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HI-FI Component System Model Name
MX-HS9000
Model Code
MX-HS9000/ZP
SERVICE
MANUAL
HI-FI Component System
Contents 1. Precaution 2. Product Specification 3. Disassembly and Reassembly 4. Troubleshooting 5. PCB Diagram
MX-HS9000
6. Schematic Diagram
Refer to the service manual in the GSPN (see the rear cover) for more information.
Contents
Contents 1.
2.
Precaution........................................................................................................................................ 1 − 1 1.1.
Safety Precautions ................................................................................................................... 1 − 1
1.2.
Servicing Precautions ............................................................................................................... 1 − 3
1.3.
Precautions for Electrostatically Sensitive Devices (ESDs) .............................................................. 1 − 4
1.4.
Installation Precautions ............................................................................................................. 1 − 5
Product Specification ......................................................................................................................... 2 − 1 2.1.
Product Feature ....................................................................................................................... 2 − 1
2.2.
Specifications.......................................................................................................................... 2 − 2
2.3.
Specifications Analysis ............................................................................................................. 2 − 3
2.4.
Accessories ............................................................................................................................ 2 − 4 2.4.1.
3.
4.
Disassembly and Reassembly .............................................................................................................. 3 − 1 3.1.
Overall Disassembly and Reassembly .......................................................................................... 3 − 1
3.2.
DECK Disassembly and Reassembly ........................................................................................... 3 − 12
Troubleshooting ................................................................................................................................ 4 − 1 4.1.
4.2.
Checkpoints by Error Mode ....................................................................................................... 4 − 1 4.1.1.
No Power................................................................................................................... 4 − 2
4.1.2.
No Output .................................................................................................................. 4 − 4
Measures to be taken when the Protection Circuit operates............................................................... 4 − 6 4.2.1.
Operation of Power Block Protection Circuit .................................................................... 4 − 6
4.2.2.
Check AMP in Power Protection .................................................................................... 4 − 7
4.3.
MICOM, MPEG Initialization & Update ...................................................................................... 4 − 8
4.4.
Buyer-Region Code Setting Method ............................................................................................ 4 − 9 4.4.1.
5.
The inserting method of Region Code after replacing the Main PBA ..................................... 4 − 9
PCB Diagram ................................................................................................................................... 5 − 1 5.1.
Wiring Diagram....................................................................................................................... 5 − 1
5.2.
FUNCTION PCB Top .............................................................................................................. 5 − 2 5.2.1.
Pin Connection ........................................................................................................... 5 − 3
5.3.
FUNCTION PCB Bottom.......................................................................................................... 5 − 4
5.4.
VFD PCB Top/Bottom.............................................................................................................. 5 − 5 5.4.1.
5.5.
5.6.
Pin Connection ........................................................................................................... 5 − 6
LED PCB Bottom .................................................................................................................... 5 − 7 5.5.1.
i
Supplied Accessories ................................................................................................... 2 − 4
Pin Connection ........................................................................................................... 5 − 8
MAIN PCB Top ...................................................................................................................... 5 − 9 5.6.1.
Pin Connection ........................................................................................................... 5 − 10
5.6.2.
Test Point Wave Form .................................................................................................. 5 − 11
5.7.
MAIN PCB Bottom.................................................................................................................. 5 − 12
5.8.
SMPS PCB Top....................................................................................................................... 5 − 13 Copyright© 1995-2013 SAMSUNG. All rights reserved.
Contents
5.8.1. 5.9. 6.
Pin Connection ........................................................................................................... 5 − 14
SMPS PCB Bottom .................................................................................................................. 5 − 15
Schematic Diagram ........................................................................................................................... 6 − 1 6.1.
Overall Block Diagram ............................................................................................................. 6 − 1
6.2.
FUNCTION-1......................................................................................................................... 6 − 2
6.3.
FUNCTION-2......................................................................................................................... 6 − 3
6.4.
VFD...................................................................................................................................... 6 − 4
6.5.
LED ...................................................................................................................................... 6 − 5
6.6.
MAIN–1 ................................................................................................................................ 6 − 6
6.7.
MAIN-2................................................................................................................................. 6 − 7 6.7.1.
Test Point Wave Form .................................................................................................. 6 − 8
6.8.
MAIN-3................................................................................................................................. 6 − 9
6.9.
MAIN-4................................................................................................................................. 6 − 10
6.10. MAIN-5................................................................................................................................. 6 − 11 6.11. MAIN-6................................................................................................................................. 6 − 12 6.12. MAIN-7................................................................................................................................. 6 − 13 6.13. MAIN-8................................................................................................................................. 6 − 14 6.14. MAIN-9................................................................................................................................. 6 − 15 6.14.1. Test Point Wave Form .................................................................................................. 6 − 16 6.15. MAIN-10 ............................................................................................................................... 6 − 17 6.16. SMPS–1 (PFC BLOCK) ........................................................................................................... 6 − 18 6.17. SMPS–2 (PVDD(+, –) BLOCK)................................................................................................. 6 − 19 6.18. SMPS–3 (EMI & MULTI – BLOCK) .......................................................................................... 6 − 20
Copyright© 1995-2013 SAMSUNG. All rights reserved.
ii
1. Precaution
1. Precaution Follow these safety instructions while servicing the ESD to prevent damage and to protect against potential hazards such as electrical shock and X-rays.
1.1. Safety Precautions 1) When reinstalling the chassis and its assemblies, be sure to restore all of the protective devices, including the control knobs and the compartment covers. 2) Make sure that there are no cabinet openings through which people (particularly children) can make with dangerous internal components. 3) Design Alteration Warning : Never alter or add to the mechanical or electrical design of the unit. Example : Do not add auxiliary audio or video connectors. Such alterations might create a safety hazard. Also, any design changes or additions will void the manufacturer’s warranty. 4) Leakage Current Hot Check Figure 1.1 AC Leakage Test : WARNING Do not use an isolation transformer during this test. Use a leakage-current tester or a metering system that complies with American National Standards Institute (ANSI C101.1, Leakage Current for Appliances), and Underwriters Laboratories (UL Publication UL1410, 59.7).
With the unit completely reassembled, plug the AC cord directly into a 120 V AC outlet. With the unit’s power switched from the ON to the OFF position, measure the current between a known ground and all exposed metal parts. Known Grounds - Earth Known Metal parts - Screwheads, Metal Cabinets, etc.
LEAKAGE (READING CURRENT SH OULD NOT BE TES TER ABOVE 0.5mA)
DEVICE UNDER TES T TES T ALL EXPO S ED METAL SU RFACES 2-WIRE CORD ALSO TES T WITH PLUG REVER S ED (US ING AC ADAPTER P LUG AS R EQ UIRED)
EARTH GROUND
Figure 1.1 AC Leakage Test
1-1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1. Precaution
5) Insulation Resistance Cold Check : (1) With the unit’s AC plug disconnected from the AC source, connect an electrical jumper across the two AC prongs. (2) Set the power switch to ON. (3) Measure the resistance between the shorted AC plug and any exposed metallic parts. Example : Screwheads, Metal Cabinets, Antenna Port, etc. If any of the exposed metallic parts has a return path to the chassis, the measured resistance should be between 1 and 5.2 megohms. If there is no return path, the measured resistance should be “infinite”. If the resistance is outside these limits, a shock hazard might exist. See Figure 1.2 Insulation Resistance Test
Ante nna Term inal
Expo s ed Meta l P a rt oh m Ohmmet er
Figure 1.2 Insulation Resistance Test
6) Components, parts and wiring that appear to have overheated or that are otherwise damaged should be replaced with parts that meet the original specifications. Always determine the cause of damage or overheating, and correct any potential hazards. 7) Observe the original lead dress, especially near the following areas : Antenna wiring, sharp edges, and especially the AC and high voltage power supplies. Always inspect for pinched, out-of-place, or frayed wiring. Do not change the spacing between components and the printed circuit board. Check the AC power cord for damage. Make sure that no wires or components touch thermally hot parts. 8) Product Safety Notice : Some electrical and mechanical parts have special safety-related characteristics which might not be obvious from visual inspection. These safety features and the protection they give might be lost if the replacement component differs from the original–even if the replacement is rated for higher voltage, wattage, etc. 9) Components that are critical for safety are indicated in the circuit diagram by shading, or . Use replacement components that have the same ratings, especially for flame resistance and dielectric strength specifications. A replacement part that does not have the same safety characteristics as the original might create shock, fire or other hazards.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1-2
1. Precaution
1.2. Servicing Precautions 1) Servicing precautions are printed on the cabinet. Follow them. 2) Always unplug the unit’s AC power cord from the AC power source before attempting to : (a) Remove or reinstall any component or assembly, (b) Disconnect an electrical plug or connector, (c) Connect a test component in parallel with an electrolytic capacitor. 3) Some components are raised above the printed circuit board for safety. An insulation tube or tape is sometimes used. The internal wiring may be clamped to prevent with thermally hot components. Reinstall all such elements to their original position. 4) After servicing, always check that the screws, components and wiring have been correctly reinstalled. Make sure that the portion around the serviced part has not been damaged. 5) Check the insulation between the blades of the AC plug and accessible conductive parts (examples : metal s, input terminals and earphone jacks). 6) Insulation Checking Procedure : Disconnect the power cord from the AC source. Connect an insulation resistance meter (500 V) to the blades of the AC plug. The insulation resistance between each blade of the AC plug and accessible conductive parts (see above) should be greater than 1 megohm. 7) Never defeat any of the B+ voltage interlocks. Do not apply AC power to the unit (or any of its assemblies) unless all solid-state heat sinks are correctly installed. 8) Always connect a test instrument’s ground lead to the instrument chassis ground before connecting the positive lead; always remove the instrument’s ground lead last. CAUTION First read the “Safety Precautions” section of this manual. If some unforeseen circumstance creates a conflict between the servicing and safety precautions, always follow the safety precautions.
1-3
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1. Precaution
1.3. Precautions for Electrostatically Sensitive Devices (ESDs) Some semiconductor (“solid state”) devices are easily damaged by static electricity. Such components are called Electrostatically Sensitive Devices (ESDs). Examples include integrated circuits and some field-effect transistors. The following techniques will reduce the occurrence of component damage caused by static electricity : 1) Immediately before handling any semiconductor components or assemblies, drain the electrostatic charge from your body by touching a known earth ground. Alternatively, wear a discharging wrist-strap device. (Be sure to remove it prior to applying power–this is an electric shock precaution.) 2) After removing an ESD-equipped assembly, place it on a conductive surface such as aluminum foil to prevent accumulation of electrostatic charge. 3) Do not use freon-propelled chemicals. These can generate electrical charges that damage ESDs. 4) Use only a grounded-tip soldering iron when soldering or unsoldering ESDs. 5) Use only an anti-static solder removal device. Many solder removal devices are not rated as “anti-static” (these can accumulate sufficient electrical charge to damage ESDs). 6) Do not remove a replacement ESD from its protective package until you are ready to install it. Most replacement ESDs are packaged with leads that are electrically shorted together by conductive foam, aluminum foil or other conductive materials. 7) Immediately before removing the protective material from the leads of a replacement ESD, touch the protective material to the chassis or circuit assembly into which the device will be installed. 8) Minimize body motions when handling unpackaged replacement ESDs. Motions such as brushing clothes together, or lifting a foot from a carpeted floor can generate enough static electricity to damage an ESD.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1-4
1. Precaution
1.4. Installation Precautions 1) Keep the product away from a heat source such as candle light, mosquito repellent incense, heating equipment, or direct sunlight. Otherwise, this may cause fire. 2) Do not install the product on a place that is shaking, tilted, unstable, or seriously vibrating. The product may drop to get damaged or injure a person. If using the product in a highly vibrating place, it may be broken or cause fire. 3) When moving the product, turn off the power switch and unplug all the connected cables with the product such as the power plug and antenna cable. If the power cord is damaged, this may cause electric shock or fire. 4) Secure room for ventilation. Keep at least 10 cm of distance from the rear wall, and at least 5 cm from either side wall. 5) Installing the product in a special place like below rather than normal environment may cause serious quality concerns due to its special conditions. If this is the case, make sure to a local Samsung service center before installing the product. (Special places: a place where a large amount of dust is accumulated; where chemical substances are used or the ambient temperature is too high or low; a place that is full of moisture or water; in transportation vehicles such as a car; or in public places such as the airport or subway station where the product is supposed to operate uninterruptedly for a long time) 6) Keep the packaging plastic wrapper out of children's reach. If children play with it improperly, they may get suffocated. 7) If installing the product on a display cabinet, shelf, desk, etc., keep the product from protruding on its lower side. If the product falls, it may break or cause physical injury. Use only the display cabinet or shelf that fully covers the product. 8) If using lithium batteries, carefully read the following precautions: NOTE •
Ensure the batteries are inserted in the right direction. Otherwise, they may cause an explosion. Dispose of used batteries according to the manufacturer's instructions.
•
Do not expose the battery to fire.
•
Do not disassemble, short - cut, or heat the battery.
•
Use only the same type and size of batteries for replacement.
•
Do not expose the battery to fire or excessive heat.
1-5
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2. Product Specification
2. Product Specification 2.1. Product Feature ■ Power
• 2.2 CH : 3400 W Total RMS / 40800 W PMPO ( Front : 850 W / CH, Subwoofer : 850 W / CH) • IR Amp ■ Specialized Function in 2014
• 3D Display • Big Size Speaker Unit • DJ Effect • LED Lighting ■ Connectivity
• USB Host (Twin USB) • Portable Audio In (3.5 phi Stereo Jack) • MIC Input (6.3 phi Stereo Jack) • FM • Bluetooth ■ Disc
• Type : 1 Slot In (12 cm CD) • Compatible : MP3, CD/CD-R, RW, WMA
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2-1
2. Product Specification
2.2. Specifications ■ Basic Specification Power Requirements
AC 110 - 240 V ~ 50 / 60 Hz
Power Consumption
146 W Main Unit : 8 Kg
Weight Speakers : 65.6 Kg General
FM Tuner
AM Tuner (optional)
Dimensions
Main Unit : 588 (W) x 238 (H) x 388 (D) mm
(W x H x D)
Speakers : 588 (W) x 887 (H) x 548 (D) mm
Operating Temperature Range
+5 °C ~ +35 °C
Operating Humidity Range
10 % to 75 %
Signal/Noise ratio
55 dB
Usable sensitivity
10 dB
Total harmonic distortion
1%
Signal/Noise ratio
30 dB
Usable sensitivity
70 dB
Total harmonic distortion
4% Reading Speed : 4.8 ~ 5.6 m/sec.
CD Disc
CD : 12 cm (COMPACT DISC) Maximum Play Time : 74 min. Front speaker output
850 W / CH (4 Ω)
Subwoofer output
850 W / CH (4 Ω)
Frequency range
22 Hz ~ 20 KHz
S/N Ratio
65 dB
Channel separation
60 dB
Input sensitivity
AUX IN1 1.2 V, AUX IN2 2 V
Amplifier
NOTE • Samsung Electronics Co., Ltd reserves the right to change the specifications without notice. • Weight and dimensions are approximate. • Design and specifications are subject to change without prior notice. • For the power supply and Power Consumption, refer to the label attached to the product.
2-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2. Product Specification
2.3. Specifications Analysis Model Name
MX-HS9000
MX-HS8000
MX-FS9000
MAX OUTPUT POWER
3400 W (PMPO : 40800 W)
2300 W (PMPO : 27600W)
2560 W (PMPO : 30720 W)
SPK CHANNEL
2.2 ch
2.2 ch
2.2 ch
FRONT DISPLAY
1C-FLT [Dot]
1C-FLT [Dot]
1C-FLT [Dot]
3D DISPLAY
3D
2D
3D
GIGA SOUND
O
O
O
SPK LED LIGHTING
ALL
Subwoofer
ALL
DJ EFFECT
O
O
O
BEAT WAVING
O
O
O
COMPATIBLE DISC
CD-R / CD-RW / MP3-CD
CD-R / CD-RW / MP3-CD
CD-R / CD-RW / MP3-CD
COMPATIBLE FILE
WMA / MP3
WMA / MP3
WMA / MP3
USB HOST 2.0
2
2
2
CD RIPPING
O
O
O
BLUETOOTH
O
O
O
AUDIO IN (RCA/3.5ø)
O / O
O / O
O / O
MIC IN
O (6.3 phi)
O (3.5 phi)
O (3.5 phi)
HEADPHONE OUT
X
X
X
VIDEO OUT
X
X
X
FM
O
O
O
SPK IMPEDANCE
Front : 4 Ω / Woofer : 4 Ω
Front : 4 Ω / Woofer : 4 Ω
Front : 4 Ω / Woofer : 4 Ω
POWER CONSUMPTION
STBY : 0.45 W ↓ NORMAL : 146 W
STBY : 0.45 W ↓ NORMAL : 137 W
STBY : 0.45 W ↓ NORMAL : 80 W
23.1 (W) X 9.4 (H) X 15.3 (D)
21.7 (W) X 8.3 (H) X 14.4 (D)
23.1 (W) X 9.4 (H) X 15.3 (D)
23.1 (W) X 34.9 (H) X 21.6 (D)
25.5 (W) X 25.7 (H) X 17.3 (D)
23.1 (W) X 39 (H) X 22.7 (D)
MAIN : 17.64 / SPK : 144.62
MAIN : 15.43 / SPK : 143.3
MAIN : 17.64 / SPK : 154.32
Photo
MAIN SIZE (inch) SPK SIZE (inch) TOTAL WEIGHT (lbs)
TIP O : Feature Included X : Not Included
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2-3
2. Product Specification
2.4. Accessories 2.4.1. Supplied Accessories Accessories
2-4
Item
Item code
’s Manual
AH68-02687D
Remote Control
AH59-02613A
Batteries (AAA)
4301-000116
FM Antenna
AH42-00021A
Power Cable
3903-000467
FOOT Rubber
AH67-00696A
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
3. Disassembly and Reassembly 3.1. Overall Disassembly and Reassembly CAUTION •
Be careful to follow the disassembly sequence described in the manual. Otherwise, the product may be damaged.
•
Be sure to carefully read and understand the safety instructions before performing any work as the IC chips on the PCB are vulnerable to static electricity.
•
In order to assemble reverse the order of disassembly.
•
With a hand screwdriver, to prevent damage to the outside case. Description
1.
Description Photo
Unfasten 6 screws on each Side. : BH,+,B,M3,L10,ZPC(BLK) CAUTION Be careful not to make any scratches as you remove them.
2.
Unfasten 3 screws on the Back and Lift the top cover to Separate it from bottom chassis. : BH,+,B,M3,L10,ZPC(BLK)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
Lift
3-1
3. Disassembly and Reassembly
Description 3.
Unfasten 6 black screws and 2 white screws on the SMPS cover. : BH,+,B,M3,L10,ZPC(BLK) ( ) - 6EA : BH,+,-B,M3,L6,ZPC(WHT) ( ) - 2EA
4.
Unfasten 4 screws on the MAIN ASSY and 7 screws on the SMPS. : BH,+,-B,M3,L8,ZPC(WHT) ( ) - 4EA ) - 6EA : BH,+,B,M3,L10,ZPC(BLK) ( : BH,+,S,M4,L8,ZPC(WHT) ( ) - 1EA
Description Photo
Unplug all Wire and Cable. (blue marked)
5.
3-2
Unfasten 5 screws on the back. : BH,+,B,M3,L10,ZPC(BLK)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description 6.
Description Photo
Unplug 3 Lug wires from bottom chassis.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-3
3. Disassembly and Reassembly
Description 7.
Pull the Holder using finger and separate it from bottom chassis.
8.
Unplug all Wire and Cable (blue marked) Release 2 Wire Holder.
9.
Unfasten 6 screws (red marked) to disassemble white display lighting kitting. : BH,+,B,M3,L10,ZPC(BLK)
3-4
Description Photo
Wire Ho ld e r
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
10. Push the furrow and take VFD Assy out from bowl.
11. Unfasten 3 screws. : BH,+,B,M3,L10,ZPC(BLK)
12. Separate cover and VFD Assy.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-5
3. Disassembly and Reassembly
Description
Description Photo
13. Unfasten 3 screws. : BH,+,B,M3,L10,ZPC(BLK)
14. Take black one out from bowl.
Ta ke it o u t fro m le ft
15. Take red one out from bowl.
16. Take blue one out from bowl.
3-6
Ta ke it o u t fro m le ft
Ta ke it o u t fro m le ft
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description 17. Take red one out from bowl.
18. Take black & blue one out from bowl.
Description Photo
Ta ke it o u t fro m le ft
Ta ke it o u t fro m le ft
19. Unfasten 3 screws and Take white one out from bowl. : BH,+,B,M3,L10,ZPC(BLK)
Ta ke it o u t fro m le ft
20. Take LED PCB Assy out from bowl.
Ta ke it o u t fro m le ft
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-7
3. Disassembly and Reassembly
Description
Description Photo
CAUTION Have to put into the proper furrow.
21. Unfasten 2 screws and unplug 2 wires. : BH,+,B,M3,L10,ZPC(BLK)
3-8
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
22. Unfasten 1 screw to separate JACK PCB and bracket. : BH,+,B,M3,L10,ZPC(BLK)
23. Take both jog wheel out from Front kit.
Ta ke it o u t
Ta ke it o u t
24. Turn over the Front kit.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-9
3. Disassembly and Reassembly
Description
Description Photo
25. Unfasten 12 screws on the function PCB. ; BH,+,B,M3,L10,ZPC(BLK)
26. Push the 6 PCB holder and pull the 2 PCBs. (left, right PCB)
27. Pull up the BT module on the connector.
3-10
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
28. Unfasten 2 screws on the rear to remove the Fan Assy. ; BH,+,B,M3,L10,ZPC(BLK)
29. Disassemble 3 Pin FAN.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-11
3. Disassembly and Reassembly
3.2. DECK Disassembly and Reassembly Description 1.
Unfasten 4 screws. ; BH,+,B,M3,L10,ZPC(BLK)
2.
Unfasten 4 screws. ; BH,+,B,M3,L10,ZPC(BLK)
Description Photo
Ho ld e r
Bo tto m S id e
3-12
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4. Troubleshooting 4.1. Checkpoints by Error Mode Oscilloscope Setting Values
Normal Voltage
24 MHz
32.768 KHz
Voltage/DIV
1 Vol/DIV
1 Vol/DIV
1 Vol/DIV
TIME/DIV
1 uS/DIV
10 ns/DIV
0.1 uS/DIV
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-1
4. Troubleshooting
4.1.1. No Power No P owe r
No
Is # 75 pin of UIC1 high?
Are #1~3 pins of P CN1 5.3V?
No
Re pla ce S MP S .
Ye s
Ye s
Re pla ce MAIN P CB.
(1) Che ck wa ve of MICOM Crys ta l. (UX2)
Ye s
No
Re pla ce MAIN P CB.
* Re fe r to wa ve pa tte rn ima ge of Fig. 4-1.
Check whether Function PCB and FFC are normal or not.
No
Re pla ce Function P CB / FFC.
Ye s
Re pla ce MAIN P CB.
4-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
P01/ TO00 P00/ TI00 P124/XT2/EXCLKS
/RESET
UAR2
2A3< 2A3< 2B3< 2B3< 2B3< 2B3<
MIC6
(1)
1
TP48
Q0
Q3
2E4>
UR29
1/16W 330KOHM
TP52
UR39
1/16W 10MOH M
MICOM_RST
FL_LED1 FL_LED2 FL_LED3
GIC2 1
2D5>
2D6<
MIC1 6
FR_LED7
* 5.6. MAIN P CB Top
2E4>
1.0
FR_LED1 FR_LED2 FR_LED3 FR_LED4 FR_LED5 FR_LED6
2D3<
UAR1
2C3<
100OHM +-250PPM/C
2C3<
8 6 4 2 8 100OHM 6 +-250PPM/C 4 2
1.0
UR60 UR61 UR62
(1)
AL3.3V_P W
1/16 W UBR1 1KOHM
P40/TOOL0
P41
P42/TI04/TO04
P43/SCK01-/SCL01
P44/SI01/SDA01
P45/SO01
P46/INTP1/TI05/TO05
P47/INTP2
P120/ANI19
7 5 3 1 7 5 3 1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
1/16W 1/16W 1/16W 100OHM 100OHM 100OHM
UR100
TP_R ST_TOP
P141/PCLBUZ1/INTP7
P144/ SO30/TxD3
P143/ SI30/RxD3/SDA30
3.3KOH M 1/16W
MICOM_RS T
P140/PCLBUZ0/INT6
P142/SCK30-/SCL30
P145/ TI07/TO07
AL3.3V_P W
MICOM_RS T
R5F100PGAFB
P02/ ANI17/ SO10/TxD1
UIC1
UIC1
P03/ SI10/RXD1/SDA10
UAR33
100OH M 100OH M
P102/ TI06/TO06
UAR32
(1)
P04/ SCK10-/ SCL10
100OH M
UAR31
P130
UR35
P20/ ANI0/AVREFP
100OHM 1/10W 200OHM 1/10W
UR34
_FANET_TX D _FANET_RX D
90 91 92 93 94 95 96 97 98 99 100
100OH M 100OH M
UAR19 UAR30
4
MC-146(32.768KHZ,20PPM)
32.768H Z UX2
3
12PF
Q2
50V
Q1
UC39
50V
UC24
12PF
UCN1
2
UR50
MIC1 DGND
* 6.7. MAIN-2
AL3.3V_P W Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-3
4. Troubleshooting
4.1.2. No Output No output
Me a s ure P VDD+/- 63V of S MP S . (CN801)
No
Re pla ce S MP S .
