DAEWOO Dal 22v1wc
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Transcript of DAEWOO Dal 22v1wc
LH22S83D SERVICE MANUAL
INDEX:
PART 1:Brief Introduction Of The LH22S83DSchematic Diagram Block
Printed Circuit
PART 2: Exploded view
PART 3:IC Introduction
PART 4: Detailed Circuit Main Board
DVD Board
PART 5: Components List
PART6: Debug Instruction
FLI8125 Main Board
DVD Board
connecting board
LVDS Connector
Inverter ConnectorIR Connector
KEY Connector
Speaker Connector
DVD signal Connector
Debug Connector
DVD power Connector
IR Board TV KeyBoard Loud
LR
Inverter Board
GND GND ADJ EN 12V 12V
GN
D G
ND
12V
12V
RED GREEN IR 5V GND
IN V- V+ SOURCE NC P+ P- MENU POWER
GND R GND NC L
Y GND Pb GND Pr GND R L GND ON/OFF
GN
D R
XD
TX
D 5
V
CN13/CN14
CN2
CN8CN4
CN1J4 J3
J18
GN
D
IR
DVD Keyboard
Panel Speaker
Schematic Diagram
Part1:
Printed Circuit
TV Main Board (Top View)
TV Main Board (Bottom view)
DVD Board (top view)
DVD Board(bottom view)
Exploded view Part2:
KP1500
150Khz, 3A PWM Buck Switching Regulator Preliminary
General Description The KP1500 series are monolithic integrated circuits that provide all the active functions for a step-down DC/DC converter, capable of driving a 3A load without additional transistor component. Requiring a minimum number of external component, the board space can be saved easily. The external shutdown function can be controlled by TTL logic level and then come into standby mode. The internal compensation makes feedback control have good line and load regulation without external design. Regarding protected function, thermal shutdown is to prevent over temperature operating from damage, and current limit is against over current operating of the output switch. The KP1500 series operates at a switching frequency of 150Khz thus allowing smaller sized filter components than what would be needed with lower frequency switching regulators. Other features include a guaranteed +4% tolerance on output voltage under specified input voltage and output load conditions, and +15% on the oscillator frequency. The output version included fixed 3.3V, 5V, 12V, and an adjustable type. The packages are available in a standard 5-lead TO-220(T) package and a 5-lead TO-263(U).
Features - 3.3V, 5V, 12V and adjustable output versions - Adjustable version output voltage range, 1.23V to
28V +4% max over line and load condiction - Available in TO220-5L and TO263-5L packages - Voltage mode non-synchronous PWM control - Thermal-shutdown and current-limit protection - ON/OFF shutdown control input - Input voltage range up to 32V - Output load current: 3A - 150 kHz fixed frequency internal oscillator - Low power standby mode - Built-in switching transistor on chip Applications
- Simple High-efficiency step-down(buck) regulator - Efficient preregulator for linear regulators - On-card switching regulators - Positive to negative converter - Battery Charger
Pin Assignments
TO220-5L
( Top View )
( Top View )
TO263-5L
1 VIN
5 SD4 FB3 Gnd2 Output
Metal Tab GND
1 VIN
5 SD4 FB3 Gnd2 Output
Pin Descriptions
Name Description
VIN Operating voltage input
Output Switching output
Gnd Ground
FB Output voltage feedback control
SD ON/OFF Shutdown
ICs On FLI8125 Board and DVD BoardIC Introduction
Part3:
AP1084
5A Low Dropout Positive Adjustable or Fixed-Mode Regulator
Features • 1.4V maximum dropout at full load current • Built-in thermal shutdown • Output current limiting • Adjustable output voltage or fixed 1.5V, 1.8V, 2.5V, 3.3V, 5.0V
• Fast transient response • Good noise rejection • Package : TO252, TO263, TO220
Ordering Information
General Description AP1084 is a low dropout positive adjustable or fixed-mode regulator with minimum of 5.0A output current capability. The product is specifically designed to provide well-regulated supply for low voltage IC applications such as high-speed bus termination and low current 3.3V logic supply. AP1084 is also well suited for other applications such as VGA cards. AP1084 is guaranteed to have lower than 1.4V dropout at full load current making it ideal to provide well-regulated outputs of 1.25 to 3.3V with 4.7 to 12V input supply.
AP1084 X X X X
Low Dropout Regulator Package Vout
D : TO252-3LK : TO263-3LT : TO220-3L
Blank : Adj15 = 1.5V18 = 1.8V25 = 2.5V33 = 3.3V50 = 5.0V
Packing
Blank : TubeA : Taping
Lead Free
Blank : NormalL : Lead Free Package
Typical Circuit
5.0V to 3.3V Fixed Mode Regulator
C2100uF
5V
3.3V/5A
Tab is Vout
Vin
Vout
GND
C1100uF
Adjustable Regulator
R1
R2
C2100uF
5V
2.5V/5A
Tab is Vout
Vin
Vout
Adj
C1100uF
121
121
Ω
Ω
)1
2REFo R
R(1VV +∗=Note:
1A Low Dropout Positive Adjustable or Fixed-Mode Regulator
AP1117
Features
- 1.4V maximum dropout at full load current - Fast transient response - Output current limiting - Built-in thermal shutdown - Packages: SOT223, TO263, TO252, TO220, SOT89
- Good noise rejection - 3-Terminal Adjustable or Fixed 1.5V, 1.8V, 1.9V, 2.5V, 3.3V, 5.0V
Applications
- PC peripheral - Communication
General Description
AP1117 is a low dropout positive adjustable or fixed-mode regulator with minimum of 1A output current capability. The product is specifically designed to provide well-regulated supply for low voltage IC applications such as high-speed bus termination and low current 3.3V logic supply. AP1117 is also well suited for other applications such as VGA cards. AP1117 is guaranteed to have lower than 1.4V dropout at full load current making it ideal to provide well-regulated outputs of 1.25 to 5.0 with 6.4V to 12V input supply.
Ordering Information
AP 1117 X XX X X
Low Dropout Regulator Package VoutE : SOT223-3LK : TO263-3LD : TO252-3LT : TO220-3LY : SOT89-3L
Blank : ADJ15 : 1.5V18 : 1.8V19: 1.9V25 : 2.5V33 : 3.3V50 : 5.0V
PackingBlank : TubeA : Taping
Lead Free
Blank : NormalL : Lead Free Package
Typical Circuit
C2100uF
5V
3.3V/1A
Tab is Vout
Vin
Vout
GND
C1100uF
( 5V/3.3V fixed output )
R1121R2
121
C2100uF
5V
2.5V/1A
Tab is Vout
Vin
Vout
Adj
C1100uF
oV
( 5V/2.5V ADJ output )
)1
2REFo R
R(1 VV +∗=Note:
Ω
Ω
EN29LV040A
da0. FEATURES
• Fully compatible with EN29LV040
• Single power supply operation - Full voltage range: 2.7-3.6 volt read and write operations for battery-powered applications. - Regulated voltage range: 3.0-3.6 volt read and write operations for high performance 3.3 volt microprocessors. • High performance - Access times as fast as 45 ns • Low power consumption (typical values at 5
MHz) - 7 mA typical active read current - 15 mA typical program/erase current - 1 µA typical standby current (standard access time to active mode) • Flexible Sector Architecture: - Eight 64 Kbyte sectors - Supports full chip erase - Individual sector erase supported - Sector protection and unprotection: Hardware locking of sectors to prevent
program or erase operations within individual sectors
• High performance program/erase speed - Byte/Word program time: 8µs typical - Sector erase time: 500ms typical • JEDEC Standard program and erase
commands
• JEDEC standard DATA polling and toggle bits feature
• Single Sector and Chip Erase
• Embedded Erase and Program Algorithms
• Erase Suspend / Resume modes: Read or program another Sector during Erase Suspend Mode
• triple-metal double-poly triple-well CMOS Flash Technology
• Low Vcc write inhibit < 2.5V
• minimum 100K program/erase endurance cycle
• Package options - 8mm x 20mm 32-pin TSOP (Type 1) - 8mm x 14mm 32-pin TSOP (Type 1) - 32-pin PLCC
• Commercial and industrial Temperature Range
GENERAL DESCRIPTION
The EN29LV040A is a 4-Megabit, electrically erasable, read/write non-volatile flash memory, organized as 524,288 bytes. Any byte can be programmed typically in 8µs. The EN29LV040A features 3.0V voltage read and write operation, with access times as fast as 45ns to eliminate the need for WAIT states in high-performance microprocessor systems.
The EN29LV040A has separate Output Enable (OE), Chip Enable ( CE), and Write Enable (WE) controls, which eliminate bus contention issues. This device is designed to allow either single Sector or full chip erase operation, where each Sector can be individually protected against program/erase operations or temporarily unprotected to erase or program. The device can sustain a minimum of 100K program/erase cycles on each Sector.
EN29LV040A 4 Megabit (512K x 8-bit ) Uniform Sector, CMOS 3.0 Volt-only Flash Memory
EN29LV040ACONNECTION DIAGRAMS
TABLE 1. PIN DESCRIPTION FIGURE 1. LOGIC DIAGRAM Pin Name Function
A0-A18 Addresses
DQ0-DQ7 8 Data Inputs/Outputs
WE# Write Enable
CE# Chip Enable
OE# Output Enable
Vcc Supply Voltage
Vss Ground
EN29LV040A
DQ0 – DQ7
A0 - A18
WE#
CE#
OE#
Philips Semiconductors Product specification
2 × 6 W stereo power amplifier TDA1517; TDA1517P
FEATURES
• Requires very few external components
• High output power
• Fixed gain
• Good ripple rejection
• Mute/standby switch
• AC and DC short-circuit safe to ground and VP
• Thermally protected
• Reverse polarity safe
• Capability to handle high energy on outputs (VP = 0 V)
• No switch-on/switch-off plop
• Electrostatic discharge protection.
GENERAL DESCRIPTION
The TDA1517 is an integrated class-B dual outputamplifier in a plastic single in-line medium power packagewith fin (SIL9MPF) and a plastic heat-dissipating dualin-line package (HDIP18). The device is primarilydeveloped for multi-media applications.
QUICK REFERENCE DATA
ORDERING INFORMATION
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
VP supply voltage 6.0 14.4 18.0 V
IORM repetitive peak output current − − 2.5 A
Iq(tot) total quiescent current − 40 80 mA
Isb standby current − 0.1 100 µA
Isw switch-on current − − 40 µA
|ZI| input impedance 50 − − kΩPo output power RL = 4 Ω; THD = 0.5% − 5 − W
RL = 4 Ω; THD = 10% − 6 − W
SVRR supply voltage ripple rejection fi = 100 Hz to 10 kHz 48 − − dB
αcs channel separation 40 − − dB
Gv closed loop voltage gain 19 20 21 dB
Vno(rms) noise output voltage (RMS value) − 50 − µV
Tc crystal temperature − − 150 °C
TYPENUMBER
PACKAGE
NAME DESCRIPTION VERSION
TDA1517 SIL9MPF plastic single in-line medium power package with fin; 9 leads SOT110-1
TDA1517P HDIP18 plastic heat-dissipating dual in-line package; 18 leads SOT398-1
Philips Semiconductors Product specification
2 × 6 W stereo power amplifier TDA1517; TDA1517P
PINNING
SYMBOL PIN DESCRIPTION
−INV1 1 non-inverting input 1
SGND 2 signal ground
SVRR 3 supply voltage ripple rejection output
OUT1 4 output 1
PGND 5 power ground
OUT2 6 output 2
VP 7 supply voltage
M/SS 8 mute/standby switch input
−INV2 9 non-inverting input 2
Fig.2 Pin configuration for SOT110-1.
ndbook, halfpage
MLC352
1
2
3
4
5
6
7
8
9
PV
OUT2
SGND
INV1
INV2
TDA1517
OUT1
M/SS
SVRR
PGND
Fig.3 Pin configuration for SOT398-1.
Pins 10 to 18 should be connected to GND or floating.
ndbook, halfpage
MLC353
1
2
3
4
5
6
7
8
9
18
17
16
15
14
13
12
11
10
PV
OUT2
SGND
INV1
INV2
TDA1517P
OUT1
M/SS
SVRR
PGND
FUNCTIONAL DESCRIPTION
The TDA1517 contains two identical amplifiers withdifferential input stages. The gain of each amplifier is fixedat 20 dB. A special feature of the device is themute/standby switch which has the following features:
• Low standby current (<100 µA)
• Low mute/standby switching current(low cost supply switch)
• Mute condition.
.
数字控制音频处理芯片
SM9613
共 12 页 2
2-wire Serial EEPROM 32K/64K AF24BC32/64 FEATURES:
• Internally organized as 4096 x 8 (32K), 8192 x 8 (64K)
• Low-voltage and standard-voltage operation : 1.8 to 5.5 V
• 2-wire serial interface bus • Data retention: 100 years • High endurance: 1,000,000 Write
Cycles • 100 kHz (1.8V) & 400kHz (2.7V, 5V)
compatibility
• Self-timed write cycle (5ms max) • Bi-directional data transfer protocol • Write protect pin for hardware data
protection • 32-byte page write modes • Allows for partial page writes • 8-lead PDIP, 8-lead JEDEC SOIC, and
8-lead TSSOP, 8-lead MSOP (AF24BC32) Packages
DESCRIPTION Aplus Flash Technology’s AF24BC32/64 provides 32K/64K of serial electrically erasable and programmable read-only memory (EEPROM). The wide Vdd range allows for low-voltage operation down to 1.8V. The device, fabricated using traditional CMOS EEPROM technology, is optimized for many industrial and commercial applications where low-voltage and low-power operation is essential. The AF24BC32/64 is available in 8-pin PDIP, 8-lead JEDEC SOIC, 8-lead TSSOP and 8-lead MSOP (AF24BC32) packages and is accessed via a 2-wire serial interface. Figure 1. Pin Configurations
8-pin PDIP/TSSOP/SOIC/MSOP
8 1 Vcc A0 Pin Name Function
A0 – A2 Address inputs SDA Serial Data SCL Serial Clock Input WP Write Protect GND Ground Vcc Power Supply
7 2 A1 WP
6 3 SCL A2
5 GND 4 SDA
Philips Semiconductors Product specification
I2C-bus controlled single and multistandardalignment-free IF-PLL demodulators
TDA9885; TDA9886
1 FEATURES
• 5 V supply voltage
• Gain controlled wide-band Vision IntermediateFrequency (VIF) amplifier, AC-coupled
• Multistandard true synchronous demodulation withactive carrier regeneration: very linear demodulation,good intermodulation figures, reduced harmonics, andexcellent pulse response
• Gated phase detector for L and L-accent standard
• Fully integrated VIF Voltage Controlled Oscillator(VCO), alignment-free, frequencies switchable for allnegative and positive modulated standards via I2C-bus
• Digital acquisition help, VIF frequencies of 33.4, 33.9,38.0, 38.9, 45.75, and 58.75 MHz
• 4 MHz reference frequency input: signal fromPhase-Locked Loop (PLL) tuning system or operatingas crystal oscillator
• VIF Automatic Gain Control (AGC) detector for gaincontrol, operating as peak sync detector for negativemodulated signals and as a peak white detector forpositive modulated signals
• External AGC setting via pin OP1
• Precise fully digital Automatic Frequency Control (AFC)detector with 4-bit digital-to-analog converter, AFC bitsreadable via I2C-bus
• TakeOver Point (TOP) adjustable via I2C-bus oralternatively with potentiometer
• Fully integrated sound carrier trap for 4.5, 5.5, 6.0,and 6.5 MHz, controlled by FM-PLL oscillator
• Sound IF (SIF) input for single reference Quasi SplitSound (QSS) mode, PLL controlled
• SIF-AGC for gain controlled SIF amplifier, singlereference QSS mixer able to operate in highperformance single reference QSS mode and inintercarrier mode, switchable via I2C-bus
• AM demodulator without extra reference circuit
• Alignment-free selective FM-PLL demodulator with highlinearity and low noise
• I2C-bus control for all functions
• I2C-bus transceiver with pin programmable ModuleAddress (MAD)
• Four I2C-bus addresses via MAD.
2 GENERAL DESCRIPTION
The TDA9885 is an alignment-free multistandard(PAL and NTSC) vision and sound IF signal PLLdemodulator for negative modulation only andFM processing.
The TDA9886 is an alignment-free multistandard(PAL, SECAM and NTSC) vision and sound IF signal PLLdemodulator for positive and negative modulation,including sound AM and FM processing.
3 APPLICATIONS
• TV, VTR, PC and STB applications.
4 ORDERING INFORMATION
TYPE NUMBERPACKAGE
NAME DESCRIPTION VERSION
TDA9885T/V3 SO24 plastic small outline package; 24 leads; body width 7.5 mm SOT137-1
TDA9885TS/V3 SSOP24 plastic shrink small outline package; 24 leads; body width 5.3 mm SOT340-1
TDA9885HN/V3 HVQFN32 plastic, heatsink very thin quad flat package; no leads; 32 terminals;body 5 × 5 × 0.85 mm
SOT617-1
TDA9886T/V3 SO24 plastic small outline package; 24 leads; body width 7.5 mm SOT137-1
TDA9886TS/V3 SSOP24 plastic shrink small outline package; 24 leads; body width 5.3 mm SOT340-1
Philips Semiconductors Product specification
I2C-bus controlled single and multistandardalignment-free IF-PLL demodulators
TDA9885; TDA9886
7 PINNING
SYMBOL
PIN
DESCRIPTION TDA9886TTDA9886TS
TDA9885TTDA9885TS
TDA9885HN
VIF1 1 1 30 VIF differential input 1
VIF2 2 2 31 VIF differential input 2
n.c. − − 32 not connected
OP1 3 3 1 output port 1; open-collector
FMPLL 4 4 2 FM-PLL for loop filter
DEEM 5 5 3 de-emphasis output for capacitor
AFD 6 6 4 AF decoupling input for capacitor
DGND 7 7 5 digital ground
n.c. − − 6 not connected
AUD 8 8 7 audio output
TOP 9 9 8 tuner AGC TakeOver Point (TOP) for resistor adjustment
SDA 10 10 9 I2C-bus data input and output
SCL 11 11 10 I2C-bus clock input
SIOMAD 12 12 11 sound intercarrier output and MAD select with resistor
n.c. − − 12 not connected
n.c. 13 13 13 not connected
n.c. − − 14 not connected
TAGC 14 14 15 tuner AGC output
REF 15 15 16 4 MHz crystal or reference signal input
VAGC 16 − − VIF-AGC for capacitor
n.c. − 16 17 not connected
CVBS 17 17 18 composite video output
n.c. − − 19 not connected
AGND 18 18 20 analog ground
VPLL 19 19 21 VIF-PLL for loop filter
VP 20 20 22 supply voltage
AFC 21 21 23 AFC output
OP2 22 22 24 output port 2; open-collector
n.c. − − 25 not connected
SIF1 23 23 26 SIF differential input 1 and MAD select with resistor
SIF2 24 24 27 SIF differential input 2 and MAD select with resistor
n.c. − − 28 not connected
n.c. − − 29 not connected
SHANGHAI JINXIN ELECTRONICS LTD.
MODEL UVL7605VMW
1. SCOPE.
This specification applies to VHF and UHF tuner model UVL7605VMW
2. INPUT IMPEDANCE AND OUTPUT IMPEDANCE Input impedance:75 Ohm unbalanced Output impedance:75 Ohm unbalanced 3. INTERMEDIATE FREQUENCY Picture carrier:45.75MHz Sound carrier:41.25MHz 4. Receiving Channel Ch.2~B
Ch.C~W+11 Ch.W+12~69
5. STANDARD SUPPLY VOLTAGE AND CURRENT.
STD Voltage(V) Current(mA) VHF UHF
Term No.
