F304 5V 0.75A VBUS5 VBUS4 15K R436 10K PBY201209T-170Y-S R433 C457 +U5V WCMH2012F2SF-900T04 TP352 TP361 OVR5 TP360 TP383 TP407 TP403 TP393 OVR3 TP368 UGND TP417 C482 0.1u 12 UGND VBUS1 C485 0.1u TP412 TP406 TP402 TP392 TP367 C465 0.1u UGND FB344 FB335 UGND 100uF/10V PBY201209T-170Y-S 11 C481 XPBY201209T-170Y-S 1 C456 0.1u NC TP364 BUSPWR TP349 UGND 4 3 4 3 TP380 100uF/10V 4 3 4 3 L306 R459 4 3 TP347 +U5V WCMH2012F2SF-900T04(NC) R461 0 R464 100 1 2 L305 WCMH2012F2SF-900T04 4 3 L304 WCMH2012F2SF-900T04 4 1 4 1 3 2 3 2 UGND VBUS2 WCMH2012F2SF-900T04 1 2 WCMH2012F2SF-900T04 4 3 100uF/10V PBY201209T-170Y-S R432 C455 10K R435 15K DN4 DP4 UGND TP362 TP363 +U5V 10K TP396 TP397 DN3 DP3 TP386 PBY201209T-170Y-S R446 C464 1 F303 5V 0.75A DN5 DP5 TP382 TP370 TP373 TP351 OVR2 TP400 TP401 DN1 DP1 10 3 CAM_MIC_DIAG TP410 TP411 UGND R448 TP378 R445 100K 15K TP385 R449 PBY201209T-170Y-S FB333 UGND 100K DP5 C552 UGND 100K C551 0.1u C554 0.1u UGND C553 0.1u TP414 UGND 9 UGND 0.1u C561 TP422 0.1u C563 C558 C562 1u 1u UGND 0.1u UGND UGND TP388 DN5 20 22 24 25 35 23 15 5 10 29 36 14 34 0.1u 8 UGND 1u 11.5K/1% 9 TP398 R457 TP418 8 18 6 16 3 12 1 30 R455 +U3V3 3 +5V GND C449 220u/25V USB_EN TP376 R444 R443 100K 100K 1M R575 UGND UGND 0.1u C468 100K R451 +U3V3 UGND C463 TP394 TP391 X303 24MHz TP390 22pF 22pF UGND R569 NC R574 +U3V3 1u BUSPWR TP514 100K UGND C531 C532 UGND UGND 1 2 3 4 UGND 2 2 4 5 1 6 8.9 ACER_LCD_G24_SCHEMATICS_INTERFACE_BD_USB AND CAM/MIC OUTPUT A B C D E F G 1 PCB No. GND 10 GND 9 GND 12 GND 11 1 A B C D E F G ACER G24 Go to cover page 43 6 AUMCK 6 AUWS 6 AUSCK 6 AUSD GND +5V 1 R547 R545 R543 R540 33 33 33 33 FB340 PBY201209T-300Y-S D501 MM4148 2 4 C506 VS C505 2 3 4 3 LRCK TP533 MCLK 4 5 TP510 CS4344 AOUTL 5 VQ FILT #DEM/SCLK AOUTR SDIN I324 0.1uF TP524 TP525 TP526 TP527 1 100u/10V TP532 3 8.10 ACER_LCD_G24_SCHEMATICS_INTERFACE BD _AUDIO LINE OUT A B C D E F G 2 HDMI AUDIO CODEC(deleted for P243W HDMI model) 1 7 10 6 6 TP528 TP530 TP535 C527 C512 C513 10u 7 3.3u/50V 3.3u/50V TP534 C524 5 C523 0.1uF 7 10u 6 8 TP529 R541 R559 10K TP531 R548 R560 10K 8 9 470 470 9 TP516 C502 10 1500pF TP518 C503 1500pF 10 11 FB346 D349 X100MV05 11 TP519 12 3 2 1 13 P312 PH-JACK-3P (Green) 6832194600P0 13 FB342 PBY201209T-300Y-S PCB No. 12 SBK160808T-300YS HDMI_RIGHT X100MV05 D348 FB345 SBK160808T-300YS HDMI_LEFT 2 1 2 1 9 VA AGND 8 A B C D E F G ACER G24 Go to cover page 44 3 F101 1206 2 ON-OFF R105 10K BRI VIN-24V 7 LX1 C114 1000P D IS1 R139 510 R157 510 R102 10K 0603 GND C109 1000P GND VS1 R136 