CHASSIS universal (ШАСI унiверсальні) AYA A65FHD6501 CONTINENTAL-EDISON CELED55S0116B3, CELED65S0116B33 DIGIHOME 65FHS141, TFK55ELEDRTD16B FINLUX 65FLHYR249BHC, 65FME249BT, FIN55SMARTBK Service manual & schematics

MB98 IDTV

SERVICE MANUAL

TABLE OF CONTENTS

1. INTRODUCTION .......................................................................................................................................................... 3

2. T/T2/C/A TUNER (U129) .............................................................................................................................................. 4

3. S/S2 TUNER & DEMODULATOR (U128) OPTIONAL ............................................................................................. 6

4. AUDIO AMPLIFIER STAGES ...................................................................................................................................... 9

A. MAIN AMPLIFIER (U118) (10W/12W options) ........................................................................................................... 9

B. SUBWOOFER AMPLIFIER (U121) (12 W) .................................................................................................................. 12

C. HEADPHONE AMPLIFIER (U115) .............................................................................................................................. 14

D. SUBWOOFER PREAMPLIFIER (U116) ........................................................................................................................ 16

E. SCART AUDIO AMPLIFIER (U125) ............................................................................................................................. 16

5. POWER STAGE ........................................................................................................................................................... 17

A. FDC642P ................................................................................................................................................................... 18

B. MP2315 .................................................................................................................................................................... 19

C. RT7237C ................................................................................................................................................................... 20

D. RT7257G ................................................................................................................................................................... 22

E. TPS54528 ................................................................................................................................................................. 23

F. AP2111 ..................................................................................................................................................................... 24

G. LM1117 .................................................................................................................................................................... 25

H. APL5910 ................................................................................................................................................................... 26

6. MICROCONTROLLER ............................................................................................................................................... 28

A. MSTAR MSD8852RKM2 (U119) ............................................................................................................................... 28

7. VIDEO BACK-END PROCESSOR ............................................................................................................................. 34

A. MST7398R: Frame Rate Converter (FRC) (U110) ................................................................................ ..................... 34

8. 2GB DDR3 SDRAM .................................................................................................................................................... 36

A. Hynix H5TQ2G63BFR-PBC (U109-For FRC), (U117-For Main IC) .............................................................................. 36

9. 2GBIT (256M X 8 BIT) NAND FLASH MEMORY ................................................................................................... 37

A. MT29F2G08ABAEAWP (U107) ................................................................................................................................. 37

10. 16M-BIT [16M x 1] CMOS SERIAL FLASH EEPROM ....................................................................................

A. KH25L1606EM2-12G Macronix SPI Flash (U120) ..................................................................................................... 39

11. USB INTERFACE ........................................................................................................................................................ 40

........ 39

A. USB HUB CY7C65642 (U108) .................................................................................................................................... 41

12. CI INTERFACE ............................................................................................................................................................ 43

13. SOFTWARE UPDATE ................................................................................................................................................ 43

A. Main Software Update ............................................................................................................................................. 43

14. TROUBLESHOOTING ................................................................................................................................................ 44

A. No Backlight Problem .............................................................................................................................................. 44

1

B. CI Module Problem .................................................................................................................................................. 45

C. StayIng In Stand-by Mode ........................................................................................................................................ 47

D. IR Problem ................................................................................................................................................................ 48

E. Keypad Touchpad Problems .................................................................................................................................... 49

F. USB Problems ............................................................................................................... ............................................ 49

G. No Sound Problem ................................................................................................................................................... 50

H. Standby On/Off Problem ......................................................................................................................................... 51

İ. No Signal Problem ........................................................................................................... ......................................... 51

15. SERVICE MENU SETTINGS ..................................................................................................................................... 54

16. PLACEMENT OF BLOCKS ........................................................................................................................................ 59

17. GENERAL BLOCK DIAGRAM ................................................................................................................................. 60

2

1. INTRODUCTION

17MB98 main board is driven by MStar SOC. This IC is a single chip iDTV solution that supports channel

decoding, MPEG decoding, and media-center functionality enabled by a high performance AV CODEC and

CPU.

This board can be driven 50Hz and 100Hz HD &FHD panels.

Key features include:

 Combo Front-End Demodulator
 A multi standart A/V format decoder
 The MACEpro video processor
 Home theatre sound processor
 Rich internet connectivity and completed digital home network solution
 Dual-stream decoder for 3D contents
 Mılti-purpose CPU for OS and multimedia
 Peripheral and power management
 Embedded DRAM

Supported peripherals are:

 1 RF input VHF I, VHF III, UHF
 1 Satellite input
 1 Back AV (CVBS, R/L_Audio)
 1 SCART socket(Common)
 1 Slim SCART socket (Optional)
 1 YPbPr (Common)
 1 PC input(Common)
 1 Stereo audio input for PC/YPbPr(Common)
 1 Passive Subwoofer output(Option)
 4 HDMI input
 1 Common interface(Common)
 1 Optic/ Quax S/PDIF output
 1 Headphone(Common)
 3 USB(2X Side Common, 1X Back Optional) and 2x internal USB for Wifi/Bluetooth
 1 Ethernet-RJ45
 1 External Touchpad/Tact Switch (Common)

3

2. T/T2/C/A TUNER (U129)

Description

The MxL661 is a highly integrated low-power silicon tuner IC that targets all global and digital cable

standards. Broadband input filtering and channel filtering have been completely integrated on-chip. This

integration enables a compact design resulting in small footprint, low Bill-Of-Material (BOM) cost, and low-

power consumption.

A signal at the 75ohm RF input is filtered and converted to a programmable IF output frequency. Automatic

Gain Control (AGC), LO generation, and channel selectivity functions are completely integrated on the chip.

All functions of the IC can be controlled using the I2C interface.

The MxL is available in a 4 mm x 4mm x 0.85mm3, 24-pin QFN package.

Features

 Tuning range from 44MHz to 1002MHz
 Programmable channel bandwidths of 6, 7, and 8MHz
 Integrated channel filtering
 Low power consumption with 3.3V and 1.8V dual-supply operation - 351 mW (digital terrestrial)
 On-chip voltage regulator enables single supply 3.3V operation
 Programmable IF frequency and IF spectrum inversion
 Programmable RF to IF delay for ATV scrambling systems that relies on the H-Sync method
 Optioanl balun-less application note for cost-sensitive applications
 Reference clock output available for re-use by demodulators and additional tuners in multi-channel

 Input power reporting
 Open-drain General Purpose Output GPO available for controlling off-chip circuitry
 I

applications

2

C compatible digital control interface

 RoHS compliance

4

Figure: Pin description

Table: Pin functions

5

3. S/S2 TUNER & DEMODULATOR (U128) OPTIONAL

Description

The M88RS6000 is highly single-Chip DVB-S2/S receiver. The device is consisting of tuner, a demodulator

and an LNB controller. It is fully compliant with the DVB-S2 and DVB-S standards by supporting

QPSK,(PSK,16APSK and 32APSK demodulator schemes.

The tuner is the device an RF signal in the frequency range from 950 Mhz to 2150 Mhz and down-convert

the signal directly to analog baseband signal, which will be converted to a digital signal in the advanced ADC.

After the ADC, the digital signal will be demodulated in the demodulator, related errors generated during

transmission will be corrected at this stage and finally an MPEG transport stream will be delivered in serial,

parallel or DVB-CI format.

6

Figure: Pin description

Features

7

Block Diagram

8

4. AUDIO AMPLIFIER ST AGES

Figure: The block diagram of the audio part

A. MAIN AMPLIFIER (U118) (10W/12W OPTİONS)

Description

AD82587D is a digital audio amplifier capable of driving a pair of 8 ohm, 20W or a single 4 ohm, 40W

speaker, both which operate with play music at a 24V supply without external heat-sink or fan requirement.

2

Using I

range control), mute and volume control functions. AD82587D has many built-in protection circuits to

safeguard AD82587D from connection errors.

Features

 16/18/20/24-bit input with I
 PSNR & DR(A-weighting) Loudspeaker: 97dB (PSNR), 105dB (DR) @ 24V
 Multiple sampling frequencies (Fs)

C digital control interface, the user can control AD82587D’s input format selection, DRC (dynamic

2

S, Left-alignment and Right-alignment data format

9

o 32kHz / 44.1kHz / 48kHz and
o 64kHz / 88.2kHz / 96kHz and
o 128kHz/176.4kHz/192kHz

 System clock = 64x, 128x, 256x, 384x, 512x, 768x,1024x Fs

o 256x~1024x Fs for 32kHz / 44.1kHz / 48kHz
o 128x~512x Fs for 64kHz / 88.2kHz / 96kHz
o 64x~256x Fs for 128kHz /176.4kHz/192kHz

 Supply voltage

o 3.3V for digital circuit
o 10V~26V for loudspeaker driver

 Loudspeaker output power for Stereo@ 24V

o 10W x 2ch into 8_ @ 0.16% THD+N
o 15W x 2ch into 8_ @ 0.18% THD+N
o 20W x 2ch into 8_ @ 0.24% THD+N

 Loudspeaker output power for Mono@ 24V

o 20W x 1ch into 4_ @ 0.17% THD+N
o 30W x 1ch into 4_ @ 0.2% THD+N
o 40W x 1ch into 4_ @ 0.24% THD+N

 Sounds processing including:

o Volume control (+24dB~-103dB, 0.125dB/step)
o Dynamic range control
o Power clipping
o Channel mixing
o User programmed noise gate with hysteresis window
o DC-blocking high-pass filter

 Anti-pop design
 Short circuit and over-temperature protection
 I2C control interface with selectable device address
 Internal PLL
 LV Under-voltage shutdown and HV Under-voltage
 detection
 Power saving mode
 Dynamic temperature control

10

Figure: Pin description

Figure: Functional Block Diagram

11

Table: Absolute Maximum Ratings

Table: Recommended Operating Conditions

B. SUBWOOFER AMPLIFIER (U121) (12 W)

Description

AD82586C is a digital audio amplifier capable of driving a pair of 8 ohm, 20W operating at 24V supply

without external heat-sink or fan requirement with play music.

AD82586C has 20 bands EQ function and can operate 20W stereo or 40W mono optionally.

AD82586C can provide advanced audio processing capabilities, such as volume control, 20 bands speaker

EQ, audio mixing, 3D surround and DRC (dynamic range control). These functions are fully programmable via

a simple I2C control interface.

Robust protection circuits are provided to protect AD82586C from damage due to accidental erroneous

operating condition. AD82586C is more tolerant to noise and PVT (Process, Voltage, and Temperature)

variation than the analog Class-AB or Class-D audio amplifier counterpart implemented by analog circuit

design. AD82586C is pop free during instantaneous power switch because of its built-in, robust anti-pop circuit.

Features

 16/18/20/24-bits input with I

2

S, Left-alingment and Right-alingment data format

 PSNR & DR (A-weighting) Loudspeaker: 99dB (PSNR), 104dB (DR) @24V
 Multiple sampling frequencies (Fs)

32kHz / 44.1kHz / 48kHz and

64kHz / 88.2kHz / 96kHz and

128kHz / 176.4kHz / 192kHz

 System clock = 64x, 128x, 192x, 256x, 384x, 512x, 576x, 768x, 1024x Fs

64x~1024x Fs for 32kHz / 44.1kHz / 48kHz

64x~512x Fs for 64kHz / 88.2kHz / 96kHz

64x~256x Fs for 128kHz / 176.4kHz / 192kHz

 Supply voltage

3.3V for digital circuit

10V~26V for loudspeaker driver

 Loudspeaker output power at 24V

10W x 2CH into 8 ohm @0.17% THD+N for stereo

12

20W x 2CH into 8 ohm @0.26% THD+N for stereo

 Sound processing including:

20 bands parametric speaker EQ

Volume control (+24dB~-103dB, 0.125dB/step)

Dynamic Range Control (DRC)

Dual band DRC

Power clipping

3D surround sound

Channel mixing

Noise gate with hysteresis window

Bass/Treble tone control

DC-blocking high-pass filter

 Anti-pop design
 Short circuit and over-temperature protection

2

 I

C control interface with selectable device address

 Support hardware and software reset
 Internal PLL
 LV Under-Voltage shutdown and HV Under-Voltage detection
 Power saving mode

13

Figure: Pin description

Figure: Functional Block Diagram

Table: Absolute Maximum Ratings

Table: Recommended Operating Conditions

C. HEADPHONE AMPLIFIER (U115)

Description

The AD22657B is a 2-Vrms cap-less stereo line driver. The device is ideal for single supply electronics.

Cap-less design can eliminate output dc-blocking capacitors for better low frequency response and save cost.

The AD22657B is capable of delivering 2-Vrms output into a 10k ohm load with 3.3V supply. The gain

settings can be set by users from 1V/V to 10V/V externally. The AD22657B has under voltage protection to

prevent POP noise. Build-in shutdown control and de-pop control sequence also help AD22657B to be a pop-

less device.

The AD22657B is available in a 10-pin MSOP package.

14

Features

 Operation Voltage: 3V to 3.6V
 Cap-less Output

o Eliminates Output Capacitors
o Improves Low Frequency Response
o Reduces POP/Clicks

 Low Noise and THD

o Typical SNR 107dB
o Typical Vn 7uVrms
o Typical THD+N < 0.02%

 Maximum Output Voltage Swing into 2.5k Load

o 2Vrms at 3.3V Supply Voltage

 Single-ended Input
 External Gain Setting from 1V/V to 10V/V
 Fast Start-up Time: 0.5ms
 Integrated De-Pop Control
 External Under Voltage Protection
 Thermal Protection
 Less External Components Required
 +/-8kV IEC ESD Protection at line outputs

15

Figure: Pin description

Table: Pin functions

Table: Recommended operating conditions

D. SUBWOOFER PREAMPLIFIER (U116)

AD22657B is used for subwoofer out, as well.

E. SCART AUDIO AMPLIFIER (U125)

AD22657B is used for scart audio amplifier, as well.

16

5. POWER STAGE

Figure: Power Socket and Power Options

Power socket is used for taking voltages which are 24V_VCC, 12V_STBY and 5V_STBY. These voltages
are produced in power card. Also socket is used for giving dimming, backlight and standby signals with power
card. Power socket pinning is shown in above figure.

24V_VCC goes directly to the audio part. 12V_STBY is converted several different voltages on the
mainboard which are shown in below figure.

17

Figure: Power Block Diagram

List of the components:

 SW-1(Q109) → FDC642P
 SW-2(Q111) → DMG6402LDM
 DC-DC-1(U113) → MP2315
 DC-DC-2(U106) → RT7237C
 DC-DC-3(U103) → RT7257G
 DC-DC-4(U101) → TPS54528
 DC-DC-5(U104) → MP2315
 LDO-1(U131) → AP2111 or LM1117 (Optional)
 LDO-2(U126) → APL5910
 LDO-3(U124) → APL5910

A. FDC642P

Figure: Pin description

DMG6402LDM

 Low RDS(ON)
 Low Input Capacitance
 Fast Switching Speed
 Low Input/Output Leakage
 Lead Free By Design/RoHS Compliant (Note 1)
 Qualified to AEC-Q101 Standards for High Reliability,

18

Figure: Pin description

B. MP2315

The MP2315 is a high frequency synchronous rectified step-down switch mode converter with built in

internal power MOSFETs. It offers a very compact solution to achieve 3A continuous output current over a

wide input supply range with excellent load and line regulation. The MP2315 has synchronous mode operation

for higher efficiency over output current load range. Current mode operation provides fast transient response

and eases loop stabilization. Full protection features include OCP and thermal shut down. The MP2315 requires

a minimum number of readily available standard external components and is available in a space saving 8-pin

TSOT23 package.

Features

 Wide 4.5V to 24V Operating Input Range
 3A Load Current
 90mΩ/40mΩ Low Rds(on) Internal Power MOSFETs
 Low Quiescent Current
 High Efficiency Synchronous Mode Operation
 Fixed 500kHz Switching Frequency
 Frequency Sync from 200kHz to 2MHz External Clock
 AAM Power Save Mode
 Internal Soft Start
 OCP Protection and Hiccup
 Thermal Shutdown
 Output Adjustable from 0.8V
 Available in an 8-pin TSOT-23 package

19

Figure: Pin description

Table: Pin functions

C. RT7237C

General Description

The RT7237C is a high efficiency, monolithic synchronous step-down DC/DC converter that can deliver up

to 2A output current from a 4.5V to 18V input supply. The RT7237C's current mode architecture and external

compensation allow the transient response to be optimized over a wide input range and loads. Cycle-bycycle

current limit provides protection against shorted outputs, and soft-start eliminates input current surge during

start-up. The RT7237C also provides under voltage protection and thermal shutdown protection. The low

current (<3μA) shutdown mode provides output disconnection, enabling easy power management in battery-

powered systems. The RT7237C is available in an SOP-8 (Exposed Pad) package.

Features

 ±1.5% High Accuracy Reference Voltage
 4.5V to 18V Input Voltage Range
 2A Output Current

20

 Integrated N-MOSFET Switches
 Current Mode Control
 Fixed Frequency Operation : 800kHz
 Output Adjustable from 0.8V to 12V
 Stable with Low ESR Ceramic Output Capacitors
 Up to 95% Efficiency
 Programmable Soft-Start
 Cycle-by-Cycle Over Current Limit
 Input Under Voltage Lockout
 Output Under Voltage Protection
 Thermal Shutdown Protection
 RoHS Compliant and Halogen Free

Figure: Pin description

Table: Pin functions

21

D. RT7257G

General Description

The RT7257G is a high efficiency, monolithic synchronous step-down DC/DC converter that can deliver up

to 3A output current from a 4.5V to 18V input supply. The RT7257G's current mode architecture and external

compensation allow the transient response to be optimized over a wide input voltage range and loads. Cycle-by-

cycle current limit provides protection against shorted outputs, and soft-start eliminates input current surge

during start-up. The RT7257G also provides under voltage protection and thermal shutdown protection. The

low current (<3uA) shutdown mode provides output disconnection, enabling easy power management in

battery-powered systems. The RT7257G is available in an SOP-8 (Exposed Pad) package.