Term Name. VHF
LOW VHF
HIGH UHF Min Typ Max Min Typ Max
1 AGC 4.0 4.0 4.0 - - - - - - 2 VT - - - - - - - - - 7 BP 5.0 5.0 5.0 - - - 150 - 180 9 BT 32 32 32 - - - 3 - 3
SHANGHAI JINXIN ELECTRONICS LTD.
SPECIFICATION UVL7605VMW
6. Maximum supply voltage
No. Terminal name Maximum supply voltage(V) 1 AGC +4.5V,DC 3 AS +5.5V,DC 4 SCL +5.5V,DC 5 SDA +5.5V,DC 6 +B +5.5V,DC 7 BP +5.5V,DC 9 BT +34V,DC
7. Operation guaranteed voltage
No. Terminal name Supply voltage 1 AGC 0~4.0V,DC 3 AS 0~5.25V,DC 4 SCL 0~5.25V,DC 5 SDA 0~5.25V,DC 6 +B +5.0V±0.25V,DC 7 BP +5.0V±0.25V,DC 9 BT +32V±1V,DC
8. Temperature range Operation guaranteed temperature:-10~+60 Storage temperature:-10~+70 9. Construction and mechanical characteristics.
External connection terminals
SHANGHAI JINXIN ELECTRONICS LTD.
SPECIFICATION UVL7605VMW
No. Terminal name Terminal Description 1 AGC VHF/UHF AGC Terminal 2 VT Tuning Voltage monitor 3 AS Address Select 4 SCL Serial Clock Line 5 SDA Serial Data Line 6 +B 5V supply voltage 7 BP Internal connection to pin 6 9 BT Tuning Voltage Supply 10 IF1 IF Output (balanced) 11 IF2 IF Output (balanced) 12 U /V ANT VHF/UHFANT Terminal
10. STANDRAD TEST CONDITIONS
Unless otherwise specified, the tests shall be carried out at the temperature of 25±2and relative humidity of 65%±15%
11.ELECTRICAL CHARATERISTICS
11.1 Power gain
Min Typ Max Unit VHF L 32 35 dB VHF H 32 35 dB
UHF 32 35 dB 11.2 Gain variation
Min Typ Max Unit VHF L 8.0 dB VHF H 8.0 dB
UHF 8.0 dB 11.3 Noise figure
Min Typ Max Unit VHF L 5.0 9.0 dB VHF H 5.0 9.0 dB
HF 5.0 9.0 dB
UTC 78DXX LINEAR INTEGRATED CIRCUIT
UTC UNISONIC TECHNOLOGIES CO. LTD
3-TERMINAL 0.5A POSITIVEVOLTAGE REGULATOR
DESCRIPTION The UTC 78DXX family is monolithic fixed voltageregulator integrated circuit .They are suitable forapplications that required supply current up to 0.5 A.
FEATURE*Output current up to 0.5 A*Fixed output voltage of 5V, 6V, 8V, 9V, 12V, 15V ,18V and 24V available*Thermal overload shutdown protection*Short circuit current limiting*Output transistor SOA protection
TO-252
1
1:Input 2:GND 3:Output
EQUIVALENT CIRCUIT
3
1
2GND
OUTPUT
INPUT
R13 R17 R9 Z2 T12
T14R19
R18R12
R11 R10
R8
T8 T9
T13
T10
R14T11 T5
T6
R5T4
Z1
R15
T15
R16 R1 R2
R4
C1
R6
T7
T3
T1 T2
R3
R7
Philips Semiconductors Product specification
Dual 4-channel analog multiplexer,demultiplexer
74HC4052; 74HCT4052
FEATURES
• Wide analog input voltage range from −5 V to +5 V
• Low ON-resistance:
– 80 Ω (typical) at VCC − VEE = 4.5 V
– 70 Ω (typical) at VCC − VEE = 6.0 V
– 60 Ω (typical) at VCC − VEE = 9.0 V
• Logic level translation: to enable 5 V logic tocommunicate with ±5 V analog signals
• Typical “break before make” built in
• Complies with JEDEC standard no. 7A
• ESD protection:
– HBM EIA/JESD22-A114-B exceeds 2000 V
– MM EIA/JESD22-A115-A exceeds 200 V.
• Specified from −40 °C to +85 °C and −40 °C to +125 °C.
APPLICATIONS
• Analog multiplexing and demultiplexing
• Digital multiplexing and demultiplexing
• Signal gating.
DESCRIPTION
The 74HC4052 and 74HCT4052 are high-speed Si-gateCMOS devices and are pin compatible with theHEF4052B. They are specified in compliance with JEDECstandard no. 7A.
The 74HC4052 and 74HCT4052 are dual 4-channelanalog multiplexers or demultiplexers with common selectlogic. Each multiplexer has four independentinputs/outputs (pins nY0 to nY3) and a commoninput/output (pin nZ). The common channel select logicsinclude two digital select inputs (pins S0 and S1) and anactive LOW enable input (pin E). When pin E = LOW, oneof the four switches is selected (low-impedance ON-state)with pins S0 and S1. When pin E = HIGH, all switches arein the high-impedance OFF-state, independent of pins S0and S1.
VCC and GND are the supply voltage pins for the digitalcontrol inputs (pins S0, S1, and E). The VCC to GNDranges are 2.0 V to 10.0 V for 74HC4052 and4.5 V to 5.5 V for 74HCT4052. The analog inputs/outputs(pins nY0 to nY3 and nZ) can swing between VCC as apositive limit and VEE as a negative limit. VCC − VEE maynot exceed 10.0 V.
For operation as a digital multiplexer/demultiplexer, VEE isconnected to GND (typically ground).
FUNCTION TABLE
Note
1. H = HIGH voltage level
L = LOW voltage level
X = don’t care.
INPUT(1)
CHANNEL BETWEENE S1 S0
L L L nY0 and nZ
L L H nY1 and nZ
L H L nY2 and nZ
L H H nY3 and nZ
H X X none
Philips Semiconductors Product specification
Dual 4-channel analog multiplexer,demultiplexer
74HC4052; 74HCT4052
PINNING
PIN SYMBOL DESCRIPTION
1 2Y0 independent input or output
2 2Y2 independent input or output
3 2Z common input or output
4 2Y3 independent input or output
5 2Y1 independent input or output
6 E enable input (active LOW)
7 VEE negative supply voltage
8 GND ground (0 V)
9 S1 select logic input
10 S0 select logic input
11 1Y3 independent input or output
12 1Y0 independent input or output
13 1Z common input or output
14 1Y1 independent input or output
15 1Y2 independent input or output
16 VCC positive supply voltage
handbook, halfpage
4052
MNB039
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
2Y0
2Y2
2Z
2Y3
2Y1
E
VEE
GND S1
S0
1Y3
1Y0
1Z
1Y1
1Y2
VCC
Fig.1 Pin configuration DIP16, SO16 and(T)SSOP16. Fig.2 Pin configuration DHVQFN16.
(1) The die substrate is attached to this pad using conductive dieattach material. It can not be used as a supply pin or input.
001aac117
4052
VCC(1)
VEE S0
E 1Y3
2Y1 1Y0
2Y3 1Z
2Z 1Y1
2Y2 1Y2
GN
D S1
2Y0
VC
C
Transparent top view
7 10
6 11
5 12
4 13
3 14
2 15
8 9
1 16
terminal 1index area
PRELIMINARY PRODUCT BRIEF
FLI8125
Single-Chip LCD TV Controller
DESCRIPTION The FLI8125 is a highly integrated cost effective mixed signal solution for LCD TV and Digital Video applications. Capable of meeting global broadcast market requirements, the FLI8125 incorporates a multi-standard video decoder, high-speed triple 8-bit Analog-to-Digital Converter (ADC), and front end switching. The integrated VBI Slicer adds Closed Captioning (CC) and Teletext service support, and the integrated microprocessor enables full system control without external devices.
The FLI8125 can capture and process both video and RGB graphics streams. The multi-standard video decoder is capable of accepting NTSC, PAL or SECAM and other sub-formats. The integrated ADC accepts both analog RGB and YPrPb inputs.
Interlaced video signals are converted into progressive scan signals using a memory-less deinterlacing technique. Progressive scan signals are then passed to the Faroudja DCDi – Edge suite for further image processing. Faroudja DCDi – Edge incorporates Faroudja’s patented and Emmy award winning Edge Correction technology eliminating objectionable staircasing on diagonal lines; Horizontal Enhancement technology is used to make an image look crisper and more realistic; Adaptive Contrast and Color (ACC) enables dynamic contrast enhancement and color saturation correction; and Active Color Management-II (ACM-II) enables color correction for subtle changes in color that can dramatically improve the image (e.g., flesh tone, green stretch, etc.). A fully programmable 3x3 matrix provides color space conversion and global color correction technology. Programmable Color Look Up Tables (CLUT) provides gamma correction of the output signal. Combined, these features facilitate accurate color reproduction that enables use of the full dynamic range on any fixed pixel display device.
APPLICATION Cost Effective, Large Screen LCD
TVs Portable / Handheld LCD TVs Small Screen Video Displays
FEATURES Faroudja DCDi – Edge™ Integrated Triple ADC Digital Input Port Scaling Engine Image Enhancement Digital Output OSD Controller Embedded Microprocessor VBI Slicer JTAG Support
PACKAGE 208 PQFP
FLI8125 BASED “SMART” VIDEO DISPLAY
RGB + FB
Composite
S-Video
RGB / YPrPb
I2C Bus
Backlight
LCDPanel
FLI8125
User Keypad
IR S
enso
r
Flash/ROM
GP
IOs
AudioAmplifier
EEPROM AudioProcessor
GENESIS MICROCHIP INC. FLI8125 PRELIMINARY PRODUCT BRIEF
FLI8125 FUNCTIONAL BLOCK DIAGRAM 24-bit
Input Port
CVBSInputs
S-VideoInputs
YPrPb/RGBInputs
LowBandwidth
AnalogInputs
IR SensorInput
GPInput/Out-puts
24-bit RGB /18-bit RGB /16-bit YUVTTL OutputDUAL LVDS
PatternGenerator
OSDControllerVideo
Decoder
VBI Slicer
SyncProcessing
Analog FrontEnd
Sync Stripper
InputFormat
Measurement
LowBandwidth
ADC
IRInterface
DDC2biInterface
2-wireController
GPIOs
OutputFormatter
Image Processing
Sca
ling
Eng
ine
Vid
eoD
ecod
er
Inpu
t Cap
ture
Edg
eC
orre
ctio
nH
oriz
onta
lE
nhan
cem
ent
AC
C /
ACM
3x3
Mat
rix
CLU
Ts
Ove
rlay
..
..
..
....Internal Micro-processor Bus
EmbeddedMicro-processor ROM RAM
External ROM
FLI8125 FEATURE DESCRIPTIONS
INTEGRATED TRIPLE ADC RGB / YPbPr support up to 135MHz SCART – RGB + Fast Blank support Interlaced and progressive scan External OSD support
DIGITAL INPUT PORT 24-bit re-configurable input port
INTEGRATED 2D VIDEO DECODER Worldwide NTSC/PAL/SECAM support Macrovision / VCR trick mode support
EMBEDDED MICROPROCESSOR Turbo 186 core Internal RAM / ROM Serial Flash / Parallel ROM support 2-wire slave controller, UART support Internal RESET Controller GPIOs , Low Bandwidth ADC – 6 input Infra-red Interface
SCALING ENGINE Independent H & V scaling factors 4:2:2 YPbPr or 4:4:4 RGB scaling Anamorphic scaling (non-linear)
FAROUDJA DCDI – EDGE™ Edge Correction
– Eliminates objectionable stair-casing – Enhances clarity and realism
Horizontal Enhancement Adaptive Contrast and Color (ACC) Active Color Management - II (ACM-II)
DIGITAL OUTPUT 18/24-bit 85Mhz TTL output Dual LVDS up to SXGA Energy Spectrum Management for reducing EMI Programmable CLUT for gamma correction
OSD CONTROLLER Up to 4 windows: 1, 2 or 4-bits per pixel color Programmable Font scalar to meet Teletext requirements
VBI SLICER V-Chip, Closed Captioning, XDS, CGMS, WSS decode Teletext 1.5 support
JTAG SUPPORT Boundary Scan support
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
2 Pin Diagram The FLI8125 device is packaged in a 208-pin Plastic Quad Flat Pack (PQFP).
Figure 2: FLI8125 Pinout
PBIA
SP
PW
RTD
OAV
DD
_LV_
33V
CO
_LV
AVS
S_LV
AVD
D_O
UT_
LV_3
3C
H3P
_LV_
E/R
0C
H3N
_LV_
E/R
1C
LKP_
LV_E
/R2
CLK
N_L
V_E/
R3
CH
2P_L
V_E/
R4
CH
2N_L
V_E/
R5
CH
1P_L
V_E/
R6
CH
1N_L
V_E/
R7
CH
0P_L
V_E/
G0
CH
0N_L
V_E/
G1
AVS
S_O
UT_
LVA
VDD
_OU
T_LV
_33
CH
3P_L
V_O
/G2
CH
3N_L
V_O
/G3
CLK
P_L
V_O
/G4
CLK
N_L
V_O
/G5
CH
2P_L
V_O
/G6
CH
2N_L
V_O
/G7
CH
1P_L
V_O
/B0
CH
1N_L
V_O
/B1
CH
0P_L
V_O
/B2
CH
0N_L
V_O
/B3
AVS
S_O
UT_
LVA
VDD
_OU
T_LV
_33
CVD
D_1
.8C
RV
SSPD
20/B
4/G
PIO
0PD
21/B
5/G
PIO
1PD
22/B
6/G
PIO
2PD
23/B
7/G
PIO
3D
END
HS
DVS
DC
LKR
OM
_SC
SN
/RO
M_C
SNR
OM
_SC
LK/A
17R
OM
_SD
O/A
16R
OM
_SD
I/RO
M_W
EN
RVD
D_3
.3C
RV
SSA
DC
_CLA
MP/
A15
XO
SD
_CLK
/A14
/PD
38XO
SD
_HS/
A13
/PD
37XO
SD
_VS/
A12
/PD
36XO
SD
_FLD
/A11
/PD
35
VDDA33_LBADCLBADC_IN1LBADC_IN2LBADC_IN3LBADC_IN4LBADC_IN5LBADC_IN6
LBADC_RTNVSAA33_LBADC
RESETnGND_RPLL
VDD_RPLL_18VBUFC_RPLLAGND_RPLL
XTALTCLK
AVDD_RPLL_33CVDD_1.8
CRVSSTEST
GPIO15HSYNC2VSYNC2
HOST_SCLKHOST_SDATA
DDC_SCLKDDC_SDATA
CVDD_1.8CRVSS
MSTR_SCLKMSTR_SDATA
RVDD_3.3CRVSS
TCKTDI
TMSTRST
GPIO6/IRinCVDD_1.8
CRVSSGPIO7/IRQin
GPIO8/IRQoutGPIO9/SIPC_SCLK
GPIO10/SIPC_SDATA/A18CVDD_1.8
CRVSSGPIO11/PWM0GPIO12/PWM1
RVDD_3.3CRVSS
GPIO13/PWM2GPIO14/PWM3/SCART16
53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100
101
102
103
104
12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152
156155154153152151150149148147146145144143142141140139138137136135134133132131130129128127126125124123122121120119118117116115114113112111110109108107106105
HSYNC1CRVSSRVDD_3.3VID_CLK_1VID_DATA_IN_15/GPIO23VID_DATA_IN_14/GPIO22VID_DATA_IN_13/GPIO21VID_DATA_IN_12/GPIO20VID_DATA_IN_11/GPIO19VID_DATA_IN_10/GPIO18VID_DATA_IN_9/GPIO17VID_DATA_IN_8/GPIO16CRVSSCVDD_1.8VID_DATA_IN_7VID_DATA_IN_6VID_DATA_IN_5VID_DATA_IN_4VID_DATA_IN_3VID_DATA_IN_2VID_DATA_IN_1VID_DATA_IN_0CRVSSCVDD_1.8VID_DATA_IN_23/D7/PD46VID_DATA_IN_22/D6/PD45VID_DATA_IN_21/D5/PD44VID_DATA_IN_20/D4/PD43VID_DATA_IN_19/D3/PD42CRVSSCVDD_1.8VID_DATA_IN_18/D2/PD41VID_DATA_IN_17/D1/PD40VID_DATA_IN_16/D0/PD39GPIO4/VIDIN_HSGPIO5/VIDIN_VSCRVSSCVDD_1.8VID_CLK2/ROM_OEN/PD47CRVSSRVDD_3.3VID_DE/FLD/A0/PD24A1/PD25A2/PD26A3/PD27A4/PD28A5/PD29A6/PD30A7/PD31A8/PD32A9/PD33A10/PD34
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
GN
D18
_SC
VDD
18_S
CVO
UT2
VO_G
ND
SVN
AVD
D_S
CC
4PG
ND
SB4
PG
ND
SA4
PG
ND
SSV
4PAG
ND
CN
AVD
D_C
C3P
GN
DS
B3P
GN
DS
A3P
GN
DS
SV3P
AGN
DBN AV
DD
_BC
2PG
ND
SB2
PG
ND
SA2
PG
ND
SSV
2PAG
ND
AN AVD
D_A
C1P
GN
DS
B1P
GN
DS
A1P
GN
DS
SV1P
AGN
DAG
ND
AVD
D_A
DC
ADC
_TES
TVD
D18
_CG
ND
18_C
NC
VDD
18_A
BVS
YNC
1
FLI8125
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
3 Pin List
I/O Legend: A = Analog, I = Input, O = Output, P = Power, G= Ground
Table 1: Analog Input Port
Pin Name No. I/O Description
VDD18_AB 158 AP Analog Power (1.8V) for A & B Channels. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
NC 159 No Connection. Leave this pin open for normal operation.
GND18_C 160 AG Analog Ground (1.8V Return) for C channel. Must be directly connected to the analog system ground plane on board.
VDD18_C 161 AP Analog Power (1.8V) for C Channel. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
ADC_TEST 162 O Analog Front End Test O/P. Leave this Pin open. Used for factory testing purpose only.
AVDD_ADC 163 AP Analog Power (3.3V) for ADC. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
AGND 164 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
AGND 165 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
SV1P 166 AI Positive analog sync input for channel 1. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 167 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
A1P 168 AI Positive analog input ‘A’ for channel 1. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 169 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
B1P 170 AI Positive analog input ‘B’ for channel 1. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 171 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
C1P 172 AI Positive analog input ‘C’ for channel 1. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
AVDD_A 173 AP Analog Power (3.3V) for ADC of Channel-A. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
AN 174 AI Negative analog input ‘A’ for channels 1 through 4. This acts as the return Path for the Sources connected to Channel-A Inputs. This has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network to Analog Ground Plane on board.
AGND 175 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
SV2P 176 AI Positive analog sync input for channel 2. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 177 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
A2P 178 AI Positive analog input ‘A’ for channel 2. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 179 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
B2P 180 AI Positive analog input ‘B’ for channel 2. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 181 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
C2P 182 AI Positive analog input ‘C’ for channel 2. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
AVDD_B 183 AP Analog Power (3.3V) for ADC of Channel-B. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
BN 184 AI Negative analog input ‘B’ for channels 1 through 4. This acts as the return Path for the Sources connected to Channel-B Inputs. This has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network to Analog Ground Plane on board.