36K IS2 R142 510 VS3 R154 36K R160 510 IS4 3 GND 0603 R106 20 +5V + C101 220UF/35V C113 1uF C107 2.2uF VIN-24V CN101 1 2 CN104 1 2 VB VA VB VA C102 1u/50V 1206 C163 0.1uF 4 0603 R107 30.1K 1% R112 22K DRV1 0603 R111 10K 1 2 3 4 5 6 7 8 2 DRV2 PGND 5 DRV1 GNDA I101 VDDA SSTCMP CT TIMER DIM LCT ISEN ENA 16 15 14 13 12 11 10 9 6 C111 GND 0.047uF 0603 D D 6 7 NC VSEN OZ9938 S D Q105 1 S D 8 2 S 1 2 VB VA VB VA 7 R103 510K T103 T106 T109 T112 6 1 1 6 6 1 1 6 7 GND CR106 BAV99 3 1 8 2 9 GND 3 4 5 6 7 GND 8 10 VDDP1 GNDP1 D121 BAT54 OZ9982 BST1 LX1 PWM1 HDR1 NC PWM2 LX2 NC BST2 16 15 14 13 12 11 10 9 2 2 0 0603 2 1N4148 C117 10n 1 D106 1 open R125 100K D115 R114 0 D122 BAT54 GNDP2 1 VDDP2 HDR2 3 LDR2 LDR1 3 0603 S 3 Q102 10 2 2 2N3906 1 D116 5.1V IS 1 C103 1u/50V S 4 1 3 I102 R101 1 1206 D S CN103 1 2 1 2 CN106 9 2 D101 1 open D G R138 36K R144 510 IS10 VS11 R156 36K IS12 R162 510 LDR2 GND C106 0805 1. 0u C112 1. 0u 8 D 0805 7 D Q106 6 C130 2.2n R141 510 IS9 AP9985GM C127 2.2n 1 R150 36K IS11 R159 510 VS9 5 1 1 R153 100K 1% VS10 100K 1% R149 R135 100K 1% C108A NC + C104 220UF/35V R104 39K 1% R110 2.49K 1% C108 470P GND + C162 220UF/35V C121 10P/3KV 3 C133 1500P C136 10P/3KV C139 10P/3KV 3 C145 2.2n 1 C148 2.2n R168 8 VS12 36K 3 100K 1% R167 CR112 BAV99 C154 10P/3KV C151 1500P CR109 BAV99 C142 1500P CR103 BAV99 C124 1500P + C161 220UF/35V VIN-24V R113 150K GND 2 4 2 4 2 4 2 4 C160 open/1812 LX2 C110 2.2uF GND GND DRV2 CN105 1 2 CN102 5 G VS5 R137 36K IS6 R143 510 VS7 R155 36K R161 510 IS8 6 AP9985GM 3 4 R140 510 C129 2.2n HDR2 36K IS7 R148 1 IS5 R129 5.1K OVPT NC 0603 C116 1000P S 1 VS6 C126 2.2n R134 100K 1% LDR1 GND R119 1M D S 3 4 CR105 BAV99 1 R152 100K 1% 100K 1% R147 3 VB 0603 D S 1 C118 1000P 8 D GND 7 D Q104 6 C120 10P/3KV 3 C132 1500P C135 10P/3KV C138 10P/3KV 3 R158 510 C147 2.2n 1 R166 36K C144 2.2n VS8 5 100K 1% R165 3 CR111 BAV99 C153 10P/3KV C150 1500P CR108 BAV99 C141 1500P CR102 BAV99 G 5 6 1 1 6 6 C123 1500P AP9985GM T102 T105 T108 1 1 4 6 T111 2 2 4 2 4 2 4 + + C159 C158 C157 open/1812 220UF/35V 220UF/35V R115 100K D 6 GND S D GND 1 S D Q103 8 2 S R133 100K 1% 1 C125 2.2n C128 2.2n 1 36K 3 100K 1% R146 VS2 R151 100K 1% 1 C143 2.2n IS3 R145 CR104 BAV99 5 G 4 3 C119 10P/3KV AP9985GM 3 +5V 1 8.11 ACER_LCD_G24_SCHEMATICS_INVERTER BD 1 1 2 3 4 5 6 7 8 9 10 HDR1 C122 1500P 3 C137 10P/3KV C134 10P/3KV C131 1500P CR101 BAV99 C140 1500P CR107 BAV99 1 C146 2.2n 3 R164 CR110 BAV99 R163 36K 4 1 2 CN001 VIN VIN VIN GND GND GND GND PWM ENA ENA R121A 470 VIN-24V R120A 3K R121 