Features

 ±1.5% High Accuracy Reference Voltage
 4.5V to 18V Input Voltage Range
 3A Output Current
 Integrated N-MOSFET Switches
 Current Mode Control
 Fixed Frequency Operation: 800kHz
 Output Adjustable from 0.8V to 12V
 Up to 95% Efficiency
 Programmable Soft-Start
 Stable with Low ESR Ceramic Output Capacitors
 Cycle-by-Cycle Current Limit
 Input Under Voltage Lockout
 Output Under Voltage Protection
 Thermal Shutdown Protection
 RoHS Compliant and Halogen Free

22

Figure: Pin description

Table: Pin functions

E. TPS54528

General Description

The TPS54528 is an adaptive on-time D-CAP2™ mode synchronous buck converter. The TPS54528 enables

system designers to complete the suite of various end-equipment power bus regulators with a cost effective, low

component count, low standby current solution. The main control loop for the TPS54528 uses the D-CAP2™

mode control that provides a fast transient response with no external compensation components. The adaptive

on-time control supports seamless transition between PWM mode at higher load conditions and Eco-mode™

operation at light loads. Eco-mode™ allows the TPS54528 to maintain high efficiency during lighter load

conditions. The TPS54528 also has a proprietary circuit that enables the device to adopt to both low equivalent

series resistance (ESR) output capacitors, such as POSCAP or SP-CAP, and ultra-low ESR ceramic capacitors.

The device operates from 4.5-V to 18-V VIN input. The output voltage can be programmed between 0.76 V

and 6.0 V. The device also features an adjustable soft start time. The TPS54528 is available in the 8-pin DDA

package, and designed to operate from –40 C to 85 C.

Features

 D-CAP2™ Mode Enables Fast Transient Response
 Low Output Ripple and Allows Ceramic Output Capacitor
 Wide VIN Input Voltage Range: 4.5 V to 18 V
 Output Voltage Range: 0.76 V to 6.0 V
 Highly Efficient Integrated FETs Optimized for Lower Duty Cycle Applications
 High Efficiency, less than 10 μA at shutdown
 High Initial Bandgap Reference Accuracy
 Adjustable Soft Start

23

 Pre-Biased Soft Start
 650-kHz Switching Frequency (fSW)
 Cycle By Cycle Over Current Limit
 Auto-Skip Eco-mode™ for High Efficiency at Light Load

Figure: Pin description

Table: Pin functions

F. AP2111

General Description

The AP2111 is CMOS process low dropout linear regulator with enable function, the regulator delivers a

guaranteed 600mA (Min) continuous load current. The AP2111 provides 1.2V, 1.8V, 2.5V, 3.3V, 4.8V

regulated output and 0.8V to 5V adjustable output, and provides excellent output accuracy 1.5%, it is also

provides a excellent load regulation, line regulation and excellent load transient performance due to very fast

loop response. The AP2111 has built-in auto discharge function. The AP2111 features low power consumption.

The AP2111 is available in SOIC-8, PSOP-8 SOT-223 and SOT-23-5 packages.

Features

 Output Voltage Accuracy: ±1.5%

24

 Output Current: 600mA (Min)
 Foldback Short Current Protection: 50mA
 Enable Function to Turn On/Off VOUT
 Low Dropout Voltage (3.3V):
 250mV (Typ) @ IOUT=600mA
 Excellent Load Regulation: 0.2%/A (Typ)
 Excellent Line Regulation: 0.02%/V (Typ)
 Low Quiescent Current: 55μA (Typ)
 Low Standby Current: 0.01μA (Typ)
 Low Output Noise: 50μVRMS
 PSRR: 65dB @ f=1kHz, 65dB @ f=100Hz
 OTSD Protection
 Stable with 1.0μF Flexible Cap: Ceramic, Tantalum and Aluminum Electrolytic
 Operating Temperature Range: -40°C to 85°C
 ESD: MM 400V, HBM 4000V

G. LM1117

General Description

The LM1117 is a series of low dropout voltage regulators with a dropout of 1.2V at 800mA of load current.

It has the same pin-out as National Semiconductor’s industry Standard LM317.

The LM1117 is available in an adjustable version, which can set the output voltage from 1.25V to 13.8V

with only two external resistors. In addition, it is also available in five fixed voltages, 1.8V, 2.5V, 2.85V, 3.3V,

and 5V.

The LM1117 offers current limiting and thermal shutdown. Its circuit includes a zener trimmed bandgap

reference to assure output voltage accuracy to within ±1%.

The LM1117 series is available in SOT-223, TO-220, and TO-252 D-PAK packages. A minimum of 10μF

tantalum capacitor is required at the output to improve the transient response and stability.

Features

 Available in 1.8V, 2.5V, 2.85V, 3.3V, 5V, and Adjustable Versions
 Space Saving SOT-223 Package
 Current Limiting and Thermal Protection
 Output Current 800mA
 Line Regulation 0.2% (Max)

25

 Load Regulation 0.4% (Max)
 Temperature Range (0°C to 125°C)

H. APL5910

General Description

Figure: Pin description

The APL5910 is a 1A ultra low dropout linear regulator. The IC needs two supply voltages, one is a control

voltage (VCNTL) for the control circuitry, the other is a main supply voltage (VIN) for power conversion, to

reduce power dissipation and provide extremely low dropout voltage. The APL5910 integrates many functions.

A Power-On- Reset (POR) circuit monitors both supply voltages on VCNTL and VIN pins to prevent erroneous

operations. The functions of thermal shutdown and current-limit protect the device against thermal and current

over-loads. A POK indicates that the output voltage status with a delay time set internally. It can control other

converter for power sequence. The APL5910 can be enabled by other power systems. Pulling and holding the

EN voltage below 0.4V shuts off the output.

The APL5910 is available in a SOP-8P package which features small size as SOP-8 and an Exposed Pad to

reduce the junction-to-case resistance to extend power range of applications.

Features

 Ultra Low Dropout(0.12V (Typical) at 1AOutput Current)
 0.8V Reference Voltage
 High Output Accuracy(±1.5%over Line, Load, and Temperature Range)
 Fast Transient Response
 Adjustable Output Voltage
 Power-On-Reset Monitoring on Both VCNTL and VIN Pins
 Internal Soft-Start
 Current-Limit and ShortCurrent-Limit Protections
 Thermal Shutdown with Hysteresis

26

 Open-Drain VOUT Voltage Indicator (POK)
 Low Shutdown Quiescent Current (< 30mA )
 Shutdown/Enable Control Function
 Simple SOP-8P Package with Exposed Pad

Figure: Pin description

27

Table: Pin functions

6. MICROCONTROLLER

A. MSTAR MSD8852RKM2 (U119)

Description

28

Features

29

30

31 32 33

Table: Recommended operating conditions

Table: Recommended operating condition

7. VIDEO BACK-END PROCESSOR

A. MST7398R: FRAME RATE CONVERTER (FRC) (U110)

For 100 Hz models, MST7398R is used as FRC.

General Description

Block Diagram

Figure: Block diagram

34

Features

35

Table: Recommended operating conditions

8. 2GB DDR3 SDRAM

A. HYNİX H5TQ2G63BFR-PBC (U109-FOR FRC), (U117-FOR MAİN IC)

Description

The H5TQ2G63BFR is a 2,147,483,648-bit CMOS Double Data Rate III (DDR3) Synchronous DRAM,

ideally suited for the main memory applications which requires large memory density and high bandwidth.

Hynix 2Gb DDR3 SDRAMs offer fully synchronous operations referenced to both rising and falling edges of

the clock. While all addresses and control inputs are latched on the rising edges of the CK (falling edges of the

CK), Data, Data strobes and Write data masks inputs are sam-pled on both rising and falling edges of it. The

data paths are internally pipelined and 8-bit prefetched to achieve very high bandwidth.

Features

 VDD=VDDQ=1.5V +/- 0.075V
 Fully differential clock inputs (CK, CK) operation
 Differential Data Strobe (DQS, DQS)
 On chip DLL align DQ, DQS and DQS transition with CK transition
 DM masks write data-in at the both rising and falling edges of the data strobe
 All addresses and control inputs except data, data strobes and data masks latched on the rising edges of

the clock

 Programmable CAS latency 6, 7, 8, 9, 10, 11, 12 and 13 supported
 Programmable additive latency 0, CL-1, and CL-2 supported
 Programmable CAS Write latency (CWL) = 5, 6, 7, 8, 9, 10
 Programmable burst length 4/8 with both nibble sequential and interleave mode
 BL switch on the fly
 8banks
 Average Refresh Cycle (Tcase 0

o 7.8 μs at 0
o 3.9 μs at 85

o

C ~ 85oC

o

C ~ 95oC

o

C ~ 95oC)

 Auto Self Refresh supported Driver strength selected by EMRS
 JEDEC standard 96ball FBGA(x16) Asynchronous RESET pin supported
 Driver strength selected by EMRS TDQS (Termination Data Strobe) supported (x8 only)
 Dynamic On Die Termination supported 8 bit pre-fetch
 Asynchronous RESET pin supported
 ZQ calibration supported
 Write Levelization supported

36

 On Die Thermal Sensor supported
 8 bit pre-fetch

Table: Recommended operating conditions

9. 2GBIT (256M X 8 BIT) NAND FLASH MEMORY

A. MT29F2G08ABAEAWP (U107)

Description

Micron NAND Flash devices include an asynchronous data interface for high-performance I/O operations.

These devices use a highly multiplexed 8-bit bus (I/Ox) to transfer commands, address, and data. There are five

control signals used to implement the asynchronous data interface: CE#, CLE, ALE, WE#, and RE#. Additional

signals control hardware write protection and monitor device status (R/B#). This hardware interface creates a

low pin-count device with a standard pinout that remains the same from one density to another, enabling future

upgrades to higher densities with no board redesign. A target is the unit of memory accessed by a chip enable

signal. A target contains one or more NAND Flash die. A NAND Flash die is the minimum unit that can

independently execute commands and report status. A NAND Flash die, in the ONFI specification, is referred

to as a logical unit (LUN). There is at least one NAND Flash die per chip enable signal. For further details, see

Device and Array Organization. This device has an internal 4-bit ECC that can be enabled using the GET/SET

features or by factory (always enabled). See Internal ECC and Spare Area Mapping for ECC for more

information.

Features

 Open NAND Flash Interface (ONFI) 1.0-compliant
 Single-level cell (SLC) technology
 Organization

o Page size x8: 2112 bytes (2048 + 64 bytes)
o Page size x16: 1056 words (1024 + 32 words)
o Block size: 64 pages (128K + 4K bytes)
o Plane size: 2 planes x 1024 blocks per plane
o Device size: 2Gb: 2048 blocks

 Asynchronous I/O performance

t

o

RC/tWC: 20ns (3.3V), 25ns (1.8V)

 Array performance

37

o Read page: 25μs
o Program page: 200μs (TYP: 1.8V, 3.3V
o Erase block: 700μs (TYP)

 Command set: ONFI NAND Flash Protocol
 Advanced command set

o Program page cache mode
o Read page cache mode
o One-time programmable (OTP) mode
o Two-plane commands
o Interleaved die (LUN) operations
o Read unique ID
o Block lock (1.8V only)
o Internal data move

 Operation status byte provides software method for detecting

o Operation completion
o Pass/fail condition
o Write-protect status

 Ready/Busy# (R/B#) signal provides a hardware method of detecting operation completion
 WP# signal: Write protect entire device
 First block (block address 00h) is valid when shipped from factory with ECC. For minimum required

ECC, see Error Management.

 Block 0 requires 1-bit ECC if PROGRAM/ERASE cycles are less than 1000
 RESET (FFh) required as first command after poweron
 Alternate method of device initialization (Nand_Init) after power up (contact factory)
 Internal data move operations supported within the plane from which data is read
 Quality and reliability

o Data retention: 10 years

 Operating voltage range

o VCC: 2.7–3.6V
o VCC: 1.7–1.95V

 Operating temperature:

o Commercial: 0°C to +70°C
o Industrial (IT): –40ºC to +85ºC

 Package

38

o 48-pin TSOP type 1, CPL63-ball VFBGA

Table: Recommended operating conditions

10. 16M-BIT [16M X 1] CMOS SERIAL FLASH EEPROM

A. KH25L1606EM2-12G MACRONİX SPI FLASH (U120)

Description

The device features a serial peripheral interface and software protocol allowing operation on a simple 3-wire

bus. The three bus signals are a clock input (SCLK), a serial data input (SI), and a serial data output (SO).

Serial access to the device is enabled by CS# input. When it is in Dual Output read mode, the SI and SO pins

become SIO0 and SIO1 pins for data output. The device provides sequential read operation on whole chip.

After program/erase command is issued, auto program/erase algorithms which program/erase and verify the

specified page or sector/block locations will be executed. Program command is executed on byte basis, or page

basis, or word basis for erase command is executes on sector, or block, or whole chip basis. To provide user

with ease of interface, a status register is included to indicate the status of the chip. The status read command

can be issued to detect completion status of a program or erase operation via WIP bit. Advanced security

features enhance the protection and security functions; please see security features section for more details.

When the device is not in operation and CS# is high, it is put in standby mode. The device utilizes

Macronix's proprietary memory cell, which reliably stores memory contents even after typical 100,000

programs and erase cycles.

Features

 Single Power Supply Operation

o 2.7 to 3.6 volt for read, erase, and program operations

 Serial Peripheral Interface compatible -- Mode 0 and Mode 3
 16,777,216 x 1 bit structure or 8,388,608 x 2 bits (Dual Output mode) structure

 512 Equal Sectors with 4K byte each

o Any Sector can be erased individually

 32 Equal Blocks with 64K byte each

o Any Block can be erased individually

 Program Capability

39

o Byte base
o Page base (256 bytes)

 Latch-up protected to 100mA from -1V to Vcc +1V

Figure: Pin configuration

Table: Pin description

11. USB INTERFACE

Mstar IC has two input port for USB, therefore internal Bluetooth interface , internal Wi-Fi interface, USB2
and USB3 are combined with HUB. This property is optional. If bluetooth and wi-fi interfaces are not alined,
two USBs are connected directly to main IC.

40

Figure: USB Block Diagram

A. USB HUB CY7C65642 (U108)

Description

HX2VL is Cypress’s next generation family of high- performance, very low-power USB 2.0 hub controllers.

HX2VL has integrated upstream and downstream transceivers; a USB serial interface engine (SIE); USB hub

control and repeater logic; and transaction translator (TT) logic. Cypress has also integrated external

components such as voltage regulator and pull-up/pull-down resistors, reducing the overall BOM required to

implement a USB hub system. The CY7C65642 is a part of the HX2VL portfolio with four downstream ports

and an independent TT dedicated for each downstream port. This device option is for low-power but high-

performance applications that require up to four downstream ports. The CY7C65642 is available in 48-pin

TQFP and 28-pin QFN package options.

Features

 High-performance, low-power USB 2.0 hub, optimized for low-cost designs with minimum bill-of-material (BOM).
 USB 2.0 hub controller

o Compliant with USB2.0 specification
o Up to four downstream ports support
o Downstream ports are backward compatible with FS, LS
o Multiple translator (TT), one per downstream port for maximum performance.

 Very low-power consumption

o Supports bus-powered and self-powered modes
o Auto switching between bus-powered and self-powered
o Single MCU with 2K ROM and 64 byte RAM
o Lowest power consumption.

 Highly integrated solution for reduced BOM cost

o Internal regulator – single power supply 5 V required.
o Provision of connecting 3.3 V with external regulator.
o Integrated upstream pull-up resistor
o Integrated pull-down resistors for all downstream ports
o Integrated upstream/downstream termination resistors
o Integrated port status indicator control
o 12-MHz +/-500 ppm external crystal with drive level 600uW (integrated PLL) clock input with optional 27/48-MHz

oscillator clock input.

o Internal power failure detection for ESD recovery

 Downstream port management

o Support individual and ganged mode power management
o Overcurrent detection
o Two status indicators per downstream port
o Slew rate control for EMI management

 Maximum configurability

o VID and PID are configurable through external EEPROM
o Number of ports, removable/non-removable ports are configurable through EEPROM and I/O pin configuration

41

o I/O pins can configure gang/individual mode power switching, reference clock source and polarity of power switch

enable pin

o Configuration options also available through mask ROM
o Available in space saving 48-pin TQFP (7 × 7 mm) and 28-pin QFN (5 × 5 mm) packages

o

o Supports 0

C to +70oC temperature range

Figure: Pin configuration

42

12. CI INTERFACE

17MB98 Digital CI ve Smart Card Interface Block diagram:

Figure: CI interface

13. SOFTWARE UPDATE

A. MAIN SOFTWARE UPDATE

In MB98 project, please follow software update procedure:

1. mb98_en.bin, RomBoot.bin, PM51.bin and usb_auto_update_D7L.txt documents should be copied directly

inside of a flash memory (not in a folder).

2. Insert flash memory to the TV when TV is powered off.

3. While pushing the OK button in remote control, power on and wait. TV will power-up itself.

4. If First Time Installation screen comes, it means software update procedure is successful.

43

14. TROUBLESHOOTING

A. NO BACKLİGHT PROBLEM

Problem: If TV is working, led is normal and there is no picture and backlight on the panel.

Possible causes: Backlight pin, dimming pin, backlight supply, stby on/off pin

BACKLIGHT_ON/OFF pin should be high when the backlight is ON. Collector pin of Q106 must be low when

the backlight is OFF. If it is a problem, please check Q106 and the panel cables. Also it can be tested in TP33 in

main board.