AGND 185 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
SV3P 186 AI Positive analog sync input for channel 3. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Pin Name No. I/O Description
GNDS 187 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
A3P 188 AI Positive analog input ‘A’ for channel 3. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 189 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
B3P 190 AI Positive analog input ‘B’ for channel 3. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 191 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
C3P 192 AI Positive analog input ‘C’ for channel 3. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
AVDD_C 193 AP Analog Power (3.3V) for ADC of Channel-C. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
CN 194 AI Negative analog input ‘C’ for channels 1 through 4. This acts as the return Path for the Sources connected to Channel-C Inputs. This has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network to Analog Ground Plane on board.
AGND 195 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
SV4P 196 AI Positive analog sync input for channel 4. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 197 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
A4P 198 AI Positive analog input ‘A’ for channel 4. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 199 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
B4P 200 AI Positive analog input ‘B’ for channel 4. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
GNDS 201 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
C4P 202 AI Positive analog input ‘C’ for channel 4. The input has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network.
AVDD_SC 203 AP Analog Power (3.3V) for ADC of SYNC Channel. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
SVN 204 AI Negative analog sync input for channels 1 through 4. This acts as the return Path for the Sources connected to SV Channel Inputs. This has to be AC coupled using a series 20 Ohm resistor and 0.1uF Capacitor network to Analog Ground Plane on board.
VO_GND 205 AG Analog Ground. Must be directly connected to the analog system ground plane on board.
VOUT2 206 AO Analog VOUT signal This is the Analog Video Output from the Decoder in the Composite Video format. This can be amplified and be fed to any video display device.
VDD18_SC 207 AP Analog Power (1.8V) for SYNC Channel. Must be bypassed with 0.1uF capacitor to the analog system ground plane.
GND18_SC 208 AG Analog Ground (1.8V Return) for SYNC channel. Must be directly connected to the analog system ground plane on board.
Table 2: Low Bandwidth ADC Input Port
Pin Name No I/O Description
VDDA33_LBADC 1 AP Analog Power (3.3V) for Low Bandwidth ADC Block. Must be bypassed with 0.1uF capacitor.
LBADC_IN1 2 AI Low Bandwidth Analog Input-1. The Input signal connected to this Pin, must be bypassed with a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_IN2 3 AI Low Bandwidth Analog Input-2. The Input signal connected to this Pin, must be bypassed with a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_IN3 4 AI Low Bandwidth Analog Input-3. The Input signal connected to this Pin, must be bypassed with a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_IN4 5 AI Low Bandwidth Analog Input-4. The Input signal connected to this Pin, must be bypassed with a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_IN5 6 AI Low Bandwidth Analog Input-5. The Input signal connected to this Pin, must be bypassed with a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_IN6 7 AI Low Bandwidth Analog Input-6. The Input signal connected to this Pin, must be bypassed with
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Pin Name No I/O Description
a 0.1uF capacitor and could be in the range of 0V to 3.3V (peak to peak).
LBADC_RTN 8 AG This Pin provides the Return Path for LBADC inputs. Must be directly connected to the analog system ground plane on board.
VSSA33_LBADC 9 AG Analog Ground for Low Bandwidth ADC Block. Must be directly connected to the analog system ground plane on board.
Table 3: RCLK PLL Pins
Pin Name No I/O Description
GND_RPLL 11 DG Digital GND for ADC clocking circuit. Must be directly connected to the digital system ground plane.
VDD_RPLL_18 12 DP Digital power (1.8V) for ADC digital logic. Must be bypassed with capacitor to Ground Plane.
VBUFC_RPLL 13 O Test Output. Leave this Pin Open. This is reserved for Factory Testing Purpose.
AGND_RPLL 14 AG Analog ground for the Reference DDS PLL. Must be directly connected to the analog system ground plane.
XTAL 15 AO Crystal oscillator output.
TCLK 16 AI Reference clock (TCLK) from the 14.3MHz crystal oscillator.
AVDD_RPLL_33 17 AP Analog Power (3.3V) for RCLK PLL. Must be bypassed with 0.1uF capacitor.
Table 4: Digital Video Input Port
Pin Name No I/O Description
VID_CLK_1 153 I Video port data clock input meant for Video Input – 1. Up to 75Mhz [Input, 5V-tolerant]
VIDIN_HS 122 I When Video Input – 1 is in BT656 Mode, this Pin acts as Horizontal Sync Input for Video Input – 2. OR when Video Input – 1 is in 16 Bit Mode this Pin acts as Horizontal Sync Input for Video Input – 1. OR this Pin acts as Horizontal Sync Input for 24 Bit Video Input
VIDIN_VS 121 I When Video Input – 1 is in BT656 Mode, this Pin acts as Vertical Sync Input for Video Input – 2. OR when Video Input – 1 is in 16 Bit Mode this Pin acts as Vertical Sync Input for Video Input – 1. OR this Pin acts as Vertical Sync Input for 24 Bit Video Input
VID_DATA_IN_0 VID_DATA_IN_1 VID_DATA_IN_2 VID_DATA_IN_3 VID_DATA_IN_4 VID_DATA_IN_5 VID_DATA_IN_6 VID_DATA_IN_7
135 136 137 138 139 140 141 142
IO Input YUV data in 8-bit BT656 of Video Input – 1 [Bi-Directional, 5V-tolerant] OR Input Y Data in case of 16 Bit Video Input (CCIR601) of Video Input – 1 OR Input Red Data in case of 24 Bit Video Input
VID_DATA_IN_8 VID_DATA_IN_9 VID_DATA_IN_10 VID_DATA_IN_11 VID_DATA_IN_12 VID_DATA_IN_13 VID_DATA_IN_14 VID_DATA_IN_15
145 146 147 148 149 150 151 152
IO Input Pr / Pb Data in case of 16 Bit Video Input (CCIR601) of Video Input – 1 OR Input Green Data in case of 24 Bit Video Input
VID_DATA_IN_16 VID_DATA_IN_17 VID_DATA_IN_18 VID_DATA_IN_19 VID_DATA_IN_20 VID_DATA_IN_21 VID_DATA_IN_22 VID_DATA_IN_23
123 124 125 128 129 130 131 132
IO Input Blue Data in case of 24 Bit Video Input OR Video Input – 2 in 8-bit with Embedded Sync / Separate Sync Sync in which case VID_DATA_IN_16 acts as the LSB of the 8-bit Video input and VID_DATA_IN_23 acts as the MSB of the 8-bit Video input.
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Pin Name No I/O Description
VID_CLK2 118 I Video port data clock input meant for Video Input – 2. Up to 75Mhz [Input, 5V-tolerant]
VID_DE/FLD 115 I Video Active Signal Input or the Field Signal Input from external Digital Video Source.
Note: In case of Multiple Digital Video Input Sources, only one source could be in 8-Bit with embedded Sync (BT656 mode) format.
Table 5: System Interface
Pin Name No I/O Description
RESETn 10 I Hardware Reset (active low) [Schmitt trigger, 5v-tolerant] Connect to ground with 0.01uF (or larger) capacitor.
TEST 20 I For normal mode of operation connect this Pin to Ground.
GPIO15 21 IO This pin is available as a general-purpose input/output port. Also it is optionally programmable to give out the external chip select signal meant for external SRAM. Refer to note below.
HSYNC2
22
I Horizontal Sync signal Input-2. Used when Analog RGB component signal carries separate HSYNC signal.
VSYNC2 23 I Vertical Sync signal Input-2. Used when Analog RGB component signal carries separate VSYNC signal.
HOST_SCLK 24 IO Host input clock or 186 UART Data In or JTAG clock signal. [Input, Schmitt trigger, 5V-tolerant]
HOST_SDATA 25 IO Host input data or 186 UART Data Out or JTAG mode signal. [Bi-directional, Schmitt trigger, slew rate limited, 5V-tolerant]
DDC_SCLK 26 IO DDC2Bi clock for VGA Port [internal 10KΩ pull-up resistor]
DDC_SDATA 27 IO DDC2Bi data for VGA Port [internal 10KΩ pull-up resistor]
MSTR_SCLK 30 O Clock signal from Master Serial 2 Wire Interface Controller
MSTR_SDATA 31 IO Data signal meant for Master Serial 2 Wire interface Controller
TCK 34 IO This Pin accepts the Input Clock signal in case of Boundary Scan Mode.
TDI 35 IO This Pin accepts the Input Data signal in case of Boundary Scan Mode.
TMS 36 IO This Pin accepts the Input Test Mode Select signal in case of Boundary Scan Mode.
TRST 37 IO This Pin accepts the Boundary Scan Reset signal in case of Boundary Scan Mode.
GPIO6/IRin 38 IO Input from Infra Red Decoder can be connected to this Pin. When not used, this pin is available as General Purpose Input/output Port.
GPIO7/IRQin 41 IO Input Interrupt Request signal can be connected to this Pin. When not used, this pin is available as General Purpose Input/output Port.
GPIO8/IRQout 42 IO This Pin will give out the Interrupt Signal to interrupt external Micro. When not used, this pin is available as General Purpose Input/output Port.
GPIO9/SIPC_SCLK 43 IO This Pin accepts the Clock signal from External Serial 2 Wire interface Bus if FLI8125 is programmed to be in Slave mode. When not used, this pin is available as General Purpose Input/output Port.
GPIO10/SIPC_SDATA/ A18
44 IO This Pin acts as the Data I/O signal when used with External Serial 2 Wire interface Bus if FLI8125 is programmed to be in Slave mode. Or this Pin is programmable to give out Address # 18 from the Internal Micro when used with 512K External Memory. When not used, this pin is available as General Purpose Input/output Port.
GPIO11/PWM0 47 IO This Pin can be programmed to give out Pulse Width Modulated Output Pulses for external use. When not used, this pin is available as General Purpose Input/output Port.
GPIO12/PWM1 48 IO This Pin can be programmed to give out Pulse Width Modulated Output Pulses for external use. When not used, this pin is available as General Purpose Input/output Port.
GPIO13/PWM2 51 IO This Pin can be programmed to give out Pulse Width Modulated Output Pulses for external use. When not used, this pin is available as General Purpose Input/output Port.
GPIO14/PWM3/ SCART16
52 IO This Pin can be programmed to give out Pulse Width Modulated Output Pulses for external use. Or it can be programmed to sense the Fast Blank Input signal from a SCART I/P source. When not used, this pin is available as General Purpose Input/output Port.
TDO 55 O This Pin provides the Output Data in case of Boundary Scan Mode.
HSYNC1 156 I Horizontal Sync signal Input-1. Used when Analog RGB component signal carries
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Pin Name No I/O Description
separate HSYNC signal.
VSYNC1 157 I Vertical Sync signal Input-1. Used when Analog RGB component signal carries separate VSYNC signal.
101 O Clock Output meant for External OSD Controller
102 O Horizontal Sync Output meant for External OSD Controller
XOSD_CLK 103 O Vertical Sync Output meant for External OSD Controller
XOSD_HS 104 O Field Signal Output meant for External OSD Controller
PD20/B4/GPIO0 PD21/B5/GPIO1 PD22/B6/GPIO2 PD23/B7/GPIO3
86 87 88 89
IO These Pins provide the Panel Data as shown in the TTL Display Interface Table below. These are available as General Purpose Input / Output Pins when not used as Panel Data.
Table 6: LVDS Display Interface
Pin Name No I/O Description
PBIAS 53 O Panel Bias Control (backlight enable) [Tri-state output, 5V- tolerant]
PPWR 54 O Panel Power Control [Tri-state output, 5V- tolerant]
AVDD_LV_33 56 DP Digital Power for LVDS Block. Connect to digital 3.3V supply.
VCO_LV 57 O Reserved. Output for Testing Purpose only at Factory.
AVSS_LV 58 G Ground for LVDS outputs.
AVDD_OUT_LV_33 59 DP Digital Power for LVDS outputs. Connect to digital 3.3V supply.
CH3P_LV_E 60 O
CH3N_LV_E 61 O
These form the Differential Data Output for Channel – 3 (Even).
CLKP_LV_E 62 O
CLKN_LV_E 63 O
These form the Differential Clock Output Even Channel.
CH2P_LV_E 64 O
CH2N_LV_E 65 O
These form the Differential Data Output for Channel – 2 (Even).
CH1P_LV_E 66 O
CH1N_LV_E 67 O
These form the Differential Data Output for Channel – 1 (Even).
CH0P_LV_E 68 O
CH0N_LV_E 69 O
These form the Differential Data Output for Channel – 0 (Even).
AVSS_OUT_LV 70 G Ground for LVDS outputs.
AVDD_OUT_LV_33 71 DP Digital Power for LVDS outputs. Connect to digital 3.3V supply.
CH3P_LV_O 72 O
CH3N_LV_O 73 O
These form the Differential Data Output for Channel – 3 (Odd).
CLKP_LV_O 74 O
CLKN_LV_O 75 O
These form the Differential Clock Output Odd Channel.
CH2P_LV_O 76 O
CH2N_LV_O 77 O
These form the Differential Data Output for Channel – 2 (Odd).
CH1P_LV_O 78 O
CH1N_LV_O 79 O
These form the Differential Data Output for Channel – 1 (Odd).
CH0P_LV_O 80 O
CH0N_LV_O 81 O
These form the Differential Data Output for Channel – 0 (Odd).
AVSS_OUT_LV 82 G Ground for LVDS outputs.
AVDD_OUT_LV_33 83 DP Digital Power for LVDS outputs. Connect to digital 3.3V supply.
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Table 7: TTL Display Interface
Pin Name No I/O Description For 8-bit panels For 6-bit panels
PBIAS 53 O Panel Bias Control (backlight enable) [Tri-state output, 5V- tolerant]
PPWR 54 O Panel Power Control [Tri-state output, 5V- tolerant]
AVDD_LV_33 56 DP Digital Power for TTL Block. Connect to digital 3.3V supply.
VCO_LV 57 O Reserved. Output for Testing Purpose only at Factory.
AVSS_LV 58 G Ground for TTL outputs.
AVDD_OUT_LV_33 59 DP Digital Power for TTL outputs. Connect to digital 3.3V supply.
R0 60 O Red channel bit 0 (Even) Not used.
R1 61 O Red channel bit 1 (Even) Not used.
R2 62 O Red channel bit 2 (Even) Red channel bit 0 (Even)
R3 63 O Red channel bit 3 (Even) Red channel bit 1 (Even)
R4 64 O Red channel bit 4 (Even) Red channel bit 2 (Even)
R5 65 O Red channel bit 5 (Even) Red channel bit 3 (Even)
R6 66 O Red channel bit 6 (Even) Red channel bit 4 (Even)
R7 67 O Red channel bit 7 (Even) Red channel bit 5 (Even)
G0 68 O Green channel bit 0 (Even) Not used.
G1 69 O Green channel bit 1 (Even) Not used.
AVSS_OUT_LV 70 G Ground for TTL outputs.
AVDD_OUT_LV_33 71 DP Digital Power for TTL outputs. Connect to digital 3.3V supply.
G2 72 O Green channel bit 2 (Even) Green channel bit 0 (Even)
G3 73 O Green channel bit 3 (Even) Green channel bit 1 (Even)
G4 74 O Green channel bit 4 (Even) Green channel bit 2 (Even)
G5 75 O Green channel bit 5 (Even) Green channel bit 3 (Even)
G6 76 O Green channel bit 6 (Even) Green channel bit 4 (Even)
G7 77 O Green channel bit 7 (Even) Green channel bit 5 (Even)
B0 78 O Blue channel bit 0 (Even) Not used.
B1 79 O Blue channel bit 1 (Even) Not used.
B2 80 O Blue channel bit 2 (Even) Blue channel bit 0 (Even)
B3 81 O Blue channel bit 3 (Even) Blue channel bit 1 (Even)
AVSS_OUT_LV 82 G Ground for TTL outputs.
AVDD_OUT_LV_33 83 DP Digital Power for TTL outputs. Connect to digital 3.3V supply.
PD20/B4 86 O Blue channel bit 4 (Even) Blue channel bit 2 (Even)
PD21/B5 87 O Blue channel bit 5 (Even) Blue channel bit 3 (Even)
PD22/B6 88 O Blue channel bit 6 (Even) Blue channel bit 4 (Even)
PD23/B7 89 O Blue channel bit 7 (Even) Blue channel bit 5 (Even)
DEN 90 O Display Data Enable
DHS 91 O Display Horizontal Sync.
DVS 92 O Display Vertical Sync.
DCLK 93 O Display Pixel Clock
PD24 115 O Red channel bit 0 (Odd) Not used.
PD25 114 O Red channel bit 1 (Odd) Not used.
PD26 113 O Red channel bit 2 (Odd) Red channel bit 0 (Odd)
PD27 112 O Red channel bit 3 (Odd) Red channel bit 1 (Odd)
PD28 111 O Red channel bit 4 (Odd) Red channel bit 2 (Odd)
PD29 110 O Red channel bit 5 (Odd) Red channel bit 3 (Odd)
PD30 109 O Red channel bit 6 (Odd) Red channel bit 4 (Odd)
PD31 108 O Red channel bit 7 (Odd) Red channel bit 5 (Odd)
PD32 107 O Green channel bit 0 (Odd) Not used.
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Pin Name No I/O Description For 8-bit panels For 6-bit panels
PD33 106 O Green channel bit 1 (Odd) Not used.
PD34 105 O Green channel bit 2 (Odd) Green channel bit 0 (Odd)
PD35 104 O Green channel bit 3 (Odd) Green channel bit 1 (Odd)
PD36 103 O Green channel bit 4 (Odd) Green channel bit 2 (Odd)
PD37 102 O Green channel bit 5 (Odd) Green channel bit 3 (Odd)
PD38 101 O Green channel bit 6 (Odd) Green channel bit 4 (Odd)
PD39 123 O Green channel bit 7 (Odd) Green channel bit 5 (Odd)
PD40 124 O Blue channel bit 0 (Odd) Not used.
PD41 125 O Blue channel bit 1 (Odd) Not used.
PD42 128 O Blue channel bit 2 (Odd) Blue channel bit 0 (Odd)
PD43 129 O Blue channel bit 3 (Odd) Blue channel bit 1 (Odd)
PD44 130 O Blue channel bit 4 (Odd) Blue channel bit 2 (Odd)
PD45 131 O Blue channel bit 5 (Odd) Blue channel bit 3 (Odd)
PD46 132 O Blue channel bit 6 (Odd) Blue channel bit 4 (Odd)
PD47 118 O Blue channel bit 7 (Odd) Blue channel bit 5 (Odd)
Note: In case of 24 Bit TTL Panels the RGB Odd Channel Outputs will not be used. In that case they can be made available for other purposes as Address & Data from On-Chip Micro or Digital Video Input Data.
Table 8: Parallel/Serial ROM Interface
Pin Name No I/O Description
A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0
95 96
100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115
O 256K x8 PROM Address. These pins also have bootstrap functionality. For serial SPI ROM interface: - ROM_ADDR17 will be Serial Clock (ROM_SCLK) - ROM_ADDR16 will be Serial Data Output (ROM_SDO) For 512K X 8 PROM, Address Signal A18 is available thru Pin # 44 which is GPIO10.
D7 D6 D5 D4 D3 D2 D1 D0
132 131 130 129 128 125 124 123
IO External PROM data input.
ROM_OEN 118 O External PROM data Output Enable.
ROM_SDI/ ROM_WEN
97 O External PROM data Write Enable (for In-System-Programming of FLASH) or Serial Data Input (SDI) for SPI ROM interface.
ROM_SCSN/ ROM_CSN
94 O External PROM data Chip Select or Serial PROM Chip Select (ROM_SCSN) for SPI ROM interface.
G E N E S I S M I C R O C H I P FLI8125 Pre l im ina ry Da tashee t
Table 9: Digital Power and Ground
Pin Name No I/O Description
RVDD_3.3 32 49 98
116 154
P Ring VDD. Connect to digital 3.3V.
CVDD_1.8 18 28 39 45 84
119 126 133 143
P Core VDD. Connect to digital 1.8V.