Ye s Me a s ure GVDD51V of MAIN P CB. (AIC2001)
No
Re pla ce MAIN P CB.
Ye s Me a s ure PBD 14(-5V)&P BD11(+5V) of MAIN P CB.
No
Are #9~10 pins of P CN1 12.5V?
Ye s
No
Re pla ce S MP S .
Ye s Re pla ce MAIN P CB. P ut S ine wa ve file into AUX or CD/US B.
Input s igna l is s hown a t pin#3 of IRS 2092 ICs .
No
Input signal is shown at pin#1,7 of AIC3001, AIC4002.
Ye s
No
Ye s
Input signal is shown at pin#13 of IRS2092 IC.
No
Input signal is shown at pin#2,3,6,7 of AIC3001,AIC4002.
No
Re pla ce MAIN P CB.
Ye s
Re pla ce AIC3001,4002.
Re pla ce IRS 2092 IC.
Ye s (1) Input signal is shown at SPK jack. Ye s
Input s igna l is s hown a t AL1,2,3,4.
* Re fe r to wa ve pa tte rn ima ge of Fig. 4-2.
Re pla ce S pe a ke r.
4-4
No
No
Re pla ce MAIN P CB.
Ye s
Re pla ce AL1,2,3,4.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
AC3108
10NF 100V 10NF 100V
SPK_FL
AC3109
1.2KOHM 1/4W 1.2KOHM 1/4W
AR3144 AR3145
100NF 250V 10OHM 1W
AC3104 AR3139
400V S1G
470NF 250V
AD3018
OPEN 10NF 100V
DBF-2022A
AC3203
(1)
UNDEFINED AC3100
AL1
GCN1
47KOHM
(1)
1130_EMI OP TION
GCN1 410F10>GCN1 8D1< 2 GCN1 3 10C 10> D 9F10> (1)
AR3143
400V S1G
AD3017
10NF 100V
AC3204
OPEN
4. Troubleshooting
8B8< NCN1
9E10<
UIC1
SGN D -PVDD-66V
GIC 2 1
* 5.6. MAIN P CB Top
B_SGND_3
B_SPK_FL B_SPK_SWL
(1)
UCN1
ACN3001
ST0290731P
UNDEFINED
AIC3005
-
AIC3004
9C10> 8B8<
+
SPK_F L
4 2 1 3
+
SPK_L_SW +
-
9F10>
MGND1
LEFT HOLE FROM OUTSIDE
AIC3006
SGND AIC3003
AIC400 2
* 6.14. MAIN-9
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-5
4. Troubleshooting
4.2. Measures to be taken when the Protection Circuit operates 4.2.1. Operation of Power Block Protection Circuit ■ Cases of the SMPS Protection. 1) If there is over current at the AMP IC. (Speaker Wire Short) 2) If temperature of the AMP IC is over 150 ℃. 3) There is no power supply for amp.
■ Protection Circuit operates when power problem occurs in the SMPS. Protection Location
PCN1 SMPS PCB
Pin No.
Note Open
Short
+ST5.3 V (1~3#)
X
O
VSS-5 V (8#)
X
X
12 V (9#)
X
X
X
O
X
O
-PVDD (about -63 V) (8~10#)
X : No Concern O : Concern
ACN1002 +PVDD (about +63 V) (1~3#)
4-6
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4.2.2. Check AMP in Power Protection If you think, there are problems at the AMP Part, you can check the PCB without disassembling the set. CAUTION Do not connect the power cord during bellow check! Measurement Resistance using Tester F/R CH
2.2 kΩ
SUBWOOFER
2.2 kΩ
REAR
2.2 kΩ
If Measured Resistance is very different from above numbers, There is a Problem. → AMP Part Problem
2 . 2 C H S P E AK E R O U T
FR
FL
SW R
SW L
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-7
4. Troubleshooting
4.3. MICOM, MPEG Initialization & Update ■ MICOM/MPEG Reset
• During “No Disc” Displayed, push the stop Button 5 seconds. After displayed ‘INITIALIZE’ set will power off automatically.
■ MPEG Update 1) Prepare Rom file at USB Memory. (WWB) 2) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off → on.
■ MICOM (MAIN / FRONT) Update 1) Prepare Rom file at USB Memory. (MAIN : WWM, FRONT : WWF) 2) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off when finish.
■ MEDIA File Update 1) Prepare Rom file at USB Memory (DXM) 2) ) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off → on.
■ MICOM & MPEG Version Check 1) POWER ON. 2) NO DISC status. 3) Push the number NEXT for 5 seconds, check the MICOM version. (MAIN / FRONT) 4) Push the number PREVIOUS for 5 seconds, check the Mpeg version.
4-8
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4.4. Buyer-Region Code Setting Method 4.4.1. The inserting method of Region Code after replacing the Main PBA NOTE •
When replacing the Main PBA and System Micom should be inserted the region code.
•
The set is not working properly if you don't insert the region code.
•
The region code is inserted by the remote control.
1) Power on the device. 2) Change the Function to AUX1. 3) Press and Hold ENTER for about 10 seconds.
<MX-HS9***>
4) When you see “TEST – –” input 46 to set the buyer region.
TES T- 5) When you see “- - -” on the display, input your buyer code, refer to the table below. For USA use “015”.
−−− 6) It will show the buyer that you set up. Then the buyer setting is succeed.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-9
4. Troubleshooting
Table 4.1
MX-HS9000 Option Table
Region Code
Buyer
00
Africa, Nigeria, Pakistan
01
BRAZIL
02 03
China (semi_mic)
04
Europe
05
Indonesia, HONGKONG
06
JAPAN
07
KOR
08
Latin American, Panama
09 10
Philippines
11
Russia (full_mic)
12
Russia (semi_mic)
13
South Africa
14
Taiwan
15
USA, CANADA
16
Newzealand, Australia
17
England
18
4-10
19
Iran (HACO)
20
India
21
Israel
22
Middle Asia, Kenya,Morocco, Algeria, Turkey
23
Asia
24
Singapore
25
KOR
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5. PCB Diagram 5.1. Wiring Diagram MCN8
AMP
CD_VR
13
A
CD_VR
2
CD_MPD
14
E
CD_MPD
3
CD_LD
15
F
CD_LD
A F
4
LD_GND
16
PDIC
LD_GND
PDIC
5
VREF
SW
E
SW
17
6
F-
18
GND
F-
GND
7
T-
19
DVD_VR
T-
DVD_VR
8
DECK
VREF
T+
20
PD_GND
T+
PD_GND
9
F+
21
DVD_LD
F+
DVD_LD
1
+PVDD+63V
+PVDD+63V
1
10
B
22
RF
B
RF
2
+PVDD+63V
+PVDD+63V
2
11
C
23
VCC_5V
C
VCC_5V
3
+PVDD+63V
+PVDD+63V
3
12
D
4
+PVDD+63V
+PVDD+63V
4
CDMO-
5
SGND
SGND
5
SLED-
DGND
6
SGND
SGND
6
SLED+
DCLOAD_P
7
SGND
SGND
7
1
CDMO+
6
INSW
DCLOAD_N
8
SGND
SGND
8
2
CDMO-
7
INSW
9
SGND
SGND
9
3
SLED-
8
DGND
10
SGND
SGND
10
4
SLED+
9
DCLOAD_P
11
SGND
SGND
11
5
INSW
10
DCLOAD_N
12
SGND
SGND
12
13
-PVDD-63V
-PVDD-63V
13
1
SPK_FL
1
14
-PVDD-63V
-PVDD-63V
14
1
SPK_FL
1
SGND
2
SGND
2
SPK_FR
15
-PVDD-63V
-PVDD-63V
15
2
SGND
2
SPK_FR
3
SGND
3
SPK_R_SW+
16
-PVDD-63V
-PVDD-63V
16
3
SGND
3
SPK_R_SW+
4
SPK_L_SW+
4
CN801
SMPS
1
ACN1002
CN802
D
CDMO+
CN15
ACN3001
MAIN
PCN1
4
OUTSW
ACN4001
GCN11
SPK_L_SW+ 4
SGND GCN12
ST5.3V_PW
1
2
ST5.3V_PW
ST5.3V_PW
2
1
FR_B
1
SWR_B
1
FR_B
1
SWR_B
3
ST5.3V_PW
ST5.3V_PW
3
2
FR_G
2
SWR_G
2
FR_G
2
SWR_G
4
DGND
DGND
4
3
FR_R
3
SWR_R
3
FR_R
3
SWR_R
4
FR5V
4
SWR5V GCN14
4
FR5V
4
SWR5V
1
FL_B
1
SWL_B
FL_B
1
SWL_B
2
FL_G
2
SWL_G
DGND
5
DGND
DGND
6
7
VARI_SMPS
DGND
VARI_SMPS
7
1
GCN13
8
VSS-5V
VSS-5V
8
2
FL_G
2
SWL_G
3
FL_R
3
SWL_R
9
12V_PW
12V_PW
9
3
FL_R
3
SWL_R
4
FL5V
4
SWL5V
10
12V_PW
12V_PW
10
4
FL5V
4
SWL5V
11
DGND
DGND
11
12
P_ON
P_ON
12 UCN1
SPEAKER
FCN1 FCW1
FCW2
1
12V_PW
1
12V_PW
2
VF_GND
2
VF_GND
1
D5.1V_PW
D5.1V_PW
11
3
VF_GND
3
VF_GND
2
LED_LEVEL6
LED_LEVEL6
10
4
KEY_AD2
4
KEY_AD2
3
LED_LEVEL5
LED_LEVEL5
9
5
KEY_AD1
5
KEY_AD1
4
LED_LEVEL4
LED_LEVEL4
8
6
REMO_IN
6
REMO_IN
5
LED_LEVEL3
LED_LEVEL3
7
7
LED5.0V_PW
7
LED5.0V_PW
6
LED_LEVEL2
LED_LEVEL2
6
8
LED5.0V_PW
8
LED5.0V_PW
7
LED_LEVEL1
LED_LEVEL1
5
8
9
DGND
9
10
DGND
10
DGND
11
LOG_RXD1
11
LOG_RXD1
DGND
12
LOG_TXD1
12
LOG_TXD1
13
VFD1_RXD
13
VFD1_RXD
14
VFD1_TXD
14
VFD1_TXD
15
ST5.3V_PW
15
ST5.3V_PW
FRONT-R
KEY_AD2
KEY_AD2
4
9
JOG_DN
JOG_DN
3
10
JOG_UP
JOG_UP
2
11
DGND
DGND
1
CN1 1
SCN1
TCN1
Lighting
SGND
ST5.3V_PW
6
INSW
SGND
1
5
OUTSW
BTCN1
VCN1 V_STB
1
2
V_DT
V_DT
2
3
V_STB V_BLK
V_BLK
3
4
V_CLK
V_CLK
4
1
USB1_5V
5
D5.1V_PW
D5.1V_PW
5
2
USB1_DN
1
PIN2
6
VP
VP
6
3
USB1_DP
2
PIN1
7
VFD-
VFD-
7
4
USB1_GND
3
GND
8
VFD+_GND
VFD+_GND
8
AUX_MIC_SEN
1
5
USB1_LED
4
FCN4
9
VFD+
VFD+
9
12.5V_PW
2
6
USB2_5V
5
SCL
1
D5.1V_PW
10
VFD_GND
VFD_GND
10
MIC_SIG
3
7
USB2_DN
6
GND2
2
L_LED1
11
DGND
DGND
11
SDA
FRONT-L
DGND
4
8
USB2_DP
7
BT_TXD
3
L_LED2
12
ST5.1V
ST5.1V
12
AUX_R
5
9
USB2_GND
8
BT_RXD
4
H_LED3
13
REMOCON
REMOCON
13
DGND
6
10
USB2_LED
9
3.3V_PW
5
H_LED4
AUX_L
7
11
KEY_USB
10
BT_RST
AUX_MIC_SEN
1
1
USB1_5V
12.5V_PW
2
2
USB1_DN
1
PIN2
3
L_LED2
MIC_SIG
3
3
USB1_DP
2
PIN1
4
H_LED3
DGND
4
4
USB1_GND
3
GND
5
H_LED4
AUX_R
5
5
USB1_LED
4
DGND
6
6
USB2_5V
5
SCL
AUX_L
7
7
USB2_DN
6
GND2
8
USB2_DP
7
BT_TXD
9
USB2_GND
8
BT_RXD
10
USB2_LED
9
3.3V_PW
11
KEY_USB
10
BT_RST
VFD
LCN1 KCN2
SCN1
1 CN1
2
D5.1V_PW L_LED1
SDA
LED
USB&AUX BT MODULE
MIC CF2
CF1
1 GND 2 MIC_VR 3 GND
MIC_SENSE GND MIC_VR
1 2 3
4 MIC_SENSE
GND
4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-1
5. PCB Diagram
5.2. FUNCTION PCB Top
FCW2
(1) (2) (3) (4) FCN1
CN1
KCN1
FCN4
S CN1
FCW1
FCN2
5-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.2.1. Pin Connection 1) CN1
3) FCN4
Connect to VFD PCB
Connect to Front LED PCB
Pin No.
Signal
Pin No.
Signal
1
V_STB
1
D5.1V_PW
2
V_DT
2
L_LED1
3
V_BLK
3
L_LED2
4
V_CLK
4
H_LED3
5
D5.1V_PW
5
H_LED4
6
VP
7
VFD-
8
VFD+_GND
9
VFD+
Pin No.
Signal
10
VFD_GND
1
D5.1V_PW
11
DGND
2
LED_LEVEL6
12
ST5.1V
3
LED_LEVEL5
13
REMOCON
4
LED_LEVEL4
5
LED_LEVEL3
6
LED_LEVEL2
7
LED_LEVEL1
2) FCN1 Connect to Main PCB
4) FCW1 Connect to Front_L, KEY, LED, JOG
Pin No.
Signal
8
KEY_AD2
1
12V_PW
9
JOG_DN
2
VF_GND
10
JOG_UP
3
VF_GND
11
DGND
4
KEY_AD2
5
KEY_AD1
6
REMO_IN
7
LED5.0V_PW
8
LED5.0V_PW
9
DGND
10
DGND
11
LOG_RXD1
12
LOG_TXD1
13
VFD1_RXD
14
VFD1_TXD
15
ST5.3V_PW
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-3
5. PCB Diagram
5.3. FUNCTION PCB Bottom
FCW2
KCN1
CN1
FCN4
FCW1
S CN1
FCN1
FCN2
5-4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.4. VFD PCB Top/Bottom
(1)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
VCN1
VCN1
5-5
5. PCB Diagram
5.4.1. Pin Connection 1) VCN1 Connect to Front_R, VFD, EYE
5-6
Pin No.
Signal
1
V_STB
2
V_DT
3
V_BLK
4
V_CLK
5
D5.1V_PW
6
VP
7
VFD-
8
VFD+_GND
9
VFD+
10
VFD_GND
11
DGND
12
ST5.1V
13
REMOCON
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.5. LED PCB Bottom
(1)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
LCN1
5-7
5. PCB Diagram
5.5.1. Pin Connection 1) LCN1 Connect to Front_R, LED
5-8
Pin No.
Signal
1
D5.1V_PW
2
L_LED1
3
L_LED2
4
H_LED3
5
H_LED4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.6. MAIN PCB Top
(1) (2) TP1
(14) GCN1 3
(3) (4)
GCN1 4
GCN1 2
(13)
GCN1 1
ACN4 0 0 1
ACN3 0 0 1
NCN1
UCN1 9
CN2
MCN1 8
UIC1 MCN 1 3
ACN1 0 0 2
(5)
TP 1
MIC7 MIC1 6 MIC6
GIC2 1
MIC9
(12) UCN1
MIC1
(11)
P IC1 1 AIC3 0 0 4
AIC3 0 0 5
AIC3 0 0 6
BTCN1
AIC3 0 0 6
MIC1 0 AIC3 0 0 3
AIC4 0 0 2
(10)
S IC2
MCN8
AIC3 0 0 1
AP WMIC1
(6) (7)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
MIC1 7
P CN1
TCN2
S CN1
CN15
(9) (8)
5-9
5. PCB Diagram
5.6.1. Pin Connection 1) GCN14
5) ACN1002
Left SUBWOOFER lighting Connector
Amp Voltage +/-63v
10) MCN8
AUX1/MIC Control
12) UCN1
Deck Control (Focus/Data)
Controls the set
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
1
SWL_B
1
+PVDD+63V
1
AUX_MIC_SEN
1
CD_VR
1
12V_PW
2
SWL_G
2
+PVDD+63V
2
12.5V_PW
2
CD_MPD
2
VF_GND
3
SWL_R
3
+PVDD+63V
3
MIC_SIG
3
CD_LD
3
VF_GND
4
SWL5V
4
+PVDD+63V
4
DGND
4
LD_GND
4
KEY_AD2
5
SGND
5
AUX_R
5
SW
5
KEY_AD1
6
SGND
6
DGND
6
F-
6
REMO_IN
7
SGND
7
AUX_L
7
T-
7
LED5.0V_PW
8
SGND
8
T+
8
LED5.0V_PW
9
F+
9
DGND
10
B
10
DGND
2) GCN13 Left Font SPK lighting Connector Pin No.
Signal
1
FL_B
9
SGND
8) SCN1 USB1/USB2 Control
2
FL_G
10
SGND
3
FL_R
11
SGND
Pin No.
Signal
11
C
11
LOG_RXD1
4
FL5V
12
SGND
1
USB1_5V
12
D
12
LOG_TXD1
13
-PVDD-63V
2
USB1_DN
13
A
13
VFD1_RXD
14
-PVDD-63V
3
USB1_DP
14
E
14
VFD1_TXD
15
-PVDD-63V
4
USB1_GND
15
F
15
ST5.3V_PW
16
-PVDD-63V
5
USB1_LED
16
PDIC
6
USB2_5V
17
VREF
7
USB2_DN
18
GND
8
USB2_DP
19
DVD_VR
Pin No.
Signal
3) ACN3001 SPK Jack Connector_L Pin No.
Signal
1
SPK_FL
2
SGND
3
SGND
4
SPK_L_SW+
4) ACN4001 SPK Jack Connector_R
5-10
7) TCN2
6) PCN1 ST5.3V ,12V,-5V and so on
13) GCN11 Right Font SPK lighting Connector
Pin No.
Signal
9
USB2_GND
20
PD_GND
1
FR_B
1
ST5.3V_PW
10
USB2_LED
21
DVD_LD
2
FR_G
2
ST5.3V_PW
11
KEY_USB
22
RF
3
FR_R
3
ST5.3V_PW
23
VCC_5V
4
FR5V
9) CN15
Pin No.
Signal
4
DGND
1
SGND
5
DGND
2
SPK_FR
6
DGND
Pin No.
Signal
3
SPK_R_SW+
7
VARI_SMPS
1
CDMO+
Pin No.
Signal
Pin No.
Signal
4
SGND
8
VSS-5V
2
CDMO-
1
PIN2
1
SWR_B
9
12V_PW
3
SLED-
2
PIN1
2
SWR_G
10
12V_PW
4
SLED+
3
GND
3
SWR_R
11
DGND
5
INSW
4
SDA
4
SWR5V
12
P_ON
6
OUTSW
5
SCL
7
INSW
6
GND2
8
DGND
7
BT_TXD
9
DCLOAD_P
8
BT_RXD
10
DCLOAD_N
9
3.3V_PW
10
BT_RST
Deck Open/Close Control
14) GCN12
11) BTCN1
Right SUBWOOFER lighting Connector
Bluetooth Control
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.6.2. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-11
5. PCB Diagram
ACN1 0 0 2
5.7. MAIN PCB Bottom
5-12
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.8. SMPS PCB Top
CN802
(1)
CN8 0 1
(2)
CN8 0 0 S
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-13
5. PCB Diagram
5.8.1. Pin Connection 1) CN802 Supply for ST5.3V, 12V, -5V and so on Pin No.
Signal
1
ST5.3V_PW
2
ST5.3V_PW
3
ST5.3V_PW
4
DGND
5
DGND
6
DGND
7
VARI_SMPS
8
VSS-5V
9
12V_PW
10
12V_PW
11
DGND
12
P_ON
2) CN801 Supply for Amp Voltage
5-14
Pin No.
Signal
1
+PVDD+63V
2
+PVDD+63V
3
+PVDD+63V
4
+PVDD+63V
5
SGND
6
SGND
7
SGND
8
SGND
9
SGND
10
SGND
11
SGND
12
SGND
13
-PVDD-63V
14
-PVDD-63V
15
-PVDD-63V
16
-PVDD-63V
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.9. SMPS PCB Bottom
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-15
6. Schematic Diagram
6. Schematic Diagram 6.1. Overall Block Diagram • Main MICOM IC : R5F100PGAFB (RENESSAS 100P) • Front MICOM IC : R5F100FFAFP (RENESSAS 44P)
32Mb it FLAS H d e Ae f d l R u “ ‚ š P ” • AŠ
AM5766 Mo to r Drive
32Mb it FLAS H
Fro n t En d HUB
US B DDC UB2130
Au d io DS P
q Td ES 8396
ADC In p u t
4c h AUDIO P re AMP
S P -L S WL
2c h Fro n t 850W/c h FR S P -R S WR
LINE OUT BA4560
S BC De c o d e r
• PWM IC : UB2130 • IR AMP IC : IRS2092STRPBF • IR FET IC : IRF6775MTRPbF
2c h S /Wo o fe r 850W/c h
MIC u Co m In te rfa c e
FL
IR_AMP /FET
Me m o ry Co n tro lle r
FM/AM AUX
• MPEG IC : ES8396SCD-GSWD (ESS)
128Mb it S DRAM
• Main MICOM IC controls the set • Front MICOM IC controls front LED and VFD • Audio signal comes from CD DECK, USB, TUNER, AUX, MIC, Bluetooth and so on, decoded by MPEG IC and then transfer to PWM IC.