Dimming pin should be high or square wave in open position. If it is low, please check S108 for Mstar

side and panel or power cables, connectors.

Backlight power supply should be in panel specs. Please check Q124, shown below; also it can be checked

TP42.

44

STBY_ON/OFF should be low for TV on condition, please check Q102’s collector.

B. CI MODULE PROBLEM

Problem: CI is not working when CI module inserted.
Possible causes: Supply, suply control pin, detects pins, mechanical positions of pins.

 CI supply should be 5V when CI module inserted. If it is not 5V please check CI_PWR_CTRL, this pin

should be low.

45

 Please check mechanical position of CI module. Is it inserted properly or not?
 Detect ports should be low. If it is not low please check CI connector pins, CI module pins.

46

C. STAYING IN STAND-BY MODE

Problem: Staying in stand-by mode, no other operation.

This problem indicates a short on Vcc voltages. Protect pin should be logic high while normal operation. When

there is a short circuit protect pin will be logic low. If you detect logic low on protect pin, unplug the TV set

and control voltage points with a multimeter to find the shorted voltage to ground.

47

D. IR PROBLEM

Problem: LED or IR not working

Check LED card supply on MB98 chasis.

48

E. KEYPAD TOUCHPAD PROBLEMS

Problem: Keypad or Touchpad is not working

Check keypad supply on MB98.

F. USB PROBLEMS

Problem: USB is not working or no USB Detection.

Check USB Supply, It should be nearly 5V. Also USB Enable should be logic high.

49

G. NO SOUND PROBLEM

Problem: No audio at main TV speaker outputs.

Check supply voltages of 12V_VCC, VDD_AUDIO and 3V3_AMP with a voltage-meter. There may be a

problem in headphone connector or headphone detect circuit (when headphone is connected, speakers are

automatically muted). Measure voltage at HP_DETECT pin, it should be 3.3v.

50

H. STANDBY ON/OFF PROBLEM

Problem: Device can not boot, TV hangs in standby mode.

There may be a problem about power supply. Check main supplies with a voltage-meter. Also there may be a

problem about SW. Try to update TV with latest SW. Additionally it is good to check SW printouts via

Teraterm. These printouts may give a clue about the problem. You can use Scart-1 for terraterm connection.

İ. NO SİGNAL PROBLEM

Problem: No signal or Low signal in DVB-S/S2 mode.

Check signal cables and LNB voltage, if there is no problem, check RS6000 supply voltages;

3V3_SAT_VDDA1, 3V3_SAT_VDDA, 3V3_SAT_VDD and 1V3_SAT_VCC.

If the above measurements are OK, then measure the voltage from the PIN1 of U90.

If the PIN1 voltage is equal to 0V, please check i2c waveforms and software. If the PIN1 voltage is lower than

1V(e.g: 0.8Vor 0.3V), change the U128 with a new part.

51

52

53

15. SERVICE MENU SETTINGS

In order to reach service menu, first Press “MENU” buton, then write “4725” by uisng remote controller.

You can see the service menu main screen below. You can check SW releases by using this menu. In addition,

you can make changes on video, audio etc. by using video settings, audio settings titles.

Service Menu

54

Video Settings

Audio Settings

55

Options 1

Options 2

56

Options 3

Tuning Settings

57

Source Settings

Diagnostic

58

16. PLACEMENT OF BLOCKS

LVDS

Connectors

Power Con.

FRC

RAM

Internal
Wifi& BT
Connector

FLASH

CI

USB

SW
CON

SPEAK.
CON

Keyboard
CON

LED
CON

VGA

SW

Amp

Audio

Amp

SCART

RJ45

Aud

io

IN/S

W

out

USB

S/PDIF

Y/Vi

deo

PbP

r

Sat.
Tuner
&
Demod

RAM

Tuner

MAIN

Mini
Scart

IC

HUB

HP

HDMI

Connectors

59

17. GENERAL BLOCK DIAGRAM

60

1 2 3 4 5 6 7 8

TUNER

C523

16V

100n

12p

3V3_TUNER

C515

1.8nF

2n2
50V

13

14

15

VDD_IO

VDD_1P2

GND_DIG

VDD_1P8_1

VDD_3P3_1

IF_OUTN_1

IF_OUTP_1

IF_OUTN_2

IF_OUTP_2

VDD_1P8_0

AGC_2

AGC_1

6

5

4

C516
100n
16V

F164

VDD_1V8

1k

12

11

10

9

8

7

16V
100n
C510

VDD_1V8

100n

16V

C506

100n

16V

C537

1u

6V3

C491

3V3_TUNER

R590
100R

C507

1u

C508

1u

NC

C509
100p
50V

F165

1k

F166

1k

IF_AGC

C379
100p 100p
50V

CLOSE TO MST

10u

C514

R442
100R

R441
100R

CLOSE TO DEMOD

C378

50V

6V3

C504

100n 10V

MST_IF_N

MST_IF_P

10V100n

C524

C505

100n 10V

C532

3V3_TUNER

10V

100n

A

B

C

1n

C525

1n

C526

L113

3n9

18

CLK_OUT

VDD_3P3_0

1

C522

16

17

SCL

SDA

U129

MXL601

LNA_INP

LNA_INN

3

2

C531

12p

XTAL_N

XTAL_P

GND_XTAL

VDD_1P8_2

RESET_N

AS

R596

22R

22R

R603

I2CM_SCL

50V

RF_IN_P

50V

RF_IN_N

X104

1 4
2

27MHz

16Mhz

VDD_1V8

MXL661_RST

3

C538
100n
16V

I2CM_SDA

19

20

21

22

23

24

A

6
7
8

5

CN122

9

432

11

10

D143

1 2

AZ5425-01F

1

12

L115

270n

10V

C5531MR638

100n

12n

L116

NC

10V

100n

1n

C554

L117

50V

12n

C552

L114

390n
C548

NC

C544
27p
50V

82p
50V

L118

220n

C557
180p
50V

S249

1k

R610

S250

B

SAT TUNER&DEMOD

50V

C519

C543

C5301n

1n

50V

50V

C

1n

1n

C547

C536

50V

50V1n

LNB_OUT

3V3_SAT_VDDA

RF_IN_N

RF_IN_P

3V3_TUNER

D133

50V

C503

C490
10p
50V

PESD9N5VH

100n

D131

10V

C489

20pF20pF

1

2

3

4

5

6

7

8

9

10

11

12

10p
50V

PESD9N5VH

48

VDDA5

LNA_IP

LNA_IN

TEST0

CAP

VDDA1

XTAL_OUT

XTAL_IN

CLK_OUT

VDDA2

GNDD1

VCC1

RESETN

SDA

13

33R

R588

45

46

47

TEST2

VDDA4

VDDA3

SCL

GNDD2

VCC2

16

15

14

33R

R587

1V3_SAT_VCC

100pF

BAV99

D146

2

7

CN121

6

3

45

C520

1

3p3

C511 0p5

50V

2p2F

2pF

S245

2 1

D

3V3_SAT_VDDA1

50V

3

C513

27p

27p

50V

E

27MHz

1 4

2

3V3_SAT_VDDA1

C512

X103

S2_RESET

100p

50V

C497

C498

100p

50V

C499

10nF

50V 1n

D136

PESD9N5VH

1V3_SAT_VCC

F

1V3_SAT_VCC

37

38

39

40

41

42

43

44

OLF

VCC5

TEST3

GNDD5

IT_LOCK

ADDR_SEL1

U128

M88RS6000

VDDD

TEST1

M_DATA0

M_DATA1

M_DATA2

21

20

19

18

17

8

7

6

54

R2R3R1

3

2

1

3V3_SAT_VDD

LNB_EN

DISEQC_IN

M_SYNC

M_VALID

M_DATA7

M_DATA6

M_DATA3

M_DATA4

22

R4

33R

R574

VSEL

DISEQC

VCC4

GNDD4

M_ERR

M_CLK

GNDD3

VCC3

M_DATA5

23

8

33R

R573

1

36

35

34

33

32

31

30

29

28

27

26

25

24

7

R2R3R1

2

6

3

DISEQC_OUT

1V3_SAT_VCC

33R

R569

33R

R570

33R

1V3_SAT_VCC

54

R4

NC

C469

10p R568
TS1_CLK

TS1_SYNC

TS1_VLD

1V3_SAT_VCC

3V3_VCC

3V3_VCC

3V3_VCC

C502

F170

220R

F162

220R

1V3_VCC LDO (W SAT)

3V3_VCC

3V3_VCC

60R

F150

C488

10V 100n

10V

10u

C445

21

5V_VCC

100n 10V

C480

10V

C500

C487
2u2
6V3

R540

2 1

4k7

2 1

4k7

C442

10V 100n

R530

100n 100n

10V

C521

C486
100n

10V

100n

10V

1

2

3

1u
C444

6V3

C443

POK

U124

EN

APL5910

VIN

VCNTL NC

10V 100n

C501
100n

C482
100n

GND

FB

VOUT

LNB_OUT

3V3_SAT_VDDA1

10V

3V3_SAT_VDDA

10V

8

7

6

54

10V

10u

C454

R2

R538 R539

47k

R529

R1

30k

10V

10u

C453

C518
10u
25V

1k

1

TP144

C494
10u
25V

1V3_SAT_VCC

D135

C22V

C495
10u
25V

12V_VCC

D134

1N5819

C493
10u
25V

C496
10u
25V

C477
10u
25V

D132

1N5819

D130

1N5819

L112

10u

12V_VCC

LNBP

DISEQC_OUT

100nF

C485

100n

10V

D128

1N5819

C478
10u
16V

3V3_VCC

5V_VCC 3V3_TUNER

C564

C481
100n

50V
220n
C484

F161

10V

12

13

VLNB

14

VCP

15

BOOST

16

PGND

1

1k

C476
10u
16V

F163

60R

U132

LM1117

3 2

ADJ

6V3

10u

1

SYS_SDA

100R

10

11

SDA

EXTM

VCTRL

U127

TPS65233

LX

VIN

VCC

3

2

C475
1u
16V

C479

100n

16V

OUTIN

VOUT

R580

9

4

4

SYS_SCL

R581

100R

EN/ADDR

SCL/VADJ

AGND

FAULT

ISEL

TCAP

D

8

7

R572

130k

6

100k

C474

5

10V

100n

22nF

E

F

TS1_D1

TS1_D2

TS1_D3

TS1_D4

TS1_D5

TS1_D7

TS1_D0

I2CM_SCL

I2CM_SDA

TS1_D6

3V3_VCC

S242

C483
100n

10V

3V3_SAT_VDD

SCH NAME :

DRAWN BY :

PROJECT NAME :

TUNER/SAT TUNER/LNBP

<YOUR NAME HERE>

17mb98-r2

87654321

A3

T. SHT:

11

12-03-2015_14:43

AXM

1 2 3 4 5 6 7 8

VERTICAL SCART

A

21

20

19

18

17

16

15

14

B

SC100

C

13

12

11

SCART LT1

10

9

8

7

6

5

4

3

2

1

D117

TP100

1

TP105

1

TP107

1

TP114

1

TP116

1

TP125

1

TP127

1

TP129

1

TP134

1

TP133

1

TP135

1

TP136

1

TP137

1

VGA INPUT

D

16

17

GND1

SCL

VSYNC

HSYNC

SDA

ID0

SGND

KEY

BGND

GGND

RGND

GND

BLUE

GREEN

RED

GND2

19

15

14

13

12

11

10

9

8

7

6

5

4

3

2

1

SHIELD1

E

VGA

CN125

RESERVED

F

SHIELD2

18

TP1731TP1721TP167

TP174

1

1

TP178

1

TP130

1

TP179

1

TP185

1

TP186

1

4 5

75R

R426

C349

33p

C414
330p
50V

F159

600R

F158

600R

C428
330p
50V

CDA4C16GTH

D139

VGA_DDC_5V

F179

F1781k1k

F177

6

3

21

R444

75R

SC2_AUD_L_IN

SC2_AUD_R_IN

4 5

1k

SLIM SCART

7

8

1

2

21

C468

4n7

R566
100R

R565
100R

C467

4n7
50V

6

7

2

3

C534

321

NUP4004M5

6

7

8

CDA4C16GTH

3

4 5

CDA4C16GTH

1

2

D121

C327
33p

75R

R412

50V

2 1

SC2_CVBS_IN

SC2_CVBS_OUT

75R

33p

C333

R418

47R

2 1

SC_FB

C339

2 1

R423

2 1

R421

75R

33p

SC2_R

33p

75R

2 1

R435

C15V

D122

C380

50V

75R

2 1

R436

SC2_G

UART_RX

R473 5k1

SC2_B

10k

R474

UART_TX

100n
C399

1 2

SC_PIN8

50V

75R

R455

2 1

C392

33p

24

23

1

22

21

20

19

18

17

16

15

14

13

12

11

10

9

8

7

1

TP197

1

1

1

1

1

1

TP194

1

1

1

1

6

21

SC2_AUD_L_OUT

21

SC2_AUD_R_OUT

SC2_AUD_R_IN

SC2 INDIA OPTION

SC2_CVBS_IN

SC2_AUD_L_IN

4

3

WHT

2
1

YEL

RED

JK103

5

4

3

2

1

SC101

C561

1

TP180

1

330p

C560

330p

50V

TP181

F181

600R

CDA4C16GTH

D142

TP121

TP190

TP175

TP189

TP183

TP188

TP160

TP187

TP169

TP182

50V

5V_VCC

1

TP171

D140

100R

100R

100R

21

BAV70

VGA_DDC_5V

21

21

21

8

7

6

5

VCC

U133

WP

24LC02

SCL

SDA

VSS

1

A0

2

A1

3

A2

4

21

21

21

C539

8

10k

R614

R612

1

2

100n

1

R660

10k

2 1

10k

R659

10V

10k

S257

R656

R657

R658

PC_SCL

PC_SDA

R636

21

10k
R635
510R
R625
510R
R637

2k4

VGA_VSNC

VGA_HSNC

VERTICAL/SLIM SCART OPTIONS

SC2_CVBS_IN

SC1_CVBS_IN

SC1_CVBS_OUT

SC2_CVBS_OUT

SC1_R

SC2_R

SC1_G

SC2_G

SC1_B

SC2_B

SC1_AUD_L_OUT

27p

27p

50V

1 2

1 2

C527

27p

50V

50V

1 2

C533

VGA_B

VGA_G

VGA_R

SC2_AUD_L_OUT

SC1_AUD_R_OUT

SC2_AUD_R_OUT

SC1_AUD_L_IN

SC2_AUD_L_IN

5

4

D138

75R

R605

2 1

75R

75R

R606

R600

2 1

2 1

SC1_AUD_R_IN

SC2_AUD_R_IN

F180

600R

4n7

4 5

2 1

C551

S212

S232

S233

S213

S244

S223

S238

S225

S243

S224

S240

S237

S239

S236

S235

S230

S234

S229

6

3

75R

R619

R632
100R

50V

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

75R

R641

1

1

TP164

TP163

21

7

8

1

2

4 5

21

SC1_AUD_L_IN

SC1_AUD_R_IN

SC1_AUD_R_OUT

SCART_CVBS_IN

CVBS0_OUT

SCART_R

SCART_G

SCART_B

SCART_AUD_L_OUT

SCART_AUD_R_OUT

R514

10k

10k

R515

6

7

8

CDA4C16GTH

YPBPR/BAV AUDIO & SUBW

A

1

2

3

C546

50V
33p

D144

75R

R642

2 1

75R

2 1

R617

75R

2 1

R618

2 1

75R

2 1

R640

50V
33p

C556

75R

R620

C555
33p
50V

SC1_CVBS_IN

UART_TX

UART_RX

SC1_R

SC1_B

50V

50V
33p

C559

TP177

1

1

WHT

RED

75R

R639

33p

2 1

C558

SC1_CVBS_OUT

47R

C15V

D145

R629

2 1

R628

50V

33p

C545

R630

5k110k

SC_FB

SC1_G

SC_PIN8

BLK

JK101

Y/CVBS-PB-PR INPUT

1

2

3
4

5

1

6

TP124

TP102

50V
330p

12k

C381

TP109

1

C340
330p
50V

12k

600R

21

F133

R403

R456

R445

R424

75k

10k

10k

R427

560p

560p

1n

1 2

C321

100R
R404

12k

C373

R437

YPBPR/BAV_L

YPBPR/BAV_R

C358

12k

R429

21

SUBW_OUT

B

C549

100n

10V

12

6

7

8

C

D119

CDA4C16GTH

1

2

3

4 5

PR_IN

PB_IN

Y/CVBS_IN

21

21

27p

27p

1 2

1 2

C361

21

75R

75R

75R

R430

R457

C393

R431

50V

4n7

R631
100R

C550

21

SC1_AUD_L_OUT

JK102

RED

BLU

GRN

F135

TP113

1

6
5

4
3

2
1

600R

F137TP117

1

600R

TP128

F143

1

600R

220n

L109

27p

50V
22p
C374

C382

4p7

1 2

C350

D

S/PDIF OUT

5V_SPDIF

21

4k7

R607

SPDIF_OUT

AMP_MUTE

R601

2 1

100R

R602

10k

5V_VCC

C535

12

100n

C529

220p

3

2

Q137
BC848B

1

F174

21

330R

10V

SCART_AUD_L_IN

SCART_AUD_R_IN

C430

C429

560p
50V

560p

12k

12k

R502

R501

SCH NAME :

DRAWN BY :

3

2

12

Q139
BC848B

21

1

4k7

R608

1k

R609

2 1

5V_SPDIF

C541

100n

PERIPHERALs

<YOUR NAME HERE>

C542

12

220p

S253

50V

5V_SPDIF

PROJECT NAME :