CRVSS 19 29 33 40 46 50 85 99
117 120 127 134 144 155
G Chip ground for core and ring.
Table 10: JTAG Boundary Scan
Pin Name No I/O Description
TCK 34 I JTAG Boundary Scan TCK signal
TDO 55 O JTAG Boundary Scan TDO signal
TDI 35 I JTAG Boundary Scan TDI signal. Pad has internal 50K pull-up resistor.
TMS 36 I JTAG Boundary Scan RST signal. Pad has internal 50K pull-up resistor.
TRST 37 I JTAG Boundary Scan TMS signal. Pad has internal 50K pull-up resistor.
Advanced Power P-CHANNEL ENHANCEMENT MODE
Electronics Corp. POWER MOSFET
Simple Drive Requirement BVDSS -30V Low On-resistance RDS(ON) 50mΩ Fast Switching ID -5.3A
Description
Absolute Maximum RatingsSymbol Units
VDS VVGS VID@TA=25 A
ID@TA=70 AIDM APD@TA=25 W
W/TSTG
TJ
Symbol Value UnitRthj-amb Thermal Resistance Junction-ambient3 Max. 50 /W
Thermal DataParameter
Total Power Dissipation 2.5
-55 to 150Operating Junction Temperature Range -55 to 150
Linear Derating Factor 0.02Storage Temperature Range
Continuous Drain Current3 -4.7Pulsed Drain Current1 -20
ParameterDrain-Source VoltageGate-Source VoltageContinuous Drain Current3
AP9435M
Rating-30
-5.3± 20
The Advanced Power MOSFETs from APEC provide thedesigner with the best combination of fast switching,ruggedized device design, low on-resistance and cost-effectiveness.
The SO-8 package is universally preferred for all commercial-industrialsurface mount applications and suited for low voltage applicationssuch as DC/DC converters.
SS
SG
DD
DD
SO-8
G
D
S
Silicore
4 CHANNEL DRIVER MOTOR DRIVER D5954
DESCRIPTION Outl ine Drawing The D5954 is a 4 channel
dr iver for opt ical disc motor
dr iver. Dual channel current
feedback type dr ivers are bui l t
in , in addi t ion to dual channel
motor dr ivers
FEATURE Wide dynamic range. (4.0V ( typ.) a t PreVcc=12V,PVcc=5V,RL=8Ω)
Separat ing Vcc into Pre+Power of s led motor, Power of loading motor and Power
of actuator ,can make bet ter power eff ic iency, by low supply vol tage dr ive.
Level shif t c i rcui t bui l t in .
Thermal-shut-down circui t bui l t in
Stand-by mode bui l t in
BLOCK DIAGRAM
Silicore D5954
PIN DESCRIPTION No Symbol Funct ion NO. Symbol Funct ion
1 VINFC Input for focus driver 15 VOTK+ Non invert ing output for t racking
2 CECerr1 16 VOTK- Invert ing output for t racking
3 CECerr2 Connect ion with capaci tor for error amplif ier 17 OLD+ Non invert ing output for
loading
4 VINSL+
Non invert ing input for OP-amp 18 VOLD- Invert ing output for loading
5 VINSL- Invert ing input for OP-amp 19 PGND GND for power block
6 VOSL Output of OP-amp 20 VNFTK Feedback for t racking driver
7 VNFFC Feedback for focus driver 21 PVcc2 Vcc for power block of actuator
8 Vcc Vcc for pre-driver block and power block of s led 22 PreGND GND for pre-drive block
9 PVcc1 Vcc for power block of loading 23 VINLD Input for loading driver
10 PGND GND for power block 24 CTKerr2
11 VOSL- Invert ing output for s led 25 CTKerr1Connect ion with capaci tor for error amplif ier
12 VOSL+ Non invert ing output for s led 26 VINTK Input for t racking driver
13 VOFC- Invert ing output for focus 27 BIAS Input for reference vol tage
14 VOFC+ Non invert ing output forfocus 28 STBY Input for s tand-by control
ABSOLUTE MAXIMUM RATINGS (Ta=25°C)
Character is t ic Symbol Value Unit
Supply vol tage Vcc 13.5 V Power dissipat ion PD 1.7* W Operat ing temperature Topr -35~85 °C Storage Temperature Tstg -40~150 °C
* On less than 3%(percentage occupied by copper foi l) , 70×70mm2, t=1.6mm, glass
epoxy mounting. Reduce power by 13.6mW for each degree above 25°C
KST-9012-000
STS8050NPN Silicon Transistor
Descriptions • High current application
• Radio in class B push-pull operation
Feature • Complementary pair with STS8550
Ordering InformationType NO. Marking Package Code
STS8050 STS8050 TO-92
Outline Dimensions unit : mm
SSeemmiiccoonndduuccttoorr
4.5±0.1
4.5
± 0.1
0.4±0.02
1.27 Typ.
2.54 Typ.
1 2 3
3.45±0.1
2.25±0.1
2.06±0.1
1.2
0± 0
.1
0.3
8
PIN Connections1. Emitter2. Base3. Collector
14.0
± 0.4
0
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PBIAS
BKLON
BRIGHT
PBIAS4
PWM04
PPWR4
PPWR4
GND
+5V
GND
GND
+5V
GND
GND
+5V
+5V
+12V
GND
Panel_Power
+3.3V_COMMON
+12V_LIGHT
GND
Title
Size Document Number R ev
Date: Sheet o f
1
07. Outputs
B
3 8Monday, October 30, 2006
Genesis Microchip Inc.
Q20
Can switch backlight Can not switch backlight
NDS9435 NCQ21 2N3904 NCR187 2K2 NCR184 10K NCR188 75 NCC236 1uF NCC237 0.1uF NCC235 470uF/16V NCR185 NC 0
C1321UF
C26810nF
R188NC_75R
C134
1uF
R78
10K
R187NC_2K2
1 2
Q8
2N3904
C2691nF
Q7
2N3904
C131470uF/16V
JP3
HEADER 31 2 3
R8310K
R184
NC_10K
12
R821K
Q6
2N3904
C237NC_100nF
C236NC_1UF
R81
10K
R84 4.7K
R80
10K
Q21NC_2N3904
R236
0R_0805
12
L74
NC
Q4
NDS9435A/SO
2345 76 8
1
C267100nF
R7775R/1%
Q5
2N3904
R185
0R_0805
12
CN8
6PIN/2.0mm
+12V1
+12V2
BL_ON3
ADJ(BRT)4
GND5
GND6
R76
2K2
1 2
R79
10K
C235NC_470uF/16V
R75
10K
12
Q20
NC_NDS9435A/SO
2345 76 8
1
C1051uF
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PBIAS
BKLON
BRIGHT
PBIAS4
PWM04
PPWR4
PPWR4
GND
+5V
GND
GND
+5V
GND
GND
+5V
+5V
+12V
GND
Panel_Power
+3.3V_COMMON
+12V_LIGHT
GND
Title
Size Document Number R ev
Date: Sheet o f
1
07. Outputs
B
3 8Monday, October 30, 2006
Genesis Microchip Inc.
Q20
Can switch backlight Can not switch backlight
NDS9435 NCQ21 2N3904 NCR187 2K2 NCR184 10K NCR188 75 NCC236 1uF NCC237 0.1uF NCC235 470uF/16V NCR185 NC 0
C1321UF
C26810nF
R188NC_75R
C134
1uF
R78
10K
R187NC_2K2
1 2
Q8
2N3904
C2691nF
Q7
2N3904
C131470uF/16V
JP3
HEADER 31 2 3
R8310K
R184
NC_10K
12
R821K
Q6
2N3904
C237NC_100nF
C236NC_1UF
R81
10K
R84 4.7K
R80
10K
Q21NC_2N3904
R236
0R_0805
12
L74
NC
Q4
NDS9435A/SO
2345 76 8
1
C267100nF
R7775R/1%
Q5
2N3904
R185
0R_0805
12
CN8
6PIN/2.0mm
+12V1
+12V2
BL_ON3
ADJ(BRT)4
GND5
GND6
R76
2K2
1 2
R79
10K
C235NC_470uF/16V
R75
10K
12
Q20
NC_NDS9435A/SO
2345 76 8
1
C1051uF
Inverter Interface
Detailed CircuitPart4:
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
RED+
GREEN+
B_RETURN
C_RETURN
D_RETURN
PB
Y
BLUE+
Pr
D_Pb
D_Pr
Y_IN
A_RETURN
C_IN
SIO
MA
D
OP
2
FM
PLL
SIF
1
AG
ND
Vp
VIF
2
VIF
1
VP
LL
TS
DA
TA
GC
RE
F
VA
GC
AU
D
TS
CL
DG
ND
DE
EM
AF
D
OP
1
TC
VB
S
SIF
2
SIO
MA
D
FM
PLL
SIF
1
IF
Vp
VIF
2
VIF
1
VP
LL
M_S
CL
M_S
DA
TS
DA
VA
GC
TS
CL
DG
ND
DE
EM
AF
D
TC
VB
S
M_SDA
M_SCL
SIF
2
OP
1
RE
F
IF
OP
2
RF_AGC
TA
GC
RF_AGC
AU
D
DVD_RinDVD_Lin
D_Y
R_OUT
G_OUT
DVD_Pb
RGB_SWITCH
DVD_Y
ATSC_Y
ATSC_Pr
ATSC_Pb
ATSC_RinATSC_Lin
RED_IN
BLU_IN
GRN_IN
DTV_Lin
DTV_Rin
Y_IN_0
Pb_IN_0
Pr_IN_0
CVBS_IN1
B_OUT
DVD_Pr
I/O15
/VGACON
AG
ND
C2 4
B2 4
AIP_RAW_HS_CS 4
AIP_RAW_VS 4
A1 4
VGA_SCL 4
C1 4
B1 4
VGA_SDA 4
A_RET 4
B_RET 4
C_RET 4
SV_RET 4
SV2 4
SV1 4
A2 4
SV4 4
AV_AUDIO_RIN 4
B4 4
AV_AUDIO_LIN4
C4 4
A3 4
SV3 4
A4 4
TUNER_AUDIO4
M_SCL4,5
M_SDA4,5
QSS_IF4
C3 4
DVD_Rin 4DVD_Lin 4
B3 4
ATSC_Rin 4ATSC_Lin 4
DTV_Rin 4
DTV_Lin 4
RGB_SWITCH
I/O15 4
GND GND GND
VGA_5V
VGA_5V
GND
+5V
GND
GND
GND
GND
GND+5V
+5V
GND
GND
GND
GND
GND
GND
GND
GNDGND
GND
GND
GND
GND
+5V
+5V
+5V
+5V
GND
GND
GND
GND
GND
VDD5_9886
VDD5_9886
VDD5_9886 VDD5_IF
VDD5_IF
VDD5_IF
VDD5_TUNER
VDD5_9886
GND
GND
GND
GND
GND
GND
GNDGNDGND GND
GND
GND
GND
GND
GND
+33V
+3.3VA_ADC
+5V_1
VDD5_9886
VDD5_TUNER
GND
GND
GND
GND GND
GND GND
GND
+5V
GNDGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
Title
Size D ocument Number Rev
Date: Sheet of
1
03. Analog Inputs
D4 8Thursday , August 23, 2007
Ge nesis Microchip Inc.
Y
Pb
DNP
75-ohm terminatingresistor very close tothe VGA conn.
Pins 6/7/8 are R/G/Breturn lines resp.
Default 2-3
OptionalDefault 2-3
Schmitt Triggers
B1
A3**
4
C GRAPHIC_BLUE+
GRAPHIC_GREEN+
A
ANALOG INPUT TO MUX SWITCHING
SV
1
RET
/SCART-1-FB
Y/C-1_Y
B
HD-IN_Pr TUNER_CVBS1
HD-IN_Y
Y/C-1_C
GRAPHIC_RED+
HD-IN_Pb /SCART-1-IN_BLUE
/SCART-1-IN_GREEN
32
/SCART-1-IN_RED_C
CVBS-2-IN/SCART-2-IN_CVBS
These four holes are infour corners of PCB.
CLOSE TO 9886
high :pal pin2-gndlow :ntsc pin2-pin1us a:d47=0R q33=open
DVD_Connect
U19TAD9886
VIF
11
VIF
22
OP
13
FM
PLL
4
DE
EM
5
AF
D6
DG
ND
7
AU
D8
TO
P9
SD
A10
SC
L11
SIO
MA
D12
NC
13
TA
GC
14
RE
F15
VA
GC
16
CV
BS
17
AG
ND
18
VP
LL19
Vp
20
AF
C21
OP
222
SIF
123
SIF
224
C152 0.1uF
C166
0.1uFR12120R/1%
D14
5.1V
C2551.5nF
C143
0.1uF
R241
75R/1%
L76
10UHL-0805
R11820R/1%
C260100nF
R155150R
R224100K
R212 100R
D47NC_BA277
D22
5.6V
12
R2295.6K
R208100R
R158
4K7
R12375R/1%
R13420R/1%
R19410M
C1380.1uF
C27215pF
R21447R
R2311K
C183
0.1uF
D24NC_5.1V
12
L771K/100M
C139
0.1uF
C257220nF
U9
M24C02SOIC08
GND4
VCC8
A01
A12
A23 WP
7
SCL6
SDA5
J7MTHOLE
3
45
67
89
2
1
CON5component
98
6
3
5
2
4
1
7
11121310
R14020R/1%
J11
NC_CON4
1234
C2441uF
C254470nF
C140
0.1uFR239
20R/1%
C141
0.1uF
R10920R/1%
L33
150/100ML-0805
R2252.2K
R14310K
C2431uF
D23NC_5.1V
12
L7
22uH(DIP)
1 2
R207 3R
C147330pF
R10220R/1%
R152
75R/1%
L4.5M
T1L4.5M
11
33
22
C2480.1uF
C3727P
C27015pF
D4215V
C148680pF
R14410K
R10375R/1%
D85.6V
J13
NC_ 2.0X3
123
R11100R
R223330
R2131k
C256100nF
L4
100uH(DIP)
1 2
C265390pF
R226
100
J14MTHOLE
3
45
67
89
2
1
D11BAV99 1 2
3
D15BAV99 1 2
3
R205 3R
Q332N3904
R2103K_0805R-0805
C190
47pF
D17BAV99 1 2
3
D4417V/18V
C11NC_100nF
J12NC_CON4
1234
R153
75R/1%
C26310nF
C178
0.1uF
C3627P
R2330R
C1460.1uF
C14330pF
C26110nF
L34
150/100ML-0805
J18
CON10/2.0mm
123456789
10
J8
TUNER: UVL7605VMW
AG
C1
BT
2
AS
3
SC
L4
SD
A5
NC
16
BM
7
NC
8
BT
19
GN
D10
IF11
GN
D12
GN
D13
GN
D14
GN
D15
C25310nF
L14
150/100ML-0805
234
1
CN10
SVIDEO JACK
4321
R206 3R
R22212K
C53100uF/16v
R227
100
R13375R/1%
R125
75R/1%
D361N4148
12
C174
0.1uF
75R
/1%
U21
NC_PI5V330DIP16-SSOP
IA12
IA25
IB310
IB13
IB26
IA311
/EN15
SEL1 VCC
16
OUT14
OUT27
OUT39
OUT412
GND8
IA414
IB413
R154
75R/1%
L52.7uH
C157 0.1uF
Q302N3904
R242
75R/1%
J20
NC_CON10/2.0mm
123456789
10
R274 0R
C15680pF
R13020R/1%
L16
150/100ML-0805
C181
0.1uF
U20NC_TAD9886
VIF
11
VIF
22
OP
13
FM
PLL
4
DE
EM
5
AF
D6
DG
ND
7
AU
D8
TO
P9
SD
A10
SC
L11
SIO
MA
D12
NC
13
TA
GC
14
RE
F15
VA
GC
16
CV
BS
17
AG
ND
18
VP
LL19
Vp
20
AF
C21
OP
222
SIF
123
SIF
224
R21520R/1%
R211 100R
C2491.5K
C3527P
R23720R/1%
C25847uF/16V
C2471uFC222
470uF/16v
C2450.1UF
R156150R
D19BAV99 1 2
3
R157
4K7
R12220R/1%
C1360.1uF
L78NC_10UHL-0805
R14520R/1%
R11220R/1%
C151 0.1uF
J6MTHOLE
3
45
67
89
2
1
L18
150/100ML-0805
L2
2.7uH
D351N4148
1 2
D18BAV99 1 2
3
R13920R/1%
C250470uF/16v
C167
0.1uF
CN17SCP621U_R
1 2
34
R2301K
R275 0R
D20BAV99 1 2
3
R14
175
R/1
%
CN16SCP621U_W
1 2
34
C27115pF
C26210nF
R21675R
C259100pF
C264470nF
C184
0.1uF
R240
75R/1%
J16
F9370
1 2 3 4 5
R10520R/1%
R204 3R
CN11
DB15
162738495
11
12
13
14
1510
S1
S2
R2343.9k
C252100nF
R15120R/1%
R235NC_1K
C189
47pF
R23820R/1%
Y24MHz
X'TAL
C161000pF
R146 150R
C179
27P
R2282.2K
C173
27PR276 0R
R2093K_0805R-0805
R150 150R
C182
27P
C188
0.1uF
CN15SCP621U_Y
1 2
34
D43NC_uPC5741
2
D21
5.6V
12
C164 0.1uF
L3
22uH(DIP)
1 2
R273
NC_33R
C2511uF
J15MTHOLE
3
45
67
89
2
1
L32
150/100ML-0805
R23222k
+10uF/50V
C246
J17F3953M
1 2 3 4 5
C180
0.1uF
analog Interface
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
+12V_IN
+3.3V_LBADC
+5V
+3.3V_I/O
+3.3V_LVDS
G ND
+3.3V_I/O_HUDSON
+3.3V_RPLL
+3.3V_COMMON
+1.8V_CORE
G ND
+1.8V+5V
G ND
+3.3V_ADC+5V
+3.3VA_ADC+3.3V_ADC
+1.8V+1.8V_ADC
+1.8V_RPLL+1.8V
+3.3V_COMMON
+3.3V_COMMON
+1.8V
G ND
+12V
G ND
G ND
G ND
+5V
G ND
+33V
+12V_LIGHT
G ND
Title
Size Document Number R e v
Date: Sheet o f
1
0 8 . P o w er1
C
5 8Friday, December 15, 2006
G e n e s i s M i c r ochip Inc.