Blu e to o th
LED Co n tro l BA3835
TU_Ctrl
MICOM
KEY
SPK Lig h tin g
8Kb it EEP ROM
S UB Mic o m
• The signal is sent to the Crystal amplificatory circuit through MPEG IC. This Crystal amplificatory circuit is Low Filtered. Sound will be hear by Connecting the Speaker system. S WL FL FR S WR
F/Lig h tin g VFD_3D
S MP S
6-1
+5.3V
3.3V/1.35V/5V
+12V/-5V
VFD_P W
Õ P VDD
IR-AMP
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.2. FUNCTION-1 THVV503RAA
FSW1 FOP9
FOP8
FR61 FC24 150OHM
FR62 FC25 150OHM
UNDEFINED EC12B12S 00B7Z30
FSW23
1 3 2
MGND2
MGND1
0808_BEAD ADDED
3857ST
FBD4
DGND
TP TP TP TP TP TP TP TP TP TP TP
FCW2 SMW200-11P
D5.1V LED_LEVEL6 LED_LEVEL5 LED_LEVEL4 LED_LEVEL3 LED_LEVEL2 LED_LEVEL1 KEY_AD2 JOG_DN JOG_UP DGND
FR63
150OHM
11 10 9 8 7 6 5 4 3 2 1
FOP7
FOP10
OPEN
50V 100NF
50V 100NF
50V 100NF
50V 100NF
FC20
LEFT
FOP11
DGND
FC23 150OHM
SKIP FF
STO P
FR60
DISC
50V 100NF
FSW2
THVV503RAA
FSW3
BETBO X
FR11
820 OHM
FOP12
DIS PLAY
FR12
1KOHM
THVV503RAA
FSW4
THVV503RAA
FSW5
THVV503RAA
FSW6
REC SP EED
FR13
1.2KO HM
FR59 FC22 150OHM
DELETE
FR14
1.5KO HM
50V 100NF
EQ
FR15
1.8KO HM
THVV503RAA
FSW7
2.2KO HM
LTL87HVES
RETURN
FR16
3.3KO HM
FR58 FC21 150OHM
ENTER
FR17
FSW8
FSW9
THVV503RAA
FSW10
THVV503RAA
FSW24
THVV503RAA REC
FR18
4.7KOH M
THVV503RAA
FR19
6.8KOH M
THVV503RAA
FR20
10KOHM
POWER
DGND_L JOG_UP _L JOG_DN_L KEY_AD2_L LED1_L LED2_L LED3_L LED4_L LED5_L LED6_L D5.1V_L
1126 _FO R EMI
DGND
DGND
COULD NOT APPLY TO PV2
DGND
DGND
DGND
DGND
FROM KEY_R B'D VFD+, VFD-, VP LINE :AS THICK AS P OS SIBLE (AT LEAS T 0.6MM) VR3 1004_FR OM 10KOHM
VC10
VD5
3857ST
VBD5
VC11
FC1 7
100NF
50V
100NF 3857ST FBD6
FBD5 FGND
FGND
DGND
FBD5-6, FC16-17:AS CLOS E AS P OS SIBLE TO T1 D5.1V
50V
FC29
D5.1V
P124/ XT2/EXCLKS
P11/ SI00/RxD0 P10/ SCK00-/ SCL 00
P40/ TOO L0
P146
150OHM 50V OPEN
FR79
100NF
F12. 5V 1022_C OIL REMOVED FOR HEIGHT LIMITAION 0905_R EDUCE NOIS E LEVEL
VBD6
3857ST
50V
FC1 4
M_RS T
100 OHM 100 OHM
FR40
D5.1V
FC9
KEY_AD1 REMO 16V 47UF 3857S T FBD1
FC2
1019_ HEIGHT LIMIT
1023_C AP ADDED
0808_BEAD ADDED 1018_FBD 2 REMOVED
44 43 42 41 40 39 38 37 36 35 34
DGND
0 1 2 3 4 5
6 7
DGND
1NF 50V
DGND
1019_ HEIGHT LIMIT
0808_BEAD ADDED
0911_TO ANGLE FROM STR 0814_D IRECTION CHANGED(1-15)
FROM MAIN B'D
FC3 1023_C AP ADDED
DGND
MGND2
1 3 2 130 906 VOLUME J OG
52807-1510
FBD3
FC30
100PF 50V
10KO HM
F12.5V F12.5V VFD_GND VFD_GND M_RST M_RST KEY_AD2 KEY_AD2 KEY_AD1 KEY_AD1 REMOCON REMO D5.1V D5.1V D5.1V D5.1V_2 DGND DGND DGND UART_2 RX UART2_RX UART_2 TX UART2_TX UART_1 RX UART1_RX UART_1 TX UART1_TX ST5 .1V S T5.1V
16V 47UF
FC12
10KO HM
FR9 DGND
100 OHM 100OHM
FC11
FR8
100PF 50V
FR6 FR7
D5.1V
TP TP TP TP TP
FCN1
DGND ST5.1V
BUS <7..0>
TP TP TP TP TP TP TP TP TP
0808_BEAD ADDED
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
0928_TR ANS GND CHANGE
FR39
1114_ ADDED MCU RST FROM MAIN TO REDUCE STBY POWER
DGND
D5.1V_R LED6 LED5 LED4 LED3 LED2 LED1 KEY_AD2_R JOG_DN J OG_UP DGND_R
DGND
DGND
1 0
DGND
7 6 5 4 3 2
100NF
1203_EMI
DGND
FOP1
FC71
150OHM 50V OPEN
FR78
100NF
FOP2
50V
FC76
150OHM
FR77
150OHM 50V OPEN FC75
100NF
FOP3
FR76 FOP4
150OHM 50V OPEN 100NF
FC74
FR75
150OHM 50V OPEN FC73
100NF
FOP5
FR74 FOP6
FC72
68OHM 50V OP EN
FR82
68OHM
OPEN
100NF
1203_EMI
DGND
D5.1V LED_LEVEL6 LED_LEVEL5 LED_LEVEL4 LED_LEVEL3 LED_LEVEL2 LED_LEVEL1 KEY_AD2 JOG_DN J OG_UP DGND
1 2 3 4 5 6 7 8 9 10 11
22UF
23 24 25 26 27 28 29 30 31 32 33
P 27/ANI7
P 26/ANI6
P 25/ANI5
P147/ ANI18
P24/ANI4
P41/ TI07/TO07
P23/ANI3
DGND
FCW1
3857ST
P12/ SO00/TxD0
P22/ANI2
1203_ EMI
DGND
FC7
P13/ TxD2/SO20/
P123/ XT1
RESET-
DGND
P50/INTP1 P15/ PCLBUZ1 P14/ RxD2/SI20
R5F100FFAFP
P137/ INTP 0
10KOHM
1208_TWI STED WITH BLUE
100PF 50V 100PF 50V
P70/KR0
P71/KR1
P72/KR2
P30/INTP 3
P73/KR3
P63
P62
P31/TI03
P61/SDAA0
P60/SCLA0 P122/ X2/EXCLK
P 21/ANI1/AVREFM
10KOHM FR81 OPEN
FIC1
P121/ X1
P 20/ANI0/AVREFP
1019_ HEIGHT LIMIT 1116 _STANDARD ITEM
M_RS T
P16/ TI01/TO01
P01/TO00/RxD1
DGND
REGC
FR5
D5.1V
1017_VFD OPTION REMOVED
P17/ TI02/TO02/(TXD0)
VSS
10KOHM
1212_ CAP OPEN CAUSE OF MATERIAL TOUCH
P51/ INTP2/SO11
VDD
P00/TI00/TxD1
85
1203 _EMI
DGND
ST5. 1V
1UF 50V
11 10 9 8 7 6 5 4 3 2 1
P 120/ANI19
68OHM FOP15
FR72
OP EN
50V OPEN
68OHM FOP14 FC80
OPEN
FOP13
OPEN
100NF
68OHM OPEN FR71
FR70
OPEN
OP EN
FC1
OP EN
FOP16
OPEN
12 13 14 15 16 17 18 19 20 21 22
DGND
ST5. 1V
FC15
FOP17
FC70 100NF 50V OPEN
OPEN
FR73
1128 _FRO M 150O HM 1128 _CHANGED TO BLUE 0114 _FRO M 100O HM 0114 _CHANGED TO WHITE
FR4
FC77
REMO
VFD+
FR35
FR38 FR37 FR36
VP VFD-
100NF
22OHM
FQ11
D5.1V
1203_ EMI
50V 100 NF
TO KEY_L B'D TP TP TP TP TP TP TP TP TP TP TP
DGND
KSA733-Y
FR69
330OHM
D5.1V
100OHM 100OHM 100OHM 100OHM
FR45
1/2W
FR44
1/2W
22OHM
FQ10
C
KSA733-Y
FR65
DGND
E
B C
330OHM
KSA733-Y
330OHM
FR64
KSA733-Y
E
B
1221_ FC80 OPEN
1011 _FRO M D5.1V
B4B-PH-K
DGND 0928_TR ANS GND CHANGE
OPEN
VP
VFD-
VFD+
0817_TR CHANGE 0928_D IRECTION REVERSE
VBD4
VR2
DGND_V ST5.1V_V REMO_V
400V
FC1 6
50V
1N4148 50V 1NF
UNDEFINED
UZ9.1BM 9.1
VZD2
VC8
VJ 2
3857ST
33KOHM
F12. 5V
UNDEFINED SMW200-11P
5 4 3 2 1 FC28
100NF
50V
FR43
1/2W
50V 100NF FC27
22OHM
FQ8
FR42
50V 100NF FC26
15OHM
FQ9
DGND
C
1208_ TWISTED WITH RED
50V 1KOHM
C
50V
FGND
1011_ FRO M D5.1V
FR10
E
VQ2
3857S T
ST5. 1V
D5.1V
FC13
KTD863-Y-AT
B
0128_SMALL WIDTH 1019_H EIGHT LIMIT
47UF
TO VFD B'D
D5.1V
1128 _FRO M 150O HM 1128 _CHANGED TO BLUE 0114 _FRO M 100O HM 0114 _CHANGED TO WHITE
100NF
105
100NF
T1 EE1 312V
F1T4
DGND
1 2 3 4
VD3
50V
VC9
50V
VD4
V_STB V_DI V_BLK V_CLK D5.1V VP VFDVFD_GND VFD+ VFD_GND DGND ST5.1V REMOCON
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V_LE
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V
FGND
125 11H R-13(W)
E
B C
SDATA ST5 .1V RESET GND
47UF
5 4 3 2 1
VC7
1 2 3 4 5 6 7 8 9 10 11 12 13
DGND
E B
FR41
VBD3
6 7 8 9 400V F1T4 10
VQ1
COULD NOT AP PLY TO P V2
DGND
330OHM
3857S T
TP TP TP
KTD863-Y-AT
E
1004_WI LL BE CHANGE
DGND
1126_ FOR EMI
FCN2
VC6
105
FCN4
FCZ100E-05RS -K
C B
50V
22UF
TP TP TP TP TP TP TP TP TP
CN1
TO LED B'D
40V 1N5819
1019_H EIGHT LIMIT
1019_ HEIGHT LIMIT
V_STB V_DT V_BLK V_CLK D5.1V_V VP VFDVFD_GND_V VFD+
TP TP TP TP TP
VD2
105
VJ3
RIGHT
40V 1N5819
75
VC5
VD1
VD6
25V 220UF
75
6.8KOHM
1023_H OLE LIMIT
1N4148 50V 1NF
VJ1
DGND DGND
MGND1 FSW22 FR30
EVEKD2F3024M
FR29
10KOHM
6.8KO HM
FR28
4.7KO HM
FR27
3.3KO HM
FR2 6
FR2 5
2.2KOHM
1.8KOHM
FR2 4
1.5KOHM
FR2 3
FR2 2
FR2 1
1KOHM
1.2KOHM
820OHM KEY_AD1
FLANGER
CHORUS
GIGA
WHAWHA
PANNING
VISUAL
EJEC T
FSW11
FSW12
THVV503RAA
THVV503RAA
FSW13
THVV503RAA
FSW14
THVV503RAA
FSW15
THVV503RAA
FSW16
THVV503RAA
FSW17
FSW18
THVV503RAA
THVV503RAA
AUX/TUNER
POWER
THVV503RAA
SKIP
FSW19
FSW20
THVV503RAA
FSW21
1010 _MISSED
THVV503RAA
DGND
PLAY/PAUS E DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-2
6. Schematic Diagram
6.3. FUNCTION-2 POWER AUDIO
SR4 OPEN 330 OHM
E
MGND1
C
OPEN
KSA733 -Y
SCN1
MGND2 OPEN 47N F 50V SC5
MGND2
B E
330 OHM OP EN OP EN
SQ2
KBD1
USB_GND
KR1
3857ST
15KO HM
385 7ST
1012_C HANGED TO BLACK FROM YELLOW 1128_C HANGED TO ALL BLACK CAUS E OF DES IGN COULD NOT APP LY TO PV2
330PF 50V 330PF
7 6 5 4 3 2 1
50V
KC2
3857ST
KC3
KR2 KBD3
AUX_GND
AUX_L AUX_GND AUX_R MIC_GND MIC_VR MIC_VCC MIC_SEN SE
KD2
2.2KOHM
KC9
KR10
33OHM
KR9
10KOHM
KC8
1NF 50V
E
KR6
KQ1 C B
KSC1008-Y
KR7
KR8
220 OHM
1UF 50V
100KOHM
KC7
1UF 50V
KC6
1N4148 75
75 1N4148
KC5
47NF 50V
TO MAIN B'D
KD1
CF1 4 3 2 1
TP3TP2TP1
AUX_L AUX_GND AUX_R MIC_GND MIC_VR MIC_VCC MIC_SENSE
33KO HM
1UF 50V
KC4
KR4
TO MIC
TP TP TP
KR3
1017_ FRO M 330O HM
TP TP TP TP TP TP TP
47KOHM 47KOHM
0121_ FRO M DISC TYPE
UEJ-CV-075
YBH200-04
KC1
KBD2
5 4 3 6 2 1
KAJ1
22NF 25V
0124_ CHANGE BACK TEMP.2202-002254 0325_ CHANGE TO 2202-002254 FOR BRACKET PROBLEM
TO MAIN B'D
USB2 JTP12 86H A
LTL87HVES
SC10
820OHM
SR12
S W2
1
USB2_LED KEY_AD3
KCN1
2
USB1
US B1_5V US B1_DN US B1_DP US B_GND USB1_LED US B2_5V US B2_DN US B2_DP
1015_ USB1_G ND&USB2_GND MERGED 1017_ USB_G ND&DGND MERGED
47NF 50V OPEN
MGND2
MGND1
2
S W1
1
USB_GND
MGND2
KSA733 -Y JTP12 86H A
MGND1
SR2 OPEN
1017_ HAS TO BE CO NNECT WITH SCREW HOLE
SR5
C
470 UF 10V
150OHM
SOP2
OPEN
US B_GND
SC9
SJA 2
1115 _REDU CE PO WER 1210 _REDU CE MO RE 1212 _CHANGE BACK
SC8
SR9
MGND1
47NF 50V
470OHM
184-0423211
4 3 2 1
USB1_5V USB1_DN USB1_DP USB_GND USB1_LED USB2_5V USB2_DN USB2_DP USB_GND USB2_LED KEY_AD3
TP TP
1 2 3 4 5 6 7 8 9 10 11
SMW200-07P
184-0423211
SQ1
TP TP TP TP TP TP TP TP
JACK
B
1 2 3 4
SMW200-11P
OPEN
50V 47NF
SOP1
470UF 10V
SJA 1
SC3
1017 _SC1,SC7,SC4,SC6 REMOVED CAUSE OF GND MERGE
SC2
SR3 470OHM
SR1
150OHM OPEN
1115_ REDUCE PO WER 1212_ CHANGE BACK
1113_ SAME SPEC
100UF 16V
MIC_GND
50V 1113 _EMI
1113_ EMI
3857ST KC10
3857S T KBD5 MIC_GND
AUX_GND
TO MIC
4 3 2 1
TP TP TP
TP4 TP5 TP6
GCC01-0045
6 5 4 2 3 7 8 9 1
CF2
CN2
MIC_GND
YBH200-04
US B_GND
MIC1_GND
6-3
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.4. VFD
TP
F+
TPTPTPTP TPTPTPTPT TP PT TP PT TP P
VDD2 VSS CLK BLK LAT VDD1 DI
VFD
TP
F-
POWER
UNDEFINED
0925_VF D CHANGED F+ F+
VDD2 VSS CLK BLK LAT VDD1 DI
F-
F-
FVT1 0925_MOVED F ROM F RONT_R PCB
10 11 VC4
50V
VC3 100NF
3857ST
VBD2
3857ST
VBD1
50V
50V 10UF VC2
VC1 100NF
1112_HEIGHT LIMITATION
VC6 OPEN
50V
100NF 3857S T VBD3
OPEN FGND
DGND
NOT APPLIED TO DV BOARD. IT WILL APPLY... VC5 OPEN
FGND
P6KE180A
VZD11
3.5
100NF 50V
50V
100NF 3857S T
ST5.1V
DGND
FGND
VBD4
OPEN
1008_DGN D CHASSIS
DGND
FGND
DGND:AS LARGE AS POSSIBLE.
47O HM VR11
FROM KEY_ R B'D
0925_PIN MAP CHANGED VCN1 12511HR-1 3(W)
VFDVP D5.1V V_CLK V_BLK V_DI V_STB
47O HM
VFD_GND VFDVP D5.1V V_CLK V_BLK V_DI V_STB
VR12
13 12 11 10 9 8 7 6 5 4 3 2 1
VC22
VC21
VZD2 DGND 1114_F ROM 100KOHM 1128_IN TERNAL 30KOHM COULD NOT APPLY T O PV2 0102_REM OVED
50V 10UF
1112_HEIGH T LIMITATION
REMOCON REMO ST5.1V ST5.1V DGND DGND VFD_GND VFD_GND VFD+ VFD+
GND
3
VCC
2
0808_D5 .1V->ST5.1V
1128_U NIFIED WITH 8000 COULD NOT APPLY TO PV2
16V 100UF
1
VOUT
VEYE1
1127_F OR ESD COULD NOT APPLY T O PV2
6.8 GDZJ6.8C
3 4 5 6 7 8 9
1 2
1120_3LIGHT ING NG
1008_D GND-FGND LAYOUT CHANGE
HCA-47M231T
TSO P32238Q J1
TPTPTPTPTP TPTPTPTPTP TP TPTPTPTPTP TPTPTPTP Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-4
6. Schematic Diagram
6.5. LED POWER
LOP 1
LOP 2
LOP 3
TP T PTP TPT TP PT TP PT TP P
5.1V
LOP 4
LCN1 1208_LR2 MOVED 1211_LR1 REMOVED
LOP 5 LR2
0OHM
LOP LOP66
MGND2 5 4 3 2 1 MGND1
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V
1108_LR3 REMOVED LOP LOP77
10003HR-05 A00 LOP LOP13 13
LOP LOP88 LOP14
6-5
LOP LOP99
LOP LOP15 15
LOP 10
LOP LOP16 16
LOP 11
LOP LOP17 17
LOP 12
LOP LOP18 18
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.6. MAIN–1 TP24
M5V_PW
ST5.3V _PW
POWER
M5V_PW
VAA+5V
M5V_PW
USB5.0V_PW
CHANGE FROM 0505-000274 -> 0505-003205_CSC_0904
UNDEFINED 0.01OHM CB2012UA300T
BOTTOM B5V_CTL
10V 22UF PC33
PC52
10V 22UF
22UF 10V
PC51
22UF
PC50
10V
1/10W
PC49
OPEN100NF
PR18
5.6KOHM 1/10W
PR17
1/10W 20KOHM
PC48
OPEN
PC47
33NF 16V
100NF
PR16
50V
PC46
2.2NF
PR15
47KOHM
PR19 PC45 100NF
10V 22UF
10V 22UF
PC31
PC32
22UF 10V
10V PC9
PC8
PC17
PR10
100NF PC16
1/10W
PC42
33NF 16V
PR9
20KOHM
50V
PC641
1/10W
OPEN
DGND
2
DGND
10KOHM PR8
CS1608X7R104K160NRB
10KOHM 1/16W
2.2NF
PC36
PC15
MMBT2222A
OPEN100NF
EN
PR11
SS
COMP
3.3KOHM
FB
LX LX
UNDEFINED 0.01OHM CB2012UA300T
UNDEFINED
3.6KOHM
1/16W
10KOHM
100NF
10V PC35
PQ5
DGND CB2012UA300T UNDEFINED
GND
OPEN
10V 10UF
DGND
TC9
TC3
10V 10V
E
AGND
0923_MANUFACTURER GUIDE
TBD4
3
TC1
10V
TC5
10UF 10UF
10UF 10V
10UF 10V
TU5V
1KOHM 1/16W
VIN
8 7 6 5
MGND1
T3.3V_CTL C
PGND
2.2UH
AOZ3011PI
TOP
B3.3V_CTL PR38
PR39
10UF 10V
PR37
PC94
10UF
1/16W 10KOHM
1UF 16V
B
PC95
10V 22UF
PC93
MP1.35V_PW
AGND
PBD6 PL1
PIC11
1 2 3 4
G
MP1.35V_PW
TC4
PR7
D
S
DGND
BOTTOM
OUT
PC68
PQ4
BD8
1/4W 0OHM
DGND
PR12 1KOHM
AO3415AS
DGND
TIC2
M5V_PW
1/16W
100K OHM 1/16W
IN
PC44
10V PC76
22UF
10V PC75
22UF
PR81 PC74
MP3.3V_PW
PR36
MIC5V
DGND
R8
0.01OHM CB2012UA300T
12.5V_PW
1115_CSC
0923_MANUFACTURER GUIDE
BECAUSE OF MIC PIPI NOISE_1212
KRC106S-R TK
KIA7805AF
EN COMP
DGND
PQ23
E
UNDEFINED 0.01OHM CB2012UA300T
PBD21
KRC106S-R TK VARI_PC_A
FB
2 1/16W 1OHM
1
PC73
16V 1UF
PQ22
C
SS
LX
AGND
ADJ
E
B
VIN
8 7 6 5
LX
1/10W
VOUT VOUT
PGND
1/10W
VIN
10V 22UF
C B
TP PTP36
1/10W 68KO HM
PR72
PR71
PTP31
PQ21
1/10W 51KOHM
E
TP
10UF
PC7
10UF 10V 10UF 10V 10UF 10V 10UF 10V PC41
MIC14 3
AL3.3V_PW
0.01O HM CB2012UA 300T UNDEF INED
AP1117D-33- GZ-13-89
1 2 3 4
PL2
UNDEFINED 4.7UH
MGND1
PC67
PC72
10V 22UF
PC71
10V 22UF
PR80
1/16W 1OHM
1
PC70
16V 1UF
ST5.3V _PW
PBD7
PIC12
AOZ3011PI
1B3<
PR70
1/10W 56KOHM C B
VARI_PC_C
CB2012UA300T UNDEFINED
10V 10UF
1/16W
12.5V_PW
1/16W
2
VOUT VOUT ADJ
330OHM
VIN
10KOHM
3
LED5.0V_PW
PR14 1KOHM
1/10W
MIC15
1004_CHA NGE COIL_BECAUSE OF AMP NOISE 2703-003890 :3225 SIZE
UNDEFINED CB2012UA300T 0.01OHM
PBD20
PC66
UB3.3V_PW
AP1117D- 33-G Z-13-89
PC59
10UF 10V
PC65 PC58
10UF 10V
10UF 10V 10UF 10V
10V
10V PC5710UF
PC64 10UF
10V
10V PC56 10UF
10UF 10V
PC62
10V
10V
10UF 10V
PC61
PC55
10UF
PC5410UF
PC53 10UF 10V
PC60 10UF 10V
P_O N 2A4> 1B5<
PL3 M5V_PW
PC63 10UF
PBD17
AP3.3V_PW
UNDEFINED 47UH
22UF
VARI_SMP S
0.01O HM CB2012UA300T 0.01O HM PBD19 CB2012UA300T
PBD14
UB3.3V_PW
1D3>
KRC106S-R TK
1
CB2012UA300T
DGND
12.5V_PW
0.01O HM CB2012UA300T
VARI_SMP S
TBD5
CB2012UA300T 0.01OHM PBD31
OPEN
PC4
50V 1NF VSS-5V
VARIABLE POWER BLOCK
2C3>
MP3.3V_PW
PBD5 UNDEFINED
UNDEFINED
DGND
VARI_PC_B
10V
RF3.3V_PW
DGND
2C3>
RF5.0V_PW
0812_O PEN_MLCC VE
0.01O HM CB2012UA300T
DGND
2A6>
UNDEFINED
CB2012UA300T PBD18
DGND
TP69
M5V_PW
P_ON2 2A4> 1B2<
PBD16
DGND
TP
PC6 10UF
OPEN
10V 100NF
PC43
DGND
B
ST5.3V _PW
MGND2
B_5.3V_1 B_5.3V_2 B_5.3V_3 B_GND_6 B_GND_7 B_GND_9 B_VPS B_-5V B_12.5V_1 B_12.5V_2 B_GND3 B_P_ON
UNDEFINED
UNDEFINED
0812_O PEN_MLCC VE
0.01O HM
PBD15
PBD2
CB2012UA300T 0.01OHM PBD29
1/10W PR25 10KOHM
CB2012UA300T
MGND1 1 2 3 4 5 6 7 8 9 10 11 12
0.01OHM CB2012UA300T
TOP
E
0.01O HM
20022WS -12A00
CB2012UA300T 0.01OHM PBD11
PBD1
T5V_CTL
C
PQ2
TP22
TP35 TP18 TP21
SRC1203S
PCN1
8 7 6 5
10KOHM 1/10W
PR13
DGND
1 2 3 4
PR73
1/10W 100KOHM
10V 1UF
PC3
220UF
PC1
16V
DMG4435SSS-13 PQ3
DGND
C1
50V 47NF
OPEN R1
OPEN
0OHM 1/10W
DGND GGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
SGND
6-6
6. Schematic Diagram
6.7. MAIN-2
UR19
10KOHM
UQ10 2SA1979S-Y
UR14 47KOHM
UR2
10KOHM
UD1
40 RB751V-40TE-17
10KOHM 1/16W OPEN
UR63
10KOHM
1/16W P61/SDAA0
P60/SCLA0
EVDD0
VDD
EVSS0
VSS
REGC
P121/X1
P122/X2/EXCLK
P137/INTP0
P123/XT1
P124/XT2/EXCLKS
/RESET
P40/TOOL0
P41
P42/TI04/TO04
P43/SCK01-/SCL01
P44/SI01/SDA01
P45/SO01
P46/INTP1/TI05/TO05
P47/INTP2
P120/ANI19
OPEN
UR56 P87/(INTP9)
EVDD1
P30/INTP3/RTC1HZ/S CK11-/SCL11
P51/SO11
P50/SI11/SDA11
P52/SO31
P53/SI31/SDA31
P56/(INTP1)
P54/SCK31-/SCL31
P57/(INTP3)