S254
S255

TP165

TP170

D141

C5V6

17mb98-r2

TP176

S256

87654321

TP184

2
3

JK105

1

1

VIN

2

VCC

3

GND

A3

T. SHT:

11

18-03-2015_14:09

E

FB100

F

AXM

1 2 3 4 5 6 7 8

PCM_D[0]
PCM_D[1]
PCM_D[2]
PCM_D[3]

A

B

C

PCM_D[4]
PCM_D[5]
PCM_D[6]
PCM_D[7]

PCM_A_0
PCM_A_1
PCM_A_2
PCM_A_3
PCM_A_4
PCM_A_5
PCM_A_6
PCM_A_7
PCM_A_8

PCM_A_9
PCM_A_10
PCM_A_11
PCM_A_12
PCM_A_13
PCM_A_14

PCM_RST

PCM_IRQA_N

PCM_IOWR_N

PCM_OE_N

PCM_IORD_N

PCM_CE_N

PCM_WE_N

PCM_CD_N

PCM_REG_N

PCM_WAIT_N

NF_ALE

NF_WPZ

NF_CEZ
NF_CLE
NF_REZ

NF_WEZ

NF_RBZ

W18

V18

W19
AB18
AA18
AB19
AB20
AB21

AA17
AB17
AA16
AB16
AC16
AA15
AC15
AB15

Y22
AA21
AC22
AA23

V15

Y21

W22

V16

W21

AA22

Y20
AB23
AB22

W23

V20

Y16

W16

AC13
AC12
AA13
AB13
AB14
AA12
AA14

PCM_D0
PCM_D1
PCM_D2
PCM_D3
PCM_D4
PCM_D5
PCM_D6
PCM_D7

PCM_A0
PCM_A1
PCM_A2
PCM_A3
PCM_A4
PCM_A5
PCM_A6
PCM_A7
PCM_A8
PCM_A9
PCM_A10
PCM_A11
PCM_A12
PCM_A13
PCM_A14

U119

MSD8852RKM2

PCM_RESET
PCM_IRQA_N
PCM_IOWR_N
PCM_OE_N
PCM_IORD_N
PCM_CE_N
PCM_WE_N
PCM_CD_N
PCM_REG_N
PCM_WAIT_N

NAND_ALE
NAND_WPZ
NAND_CEZ
NAND_CLE
NAND_REZ
NAND_WEZ
NAND_RBZ

TS1_CLK
TS1_VLD

TS1_SYNC

TS0_CLK
TS0_VLD

2

TS0_SYNC

TGPIO2/SCKM1
TGPIO3/SDAM1

NC[MCP_TS_ERR]

NC[MCP_RESET]

NAND FLASH

1

NC1

2

D

3V3_NAND

3k9

R293

NF_RBZ

NAND_REZ

NAND_CEZ

3V3_NAND

E

NAND_CLE

NAND_ALE

NAND_WEZ

NAND_WPZ

F

NC2

3

NC3

4

NC4

5

NC5

6

NC6

7

RB

8

R

9

E

10

NC7

11

NC8

12

VDD1

NAND128-A

13

VSS1

14

NC9

15

NC10

16

CL

17

AL

18

W

19

WP

20

NC11

21

NC12

22

NC13

23

NC14

24 25

U107

NC29

NC28

NC27

NC26

I/O7

I/O6

I/O5

I/O4

NC25

NC24

NC23

VDD2

VSS2

NC22

NC21

NC20

I/O3

I/O2

I/O1

I/O0

NC19

NC18

NC17

NC16NC15

TS1_D0
TS1_D1
TS1_D2
TS1_D3
TS1_D4
TS1_D5
TS1_D6
TS1_D7

TS0_D0
TS0_D1
TS0_D2
TS0_D3
TS0_D4
TS0_D5
TS0_D6
TS0_D7

VIFP

VIFM

IFAGC

TGPIO0
TGPIO1

48

47

46

45

44

43

42

41

40

39

38

37

36

35

34

33

32

31

30

29

28

27

26

Y14

MCP_TS1_D[0]

W14

MCP_TS1_D[1]

V13

MCP_TS1_D[2]

Y13

MCP_TS1_D[3]

W13

MCP_TS1_D[4]

W12

MCP_TS1_D[5]

W11

MCP_TS1_D[6]

V11

MCP_TS1_D[7]
V12
Y11

MCP_TS1_VALID

W15

MCP_TS1_SYNC

V17

TS0_D_0
V19

TS0_D_1
Y19

TS0_D_2

AC18

TS0_D_3

AC19

TS0_D_4

AA19

TS0_D_5

AA20

TS0_D_6

AC21

TS0_D_7
V14

TS0_CLK

W17

TS0_VALID
Y18

TS0_SYNC

C365

100n

AB1
AB2

100n

C366

AC2

AA2
AA1
AA4
AB4

U8

V9

R251

75R

33R

1

8

7

6

3V3_NAND

R250

8

7

6

PCM_A_7

R1

2

R2

PCM_A_6

3

R3

PCM_A_5

45

R4

33R

R1

R2

R3

R4

PCM_A_4

NF_WPZ

NF_CEZ

75R
1

PCM_A_3

2

PCM_A_2

3

PCM_A_1

45

PCM_A_0

3V3_VCC 3V3_NAND

MST_IF_P

MST_IF_N

R304

33R

R303

33R

R147

NF_WEZ

F117

60R

33R

NF_REZ

NF_CLE

NF_ALE

MCP_TS1_CLK

C389

100n

RESET_HUB

MXL661_RST
I2CM_SCL
I2CM_SDA

R503

21

10k

R468

21

4k7

R481

21

4k7

NAND_WPZ

NAND_CEZ

C191

10u

10V

10k

R454

1

2

3

F139

1k

S220

3V3_VCC

3V3_VCC

3V3_VCC

R297

33R

R1

R2

R3

R4

100n

16V

MCP_TS1_SYNC

PCM_REG_N

PCM_WAIT_N

8

7

6

54

NAND_ALE

C203

100n

16V

C388
22n

PCM_A_12

3V3_VCC

IF_AGC

NAND_WEZ

NAND_REZ

NAND_CLE

C176

R190

33R

8

R1

7

R2

6

R3

5 4

R4

1

2

3

TS1_SYNC

PCM_A12

PCM_REG

PCM_WAIT

SPI-SDO

3V3_STBY

FLASH-WPN1

PCM_A_8

PCM_A_9

PCM_A_11

PCM_IOWR_N

PCM_D[7]

PCM_CE_N

PCM_OE_N

PCM_IORD_N

TS1_CLK

MCP_TS1_D[2]

MCP_TS1_D[4]

MCP_TS1_D[3]

MCP_TS1_D[1]

MCP_TS1_D[0]

TS0_VALID

TS0_SYNC

PCM_A13

PCM_A14

PCM_WE

PCM_IRQA

SPI-CS1N

1

2

3

50V

10p

PCM_RST

TS0_D_2

R195

33R

R1

R2

R3

R4

R214

33R

8

R1

7

R2

6

R3

5 4

R4

R146

C106

R158

8

7

6

5 4

R165

R196

R197

R246

R237

R189

1

2

3

R450

33R

R458

33R

TP123

TP126

C383
100n
10V

8

7

6

54

1

2

3

33R

33R

R1

R2

R3

R4

33R

33R

33R

33R

33R

33R

R1

R2

R3

R4

R447

4k7

R461

33R

PCM_IOWR

PCM-D[7]

50V

10p

1

2

3

8

PCM_A_13

7

6

PCM_WE_N

54

PCM_IRQA_N

SPI FLASH

3V3_STBY

4k7

R449

PCM_A8

PCM_A9

PCM_A11

MCP_TS1_CLK

C116

TS1_D2

TS1_D4

TS1_D3

TS1_D1

TS1_D0

PCM-RST

TS0_VLD

TS0-SYNC

TS0_D2

PCM_A_14

MX25L512

TP122

1

CS#

2

SO

3

WP#
GND SI

NC

S221

PCM_CE

PCM_OE

PCM_IORD

U120

HOLD#

TP166

VCC

SCLK

C401

TP120

8
7
6
54

TP132

10V

100n

R459

4k7

R462

33R

R477

33R

TP119

PCM_D[5]

TS0_D_4

TS0_D_5

TS0_D_3

PCM_A_10

TS0_D_6

TS0_D_7

PCM_D[6]

MCP_TS1_D[7]

MCP_TS1_D[6]

MCP_TS1_VALID

MCP_TS1_D[5]

PCM_D[2]

TS0_D_1

PCM_A_5

PCM_A_4

PCM_A_3

PCM_A_2

PCM_D[3]

C400
10u
10V

SPI-SDI

1

2

3

1

2

3

R224

33R

R229

33R

R145

33R

R143

33R

R141

33R

R142

33R

R244

33R

D123

1N5819

R478

R239

33R

1

R1

2

R2

3

R3

R4

R228

33R

R1

R2

R3

R4

R153

33R

R1

R2

R3

R4

4k7

8

7

6

54

8

7

6

54

8

7

6

54

PCM-D[2]

PCM-D[3]

SPI-SCK

PCM-D[5]

PCM-D[6]

TS1_D7

TS1_D6

TS1_VLD

TS1_D5

TS0_D1

PCM_A5

PCM_A4

PCM_A3

PCM_A2

3V3_STBY

3V3_STBY

TS0_D4

TS0_D5

TS0_D3

PCM_A10

TS0_D6

TS0_D7

3V3_VCC

PCM_IORD

PCM_IOWR

3V3_VCC

3V3_VCC

TS0_CLK

PCM_CD1

R206

R207

50V

10p

C137

R170

PCM_WAIT

CI_PWR

PCM_CD2

PCM_PWR_CTL

TS0_D_0

PCM_D[4]

PCM_D[0]

PCM_D[1]

PCM_A_0

PCM_A_1

PCM_A_6

PCM_A_7

3V3_VCC

R216

4k7
4k7

R215

4k7

4k7

50V

10p

33R

R169

4k7

R144

3V3_VCC

5V_VCC

12V_VCC

R220

33R

8

R1

7

R2

6

R3

5 4

R4

R238

33R

1

R1

2

R2

3

R3

R4

SCH NAME :

DRAWN BY :

10k

CI

R104

R105

33R

TS0_D3
TS0_D4
TS0_D5
TS0_D6
TS0_D7

TS1_SYNC

TS1_D0
TS1_D1
TS1_D2
TS1_D3

CI_PWR CI_PWR

TS1_D4
TS1_D5

C134

TS1_D6
TS1_D7

33R

PCM-RST

PCM_REG

TS0_VLD

TS0-SYNC

TS0_D0
TS0_D1

R118

TS0_D2

33R

10k

R103

2

R121

47k

R116

21

10k

3V3_VCC

PCM_CD1

PCM_CD2

1

PCM-D[4]

2

PCM-D[0]

3

PCM-D[1]

8

PCM_A0

7

PCM_A1

6

PCM_A6

54

PCM_A7

NAND/CI/SPI

<YOUR NAME HERE>

CN103

1

35

2

36

3

37

4

38

5

39

6

40

7

41

8

42

9

43

10

44

11

45

12

46

13

47

14

48

15

49

16

50

17

51

18

52

19

53

20

54

21

55

22

56

23

57

24

58

25

59

26

60

27

61

28

62

29

63

30

64

31

65

32

66

33

67

34

68

Q103

BSH103

1

21

TS0_D0

PROJECT NAME :

3

C102

2

R122

47k

Q101
BC847B

R102

10k

1N4148

D100

1N4148

D101

F101

60R

10V

100n

1

21

21

PCM-D[3]
PCM-D[4]
PCM-D[5]
PCM-D[6]
PCM-D[7]

PCM_CE
PCM_A10
PCM_OE
PCM_A11
PCM_A9
PCM_A8
PCM_A13
PCM_A14
PCM_WE

TS1_VLD
TS1_CLK
PCM_A12
PCM_A7
PCM_A6
PCM_A5
PCM_A4
PCM_A3
PCM_A2
PCM_A1

PCM-D[0]
PCM-D[1]
PCM-D[2]

4k7

R119

C117
10u
10V

PCM_CD_N

17mb98-r2

TP12

1

2

1

87654321

R168

PCM_A0

CI_PWR

C120
100n
10V

PCM_IRQA

4k7

CI_PWR

CI_PWR

C121

2

100n

1

10V

A3

T. SHT:

11

12-03-2015_13:46

A

B

C

D

E

F

AXM

1 2 3 4 5 6 7 8

R343

21

10k

R342

10k

R114

10k

VSYNC_BS

A

BACKLIGHT_DIM

3D_SYNC_OUT

HSYNC_BS

PWM_PM

3V3_STBY

3V3_STBY

3V3_STBY

3V3_STBY

PC_SCL

B

3V3_VCC

3V3_VCC

UART_RX

UART_TX

PC_SDA

SYS_SCL

SYS_SDA

R371

R367

4k7

4k7

TOUCHPAD_SCL

33R

4k7

R547

R576

R575

PM7

33R

AMP_RST

TOUCHPAD_SDA

HP_AMP_MUTE

LED2

C

HDMI0_5V

33R

33R

KEYBOARD

AMB_MOTION

FLASH-WPN1

AUX_RESET

3V3_STBY

R507

10k

S251

S252

TX_HOTEL

STBY_ON/OFF

RX_HOTEL

MFC_RESET

AMP_MUTE

33R

R494

R113

R340

33R

4k7

SPI-SCK

SPI-SDI

SPI-SDO

SPI-CS1N

21

21

21

R354
R355

TP146

TP103

VID

LED1

R475

R4764k7

10k

10k

R508

R339

21

R448

21

33R
33R

PM_LED

W20

PWM0

U22

PWM1

V23

PWM2

V22

PWM3

V21

PWM4

A6

PWM_PM/CHIP_CONFIG

E5

SAR0

D5

SAR1

G7

SAR2

D8

SAR3

D6

SAR4

F5

SAR5[POWER_DROP_DET]

C1

PM_SPI_CK

C3

PM_SPI_DI

B1

PM_SPI_DO

B2

PM_SPI_CZ1N[PM6]

B3

SPI_CZ2N[PM10]