1.5A Max
NEEDHEATSINK
Power Sequencing Diode
L e a v e r o o m f o r h eat sink
L e a v e 1 s q i n c h - e x p o s e d c o pper area attached to Tab of U902
L e a v e 1 s q i n c h - e x p o s e d c o pper area attached to Tab of U903
C213100uF/16V L24
BEAD
L2233uH/3A(33uH/3A)
1 2
C212100uF/16V
L26BEAD
C214
0.1uF
L21BEAD
+C211100uF/16V
R2000.39R/2W
C216
0.1uF
C19710uF/25V
C202
0 . 1uf
D41BAV9912
3
C208470uF/16V
L30BEAD
F1
FUSE/4A
L27BEAD
U15LM1117MPX-3.3V
SOT-223GND
1
VIN3 VOUT 2
TAB
4
34
1
526 7
CN7
NC_DC JACK_4PIN
321
54
6
7
D33
1N4001(DIP)
C210
0.1uF
CN14
NC_4PIN/2.0mm
1234
C19510uF/25V
L31BEAD
U12AP1501
VIN1
GN
D3
ON
/OFF
5
OUTPUT 2
FEEDBACK 4
GN
DP
6
U13AIC1084-33CMTR
TO-263Adjust
1
VIN3 VOUT 2
TAB 4
D32
1n4148
12
L25BEAD
D39BAV9912
3
C19610uF/25V
C19810uF/25V
L23BEAD
L28BEADL29
BEAD
C199
10uF/50V
CN12B NC
1
2
3
C215100uF/16V
D31SSM5822D-5819-1
U14LM1117-1.8V
SOT-223GND
1
VIN3 VOUT 2
TAB
4
C204
470uf/16v
CN13
4PIN/2.0mm
1234
C19410uF/25V
C205
0 . 1uf
CN5
NC_4PIN/2.0mm
1234
C21747uF/16V
R1950R
C207470uF/16V
C203
470uF/16V
C2060.01uF
+C209100uF/16V
D40BAV9912
3
TV Board Power
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
OCMADDR18
OCMADDR7
OCMADDR15
OCMDATA6OCMDATA7
OCMDATA4
OCMADDR6OCMADDR5
OCMADDR13
OCMDATA5
OCMADDR14 OCMDATA3
OCMADDR12OCMADDR11
OCMDATA2
OCMADDR4OCMADDR3
OCMDATA1
OCMADDR9
OCMADDR2
OCMDATA0OCMADDR10
OCMADDR1
ROM_OENOCMADDR8
OCMADDR0
ROM_WEN
OCMADDR17OCMADDR16
ROM_CSN
OCMDATA[0..7]
OCMADDR[0..18]OCMADDR[0..18]
ROM_SCLKROM_SCLK
S CSN
ROM_SDO ROM_SDO
WP#WP# HOLD#HOLD#
HOLD#
ROM_WENROM_OENROM_CSN
ROM_SDIWP#
OCMADDR[0..18]4
OCMDATA[0..7]4
ROM_OEN4ROM_WEN4
SCSN4ROM_SDI4
ROM_SDO4ROM_SCLK4
ROM_CSN4
GND
+3.3V_I/O
+3.3V_I/O
GND
+3.3V_I/O
+3.3V_I/O
GND
GND
Title
Size Document Number R ev
Date: Sheet o f
1
06. Memory I/F
B
6 8Tuesday, October 17, 2006
Genesis Microchip Inc.
*
Socket for a X8 Flash (64/128/256/512K) andPROMJETmemory Emulator
OPTIONALOPTIONAL
SERIAL FLASH 512K
SOIC-8
C193
0.1uF
U10
29LV040BSKT\PLCC32
A153A1429A1328A124A1125A1023A926A827A75A66A57A48A39A210A111A012
DQ7 21DQ6 20DQ5 19DQ4 18DQ3 17DQ2 15DQ1 14DQ0 13
CE# 22OE# 24WE# 31
VCC 32
A181
VSS 16
A1730A162
U11
NC_SST25VF040
CE#1SO2WP#3VSS4 SI 5SCK 6HOLD# 7VCC 8
R159
10K
C191
0.1uF
C192
0.1uF
R160
10K
TV Board Flash
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
P H ONE_RIN
M_SCL
P HONE_LIN
M_SDA
SC_AR_OUT
D ACMR
SWL
S WR
P H ONE_RINP HONE_LIN SC_AL_OUT
SC_AR_OUT
M_SCL
BTSC_AUDIO_LM_SDA
SC_AL_OUT
A V_AUDIO_LIN
DACML
B TSC_AUDIO_R
MUTE_C
RO UT
SPEAKER_LOUT L OUT
SPEAKER_ROUT
SPEAKER_LOUT
SPEAKER_ROUT
L IN
MUTE
MUTE_C
DACML
R IND ACMR
A_POWER
S WRSWL
ATSC_Lin ATSC_Rin
B TSC_AUDIO_R TUN ER_AUDIO_LR
BTSC_AUDIO_LTUN ER_AUDIO_LR
A V _AUDIO_RIN
SWLS WR
DTV_Rin
DTV_Lin
A V_AUDIO_LIN4 A V _AUDIO_RIN4
M_SCL
M_SDA
STANDBY3
QSS_IF
MUTE3
TU
NE
R_A
UD
IO
DVD_Rin
DVD_Lin
SW_AUB 3
SW_AUA 3
ATS
C_Lin
ATSC_Rin
DTV_Lin
DTV_Rin
G ND
G ND9V G ND9V
G ND9V
G ND9VGND9V
A9VG ND9V
G ND G ND
G ND
A GND3
A GND3
A GND3
A GND3
A GND3
A9V
A GND3
A GND3
+5V +5V_1
G ND
G ND
G ND
A9V
A GND G ND9V
G ND
G ND
G ND
G ND
G ND
G ND
G ND
G ND
A GND4
+12V
A GND4 A GND4A GND4
A GND3G ND A GND4
G ND
+12V
G ND9V G ND9V
AGND3
G ND
G ND9V
A GND3
+12V
A9V
G ND
G ND
G ND
G ND
AV_AUDIO_LIN
A V_AUDIO_RIN
Title
Size Document Number R e v
Date: Sheet o f
<Doc> < RevCode>
<Title>
C
7 8Saturday, January 06, 2007
p t 2 3 1 3 s u b a ddress:88/89
L A 7 2 7 0 0 s u b address:80/81
low:STANDBYhigh:normal
< = 100mA
high:normallow:mute
For SPHE7300
2R7 1.2K
C691uF
R167
NC_220
R282.4KR-0603
R193100K
C430 . 1uFC-0603
R29
2.4KR-0603
2C4 1uF_0805
C21uF
2R44.7K
C44 1uF
C650 . 1uFC-0603
J9NC_CON3/2.0mm
123
R259100K
R246100K
2C25 4.7uF/16V
C23947uF/16VCAP100
R17410K
C2270.1uF
2C61200pF
2C12 0.1uF
C55 1uF
2R8 10K
2C7 0.1uF
C2231uF
C632.7nFC-0603
C13 NC_1uF
R191100K
C31uF
2C5150pF
C45100uF/16V
R27 2.4KR-0603
2R9 100R
R40.39R/2W
R260100K
R253100K
U3
PT2313L/SM9613DIP28-SOP1
REF1
VDD2AGND3TREB_L4TREB_R5
RIN6ROUT7LOUD_R8
RIN39RIN210RIN111
LOUD_L12LIN313LIN214
CLK 28
DATA 27DGND 26
LFOUT 25RFOUT 24
LROUT 23RROUT 22
BOUT_R 21
BIN_R 20BOUT_L 19
BIN_L 18
LOUT 17LIN 16
LIN1 15
R176100R
+ C3422uF/16VCAP10
2C10 1uF_0805
2R32.2K
R17910K
2C3 0.1uF
2C18 1uFU8
TPA1517
-INV11
SGND2
SVRR3
OUT14
PGND5
OUT26
VP7
M/SS8
-INV29
GND10 GND 11GND 12GND 13GND 14GND 15GND 16GND 17GND 18GND 19GND 20
2C15 10uF/16V
R19010K
U 2la72700
PC_DC_IN1
PC_DCOUT2
PCSTHILT3
PCPLDET4
PISIF5
GND6
CSAPDET7
NC8
PC FIL9
MUTE10
SDA11
SCL12
PC DBXIN13
PSTSENS14
PSAPSENS15
PCTNWID16
PCDETWID17
PCTIMSPS18 PCDETSPE 19PCSPECIN 20PCDOSPE 21
PCDBXOUT 22PCDBX_IN 23PCALCFIL 24
PORCH 25POLCH 26PCREG 27
PMAIN_IN 28PMAINOUT 29PCREG76 30
VCC 31POLED 32
PICLKFSC 33PCDJFIL 34
PCPLC 35PCPLC2 36
2C8 47uF/16V
C46470uF/16V
R2031K
R254100K
2R11 N C
C 41uF
C52 1uF
R247100K
2C22 1uF_0805
R25110K
2Q2
2N3904
R305.6KR-0603
2C13 0.1uF
2C19 1uF
Q252N3904
C 71uF
R26 2.4KR-0603
2C247uF/16V
C681uF
2C26 4.7uF/16V
C4847uF/16V
R180100R
R24 2.4KR-0603
C47470uF/16V
C2741uF
C660 . 1uFC-0603
R17747K
R255100K
2Q1
2N3904
C 9 1uF
R248100K
U2578D09
in1 out 3
GN
D2
GN
D4
R25210K
2C14 2.2uF_0805
C51uF
R25 2.4KR-0603
C580 . 1uFC-0603
2R110K
2C16 2.2uF_0805
Q242N3904
2C24 22uF/16V
C490.1uF
2C21 10uF/16V
R249100K
2R6 4.7K
C570 . 1uFC-0603
2R25.1K
Q182N3904
R256100K
C600 . 1uFC-0603
2R10 100R
R171
NC_0R
C10 1uF
C61uF
2R12 N C
C2731uF
R1756.8K
C590 . 1uFC-0603
C642.7nFC-0603
2C27 4.7uF/16V
2C127pF
C24247uF/16V
12
R172NC_10K
2R510K
J 3CON3/2.0mm
123
Q262N3904
2C23 2700pF
R315.6KR-0603
2C11 0.01uF
R250100K
R3
100K
Y 13.58MHz
2C28 4.7uF/16V
R17847K
C56 1uF
R243100K
J4
12
J1P HON
12345
2C20 0.1uF
Q342N39063
2
1
R23 47R-0603
R8
100K
R1731K
C38 1uF
C2291uF
R22 47R-0603
R257100K
D3NC_1N41481
2
R268 100K
2C29 22uF/16V
R244100K
C24047UF/16V
C81uF
2C17 2.2uF_0805
Q232N3904
J2NC_CON3/2.0mm
123
Q22AP2301SOT-23
2
31
Q192N3904
U17
CD4052
0Y12Y2
YOUT33Y41Y5INH6
VEE7VSS8 B 9A 103X 110X 12XOUT 131X 142X 15VDD 16C1
1uF
D 4NC_1N41481
2
C62 1uF
R258100K
R267 100K
R245100K
2C9 1uF_0805
C12 NC_1uF
AUDIO
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
DEBLU0DEBLU0DEBLU0DEBLU0DEBLU0DEBLU0
DEBLU3DEBLU3DEBLU3DEBLU3DEBLU3DEBLU3
DEGRN3
DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1DEGRN1
DERED2
DEBLU1DEBLU1DEBLU1DEBLU1DEBLU1DEBLU1DEBLU1DEBLU1DEBLU1DEBLU2DEBLU2DEBLU2DEBLU2DEBLU2DEBLU2DEBLU2DEBLU2DEBLU2
ROM_OENROM_OENROM_CSNROM_CSN
DEBLU5DEBLU4
DEBLU6DEBLU7
OCMADDR10
DEGRN7DEGRN6DEGRN5DEGRN4
DEGRN2
DERED1
DERED4
DERED0
DERED7
DERED3
DERED6DERED5
ROM_WENROM_WEN
DHS
DCLK
DEGRN0DEGRN0DEGRN0DEGRN0DEGRN0
DEN
DVS
DEGRN1
DEGRN6
DEGRN3
DERED5
DHS
DEBLU2
DEBLU6
DEGRN7
DERED2
DEGRN4
DEN
DERED1
DEBLU1
DERED4
DEBLU4
DERED6
DEBLU0
DEGRN2
DVS
DEBLU5
DEGRN5
DERED7
DEGRN0
DERED0
DEBLU7
DEBLU3
DCLK
DERED3
ROM_SDISCSN ROM_SDI
SCSN
ROM_SCLK
ROM_SDO
ROM_SDO
OCMADDR17
OCMADDR16
ROM_SCLK
OCMADDR12
OCMADDR17OCMADDR17
OCMADDR9
DERED2
DERED5
DEGRN5
DHS
DEGRN6
DEBLU1
DEGRN3
DEGRN4
DEBLU7
DERED6
DEGRN2
DEBLU2
DEBLU0
DERED1
DEBLU6
DERED0
DERED4
DEBLU3
DEBLU5
DERED3
DCLK
DVS
DEN
DERED7
DEGRN1
DEGRN0
DEBLU4
DEGRN7
TXB3-
TXB1+
PANEL_POWER
TXB3+
TXA3-
TXA1-
PANEL_POWER
TXBC+
TXA2+
TXA3+
TXA2-
TXA0-
TXB1-
TXA0+
TXB0-
TXB2+
PANEL_POWER
TXBC-
TXAC+
TXB2-
TXAC-
TXB0+
TXA1+
OCMADDR13
M_SCL
ADC_IN1
OCMDATA1
ROM_CSN
TXA3+
OCMADDR4
ROM_WEN
TXB3-
TCLK
M_SDA
OCMDATA5
OCMADDR0
PD20/B4
SW_AUA
RET
OCMDATA3
OCMADDR17
DVS/VOP_VS
PD22/B6
TXA1-
VGA_SCL
OCMDATA7
OCMADDR2
TXBC-TXB2+
TXAC+
PBIAS
GPIO6/IR
OCMADDR7
OCMADDR14
OCMADDR16
PD23/B7
TXA0-
OCMADDR5
DHS/VOP_HS
TXB1-
TXAC-
TXD/JTMODE
TXB0-TXB0+
TXA3-
PPWR
OCMADDR18OCMADDR6
TXB1+
TXA2+
ADC_IN5ADC_IN5
TXBC+
OCMDATA4
OCMADDR9
TXA0+
VGA_SDA
IR0
OCMDATA6
OCMADDR3
OCMADDR8
TXB3+
OCMADDR12
OCMADDR1
TXB2-
RXD/JTCLK
OCMADDR11
SW_AUB
OCMDATA2
OCMDATA0
OCMADDR10
PD21/B5
OCMADDR15
XTAL
ROM_OEN
DCLK/VOPCLK
DEN/VOP_FLD
TXA1+TXA2-
ADC_IN3ADC_IN3ADC_IN2
ADC_IN1
M_SDAM_SCL
IR0
ADC_IN4
OCMADDR8
OCMADDR13OCMADDR14
OCMADDR11
OCMADDR1OCMADDR0
OCMADDR12
OCMADDR18OCMADDR18
OCMADDR15
OCMADDR8
OCMADDR6
OCMADDR9OCMADDR9
OCMADDR17OCMADDR16
OCMADDR10OCMADDR11
OCMADDR5
OCMADDR7
OCMADDR4OCMADDR3OCMADDR2
OCMADDR15
OCMADDR13
OCMADDR14
OCMADDR16
OCMADDR9
STANDBY
/RESET
OCMDATA0
OCMDATA2OCMDATA1
OCMDATA4OCMDATA5OCMDATA5OCMDATA6OCMDATA6
OCMDATA3
OCMDATA7OCMDATA7
VOUT
I/O15
CVBS-OVT
VOUT
SDASCL M_SCL
M_SDA
STD
STANDBY
IR1 IR0
IR2
M_SCLM_SDA
RGB_SWITCH
ROM_OEN 6
OCMADDR[0..18] 6
ROM_CSN 6
ROM_WEN 6
SV33
SV_RET3
SV23SV13
SV43
C_RET3
AIP_RAW_HS_CS
SCSN 6ROM_SDO 6ROM_SDI 6ROM_SCLK 6
STANDBY7
C23
B33
A33
PPWR 7
B23
A23
VGA_SDA3
PBIAS 7
C13
A13
A_RET3
VGA_SCL3
B13
A43
MUTE7
AIP_RAW_VS
C43
B_RET3B43
C33
PWM07
M_SCL3M_SDA3
OCMDATA[0..7] 6
SW_AUA7SW_AUB7
RGB_SWITCH3
I/O153
GND
+1.8V_CORE
+1.8V_CORE
+1.8V_ADC+3.3V_ADC
+5V
+3.3V_I/O_HUDSON
+3.3V_RPLL
+3.3V_LVDS
GND
GND
+1.8V_ADC
GND
+1.8V_RPLL
GND
GND
+3.3V_RPLL
GND
+3.3V_ADC
GNDGND
+3.3VA_ADC
GND
+3.3V_I/O_HUDSON
GND
+3.3V_LVDS
+5V
+3.3V_LBADC
GND
+3.3VA_ADC
GND
+3.3V_LBADC
GND
+3.3V_I/O
+3.3V_I/O
+5V
GND GND
Panel_PowerPanel_Power
GND
GND
PANEL_POWER
GND
GND
GND
GND
GND
GND
GND
GND
+1.8V_RPLL
+3.3V_RPLL
GND
+3.3V_RPLL
GND GNDGND
GND
+3.3V_LBADC
GND+5V GND
GND
GND
GND
+3.3V_I/O+3.3V_I/O
GND
+5V
+5V GND
+3.3V_COMMON+5V
GND
+3.3V_COMMON
GND
GND
GND
+5V
GND GND
+3.3V_COMMON
GND
+5V
GND
GND
+5V
GND
+5V
Title
Size D ocument Number Rev
Date: Sheet of
1
04. FLI8125 (HUDSON)
D
8 8Friday , December 15, 2006
Ge nesis Microchip Inc.