P55/(PCLBUZ1)/(SCK00-)
P17/TI02/TO02/(SO00)/(TXD0)
P15/SCK20-/SCL20/(TI02)/(TO02)
P16/TI01/TO01/INTP5/(SI00)/(RXD0)
P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03)
P13/TxD2/S O20/(SDAA0)/(TI04)/(TO04)
P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06)
P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05)
P101
P 110/(INTP10)
P10/SCK00-/SCL00/(TI07)/(TO07)
P147/ANI18
P 111/(INTP11)
P100/ANI20
P146/(INTP 4) P140/PCLBUZ0/INT6
P141/PCLBUZ1/INTP7
P142/SCK30-/SCL30
7 5 3 1 UAR8
UR1 7
M_ACK M_RXD
1/16W 100OHM 1/16W 100OHM
UR1 8 DGND
TO MP EG TO MPEG
4F1< M_PWM_RST 3C3< M_RES ET 3F3<> TU_CLK
SUB_RS T
4F1< 4F1<
4F1<
2F4<
TP
TP26 TP29 TP
UR3 7
UAR5
UAR4
100OHM
8 6 4 2 8 6 4 2
1/16W
7 5 +-250P PM/C 3 100OHM 1 7 5 3 1 UR6 6
100OHM 100OHM 1/16W +-250PP M/C
TP43 TP46
UB2130_RS T IR_RSTI IR_SD
7C3<
2A8<
TU_RDS 3F2> 2D3< FL_LED5 FL_LED4 2D3< EQ_C 6E8< EQ_B 6E8< EQ_A 6E8< 2D3< FL_LED6
TP TP
UB2130_SDA UB2130_SCL
7C3<> 7C3<
MC301
1/16W 100OHM 100OHM 1/16W
DGND
UR11
0OHM
UAR24 UAR23
1/10W
UC26
10UF
UC10
MICOM_RST
100NF
UAR2
2D5> 2E4>
FR_LED7
1.0
FR_LED1 FR_LED2 FR_LED3 FR_LED4 FR_LED5 FR_LED6 2A3< 2A3< 2B3< 2B3< 2B3< 2B3<
DGND
AL3.3V_PW
12PF
3 UC39
Q2
32.768HZ UX2
10V 1UF
7 5 3 1 7 5 3 1 8 6 4 2 8 100OHM 6 +-250PPM/C 4 2
FL_LED1 FL_LED2 FL_LED3
TP 1
4
DGND
50V
50V
UC24
UC14
100NF UC28 10UF 10V
0OHM 1/10W UR45
+-250P PM/C
2 4 6 8
TP_OPEN
100NF UC27
3F3<>
TP_CLOSE 3F3<> 3F3<>
TU_CE TU_RST
TU_DA
M_TXD M_STB
UAR11
1 UAR34 3 5 7
100OHM
VARI_PC_C FROM MPEG 4E8> FROM MPEG 4E8>
2.7KOHM
10KOHM 1/16W
UR20
UR22
10KOHM
UR21 10KOHM
UR67 1/16W
CLOSE_SW OUTSW INSW USB1_EN P_ON2
100OHM +-250PPM/C
7 5 3 1 2 4 6 100OHM 8 +-250PPM/C
UAR12
8 6 4 2 1 3 5 7 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 Q3
2C4<
VFD MICOM
2C4>
1
/RESET,RESET VDD
3
UC6
100NF 10V
16V 47UF
UC4
2 6B3<
UC5
4E5>
RT9818C-29P V
UIC3 GND
4E5<
UP DATE ONLY
2C8>
10V 1UF
6B3>
UR50
1/16W 1KOHM 1UF UC22
UR15
B E
C
10KOHM 1/16W
10KOHM 1/10W
UR84
UVT3 UVT4
1/16W
8 6 4 2
VOLTAGE DIVIDER FOR FRONT MICOM_0624
UR83
1/10W 20KOHM
UR82
UR60 UR61 UR62
D1
10KOHM
UR54
UR53
1/16W
10KOHM
12PF 16V 12 12 100NF 100NF LOPIVA16G05 LOPIVA16G05 UC20 UC21
100NF
UD4C
10KOHM
1/16W UR51
10KOHM
UR52
1/16W UR55
10KOHM
OPEN
TP20
0.01OHM
BD4
1/10W 20KOHM
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
1/16W 1/16W 1/16W 100OHM 100OHM 100OHM
UPIN94
1/16W 2.7KOHM UR70
100NF
GFRC7
GC14
T_ESS_RX T_ESS_TX TP23 TP19 TP17 TP33 TP40 TP41
GC13 TP34 TP25
0.01OHM
BD2
220NF
220NF
220NF
220NF GC11
220NF GC10
UR24
1/16W 47KOHM
E
C B
OPEN
RB751V-40TE-17 UR69
UR68
2.7KOHM
1/16W 2.7KOHM
MGND2
2C8>
0.01OHM
27OHM 1/4W
10V 100NF
UR26
1/16W
UR29
GQ12 GBD9
1/16W 330KOHM
1/4W
MMBT2222A
1/4W
GR34
27OHM
UC29 100NF
2D6>
GQ11
MMBT2222A
GQ10 GR32
39OHM
27OHM 1/4W
MMBT2222A
MMBT2222A
GR28
C
1/4W
GQ9
C
C
C
C
GR26
UC1
B_FA_RXD
T_TX
B_FA_TXD
TP49 LOPIVA16G05 LOPIVA16G05
0.01OHM CB2012UA300T UNDEFINED
GBD8 100NF
GLC1
1/16W
1/4W
27OHM
27OHM
1/4W
OP EN
GQ4
GR35
220NF
GC15
GC16 220NF
GC18
220NF GC17 220NF
GC19
220NF
GQ8
E B
E B
C
27OHM
1/16W 4.7KOHM
GCC02-0096 GQ6
MMBT2222A
GQ5
MMBT2222A
1/4W
1/4W
GR27
27OHM GR31
39OHM
GR33
GQ2
1/4W GR25
27OHM
39OHM
MMBT2222A
GQ3
MMBT2222A
1/4W
MMBT2222A
GQ1
MMBT2222A
GC20
GQ7
E B
E B
B
B
GR36
TP52
E E
BD1
P143/ SI30/RxD3/SDA30
MMBT2222A
P62/ SCLA1
P144/ SO30/ TxD3
1/4W
P63/ SDAA1
39OHM
P00/ TI00 P145/ TI07/TO07
220NF
P01/ TO00
P31/ TI03/TO03/INTP4/(PCLBUZ0)
GC9
P02/ ANI17/S O10/TxD1
P64/ TI10/TO10
0.01OHM
P03/ SI10/RXD1/SDA10
P65/ TI11/TO11
DGND
TOP TP
AL3.3V_PW
DGND
VFD1_RXD
P66/ TI12/TO12
180KO HM 1/10W
VFD1_TXD
P67/ TI13/TO13
MMBT2222A
P130 P102/ TI06/TO06 P04/ SCK10-/SCL10
SUB_RST
REMO_IN
LOG_RXD1 LOG_TXD1
R5F100PGAFB
DGND
DGND
AL3.3V_PW
KRC106S -RTK UQ2
UR81
DGND
IR_RSTI
AL3.3V_PW
ST5. 3V_PW
KEY_AD2 KEY_AD1
1KOHM 1/10W
Q1
UIC1
P77/ KR7/INTP11/(TXD2)
GR24
P20/ ANI0/AVREFP
1/16W 10MOHM
Q0
P76/ KR6/INTP10/(RXD2)
AL3.3V_PW
DGND
P75/ KR5/INTP9
1211_D UPLICATED LED5.0V_PW
P74/ KR4/INTP8
GC1
P23/ ANI3 P22/ ANI2
P21/ ANI1/AVREFM
2
P73/ KR3
1
P72/ KR2/SO21
UR3 9
MC-146(32.768KHZ,20P PM)
UR36
DGND
P25/ ANI5
MICOM_RST
2D5>
TP48
UR38
10KOH M 1/10W
P24/ ANI4
C
DIRECTION CHECK
1/10W 10KOH M
2D3<
2D6<
DGND
UR80
1116_BD REMOVED
2C3<
2E4>
MICOM_RS T
P71/ KR1/SI21/SDA21
2C3<
P70/ KR0/SCK21-/SCL21
B
SCB-2415-M-2
B_DGND_6 B_VFD_RXD B_VFD_TXD B_VFD1_RXD B_VFD1_TXD B_S T5.3V_1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
P27/ ANI7
C
UCN1
ST5. 3V_PW
P26/ ANI6
1 2 3 4
P06
1.0
TP_RST_TOP
12. 5V_PW
P150/ ANI8
1.SD ATA 2.AL3.3V 3.R ESET 4.G ND
B_SDTA B_AL3.3V_8 B_RS T_MICOM B_GND_8
AL3.3V_PW
1/16W UBR1 1KOHM
P05
UR1 00
CN2
UNDEFINED
UAR1
FL_LED6
P151/ ANI9
3.3KOHM 1/16W
2C8>
IR_RS T
100OHM +-250PP M/C
EVSS1
UAR33 AL3.3V_PW
DGND
MGND1
P152/ ANI10
2C8>
1KOHM
DGND
TP111
P80/ (SCK10-)/(SCL10)
FL_LED5
TOP TP
P153/ ANI11
1KOHM
DEBUG_FANET_TXD DEBUG_FANET_RXD
E B C
AL3.3V_PW
P81/ (SI10)/(RXD1)/(SDA10)
2C8>
1.0
P154/ ANI12
FL_LED4
2D6>
PIN93
LED5.0V_PW
IR_SD
DGND
P82/ (SO10)/(TXD1)
1KOHM
REMO_IN
2D6<
GGND
6-7
FL_LED3
GR12
1 2 3 4
GCN14
B_12.5V_4 B_GND_5 B_S UB_RST B_KEY_AD2 B_KEY_AD1 B_REMO_IN B_M5V_5
GR11
FL_LED2
1KOHM
3B4< USB2_EN VFD1_RXD VFD1_TXD USB2_FAULT 2F3>
100OHM +-250PPM/C
TP13 TP14 TP15 TP16
1 2 3 4
LM302LD-004- TF1
B_SWL_B B_SWL_G B_S WL_R B_SWL5V_2
KEY_AD2 KEY_AD1 US B_M_RST
SMW200-H04G
LM302LD-004- TF1
TP12
UR4 2
2A4< 6B1<
P155/ ANI13
B
GCN13
TP9 TP10 TP11
GR10
1206_FO R EMI 1D1< VARI_PC _B
1KOHM
EQ_IN
DGND
2F3> 2F3< 3B4<
FL_LED1
81 82 8 7 83 6 5 4 3 +-250PP M/C84 2 1 100OHM 85 86 UAR16 87 1/10W 88 100OHM UR3 3 89 90 100OHM UAR19 100OHM 91 UAR30 92 100OHM 93 UR3 4 1/10W 94 200OHM 95 UR3 5 1/10W 96 97 100OHM UAR31 98 99 100OHM UAR32 100 100OHM
1/16W 33KO HM RES IS TOR DIVIDE_1118
2F3>
GR8
TP
TP44 TP45
8B1>
P83
VARI_PC _A
P156/ ANI14
C
B_FL_B B_FL_G B_FL_R B_FL5V_1
UR2 7 UR2 8 UR3 0 UR3 1 UR4 3
AUX_MIC_S EN KEY_US B
TOP TP
GR9
TP
2C8<
AL3.3V_PW
P84/ (INTP6)
B
E
E
C
C
C
LM302LD-004- TF1
1E1<
6E8>
1/16W 1/16W 1/16W 1/16W 1/16W 76 100OHM 77 100OHM 78 100OHM 79 100OHM 80 100KOHM
10/08
8B5> FAN_CHECK 7C5< UB2130_MUTE 4E8> 3A3< USB1_FAULT
3B3<
SPK L IGHTING_L
ADD DIODE_0618
FAN_ON
GGND
GGND
TOP TP TP
TP42
P85/ (INTP7)
12. 5V_PW
DELETE
1KOHM
UR2 5
AL3.3V_PW
LED5.0V_PW
GR7
1/16W 10KOHM
DGND
DGND
AL3.3V_PW
1 2 3 4
220NF
DGND
2D6>
FR_LED6
B
B
GR23
UR78
MP 3.3V_PW
P86/ (INTP8)
E
E
E B
E
LM302LD-004- TF1
1 2 3 4
DEBUG_FANET_RXD
2D6>
FR_LED5
1KOHM
UQ1
2D6>
FR_LED4
GR2 1KOHM
DEBUG_FANET_TXD
2D6>
FR_LED3
1KOHM
GR6
2D6>
FR_LED2
GR4 1KOHM GR5
2D6>
FR_LED1
GR31KOHM
GCN12
TP5 TP6 TP7 TP8
1/16W 33O HM 1/16W 33O HM
2SA1980S -Y
6B1< 2C5>
1/16W 10KOHM
GCN11
B_S WR_B B_SWR_G B_SWR_R B_S WR5V_1
1KOHM
1B2<
UR79
UVT2
SPK L IGHTING_R
TP4
1B5<
P_O N
MP3.3V_PW
AL3.3V_PW
AL3.3V_PW
4 5
GR1
AL3.3V_P W
AL3.3V_PW
UR23
1 3 2
UVT1
GGND
TP1 TP2 TP3
T_RX
UFANETCN1
B_FR_B B_FR_G B_FR_R B_FR5V_1
AL3.3V_PW
B_FA_GND
POWER
DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.7.1. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-8
6. Schematic Diagram
6.8. MAIN-3 USB1_5V
POWER AUDIO S C13 10UF 10V MP3. 3V_PW
MP3. 3V_PW
SR2 SR3
0.01OHM UNDEFINED
US B1 : 0.5A TPS2069C DBVR SIC 3
1 2 3
5
OUT IN GND
4
/FLT EN/EN#
R15
SC16 100NF
S C15 10UF 10V
DGND
USB1_EN
2A6>
USB2_5V
US B1_FAULT
2B4<
DGND SC12
TP31 TP36 4.7KOHM 1/16W 4.7KOHM 1/16W
SC10
DGND
S R12
2B8>
220NF 16V
4F1<
0OHM
OPEN
OPEN
DGND
SR8 SR9
SDCW2012H-2-900TF
SC9
SR6
SR7
50V 18PF
SC8
3C5<> 3C5<>
KEY_USB DGND
AGND
3C3<>
GND
L_CH
R_CH
VCC
SCLK
SDIO
/SEN
/RST
GPIO2/INT
MGND4 MGND3
DGND
MGND2 MGND1
UNDEFINED TAF-6MF-D
TU1
TP57
TP56 B_TU_L B_TU_R
DGND
TU5V
US B2_DN USB2_DP
9 8 7 6 5 4 3 2 1
3C3<>
TUNER_R
4 3
S DCW2012H-2-900TF
B_TU5V TP63
100NF
TC67
TC66
TC60 22PF TC58 22PF
J1
TP 64
TC59 10NF
AGND
3.3KOHM
SHORT(GND) SHORT-GND
1201_AUTO SEARCH
OP EN TR56 100OHM
1211_CDR FLO ATING 1V @STBY
1 3 5 7
TU_RST TU_CE TU_DA TU_CLK
ADD JUMPER FOR ES D_1126 1/4W 0OHM
2 4 6 8
B_TU_RDS B_TU_RST B_TU_CE B_TU_DA B_TU_CLK
AGND
DGND
TC2
CS1608X7R104K160NRB
DGND
OPEN
TR336 100OHM
16V 100NF
2A7> 2A6> 2A6<> 2B8>
AGND TP58 TP59 TP60 TP61 TP62 R7
TR7
3.3KOHM TR6
3.3KOHM TR5
TR4
3.3KOHM
3.3KOHM
TR37
TU_RDS
OPEN
OPEN
TR12
TR53 33KOHM
TR52 33KOHM
OPEN
MP3. 3V_PW
1211_CDR FLO ATING 1V @STBY
1/10W 3.3KOHM
DGND
1211_C HANGED TO 105. TRANSIENT
B_TU_GND
MP3. 3V_PW
2C8<
16V 47UF
TR55 100OHM
SD2
4C8<
1 2
0
TUNER_L
UNDEFINED UNDEFINED SFT2
RCLAMP 0502B.TCT
TR54 100OHM 4C8<
USB1_5V USB1_DN USB1_DP USB1_GND USB1_LED USB2_5V USB2_DN USB2_DP USB2_GND US B2_LED KEY_USB MGND2
0OHM
4 3
0
US B1_DP USB1_DN
1 2 3 4 5 6 7 8 9 10 11
SD1
3D6<> 3D6<>
USB2_DP USB2_DN
UNDEFINED SMW200-H11G
MGND1
1 2
US B1_DN US B1_DP
DIRECTION OUTWARD
SCN1
UNDEFINED UNDEFINED SFT1
DGND 12MHZ DGND
50V 18PF
USB2_5V
DGND
3C3<> 3C3<>
0OHM
USB1_5V
10KOHM
B_USB_GND
M_RESET
B_USB2_5V USB2_5V_2 B_USB1_LED B_USB2_LED B_KEY_USB
1/16W 33OHM
SR19
SC17
USB2_DN USB2_DP
2C4>
1/16W 120OHM
SR11
SR1
16V
16V
1/10W 510OHM
SC6
100NF
SC5 100NF
100NF
USB2_EN
US B2_FAULT
1206_FO R EMI
A411433E12M SX1
SC21
10UF 10V
RCLAMP0502B.TCT
SC4
100NF
16V
1114_USB EYE
SC20
SR10
US B_M_RST
AVDD
DM4
EN/EN#
B_USB2_DN B_USB2_DP
DP4
4
/FLT
2C4<
DGND
DGND
8 9 10 11 12 13 14
X1
RESET#
DP3
MGND1
DP2
TEST/ SCL
DM3
DM2
X2
AVDD
5
IN GND
USB1_5V_1
OVCUR4#
DP1
1UF
DM1
2C4> 2C4<
0OHM 0OHM SC11
OVCUR3#
R28
OUT
B_USB1_5V
21 20 19 18 17 16 15
DVDD
DP0
TPS2 069CDBVR S IC4
1 2 3 DGND
100NF 16V
PSELF
PGANG
SDA
OVCUR2#
OVCUR1#
V5
V33 DM0
4.7KO HM 1/10W
USB5.0V_PW
USB2 : 0.5A
B_USB1_DN B_USB1_DP USB1_DN USB1_DP
100NF 16V
SC7
1 2 3 4 5 6 7
AVDD
1UF DGND
SC19 10UF 10V
DGND
RREF
US B_DM US B_DP
S C18 10UF 10V
MP3.3V_PW
0.8
DGND
GL852G- 31 SIC 2
SR15 10KOHM 1/10W
220N F 16V
28 27 26 25 24 23 22
SC3
6.3V
6.3V
TP TP
10UF 4D3>
4C3>
4.7KO HM 1/10W
DGND
SC2
SBD1
CB2012UA300T
MP3. 3V_PW
USB5.0V_P W
SC14 10UF 10V
DGND
6-9
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
MC161 10UF
MC153 10UF
MBD6
100NF MC165
100NF
MC162
UNDEFINED
100NF
MC166 220UF
MC164
MC163 10UF
MR261 4.7KOHM
MR257 4.7KOHM
100NF
MC146
MX2 27MHZ
100KOHM MR264
OPEN
1/16W OPEN
4.7KOHM
MR14
MIC6 SPI_CS
6B5> DGND SPI_DI
1 2 3 4
/CS
VCC DO(IO1) /HOLD(IO3) /WP(IO2) CLK GND DI(IO0)
100NF 8 10V MC170 7 MC3 4B2< 10UF 6 S PI_CLK 5 S PI_DO
4B2<
B_SPI_DI T_SPI_DI B_SPI_CS T_SPI_CS T_GND_2
6C3<
B_NOR_GND_2
W25Q32FVS SIG
DGND
BT_RS T #52 BOOTSTRAP HIGH WHEN BOOT
1116_TP ADDED
MR247
SPI _CS 100OHM
1/16W 4.7KOHM
1/16W
0.01OHM
MR248
1104_EMI
MR13
MC145
100NF MR16
VD33P LL
SPDIF_OUT
SPDIF_IN
VDD
SPI_DO
SPI_DI
VSS
SPI_CLK
SPI_CS 3
SPI_CS2
AUX[0]
AUX[1]
AUX[2]
VD33
RESET_B
VS33
AUX[3]
AUX[4]
AUX[5]
VDD
AUX[6]
AUX[7]
VSS
DB[15]
DB[13]
DB[12]
DB[14]
VS33
VD33
DB[11]
DB[10]
DB[8]
DB[9]
VDD
DB[2]
DB[0]
DB[1]
VS33PLL
4.7KOHM
SR[03]
SR[04]
SR[30]
SR[05]
SR[06]
SR[26]
SR[27]
SR[25]
SR[24]
SR[21]
SR[22]
SR[23]
OP[12]
SR[36]
SR[20]
SR[35]
SR[31]
SR[34]
SR[33]
VSS
SR[14]
SR[13]
VD33
BD3
SPI EMULATOR SP I_CS FLASH SPI_CS3 EMULATOR
DGND
B_SPI_DO T_SPI_DO B_SPI_CLK T_SPI_CLK
MC143
MC300
MC270 VD33
SR[15]
VDD
VD33
VS33
SIN
S OUT
SR[32]
AMPSTBY
OPENSW
CLOSESW
CLOS E/VOBS 1
VPB
VGB
OPEN/VOBS
MB
DB
TE
MP DB[3]
VSS
DB[4]
DB[5]
MR266 2.2KOHM 2.2KOHM
MR265
2.2KOHM MR263
100NF
B_I2C_DAT B_I2C_SCL B_I2C_WP B_MP3.3V_3 T_I2C_DAT T_I2C_SCL T_I2C_WP T_MP3.3V_3
1UF
100NF
100NF
T_DVD/CD
MC139
100NF
DRV
MC140
100NF
OPEN 47KOHM 1/16W
OPEN MR339
MR340
CLOSE
MR356
1/16W 100OHM
C152
100OHM 1/16W
MR357 INSW
100OHM 1/16W
1/16W 47KOHM OPEN 5E3<
1/16W 100OHM
1/16W 100OHM
MC133 MC134 MC135
B_TP84 B_TP85 MC132 4.7NF 10UF 1NF 150NF 100NF MC136 DB[6]
DB[7]
VS33
VD33
DQM
VDD
DSCK
VSS
2 4MAR1 6 8
100OHM
MP3.3V_PW
1 3 5 7
MC108
220NF 16V
111 2_ADD MC108 FOR EMI
MC144 10UF
4D2> 4D2>
220NF MC109
OPEN
LOPIVA16G05
DWE_B
DCS0_B
5C7> 5C8> 5C8> 5C8>
MVT5
DCAS_B
MC110 100PF 100NF
10NF
C107 10UF
MP3.3V_PW
MC101
MC102
470NF
C108
MR230 4.7KOHM
1 5E7> CS0# 2 5E7> RAS0# 3 5E7> CAS# 4 5E7> DWE# 5 6 MR376 56OHM 100NF DSCK 7 MC127 CB1608GM600T 8 MR241 DQM 9 MC129 100OHM 10 100NF 11 1 MAR2 2 DB7 12 3 4 DB6 13 5 6 DB5 14 7 8 DB4 15 100OHM 16 1 MAR3 2 DB3 17 3 4 DB2 18 5 6 DB1 19 7 8 DB0 20 MC137 100OHM 21 1 MAR4 2 5C7> 22 3 4 5C7> 23 5 6 100NF 5C7> 24 7 8 5C7> 25 MC138 100OHM 26 27 1 MAR5 2 5C7> DB12 100NF 28 3 4 DB13 29 5 6 5C7> DB14 30 7 8 5C6> DB15 31 100OHM 32 MR378 LOG_RXD1 33 200OHM LOG_TXD1 34 1/16W LOG ANALYZER 35 MC141 /VFD MICOM UPDATE 36 100NF 37 MC142 38 39 100NF 40 41 42 I2C_SCL 43 I2C_DAT 44 45 46 MR244 100OHM SPI_CLK 1/10W 47 48 MR245 100OHM SPI_DI MR246 49 SPI_DO 100OHM 50 100NF 51 52 10KOHM MC152 53 54
B_NOR_GND
B_SPI_DO_2 T_SPI_DO_2 B_SPI_CLK_2 T_SPI_CLK_2
(OPEN)
MR240
DB11 DB10 DB9 DB8
TP81
DRAS0_B
DCS1 _B
DGND
1018_INSERT MC109 BECAUS E OF ESD
OP[0]
10NF
FE
DRAS1 _B
MC99
V165O
DRAS2 _B
OP[1]
MC100
MR242 MC131
VSS
OP[2]
470NF
PI
DMA[10]
OP[3]
MR219
REX
DMA[0]
OP[4]
MP3. 3V_PW
B_ES SRESET
VD33
4.7KOHM
DVDLD
DMA[1]
4.7KOHM
VBO
DMA[2] VS33
B_SPI_DI_2 T_SPI_DI_2 B_SPI_CS_2 T_SPI_CS_2 T_GND
CDLD
VDD OP[5]
MR215
DVDPD
DMA[3] OP[6]
4.7KOHM
10KOHM 22NF
MR239 10KOHM
DMA[11] OP[7]
MR214
AGC2
DMA[9] VDD
4.7KOHM
SPNP
VSS
MR227 4.7KOHM
DMA[8]
MC107
VS33
MCLK
82PF
VD33
VS33
MC106
VID_XO
82PF
MDA[7]
82PF
VSS DMA[6]
VID_XI
TES T MODE
VS33
MC105
VDD SYSCLK
VD33
1
PAD_REF
MC104
PAD_COMP
MR212
DMA[5]
82PF
VD33 DMA[4]
NORMAL MODE
100OHM 1/16W
1/10 W
TP 82
0
PAD_RSET
4D2>
100OHM 100OHM 100OHM
TP OTP
UDAC
P ARALLEL MODE
USB_D P
S ERIAL MODE
1
VDAC
0
DCLK INP UT
USB_D M
CRYSTAL
1
MR280 MR281 MR282
PLL3 P LL2 PLL1
M_TXD
MP3.3V_P W
MP3. 3V_PW
S _P_OPTION
0
USB_AGND
S_L
CLK SOURCE
MP1. 35V_ PW
100OHM
VD33VDAC
PL3
USB_VC CA
148.5
VS33VD AC
162
5.5
ES8396SCD-GSWD
YDAC
6.0
1
CDAC
0
1
100OHM
VDD
1
1
MR223
S_P _OP TION
USB_R REF
1
4D2>
VD33
155.25
VSS
141.75
5.75
USB_VD DA
5.25
1
DAC_O1L
0
0
100OHM 100OHM MR233 MR234
DVCC
0
1
RAS2# RAS1#
DAC_O2L
1
5E7> 5E7>
AVS33
135
MIC1
DAC_O2R
5.0
AVD33
1
VD33ADAC
1
VS33AD AC
0
DAC_O3L
128.25
TRO
121.5
4.75
REFD
4.5
0
DAC_O3R
1
1
SLO
0
0
2 4 6 8
3 5 7
MAR8
CDPD
0
MC122 100NF 1
5E8> MA2 5E8> MA1 5E7> MA0 5E7> MA10
DAC_O1R
N/A
FOO
BY
LINE_OL
0
DQM
DMO
FREP
0
2 4 6 8
LINE_OR
MULTI
0
PLL1
100OHM
1 3 5 7
MAR7
VD33AADC
100NF MC114 5C7> MA8 5C7> MA9 5C7> MA11 5E8> MA3
LINE_IN_L1
MAR6
DGND P LL2
MC121 100NF
100OHM
H
4E3>
MR236
OPOUT
SLV
2 4 6 8
LINE_IN_R1
1 3 5 7
G
S_P_OPTION
MA4 MA5 MA6 MA7
100NF
MIN
5E7> 5C7> 4F4> 4E3> 4E3> 4E3>
MC113
100 OHM
LINE_IN_L2
PLL0 DQM P LL1 P LL2 P LL3
USB_DM USB_DP
F
3B1< 3B1<
LINE_IN_R2
DGND
E
MR237 7.5KOHM
6C6>