E2

DDCA_CK/UART0_RX

D2

DDCA_DA/UART0_TX

L17

DDCR_CK

L18

DDCR_DA

L19

UART_RX2

L20

UART_TX2

W9

GPIO_PM0

A3

GPIO_PM1/PM_UART_TX

Y9

GPIO_PM2

AC6

GPIO_PM3

F8

GPIO_PM4

A2

GPIO_PM5/PM_UART_RX

W3

GPIO_PM7/CHIP_CONFIG

V10

GPIO_PM8

D3

GPIO_PM9

AC10

GPIO_PM11

Y7

GPIO_PM12

E3

GPIO_PM13/MHL_CABLE_DETECT

H4

GPIO_PM14/MHL_VBUS_EN

D4

PM_LED/CHIP_CONFIG

R579

10k

R257

10k

R552

10k

R562

10k

R557

10k

R485

10k
10k

R211

D

IC Configuration Selection

PM7

R536

R537

4k7

4k7

3V3_STBY

NC

E

R546

21

TP96

TP143

TP149

TP147

F

1

2

3

4

CN117

5

KEYBOARD

R451

3V3_STBYSPI-SDI

4k7

R486

4k7

51 boot from SPI: 4b' 1000 (default)
MIPS boot from ROM: 4b' 1011

C460

2

100n

1

F154

F156

F157

F160

TP150

10V

1k

1k

1k

1k

6

PM_LED 3V3_STBY

KEYBOARD47R

3V3_STBY

TOUCHPAD_SCL

TOUCHPAD_SDA

8

7

6

1

2

3

45

CDA4C16GTH

D147

3V3_VCC

21

3V3_VCC

21

3V3_VCC

H22

LVB0N

J21

LVB0P

J22

LVB1N

J23

LVB1P

K21

LVB2N

K23

LVB2P

LVB3N

LVB3P

LVB4N

LVB4P

LVA0N

LVA0P

LVA1N

LVA1P

LVA2N

LVA2P

LVA3N

LVA3P

LVA4N

LVA4P

K22
L21
L22
M21
M22
M23

N21
N23
N22
P21
P22
R21
R22
R23
T21
T23
T22
U21

G22
H21
G23
G21

J18
J19
J17
K19
J20
K20
K18
K17

R432

4k74k7

LVBCLKN

4

LVBCLKP

U119

MSD8852RKM2

LVACLKN
LVACLKP

LDE/GPIO

LCK/GPIO
LVSYNC/GPIO
LHSYNC/GPIO

TCON0/GPIO
TCON1/GPIO
TCON2/GPIO
TCON3/GPIO
TCON4/GPIO
TCON5/GPIO
TCON6/GPIO
TCON7/GPIO

21

3V3_STBY

21

3V3_STBY

21

3V3_STBY

21

3V3_STBY

21

3V3_STBY

21

3V3_STBY

21

3V3_STBY

R440

R439 R433

3V3_STBY

4k7

PWM_PM

LED2

4k7

S209
S207

S210
S208

NCNCNC

R108
33R

33R

R571

10k

21

21

21

21

10k

R589

33R

R586

TX_B_4_P
TX_B_4_N
TX_B_3_P
TX_B_3_N
TX_B_CLK_P
TX_B_CLK_N
TX_B_2_P
TX_B_2_N
TX_B_1_P
TX_B_1_N
TX_B_0_P
TX_B_0_N

TX_A_4_P
TX_A_4_N
TX_A_3_P
TX_A_3_N
TX_A_CLK_P
TX_A_CLK_N
TX_A_2_P
TX_A_2_N
TX_A_1_P
TX_A_1_N
TX_A_0_P
TX_A_0_N

3D_ENABLE

HP_DETECT

3D_BOOST

10k

21

3V3_VCC

S2_RESET
PCM_PWR_CTL
PANEL_VCC_ON/OFF

R188

PROTECT

MST_BACKLIGHT_ON/OFF
USB_ENABLE

R305

21

10k

R235

21

10k

R115

21

10k

CN120

TP1571TP1521TP1531TP154

CN118

3

2

21

1

Q133
BC848B

21

R112

3V3_VCC

3V3_VCC

3V3_VCC

1

1

R582

10k

BC858B

5V_STBY

2

2

150R

21

R583

Q132

3V3_VCC

4

3

1

4

3

21

220R

21

220R

LED

5

1

1

TP156

5

C492

1 2

27p

R577

Q135

BC858B

R592

TP158

F167

50V

220R

220R

6

TP159

S24821S246

TOUCHPAD_SCL

5V_STBY

1k

21

R584

21

R591

V/I RESET

3V3_STBY

21

4k7

R171

S120

U102

3

VCC

RST GND

MAX809LTR

4k7

2 1

R643

4k7

2k4

R644

2 1

R160

39k

R161

15k
R166
220R

10k

R159

12

AUX_RESET

24V_VCC

12V_VCC

5V_VCC

C131
100n
16V

3V3_VCC

SCANNING BACKLIGHT

R111

33R

R110

33R

R109

33R

R4

5 4

R3

6

R2

7

R1

8

33R

R313

R348

33R

8

R1

7

R2

6

R3

5 4

R4

TP4

TP1

TP192

TP5

TP71

3

2

TP2

TP57

1

1

2

3

2 1

2 1

3V3_VCC

R321

10k

R320

10k

VSYNC_LIKE

VSYNC_BS

HSYNC_BS

SPI_SCL_BS

SPI_SDI_BS

SPI_SDO_BS

SPI_XCS_BS

R331

2 1

10k

R330

2 1

10k

SPI5_SCK

SPI5_SDI

SPI5_SDO

SPI5_CSZ

CN100

1

2

3

4

5

6

7

8

A

B

C

PROTECTION

12V_VCC

R194

47k

R184

6k8

10k

2 1

R185

21

3

D105

BAW56

R173

2 1

33k

21

3

D107

R167

5k1

R187

10k

BAW56

R186

3k9

3V3_VCC

21

3

D106

BAW56

R172

21

3V3_VCC

10k

21

3

D113

21

3

STBY_ON/OFF

120k

R140

47k

R132

9

8

7

21

TP161

10

21

S247

F173

TP168

TP162

1k

F172

1k

5V_STBY

AMB_MOTION

D137

C5V6

F171

TOUCHPAD_SDA

21

10k

R585

D129

C5V6

Q134

BC848B

1k

3

Q136

BC848B

IR_IN

3

R578

2

1

10k

21

2

1

R595

10k

1n

50V

C517

21

1N4148

PWM_PM

D102

C115

TP11

220u

2

C132
100n

10V

3

1

1

Q114
BC848B

2

1

Q112

PROTECT

2 1

3

2

1

BC848B

R162

10k

BC858B

Q113

R156

10k

3V3_VCC

S118

21

R157

3V3_VCC

3V3_STBY

S119

R163

2 1

10k

R164

21

10k

Q118

BC848B

R205

21

100R

10k

Q117

BC858B

R182

6k8

10k

2 1

R183

3V3_VCC

LED1

SCH NAME :

DRAWN BY :

PROJECT NAME :

GPIOs

<YOUR NAME HERE>

17mb98-r2

87654321

3V3_VCC

5V_VCC

24V_VCC

12V_VCC

1V26_VCC

BAW56

1V5_VCC

D108

BAW56

1V26_VCC_MFC

T. SHT:

17-03-2015_10:06

D

E

F

A3

11

AXM

1 2 3 4 5 6 7 8

U119

MSD8852RKM2

1

A

B_DQL[0]
B_DQL[1]
B_DQL[2]
B_DQL[3]
B_DQL[4]
B_DQL[5]
B_DQL[6]
B_DQL[7]

B_DQU[0]

B

C

B_DQU[1]
B_DQU[2]
B_DQU[3]
B_DQU[4]
B_DQU[5]
B_DQU[6]
B_DQU[7]

B_CASZ
B_RASZ

B_DQML

B_DQMU

B_MCLK

B_MCLKZ

B_DQSL

B_DQSLB

B_DQSU

B_DQSUB

B_A[1]
B_A[2]
B_A[3]
B_A[4]
B_A[5]
B_A[6]
B_A[7]
B_A[8]

B_A[9]
B_A[10]
B_A[11]
B_A[12]
B_A[13]
B_A[14]

B_WEZ

B_ODT
B_BA[0]
B_BA[1]
B_BA[2]

B_RST

B_CKE

B_CS0

ZQ

F14
D12
B12
E17
B13
F16
C13
D16
A14
F18
D15
D17
C14
E15
A22
A18
C21
C17
C22
C16
B23
B17
F20
D21
D19
E23
E21
D22
D20
F22
B11
C10
D13
C18
D23
B10
A11
D18
A12
F12
E19
C15
B15
A21
C20
B20
C19
D14

E11

E13

B_A[0]

A_A[0]
A_A[1]
A_A[2]
A_A[3]
A_A[4]
A_A[5]
A_A[6]
A_A[7]
A_A[8]
A_A[9]
A_A[10]
A_A[11]
A_A[12]
A_A[13]
A_A[14]
A_DQL[0]
A_DQL[1]
A_DQL[2]
A_DQL[3]
A_DQL[4]
A_DQL[5]
A_DQL[6]
A_DQL[7]
A_DQU[0]
A_DQU[1]
A_DQU[2]
A_DQU[3]
A_DQU[4]
A_DQU[5]
A_DQU[6]
A_DQU[7]
A_CASZ
A_RASZ
A_WEZ
A_DQML
A_DQMU
A_ODT
A_BA[0]
A_BA[1]
A_BA[2]
A_RET
A_CKE
A_MCLK
A_MCLKZ
A_DQSL
A_DQSLB
A_DQSU
A_DQSUB

A_CA0

R420
240R

K2

B2

D9

A_A[0]
A_A[1]
A_A[2]
A_A[3]
A_A[4]
A_A[5]
A_A[6]
A_A[7]
A_A[8]

A_A[9]
A_A[10]
A_A[11]
A_A[12]
A_A[13]

A_A[14]

A_BA[0]
A_BA[1]

A_MCLK

A_MCLKZ

56R

R417

R416

C331

A_BA[2]

A_CKE

56R

10n

A_CA0

A_RASZ
A_CASZ

A_WEZ

16V

A_RET

240R
R415

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

J1

NC1

L1

NC2

M7

NC3

L9

NC4

T7

NC5

J9

NC6

M2

BA0

N8

BA1

M3

BA2

J7

CK_0

K7

CK_1

K9

CKE

L2

CS

J3

RAS

K3

CAS

L3

WE

T2

RESET

L8

ZQ

G7

VDD_1

VDD_2

VDD_3

VSS_1

VSS_2

E1B3A9

1V5_MIU0

A8

K8

N1

VDD_4

VDD_5

VDD_6

A1

R9R1N9

VDD_7

VDD_8

VDD_9

D2C9C1

VDDQ_1

VDDQ_2

VDDQ_3

VDDQ_4

U117

H5TQ2G63BFR-PB

VSS_3

VSS_4

VSS_5

VSS_6

VSS_7

VSS_8

VSS_9

VSS_10

VSS_11

VSS_12

J8

J2

G8

M1

T9

T1

B1

P9

P1

M9

100n 100n

16V

C279
100n

16V

C258
100n

10u

C262

100n

C278C275
100n

16V

C297
100n

16V

C345C347

100n

100n

C310
100n

C346

100n

close to IC

D116

16V

A

16V

B

MCP_VDD

VDDC

C5V6

C

C292
100n

close to DDR power pin

1V26_VCC

1V26_VCC

16V16V

C273
10u
10V

3V3_VCC

100n 100n

16V

C276
100n

16V

F125

60R

F128

60R

100n

16V

C296
100n

16V

C251 C250
10u

F124

1k

100n

100n

16V

C295
100n

16V

10u

C253
10u

C335C336

100n

100n

16V

C328
100n

16V

1V15_VCC

C257

C259

100n

16V

C280
100n

16V

C254C265

100n 100n

C255

100n

DVDD_RX_O

S215

C261

100n 100n

VCC3V3_T

C232
100n

16V

1k

R413

1k

R394

F129

60R

C274

C288

10u

10u

10V

10V

1k

C330

R414

1k

C290

R393

F1

E9

H9

H2

VDDQ_5

VDDQ_6

VDDQ_7

VDDQ_8

VDDQ_9

VREF_DQ
VREF_CA

DQSU_1
DQSU_0

VSSQ_1

VSSQ_2

VSSQ_3

VSSQ_4

VSSQ_5

VSSQ_6

E8

E2

B9

D8

D1

DQL0
DQL1
DQL2
DQL3
DQL4
DQL5
DQL6
DQL7

DQU0
DQU1
DQU2
DQU3
DQU4
DQU5
DQU6
DQU7

DQSL_0
DQSL_1

DML
DMU

ODT

VSSQ_7

VSSQ_8

F9

G1

H1

M8

E3

F7
F2

F8
H3
H8
G2
H7

D7
C3
C8
C2
A7
A2
B8
A3

F3
G3

B7
C7

E7
D3

K1

VSSQ_9

G9

A-MVREFDQ

A_DQL[0]
A_DQL[1]
A_DQL[2]
A_DQL[3]
A_DQL[4]
A_DQL[5]
A_DQL[6]
A_DQL[7]

A_DQU[0]
A_DQU[1]
A_DQU[2]
A_DQU[3]
A_DQU[4]
A_DQU[5]
A_DQU[6]
A_DQU[7]

A_DQSL
A_DQSLB

A_DQSUB
A_DQSU

A_DQML
A_DQMU

A_ODT

1V5_VCC

1V5_MIU0A-MVREFCA

1V5_MIU0

1V5_MIU0
C293
100n

16V

1n

16V

C329

100n

1n

16V

C289

100n

1V5_MIU0

A-MVREFCA

50V

A-MVREFDQ

50V

C294

C298

C277

C299

C300

C291

C316

D

1V5_VCC

VCC3V3A_T

J7

K7L7V6

AVDD_NODIE

E

AVDD_DVI_USB_MPLL_1

AVDD_DVI_USB_MPLL_0

VCC3V3_T

AVDD_AU33

AVDD_EAR33

AVDD3P3_DMPLL

V5

U5

U17

U18

U19

U20

VDDP

AVDD_AU33

AVDD_EAR33

AVDD3P3_DMPLL

AVDD_MOD_2

AVDD_MOD_1

AVDD_DRAM

1V5_VCC

J8

B7

B8

H7

C2

AVDD_PLL

GND_57

AVDD_DRAM_1

AVDD_DRAM_0

AVDD5V_MHL_D

J13

GND_58

J9

J14

J15

J16

K15

K16

GND_65

GND_64

GND_63

GND_62

GND_61

GND_60

GND_59

L5L6L8

K8

K9

L15

GND_68

GND_67

GND_66

L9

L16

GND_69

M4M5M6M7M8

GND_76

GND_75

GND_74

GND_73

GND_72

GND_71

GND_70

6

N6N7N8

M9

N10

GND_81

GND_80

GND_79

GND_78

GND_77

P7

P8

N9

P11

R10

R11

R12

R13

R14

R15

R16

GND_94

GND_93

GND_92

GND_91

GND_90

GND_89

GND_88

GND_87

GND_86

GND_85

GND_84

GND_83

GND_82

R7R8R9

T11

T12

T13

T14

T15

R17

R18

R19

R20

GND_99

GND_98

GND_97

GND_96

GND_95

GND_102

GND_101

GND_100

T16

GND_107

GND_106

GND_105

GND_104

GND_103

T7T8T9

T17

T18

T19

T20

U11

U12

U13

U14

U15

GND_119

GND_118

GND_117

GND_116

GND_115

GND_114

GND_113

GND_112

GND_111

GND_110

GND_109

GND_108

U16

U4U6U7

GND_120

V4

GND_124

GND_123

GND_122

GND_121

F4G4F9

V7

W7

Y10

P10

3V3_STBY

GND_131

GND_130

GND_129

GND_128

GND_127

GND_126

GND_125

U119

MSD8852RKM2

GND_56

GND_55

GND_54

GND_53

GND_52

GND_51

GND_50

GND_49

GND_48

GND_47

GND_46

GND_45

GND_44

GND_43

GND_42

GND_41

GND_40

GND_39

GND_38

GND_37

GND_36

GND_35

GND_34

GND_33

GND_32

GND_31

GND_30

GND_29

GND_28

GND_27

GND_26

GND_25

GND_24

GND_23

GND_22

GND_21

GND_20

GND_19

GND_18

GND_17

GND_16

GND_15

GND_14

GND_13

GND_12

GND_11

GND_10

GND_9

GND_8

GND_7

GND_6

GND_5

GND_4

GND_3

GND_2

GND_1

GND_0

AVDD_DDR1_CLK

AVDD_DDR1_CMD

AVDD_DDR1_D_2

AVDD_DDR1_D_1

AVDD_DDR1_D_0

AVDD_DDR0_CMD

AVDD_DDR0_D_2

AVDD_DDR0_D_1

AVDD_DDR0_D_0

DVDD_NODIE

DVDD_DDR_1

DVDD_DDR_0

DVDD_RX_2_1

DVDD_RX_2_0

DVDD_RX_1_1

DVDD_RX_1_0

AVDD_MOD_0

MCP_VDDC_1

MCP_VDDC_0

AVDDL_DVI_0

VDDC_12

VDDC_11

VDDC_10

VDDC_9

VDDC_8

VDDC_7

VDDC_6

VDDC_5

VDDC_4

VDDC_3

VDDC_2

VDDC_1

VDDC_0

C9

D7

L10

L11

N11

M10

F

VDDC

P14

P12

N12

M11

P13

N13

N14

1

MCP_VDD

TP98

T10

K10

N15

N19

VDDC

P15

U10

C252

VDDC

100n

TP106

M12A9M14B9M13

VDDC

DVDD_RX_O

C7

K12

C359
1u
6V3

TP115

AVDD_DRAM

C8

L12

K11

L14

L13

K14

K13

AVDD_DDR

A8

A15

A17

A20

B14

B16

B18

B19

B21

B22

AA3

AB3

AB12

C11

F13

F15

E22

C12

C23

D11

U9

F17

F19

F21

F23

G10

G11

G12

G13

G14

G15

W10

G16

G8

G9

H10

H11

H12

H13

H14

H15

G17

G18

G19

G20

H16

H8

H17

H18

H19

H20

E8

H9

E9

J10

J11

J12

F130

60R

F127

F136

1k

F144

1k

F145

1k

F146

1k

C309
10u

60R

C353

100n

C410

100n

C412

100n

C423

100n

SCH NAME :

DRAWN BY :

C315
10u

C281
10u

C411

C431

100n

100n

C424

100n

100n

100n

C282

100n

C351C352

100n

C576

100n

100n

C302

100n

C575

100n

C283

100n 100n

100n 100n

VCC3V3A_T

AVDD3P3_DMPLL

C577

100n

AVDD_EAR33

C341

C343

C342 C356

PROJECT NAME :

RAM/MAIN POWER

<YOUR NAME HERE>

C355C354

C284C301

C578

100n

100n

100n

AVDD_DRAM

100n

AVDD_DDR

C579
10n
50V

17mb98-r2

87654321

AVDD_AU33

T. SHT:

18-03-2015_14:43

D

E

F

A3

11

AXM

1 2 3 4 5 6 7 8

HDMI0_5V

M1

CN115

1
2
3
4

A

5
6
7
8

9
10
11
12
13
14
15
16
17
18
19

21

47k

R544

R545

21

21

47k

47k

R556

HDMI0_RX2P

HDMI0_RX2N
HDMI0_RX1P

HDMI0_RX1N
HDMI0_RX0P

HDMI0_RX0N
HDMI0_CLKP

HDMI0_CLKN
CEC

HDMI_ARC
HDMI0_SCL
HDMI0_SDA

HDMI0_5V
HDMI0_HPDIN

B

CN119

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15

C

16
17
18
19

21

47k

R593

R594

21

21

47k

47k

R604

HDMI1_RX2P

HDMI1_RX2N
HDMI1_RX1P

HDMI1_RX1N
HDMI1_RX0P

HDMI1_RX0N
HDMI1_CLKP

HDMI1_CLKN
CEC

HDMI1_SCL
HDMI1_SDA

HDMI1_5V
HDMI1_HPDIN

HDMI0_RX0P

HDMI0_RX1P

HDMI0_RX2P

HDMI0_CLKP

HDMI3_RX0P

HDMI3_RX1P

HDMI3_RX2P

HDMI3_CLKP

HDMI1_RX0N

HDMI1_RX1N

HDMI1_RX2N

HDMI1_CLKN

HDMI2_RX0N

HDMI2_RX1N

HDMI2_RX2N

HDMI2_CLKN

HDMI_ARC

CEC

HDMI0_RX0N

HDMI0_RX1N

HDMI0_RX2N

HDMI0_CLKN

HDMI0_SCL

HDMI0_SDA

HOTPLUG0

HDMI3_RX0N

HDMI3_RX1N

HDMI3_RX2N

HDMI3_CLKN

HDMI3_SCL

HDMI3_SDA

HOTPLUG3

HDMI1_RX0P

HDMI1_RX1P

HDMI1_RX2P

HDMI1_CLKP

HDMI1_SCL

HDMI1_SDA
HOTPLUG1

HDMI2_RX0P

HDMI2_RX1P

HDMI2_RX2P

HDMI2_CLKP

HDMI2_SCL

HDMI2_SDA
HOTPLUG2

SPDIF_OUT

C450

1u 6V3

R624

33R

33R

R531

0R

M2
N3
N2
P3
P2

L1

M3

J6
K5
K6

F1

F2
G3
G2
H3
H2
E1

F3

F6
G6
G5

J1

J2
K3
K2

L3

L2
H1

J3

J5

L4

J4

AB7
AA8
AB8
AA9
AB9
AC9
AA7
AC7

Y8

W8

V8

H5

H6

C6
E4

A_RX0N
A_RX0P
A_RX1N
A_RX1P
A_RX2N
A_RX2P
A_RXCKN
A_RXCKP
DDCDA_CK
DDCDA_DA
HOTPLUGA

D_RX0N
D_RX0P
D_RX1N
D_RX1P
D_RX2N
D_RX2P
D_RXCKN
D_RXCKP
DDCDD_CK
DDCDD_DA
HOTPLUGD

B_RX0N
B_RX0P
B_RX1N
B_RX1P
B_RX2N
B_RX2P
B_RXCKN
B_RXCKP
DDCDB_CK
DDCDB_DA
HOTPLUGB

C_RX0N
C_RX0P
C_RX1N
C_RX1P
C_RX2N
C_RX2P
C_RXCKN
C_RXCKP
DDCDC_CK
DDCDC_DA
HOTPLUGC

PAD_ARC0

CEC

SPDIF_IN
SPDIF_OUT

MSD8852RKM2

LINE_IN_1L

LINE_IN_1R

LINE_IN_2L

LINE_IN_2R

LINE_OUT_0L

LINE_OUT_0R

LINE_OUT_2L

LINE_OUT_2R

I2S_OUT_BCK

I2S_OUT_MCK

I2S_OUT_WS

I2S_OUT_SD

I2S_IN_WS[GPIO158]