HUDSON
RN401, RN404, RN406 to be very close to CN402 sndplace d enroute on the trace to avoid stub on theLV DS lines and also to have a very small stub on thedigital lines
GPIO'S USEDGPIO0GPIO1GPIO2GPIO3GPIO4GPIO5GPIO6GPIO7GPIO8GPIO9GPIO10GPIO11GPIO12GPIO13GPIO14GPIO15GPIO16GPIO17GPIO18GPIO19GPIO20GPIO21GPIO22GPIO23
JTAG_TCKJTAG_TDIJTAG_TMSJTAG_RSTDIGITAL VIDEO INPUT HSDIGITAL VIDEO INPUT VSIR DECODINGSTDBY / IRQINMUTE / IRQOUTSIPSCLSIPSDAPWM0-PANEL BACKLIGHTPWM1- LED1PWM2- LED2PWM3- SCART-1-IN-FB/EIAJ SENSECHIP SELECT FOR FLASH/SRAMFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUTFOR ROM ADDRESS/16-bit INPUT
LBADC'SLBADC_IN1 KEYBOARD1
KEYBOARD2SCART-1-IN_PIN8/EIAJ1
FOR LDR( OPTION)
LBADC_IN2LBADC_IN3LBADC_IN4LBADC_IN5LBADC_IN6
SCART-2-IN_PIN8/EIAJ2EIAJ3
LV DS Panel connectorInterfaces directly to SamsungWXGA and SXGA LVDS Panels
#OPTIONAL
#OPTIONALR453 TO BEUSED FORBOUNDARYSCAN
#OPTIONALR456 TO BEUSED FORSERIALFLASH
BIT0BIT1BIT2ROM512KOP_MODE0OP_MODE1OCM_ROM
TTL PANEL OUTPUT
I2C address:A0H andA1H
1:SERIAL
0:PARALLEL
0.5781.031.52.02.482.752.953.15
C N 2
GPROBEHEADER 4
1234
C109
0.1uF
R P 8 10KX4
1 82 73 64 5
C1220.1uF
R54 100R
R20NC_10k
12
C110
0.1uF
R16910k
R 3 4
10K
C108
0.1uF
C101
0.1uF
R166 NC
R210K
R19
NC_10K
1 2
C103
100uF/16V
C123
0.1uF
C91
47uF/16V
R65
1K
1 2
R581K
R9NC_1k
12
D1BAV99 1 2
3
C77
NC_1uF
C87
47uF/16V
C80
0.1uF
R162 10K
R5NC_12k
12
R161 10K
C21847uF/16V
C98
0.1uF
J10
NC_CON9/2.0mm
123456789
R13 10K
C86
0.1uF
R 3 7
2K
C1180.1uF
R61
100R
12
R P 1 33RX4
1 82 73 64 5
R P 5 33RX41 82 73 64 5
J5
NC_20x2PIN/2.0mm
13579111315171921232527293133353739
2468
10121416182022242628303234363840
C1190.1uF
R269 NC_47R1 2
R P 2 33RX4
1 82 73 64 5
C79
0.1uF
R P 6 33RX41 82 73 64 5
R55 0R
C84
0.1uF
R4022R
C1200.1uF
R17010k
C116
0.1uF
R1747R
R631K
12
R 3 6
3K3
C90
0.1uF
C114
0.1uF
C124
30pF
R56 0R
C88
0.1uF
R272NC_10K
R6847R
1 2
C99
0.1uF
C94
0.1uF
C12847uF/16V
R62100R
12
C102
0.1uF
C97
47uF/16V
R14 NC_47R1 2
C81
0.1uF
R60 10K
C76470uF/16V
R 3 2
47K
Q162N3906
3
2
1
R72NC_4K7
X119.6608MHz
R 3 5
6K2
R1847R
C113
100uF/16V
C78
0.1uF
C100
0.1uF
R12 10K
U7
24LC32-SNSOIC08
A01
A12
A23
VSS4
SI5 SCK6 WP7 VCC8
C111
0.1uF
Q10NC_2N3904
R1681k
Q2
2 N 3 9 0 6
3
2
1
R734K7
R 3 3
22K
C N 1
CON9/2.0mm
123456789
C10447uF/16V
12
CN4
CON5/2.0mm
12345
C83
0.1uF
CN3
15x2PIN/2.0mm
2525 2323 2121 1919 1717 1515 1313 1111 99 77 55 33 11
26262424222220201818161614141212101088664422
2727
2828
2929
3030
C82
0.1uF
C117
0.1uF
R P 3 33RX41 82 73 64 5
C1210.1uF
C129
0.1uF
R70
2.7K
R P 4 33RX41 82 73 64 5
R53 0R
R7NC_22R
12
R15
NC_75R
1 2
R66
10k
R5210K
R16 NC_47R1 2
R712.7K
R271 NC_47R
1 2
R452.7K
D2
BAV99
1 23
C133
0. 1uF
Q172N3904
R270 NC_47R1 2
R4110K
C107
100uF/16V
R P 7 33RX4
1 82 73 64 5
R4210K
C85
0.1uF
C96
0.1uF
C125
30pF
Q3
2 N 3 9 0 4
C95
47uF/16V
R462.7K
R 3 8
1.2K
C115
0.1uF
JP1IL-FHR-50S-HF(JAE)
NC1
NC2
NC3
GND4
GND5
VCC6
VCC7
VCC8
VCC9
GND10
HSYNC11
VSYNC12
GND13
DE14
GND15
DCLK16
GND17
R718
R619
R520
R421
GND22
R323
R224
R125
R026
GND27
G728
G629
G530
G431
GND32
G333
G234
G135
G036
GND37
B738
B639
B540
B441
GND42
B343
B244
B145
NC50
NC49
GND48
B046
GND47
GN
D51
GN
D52
JP2
HEADER 2
12
R6NC_22k
12
C89
0.1uF
R694K7
C112
0.1uF
C93
47uF/16V
J19
NC_CON4/2.0mm
1234
C92
0.1uF
R21 NC_47R1 2
R59 10K
C130
0.1uF
R110K
R51 0R
R 3 9
470R
Q9NC_2N3904
U6FLI8125
VS
SA
33_L
BA
DC
9
RESETn10
GN
D_R
PLL
11
VBUFC_RPLL13
AG
ND
_RP
LL14
XTAL15
TCLK16
STI_TM220
GPIO15/STI_TM1/EXT_CS21
SYNC222
VSYNC223
HOST_SCL/UART_DI/JTAG_CLK24 HOST_SDA/UART_DO/JTAG_MODE25
DDC_SCL26
DDC_SDA27
BSCAN_TDO55
AV
DD
_LV
_33
56
VCO_LV57
AV
SS
_LV
58
CH3P_LV_E/R060CH3N_LV_E/R161CLKP_LV_E/R262CLKN_LV_E/R363CH2P_LV_E/R464CH2N_LV_E/R565CH1P_LV_E/R666CH1N_LV_E/R767CH0P_LV_E/G068CH0N_LV_E/G169
AV
SS
_OU
T_L
V70
CH3P_LV_O_G272CH3N_LV_O_G373CLKP_LV_O_G474CLKN_LV_O_G575CH2P_LV_O_G676CH2N_LV_O_G777CH1P_LV_O_B078CH1N_LV_O_B179CH0P_LV_O_B280CH0N_LV_O/B381
AV
SS
_OU
T_L
V82
PD20/B486PD21/B587PD22/B688PD23/B789
DEN/VOP_FLD90
DHS/VOP_HS91
DVS/VOP_VS92
DCLK/VOP_CLK93
ROM_SCSN/ROMCSN94
ROM_SCLK/A17/OSC_SEL95ROM_SDO/A16/OCM_ROM96
ROM_SDI/ROM_WEN97
EXT_ADC_CLMP/A15/SPI_EN100
VBI_D2/A5/GPIO21/PD29110
VBI_D3/A6/GPIO22/PD30109
VBI_D4/A7/GPIO23/PD31108
VBI_D5/A8/PD32/BT0107
VBI_D6/A9/PD33/BT1106
VBI_D7/A10/PD34/BT2105
VBI_D1/A4/GPIO20/PD28111VBI_D0/A3/GPIO19/PD27112VBI_VALID/A2/GPIO18/PD26113VBI_CLK/A1/GPIO17/PD25114VID_DE/FLD/A0/GPIO16/PD24115
VID_CLK2/ROM_OEN/PD47/VID2_CLK118
GPIO5/VID_VS/VID2_VS/VID1_VS121GPIO4/VID_HS/VID2_HS/VID1_HS122
VID_DIN16/D0/PD39/VID2_0123
VID_DIN17/D1/PD40/VID2_1124
VID_DIN18/D2/PD41/VID2_2125
VID_DIN19/D3/PD42/VID2_3128
VID_DIN20/D4/PD43/VID2_4129
VID_DIN21/D5/PD44/VID2_5130
VID_DIN22/D6/PD45/VID2_6131
VID_DIN23/D7/PD46/VID2_7132
VID_D0/VID1_D0135
VID_D1/VID1_D1136
VID_D2/VID1_D2137
VID_D3/VID1_D3138
VID_D4/VID1_D4139
VID_D5/VID1_D5140
VID_D6/VID1_D6141
VID_D7/VID1_D7142
VID_D8/JTRST/VID1_D8/GP16145
VID_D9/JTAG_TDO/VID1_D9/GP17146
VID_D10/JTAG_TDI/VID1_10/GP18147
VID_D11/VID1_11/GP19148
VID_D12/VID1_12/GP20149
VID_D13/VID1_13/GP21150
VID_D14/VID1_14/GP22151
VID_D15/VID1_15/GP23152
VID_CLK_1/VID1_CLK153
HSYNC1156
VSYNC1157
GN
D18
_AB
159
GN
D18
_C16
0
ADC_TEST162
AG
ND
164
AG
ND
165
SV1P166
GN
DS
167
A1P168
GN
DS
169
B1P170
GN
DS
171
C1P172
AN174
AG
ND
175
SV2P176
GN
DS
177
A2P178
GN
DS
179
B2P180
GN
DS
181
C2P182
BN184
AG
ND
185
SV3P186
GN
DS
187
A3P188
GN
DS
189
B3P190
GN
DS
191
C3P192
CN194
AG
ND
195
SV4P196
GN
DS
197
GN
DS
199
B4P200
GN
DS
201
C4P202
SVN204
VO_GND205 VOUT206
GN
D18
_SC
208
A4P198
LBADC_IN12
LBADC_IN23
LBADC_IN34
LBADC_IN45
LBADC_IN56
LBADC_IN67
LBADC_RTN8
RV
SS
155
RV
SS
144
RV
SS
134
RV
SS
127
RV
SS
120
RV
SS
117
RV
SS
99R
VS
S85
RV
SS
50R
VS
S40
RV
SS
46R
VS
S33
RV
SS
29R
VS
S19
VD
D_R
PLL
_18
12
CV
DD
_18
143
CV
DD
_18
133
CV
DD
_18
126
CV
DD
_18
119
CV
DD
_18
84
CV
DD
_18
45
CV
DD
_18
39
CV
DD
_18
28
CV
DD
_18
18
RV
DD
_33
32R
VD
D_3
349
RV
DD
_33
98R
VD
D_3
311
6R
VD
D_3
315
4
VD
DA
33_L
BA
DC
1
AV
DD
_AD
C16
3
AV
DD
_SC
203
AV
DD
_C19
3
AV
DD
_B18
3
AV
DD
_A17
3
VD
D18
_SC
207
VD
D18
_C16
1
VD
D18
_AB
158
AV
DD
_RP
LL_3
317
I2CM_SCL30 I2CM_SDA31
GPIO0/LED1/TCK34
GPIO1/LED2/TDI35
GPIO2/PWR_CTRL/TMS36
GPIO3/SCART16_137
GPIO6/IRin38
GPIO7/IRQin41
GPIO8/IRQout42
GPIO9/SIPC_SCL43
GPIO10/SIPC_SDA/A1844
GPIO11/PWM047
GPIO12/PWM148
GPIO13/PWM2/VBI_VALID51
GPIO14/PWM3/SCART16_252
PBIAS53PPWR54
AV
DD
_OU
T_L
V_3
359
AV
DD
_OU
T_L
V_3
371
AV
DD
_OU
T_L
V_3
383
XOSD_FLD/A11/PD35/ROM512K104
XOSD_CLK/A14/PD38/OP_MD1101XOSD_HS/A13/PD37/OP_MD0102XOSD_VS/A12/PD36/JT_BSCAN103
HUDSON
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
POWER_ON/OFF
POWER_ON/OFF
I R
RF G ND
RF G ND
P+5V
RF G ND
V+11
G ND
M GND
V+5V
DV CC3
V VCC3
G ND
PLL3.3V
V G ND
DA _GND
G ND
A G ND
G ND
RF G ND
USB_PLL3.3
M GND
V IN
G ND
MGND
ROM_VCC3
V GND
M+5V
G ND
G ND
G ND
A G ND
G ND
G ND
G ND
A+5V
RF3.3V
S D_VCC3
G ND
G ND
RF G ND
V GND
DV CC
DA _GND
G ND
G ND
G ND
VPLLVCC1.8
APLLVCC3
G ND
G ND
VCC1.8
G ND
VCC3A
G ND
V IN
G ND
G ND
USB+5V
DV CC
DV CC
G ND
MR_OUT 4
ML_OUT 4
G /Y_O 4
B/U_O 4
R/V_O 4
CVB1_O 4
IR_ IN 4
Title
Size Document Number R e v
Date: Sheet o f
8202D-16-HI-216-0-J 1.02
Power & Connnector
C
1 4Saturday, September 23, 2006
SUNPLUS TECHNOLOGY
Video buffer +5V
34ma~58ma(64Mx1)Flash +3.3V
260mA
TO Connect Board
System +5V
Servo MOTOR +5V
RF +3.3V
Power Bead > 2A, RAC@100 MHz= 70 ohm, RDC(max)= 0.4 ohm
Servo analog +5V
PLL+3.3V(PLL bypass)
Internal DA +3.3V
3 mA
close to 8202
VideoPLL+1.8V
Audio PLL +3.3V
Video DAC +3.3V
SDRAM +3.3V
8202kernel+1.8V
BC4
0.1UF
+
EC3220u/16V
BC16
0 .1UF
R11220
C 1100n
CN1
CONNECTOR DB25
13251224112310229218207196185174163152141
R10470
R7
470
L10
12
TP2
R8750
+ EC10
100UF16V
TP3
L2
FB
D 21N5822
R 4 NC
+ EC4220u/16V
+ E C1
100UF16V
D3
1N4004
R1 2.2
TP1
C72
33PF
BC1
0.1UF
R 310K
BC2
0.1UF
BC19
0 .1UF
BC18
0 .1UF
EC5
220UF16V
+E C9
220UF16V
TP5
L9
FB
U 3 AMS 1085 TO-252
ADJ
1
IN3 OUT 2
L5
FB
L7FB
R1124.7K
FB1 33uH
B C17
0 .1UF
BC15
0.1UF
R2 2.2
R111N C
BC8
330PF
+ E C2
100UF16V
L3 FB
R113 100
EC6
220UF16V
L8
FBBC14
100PF
D11N5822
L6FB
+ E C7
100UF16V
R1101K
R6 33
U 1 1500
Vin1
GN
D3
ON
/OFF
5
OUT 2
FEE 4
BC10
33PF
+ E C11
220UF16V
BC12
0 .1UF
Q183904
BC11
0 .1UF
BC6
0 .1UF
+ EC8
220UF16V
TP4
U2 AMS1085 TO-252
ADJ
1
IN3 OUT 2
L1
FB
BC9
0 .1UF
B C5
0 .1UF
R50
R9 10
BC13
0 .1UF
L4 FB
BC7
0 .1UF
DVD POWER
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
TR AYOUT
M_BA1
M A9
M A7M A6M A5
MD9
M_CKE
M A8
MD8
RA
16R
A18
AU
DIO
_MU
TE
R F I
MS
_D3
MS
_D1
CA
RD
_RS
T
MS
_D0
MS
_D2
RA12
M A4
R A7
M A0
DQM0DQM1
MA10
R A6R A5R A4
MA11
R A3
MS
_CLK
R A2
RA
15
MS
_BS
R A1
M A1
R A0
M A2M A3
RD0
I2C
_DA
TA
RD1
RE
SE
T_B
R_
CS
1
RD2
CA
RD
_SE
NS
E2
RD3
KE
Y_S
3
KE
Y_S
1K
EY
_S2
IR_
IN
RD4
TR A YINTR AYOUT
RD5
CL
KO
UT
CLKIN
CLKOUT
RD6
CL
KIN
RD7
RESET_B
R OE
I2C
_C
LK
RA
19
MD
3
V_
CO
MP
MD
4
MD
0
MD
7M
D6
MD
2
MD
5
V_B
IAS
TV
_DA
C0
V_
FS
AD
J
RA10
V_
RE
F
MD
1
TV
_DA
C4
TV
_DA
C3
TV
_DA
C5
RA11
M_B
A0
M_
CS
0
R A9
MD
14
MD
11
M_
RA
S
MW
E
MD
15
MD
13
MD
12
M_
CA
S
MD
10
AUDIO_MUTE
D A_RDA_L
CA
RD
_SE
NS
E1
I R_IN
R A8
RA13RA14RA17
V ref0
TR A YIN
R W E
F D
L GIN
PD
D VDLDO
C DLDO
XOPVIN1XOPOP1
XOPVIP1
TEO
R FCT
S BADF EO
D V DMDIC DLDOD VDLDO
C D MDI
FE
P U HRFR F IP
D PDC
D PDA
RF
RP
DA
_R
DA
_L
R FO
B
V REF1
H FM
EF
C
PUH_DVDLD
V REF1
C D MDI
PUH_DVDLD
A
BAD
P U HRF
C
D V DMDI
D
PUH_CDLD
L DSW
PUH_CDLD
DA
C_
RE
F
L DSWH FM
F LASH_POWER
R A1
RA19
R W E
R A9
RD4
R OE
RD5
RD7RD6
RD3
RESET_B
R A0
RD0
R A3
RA14
RA11
RA13
RA17
R A7
R A5
R A8
RD1RD2
RA18
R A6
RA12
R_CS1
RA10
RA16RA15
R A2
R A4
M A8
MD1
D5MD6
D14
MD5
M A2
MW ED13
D2
MD13
M_BA0
DQM1
D7
M A0
MD7
MD12MA11
M A5
D12
MD2M A1
D4
D8MD9
M A6M A7
MD11
M_CS0
D1
M A9
D6
M_BA1
D10
DQM0
MD8
MD10
M A4M A3
MD14
MD3
MD0
MD4
M_CKE
D9
D11
D15M _CAS
D3
MA10
M _RASMD15
D0
SDRAM_CLK RAM_CLK
I2C_DATAI2C_CLK
V _COMP
TV_DAC4
TV_DAC0
XOPOP1
V _BAIS
V_ FSADJ
TV_DAC3
TV_DAC5
XOPVIP1
V _REF
XOPVIN1
DISC_SENCE
KEY_S1KEY_S2KEY_S3
USB_DM_OUSB_DP_O
US
B_D
M
USB_DM
US
B_D
P
USB_DP
V_
H_
SY
NC
V_
V_
SY
NC
LED1LED2
KE
Y_S
4
LED2LED1KEY_S4
R FGND
MGND
D VCC3
GN D
D VCC3
VCC1.8
R FGND
GN
D
DV
CC
3
GN
D
VC
C1
.8
R FGND
PLL
3.3V
RF
3.3
V
R F3.3V
R FGND
GN D
D VCC3
GND
RF
GN
D
GND
VCC1.8 PLL3.3V
R F GND
VVCC3
VGND
A+5V
R FGND
DA
_G
ND
VC
C3A
VCC1.8
PLL
3.3V
D A_GND
D VCC3
D VCC3
GN D
GN
D D VCC3
GND
AP
LLV
CC
3
VP
LL
VC
C1.
8G
ND
GN
D
R F3.3VR FGND
DV
CC
3
VG
ND
VV
CC
3
VG
ND
VV
CC
3
VV
CC
3
VG
ND
VC
C1.
8
GN
D
R F GND
US
B_P
LL3.
3
R FGND
GN D
DV
CC
3
R FGND
R F3.3V
R FGND
R F3.3V
R FGNDR F GND
R FGND
R FGND
R F GND
R F3.3V
R FGND
R FGND
R F GND
R FGND
GND
R F GND
R F GND
R FGND
R F GND
R F GND
R F GND
R F GND
A+5V
D VCC3
A+5V
R F GND
DV
CC
RO
M_
VC
C3
GND
GND
GN D
GND
GND
GN D
D VCC
GND
GN D
SD_VCC3
GN D
D VCC3
GN D
GNDGND
GND
GND
GND
D VCC3
GNDGND
GNDGND
GND
USB+5V
TR AYIN3TR AYOUT3
H OME3
S CO3
SPDCO3
T R AY-3T R AY+3D MEA3
AUDIO_MUTE 4
D A_R 4DA_L 4
IR_IN 1
TCO3
F C O3
VREF23
FOC- 3FOC+ 3
R AD+ 3R AD- 3
DISC_SENCE3
TV_DAC4 4
V_BIAS 4
XOPOP1 3XOPVIN1 3
V_ FSADJ 4V_REF 4
TV_DAC3 4
TV_DAC5 4
TV_DAC0 4
XOPVIP1 3
V_COMP 4
DISC_SENCE 3
MS_D2
MS_D0
MS_CLK
CARD_SENSE1
MS_D1
CARD_RST
CARD_SENSE2
MS_BS
MS_D3
USB_DM_OUSB_DP_O
USB_DP_OUSB_DM_O
Title
Size Docum ent Number R e v
Date: Sheet o f
8202D-16-HI-216-0-J 1.02
DSP
2 4Saturday, Septem ber 23, 2006
SUNPLUS TECHNOLOGY
close toconnector!