108 MP1.35V_PW 107 1211_C HANGED TO 105. TRANS IENT 106 105 104 AGND 103 102 1/10W 101 22OHM MR343 100 10UF 4.7KOHM MC155 99 MR250 6C6> AUX_R 10UF 4.7KOHM MC156 98 MR251 AUX_L 6C6> 4.7KOHM MC157 10UF 97 MR252 TUNER_R 3E3<> 10UF 4.7KOHM MC158 96 MR253 3E3<> TUNER_L 10UF 4.7KOHM MC159 95 MR254 6A6< AUX2_R 10UF 4.7KOHM MC160 94 MR255 6A6< AUX2_L MP3.3V_PW 93 92 CB2012UA300T MR59 91 470OHM 90 ES S_TBCK 7A4> 7B5< 89 820->470OHM_0627 F750 : DAC OUT 88 MC169 87 86 1.2KOHM CB2012UA300T MR64 85 ESS_TSD1 MBD4 220UF 1.2KOHM MR249 84 UNDEFINED ESS _TSD0 1211_C HANGED TO 105. TRANS IENT 1KOHM MR65 83 ESS _TWS 82 2.7K->1K_0627 81 MC174 1120_ADDED FOR EMC 80 100NF 79 MC154 78 100NF 77 76 DGND 390OHM 75 MR256 MC149 100NF 74 MC150 100NF 1120_ADDED FOR EMC 73 100NF 72 10UF MC171 71 MC167 MC147 70 27PF AK27012013 MR262 69 150OHM 68 27PF 1206_FOR EMI 67 MC168 MP1.35V_PW 66 MC148 100NF 65 64 TP72 MOVE TO TOP TP_0709_NOT APPLIED 63 TP75 62 MP3.3V_PW TP76 MC151 61 MP3.3V_PW 60 100NF 59 T_MP3.3V_1 MR324 58 33OHM B_MP3.3V_1 2A6> M_STB 57 4A8> I2C_WP 56 MR325 55 33OHM 2A6<
LINE_IN_L3
MP3. 3V_PW
MC119 100NF MC120 100NF
MP1.35V_PW
D
100NF
MEMORY OPTION
MIC_SIG
LINE_IN_R3
MC112
MP3. 3V_PW
MP3.3V_PW
C
MPD
1120_ADDED FOR EMC
VDDAADC
4A4> 5C3>
6D3<
B
MR229 1KOHM
MR216 4.7KOHM
DGND
6D3< I2C_WP I2C_SCL I2C_DAT
33OHM 33OHM 33OHM
1.0
MIC_L
MR228 1KOHM
MR225 1.2KOHM
MR258 MR259 MR260
A
100NF MC118
MIN
100OHM 1/16W
MIC_R
5E5> SPINDLE 5D4> FOCUS 5E4> SLEGN 5E5> TRACK
PUHRF 5B3> A 5B3> B 5B3> C 5B3> D
SDA
VS33AADC
4A4> MR224 1.2KOHM
MC117
SCL
VSS
VDD
DGND
MC111 680P F
VGA
5B3>
E2
8 7 6 5
S-24CS08AFJ-TB-1GE
DRFP
100NF
W25Q32FVSSIG
163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216
/WC
SR[00]
MC212 MC213 4E8< SP I_CLK 4E8< SP I_DO
100NF MC116 VPA
VCC DO(IO1) /HOLD(IO3) /WP(IO2) CLK GND DI(IO0)
BT_TX 6C3> BT_RX 6C3<
VCC
NC
DRFN
8 7 6 5
/CS
T_ROM_GND_1
MR47 MR48
NC
SR[01]
1 2 3 4
SPI_DI
10V 10U F
AGC1
10V 100NF
MIC7
SPNN
1.0
S PI_CS2
DGND
1 2 3 4
162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144MR349 143 142 141 140MR358 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109
B_TP83
MC115 10UF
MC125 MC126
MR238 470KOHM
MP3. 3V_PW
MP1.35V_P W
RF3.3V_PW
1.0
1/16W 100OHM
SR[02]
RF3.3V_PW
B_MP 3.3V_2
T_MP3.3V_2
MP3.3V_PW
4.7KOHM 1/16W
MR290
MIC16
B_ROM_GND_1
VSS
ADD FLASH2_CS2_0814
1NF 100PF
MC124
100NF
MC123 10UF
MC128 10PF
AUDIO
MIN 4C2> DA 5E5>
5B7<
MPD MVREF 5B3< 5A5< CDLD T_DVDLD
1.0
MOCTL
POWER
MR355 OUTSW
6.9. MAIN-4
R35 INSERT
MR244 330O HM
OP EN
0OHM
MP3.3V_PW
2B8>
MR243
10KOHM 1/16W
SPI_CS2
5E7>
M_RESET 5E7> 5E7> 5E7> 5E7>
2B8>
5C7>
3C3<
MR222
M_RXD
M_PWM_ RS T
100OHM
2B8> 2B8>
M_ACK
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-10
6. Schematic Diagram
6.10. MAIN-5 RF3.3V_PW
A 4B2< D 4B2< C 4B2< B 4B2< FOCUS + 5F4> TRACK+ 5F5> 5E5> TRACKFOCUS- 5E4> 5C5> SW_CD_DVD
MR294
4.7KOHM
5D3<
MR300 680OHM
5E5>
MR298 3.3KOHM
10V
5D3<
MR301 10KOHM
DGND
MR38
5E7>
4D3> 4D3> 4D3> 4D2> 4D2> 4D2> 4D2> MA11 MA9 MA8 MA7 MA6 MA5 MA4 10P F
DB8
OPEN
54 53 52 51 50 MC201 49 48 47 46 45 44 MC204 43 42 41 40 39 38 37 36 MR291 35 4.7KOHM 34 33 32 31 30 29 28 NC
A11
A9
A8
A7
A6
A5
A4
VSS
/CS
A13
A12
A10/AP
A0
A1
A2
A3
VDD
CKE
NC
CLK
UDQM
VSS
DQ8
DQ9
VDDQ
DQ10
VSSQ
DQ11
DQ12
VDDQ
DQ13
DQ14
VSSQ
VSS
0709_CHANGE TO 1105-002494 BY P URCHAS E
DGND
DQ15
MC203 16V
MC211
DGND
2203-005393 : 5PF
0729_OP EN_BECAUSE OF DRAM CHANGE
T_OUTS W T_INSW
5E4> 5E4> 5B7> 5E5> 5B7> 5F6>
MC130
4A5< OUTS W 2A6< 4A5< INSW 2A6<
100NF
100NF
1/16 W 100OHM
100OHM 1/16 W
100NF
16V 100NF
SLED + SLED DCMODCMO+
DB12 DB11
5E4> 5E4>
MR351 MR350
111 6_GN D ENFORCED FOR EMI
DB14 DB13
DB15
OPEN 47KOHM 1/16W
OPEN
1/16W DCLOAD_N DCLOAD_P
MR359
MR360 47KOHM
RF3.3V_PW
4F5>
DB10 4F5> DB9 4F5>
4F5>
4F5> 4F5>
1116_GND ENFORCED FOR EMI
DGND
4F5> 4F5>
B_FOCUS+ B_B B_C B_D B_A B_E B_F
B_TRACK+
DGND
4F4> DQM 4D2> DSCK 4F4>
MR32A
1/4W 0OHM
RF5. 0V_PW
MR211 10KOHM
CDVR
SW_CD_DVD
5C3>
22OHM
5C3<
DGND
CDLDO 5B4> 4C3< MPD 4A4> CDVR 5C4<
CN15
10022HS -10C00
DCMO+ 5F6> MR299 10KOHM
100NF
MR274 47KOHM
4A4>
1130_BEFORE : E,F
MR293 18KOHM
LOPIVA16G05
100NF MC184
MVREF
MOCTL 4A4>
DCMO-
1130_BEFORE : NC
DGND
10 9 8 7 6 5 4 3 2 1
IN2+
MR297 1KOHM
MC173
B_CDVR B_MP D B_CDLDO B_GND B_SW_CD_DVD B_FOCUSB_TRACKB_GND2
DIRECTION_OUTWARD
IN2-
8 7 6 5
4B2<
DVDVR 10V 4.7UF
VCC OUT2
22KOHM MC207
PUHRF
10V
MC172 330UF 16V
DGND
MCN8 10022HS-23C02
GND
MD3
23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
IN1+
SN358
113 0_BEFOR E : 5V
VCC_5V RF DVD_LD P D_GND DVD_VR GND VREF P DIC F E A D C B F+ T+ TFSW LD_GND CD_LD CD_MPD CD_VR
IN1-
MR292
MC183 1NF
CDLDO
OUT1
MR296
5C3>
MC189 1NF
B_RF5V_1
MIC17
1 2 3 4
MR295 1MOHM
CDLD 4A4>
10V
2.2KOHM
MC186 10UF
MR272 10OHM C182 10UF
MR270 10OHM B_RF5V_2
DGND
MQ39 KST2907A
B_PUHRF B_DVDLDO B_DVDVR B_MVREF
1NF 50V
MR275 220OHM
C
MC257
RF5.0V_PW
E
100NF 10V 100NF 10V 10NF 16V
RF5. 0V_PW
100NF MC206
B
MC259 MC255 MC256
MR276 10KOHM
POWER
MIC9 REV
GND
Vcc1
VCTL
VOTR-
OPI N
VOTR+
Vcc2
VOSL+
VOLD-
VOSL-
VOLD+
VOFC-
VOTK-
VOFC+
VOTK+
MR313 S PINDLE 1KOHM
DCMOTRACKTRACK+ MR315 2.2OHM
MGND2 AM5766 MR316 2.2OHM
MR352
MC269
47KOHM 1/16W
CLOS E_SW
16V 100NF
2A6>
/RAS
/CAS
/WE
LDQM
VDD
DQ7
VSSQ
DQ6
DQ5
VDDQ
DQ4
DQ3
VSSQ
DQ2
DQ1
DQ0
VDD
TRACK
OPOUT
4C1> MR323 1.2KOHM
MR320 10KOHM MR319 3.3KOHM 5C3<
4D3>
100NF
100NF
100NF
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 MC208
MR312 39KOHM
5B7> DGND
DGND 5D3<
5C3< 5B7> DCMO+
220UF 16V
5D3<
DQM 4F4> DWE# 4F4> CAS# 4F4> RAS0# 4F4> CS0# 4E3> RAS1# 4E3> RAS2# 4E3> MA10 MA0 4D3> MA1 4D3> MA2 4D3> MA3 4D3>
VINLD
MC205
OPOUT
DB7
TRB_ 2
4F4>
FWD
4C1>
MC202
REGO1
ADD CAPACITOR FOR ESD_1126
MC271 MR321 1KOHM
DB5 DB6
VINSL+
VINTK
4F4> 4F4>
REGO2
28 27 26 25 24 23 22 21 20 19 18 17 16 15
DB3 DB4
16V
SLEDSLED+ FOCUSFOCUS+
BIAS
4F4> 4F4>
DGND
MC268
MC267
DCLOAD_N DCLOAD_P MD43
16V
5D3< 5D3<
75 1N4148WS
220 UF
100NF
1211 _CHANGED TO 105. TRANSIENT
MUTE
TRB_ 1
DB1 DB2
CLOSE TO IC
VINFC
4F5> 4F5>
DGND
RF5.0V_PW
1 2 3 4 5 6 7 8 9 10 11 12 13 14
4A5> DRV
DB0
1/16 W 100KOHM
RF5. 0V_PW
MR311 1KOHM
4F5>
MR354
MIC10
MC200
OP EN
MD40
MR310 3.3KOHM
MR353
1/16 W
4A4> DA
10V
MP3.3V_PW
75
100NF
MR329 27KOHM
OP EN 100KOHM
1N4148WS 4A5< CLOS E 4A5> OPE N
MR314 33OHM
MC210
MR303
MR317 22KOHM
6.8KOHM SLEGN
MR318 1MOHM
FOCUS
4C1>
MGND1
4C1>
M12L128168A-6TG2N
MR302
VDDQ
22KOHM
100NF
T_DCLOAD_N T_DCLOAD_P T_SLED+ T_SLEDT_DCMOT_DCMO+
B_OUTSW B_INSW B_DGND B_DCLOAD_N B_DCLOAD_P B_SLED+ B_SLEDB_DCMOB_DCMO+
DIRECTION OUTWARD
DGND
DGND
6-11
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
SHORT(GND) SHORT-GND
ADD JUMP ER FOR ES D_1126
TP51 TP105 B_AUX2_R B_AUX2_L
POWER
B_AUX_GND
6.11. MAIN-6 J2
AUDIO
CN14 DGND
1 3 2 4
XR308
220OHM 4C8< 4C8<
AUX2_R AUX2_L XR327
XR309
47KOHM
DGND
XVT12
XVT13
LOPIVA16G05
47KOHM
220PF AGND
AGND
B_MIC_SIG B_AUX_MIC_SEN B_AUX_MIC_GND
12. 5V_PW
B_AUX_L B_AUX_R
MCN13
0.01OHM
1/10W 1/10W 0OHM 0OHM
DGND
EMULATOR OPTION
MICOM LOG DEBUG
ESS_LOG_ OPT ION
TCN2
BD7
DGND
1 2 3 4 5 6
XAUC5R XR328
XAUC5L
TP65 B_12.5V_7 TP74 TP66 TP67 TP68 TP73
OPEN 10022HS-05C
MCN18
OPEN 0OHM OPEN 0OHM 1/10W OP EN 1/10W OPEN
R3 R2 R4 R5
SPI_CS SP I_CLK SPI_DI SP I_DO
UCN19
10KOHM
DON`T S MAP BANK2/3
10KOHM MR278
10KOHM 1/16W
SMAP BANK2/3
1
MP3.3V_PW
5 4 3 2 1
DGND
0
MR63 1/16W
B_LOG_GND
UART1_D3.3V MR15
OPEN
B_LOG_TXD1
B_LOG_RXD1
B_FA_GND2
B_LOG_D3.3V
B_DEBUG_TXD
MP3. 3V_PW
STRAP OP TION
20010WS-06A00
OPTION
5 4 3 2 1
10022HS-05C
DEBUG_FANET_TXD
MP3. 3V_PW
LOPIVA16G05 UVT17 OPTION LOPIVA16G05 12
2C5> 2A4<
12 UVT16
DEBUG_FANET_RXD
220P F S PI_CS3
LOPIVA16G05
B_DEBUG_RXD
220OHM
2A4> 2C5<
JB020024AZ
AGND
4.7KOHM 1/16W
DGND
4C8<
AUX_L
100 OHM 1/16 W 100 OHM 1/16 W
12PF 12PF 100NF 10PF 10PF
I2C_SC L I2C_DAT
MGND2
LOPIVA16G05
XVT16
OPEN
4F6> 4A8> 4A8> 4F6>
XVT15 LOPIVA16G05
4A6< 4A6>
OPEN
4E7>
BT_RX BT_TX
XVT14 LOPIVA16G05
BT_RS T
33OH M 1/16 W 33OH M 1/16 W
AUX_MIC_SENSE MIC_VCC MIC_SIG MIC_GND AUX_R AUX_GND AUX_L
DGND
DIRECTION OUTWARD
50V 50V 16V
DGND
BTC4 BTC5 BTC6 BTC7
MGND2 125 07H S -H10M
AUX_R
OPEN
33OH M 1/16 W
BTR2 BTR3 BTR4 BTR5
4C8<
BVT6 BVT7 BVT8 BVT9 BVT10
BTR7
4.7KOHM
DGND BTR1
50V BTC3 50V
1 2 3 4 5 6 7 8 9 10
TP TP TP TP TP TP TP TP TP TP
MIC_S IG
DGND
MGND1 TP_BT_RST TP _3.3V_P W TP_BT_RXD TP_BT_TXD TP_GND_2 TP_S CL TP_S DA TP _GND_3 TP _PIN1 TP _PIN2
4B8<
CB2012UA300T
BTR6 1/16W
10UF 6.3V
BTCN1
TOP TP BT_RST 3.3V_P W BT_RXD BT_TXD GND2 SCL SDA GND3 PIN1 PIN2
16V 100NF
BTC1 BTC2
BTBD1
1 2 3 4 5 6 7
AUX_MIC_SEN
2C4<
MP3. 3V_PW
UNDEFINED
BLUETOOTH CONNECTOR : CSR 8810 0.01 OHM
20022WS-07A00
MGND1
DGND
EQ LIGHTING
1/1 0W 18KO HM AR2033
10V 10UF 7D8>
PWM_1 -
1/10 W 8.2KO HM
AC2011
AR2028
1/10W 4.7KOHM
AR2029
AR2034
M5V_PW
50V 470PF
AC2018
6F7<
LINE_L
GC356
OUT1
IN1-
IN1+
VEE
4 3 2 1
AC2017
CS1608X7R104K160NRB
DGND
DGND
DGND
AR2042
100KOHM 1/16W GC357
10OHM GR437
16V
AC2019
VCC
IN2-
IN2+
OUT2
AIC2002
50V 470PF
1/10W 18KOHM AR2032
AC2013
50V 1NF
47KOHM
AR2025
5 6 7 8
CS1608X7R104K160NRB
100NF
AR2035
10KOHM
DGND
BA3835F
1/16W 10KOHM
GC354
AR2043
DGND 6E6>
10OHM
LINE_L
GR435
GIC21
16V 100NF
GR438
AC2020 16V
AR2030
50V 100PF
50V 1NF
AR2027
16V 100NF
VAA+5V
BA4560F
AC2012
1/1 0W 4.7 KOHM
100NF
PWM_1 +
GC355
AC2015
7D8>
1/10 W 8.2KO HM
AC2014
10V 10UF
47KOHM
AR2026
10KOHM
GC358
16V 100NF
100NF 16V 16V 100NF
1 2 3 4 5 6 7 8 9
DGND
BIASC GND VREFC AOUT RREF TEST N.C. N.C DIFOUT SEL N.C. N.C. CIN C AIN B VCC A
18 17 16 15 14 13 12 11 10
EQ_IN GR439 OP EN
0OHM 1/10W
EQ_C 2C8> EQ_B 2C8> EQ_A 2C8>
1/16W 56KOHM
VSS -5V
DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-12
6. Schematic Diagram
6.12. MAIN-7 AC1113
AR1048 TP70 AP3.3V_P W
100NF
100NF
AC1110 10UF
AC1111
P WM_SP3_P
SDA
P WM_SP3_N
9E3<
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
100NF DGND
AC5 AC28
1UF 10V
1210_TO IMP ROVE SN
AR1066 AR1067 AR1068 AR1069
220OHM 220OHM 220OHM 220OHM
PWM_6+ PWM_6PWM_5+ PWM_5-
AR1070 AR1071 AR1072 AR1073
220OHM 220OHM 220OHM 220OHM
PWM_4+ 10D1<
9D1< 9D1< 9C1< 9C1<
PWM_4PWM_3+ 10E1< PWM_31210_TO IMP ROVE S N
IO_VDD
L_S W L_HIGH R_SW
10D1<
R_HIGH
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
10KOHM
100NF
100NF
TP1007 TP 71
1UF
100NF
AR19
2.2KOHM
2.2KOHM
AR18
10KOHM
AR17
AR16
PWM_8+
7A3<
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 P WM_SP4_N
SCL
AC1106
AC1103
100NF
AC1101
AC1099
100NF AC1096
100NF
100NF
AC1095
AC1093
100NF AC1088
P WM_SP4_P
RESETB
EXT_MUTE
100NF
100NF
IO_VDD
10/08
AC1085
AC1084
10UF
100NF AC1079
AC1074
IO_VDD
DGND
PWM_SP2_P
AC1067
P WM_SP5_N
MCLK
PWM_SP2_N
10V 10UF
CVDD
PWM_SP1_P
10V 10UF
P WM_SP5_P
CVDD
AC8
TMODE1
IO_VDD
PWM_SP7_N
VSS33_C ORE
IO_VDD
OFF
P WM_SP6_N
PWM_SP1_N
ON
PWM_SP7_P
ON
PWM_SP8_N
63V
DGND
VDD33_CORE
IO_VDD
ON
IO_VDD P WM_SP6_P
VSS33_CORE
ON
CVDD
MGND1
PWM_HPL_P
ON
SDI4
VDD33_CORE
66V
SDI3
PWM_HPL_N
VPS C
VSS33_C ORE
UB2130
SDI2
PWM_HPR_P
VPS B
VDD33_CORE
APWMIC1
SDI1
IO_VDD
VPS A
BCK
TMODE2
DGND
PVDD VOLTAGE
PWRSTG_ENA
PWM_HPR_N
ABD1004
UB2130_MUTE CB2012UA300T
1/16W 1KOHM
DGND
PWRSTG_ERR
LRCK
I2C_ADDR1
4E8> 2B4> AP3. 3V_PW
2 +-200P PM/C 4 33OHM 6 8
PWM_SP8_P
2D8<>
1 3 5 7
IO_VDD
4A8>
UB2130_RST UB2130_SCL UB2130_S DA
IO_VDD
2C8> 4F6>
10UF
OS C_IN
TOP _TP TP80 UB2130_MCLK
OS C_OUT
DGND
AR1033
DGND
TP 1004 TP1005 TP1006
CVDD
AC6
IO_VDD
VSS33_CORE
CHANGE TO 2.2KOHM TO REDUCE NOISE
TP32 TP 30
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
VDD33_CORE
TOP TP TOP TP
2 4 6 8
PLL_AVDD
AR1032
1 3 5 7
VSS33_P LL
33OHM +-200PP M/C ESS_ TWS ESS_ TBCK ESS_ TSD 0 ESS_ TSD 1
27P F
AR1062
VDD33_PLL
DGND
7A4> 4C7> 7A4> 4C7> 7A4> 4C7> 7A4> 4C7>
AC1114
DGND
100NF
100NF
AC1108
16V AC1104
100NF
AC1100
100NF AC1102
AC1097
10UF
AP3. 3V_PW
10UF
AC1094
4.7OHM
27P F 12.288MHZ
16V
DGND
AR1024
AC1109
CB2012UA300T ABD1006
AP3.3V_PW
1210 _TO IMPRO VE SN (MP3.3V_PW) 0717_ CHANGE TO AP3.3V_PW TO REDUCE NOISE
AC1107 10UF
AC1098
22OHM
10UF
AC1027
470UF
16V
TOP TP
CB2012UA300T ABD1005 AR1035
120 6_T O IMP ROVE SN
4C7> 7B5< 4C7> 7B5< 4C7> 7B5< 4C7> 7C5<
ESS_TWS ESS_TBC K ESS_TSD 0 ESS_TSD 1
TP28 TP37 TP38 TP39
120OHM
AX1001
PWM_8 +
AUDIO
100NF
7B8>
DGND
AC11
DGND
AR1076 AR1077
AC7
9E3<
AR1047 1MOHM
POWER
220OHM 220OHM
PWM_2+ PWM_2-
PWM_1+ PWM_1-
EQ OUT
1210_TO IMP ROVE SN
DGND +PVDD+66V
100NF
16V AC2010
470UF
10KOHM
10KOHM 91KOHM
MAX5033DUS A
AR2021
AC2009
ON/OFF#
AR2022
GND
47NF
VIN
SGN D
GVDD-51V
680UH CMI-S PC7L32F-681M
AR2023
VSS-5V
LX
VD
FB
UNDEFINED AL2001
MBRS1100T3
1203_EMI
100NF
AC2004
100NF
AC1056
100NF
AC1048
100NF
0OHM OP EN
BST
SGND 1211_C HANGED TO 105. TRANS IENT
8 7 6 5
-PVDD-66V
-PVDD-66V
SGND
400V S1G
100NF
AC1055
100NF
AC1047
100NF
AC1043
80V
SGND AR1045
AC1044
4.7MF
AC1038
100NF 100NF
AC1032 AC1033
100NF
AC1025 AC1026
100NF
100NF 100NF
100NF
AC1019 AC1020
100NF
80V
AC1015 AC1016
4.7MF
AC1012
100NF 100NF
AC1009 AC1010
22KOHM
AR1005 AR1006
1 2 3 4
AC2008
100NF
AD2007
AC2005
AMP_GND
10UF 100V
DGND
GVDD
AC2007
AR1054
SGND
10NF 100V
100NF
AC1054
100NF
AMP_GND
0OHM 1/16W 0OHM 1/16W 0OHM 1/16W
AC2006
100NF
AC1053
100NF
AC1045 AC1046
100NF
4.7MF
100NF
AC1041
80V
AR1053
AC1042
100NF
AC1037
100NF
AC1030 AC1031
100NF
AC1023 AC1024
100NF
AC1017
100NF
100NF 100NF
AC1018
100NF
AC1013
80V 4.7MF
AC1014
100NF
AC1011
100NF
AC1007 AC1008
22KOHM
AR1003 AR1004
22KOHM
1203_EMI 0OHM AR1052
AMP_GND
6-13
OP EN
AD1001
GRM188R72A103KA01D GRM188R71H224K GRM188R71H224K
AR1050
AIC2001
22KOHM
AC1003 AC1004
220NF 1.5OHM 1.5OHM 220NF 220NF
AR1001 AR1002 AC1005 AC1006
ACN1002
10NF 100V
B_+P VDD1 B_+P VDD2 B_+P VDD3 B_+P VDD4 B_SGND1 B_SGND2 B_SGND3 B_SGND4 B_SGND5 B_SGND6 B_SGND7 B_SGND8 B_-PVDD4 B_-PVDD3 B_-PVDD2 B_-PVDD1
AC1002
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
AC1001
SMW20 0-16C
10NF 100V
GRM188R72A103KA01D
220NF
GRM188R71H224K GRM188R71H224K
-PVDD-66V
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.13. MAIN-8
FAN CONTROL
10D5>
10G5>
9C5<
50V 1NF
2B4<
AC2001
GGND
2B4>
10UF 10V
50V NC1 9
B
NC2 3 ND5 1N4148WS
MMBT2222A 10UF
1126_CHANGED FROM PULL DN
10KOHM 0620_CHANGE TO MP 3.3V
47KOHM NR6 7
SPK_ FL
2.2UF
10KOHM NR5 1
E
MP3.3V_PW
100NF
NC14
NC13 10UF 10V NC15
NC17 10UF 10V NC16
NR64
3.3KOHM NR55
ND2
FAN_ON
1N4148WS
C
NQ8
10UF 10V
C
E B
2.2UF 50V NC30
E
C
B
47KOHM 4.7KOHM
FAN_CHECK
AMP SIDE
NQ9 S RC1203S
E
GGND
9F5<
C B
NR66
AMP_SD
10KOHM
NR65
NCN1
NR5 0
25V
25V
MGND2
SMW2 00-H03G
GGND
NR6 8
2.2UF 50V
SPK_ FR 47KOHM
NC12
25V
AMP_GND
100KOHM
NR52
E
12. 5V_PW
50V
10UF
10UF
NR49
1/10 W 220 OHM
15OHM 1/4W 1229_RIPP LE
NC11
AR2001
B
2SA1979S-Y NQ7
NR4 1
NR74
C
AR2003
AQ2001
1 2 3
1/10W 100KOHM
C
SRC1203S
100OHM 1/4W NR4 0
NC10
E
AQ2002
IR_S D
B
2A7>
TP107
1/10W 47KOHM 2SA19 80S- Y
NQ10 2SA1979S-Y
1229_FAN NOISE NG
MGND1
AR2002
MICOM S IDE
2C8<
B_GGND TP27 TP106 B_FAN
VAA+5V
B_FANCHECK
POWER
47KOHM
47KOHM
GGND
PRO TECTION DC-PROTECTION VAA+5V
SGND
GVDD-51V
B
AQ3
B
1/10W 100KOHM
C
1/10W 12KOHM
1/10W 10KOHM AR30
AC18
2SA19 80S- Y
10KOHM
E
9.1
AD2003
36
AD2006
AD2005
36
AD2004
AR39
AR2018
C
10KO HM
B E
VSS-5V
8D3>
9C5>
9G5>
10D5>
10G5>
C
B
AQ2005
MMBT2222 A
27KOHM 1N4148WS
9C5> 9G5> 10G5>
AR2016
1/10W 22KOHM 1/10W 22KOHM