I2S_IN_BCK

I2S_IN_SD

SPI1_DI

SPI1_CK

SPI2_DI

SPI2_CK

XTALOUT

GND_132

3

GND_133

U119

VAG
VRM

IRIN

RESET

XTALIN

Y4

Y5
W5
W4

W6

Y6

Y3
W2

Y1

Y2

E10
F10
D10

D9

E7

E6

F7

P18
P17
P19
P16

A4

B6

AC3
AC4

F11

P9

C404

2u2

C420

2u2

R428

22R

1

R1

2

R2

3

R3

4 5

R4

TP111
TP112
TP108

SPI_SDO_BS
SPI_XCS_BS
SPI_SCL_BS
SPI_SDI_BS

R567

100R

SYSTEM_RESET

S216

S214

C405

2u2

2u2

C419

R491

33R

R492

33R

R480

33R

R479

33R

8
7
6

C360
12p
50V

IR_IN

24MHz

2
1 4

X102

C368
33p 33p
50V

SCART_AUD_L_IN

SCART_AUD_R_IN

YPBPR/BAV_L

YPBPR/BAV_R

C408

1n

AOBCK
AOMCLK
AOLRCK
AOSDATA0

3

C367

50V

C409

1n

C422

1n 1n

C421

SC_DAC_L
SC_DAC_R

SUB_L
SUB_R

C363
4u7
6V3

3V3_STBY

C362
10u

6V3

27k

R438

D120

R551

HDMI0_HPDIN

3

Q131

BC848B

1

C364
1u
6V3

S217

R446

100R

C5V6

SYSTEM_RESET

HDMI1_HPDIN

HDMI2_HPDIN

HDMI3_HPDIN

Q138

BC848B

Q129

BC848B

Q140

BC848B

3

1

3

1

3

1

21

1k

1k2

R550

R549

2

2

2

2

R599

1k

R493

1k

R633

1k

1k

R597

1k

R483

1k

R611

1k

21

21

21

21

21

21

21

HDMI1_5V

1k21k2

R598

HDMI2_5V

R482

HDMI3_5V

1k2

R622

HOTPLUG0

HOTPLUG1

HOTPLUG2

HOTPLUG3

A

B

C

CN113

1
2
3
4
5
6

D

E

F

7
8

9
10
11
12
13
14
15
16
17
18
19

CN124

1

2

3

4

5

6

7

8

9
10
11
12
13
14
15
16
17
18
19

21

R469

R470

21

47k

R623

R634

21

47k2147k

47k

R504

21

21

47k

47k

R621

HDMI2_RX2P

HDMI2_RX2N
HDMI2_RX1P

HDMI2_RX1N
HDMI2_RX0P

HDMI2_RX0N
HDMI2_CLKP

HDMI2_CLKN
CEC

HDMI2_SCL
HDMI2_SDA

HDMI2_5V
HDMI2_HPDIN

HDMI3_RX2P

HDMI3_RX2N
HDMI3_RX1P

HDMI3_RX1N
HDMI3_RX0P

HDMI3_RX0N
HDMI3_CLKP

HDMI3_CLKN
CEC

HDMI3_SCL
HDMI3_SDA

HDMI3_5V
HDMI3_HPDIN

AVDD_DDR_MFC

DDR3_A0
DDR3_A1
DDR3_A2
DDR3_A3
DDR3_A4
DDR3_A5
DDR3_A6
DDR3_A7
DDR3_A8

DDR3_A9
DDR3_A10
DDR3_A11
DDR3_A12
DDR3_A13

DDR3_BA0
DDR3_BA1
DDR3_BA2

DDR3_MCLK

DDR3_MCLKZ

DDR3_CKE

DDR3_RASZ
DDR3_CASZ

DDR3_WEZ

DDR3_RESET

240R
R276

MFC RAM

DDR3_MCLK

K8

K2

A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
A12/BC
A13

NC1
NC2
NC3
NC4
NC5
NC6

BA0
BA1
BA2

CK_0
CK_1

CKE

CS

RAS
CAS
WE

RESET
ZQ

B2

VDD_1

N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3

J1
L1
M7
L9
T7
J9

M2
N8
M3

J7
K7

K9

L2

J3
K3
L3

T2
L8

N1

D9

G7

VDD_2

VDD_3

VDD_4

VDD_5

VDD_6

H5TQ2G63BFR-PB

VSS_1

VSS_2

VSS_3

VSS_4

VSS_5

J2

E1B3A9

G8

A1

R9R1N9

VDD_7

VDD_8

VDD_9

VDDQ_1

VDDQ_2

VDDQ_3

VDDQ_4

U109

VSS_6

VSS_7

VSS_8

VSS_9

VSS_10

VSS_11

VSS_12

J8

M1

T9

T1

P9

P1

M9

H9

H2

D2C9C1

VDDQ_5

VDDQ_6

VDDQ_7

VDDQ_8

VDDQ_9

VREF_DQ
VREF_CA

VSSQ_1

VSSQ_2

VSSQ_3

VSSQ_4

VSSQ_5

VSSQ_6

E8

E2

B9

B1

D8

D1

DQL0
DQL1
DQL2
DQL3
DQL4
DQL5
DQL6
DQL7

DQU0
DQU1
DQU2
DQU3
DQU4
DQU5
DQU6
DQU7

DQSL_0
DQSL_1

DQSU_1
DQSU_0

DML

DMU

ODT

VSSQ_7

VSSQ_8

F9

G1

H1
M8

E3
F7
F2
F8
H3
H8
G2
H7

D7
C3
C8
C2
A7
A2
B8
A3

F3
G3

B7
C7

E7
D3

K1

VSSQ_9

G9

F1

E9

A8

DDR3_MCLKZ

VREF_DQ
VREF_CA

DDR3_DQ0
DDR3_DQ1
DDR3_DQ2
DDR3_DQ3
DDR3_DQ4
DDR3_DQ5
DDR3_DQ6
DDR3_DQ7

DDR3_DQ8
DDR3_DQ9
DDR3_DQ10
DDR3_DQ11
DDR3_DQ12
DDR3_DQ13
DDR3_DQ14
DDR3_DQ15

DDR3_DQS0
DDR3_DQSB0

DDR3_DQSB1
DDR3_DQS1

DDR3_DQM0
DDR3_DQM1

DDR3_ODT

Place close to RAM

R265
240R

NC

56R

R266

AVDD_DDR_MFC

C207
100n

10k

R272

10V

C216
100n

10k

R277

10V

AVDD_DDR_MFC

C181
10n
16V

DDR3_A0
DDR3_A2

DDR3_A13

DDR3_A9

C217
100n
10V

DDR3_RESET

DDR3_BA2
DDR3_BA0

DDR3_WEZ

R300

DDR3_CASZ

1
2
3
4 5

DDR3_A10

DDR3_BA1

DDR3_A12

DDR3_A11

DDR3_MCLK

DDR3_MCLKZ

F112

VREF_DQ

DDR3_A7
DDR3_A5
DDR3_A3

22R

8

R1

7

R2

6

R3
R4

DDR3_A4
DDR3_A6
DDR3_A8
DDR3_A1

60R

56R

R264

DDR3_ODT

DDR3_RASZ

VREF_CA

1V5_VCC

100n

10V

C221

R292

10k

10k

R282

R319

22R

1

R1

2

R2

3

R3

4 5

R4 22R

R306

22R

1

R1

2

R2

3

R3

4 5

R4

DDR3_CKE

1

R1

2

R2

3

R3

4 5

R4

R252

22R

C170
10u
25V

8
7
6

8
7
6

8
7
6

C178
100n

R314

1

R1

2

R2

3

R3

4 5

R4

R253

22R

R249

22R

1

R1

2

R2

3

R3

4 5

R4

C214
100n
10V10V

SCH NAME :

DRAWN BY :

R5

DDR3_A[0]

T5

DDR3_A[2]

U5

DDR3_A[13]

R6
T6
U6
R7
T7
U7
R8

T8
U8
R9
T9

N17
M15
M16
M17

L15

L16

L17

K15

K16

K17

N15

N16

100n
10V

DDR3_A[9]
DDR3_RESET
DDR3_A[7]
DDR3_A[5]
DDR3_A[3]
DDR3_BA[2]
DDR3_BA[0]

DDR3_WEZ
DDR3_CASZ
DDR3_ODT
DDR3_RASZ
DDR3_CKE
DDR3_A[10]
DDR3_BA[1]
DDR3_A[12]
DDR3_A[4]
DDR3_A[6]
DDR3_A[8]
DDR3_A[1]
DDR3_A[11]
NC_0

MST7398RP

DDR3_MCLK
DDR3_MCLKZ

C177C179

10V

8
7
6

8
7
6

DDR3_DQM[1]

DDR3_DQ[13]
DDR3_DQ[11]
DDR3_DQ[15]

DDR3_DQS[0]

DDR3_DQSB[0]

DDR3_DQS[1]

DDR3_DQSB[1]

DDR3_DQ[12]

DDR3_DQ[14]
DDR3_DQ[10]

DDR3_DQM[0]

3

U110

C215
100n 100n
10V

DDR3_DQ[4]
DDR3_DQ[6]
DDR3_DQ[2]
DDR3_DQ[0]

DDR3_DQ[9]

DDR3_DQ[8]

DDR3_DQ[3]
DDR3_DQ[1]
DDR3_DQ[5]
DDR3_DQ[7]

100n
10V

NC_1

R10
T10
U10
R11
T11
U11
R12
T12
U12
R13
U13
R14
T14
U14
T15
U15
R16
T16
U16
R17
T17
P15
P16

C190C189
100n
10V

AVDD_DDR_MFC

C202
100n
10V

DDR3_DQ4
DDR3_DQ6
DDR3_DQ2
DDR3_DQ0
DDR3_DQM1
DDR3_DQ13
DDR3_DQ11
DDR3_DQ15
DDR3_DQ9
DDR3_DQS0
DDR3_DQSB0
DDR3_DQS1
DDR3_DQSB1
DDR3_DQ12
DDR3_DQ8
DDR3_DQ14
DDR3_DQ10
DDR3_DQM0
DDR3_DQ3
DDR3_DQ1
DDR3_DQ5
DDR3_DQ7

D

E

F

PROJECT NAME :

HDMI/MFC_RAM

<YOUR NAME HERE>

17mb98-r2

12-03-2015_14:29

87654321

T. SHT:

A3

11

AXM

1 2 3 4 5 6 7 8

A

B

C

D

E

3D_SYNC_OUT_MFC

F

USB1

USB2

USB3

3D_SYNC_I

3D_SYNC_OUT

4

3

2

1

CN105

4

3

2

1

CN110

67

USB

G3 G2

3V3_VCC

5

GND

G1

CN116

VCC

G4

8

TP206

DP

DN

1

1

1

1

1

4

3

2

1

F100

330R

S136

S103

S137

TP205

TP207

TP95

TP94

TP49

C220
10u
10V

TP85

TP56

TP70

TP66

USB2_VCC

C245
10u
10V

TP92

1

TP13

TP101

TP139

1

C440
10u
10V

WIFI/BT

TP204

1

1

C101
10u
10V

1

USB1_VCC

USB3_VCC

3V3_HUB

CN102

R296

R295

R315

R325

12

34

56

78

910

10R

10R

10R

10R

R512

10R

R513

10R

21

21

21

21

USB1_DP

USB1_DN

USB2_DP

USB2_DN

21

21

3V3_HUB

TP65

1

R654

10R

R655

10R

TP64

1

TP203

1

TP40

1

USB3_DP

USB3_DN

3V3_HUB

3V3_HUB

R285

100k

R286

NC

100k

R287

100k3V3_HUB
R288
100k
R289
100k

21

21

USB_WIFI_DN

USB_WIFI_DP

22

SELFPWR

23

GANG

24

OVR#2

25

OVR#1

26

PWR#/I2C_SDA

27

VCC

28

VREG

USB_BT_DP

USB_BT_DN

C222
100n
16V

R279

100k

R280

100k

R284

100k

USB_ENABLE

USB_ENABLE

USB_ENABLE

5V_VCC

RESET_HUB

21

VCC_D

D-

1

USB_HUB_DN

3V3_VCC

5V_VCC

5V_VCC

5V_VCC

4k7

R312

20

19

OVR#4

OVR#3

CY7C65642

DD-1

D+

2

3

USB2_DN

USB_HUB_DP

F118

60R

33R

C227

100n

33R

C437

100n

33R

18

TEST/I2C_SCL

U108

DD+1

4

USB2_DP

21

C226

100n

R322

R511

17

5

C192
10u
10V

R298

16V

16V

2

RESET#

VCC_A1

3V3_HUB

16V

R273

4k7

C208

100n

10V

16

6

1

2

3

1

2

3

1

2

3

DD+4

DD-2

USB_BT_DN

IN

GND

TPS2553-1

EN

F120

330R

IN

U112

GND

TPS2553-1

EN

F148

330R

IN

U122

GND

TPS2553-1

EN

1

15

DD-4

DD+2

7

USB_BT_DP

100n
16V

F119

21

330R

OUT

U111

FAULT

21

OUT

ILIM

FAULT

21

OUT

ILIM

FAULT

USB3_DP

USB3_DN

VCC_A3

DD+3

DD-3

XOUT

XIN

VCC_A2

REF

USB_BT_DP

USB_BT_DN

USB_WIFI_DP

USB_WIFI_DN

C193C219
100n
16V

6

5

ILIM

4

6

5

4

6

5

4

14

13

12

11

10

9

8

USB2_DP

USB2_DN

C195
100n

R268
680R

USB2_VCC

560R
R323
560R
R324

USB3_VCC

560R
R510
560R
R509

USB_WIFI_DP

USB_WIFI_DN

USB1_VCC

560R
R294
560R
R299

3V3_HUB

3V3_HUB

S145

HUB BYPASS

S164

S162

S163

S161

S139

S140

C209

C194

100n

100n

16V

16V16V

C184

18p

1M

R267

12MHz

50V

24MHz

3

X100

USB_HUB_DP

USB_HUB_DN

USB_HUB_DP

USB_HUB_DN

USB_HUB_DP

USB_HUB_DN

C218
100n
16V

2
14

C185
18p
50V

3V3_HUB

75R

75R

SCART_R

SCART_G

SCART_B

VGA_G

VGA_B

75R

R649

2 1

75R

2 1

VGA_HSNC
VGA_VSNC

Y/CVBS_IN

75R

R650

2 1

SC_PIN8

SC_FB

R646

R647

R648

2 1

2 1

R498

33R

33R

R499

R497

R467

68R

33R

R465

HP_RIGHT

HP_LEFT

R490

33R

R488

33R

R466

R464

PR_IN

PB_IN

75R

R651

2 1

68R

33RR500

33R

33R

R489

R487

C344

1n

68R

33R

47n

C416

47n

C418

47n

C387

47n

C377

C337

Ethernet lines must be 100ohm differential pairs

RJ12:HOTEL TV

JK104

IR_DATA

GND

TV_DATA

VCC

DCM_DATA

TV_CLOCK

1

2

3

4

5

6

CDA4C16GTH

8

7

6

D124

C452

10u
10V

1

TP142

TP191

TP141

TP193

TP138

2

3

45

R533

100R

330RF155

5V_STBY

RS232_TX

TP140

R535
100R

100R

R534

nc

R542

4k7

21

4k7

21

R543

RS232_RX

47n

C417

47n

C415

47n

C403

47n

C385

47n

C386

47n

C376

R425

33R
33R

R422

1n

Q130

BC848B

1

2

3V3_STBY
3V3_STBY

U119

MSD8852RKM2

47n

C402

47n

C394

R2

RIN0P

R1

GIN0M

R3

GIN0P

P1

BIN0P

R5

HSYNC0

R4

VSYNC0

U3

RIN1P

U2

GIN1M

T3

GIN1P

T2

BIN1P

V2

RIN2P

V3

GIN2M

U1

GIN2P

V1

BIN2P

T6

HSYNC2

T5

VSYNC2

AA6

EARPHONEOUTR

AA5

EARPHONEOUTL

5

RN

RP
TN

DM_P0

DP_P0

DM_P1

DP_P1

CVBS2P
CVBS1P
CVBS0P

VCOM0

CVBS_OUT1

TP

AB11
AA11
AB10
AA10

RJ45:ETHERNET

CN123

2

TD+

3

TD-

4

RD+

5

RD-

1

TCT

6

RCT

7

NC1

16V

8

NC2

9

SHLD1

10

SHLD2

1

EN

2

C1+

3

V+

4

C1-

5

C2+

16V

100n

ST3222

6

C2-

7

V-

8

T2OUT

9

R2IN

10 11

S228

S231

PROJECT NAME :