Hitachi Bottom CONTACT
HFM SW
HOP1200W NCR245
NC
as aboveHFM SW
0OTHER
54-Pin TSOPII(400mil x 875mil)EliteMT M12L64164A-5T
I2C ADDR = 0XA0
TO DVD KEY Board
R33 2.2K
BC39
0.01UF
C40
NC
BC51
0.1UF
C4 47PF
C24 0.01UF
C30 1000PF
R5010K
BC50
1000PF
R431K
C20 680PF
C36
33PF
R5315K
R51 22
BC300.1UF
BC26
0.1UF
RN4 337531 2
468
BC35
0.1UF
C37
33PF
C11 NC/100PF
U6
S DRAM 1Mx16x4
A023
A124
A225
A326
A429
A530
A631
A732
A833
A934
CAS17
RAS18
LDQM15
WE16
CS19
CKE37
CLK38
UDQM39
D0 2
D1 4
D2 5
D3 7
D4 8
D5 10
D6 11
D7 13
D8 42
D9 44
D10 45
D11 47
D12 48
D13 50
D14 51
D15 53
NC 36
BA020
VDD 1
VDD 27
VSS 28
VSS 41
A10/AP22
NC/RFU 40
VDDq 3
VDDq 9
VDDq 43
VDDq 49
VSSq6
VSSq12
VSSq46
VSSq52
A1135
BA121 VSS 54
VDD 14
C38
33PF
C25 0.047UF
R37 4.7K
C3 47PF
BC47
0.1UF
R49 100
4.7KR27
C N4
CARD_USB
123456789
1011121314151617181920
R55
4.7K
BC20 33p
BC41
0.1UF
L12 10UH
C6 680PF
C26 100PF
BC22 0.1U
BC28 0.1UF
R48 0
BC21 0.01U
C34
10PF
R52 22
R16 100
C41
NC(68p)
C32 0 .1UF
C2 1 UF
L15 NC(4.7uH)
C28 0 .1UF
R4110K
TP8
XT1
27MHz
Q19015
2
13
TP9
R38 4.7K
BC42
0.1UF
C7 100PF
C27 820PF
BC46
0.1UF
+EC12
10UF16V
TP6R FRP
R35 0
Q2
9014
R4510K
C73
33PF
R4610K
C74
33PF
C33 0.1UF
R15 5.1K
+ EC15
47UF16V
R4710K
C75
33PF
C350.1u
+EC14 47UF16V
R N3 337531 2
468
NCR23
+EC17
100UF16V
R39 4.7K
BC44
0.1UFC4333PF
R17 20K
L13 10UH C5 0.068UF
BC310 .1UF
BC49
0.1UF
BC27
0.1uF
C18 680PF
Q3
2SB1132(R type)
BC38
0 .1UF
BC48
0 .1UF
R36 4.7K
R N1 337531 2
468BC29
0.1UF
C39
NC
D41N4148(SMT)
10KR22
D51N4148(SMT)
4.7K
R25
BC40
1000PF
BC43
0.1UF
BC25
0.1U
C8 0.01UF
D61N4148(SMT)
CN5ELCO-CON24(buttom)
2625
1716151413121110987654321
18192021222324
BC330.1UF
C21 680PF
R12 100
BC45
0.1UF
BC320 .1UF
R18 150K
Q4
2SB1132(R type)
1K
R26
+ EC1647UF16V
BC36
0 .1UF
U7
24C02
A01
A12
A23
GND4 SDA 5SCL 6WP 7VCC 8
BC24
0.1UU4
MX29LV800T/B,MX29F800T/BTSOP-48
DQ0 29A025
DQ1 31A124
DQ2 33A223
DQ3 35A322
DQ4 38A421
DQ5 40A520
DQ6 42A619
DQ7 44A718
DQ8 30A88
DQ9 32A97
DQ10 34A106
DQ11 36A115
DQ12 39A124
DQ13 41A133
DQ14 43A142
DQ15/A-1 45A151
A1648
A1717
CE26
OE28
RST12
BYTE47
A1816
VCC 37
GND 27GND 46WE11
RY/BY 15
NC 9
NC 10
NC 13
NC 14
C15 1 UF
R11410K
R13 1.5K
C22 0.22UF
R11510K
BC340.1UF
C29 330PF
C31 1000PF
R11610K
C19 680PF
CN6
CON8
12345678
R20N C
RN2 337531 2
468
C10 0.01UF
Q5
3904
+ EC1847UF16V
C4233PF
C13 1 UF
BC23 0.01U
R14 5.1K
C161 UF
R24 33K (1%)
BC37
0.1UF
R28 N C
R29 39K
U5
SPHE8202D
AGCOP2
RFIP3
RFIS4
RFSUM5
DPDA6
DPDB7
DPDC8
DPDD9
DVDD10
DVDC11
DVDB12
DVDA13
CDB14
CDA15
CDF16
CDE17
RF_AVSS18
APC_AVSS19
DVDLDO20
CDLDO21
DVDMDI22
APC_SRV_AVDD24
V2125
R33K26
V16527
SVOTST28
RFRPPH29
RFRPBH30
RFRPMEAN31
SBADPH32
SBAD33
FEO34
TEO35
TEOLP36
OPVIP37
OPVIN38
OPVOP39
SRV_AD_AVSS_VRGD40
AD_DA_AVDD41
DATEO42
DAFEO43
DA_AVSS44
TRAY_IS_IN45
TRAY_IS_OUT46
SPDC_OUT/GPIO47
SC_OUT/GPIO48
SC1_OUT/GPIO49
TRAY_OUT/GPIO50
DMEA/GPIO51
FGIN/GPIO52
HOMESW/GPIO53
LDSW/GPIO54
DFC
T/G
PIO
55V
DD
_K1
56
GP
IO/S
D_C
K/M
S_C
K57
GP
IO/S
D_C
MD
/MS
_BS
58
GP
IO/tt
io0_
4/S
D_D
0/M
S_D
059
VS
S_O
1/V
SS
_K1
60G
PIO
/ttio
1_5/
SD
_D1/
MS
_D1
61
GP
IO/tt
io2_
6/S
D_D
2/M
S_D
262
GP
IO/tt
io3_
7/S
D_D
3/M
S_D
363
VD
D_O
164
GP
IO65
R_C
S4_
B/G
PIO
66
R_C
S3_
B/G
PIO
67R
_CS
2_B
/GP
IO68
R_C
S1_
B/G
PIO
69R
ST_
B70
IR_I
N/G
PIO
71
VFD
_CLK
/GP
IO72
VFD
_STB
/GP
IO73
VFD
_DA
TA/G
PIO
74R
_20/
E_M
X10
75R
_A19
76
CLK
IN77
CLK
OU
T78
US
B_G
ND
79U
SB
_VD
D80
US
B_D
P81
US
B_D
M82
VS
S_P
LLA
83
VD
D_P
LLA
84V
SS
_PLL
V85
VD
D_P
LLV
86
M_D
787
M_D
688
M_D
589
M_D
490
M_D
391
VD
D_O
292
M_D
293
M_D
194
M_D
095
M_W
E_B
96
M_C
AS
_B97
M_R
AS
_B98
VS
S_O
2/V
SS
_K2
99M
_CS
0_B
/GP
IO10
0M
_BA
010
1
M_D
1510
2M
_D14
103
M_D
1310
4V
DD
_K2
105
M_D
1210
6
M_D
1110
7M
_D10
108
R_A12 162
R_A7 161
R_A6 160
R_A5 159
R_A4 158
R_A3 157
R_A2 156
R_A1 155
R_A0 154
R_D0 153
R_D1 152
R_D2 151
VSS_O5/VSS_K5 150
R_D3 149
R_D4 148
R_D5 147
R_D6 146
R_D7 145
R_OE_B 144
VDD_K4 143
M_DQM2/GPIO 142
M_DQM3/GPIO 141
R_A10 140
R_A11 139
R_A9 138
R_A8 137
VDD_O4 136
R_A13 135
R_A14 134
R_A17 133
R_WE_B 132
M_A3 131
M_A2 130
M_A1 129
VSS_O4/VSS_K4 128
M_A0 127
M_A10 126
M_BA1/GPIO 125
M_DQM0/GPIO 124
M_DQM1/GPIO 123
M_A4 122
VDD_K3 121
M_A5 120
M_A6 119
M_A7 118
M_A8 117
M_A9 116
M_CKE/GPIO 115
VSS_O3/VVV_K3 114
M_CLKO 113
VDD_O3 112
M_A11/GPIO 111
M_D8 110
M_D9 109
AGCON1
FLTI
N21
6FL
TIP
215
RFO
214
AG
CC
AP
212
GM
RE
S21
1R
F_A
VD
D21
0
DS
_AV
DD
209
SLV
L20
8
CN
IN20
7R
FI20
6P
LL_D
S_A
VS
S20
5
LGIN
204
LPFN
IN20
3
FDFL
T20
2P
DFL
T20
1V
RE
FO20
0
LPFN
199
LPFO
198
PLL
_AV
DD
197
VS
S_T
VA
219
6TV
_DA
C5
195
VD
D_T
VA
219
4TV
_DA
C4
193
TV_D
AC
319
2V
SS
_TV
A1
191
VD
D_T
VA
119
0
VS
S_T
VA
018
9V
DD
_TV
A0
188
TV_D
AC
018
7V
_RE
FOU
T18
6V
_FS
AD
J18
5
V_B
IAS
184
V_C
OM
P18
3
UA
0_TX
/GP
IO18
2U
A0_
RX
/GP
IO18
1A
_XC
K/G
PIO
180
A_B
CK
/GP
IO17
9V
SS
_K6/
VS
S_O
617
8
A_L
RC
K/G
PIO
177
A_D
ATA
3/G
PIO
176
A_D
ATA
2/G
PIO
175
A_D
ATA
1/G
PIO
174
VD
D_O
517
3
A_D
ATA
0/G
PIO
172
A_I
EC
_TX
/GP
IO17
1R
_A18
170
R_A
1616
9D
A_V
SS
168
DA
_VD
D16
7
DA
C_R
EF
164
DA
_R16
6D
A_L
165
R_A
1516
3
CDMDI23
RFR
P21
3
R210
R1
91
.2K
(1%
)
C12
0 .1UF
R34 33
R405.1
R32 2.2K
C17 NC(120PF)
C23 0.01UF
R30 20K
C9 100PF
+EC1910UF16V
R5415K
TP7R FCT
R421K
C1
40
.1U
F
L11 FB
R315.1
+ EC13
100UF10V
DVD Main IC
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
XOPOP1
XOPVIP1XOPVIN1
HOMETR AYINTRAYOUT
VREF2
FOC+FOC-RAD+RAD-
TCOF CO
DMEA
SCOSPDCO
TRAY-TRAY+
SP+
XOPOP1
XOPVIP1
XOPVIN1
VREF2
FOC+
DMEA
TCO
SP-
RAD+
SLED+SCO
SPDCO
SLED-
VREF2RAD-
FOC-
SP+SNSR
F CO
TRAY- TRAY+
LOAD+LOAD-
SP-SP+TR AYIN
TRAYOUTLOAD-LOAD+
SLED-SLED+
HOME
DISC_SENCE
DISC_SENCE
MGND
MGND
M+5V
MGND
MGND
V+11
MGND
MGND
TCO 2FCO 2SCO 2SPDCO 2
TRAY- 2TRAY+ 2
XOPOP1 2
XOPVIP1 2XOPVIN1 2
HOME 2
TRAYOUT 2TRAYIN 2
VREF2 2
DMEA 2 FOC+ 2FOC- 2RAD+ 2RAD- 2
DISC_SENCE 2
Title
Size Document Number R ev
Date: Sheet o f
8202D-16-HI-216-0-J 1.02
Motor-Driver
B
3 4Saturday, September 23, 2006
SUNPLUS TECHNOLOGY
C48 390PF
1R59
C49 390PF
C47 4700PF
22KR58
1R60
R62470K
U9LM7808/TO
VIN1
GN
D3
VOUT 2
1R56
R64 150K
10K Driver
X2
20K
7.5K7.5K
+-
-+
10K
X2
20K
7.5K7.5K
+-
-+
+- 10K
25K
+-
Driver
Driver
10K
15K
+- Driver
BIAS
BIAS
BIAS
BA5954FP
U8BA5954FP / AT5954DIP28-SSOPH
VOLD+ 17
VOLD- 18
VOSL+ 12
VOSL- 11
VOTK- 16
VNFTK 20
VNFFC 7
VOTK+ 15
VINLD23
Vcc8
PG
ND
10
PG
ND
219
Pre
GN
D22
STBY 28
VOFC+ 14
VOFC- 13
VINSL-5VINSL+4
CTKerr125BIAS27VINTK26
CFCerr23CFCerr12
VINFC1
CTKerr224
PVcc19PVcc221
VOSL6
GN
D1
29
GN
D2
30
R68 6.2K
R66 470KR67 10K
C464700PF
+ EC22
100UF16V
330PC44
Q8S8050
+EC21
100UF16V
Q7S8550
2
13
BC53
0 .1UF
Q6S8550
2
13
R69 220R R70 220R
BC55
0 .1UF
1R57
Q9S8050
22KR61
R65 150K
+ EC20
4.7UF16V
330PC45
CN7
CON12
123456789
101112
BC54
0 .1UF
R63 1
R72 680RR71 680R
R73 1K
BC52
0.1uF
R74 1K
Motor Driver
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
AUDIO_MUTE
OP_VCC
A_MUTE
OP_VCC
DA_L
A_MUTE
OPREF
ML_OUT
OPREF
MR_OUTD A_R
A_MUTE
CVB1
G /Y
B/U_O
B/U
R/V_O
R/V
G/Y_O
B/U
CVB1G /Y
R/V
G/Y_O
CVB1_O
B/U_O
R/V_O
CVB1_O
A GND
A GND
A GND
A GND
A GND
DV CC
A GND
A GND
A GNDA GND
A GND
A GND
A GND
A G ND
DV CC
A GND
DV CC
A GND
A GND
V G ND
V G NDV GND
V+5V V+5V
V GNDV G ND
V GND
V+5V
V G ND
V+5V
V GND
V GND
V GND
V VCC3
V GND
V VCC3
V GND
V GNDV GND
V+5V V GND V+5V V GND
V+5VV+5V
ML_OUT 1
AUDIO_MUTE2
MR_OUT 1
V_REF 2
V_BIAS 2
V_FSADJ 2
TV_DAC3 2TV_DAC0 2
TV_DAC4 2TV_DAC5 2
V_COMP 2
G/Y_O 1
B/U_O 1
CVB1_O 1
R/V_O 1
DA_L2
DA_R2
Title
Size Document Number R e v
Date: Sheet o f
8202D-16-HI-216-0-J 1.02
Audio Filter
C
4 4Saturday, September 23, 2006
SUNPLUS TECHNOLOGY
SOP8
SOP8
1/2 current config1/2 current config
0680
75 750NC NC
R16390
150 150
R17
NC
R24R268
Half Current75
R269Full Current 0
NC
R118 R169 R270VIDEO DAC
1500
+EC29
100uF/10V
C57100PF
R7775
D 9
BAV99
R8833K
+
- U10B
NJM45585
67
84
Q14
3904
L17 1UH
C53 10PF
R92
4.7K
L16 1UH
+
- U10A
NJM45583
21
84
C50 N C
R10233K
R82 NC
C69
120P
C70
820P
R9010k
C58100PF
R109 1K
Q163906
2
1 3
+ EC26
100uF/16V
C54 0.1UF
Q109015
21
3
D11BAV99/SOT23
BC56
0.1uF
C64100PF
Q119015
2
13
R7575(0805)
R100 100
R107100
D 7
BAV99
EC3010uF/16V
C52 10PF
+ EC25
100uF/10V
R86 NC
D8
BAV99
C51 0.1UF
C68
47P
R83 N C
C55 0.1UF
R8475(0805)
R87 N C
C62100PF
R91100
Q129015
2
13
C65100PF
+
EC27100uF/10V
C63100PF
R10310K
R95 1K
+
EC28
10uF/16V
R8575(0805)
R105
20k
R99
10K
Q17
3904
R96 100
L19 1UH
R81 680
C60 10PF
C66
120P
R7675(0805)
Q153906
2
13
R101150K
R79150
R89
20k
R94 1K
+
EC23
10uF/16V
R80150
C56100PF
BC57
0.1uF
R78150
R108
10k
EC2410uF/16V
L18 1UH
D10
BAV99C61 10PF
R10610k
R93
10k
C59100PF
C67
820P
C71
47P
R104 22K
R98 2 .2R
Q139015
2
13
R97 10K
DVD Signal
序号 名称 规格型号 位号 用量 需求量 实发量
插座
1HEADER2/2.54MM
2P插针式插针(连接器插针式2.54mm间距)
不带钩,立式JP2 1
2HEADER3/2.54MM
3P插针式插针(连接器插针式2.54mm间距)
不带钩,立式JP3 1
3 CON2/2.0MM3P插针式插座(连接器插针式2.0mm间距)
不带钩,立式J4 1
4 CON3/2.0MM2P插针式插座(连接器插针式2.0mm间距)
不带钩,立式J3 1
5 CON4/2.0MM4P插针式插座(连接器插针式2.0mm间距)
不带钩,立式CN2,CN13 2
6 CON5/2.0MM5P插针式插座(连接器插针式2.0mm间距)
不带钩,立式CN4 1
7 CON6/2.0MM6P插针式插座(连接器插针式2.0mm间距)
不带钩,立式CN8 1
8 CON9/2.0MM9P插针式插座(连接器插针式2.0mm间距)
不带钩,立式CN1 1
9 CON10/2.0MM10P插针式插座(连接器插针式2.0mm间距)
不带钩,立式J18 1
10 F9370 声表 J16 111 F3953M 声表 J17 112 15x2PIN 15X2P插针式插针(连接器插针式2.0间距) CN3 113 IL-FHR-50S-HF IL-FHR-50S-HF(JAE) JP1 014 SVIDEO JACK Mini DIN JACK S端子 CN10 115 DB15 DZ11A31-B8 (15P-Dsub,30X15mm 卧式) CN11 116 BNC DC+12V电源插座(巨大2.0mm) CN12 117 PHONE JACK 音频输入插座 J1 118 SCP621U_Y 黄 CN15 119 SCP621U_W 白 CN16 120 SCP621U_R 红 CN17 121 component AV端子(双层:绿.蓝.红+白.红) CON5 1
晶振22 19.6608MT 19.6608MHz石英晶体振荡器(49S矮封装) X1 123 3.58MHz 3.58MHz石英晶体振荡器(49S矮封装) Y1 124 4MHz 4MHz石英晶體振蕩器(49S矮封裝) Y2 1
二极管25 5.6V 稳压二极管 5.6Vz D8,D21,D22 326 5.1V 稳压二极管 5.1Vz D14 127 SSM5822 整流二极管60V/3A(肖特基)快恢复型,DII D31 128 1N4148 片状二极管LL4148(开关二极管),DII D32,D35,D36 329 1N4001(DIP) 插件二极管1N4001 D33 130 15V 稳压二极管 15Vz D42 131 17V/18V 稳压二极管 17Vz D44 1
三极管
32 BAV99 ESD片狀三極管D1,D2,D11,D15,D17,D18,D19,D20,D39,D40,D41
11
33 2N3906片状三极管,SOT23,PNP
TR,VCEO=40V/IC=200mA,DII/AUKQ2,Q16,Q34 3
34 2N3904片状三极管,SOT23,NPN
TR,VCEO=40V/IC=200mA,DII/AUK
Q3,Q5,Q6,Q7,Q8,Q17,Q18,Q19,2Q1,2Q2,Q23,Q24,Q25,Q26,Q30,Q33
16
电解电容35 4.7uF/16V DIP电解电容器(5X7) 16V ± 20% 2C25,2C26,2C27,2C28 436 10uF/16V DIP電解電容器(4X7) 16V ± 20% 2C15,2C21 237 10uF/25V DIP電解電容器(4X7) 16V ± 20% C194,C195,C196,C197,C198 538 10uF/50V DIP電解電容器(4X7) 16V ± 20% C246,C199 239 22uF/16V DIP電解電容器(4X7) 16V ± 20% C34,2C24,2C29 3
40 47uF/16V DIP電解電容器(4X7) 16V ± 20%2C2,2C8,C48,C87,C91,C93,C95,C97,C104,C128,C217,C218,C239,C240,C242,C258
16
41 100uF/16V DIP電解電容器(5X7) 16V ± 20%C45,C53,C103,C107,C113,C209,C211,C212,C213,C215
10
42 470uF/16V DIP电解电容器(8X9)16V ± 20%C46,C47,C76,C131,C203,C204,C207,C208,C222,C250
10
保险管43 FUSE/5A 熔断器5A轴向引线式(玻璃外壳) F1 1
Components ListPart5:TV Board BOM
电感44 2.7uH 贴片0805 L5,L2 245 22uH(DIP) DIP色环電感器 L7,L3 246 100uH(DIP) 立式固定電感器 for Tuner (4*6) L4 147 33uH/3A 环型立式固定電感器 33μH±20% L22 148 10UH 贴片式电感0805 L76 149 L4.5M DIP滤波器 T1 1