AD2002 8D5> 10D5>
EXT_S D
E
AQ2006
KST4 2
AQ2007
KST4 2
-PVDD-66V
AR27
16V 220 UF
S GND
AR31
D
E
AR33
1/10 W 100 KOHM
AR2010
AR25
AC2003
1/16W 47KOHM
AR42
47NF
E
EXT_SD
AR2020
C
5.1
OPEN AR35
1/10 W 10KO HM
VSS-5V
47KOHM
AQ2
1/10 W 0OH M
AR2019
KTC387 5S- Y
10KO HM
47KOHM
C B
AR32
AR29
1/16W 47KOHM
AOP2001
0109_OP TION REMOVED
AR2015
2SA19 80S- Y
AR2014
AR26
1/10W 22KOHM
C
OPEN
AR28
AQ4
B
10KOHM
VAA+5V
E
10KOHM 19-217/R6C-AL1M2VY/3T
1/10W 10KOHM
AR2017
OVER/UND ER VOLTAGE P ROTECTION
VSS-5V
AR34
1/10 W 12KOH M
SGND VAA+5V
8F3>
8F2>
S D_THERM 16V
3.3KOHM
AR2007
47NF
AP2001
AC2002
AQ1
22KOHM 1/10W
1/10 W 0OH M
2SA19 80S- Y 1/10 W 0OHM 8F2>
SD_THERM AR45
S D_THERM
AR43 AR44
1/10 W 6.8KO HM
SGND
8E2<
KST92
AR54
C
AR2004
E
E
VSS-5V
AD4
AC20
AQ6
B
1/10 W 22O HM
47U F
AMP _RESET THERMAL PROTECTION
C
IR_RST
AR53
B
PRF21BB471QB5RA
VAA+5V
75 1N4148WS
8F3>
8E2<
1/10 W 0OH M
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-14
6. Schematic Diagram
6.14. MAIN-9 CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
AR3043
6.8KOHM
AC3004
AR3002
VSS-5V
10C10>
AC3108
10NF 100V
AC3109
SPK_ FL
10NF 100V
1.2KOHM 1/4W
AR3144 AR3145
1.2KOHM 1/4W
AC3104
100NF 250V 10OHM 1W
470NF 250V
AR3139
400V S1G
10F10>
8D1<
47KOHM
AR3143
400V S1G
AD3017 AD3018
OPEN 10NF 100V
AC3203
AR3131
39KOHM
AC3100
OPEN
AC3204
10NF 100V
100NF 250V
AC3092
220NF 50V
AC3077
220NF
AC3076
50V
AR3132
3
27OHM IRF6775MTRPBF
39KOHM
AR3120
D 9F10>
UNDEFINED
DBF-2022A
1OHM 1/4W
7 6 5 4
1 2
AC3078
AQ3002
AL1
1130_EMI OPTION
220NF AR3127 50V
3
27OHM IRF6775MTRP BF
AC3079
7 6 5 4
220NF
10UF 25V
AC3072
AR3079
AR3095
10KOHM
4.7KOHM
AR3119
10OHM 1/4W
AR3107
DT
ES1 D-13-F
25V
COM
OCSET
AR3112
1 2
10OHM
AC3068
VREF
AD3013
AQ3001
GVDD-51V
AR3099
8.2KOHM
LO
IRS2092STRP BF
220O HM
AD3002
1N4148WS
VSS
27KOHM
10KOHM AOT-0603P-B01AZ
1N4148WS
VCC
27KOHM
AOP3001
EXT_SD
CSD
AR3111
10UF
8D3>
8D5>
VS
AR3072
9G5>
HO
COMP
AR3103
9E10<
8B8<
S GND
50V
10OHM AR3035
10D5>
IN-
16 15 14 13 12 11 10 9
3.9KOHM
AMP_SD
AMP _GND 10G5>
AR3067
AD3001
10D5>
25V
10G5>
AC3064
8B3<
VB
10UF
10UF 10V
9F5<
CSH
GND
BAV20WS -V
AD3009
3.3KOHM
AMP_GND
VAA
AR3080
3.9KOHM 1NF AR3071
6.8KOHM
1NF
AC3060
AR3055
0107_CHANG ED PWM FREQ. FROM 330OHM
10UF 10V
100NF AC3212
1NF
AR3041
AC3028
AM_FL
1.8KO HM
1206_ENFO RCED SN
100NF AC3211
VCC
OUT2
AC3021 AC3022
OUT1
IN1+
IN1-
10U F
AC3034
1/10W 12KO HM
470OHM
390PF
IN2-
5 6 7 8
AC3013
4 3 2 1
9D4>
AC3056
AC3052
1 2 3 4 5 6 7 8
AR3081
AC3044
100NF
AC3045
AIC3004 AR3051
LPF_FL
50V 100PF
10OHM
390PF
AC3014
12KOHM
680OHM
L_HIGH+
VAA+5V
CS1608X7R104K160NRB AR3033
CS1608X7R104K160NRB
AR3018
AC3003
2.2NF
AMP_GND
1208_FROM 2%,PART CERTI
7C8> PWM_6-
9C3>
IN2+
AIC3001
BA4560F
680OHM
AR3028
2.2KOHM
1208_FROM 2%,PART CERTI
L_SW
3.3NF AC3010
6.8KOHM
47KO HM
1211_CHANGED TO 105. TRANSIENT
VSS-5V
AR3027
2.2KOHM
AR3011
+PVDD+66V
AR3060
4.7O HM
AR3010
2.2NF
7C8> PWM_6+
AR3001
AMP_GND AR3044
VEE
6.8KOHM
L_HIGH
390PF
680OHM
12KOHM
2.2NF
AC3001 AR3006
AC3002
7C8> PWM_5+
2.2NF
AMP_GND 1208_FROM 2%,PART CERTI
9C5<
LPF_FL
AR3059
100NF
2.2KOHM
1208_FROM 2%,PART CERTI
L_HIGH
AR3021
AR3009
6.8KOHM
AR3017
AR3005
3.3NF AC3009
7C8> PWM_5-
AC3032
10KOHM AC3017
150KO HM
10UF
AR3031
4.7O HM
10UF
1210_TO IMPRO VE SN
AC3033
AUDIO
AR3082
POWER
-PVDD-66V
VSS-5V
AR3023
AR3015 2.2KOHM
680OHMAC3018
390P F
L_S W
10KOHM
9C4<
1210_TO IMPRO VE SN
9F4<
B_SGND_3
9F5<
LPF_SWL
B_SPK_FL B_SPK_SWL
AR3024
ACN3001
14 13 12 11 10 9 8
100NF
AC3025
A4
Y4 GND
Y3
A5
Y6
Y5 A3
Y2
A6 Y1
A2
VCC A1
ST0290731P
MGND1
4 2 1 3
TP 1
CS1608X7R104K160NRB
SGND
CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
AR3047
9C5>
8D5>
8D3>
AD3006
EXT_SD
1N4148WS
8D1<
47KOHM
10F10>
AC3112
9E10<
10NF 100V
SPK_ L_S W+
10NF 100V
AR3151
AC3113
100NF
AR3150
1W 10OHM
250V AC3106
470NF
AC3102
400V S1G
AD3022
OPEN 10NF 100V
10C10>
250V
AR3149
400V S1G
AD3021
10NF 100V
OPEN
100NF 250V
AC3096
220NF 50V 220NF 50V
AC3084 AC3085
AC3074
10UF 25V
AC3200 25V
10UF
AR3097
3.9KOHM
10KOHM
AC3202 AC3201
3
27OHM IRF6775MTRPBF
7 6 5 4
AR3135
1 2 AR3124
AR3141
IRS 2092S TRPBF
UNDEFINED DBF-2022A
39KOHM
DT
AR3136
COM
OCSET
1OHM 1/4W
VREF
AQ3006
10OHM
D 9B10>
AL2
1130_EMI OPTION
0109_DI SCO NTINUOUS SOUND
AR3101
AC3086
LO
3
27OHM IRF6775MTRP BF
AR3109
VCC
VSS
10OHM 1/4W
AR3123
1.2KOHM 1.2KOHM 1/4W 1/4W
220O HM
CSD
1130_SAMEX NG
25V
1NF
AR3075
AR3069
VS
AD3015
7 6 5 4
1 2
39KOHM
1N4148WS
HO
COMP
GVDD-51V
AR3116
220NF 220NF 50V AR3129 50V
AD3005
AMP_SD
IN-
16 15 14 13 12 11 10 9
AQ3005
27KOHM
AC3087
10D5>
VB
27KOHM ES1 D-13-F
10KOHM AOT-0603P-B01AZ
10D5>
10G5>
CSH
GND
AR3115
AR3105
AOP3003
10G5>
8B3<
VAA
BAV20WS -V
10UF
9C5<
AMP_GND
6.8KOHM
AR3042 0107_CHANG ED PWM FREQ. FROM 240OHM
25V
AC3029
AR3076
1217_CHANGED PWM FREQ
AM_WL
1NF
3.9KOHM
1NF
AC3062
1.8KO HM
AC3066
9D4>
1/10W 12KO HM
10UF
10U F 50V 100PF
1 2 3 4 5 6 7 8
AD3011
AC3070
LPF_SWL
L_SW
AC3058
AC3054
AR3057
9D3>
AR3053
8.2KOHM
AC3040
3.3KOHM
1211_CHANGED TO 105. TRANSIENT
4.7KOHM
AR3087
4.7O HM
390OHM
VSS-5V
AR3088
AC3048
100NF
AIC3006
AR3089
AR3048
AC3049
AC3039
AMP_GND
+PVDD+66V
47KO HM
AR3064
100NF
AC3038
AR3063 150KO HM
10UF
10D4<
10E4<
4.7O HM
AR3090
AMP _GND
10UF
AM_WR
AM_FR
MM74HCU04MTCX
9C10> 8B8<
1 2 3 4 5 6 7
AIC3003
PWM_8+
UNDEFINED
AM_FL
SPK_ L_SW+ SPK_ FL
-
9F10>
VAA+5V
+
7B8>
-
7A3<
+
AM_WL
LEFT HOLE FROM OUTSIDE
SGND -PVDD-66V
VSS-5V
6-15
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.14.1. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-16
6. Schematic Diagram
6.15. MAIN-10 CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
+PVDD+66V
47KOHM
AD4011
AC4015 390PF
AR4149
47KOHM
AR4150
1.2KOHM 1/4W
AC4111
1.2KOHM 1/4W
AC4112
AD4021
400V S1G
OPEN AC3206
100NF 250V
10NF 100V 10NF 100V
AR4151
100NF 250V
AC4105 AR4141
10OHM 1W
AC4101
470NF 250V
AD4022
400V S1G
OPEN 10NF 100V
39KOHM 39KOHM
AC3205
AR4135
1OHM 1/4W
AR4136
SGND -PVDD-66V
VSS-5V
ACN4001
10UF 10V
10OHM
AMP_GND AR4036
8B8<
10F10> 10D10>
4 2 1 3
SPK_ FR SPK_ R_S W+
VSS-5V
UNDEFINED
MGND1
RIGHT HOLE FROM OUTSIDE
10UF 10V
AC4023
VCC
100NF AC3214 100NF AC3213
AC4024
OUT1
IN1-
OUT2
5 6 7 8 IN2+
IN2-
IN1+
VEE
BA4560F
10E11<
SPK_ R_SW+
1206 _ENFORCED SN
AC4016 390PF
12KOHM
680OHM
10NF 100V
50V AC4095
AC4083
220NF
220NF 50V
AC4084 AC4085 AC4086
AR4109
10KOHM AOT-0603P-B01AZ
AOP4003
3
27OHM IRF6775MTRPBF
220NF 220NF 50V AR4129 50V
25V AC4073
10UF 25V
AC3210
10UF
AR4097
3.9KOHM
10KOHM 25V
AC4069
1NF AR4075
IRS 2092S TRPBF
7 6 5 4
1 2 AR4124
DBF-2022A
1127_CROSS ED P HAS E
AR4020
2.2NF
DT
10OHM
2.2KOHM
SGND 1203 _CHANGED PWM FREQ
CHANGE FROM 120KOHM TO 150KOHM_0617
AC4026
FEED BACK R HAVE TO BE P LACED NEAR PWM IC
VAA+5V
AR4066
47KO HM
+PVDD+66V
AD4008
1N4148WS
10C10>
8D1<
47KOHM
AR4152
400V S1G
AD4023
OPEN AC3208
100NF 250V
AC4097
220NF 50V
AC4087 AC4088
10UF 25V
10KOHM
10NF 100V
AC4113
10NF 100V 10NF 100V
1.2KOHM 1/4W
SPK_ FR
AC4114
1.2KOHM 1/4W
100NF 250V
AR4153 AR4154
10OHM 1W
AC4106
470NF 250V
AC4102
400V S1G
AD4024
3
27OHM IRF6775MTRPBF
7 6 5 4
AR4142
IRS2092STRP BF
1 2 AR4126
OPEN 10NF 100V
DT
AC3207
COM
OCSET
AR4137
VREF
DBF-2022A
39KOHM
LO
AR4130
VSS
AQ4008
10OHM
9F10>
AL4
UNDEFINED AR4102
AR4110
AR4077
220 OHM
VCC
D 9B10>
1130_EMI OPTION
AR4138
1N4148WS
CSD
3
27OHM IRF6775MTRPBF
39KOHM
EXT_S D
VS
AR4125
1OHM 1/4W
8D3>
HO
COMP
10OHM 1/4W
C4089
8D5>
IN-
16 15 14 13 12 11 10 9
7 6 5 4
220NF 50V
9C5>
VB
AR4118
1 2
AC4090
9G5>
AR4070
CSH
GND
AD4016
AQ4007
GVDD-51V
220NF 50V
AMP_SD
VAA
27KOHM
10KOHM AOT-0603P-B01AZ
10D5>
1 2 3 4 5 6 7 8
27KOHM
AOP4004
8B3<
AR4078
9C5<
3.9KOHM
10D5>
AD4007
9F5<
AMP_GND
AC4066
AR4058
0107 _CHANGED PWM FREQ . FROM 300OHM
6.8KOHM
1NF
1NF
1NF
1.8KO HM
AC4062
10U F
AC4058
430OHM
LPF _FR
AC4054
25V 10UF
10E3>
AR4054
AR4117
ES1D- 13- F
AC4074
1211_ CHANGED TO 105. TRANS IENT
AC4042
AR4106
25V
AIC4006
4.7O HM VSS-5V
0313_STR ESS NG(1608->2012)
BAV20WS-V
220NF 50V
AD4012
AC4070
100NF
AC4049 AC4050
150 KOHM
10UF
AR4050
AR4065
100NF
AC4041
AMP_GND
10UF
4.7O HM
10UF
1210_ TO IMPROVE SN
AC4040
10KOHM
3.9KOHM
AR4049
AR4098
AR4038
4.7KOHM
AM_FR
10F5<
8.2KOHM
9E4>
LPF _FR
3.3KOHM
AC4020 390P F
AR4026
AR4091
680OHM
1/10 W 12KO HM
AR4092
2.2KOHM
50V 100 PF
AR4025
AR4093
AR4016
PWM_3 6.8KOHM
1N4148WS
VAA+5V
4 3 2 1
AR4030
220 OHM
AD4006
EXT_S D
COM
OCSET
AR4094
AR4004
3.3NF AC4012
AIC4002 AMP_GND 1208_ FROM 2%,P ART CERTI
AC4008
6.8KOHM
AC4007
PWM_3 + 1208 _FROM 2%,PART CERTI
7C8>
AR4014
2.2NF
7C8>
AR4003
8D3>
1N4148WS
VREF
UNDEFINED
AQ4006
10OHM
8D1<
AL3
AR4034
680OHM
AR4013 2.2KOHM
8D5>
AMP_SD
LO
AR4101
10F10>
ST0290732P
12KOHM AR4029
9C5>
AR4069
AD4005
10G5>
AC4065
3.3NF AR4019
AC4011
2.2NF
AC4005 6.8KOHM
AC4006
PWM_4 +
9G5>
8B3<
VCC
VSS
1130_EMI OPTION
0109_D ISCONTINUOUS SOUND
1130_SAMEX NG
9F10>
B_SGND_4
7C8>
AR4008
10G5>
9C5<
CSD
3
27OHM IRF6775MTRPBF
D 9B10>
B_SPK_FR B_SPK_SWR
AMP_GND 1208 _FROM 2%,PART CERTI
2.2NF
9F5<
VS
10UF
680OHM
2.2KOHM
1208_ FROM 2%,P ART CERTI
HO
COMP
AR4123
10OHM 1/4W
10UF
6.8KOHM
0107 _CHANGED PWM FREQ. FROM 240OHM
390PF
IN-
16 15 14 13 12 11 10 9
7 6 5 4
1 2
AR4116
-
AR4012
VB
AQ4005
GVDD-51V
AD4015
+
PWM_4 -
AR4007
AMP_GND
CSH
GND
AR4115
27KOHM
-
7C8>
AR4042
6.8KOHM
AC4028
AR4076
9E4> AM_WR
AC4061
10D5<
1NF
25V
LPF _SWR
1NF
AR4057
10KOHM AC4019
AR4022
1.8KO HM
1/10 W 12KO HM
50V 100 P F
VAA
AR4105
27KOHM ES1 D-13-F
+
AR4032
10U F
AC4057
360OHM
1210 _TO IMPRO VE SN
LPF _SWR
AC4053
3.9KOHM
AR4053
AC4039 10D3>
1 2 3 4 5 6 7 8
1211_ CHANGED TO 105. TRANS IENT
AR4090
4.7O HM VSS-5V
AR4089
AIC4005
AR4088
AR4087
BAV20WS -V
4.7KOHM
AR4064
8.2KOHM
10UF
100NF
AR4048
100NF
AC4037 AC4038
AMP _GND
AC4047
4.7O HM
10UF
AUDIO
AR4063 150 KOHM
AC4048
AR4047
3.3KOHM
POWER
8B8<
10E11<
SGND -PVDD-66V
VSS-5V
6-17
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.16. SMPS–1 (PFC BLOCK) DP 818 1N5408-G6 1 2
DP 803 1N5408-G6 1 2
832 680pF 1KV 1 2 TP A801
RP 803 4.7J 2W
824 220pF 1KV 1
7T
2 1
2 DP 805 BAV70
RP 826 10KF 1608
QP 802 FCA22N60N
825 0.22nF 1000V
100
RP 808 2MF 3216
RP 842 2.2MF 3216
HS 8 0 2
2
RP 820 20F 2012
RP 824 51F 3216
RP 825 51F 3216
1
2 1
1
1
RP 840 2MF 3216
RP 839 20KF 1608
RP 872 0.015m 2W
RP 838 20KF 1608
1E B 2 3C
QP 807 MMBT2907A 2
813 47pF 1608
1
1
2
RP 873 0.015m 2W
1
1
80
100
RP 865 1.5MF 3216
RP 844 2MF 3216
2
802 180uF 450V
801 180uF 450V
803 180uF 450V
QP 803 3 FCA22N60N
3
RP 848 2.7F 2012
RP 864 1.5MF 3216
RP 883 4.7J 2W
2
LP 802 2150ohm 1
2
3
1
RP 828 10KF 1608
2
DP 806 BAV70
1
QP 806 MMBT2222A
RP 871 0.015m 2W
2
1
1
3C QP 805 MMBT2907A
3
1
1
3
RP 849 2.7F 2012
200
RP 837 2MF 3216
2
RP 831 2.2MF 3216
1
1E B 2
160
2 1
RP 818 20F 2012
2
200
RP 863 1.5MF 3216 2
2
RP 882 4.7J 2W
LP 801 150ohm
RP 834 2.2MF 3216
2
8
2
300
1
7
1
2 1
280
1
9
1
P FC-OUT
2
6
RP 822 51F 3216
RP 823 51F 3216
3
RP 830 2.2MF 3216
400
RP 862 1.5MF 3216
1
10
HS 8 0 2
RP 833 2.2MF 3216
826 0.22nF 1000V VCC2-ON
RP 851 100KF 1608
814 47pF 1608
2
11
5
QP 804 MMBT2222A 2
1
4
VCC
7T
2
12
2
13
300
2
833 680pF 1KV
1
2 3
RP 817 4.7F 2012
RP 829 2.2MF 3216
RP 836 130KF 1608
1
2 1 2
14
AP 122-4P FC 150uF, EER4245
2
RP 804 4.7J 2W 1
1
5 4 .5 T
RP 806 2MF 3216
2
822 220pF 1KV
TP B801 RP 805 2MF 3216
1
1
AP 122-4P FC 150uF, EER4245
2
8
DP 802 S F1608P T TO-247AD
1
7
1 3
2
9
1
6
2
2
10
1
11
5
2
4
5 4 .5 T
1
VAC-A
2
HS 8 0 2
1
12
2
13
1
14
2 3
2
1
811 1nF 1608
RP 867 56KF 1608
RP 802 0.015m 2W
VAC-B AC_P
RP 810 0.015m 2W RP 807 0.015m 2W
GND_P
VINAC
CS
ZCDB
ZCDA
GDA
GDB
GND_P
HVS EN
RP 809 10KF 1608
VS ENS E
RP 814 220F 1608
I 801 UCC28063 ZC DB
ZC DA 1
16
2
15
3
14
4
13
VS E NS E
VR E F
TS E T
G DA
P HB
RP 884 22F 3216
P G ND
C O MP
VC C 5
12
6
11
7
10
AG ND
VCC
VCC
1
2
G DB
VINAC
CS
HVS E N
P WMC NTL
2
9
819 2.2uF 2012
810 220nF 1608
1
8
RP 816 10KF 1608
816 22uF 50V
RP 813 133KF 1608
807 1nF 1608
805 2.7nF 1608
806 2.2uF 2012
817 2.2uF 2012
818 N.C
820 2.2uF 2012 804 100nF 1608
RP 812 200KF 2012
808 10nF 1608
815 220nF 1608
809 100nF 1608 ZDP 8 0 1 Z0 2 W2 2 VY
RP 811 18KF 1608
GND_P GND_P
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-18
6. Schematic Diagram
6.17. SMPS–2 (PVDD(+, –) BLOCK) [HO T]
[C O LD] LS 801 3.8uH 1
2
+P VDD
P FC-OUT
HS 8 0 3
2
2 1 FS 801S T8AH 250V
1
2
2
3
1
2
DS 824 MBRF20200CT
LS 805 150ohm
13
4
14
10
11
12
13
14
15
16
8
10
12
14
3
1
2
1
1
1.+P VDD 3.+P VDD 5.GND 7.GND 9.GND 11.GND 13.-P VDD 15.-P VDD
2
2
3T 14
DA825 MBRF20200CTR
CA801 820uF 100V
CA802 820uF 100V
RS 847 10KF 3216
2
2.+P VDD 4.+P VDD 6.GND 8.GND 10.GND 12.GND 14.-P VDD 16.-P VDD
1
DS 800 UF4007
2
2
CS 804 0.22nF 1KV
16
2
RS 846 10KF 3216
1
1
LB801 3.8uH 1 2
1
QS 802
DS 805 BAT54C
CS 808 33nF 1250V
CS 809 33nF 1250V
2
FDA24N50F
CS 811 22uF 50V
QS 814 MMBT2222A
OUT_B
QS 817 MMBT2907A
GD2
4 2
CS 810 100nF 1608
RS 814 2.7KF 1608
3
DS 830 BAV70 RS 821 1.2KF 1608
CS 827 1uF 2012
DS 822 BAV70
RS 855 18KF 1608
RS 854 6.2KF 1608
CS 840 10nF 1608
CS 838 1uF 1608
DS 807 BAV70 3
CS 836 220nF 1608
CS 828 1uF 2012
2
3
P CS 802S LTV817BS TA-B
1
CS 835 220nF 1608
2
RS 830 10KF 1608
RS 843 15KF 2012
1
1 OC
CS 820 1uF 2012
RS 817 51KF 2012 CS 847 22uF 50V
RS 838 200KF 2012
GND
RT
CS 813 1uF 2012
2012
1
RS 864 10F 1608
VCC
CS 812 1uF 2012
2
QS 816 MMBT2907A
2
GD2
1
GD1
2 1 1
RS 842 18KF RS 837 200KF 2012 OUT-B
QS 815 MMBT2222A
2
4 S S GD2 5
RS 813 2.4KF 1608
OUT-A
OUT_A
3 OC GND 6
RS 860 470F 1608
RS 839 56KF 2012
RS 863 10F 1608
1
2 RT VCC 7
VCC-S
RS 836 200KF 2012
GD1
ICS 801 UCC25600D 1 DT GD1 8
GND_S
1
RS 835 300KF 2012
RS 867 4.7F 2012
2
2
50
VCC
RS 820 1.2MF 1608
CE809S 1nF 250V
RS 803 7.5KF 2012
2
110 RS 834 300KF 2012
1
RS 833 300KF 2012
1
RS 858 3KF 1608
9
6
S TW200-H16CBF
1
13
2
2
12T
1
11 12
12T
3
10
1
3
9
1
5
6
7
8 1
2
8
4
CS 823 1nF 1000V
RS 871 22F 3216
CS 805 QS 820 1uF MMBT2222A 1608
8
GND_S
DA824 MBRF20200CT
8 7 6
3
RS 809 10KF 1608
GND_P
CS 850 100nF 1608
7
4
11
P VDD-IS ENS E
AP 122-3LM 150uH, EER3540
GND_P
RS 870 330KF 1608
6
13
1
3
DS 804 BAT54C
1
CS 819 1nF 1000V
2
GB_OUT
RS 812 51F 3216
5
15
LS 806 150ohm
DS 821 BAV70
4
9
TS 802S
RS 801 20F 3216 RS 811 51F 3216
3T
HS 8 0 3
TS 803S P T-7
OUT_B
2
3 5
AP 122-3LM 150uH, EER3540
19T
RS 810 22F 3216
12T
14
7
RS 861 20F 3216
2 1
3
14
RS 808 10KF 1608
RS 807 51F 3216
1
2
2
1
OUT_A
OUT-B
12
5
OUT-A
11
1
FDA24N50F
RS 805 51F 3216
CN801 DS 825 MBRF20200CTR
7
QS 801
GA_OUT
10
3216
12T
3
DS 820 BAV70
9
2
RS 802 22F 3216
400
19T
CS 822 1nF 1000V
3
6
4
1
8
3
CS 818 1nF 1000V
2
RS 845 10KF
8 7
5
7
CS 801 820uF 100V
CS 802 820uF 100V
TS 801S
1
HS 8 0 1
1
1
2
RS 844 10KF 3216
1 1 2 3 ICS 802 KIA431AM S OT-23
2
RS 818 51KF 2012
A5.3V
RS 815 20KF 1608 VP S
CS 817 470nF 2012 RS 819 7.5KF 3216
GND_P
RS 822 510KF 3216
RS 823 8.2KF 1608
3
QS 818 2N7002BK 2 RS 824 150KF 1608
RS 825 10F 1608
RS 826 100KF 1608 CVCC_P WM
CS 821 N.C
GND_S