VIDEO IO/USBs/RJ45/RJ12

<YOUR NAME HERE>

3

R560
100R

ETH_TXP

ETH_TXN

ETH_RXP

ETH_RXN

16V

100n

3V3_STBY

C457

IR_IN

5V_STBY

C540

C528

16V

100n

C458

TX_HOTEL

RX_HOTEL

SCH NAME :

DRAWN BY :

100n

C456

100n

16V

C459

100n

16V

C5
B5
C4
B4

R6
P6
P5
P4
N5

U123

47n

C370

47n

C369

SHDN

VCC

GND

T1OUT

R1IN

R1OUT

NC2

T1IN

T2IN

NC1R2OUT

ETH_RXNVGA_R

ETH_RXP
ETH_TXN
ETH_TXP

USB_HUB_DN
USB_HUB_DP
USB1_DN
USB1_DP

47n

C375

20

19

18

17

16

15

14

13

12

RS232_TX

RS232_RX

75R

33R

R460

C384

3V3_STBY

2 1

33R

33p

R453

68R

R452

C438
100n
16V

RS232_TX

RS232_RX

17mb98-r2

87654321

75R

R652

R653

2 1

Y/CVBS_IN
SCART_CVBS_IN

CVBS0_OUT

75R

R463

2 1

4k7

21

R517
100R
R522
100R
R519
100R
R520
100R
R521

4k7

21

R518

17-03-2015_14:11

3V3_STBY

RX_HOTEL

UART_RX

TX_HOTEL

UART_TX

3V3_STBY

T. SHT:

A

B

C

D

E

F

A3

11

AXM

1 2 3 4 5 6 7 8

A

B

C

D

E

F

AOMCLK

AOMCLK

12V_VCC

24V_VCC

C566
100u

35V

R408
100R

24V_VCC

R484
100R

AMP_EN

SYS_SDA

SYS_SCL

AMP_RST

3V3_AMP

3V3_AMP

100u

AMP_EN

SYS_SDA

SYS_SCL

AMP_RST

MAIN AUDIO AMP

S205

AOSDATA0

C323
12p
50V

100u

3V3_VCC

R419
100R

AOLRCK

R410
100R
R411
100R

100n

R407

AOBCK

C307

35V

C326

4k7

F131

60R

10

11

12

1

2

3

4

5

6

7

8

9

PD

ERROR

SDATA

LRCIN

SDA

SCL

RESET

DGND

DVDD

SA0

MCLK

BCLK

C569

U118

AD82587D

100n

VDDLA

N.C.2

GNDL

VDDLB

VDDRB

RB

GNDR

RA

N.C.1

VDDRA

C570

100n

3V3_AMP
C322
100n
16V

24

VDD_AUDIO

23

22

LA

LB

A_OUT1A

21

20

A_OUT1B

19

VDD_AUDIO

18

VDD_AUDIO

17

A_OUT2B

16

15

A_OUT2A

14

13

VDD_AUDIO

100n

100n

C325

C319

S206

SUBWOOFER AUDIO AMP

S219

C565

35V

3V3_VCC

AOSDATA0

AOLRCK

3V3_AMP_SW

C407
12p

AOBCK

50V

R496
100R
R495
100R

C413

R506
100R

100n

F151

60R

1

2

3

4

5

6

7

8

9

10

11

12

C372
100u

35V

PD

ERROR

SDATA

LRCIN

SDA

SCL

RESET

DGND

DVDD

SA0

MCLK

BCLK

U121

AD82587D

C567

C436
100n
16V

VDDLA

N.C.2

GNDL

VDDLB

VDDRB

GNDR

N.C.1

VDDRA

100n

LA

LB

RB

RA

C568

100n

3V3_AMP_SW

24

23

22

21

20

19

18

17

16

15

14

13

C434

C398

100n

VDD_AUDIO_SW

SW_A_OUT1A

SW_A_OUT1B

VDD_AUDIO_SW

SW_A_OUT2B

SW_A_OUT2A

VDD_AUDIO_SW

HEADPHONE AMP

C267

R379

VDD_AUDIO

C334

C324

100n

100n

A_OUT2A

A_OUT2B

A_OUT1A

15u

15u

15u

L105

10u

10u

L106

L107

10u

HP_RIGHT

HP_OUT_R

C332
220n
50V

C338
220n
50V

TP201

C348
220n
50V

TP195

1u

R378

TP110

2 1

10k

HP_AMP_EN

4k7

CN112

1

2

3

4

R381

33k

2 1

C266
1u
6V3

1

-INR

2

OUTR

U115

3

EN

AD22657B

4

PVSS

CN CP

C285

3V3_VCC

1u

-INL

OUTL

GND

PVDD

6V3

F132

1k

10

9

8

7

65

33k

R397

2 1

POP NOISE

15u

A_OUT1B

VDD_AUDIO_SW

C427

100n

100n

L108

10u

C357
220n
50V

TP196

AMP_MUTE

HP_AMP_MUTE

AMP_EN

R232

10k

HP_AMP_EN

R219

10k

3V3_VCC

5V_VCC

4k7

4k7

R213

R212

3

BC848B

2

21

21

Q123

1

R218

4k7

3

BC848B

2

Q122

1

R401

10k

C305
1u
6V3

C311
10u
10V

C150
100n
16V

C154
100n
16V

21

Q120

3V3_VCC

Q121

C317

1u

4k7

HP_OUT_L

R400

3

1

BC848B

NC

3

1

BC848B

HP_LEFT

S122

R204

2

2

2 1

10k

1

21

R210

33k

R217

33k

R398

HP_OUT_L

HP_OUT_R

24V_VCC

12V_VCC

S123

2 1

21

10k

16V

R201

100u

C141

2 1

10k

21

R203

10k

R208

100k

R209

21

100k

R202

BC858B
Q119

47R

R395

47R

47R

R382

21

SUB_R_OUT

HEADPHONE OUTPUT

50V

1 2

C306

C313
10n
16V

220p

TP202

C318

R409
100R

3V3_VCC

1 2

D118

S204

TP99

21

21

10k

10k

R383

R402

HP_DETECT

C312
10n
16V

1

4k7

R405

S211

47R

R399

NCNC

SUB WOOFER PREAMP

C269

1u

R384

4k7

SUB_R_OUT

SUB_L_OUT

R385

2 1

10k

AMP_EN

R389

33k

2 1

C272
1u
6V3

C286

47p 50V

47p 50V

C304

R391

1

-INR

2

OUTR

U116

3

EN

AD22657B

4

PVSS

CN CP

C268

3V3_VCC

27k

1u

R390

-INL

OUTL

GND

PVDD

6V3

R392
560R
R396
560R

27k

10

9

8

7

65

F126

1k

TP200

10k

2 1

R406

50V

220p

TP104

3V6 lik zener kullanilmali

C5V6

C287
4u7
10V

R387

10k

33k

R388

2 1

C271
1u
6V3

C270
10u
10V

1

2

6

3

4

5

7

SUBW_OUT

21

JK100

C303

1u

4k7

A

B

C

SUB_LSUB_R

SUB_L_OUT

R386

D

SCART AUDIO AMP

SW_A_OUT1A

SW_A_OUT1B

SW_A_OUT2A

SW_A_OUT2B

F149

60R

F147

60R

F138

60R

F142

60R

L111

10u

10u

L110

TP131

C439
220n
50V

C390
220n
50V

TP199

1

C425
220n
50V

1

SCART_AUD_R_OUT

SC_DAC_R

CN114

1

2

10V

C473

C463

1u

6V3

10u

C466
150p
50V

C462

R559

68k

AMP_EN

12p

50V

C573
1u
6V3

R563

2 1

33k

1

-INR

2

OUTR

3

EN

AD22657B

4

PVSS

CN CP

3V3_VCC

SCH NAME :

DRAWN BY :

10

-INL

9

OUTL

U125

C572

PVDD

1u

GND

6V3

8

7

65

F186

1k

PROJECT NAME :

AMPs

<YOUR NAME HERE>

C448
12p
50V

R526

68k

R523

33k

C574
1u
6V3

C571
10u
10V

21

10V

C447

10u

C449

C441

1u

150p

6V3

50V

17mb98-r2

87654321

SCART_AUD_L_OUT

SC_DAC_L

A3

T. SHT:

11

17-03-2015_16:31

E

F

AXM

A

B

C

D

TX_B_0_N

TX_B_0_P

TX_B_1_N

TX_B_1_P

TX_B_2_N

TX_B_2_P

TX_B_3_N

TX_B_3_P

TX_B_4_N

TX_B_4_P

TX_B_CLK_N

TX_B_CLK_P

TX_A_0_N

TX_A_0_P

TX_A_1_N

TX_A_1_P

TX_A_2_N

TX_A_2_P

TX_A_3_N

TX_A_3_P

TX_A_4_N

TX_A_4_P

TX_A_CLK_N

TX_A_CLK_P

1 2 3 4 5 6 7 8

R317
100R

R332
100R

R318
100R

R326
100R

R334
100R

R333
100R

R327
100R

R335
100R

R328
100R

R329
100R

R337
100R

R336
100R

D2

RO0N

D1

RO0P

D3

RO1N

E3

RO1P

E1

RO2N

E2

RO2P

F3

RO3N

G3

RO3P

G1

RO4N

G2

RO4P

F2

ROCKN

F1

ROCKP

H2

RE0N

H1

RE0P

H3

RE1N

J3

RE1P

J1

RE2N

J2

RE2P

K3

RE3N

L3

RE3P

L1

RE4N

L2

RE4P

K2

RECKN

K1

RECKP

MST7398RP

1

U110

LAV0P
LAV0N
LAV1P
LAV1N
LAV2P
LAV2N
LAV3P
LAV3N
LAV4P
LAV4N
LAV5P
LAV5N
LAV6P
LAV6N
LAV7P
LAV7N
LAV8P
LAV8N

LBV0P
LBV0N
LBV1P
LBV1N
LBV2P
LBV2N
LBV3P
LBV3N
LBV4P
LBV4N
LBV5P
LBV5N
LBV6P
LBV6N
LBV7P
LBV7N
LBV8P
LBV8N

POL
SOE
GSP

GSPR
GCLK[6]
GCLK[5]
GCLK[4]
GCLK[3]
GCLK[2]
GCLK[1]

FLK

OPTN

OPTP

WPWM

VDD_ODD

VDD_EVEN

A4
B4
B5
A5
C5
C6
A6
B6
B7
A7
C7
C8
A8
B8
B9

A9
A10
B10

B13
A13
C13
C14
A14
B14
B15
A15
C15
C16
A16
B16
B17
C17
D15
E15
E17
E16

G16
G17
G15

F15
A12
B12
D17
F17
D16
F16
C12
C11
A11
B11
D13
D14

TX_1_0_P
TX_1_0_N
TX_1_1_P
TX_1_1_N
TX_1_2_P
TX_1_2_N
TX_1_CLK_P
TX_1_CLK_N
TX_1_3_P
TX_1_3_N
TX_1_4_P
TX_1_4_N

TX_2_0_P
TX_2_0_N
TX_2_1_P
TX_2_1_N
TX_2_2_P
TX_2_2_N

TX_3_0_P
TX_3_0_N
TX_3_1_P
TX_3_1_N
TX_3_2_P
TX_3_2_N
TX_3_CLK_P
TX_3_CLK_N
TX_3_3_P
TX_3_3_N
TX_3_4_N
TX_3_4_P

TX_4_0_P
TX_4_0_N
TX_4_1_P
TX_4_1_N
TX_4_2_P
TX_4_2_N

TX_4_4_N
TX_4_4_P
TX_4_3_N
TX_4_3_P

TX_2_4_P
TX_2_4_N
TX_4_CLK_P
TX_4_CLK_N

TX_2_3_N
TX_2_3_P
TX_2_CLK_N
TX_2_CLK_P

TX_B_0_N
TX_B_0_P

TX_B_1_N
TX_B_1_P

TX_B_2_N
TX_B_2_P

TX_B_CLK_N
TX_B_CLK_P

TX_B_3_N
TX_B_3_P

TX_B_4_N
TX_B_4_P

FRC BYPASS

S166

S165

S167

S170

S171

S176

S174

S175

S173

S178

S182

S183 S195

TX_1_0_N
TX_1_0_P

TX_1_1_N
TX_1_1_P

TX_1_2_N
TX_1_2_P

TX_1_CLK_N
TX_1_CLK_P

TX_1_3_N
TX_1_3_P

TX_1_4_N
TX_1_4_P

3D_SYNC_OUT_MFC

BACKLIGHT_DIM_MFC

MFC_SPI_SCZ

MFC_SPI_SDO

MFC_SPI_SDI

MFC_SPI_SCK

TX_A_0_N
TX_A_0_P

TX_A_1_N
TX_A_1_P

TX_A_2_N
TX_A_2_P

TX_A_CLK_N
TX_A_CLK_P

TX_A_3_N
TX_A_3_P

TX_A_4_N
TX_A_4_P

MFC_RESET

GPIO8_CNFG

22R

R351

R338

22R

1

R1

2

R2

3

R3

4 5

R4

FRC_XTALI
FRC_XTALO

SDA_MFC

SCL_MFC

MFC_MSDA

MFC_MSCL

GPIO1_CNFG

8
7
6

TP58
TP67

R350

22R

S188

S189

S180

S181

S186

S187

S190

S191

S192

S193

S194

1

1

TP46

1

E14

B2
B1

E4

F4
H16
H17

M1

L4

M3

M2

J4

K4

R1

P3

P2

R2

H4

U4

G4

F5

E13

TX_2_0_N
TX_2_0_P

TX_2_1_N
TX_2_1_P

TX_2_2_N
TX_2_2_P

TX_2_CLK_N
TX_2_CLK_P

TX_2_3_N
TX_2_3_P

TX_2_4_N
TX_2_4_P

RESET

XIN
XOUT

S_SDA
S_SCL
M_SDA
M_SCL

GPIO[8]
PWM1
PWM0
GPIO[1]

GPIO[0]
GPIO[9]

U110

MST7398RP

SPI_SCZ
SPI_SCK
SPI_SDI
SPI_SDO

GPIO[2]
GPIO[7]
GPIO[10]
GPIO[11]

TEST_PIN

MS_PIF_FC

MS_PIF_CS

MS_PIF_CLK
MS_PIF_DA[1]
MS_PIF_DA[0]

SMPIF_FC

SMPIF_CS

SMPIF_CLK
SMPIF_DA[1]
SMPIF_DA[0]

OP_SYNC_L

OP_SYNC_R

SOFT_RST_L
SOFT_RST_R

2

LPLL_REFIN

LPLL_FBCLK

LPLL_OUTCLK

SPI_SCK1

SPI_SCK2

SPI_SCK3

SPI_SCK4

SPI_SCK5

SPI_SDO5

SPI_CSZ5

VSYNC_LIKE

GPIO1_CNFG

GPIO8_CNFG

BACKLIGHT_DIM_MFC

3D_SYNC_OUT_MFC

D4
C4
E5
C1
C2

E6
F6
D5
D7
D6

E8
F8
E7
F7

J15

GPIO[3]

J16

GPIO[4]

J17

GPIO[5]

H15

GPIO[6]

A3
B3

F14

SPI_SDI1

SPI_SDI2

SPI_SDI3

SPI_SDI4

SPI_SDI5

N3
P1
N1
N2
R3
T3
T2
T1

U3
R4
T4
U2

P4

CHIP CONF.