470 1 1 6 6 1 2 Q101 2N3904 R120 3K T107 T104 T101 6 GND ZD101 5.6V 4 2 4 2 4 2 T110 1 C149 1500P VS4 3 1 2 A VA VA VB VA VB 4 6 100K 1% C152 10P/3KV 2 2 1 2 1 1 2 1 2 B C D E F G 2 1 2 2 2 2 2 2 2 2 2 2 2 2 1 2 11 IS1 LX1 12 R108 0 0603 2 2 HDR1 IS7 IS5 HDR2 D110 BAT54A 10K R117 R109 0 0603 LDR2 LX2 D104 1 open D103 1 open LDR1 2 IS3 3 3 13 1 D107 BAV70 2 1 D112 BAV70 2 D114 BAV70 D120 BAV70 D108 BAV70 D113 BAV70 10K R118 VS1 VS2 VS3 VS4 VS5 VS6 VS7 VS8 VS9 VS10 VS11 IS10 IS12 IS11 IS9 VS12 D111 BAT54A 10K R124 D119 BAT54A 33K R128 10K IS8 R123 33K R127 R122 33K R126 IS6 33K R132 D118 BAT54A 33K R131 IS2 33K 6832188000P0 13 R130 D117 BAT54A IS4 12 10K D109 BAT54A 1 10K R116 0805 0. 47u C115 0805 C105 0. 47u DRV1 DRV2 3 11 PCB No. A B C D E F G ACER G24 Go to cover page 45 3 3 4 4 5 5 6 6 R605 240 200 7 R606 7 8 8 9 C601 C602 C603 C604 C606 C605 9 10 LEDBLUE 11 D601 LED 1 2 11 E S606 Auto/exit S605 Menu S604 Left S603 Right S602 Power S601 Menu KEY LEDORANGE 0.1u 0.1u 0.1u 0.1u 0.1u 0.1u 10 12 4 3 B 2 LED_BLUE LED_AMBER POWER PLUS MINUS MENU SELECT E 2 12 Y 1 10 HEADER 10 9 8 7 6 5 4 3 2 1 P601 8.12 ACER_LCD_G24_SCHEMATICS_FUNCTION _KEY A B C D E F G 1 PCB No. 13 13 6832194800P0 A B C D E F G ACER G24 Go to cover page 46 2 POWER BOARD - TOP SILK 1 8.13 ACER_LCD_G24_LAYOUTS_POWER BOARD A 3 4 5 6 7 8 9 POWER BOARD - BOTTOM SILK 10 11 12 13 13 A B 12 B 11 C 10 C 9 D 8 D 7 E 6 E 5 F 4 F 3 G 2 G 1 PCB No. ACER G24 Go to cover page 47 8.14 ACER_LCD_G24_LAYOUTS_INTERFACE BOARD 2 3 4 5 6 7 8 9 10 11 12 13 A 1 A 13 B 12 B 11 C 10 C 9 D 8 D 7 E 6 E 5 F 4 F 3 G 2 G 1 PCB No. ACER G24 Go to cover page 48 8.15 ACER_LCD_G24_LAYOUTS_FUNCTION KEY BOARD 2 3 4 5 6 7 8 9 10 11 12 13 A 1 A 13 B 12 B 11 C 10 C 9 D 8 D 7 E 6 E 5 F 4 F 3 G 2 G 1 PCB No. ACER G24 Go to cover page 49 8.16 ACER_LCD_G24_LAYOUTS_INVERTER BOARD 2 3 4 5 6 7 8 9 10 11 12 13 A 1 A 13 B 12 B 11 C 10 C 9 D 8 D 7 E 6 E 5 F 4 F 3 G 2 G 1 PCB No. ACER G24 Go to cover page 50 ">
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Key features
- 24-inch WUXGA (1920x1200) display
- 16.7M colors (RGB Hi+FRC)
- Analog and Digital video inputs
- OSD menu for adjustments
- Power saving modes
- VESA DDC2Bi compliant
Frequently asked questions
The monitor supports up to WUXGA (1920x1200) resolution.
It has both analog (D-SUB) and digital (DVI-D) video inputs.
There are 24 factory preset modes and space for 9 user-defined modes.
Yes, it complies with VESA DPMS (Display Power Management Signaling) and has a power-saving mode (under 2W).