磁珠50 1K/100M 0805磁珠 1/16W ±5% L77 151 MG2012150YS 贴片式铁氧体磁珠0805 150Ω,25% L14,L16,L18,L32,L33,L34 6
52 BEAD 贴片式铁氧体磁珠0805 150Ω,25%L21,L23,L24,L25,L26,L27,L28,L29,L30,L31
10
排阻53 33RX4 排状电阻器 KX0603 1/16W ±5% RP1,RP2,RP3,RP4,RP5,RP6,RP7 754 10K排阻 排状电阻器 KX0603 1/16W ±5% RP8 1
贴片电阻
55 0R 片状电阻器 KX0603 1/16W ±5%R51,R53,R55,R56,R195,R233,R274,R275,R276
9
56 0R_0805 片状电阻器 KX0805 1/16W ±5% R236,R185 2
57 0.39R/2W 插件电阻 2W R200,R4 258 3R 片状电阻器 KX0603 1/16W ±5% R204,R205,R206,R207 4
59 20R/1% 片状电阻器 KX0603 1/16W ±1%
R102,R105,R109,R112,R118,R121,R122,R130,R134,R139,R140,R145,R151,R215,R237,R238,R239
17
60 22R 片状电阻器 KX0603 1/16W ±5% R40 161 47R 片状电阻器 KX0603 1/16W ±5% R17,R18,R68,R214,R23,R22 6
62 75R/ 1% 片状电阻器 KX0603 1/16W ±1%R77,R103,R123,R125,R133,R136,R141,R152,R153,R154,R240,R241,R242
13
63 75R 片状电阻器 KX0603 1/16W ±5% R216 1
64 100R 片状电阻器 KX0603 1/16W ±5%R11,2R9,R54,R61,R62,R176,R180,R208,2R10,R211,R212,R226,R227
13
65 150R 片状电阻器 KX0603 1/16W ±5% R146,R150,R155,R156 466 330 片状电阻器 KX0603 1/16W ±5% R223 167 470R 片状电阻器 KX0603 1/16W ±5% R39 1
68 1k 片状电阻器 KX0603 1/16W ±5%R58,R63,R65,R82,R168,R173,R203,R213,R230,R231
10
69 1.2K 片状电阻器 KX0603 1/16W ±5% 2R7,R38 270 1.5K 片状电阻器 KX0603 1/16W ±5% C249 171 2K 片状电阻器 KX0603 1/16W ±5% R37 172 2.2K 片状电阻器 KX0603 1/16W ±5% 2R3,R225,R228,R76 473 2.4K 片状电阻器 KX0603 1/16W ±5% R24,R25,R26,R27,R28,R29 674 2.7K 片状电阻器 KX0603 1/16W ±5% R45,R46,R70,R71 4
75 3K_0805 片状电阻器 KX0805 1/16W ±5% R210,R209 2
76 3K3 片状电阻器 KX0603 1/16W ±5% R36 177 3.9k 片状电阻器 KX0603 1/16W ±5% R234 178 4K7 片状电阻器 KX0603 1/16W ±5% R69,R73,R157,R158,2R4,2R6,R84 779 5.1K 片状电阻器 KX0603 1/16W ±5% 2R2 180 5.6K 片状电阻器 KX0603 1/16W ±5% R30,R31,R229 381 6K2 片状电阻器 KX0603 1/16W ±5% R35 182 6.8K 片状电阻器 KX0603 1/16W ±5% R175 183 12K 片状电阻器 KX0603 1/16W ±5% R222 184 22K 片状电阻器 KX0603 1/16W ±5% R232,R33 285 47K 片状电阻器 KX0603 1/16W ±5% R32,R177,R178 3
86 10K 片状电阻器 KX0603 1/16W ±5%
R1,R2,R12,R13,2R1,2R5,2R8,R34,R41,R42,R52,R59,R60,R66,R75,R78,R79,R80,R81,R83,R143,R144,R159,R160,R161,R162,R169,R170,R174,R179,R190,R251,R252
33
87 100K 片状电阻器 KX0603 1/16W ±5%
R3,R8,R191,R193,R224,R243,R244,R245,R246,R247,R248,R249,R250,R253,R254,R255,R256,R257,R258,R259,R260,R267,R268
23
88 10M 片状电阻器 KX0603 1/16W ±5% R194 1
贴片电容89 15pF 片状独石电容器CC41-0603 50V±20% C270,C271,C272 3
90 27PF 片状独石电容器CC41-0603 50V±5%C35,C36,C37,C124,C125,C173,C179,C182,2C1
9
91 47pF 片状独石电容器CC41-0603 50V±20% C190,C189 292 100pF 片状独石电容器CC41-0603 50V±20% C259 193 150pF 片状独石电容器CC41-0603 50V±20% 2C5 194 330pF 片状独石电容器CC41-0603 50V±20% C147,C14 295 390pF 片状独石电容器CC41-0603 50V±20% C265 196 680pF 片状独石电容器CC41-0603 50V±20% C148,C15 297 1000pF 片状独石电容器CC41-0603 50V±20% C16,C269 298 1200pF 片状独石电容器CC41-0603 50V±20% 2C6 199 1.5nF 片状独石电容器CC41-0603 50V±20% C255 1100 2.7nF 片状独石电容器CC41-0603 50V±20% C63,C64,2C23 3101 10nF 片状独石电容器CC41-0603 50V±20% C253,C261,C262,C263,C268,C206,2C11 7
102 0.1uF/100nF 片状独石电容器CC41-0603 50V±20%
2C3,2C7,C43,C49,C57,C58,C59,C60,C65,C66,C78,C79,C80,C81,C82,C83,C84,C85,C86,C88,C89,C90,C92,C94,C96,C98,C99,C100,C101,C102,C108,C109,C110,C111,C112,C114,C115,C116,C117,C118,C119,C120,C121,C122,C123,C129,C130,C133,C136,C138,C139,C140,C141,C143,C146,C151,C152,C157,C164,C166,C167,C174,C178,C180,C181,C183,C184,C188,C191,C192,C193,C202,C205,C210,2C12,2C13,C214,C216,2C20,C227,C245,C248,C252,C256,C260,C267
86
103 220nF 片状独石电容器CC41-0603 50V±20% C257 1104 470nF 片状独石电容器CC41-0603 50V±20% C254,C264 2
105 1uF 片状独石电容器CC41-0603 50V±20%
C1,C2,C3,C4,C5,C6,C7,C8,C9,C10,C38,C44,C52,C55,C56,C62,C68,C69,C105,C132,C134,2C18,2C19,C223,C229,C243,C244,C247,C251,C273,C274
31
106 1uF_0805 片状独石电容器CC41-0805 50V±20% 2C4,2C9,2C10,2C22 4
107 2.2uF_0805 片状独石电容器CC41-0805 50V±20% 2C14,2C16,2C17 3
电路板108 PCB K-USA-DVD-YPBPR-L+R-V4.0 1
芯片1 la72700 U2 12 SM9613 U3 13 FLI8125 集成电路QFP208 U6 1
4 24LC32-SN半导体存储器SO8(32K ROM),ST
/Ceramate /SEC 厂家U7 1
5 TDA1517+散热片 DIP20 U8 16 M24C02 半导体存储器SO8(2K ROM), U9 17 29LV040B SKT\PLCC32 U10 1
8AP1506-50K5LAAP1501-50K5LA
开关电源控制IC,5A,TO263,Anachip
/MATRIX 厂家U12 1
9 AP1084K-33LA集成电路3.3V/5A TO-263,Anachip
/Gamma /ADDU13 1
10 1117-1.8V功率集成电路SOT223(基准电压1.8V,
800mA),Anachip /MATRIXU14 1
11 LM1117MPX-3.3V SOT223 U15 112 CD4052 DIP16-SOP U17 113 TAD9886/9885 DIP24-SOP-1.27 U19 114 78D09 SMD-TO-252-4 U25 115 APM9435A 片状场效应晶体管SO8,P沟道SW Q4 116 AP2301 SOT-23 Q22 1
17 TUNER: 高频头 UVL7605VMW J8 1
H
DVD_COMBO BOM序号 名称 规格型号 位号 用量 需求量 实发量
贴片电容
1 100NF 片状独石电容器CC41-0603 50V±20%
BC1,BC2,BC4,BC5,BC6,BC7,BC9,BC11,C12,BC12,BC13,C14,BC15,BC16,BC17,BC18,BC19,BC26,BC27,C28,BC28,BC29,BC30,BC31,C32,BC32,C33,BC33,BC34,BC35,BC36,BC37,BC38,BC41,BC42,BC43,BC44,BC45,BC46,BC47,BC48,BC49,C51,BC51,BC52,BC53,C54,BC54,C55,BC55,BC56,BC57,BC22,BC24,BC25,C35,C1
57
2 330PF 片状独石电容器CC41-0603 50V±20% C29,BC8, C44,C45 43 33PF 片状独石电容器CC41-0603 50V±20% BC10,C36,C37,C38,C42,C43,C72, BC20 84 100PF 片状独石电容器CC41-0603 50V±20% C7,C9,BC14,C26,C56,C57,C58,C59,C62,C63,C64,C65 125 10nF 片状独石电容器CC41-0603 50V±20% BC21,BC23, C8,C10,C23,C24,BC39 76 1000PF 片状独石电容器CC41-0603 50V±20% C30,C31,BC40,BC50 47 1UF 片状独石电容器CC41-0603 50V±20% C2,C13,C15,C16,BC3 58 47PF 片状独石电容器CC41-0603 50V±20% C4,C3, C68,C71 49 68nF 片状独石电容器CC41-0603 50V±20% C5 110 680PF 片状独石电容器CC41-0603 50V±20% C6,C18,C19,C20,C21 511 220nF 片状独石电容器CC41-0603 50V±20% C22 112 47nF 片状独石电容器CC41-0603 50V±20% C25 113 820PF 片状独石电容器CC41-0603 50V±20% C27 ,C70,C67 314 10PF 片状独石电容器CC41-0603 50V±20% C34,C52,C53,C60,C61 515 4700PF 片状独石电容器CC41-0603 50V±20% C47,C46 216 390PF 片状独石电容器CC41-0603 50V±20% C48,C49 217 120P 片状独石电容器CC41-0603 50V±20% C69,C66 2
二极管
18 IN5820 DIP整流二极管60V/3A(肖特基)快恢复型,DII
D2,1
19 1N4004 DIP二极管(开关二极管),DII D3 ,D1 220 1N4148 片状二极管LL4148(开关二极管),DII D4,D5,D6 321 BAV99 ESD片狀二極管 D7,D8,D9,D10, D11 5
电解电容
22 100UF16V DIP電解電容器(6.3X5) 16V ± 20% ,EC6,EC8,EC9,EC11,EC22,EC13, 623 100UF16V DIP電解電容器(5X11) 16V ± 20% EC1,EC26,EC25,EC27,EC29,EC21,EC7,EC10,EC17, 924 10UF16V DIP電解電容器(4X5) 16V ± 20% EC12,EC19, EC23,EC24,EC28,EC30 625 47UF16V DIP电解电容器(5×5) 16V ± 20% EC15,EC16,EC18 , 326 47UF10V SMT钽电容 10V ± 20% EC14 127 4.7UF16V DIP電解電容器(4X5) 16V ± 20% EC20 128 220u/16V DIP電解電容器(6.3X7) 16V ± 20% EC3,EC4 ,EC5 329 220UF16V DIP電解電容器(8X5) 16V ± 20% EC2 130 470UF16V DIP電解電容器(8X7) 16V ± 20% EC32 1
电感
31 33uH 环型立式固定電感器 33μH±20% 3A FB1 132 10UH SMT0805贴片式電感器 for Tuner L12,L13 233 1UH SMT0805贴片式電感器 for Tuner L16,L17,L18,L19 4
磁珠
34 FB 75Ω 0805贴片式磁珠 L1,L2,L3,L4,L5,L6,L7,L8,L9, L10,L11 11
三极管
35 9015 三极管SOT23 Q1,Q10,Q11,Q12,Q13 536 9014 三极管SOT23 Q2 137 2SB1132 BAR Q3,Q4 238 3904 三极管SOT23 Q5,Q18 239 3906 三极管SOT23 Q16,Q15 240 S8550D 三极管SO-92 Q7,Q6 241 S8050D 三极管SO-92 Q8,Q9 2
排阻
42 33Ω 片状电阻器 KX0603 1/16W ±5% RN1,RN2,RN3,RN4, 4
贴片电阻
43 0Ω 片状电阻器 KX0603 1/16W ±5% R4,R21,R35,R48 ,R11,R8 6
.
DVD_COMBO BOM序号 名称 规格型号 位号 用量 需求量 实发量
44 1Ω 片状电阻器 KX0603 1/16W ±5% R56,R57,R59,R60,R63 545 2.2Ω 片状电阻器 KX0603 1/16W ±5% R1,R2, R98 346 5.1Ω 片状电阻器 KX0603 1/16W ±5% R40,R31 247 10Ω 片状电阻器 KX0603 1/16W ±5% R9 148 22Ω 片状电阻器 KX0603 1/16W ±5% R51,R52 249 33Ω 片状电阻器 KX0603 1/16W ±5% R6,R34 250 75Ω 0805 片状电阻器 KX0805 1/16W ±5% R75,R76,R84,R85 451 75Ω 片状电阻器 KX0603 1/16W ±5% R77, 152 100Ω 片状电阻器 KX0603 1/16W ±5% R12,R16,R49,R91,R96,R100,R107,R113 853 150Ω 片状电阻器 KX0603 1/16W ±5% R78,R79,R80 354 220Ω 片状电阻器 KX0603 1/16W ±5% R69,R70 255 680Ω 片状电阻器 KX0603 1/16W ±5% R72,R71, R81 356 1KΩ 片状电阻器 KX0603 1/16W ±5% R26,R42,R43,R73,R74,,R95,R110 757 1.2KΩ (1%) 片状电阻器 KX0603 1/16W ±1% R19 158 2.2KΩ 片状电阻器 KX0603 1/16W ±5% R33,R32 259 1.5KΩ 片状电阻器 KX0603 1/16W ±5% R13 160 4.7KΩ 片状电阻器 KX0603 1/16W ±5% R25,R27,R36,R37,R38,R39,R55,R92,R112 961 5.1KΩ 片状电阻器 KX0603 1/16W ±5% R15,R14 262 6.2KΩ 片状电阻器 KX0603 1/16W ±5% R68 163
10KΩ 片状电阻器 KX0603 1/16W ±5%R3,R22,R41,R45,R46,R47,R50,R67,R90,R93,R97,R99,R103,R106,R108,R114,R115,R116
18
64 15KΩ 片状电阻器 KX0603 1/16W ±5% R53,R54 265 20KΩ 片状电阻器 KX0603 1/16W ±5% R17,R30,R89,R105 466 22KΩ 片状电阻器 KX0603 1/16W ±5% R58,R61,R104 367 33KΩ (1%) 片状电阻器 KX0603 1/16W ±1% R24 168 33KΩ 片状电阻器 KX0603 1/16W ±5% R88,R102 269 39KΩ 片状电阻器 KX0603 1/16W ±5% R29 170 150KΩ 片状电阻器 KX0603 1/16W ±5% R18,R64,R65,R101 471 470KΩ 片状电阻器 KX0603 1/16W ±5% R62,R66 2
IC类
72 1500-50 U1 173 LM1117-3.3 U2 174 LM1117-1.8 U3 175 EN29LV800BA U4 176 SPHE8202D U5 177 1Mx16x4 HY57V641620ETP U6 178 24C02 U7 179 D5954 U8 180 LM7808 U9 181 NJM4558 U10 1
晶振
82 27MHz 石英晶体振荡器(矮封装)20pF XT1 1插座
83 CONNECTORDB25 卧式 公座
CN1 1
84 20PIN-1.0mm DIP插针式插座(1.0间距) CN4 185 24PIN-0.5mm SMT卧式贴片插座0.5间距) CN5(塑胶缺口和丝印反向) 186 8P-2.0mm DIP立式插针式插座(2.0间距) CN6 187 12PIN-1.0mm SMT卧式贴片插座(1.0间距) CN7 1
电路板
88 PCB MPEG_BOARD V2.0 1
.
FLI8125 TV block DEBUG INSTRUCTION 1.BALCK SCREEN
Is power adapter OK?
Change another power adapter.
The logic voltage of CN8 (ON/OFF) is wrong.,check the circuit ; Inverter board(12V)power fuse is broken.
JP3 shot circuit hat brush off or the connection is not correctly(5V ok);IC9435(Q4)is abnormal; LVDS connection is wrong.
Change another PANEL .(Same type)
LVDS voltage OK?
NO
NO
NO
NO
YES
YES
YES
YES
1、5V power(U12) is abnormal: 12V short circuit; fuse(F1) is broken or 5V short circuit; 2、Program isn’t on, check FLI8125 &(U13、U14,U15), 19.6608M crystalloid(X1)works ok? Check the FLI8125 connected with flash ok?
power on the TV succefully?
The backr light OK?
Part6: Debug Instruction
2.ABNORMAL PICTURE
3.NO TV SIGNAL
Check communications between the TDA9886(U19)CVBS and FLI8125(U6)check the U19 and crystalloid;IIC signal not send to U19.
Signal of AV ok?
The circuit(ADC)of FLI8125(U6)is wrong or the voltage is low.
The TUNER circuit of voltage(3V) is low; check the in series inductance (L3),the voltage( 5V) is too low.
Change Tuner and TDA9886
TV image snow ok?
NO
NO
NO
YES
YES
YES
Check the LVDS connective cable,LVDS plug (CN3)
Is OSD ok?
Check the FLI8125(U6);some accessory are broken.
YES
NO
All channels can’t play program.
4.TV NO SOUND
Check the supply power of LA72700(U2,9V ok) ,check the IC ;the circuit of L4.5M(T1)is broken.
Is AV signal ok?
Check amplifer IC(U8) ,12V and output capacitance are abnormal ;MUTE circuit is wrong ;sound IC(U3)is abnormal, the circuit of 78D09(U25)not ok.
SIF of LA72700(U2) signal is not correctly:;3.58M crystalloid (Y1)work ok?
NO
NO
YES
YES
In MONO mode. sound ok?
DVD BLOCK DEBUG INSTRUCTION
1.DVD NO PICTURE
2. DVD MODULE CAN’T CLOSE
3. DISC CAN’T BE READ
Disc can’t be read . Is the Disc side correctly ;check the DVD laser protection is take off ok? Check the soft wire between CN5 and the model.
Change DVD main board
Check TV connector J18 (on/off) is low? Check DVD block power IC):5V(U1),3.3V(U2),1.8V(U3)are abnomal.
Is the connection cable OK?
program no work , the jointing of 8202D(U5)、FLASH(U4)、SDRAM(U6)is not correctly.
Check the voltage of DVD block.
NO
YES
YES
NO Jointing and signal of connection block are
broken.
Disc can’t be closed into the module .
Is the module distortion? DVD button was pressed all the time; Check the communication between CN1 and CN7 .