R341

NC

10k

R344

10k

R357

10k

R349

10k

NC

R352

1k

R117

10k

NC

R353

10k

R345

10k

NC

1V26_VCC_MFC

SPI5_SDI
SPI5_SCK
SPI5_SDO
SPI5_CSZ

VSYNC_LIKE

3V3_VCC

VDDP_MFC

VDDP_MFC

VDDP_MFC

VDDP_MFC

F121

60R

F122

60R

C249

AVDD_DDR_MFC

C242
22u
6V3

10u

F113

60R

F114

60R

F115

60R

F116

60R

C237

100n

10V

C248

100n

6V3

C183
22u
6V3

MFC_SPI_SCZ

MFC_SPI_SDO

C204
22u
6V3

C210
22u
6V3

C198
22u
6V3

C187
22u
6V3

C241

100n

10V

DVDD_DDR_MFC

10V

C171
22u
6V3

C236

100n

10V

C180

100n

C213

C199

C206

C234

100n

10V

100n

10V

100n

10V

100n

10V

100n

10V

C173

100n

10V

C240

100n

10V

100n

10V

C212

100n

10V

C205

100n

10V

C201

100n

10V

C182

100n

10V10V

AVDD_MFC

C239

100n

10V

C196

C197

MFC SPI

TP86

1

C247

100n

10V

TP82
TP89

10k

TP88

R347

TP81 TP93

U114

MX25L512

1

CS#

2

SO

3

WP#
GND SI

VCC

HOLD#

SCLK

C186

100n

10V

C211

100n

10V

C188

10V

C172

100n

10V

8
7
6
54

C235

100n

10V

VDDP_MFC

AVDD_PLL_MFC

AVDD_LVDS_MFC

C200

100n 100n

10V

VDDC_MFC_1V26

C238

100n

10V

C174

C175

100n

100n

10V10V

1N5819

D115

4k7

R346

TP87

MFC_SPI_SCK
MFC_SPI_SDI

3V3_VCC

A

B

C

D

VDDP_MFC

C264

E

DVDD_DDR_MFC

AVDD_MFC

VDDP_MFC

AVDD_PLL_MFC

VDDC_MFC_1V26

L5

M4M5M6

VDDC_1V26_3

VDDC_1V26_2

VDDC_1V26_1

VDDC_1V26_0

F

GND21C9GND20C3GND19

A2

C10

N4N5N6

VDDC_1V26_4

L6

L7

N7

M7

VDDC_1V26_9

VDDC_1V26_8

VDDC_1V26_7

VDDC_1V26_6

VDDC_1V26_5

GND25

GND24D9GND23D8GND22

D11

D10

DVDD_DDR_1V26

GND30

GND29

GND28E9GND27

GND26

E12

E11

E10

D12

H5

H6

G5

H13

H12

AVDD_3V3_1

AVDD_3V3_0

GND33

GND32F9GND31

F11

F10

G6

VDDP_3V3_2

VDDP_3V3_1

VDDP_3V3_0

AVDD_LPLL_3V3

GND38

GND37

GND36G9GND35G8GND34

G14

G11

G10

AVDD_LVDS_MFC

H7

G7

F13

F12

AVDD_PLL_3V3

AVDD_MPLL_3V3

AVDD_LVDS_3V3_0

GND43

GND42

GND41H9GND40H8GND39

H14

H11

H10

AVDD_DDR_MFC

3

22p

FRC_XTALO

R316

1M

24MHz

X101

FRC_XTALI

XTAL

2
14

C246

VDDP_MFC

4k7

4k7

R247

R248

TP35

1

TP28

1

22p

SCH NAME :

DRAWN BY :

MFC

<YOUR NAME HERE>

L12

L13

G13

G12

AVDD_LVDS_3V3_3

AVDD_LVDS_3V3_2

AVDD_LVDS_3V3_1

N12

M12

AVDD_DDR_1V5_3

AVDD_DDR_1V5_2

AVDD_DDR_1V5_1

AVDD_DDR_1V5_0

GND51

GND50

GND49J9GND48J8GND47J7GND46J6GND45J5GND44

J11

J10

L8

N13

M13

GND0

4

AVDD_DDR_1V5_5

AVDD_DDR_1V5_4

GND53

GND52

J14

J13

J12

P5P6P7P8P9

N9

N10

N11

N14

GND5

GND4

GND3

GND2

GND1

P10

P11

P12

P13

GND9

GND8

GND7

GND6

GND13

GND12

GND11

GND10

U110

MST7398RP

GND67

GND66

GND65L9GND64

GND63

GND62

GND61

GND60

GND59K9GND58K8GND57K7GND56K6GND55K5GND54

L14

L11

L10

K14

K13

K12

K11

K10

U9

T13

P14

P17

R15

GND18

GND17

GND16

GND15

GND14

GND74N8GND73

GND72

GND71

GND70M9GND69M8GND68

M14

M11

M10

DEBUGGING SOKCET

4

3

2

1

CN111

SCL_MFC

SDA_MFC

VDDP_MFC

R377
100R
R376
100R

4k7

4k7

R374

R372

S172

C244

22p
50V

SDA_MFC

SCL_MFC

S135

S134

MFC_MSCL

MFC_MSDA

PROJECT NAME :

R375

C263
22p

10k 10k

50V

17mb98-r2

S202

S201

R373

VDDP_MFC

SYS_SDA

SYS_SCL

T. SHT:

14-03-2015_13:33

87654321

E

F

A3

11

AXM

1 2 3 4 5 6 7 8

FHD 50Hz 100Hz 3D FFC

LG BASED

TP14

A

PANEL_VCC

5150494847464544434241403938373635343332313029282726252423222120191817161514131211

1

OP_PIN42

OP_PIN43

TX_2_4_P

TX_2_4_N

S184

S185

2 1

2 1

TX_2_CLK_N

TX_2_CLK_P

TX_2_3_N

TX_2_3_P

TX_2_1_P

TX_2_2_N

TX_2_2_P

OP_PIN26

OP_PIN27

TX_2_0_N

TX_2_0_P

TX_2_1_N

TX_1_3_N

TX_1_3_P

TX_1_4_N

TX_1_4_P

TX_1_2_P

TX_1_CLK_N

TX_1_CLK_P

TX_1_0_N

TX_1_1_N

TX_1_0_P

TX_1_1_P

TX_1_2_N

OP_PIN6

OP_PIN10

OP_PIN9

10

OP_PIN5

OP_PIN8

OP_PIN7

OP_PIN4

987654321

OP_PIN2

OP_PIN3

OP_PIN1

CN107

TP3

OP_PIN8

OP_PIN49

OP_PIN48

PAN_SCL

B

5150494847464544434241403938373635343332313029282726252423222120191817161514131211

OP_PIN42

OP_PIN7

1

987654321

10

PANEL_VCC

CN108

SAM BASED 30070519

S179

S177

2 1

2 1

TP6

C

1

TX_3_4_P

TX_4_0_N

TX_4_0_P

TX_4_1_N

TX_4_1_P

TX_4_2_N

TX_4_2_P

TX_4_CLK_N

TX_4_CLK_P

TX_4_3_N

TX_4_3_P

TX_4_4_N

TX_4_4_P

S128

S132

S131

2 1

2 1

S127

2 1

2 1

41403938373635343332313029282726252423222120191817161514131211

S168

S169

TP10

2 1

2 1

1

LG BASED 30070520

TX_3_0_N

TX_3_0_P

TX_3_1_N

TX_3_1_P

TX_3_2_N

TX_3_2_P

TX_3_CLK_N

TX_3_CLK_P

TX_3_3_N

TX_3_3_P

TX_3_4_N

S124

21

3D_EN

987654321

10

CN104

S133

S130

2 1

2 1

S129

S126

2 1

2 1

D

WXGA FFC

SAM

PANEL_VCC

OP_PIN9

OP_PIN8

OP_PIN7

TX_1_3_P

TX_1_CLK_P

TX_1_3_N

TX_1_2_P

TX_1_CLK_N

TX_1_1_P

TX_1_2_N

TX_1_1_N

TX_1_0_N

TX_1_0_P

E

9

8

7

6

5

4

3

2

1

12

11

10

15

14

13

18

17

16

21

20

19

24

23

22

CN109

9

8

7

6

5

4

3

2

LG

1

11

10

14

13

12

CN106

17

16

15

27

26

25

20

19

18

OP_PIN5

OP_PIN10

OP_PIN6

30

29

28

27

26

25

24

23

22

21

PANEL_VCC

30

29

28

OPTIONS TABLE

S147

S149

S152

S156

S157

2 1

R269

33k

R271

10k

S150

2 1

S158

R281

33k

R291

10k

R259

33k

R290

10k

S138

R258

33k

R260

10k

S142

S141

2 1

R255

33k

R254

10k

R275

33k

R274

10k

S151

2 1

S154

2 1

S143

2 1

R262

33k

R261

10k

S198

S197

R360

33k

R369

10k

S146

2 1

R358

33k

R270

10k

S144

R263

33k

R256

10k

R356

33k

R359

10k

S196

S155

S199

S153

S148

2 1

21

21

OP_PIN2

21

21

21

21

OP_PIN6

21

OP_PIN7

21

21

OP_PIN8

21

21

OP_PIN9

21

OP_PIN10

21

OP_PIN26

OP_PIN3

21

21

21

OP_PIN27

21

OP_PIN42

21

OP_PIN4

21

21

OP_PIN48

21

21

OP_PIN49

OP_PIN1

3D_EN

PAN_SCL

3D_SYNC_I

3D_SYNC_OUT_MFC

3D_EN

PANEL_VCC OP_PIN5

PAN_SCL

BACKLIGHT_ON/OFF

PANEL_VCC

PANEL_VCC

MEGA_DCR_IN

PANEL_VCC

3D_SYNC_I

MEGA_DCR_OUT

PANEL_VCC

PANEL_VCC

3D_EN

PAN_SDA

PANEL_VCC

3D_SYNC_OUT_MFC

3D_SYNC_I

PANEL_VCC

3D_EN

PANEL_VCC

PAN_SDA

2 1

PANEL_VCC

PANEL_VCC OP_PIN43

PAN_SDA

2 1

3D_SYNC_I

3D_SYNC_OUT_MFC

2 1

3D_EN

5V_VCC

3V3_VCC

PAN_SCL

PANEL_VCC_ON/OFF

R362

21

33k

R363

21

33k

12V_VCC

5V_VCC

Q127

BC848B

S200

5V_VCC

3V3_VCC

C260
100n
16V

PANEL SUPPLY SWITCH

F110

21

60R

F111

60R

R245

2 1

10k

21

C164

10k

R242

2 1

21

33k

25V

1 2

220n

R243

2 1

3

2

1

C169
1n
50V

PANEL I2C BUFFER

R364

21

33k

R368

33k

PANEL_VCC

21

5V_VCC

3V3_VCC

PAN_SDA

3D ENABLE

R106

2 1

4k7

R148

2 1

4k7

R100

2 1

4k7

BC848B

Q100

S102

3

2

1

TX_B_0_N
TX_B_0_P

TX_B_1_N
TX_B_1_P

TX_B_2_N
TX_B_2_P

TX_B_CLK_N

TX_B_CLK_P

TX_B_3_N
TX_B_3_P

4k7

R107

nc

1

1

1

1

1

1

1

1

1

1

R240

33k

Q125
BC848B

R361

33k

R370

33k

C100
100n
16V

21

TP208
TP209

TP211
TP210

TP212
TP213

TP215
TP214

TP216
TP217

R241

47R

21

21

21

3D_EN

4k7

R101

3D_ENABLE

BC848B

21

43

Q128

S203

5

2

C256
100n
16V

3V3_VCC

6

FDC642P

1

R365

33k

R366

33k

TP42

1

PANEL_VCC

A

Q124

B

21

PANEL_VCC

21

C

SYS_SDASYS_SCL

D

E

TX_B_4_N
TX_B_4_P

F

SCH NAME :

DRAWN BY :

LVDS_CONNs

<YOUR NAME HERE>

1

TP219

1

TP218

PROJECT NAME :

17mb98-r2

87654321

A3

T. SHT:

11

12-03-2015_13:54

F

AXM

A

5V_STBY

3D_BOOST

B

12V_VCC

C

D

E

12V_VCC

F

12V_VCC

1 2 3 4 5 6 7 8

CN101

POWER CONN

S121

Q116
BC848B

12V_VCC

12V_STBY

Q115
BC848B

2 1

R177

2 1

4 3

6 5

8 7

12V_STBY 12V_STBY

S104

S105

10 9

12 11

14 13

16 15

18 17

20 19

21

24V_VCC

12V_STBY12V_STBY

S110

TP9

BACKLIGHT_ON/OFF

TP33

TP8

S111

S109
S112

5V_STBY12V_STBY

DIMMING

STBY_ON/OFF_NOT

STBY_ON/OFF

24V_VCC

3V3_STBY

Backlight On/Off CircuitSTBY On/Off Circuit

R139

21

21

R138

C110

10k

10k

R137

2

21

10k

1 2

100n

STBY_ON/OFF_NOT

3

Q102
BC848B

1

BACKLIGHT_ON/OFF

3V3_VCC

21

4k7

R645

10V

C112

Q106

100n

BC848B

5V_VCC

21

4k7

R127

nc

R126

4k7

21

R125

4k7

10V

C111

100n

3V3_STBY

21

4k7

R124

MST_BACKLIGHT_ON/OFF

21

5V_STBY

10k

R181

3V3_VCC

10k

R199

39k

R200

DC/DC 1

10k

F183

60R

60R

F102

60R

VFB

C139
1u
16V

60RF182

DC/DC 4

F103

100n

C125

16V

R176

10k

1

EN

U101

2

VFB

TPS54528

3

VREG5

4

VSS

50V

8n2

C140

5V_STBY DC/DC

C124

C123
10u
16V

VIN

VBST

SSW

GND

10u
16V

21

8

C119

7

D103

SK24
R149

3R3

10u L100

100n

6

5

10u

C113

3n3

R180

C127

10V

33p

C136

120k

C126

10V10u

1V26_VCC DC/DC

10n

16V

C228

1

F123

60R

C243
10u
16V

C233

100n

SS

U113

2

IN

MP1498

3

SW

4

GND

MP2234 kullanilacak

EN/SYNC

DC/DC 2

1V5_VCC DC/DC

U106

TPS54329E

16V

10n

1

C152

100n

C155

VBST

2

1

2

VIN

3

SW

4

GND

L103

10u

50V

F108

60R

C147

3n3

10u

16V

C160

3R3

R230

3V3_VCC DC/DC

C138

2

10n

1

C122
10u
16V

C118
10u
16V

F106

60R

C143

3n3

50V

C133
10u
16V

R191

3R3

16V

C130
10u
16V

100n

22R

R310

C157

470n

R2

R309

10k

100n

16V

6V3

100n

22k

R234

12

C224

R225

10k

100n

C156

21

R307

22k

10k

R308

12

C165

FB

VCC

BST

VREG5

R231

10k

C167
10u
10V

8

7

6

5

SS

EN

VFB

10R

R236

C223

21

16V

8
7
6
5

C166
10u
10V

DC/DC 3

R174

10k

U103

TPS54329E

L101

10u

1

VBST

2

VIN

3

SW

4

GND

C145
10u
10V

VREG5

VFB

R198

10R

SS
EN

12V_VCC

21

N.C.

L104

10u

21

TP52

D112

21

8
7
6
5

R2

C144
10u
10V

R1

C5V6

R193

4k7

R233

24k9

C142

470n

6V3

C225

C146

12

100n

15p

50V

N.C.

1V5_VCC

R175

2 1

10k

F107

330R

R311

R2

100n

R192

1k8

R1

47k

C135

1 2

C229
10u
6V3

10V

D109

15k

S160

TP39

C5V6

R302

R1

Q126

BSN20

C230
10u
6V3

12V_VCC

3V3_VCC

100n

16V

15k

R301

S159

C231

R283

4k7

TP97

D114

C5V6

F109

60R

C148
10u

16V

STBY_ON/OFF

3V3_STBY

21

10k

R278

1V26_VCC

10n

C149

16V

12V_STBY

VID

LDO1

DC/DC 5

100Hz Opt.

1

SS

U104

2

IN

MP1498

3

SW

4

GND

MP2234 kullanilacak

1 2

C104

220n

R131

2 1

10k

8

FB

7

VCC

6

EN/SYNC

5

BST

12V_VCC SWITCH

33k

25V

R128

2 1

33k

R130

2 1

Q107
BC848B

C153

R129

47R

100n
16V

R226

10k

22R

R227

100n

16V

SW1

S259

S258

21

R221

22k

C159

21

5

2431

12V_VCC

L102

10u

2U2 olacak

6

Q109

FDC642P

3V3_STBY LDO

5V_STBY

47k

15k

R222

R223

R2

S125

6V3

10u

C162

PL101

6V3
10u
C161

TP151

12V_VCC

PL102

U131

LM1117

IN OUT

VOUT

GND

1234

U105

LM1117

3 2

C151

ADJ

10u
10V

R1

VOUT

1

C158

100n
16V

BACKLIGHT_DIM_MFC

BACKLIGHT_DIM

PL105

OUTIN

4

D110

PL100

C163
10u
10V

1V26_VCC_MFC

C5V6

BACKLIGHT_DIM_MFC

PL103

C168
10u

D111

10V

3D_ENABLE

1

B1

U100

2

GND

FSA3157

B0 A

BACKLIGHT_DIM

MEGA_DCR_IN

PL104

TP198TP155

3V3_STBY

C5V6

3V3_VCC

S

VCC

STBY_ON/OFF_NOT

LDO2

1V15_VCC LDO

nc

C464
10u
10V

2 1

2 1

5V_VCC

R553

R554

4k7

4k7

nc

1

POK

2

EN

APL5910

3

VIN

VCNTL NC

1u
C470

U126

DIMMING

S101

S100

6

5

3V3_VCC

43

S107

S108

S116

3D_EN

MEGA_DCR_OUT

S115

S117

TP7

1

21

10k

R120

SCH NAME :

DRAWN BY :

VOUT

R136

4k7

C109

1 2

220p

50V

12V_STBY

12V_VCC

8

GND

7

FB

6

54

21

1k

R134

3

2

21

1

POWER

<YOUR NAME HERE>

5V_VCC SWITCH

5V_STBY

R155

2

33k

2

33k

R150

R152

2 1

10k

R1

C471
10u
10V

220p 50V

R2

21

21

R133

4k7

C107

1 2

220p

50V

R135

4k7

C108

1 2

R548

1k

C465
100n

3V3_VCC

21

S114

21

R555

22k

R561

12k

S106

S113

Q108
BC848B

PROJECT NAME :

1k

R151

C472
100n

5V_VCC

21

Q111

Q110
BC848B

2

2

R179

4k7

F185

F184

60R

F104

F105

60R

D104

C5V6

SW2

5

6

NTGS3446

1

2

R154

21

47R

100n

16V

TP145

1V15_VCC

1

Q104
BC858B

3

R123
100R

8

R1

7

R2

6

R3

5 4

R4

3

Q105
BC848B

1

17mb98-r2

60R

60R

3 4

100n

16V

100n

16V

C114

1

2

3

87654321

VFB

R178

22k

C563

C129

TP148

5V_VCC

C105
10u
10V

DIMMING

C103
10u
16V

T. SHT:

12-03-2015_14:55

C562
10u
10V

C128
10u
10V

A

5V_VCC

B

C

D

E

F

A3

11

AXM