6-19
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.18. SMPS–3 (EMI & MULTI – BLOCK) [C O LD] QM851 MDD3752RH
2
P FC-OUT 2
3
1
2
3
DM852 MBRF10150CT
RM846 100KF 1608 RM841 1KF 1608
TB801S
2 2
1
FB801S T3.15AL 250V
DB809 1N4007 DO-41
1
1
CB801 2.2nF 800V
RB804 47KJ 2W
1
12
2
11
3
10
23T
4T
2
3 1
BD801S GBJ 1506
2
BD802S GBJ 1506
8 3 0 1000nF 500V
2
3
1
1
1
4
2
1
3
1
3
2
B
21
5
RM874 20KF 1608
CM868 1000nF 1608
CM867 820uF 25V CM846 1000nF 1608
QQ8 5 5 MMBT2 2 2 2 A
33
2
2 RM873 5.1KF 3216
DB802 UF4007-0021
CM866 100nF 1608
2
3
2 4
RM840 470J 2W
RM875 47KF 1608
UM852 KIA431AM S OT-23
2
2
7
Dra in
Vcc
6
S /O
FB
GND
DH5 8 0 0 8 0 S F A 8 mH
2
2
CM840 CM841 100nF 100nF 1608 1608
UM801S S QT6010K
4
2
RM872 10F 1608 RM880 100KF 1608
1
VAC-B
1
7
RM858 4.7KF 1608
RM842 8.2KF 1608
HS 8 0 1
2
2
2
6
CM858 470uF 25V NXB
AP P 122-3VM 520uH, EER3224
8 0 0 1000nF 500V
B/OUT
1
4T
CM859 470uF 25V NXB
2
LE8 0 4 S
1
8
1
3
7T
9
5
1
4
4
RM881 2KF 1608
CM872 220nF 1608
1
9T
DB801 1N4007G-03
3
4
B12V
QM8 5 4 MMBT2 9 0 7 A
1
VAC-A
4
1
2
2
3T
400
1
ZM853 Z02W15VY
CM860 CM861 CM862 1nF 1nF 1nF 1608 1608 1608
1
23T
HS 8 0 4 2
1
RM813 47F 2012
RM811 10J 2012
1E
2
RM812 47F 2012
1 LM802 25MHz 30ohm
CM870 1000nF 1608
3
DB808 1N4007 DO-41
3C
1
2
[HO T]
P VDD_ O N
RM877 1KF 1608
11
RM876 150KF 3216
400
RQ867 2KF 1608
1
CB803 47uF 50V
2
2 1
CN802
KTD1624 QQ810 1
2 1
DM851 MBRF2080CTR
2
2
CX820 1500uF 10V
2
1 LM801 25MHz 30ohm
1
3
CE807S 680pF 250V
CE806S 680pF 250V
1 3
1
DM854 UF4007-0021
HS 803
2
CB804 220nF 1608
B
2
UM805 S N7905D
2 1
RB807 0.4J 2W
RM843 100F 1608
RM844 220F 1608
2
CM842 CM843 1nF 1nF 1608 1608
1
1
2
1
GND_S
2
2 1
CB806 100nF 1608
1
1
Re la y_B
RM822 47F 2012
2
CM857 470uF 25V
2
1
QQ8 1 1 MMBT2 9 0 7 A
CM856 47uF 50V
1
2
1
DB804 BAT54C
2 NT8 0 2 S 5ohm 5 D- 1 5 MS OC
1
RM823 10J 2012
E1
C 3
2
CM855 47uF 50V
2
RM821 47F 2012
CB802 220nF 1608
1
NT8 0 1 S 5ohm 5 D- 1 5 MS OC
RQ868 1KF 1608
3
CB816 22uF 450V
Re la y_A
RM863 1F 3216
1
CE805S 470nF 275V
2
Re la y_C
RM810 22F 3216
2
2
2
G ND_ S
1
3
CX821 1500uF 10V
CB810 1000nF 1608
4 1
A5.3V
5 6 7
VP S
8 LE8 0 3 S 2
1
2
ZDB802 S MFZ18V
1
1
1
2 1
2
2
4
2
2 1
P HO_H
S A801 N.C 2
2
9 10 11
S A802 N.C 1
S -GND
1
3
1
RB801 20F 2012
GND_P
DH5 8 0 0 8 0 S F A 8 mH
4
CB807 1nF 1608
A5.3V_HEAD
1 P C801S LTV817BS TA-B
2
RQ869 3.3J 3216
1.A5.3V 3.A5.3V 5.GND 7.VP S 9.B12V 11.GND
RM871 1KF 1608
RM867 10KF 1608
2.A5.3V 4.GND 6.GND 8.B-5V 10.B12V 12.P S _ON
1
RX803S 330KF 3216
DB803 UF4007-0021
CM865 33pF 1608
RQ866 100KF 1608
2
RQ811 1KF 1608
CM853 N.C 1608
QQ803 KTD1624-C S OT-89
IDM852 KIA431AM GND_S
RM870 8.2KF 3216
P S _ON
2
2
QQ8 0 2 P BS S 5 3 5 0 X
B
1
2C
VCC_A
CM864 100nF 1608
3
1
VCC
CE8 0 1 S 1uF 275V
3E
RX802S 330KF 3216
20010WS -12
RM869 910F 1608
RM854 1KF 1608
P HO_L
RX801S 330KF 3216
RM868 8.2KF 1608
RM852 1KF 1608
2
3
12
A5.3V
GND_S 3 1
1
2
2
DQ813 BAV99LT1G S OT-23
1
1
VCC2-ON
4
1
2 2
3 ICQ804 KIA431AM S OT-23
ZDQ914 Z02W7.5VY S OT-23 1
CQ806 1uF 2012
CQ815 220uF 50V
2
3 P CQ802S LTV817BS TA-B
3 1
RQ823 100KF 1608
3
1
2 1
FP 801S T12AH 250V
ZDQ915 Z02W7.5VY S OT-23
2
1
2
VX801S TVR14751
2
CQ807 47uF 50V
3
RQ808 10KF 2012
CE803S 0. 22nF 250V
1
CE802S 0. 22nF 250V
RQ819 470F 2012
1
2
2
1
1
2
Re la y_on 3
QQ852 2N7002BK 2 RQ861 150KF 1608
DQ812 N.C
RQ863 20KF 1608 CQ813 10nF 1608
3
QQ808 2N7002BK 2 RQ865 150KF 1608
RQ864 1KF 1608 S HUTDOWN CQ816 10nF 1608
S -GND
1
2
3
4
5
GND_P
L
N
S -GND
CN800S DAC-14S 2 GND_S
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-20
GSPN (GLOBAL SERVICE PARTNER NETWORK) Area
Web Site
Europe, MENA, CIS, Africa
https://gspn1.samsungcsportal.com
E.Asia, W.Asia, China, Japan
https://gspn2.samsungcsportal.com
N.America, S.America
https://gspn3.samsungcsportal.com
This Service Manual is a property of Samsung Electronics Co.,Ltd. Any unauthorized use of Manual can be punished under applicable International and/or domestic law.
© 2013 Samsung Electronics Co.,Ltd. All rights reserved. Printed in Korea
MX-HS9000
Model Code
MX-HS9000/ZP
SERVICE
MANUAL
HI-FI Component System
Contents 1. Precaution 2. Product Specification 3. Disassembly and Reassembly 4. Troubleshooting 5. PCB Diagram
MX-HS9000
6. Schematic Diagram
Refer to the service manual in the GSPN (see the rear cover) for more information.
Contents
Contents 1.
2.
Precaution........................................................................................................................................ 1 − 1 1.1.
Safety Precautions ................................................................................................................... 1 − 1
1.2.
Servicing Precautions ............................................................................................................... 1 − 3
1.3.
Precautions for Electrostatically Sensitive Devices (ESDs) .............................................................. 1 − 4
1.4.
Installation Precautions ............................................................................................................. 1 − 5
Product Specification ......................................................................................................................... 2 − 1 2.1.
Product Feature ....................................................................................................................... 2 − 1
2.2.
Specifications.......................................................................................................................... 2 − 2
2.3.
Specifications Analysis ............................................................................................................. 2 − 3
2.4.
Accessories ............................................................................................................................ 2 − 4 2.4.1.
3.
4.
Disassembly and Reassembly .............................................................................................................. 3 − 1 3.1.
Overall Disassembly and Reassembly .......................................................................................... 3 − 1
3.2.
DECK Disassembly and Reassembly ........................................................................................... 3 − 12
Troubleshooting ................................................................................................................................ 4 − 1 4.1.
4.2.
Checkpoints by Error Mode ....................................................................................................... 4 − 1 4.1.1.
No Power................................................................................................................... 4 − 2
4.1.2.
No Output .................................................................................................................. 4 − 4
Measures to be taken when the Protection Circuit operates............................................................... 4 − 6 4.2.1.
Operation of Power Block Protection Circuit .................................................................... 4 − 6
4.2.2.
Check AMP in Power Protection .................................................................................... 4 − 7
4.3.
MICOM, MPEG Initialization & Update ...................................................................................... 4 − 8
4.4.
Buyer-Region Code Setting Method ............................................................................................ 4 − 9 4.4.1.
5.
The inserting method of Region Code after replacing the Main PBA ..................................... 4 − 9
PCB Diagram ................................................................................................................................... 5 − 1 5.1.
Wiring Diagram....................................................................................................................... 5 − 1
5.2.
FUNCTION PCB Top .............................................................................................................. 5 − 2 5.2.1.
Pin Connection ........................................................................................................... 5 − 3
5.3.
FUNCTION PCB Bottom.......................................................................................................... 5 − 4
5.4.
VFD PCB Top/Bottom.............................................................................................................. 5 − 5 5.4.1.
5.5.
5.6.
Pin Connection ........................................................................................................... 5 − 6
LED PCB Bottom .................................................................................................................... 5 − 7 5.5.1.
i
Supplied Accessories ................................................................................................... 2 − 4
Pin Connection ........................................................................................................... 5 − 8
MAIN PCB Top ...................................................................................................................... 5 − 9 5.6.1.
Pin Connection ........................................................................................................... 5 − 10
5.6.2.
Test Point Wave Form .................................................................................................. 5 − 11
5.7.
MAIN PCB Bottom.................................................................................................................. 5 − 12
5.8.
SMPS PCB Top....................................................................................................................... 5 − 13 Copyright© 1995-2013 SAMSUNG. All rights reserved.
Contents
5.8.1. 5.9. 6.
Pin Connection ........................................................................................................... 5 − 14
SMPS PCB Bottom .................................................................................................................. 5 − 15
Schematic Diagram ........................................................................................................................... 6 − 1 6.1.
Overall Block Diagram ............................................................................................................. 6 − 1
6.2.
FUNCTION-1......................................................................................................................... 6 − 2
6.3.
FUNCTION-2......................................................................................................................... 6 − 3
6.4.
VFD...................................................................................................................................... 6 − 4
6.5.
LED ...................................................................................................................................... 6 − 5
6.6.
MAIN–1 ................................................................................................................................ 6 − 6
6.7.
MAIN-2................................................................................................................................. 6 − 7 6.7.1.
Test Point Wave Form .................................................................................................. 6 − 8
6.8.
MAIN-3................................................................................................................................. 6 − 9
6.9.
MAIN-4................................................................................................................................. 6 − 10
6.10. MAIN-5................................................................................................................................. 6 − 11 6.11. MAIN-6................................................................................................................................. 6 − 12 6.12. MAIN-7................................................................................................................................. 6 − 13 6.13. MAIN-8................................................................................................................................. 6 − 14 6.14. MAIN-9................................................................................................................................. 6 − 15 6.14.1. Test Point Wave Form .................................................................................................. 6 − 16 6.15. MAIN-10 ............................................................................................................................... 6 − 17 6.16. SMPS–1 (PFC BLOCK) ........................................................................................................... 6 − 18 6.17. SMPS–2 (PVDD(+, –) BLOCK)................................................................................................. 6 − 19 6.18. SMPS–3 (EMI & MULTI – BLOCK) .......................................................................................... 6 − 20
Copyright© 1995-2013 SAMSUNG. All rights reserved.
ii
1. Precaution
1. Precaution Follow these safety instructions while servicing the ESD to prevent damage and to protect against potential hazards such as electrical shock and X-rays.
1.1. Safety Precautions 1) When reinstalling the chassis and its assemblies, be sure to restore all of the protective devices, including the control knobs and the compartment covers. 2) Make sure that there are no cabinet openings through which people (particularly children) can make with dangerous internal components. 3) Design Alteration Warning : Never alter or add to the mechanical or electrical design of the unit. Example : Do not add auxiliary audio or video connectors. Such alterations might create a safety hazard. Also, any design changes or additions will void the manufacturer’s warranty. 4) Leakage Current Hot Check Figure 1.1 AC Leakage Test : WARNING Do not use an isolation transformer during this test. Use a leakage-current tester or a metering system that complies with American National Standards Institute (ANSI C101.1, Leakage Current for Appliances), and Underwriters Laboratories (UL Publication UL1410, 59.7).
With the unit completely reassembled, plug the AC cord directly into a 120 V AC outlet. With the unit’s power switched from the ON to the OFF position, measure the current between a known ground and all exposed metal parts. Known Grounds - Earth Known Metal parts - Screwheads, Metal Cabinets, etc.
LEAKAGE (READING CURRENT SH OULD NOT BE TES TER ABOVE 0.5mA)
DEVICE UNDER TES T TES T ALL EXPO S ED METAL SU RFACES 2-WIRE CORD ALSO TES T WITH PLUG REVER S ED (US ING AC ADAPTER P LUG AS R EQ UIRED)
EARTH GROUND
Figure 1.1 AC Leakage Test
1-1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1. Precaution
5) Insulation Resistance Cold Check : (1) With the unit’s AC plug disconnected from the AC source, connect an electrical jumper across the two AC prongs. (2) Set the power switch to ON. (3) Measure the resistance between the shorted AC plug and any exposed metallic parts. Example : Screwheads, Metal Cabinets, Antenna Port, etc. If any of the exposed metallic parts has a return path to the chassis, the measured resistance should be between 1 and 5.2 megohms. If there is no return path, the measured resistance should be “infinite”. If the resistance is outside these limits, a shock hazard might exist. See Figure 1.2 Insulation Resistance Test
Ante nna Term inal
Expo s ed Meta l P a rt oh m Ohmmet er
Figure 1.2 Insulation Resistance Test
6) Components, parts and wiring that appear to have overheated or that are otherwise damaged should be replaced with parts that meet the original specifications. Always determine the cause of damage or overheating, and correct any potential hazards. 7) Observe the original lead dress, especially near the following areas : Antenna wiring, sharp edges, and especially the AC and high voltage power supplies. Always inspect for pinched, out-of-place, or frayed wiring. Do not change the spacing between components and the printed circuit board. Check the AC power cord for damage. Make sure that no wires or components touch thermally hot parts. 8) Product Safety Notice : Some electrical and mechanical parts have special safety-related characteristics which might not be obvious from visual inspection. These safety features and the protection they give might be lost if the replacement component differs from the original–even if the replacement is rated for higher voltage, wattage, etc. 9) Components that are critical for safety are indicated in the circuit diagram by shading, or . Use replacement components that have the same ratings, especially for flame resistance and dielectric strength specifications. A replacement part that does not have the same safety characteristics as the original might create shock, fire or other hazards.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1-2
1. Precaution
1.2. Servicing Precautions 1) Servicing precautions are printed on the cabinet. Follow them. 2) Always unplug the unit’s AC power cord from the AC power source before attempting to : (a) Remove or reinstall any component or assembly, (b) Disconnect an electrical plug or connector, (c) Connect a test component in parallel with an electrolytic capacitor. 3) Some components are raised above the printed circuit board for safety. An insulation tube or tape is sometimes used. The internal wiring may be clamped to prevent with thermally hot components. Reinstall all such elements to their original position. 4) After servicing, always check that the screws, components and wiring have been correctly reinstalled. Make sure that the portion around the serviced part has not been damaged. 5) Check the insulation between the blades of the AC plug and accessible conductive parts (examples : metal s, input terminals and earphone jacks). 6) Insulation Checking Procedure : Disconnect the power cord from the AC source. Connect an insulation resistance meter (500 V) to the blades of the AC plug. The insulation resistance between each blade of the AC plug and accessible conductive parts (see above) should be greater than 1 megohm. 7) Never defeat any of the B+ voltage interlocks. Do not apply AC power to the unit (or any of its assemblies) unless all solid-state heat sinks are correctly installed. 8) Always connect a test instrument’s ground lead to the instrument chassis ground before connecting the positive lead; always remove the instrument’s ground lead last. CAUTION First read the “Safety Precautions” section of this manual. If some unforeseen circumstance creates a conflict between the servicing and safety precautions, always follow the safety precautions.
1-3
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1. Precaution
1.3. Precautions for Electrostatically Sensitive Devices (ESDs) Some semiconductor (“solid state”) devices are easily damaged by static electricity. Such components are called Electrostatically Sensitive Devices (ESDs). Examples include integrated circuits and some field-effect transistors. The following techniques will reduce the occurrence of component damage caused by static electricity : 1) Immediately before handling any semiconductor components or assemblies, drain the electrostatic charge from your body by touching a known earth ground. Alternatively, wear a discharging wrist-strap device. (Be sure to remove it prior to applying power–this is an electric shock precaution.) 2) After removing an ESD-equipped assembly, place it on a conductive surface such as aluminum foil to prevent accumulation of electrostatic charge. 3) Do not use freon-propelled chemicals. These can generate electrical charges that damage ESDs. 4) Use only a grounded-tip soldering iron when soldering or unsoldering ESDs. 5) Use only an anti-static solder removal device. Many solder removal devices are not rated as “anti-static” (these can accumulate sufficient electrical charge to damage ESDs). 6) Do not remove a replacement ESD from its protective package until you are ready to install it. Most replacement ESDs are packaged with leads that are electrically shorted together by conductive foam, aluminum foil or other conductive materials. 7) Immediately before removing the protective material from the leads of a replacement ESD, touch the protective material to the chassis or circuit assembly into which the device will be installed. 8) Minimize body motions when handling unpackaged replacement ESDs. Motions such as brushing clothes together, or lifting a foot from a carpeted floor can generate enough static electricity to damage an ESD.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
1-4
1. Precaution
1.4. Installation Precautions 1) Keep the product away from a heat source such as candle light, mosquito repellent incense, heating equipment, or direct sunlight. Otherwise, this may cause fire. 2) Do not install the product on a place that is shaking, tilted, unstable, or seriously vibrating. The product may drop to get damaged or injure a person. If using the product in a highly vibrating place, it may be broken or cause fire. 3) When moving the product, turn off the power switch and unplug all the connected cables with the product such as the power plug and antenna cable. If the power cord is damaged, this may cause electric shock or fire. 4) Secure room for ventilation. Keep at least 10 cm of distance from the rear wall, and at least 5 cm from either side wall. 5) Installing the product in a special place like below rather than normal environment may cause serious quality concerns due to its special conditions. If this is the case, make sure to a local Samsung service center before installing the product. (Special places: a place where a large amount of dust is accumulated; where chemical substances are used or the ambient temperature is too high or low; a place that is full of moisture or water; in transportation vehicles such as a car; or in public places such as the airport or subway station where the product is supposed to operate uninterruptedly for a long time) 6) Keep the packaging plastic wrapper out of children's reach. If children play with it improperly, they may get suffocated. 7) If installing the product on a display cabinet, shelf, desk, etc., keep the product from protruding on its lower side. If the product falls, it may break or cause physical injury. Use only the display cabinet or shelf that fully covers the product. 8) If using lithium batteries, carefully read the following precautions: NOTE •
Ensure the batteries are inserted in the right direction. Otherwise, they may cause an explosion. Dispose of used batteries according to the manufacturer's instructions.
•
Do not expose the battery to fire.
•
Do not disassemble, short - cut, or heat the battery.
•
Use only the same type and size of batteries for replacement.
•
Do not expose the battery to fire or excessive heat.
1-5
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2. Product Specification
2. Product Specification 2.1. Product Feature ■ Power
• 2.2 CH : 3400 W Total RMS / 40800 W PMPO ( Front : 850 W / CH, Subwoofer : 850 W / CH) • IR Amp ■ Specialized Function in 2014
• 3D Display • Big Size Speaker Unit • DJ Effect • LED Lighting ■ Connectivity
• USB Host (Twin USB) • Portable Audio In (3.5 phi Stereo Jack) • MIC Input (6.3 phi Stereo Jack) • FM • Bluetooth ■ Disc
• Type : 1 Slot In (12 cm CD) • Compatible : MP3, CD/CD-R, RW, WMA
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2-1
2. Product Specification
2.2. Specifications ■ Basic Specification Power Requirements
AC 110 - 240 V ~ 50 / 60 Hz
Power Consumption
146 W Main Unit : 8 Kg
Weight Speakers : 65.6 Kg General
FM Tuner
AM Tuner (optional)
Dimensions
Main Unit : 588 (W) x 238 (H) x 388 (D) mm
(W x H x D)
Speakers : 588 (W) x 887 (H) x 548 (D) mm
Operating Temperature Range
+5 °C ~ +35 °C
Operating Humidity Range
10 % to 75 %
Signal/Noise ratio
55 dB
Usable sensitivity
10 dB
Total harmonic distortion
1%
Signal/Noise ratio
30 dB
Usable sensitivity
70 dB
Total harmonic distortion
4% Reading Speed : 4.8 ~ 5.6 m/sec.
CD Disc
CD : 12 cm (COMPACT DISC) Maximum Play Time : 74 min. Front speaker output
850 W / CH (4 Ω)
Subwoofer output
850 W / CH (4 Ω)
Frequency range
22 Hz ~ 20 KHz
S/N Ratio
65 dB
Channel separation
60 dB
Input sensitivity
AUX IN1 1.2 V, AUX IN2 2 V
Amplifier
NOTE • Samsung Electronics Co., Ltd reserves the right to change the specifications without notice. • Weight and dimensions are approximate. • Design and specifications are subject to change without prior notice. • For the power supply and Power Consumption, refer to the label attached to the product.
2-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2. Product Specification
2.3. Specifications Analysis Model Name
MX-HS9000
MX-HS8000
MX-FS9000
MAX OUTPUT POWER
3400 W (PMPO : 40800 W)
2300 W (PMPO : 27600W)
2560 W (PMPO : 30720 W)
SPK CHANNEL
2.2 ch
2.2 ch
2.2 ch
FRONT DISPLAY
1C-FLT [Dot]
1C-FLT [Dot]
1C-FLT [Dot]
3D DISPLAY
3D
2D
3D
GIGA SOUND
O
O
O
SPK LED LIGHTING
ALL
Subwoofer
ALL
DJ EFFECT
O
O
O
BEAT WAVING
O
O
O
COMPATIBLE DISC
CD-R / CD-RW / MP3-CD
CD-R / CD-RW / MP3-CD
CD-R / CD-RW / MP3-CD
COMPATIBLE FILE
WMA / MP3
WMA / MP3
WMA / MP3
USB HOST 2.0
2
2
2
CD RIPPING
O
O
O
BLUETOOTH
O
O
O
AUDIO IN (RCA/3.5ø)
O / O
O / O
O / O
MIC IN
O (6.3 phi)
O (3.5 phi)
O (3.5 phi)
HEADPHONE OUT
X
X
X
VIDEO OUT
X
X
X
FM
O
O
O
SPK IMPEDANCE
Front : 4 Ω / Woofer : 4 Ω
Front : 4 Ω / Woofer : 4 Ω
Front : 4 Ω / Woofer : 4 Ω
POWER CONSUMPTION
STBY : 0.45 W ↓ NORMAL : 146 W
STBY : 0.45 W ↓ NORMAL : 137 W
STBY : 0.45 W ↓ NORMAL : 80 W
23.1 (W) X 9.4 (H) X 15.3 (D)
21.7 (W) X 8.3 (H) X 14.4 (D)
23.1 (W) X 9.4 (H) X 15.3 (D)
23.1 (W) X 34.9 (H) X 21.6 (D)
25.5 (W) X 25.7 (H) X 17.3 (D)
23.1 (W) X 39 (H) X 22.7 (D)
MAIN : 17.64 / SPK : 144.62
MAIN : 15.43 / SPK : 143.3
MAIN : 17.64 / SPK : 154.32
Photo
MAIN SIZE (inch) SPK SIZE (inch) TOTAL WEIGHT (lbs)
TIP O : Feature Included X : Not Included
Copyright© 1995-2013 SAMSUNG. All rights reserved.
2-3
2. Product Specification
2.4. Accessories 2.4.1. Supplied Accessories Accessories
2-4
Item
Item code
’s Manual
AH68-02687D
Remote Control
AH59-02613A
Batteries (AAA)
4301-000116
FM Antenna
AH42-00021A
Power Cable
3903-000467
FOOT Rubber
AH67-00696A
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
3. Disassembly and Reassembly 3.1. Overall Disassembly and Reassembly CAUTION •
Be careful to follow the disassembly sequence described in the manual. Otherwise, the product may be damaged.
•
Be sure to carefully read and understand the safety instructions before performing any work as the IC chips on the PCB are vulnerable to static electricity.
•
In order to assemble reverse the order of disassembly.
•
With a hand screwdriver, to prevent damage to the outside case. Description
1.
Description Photo
Unfasten 6 screws on each Side. : BH,+,B,M3,L10,ZPC(BLK) CAUTION Be careful not to make any scratches as you remove them.
2.
Unfasten 3 screws on the Back and Lift the top cover to Separate it from bottom chassis. : BH,+,B,M3,L10,ZPC(BLK)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
Lift
3-1
3. Disassembly and Reassembly
Description 3.
Unfasten 6 black screws and 2 white screws on the SMPS cover. : BH,+,B,M3,L10,ZPC(BLK) ( ) - 6EA : BH,+,-B,M3,L6,ZPC(WHT) ( ) - 2EA
4.
Unfasten 4 screws on the MAIN ASSY and 7 screws on the SMPS. : BH,+,-B,M3,L8,ZPC(WHT) ( ) - 4EA ) - 6EA : BH,+,B,M3,L10,ZPC(BLK) ( : BH,+,S,M4,L8,ZPC(WHT) ( ) - 1EA
Description Photo
Unplug all Wire and Cable. (blue marked)
5.
3-2
Unfasten 5 screws on the back. : BH,+,B,M3,L10,ZPC(BLK)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description 6.
Description Photo
Unplug 3 Lug wires from bottom chassis.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-3
3. Disassembly and Reassembly
Description 7.
Pull the Holder using finger and separate it from bottom chassis.
8.
Unplug all Wire and Cable (blue marked) Release 2 Wire Holder.
9.
Unfasten 6 screws (red marked) to disassemble white display lighting kitting. : BH,+,B,M3,L10,ZPC(BLK)
3-4
Description Photo
Wire Ho ld e r
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
10. Push the furrow and take VFD Assy out from bowl.
11. Unfasten 3 screws. : BH,+,B,M3,L10,ZPC(BLK)
12. Separate cover and VFD Assy.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-5
3. Disassembly and Reassembly
Description
Description Photo
13. Unfasten 3 screws. : BH,+,B,M3,L10,ZPC(BLK)
14. Take black one out from bowl.
Ta ke it o u t fro m le ft
15. Take red one out from bowl.
16. Take blue one out from bowl.
3-6
Ta ke it o u t fro m le ft
Ta ke it o u t fro m le ft
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description 17. Take red one out from bowl.
18. Take black & blue one out from bowl.
Description Photo
Ta ke it o u t fro m le ft
Ta ke it o u t fro m le ft
19. Unfasten 3 screws and Take white one out from bowl. : BH,+,B,M3,L10,ZPC(BLK)
Ta ke it o u t fro m le ft
20. Take LED PCB Assy out from bowl.
Ta ke it o u t fro m le ft
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-7
3. Disassembly and Reassembly
Description
Description Photo
CAUTION Have to put into the proper furrow.
21. Unfasten 2 screws and unplug 2 wires. : BH,+,B,M3,L10,ZPC(BLK)
3-8
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
22. Unfasten 1 screw to separate JACK PCB and bracket. : BH,+,B,M3,L10,ZPC(BLK)
23. Take both jog wheel out from Front kit.
Ta ke it o u t
Ta ke it o u t
24. Turn over the Front kit.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-9
3. Disassembly and Reassembly
Description
Description Photo
25. Unfasten 12 screws on the function PCB. ; BH,+,B,M3,L10,ZPC(BLK)
26. Push the 6 PCB holder and pull the 2 PCBs. (left, right PCB)
3-10
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3. Disassembly and Reassembly
Description
Description Photo
28. Unfasten 2 screws on the rear to remove the Fan Assy. ; BH,+,B,M3,L10,ZPC(BLK)
29. Disassemble 3 Pin FAN.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
3-11
3. Disassembly and Reassembly
3.2. DECK Disassembly and Reassembly Description 1.
Unfasten 4 screws. ; BH,+,B,M3,L10,ZPC(BLK)
2.
Unfasten 4 screws. ; BH,+,B,M3,L10,ZPC(BLK)
Description Photo
Ho ld e r
Bo tto m S id e
3-12
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4. Troubleshooting 4.1. Checkpoints by Error Mode Oscilloscope Setting Values
Normal Voltage
24 MHz
32.768 KHz
Voltage/DIV
1 Vol/DIV
1 Vol/DIV
1 Vol/DIV
TIME/DIV
1 uS/DIV
10 ns/DIV
0.1 uS/DIV
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-1
4. Troubleshooting
4.1.1. No Power No P owe r
No
Is # 75 pin of UIC1 high?
Are #1~3 pins of P CN1 5.3V?
No
Re pla ce S MP S .
Ye s
Ye s
Re pla ce MAIN P CB.
(1) Che ck wa ve of MICOM Crys ta l. (UX2)
Ye s
No
Re pla ce MAIN P CB.
* Re fe r to wa ve pa tte rn ima ge of Fig. 4-1.
Check whether Function PCB and FFC are normal or not.
No
Re pla ce Function P CB / FFC.
Ye s
Re pla ce MAIN P CB.
4-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
P01/ TO00 P00/ TI00 P124/XT2/EXCLKS
/RESET
UAR2
2A3< 2A3< 2B3< 2B3< 2B3< 2B3<
MIC6
(1)
1
TP48
Q0
Q3
2E4>
UR29
1/16W 330KOHM
TP52
UR39
1/16W 10MOH M
MICOM_RST
FL_LED1 FL_LED2 FL_LED3
GIC2 1
2D5>
2D6<
MIC1 6
FR_LED7
* 5.6. MAIN P CB Top
2E4>
1.0
FR_LED1 FR_LED2 FR_LED3 FR_LED4 FR_LED5 FR_LED6
2D3<
UAR1
2C3<
100OHM +-250PPM/C
2C3<
8 6 4 2 8 100OHM 6 +-250PPM/C 4 2
1.0
UR60 UR61 UR62
(1)
AL3.3V_P W
1/16 W UBR1 1KOHM
P40/TOOL0
P41
P42/TI04/TO04
P43/SCK01-/SCL01
P44/SI01/SDA01
P45/SO01
P46/INTP1/TI05/TO05
P47/INTP2
P120/ANI19
7 5 3 1 7 5 3 1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
1/16W 1/16W 1/16W 100OHM 100OHM 100OHM
UR100
TP_R ST_TOP
P141/PCLBUZ1/INTP7
P144/ SO30/TxD3
P143/ SI30/RxD3/SDA30
3.3KOH M 1/16W
MICOM_RS T
P140/PCLBUZ0/INT6
P142/SCK30-/SCL30
P145/ TI07/TO07
AL3.3V_P W
MICOM_RS T
R5F100PGAFB
P02/ ANI17/ SO10/TxD1
UIC1
UIC1
P03/ SI10/RXD1/SDA10
UAR33
100OH M 100OH M
P102/ TI06/TO06
UAR32
(1)
P04/ SCK10-/ SCL10
100OH M
UAR31
P130
UR35
P20/ ANI0/AVREFP
100OHM 1/10W 200OHM 1/10W
UR34
_FANET_TX D _FANET_RX D
90 91 92 93 94 95 96 97 98 99 100
100OH M 100OH M
UAR19 UAR30
4
MC-146(32.768KHZ,20PPM)
32.768H Z UX2
3
12PF
Q2
50V
Q1
UC39
50V
UC24
12PF
UCN1
2
UR50
MIC1 DGND
* 6.7. MAIN-2
4-3
4. Troubleshooting
4.1.2. No Output No output
Me a s ure P VDD+/- 63V of S MP S . (CN801)
No
Re pla ce S MP S .
Ye s Me a s ure GVDD51V of MAIN P CB. (AIC2001)
No
Re pla ce MAIN P CB.
Ye s Me a s ure PBD 14(-5V)&P BD11(+5V) of MAIN P CB.
No
Are #9~10 pins of P CN1 12.5V?
Ye s
No
Re pla ce S MP S .
Ye s Re pla ce MAIN P CB. P ut S ine wa ve file into AUX or CD/US B.
Input s igna l is s hown a t pin#3 of IRS 2092 ICs .
No
Input signal is shown at pin#1,7 of AIC3001, AIC4002.
Ye s
No
Ye s
Input signal is shown at pin#13 of IRS2092 IC.
No
Input signal is shown at pin#2,3,6,7 of AIC3001,AIC4002.
No
Re pla ce MAIN P CB.
Ye s
Re pla ce AIC3001,4002.
Re pla ce IRS 2092 IC.
Ye s (1) Input signal is shown at SPK jack. Ye s
Input s igna l is s hown a t AL1,2,3,4.
* Re fe r to wa ve pa tte rn ima ge of Fig. 4-2.
Re pla ce S pe a ke r.
4-4
No
No
Re pla ce MAIN P CB.
Ye s
Re pla ce AL1,2,3,4.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
AC3108
10NF 100V 10NF 100V
SPK_FL
AC3109
1.2KOHM 1/4W 1.2KOHM 1/4W
AR3144 AR3145
100NF 250V 10OHM 1W
AC3104 AR3139
400V S1G
470NF 250V
AD3018
OPEN 10NF 100V
DBF-2022A
AC3203
(1)
UNDEFINED AC3100
AL1
GCN1
47KOHM
(1)
1130_EMI OP TION
GCN1 410F10>GCN1 8D1< 2 GCN1 3 10C 10> D 9F10> (1)
AR3143
400V S1G
AD3017
10NF 100V
AC3204
OPEN
4. Troubleshooting
8B8< NCN1
9E10<
UIC1
SGN D -PVDD-66V
GIC 2 1
* 5.6. MAIN P CB Top
B_SGND_3
B_SPK_FL B_SPK_SWL
(1)
UCN1
ACN3001
ST0290731P
UNDEFINED
AIC3005
-
AIC3004
9C10> 8B8<
+
SPK_F L
4 2 1 3
+
SPK_L_SW +
-
9F10>
MGND1
LEFT HOLE FROM OUTSIDE
AIC3006
SGND AIC3003
AIC400 2
* 6.14. MAIN-9
4-5
4. Troubleshooting
4.2. Measures to be taken when the Protection Circuit operates 4.2.1. Operation of Power Block Protection Circuit ■ Cases of the SMPS Protection. 1) If there is over current at the AMP IC. (Speaker Wire Short) 2) If temperature of the AMP IC is over 150 ℃. 3) There is no power supply for amp.
■ Protection Circuit operates when power problem occurs in the SMPS. Protection Location
PCN1 SMPS PCB
Pin No.
Note Open
Short
+ST5.3 V (1~3#)
X
O
VSS-5 V (8#)
X
X
12 V (9#)
X
X
X
O
X
O
-PVDD (about -63 V) (8~10#)
X : No Concern O : Concern
ACN1002 +PVDD (about +63 V) (1~3#)
4-6
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4.2.2. Check AMP in Power Protection If you think, there are problems at the AMP Part, you can check the PCB without disassembling the set. CAUTION Do not connect the power cord during bellow check! Measurement Resistance using Tester F/R CH
2.2 kΩ
SUBWOOFER
2.2 kΩ
REAR
2.2 kΩ
If Measured Resistance is very different from above numbers, There is a Problem. → AMP Part Problem
2 . 2 C H S P E AK E R O U T
FR
FL
SW R
SW L
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-7
4. Troubleshooting
4.3. MICOM, MPEG Initialization & Update ■ MICOM/MPEG Reset
• During “No Disc” Displayed, push the stop Button 5 seconds. After displayed ‘INITIALIZE’ set will power off automatically.
■ MPEG Update 1) Prepare Rom file at USB Memory. (WWB) 2) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off → on.
■ MICOM (MAIN / FRONT) Update 1) Prepare Rom file at USB Memory. (MAIN : WWM, FRONT : WWF) 2) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off when finish.
■ MEDIA File Update 1) Prepare Rom file at USB Memory (DXM) 2) ) Insert USB Memory, and play. ‘Update’ will be displayed. Set will be power off → on.
■ MICOM & MPEG Version Check 1) POWER ON. 2) NO DISC status. 3) Push the number NEXT for 5 seconds, check the MICOM version. (MAIN / FRONT) 4) Push the number PREVIOUS for 5 seconds, check the Mpeg version.
4-8
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4. Troubleshooting
4.4. Buyer-Region Code Setting Method 4.4.1. The inserting method of Region Code after replacing the Main PBA NOTE •
When replacing the Main PBA and System Micom should be inserted the region code.
•
The set is not working properly if you don't insert the region code.
•
The region code is inserted by the remote control.
1) Power on the device. 2) Change the Function to AUX1. 3) Press and Hold ENTER for about 10 seconds.
<MX-HS9***>
4) When you see “TEST – –” input 46 to set the buyer region.
TES T- 5) When you see “- - -” on the display, input your buyer code, refer to the table below. For USA use “015”.
−−− 6) It will show the buyer that you set up. Then the buyer setting is succeed.
Copyright© 1995-2013 SAMSUNG. All rights reserved.
4-9
4. Troubleshooting
Table 4.1
MX-HS9000 Option Table
Region Code
Buyer
00
Africa, Nigeria, Pakistan
01
BRAZIL
02 03
China (semi_mic)
04
Europe
05
Indonesia, HONGKONG
06
JAPAN
07
KOR
08
Latin American, Panama
09 10
Philippines
11
Russia (full_mic)
12
Russia (semi_mic)
13
South Africa
14
Taiwan
15
USA, CANADA
16
Newzealand, Australia
17
England
18
4-10
19
Iran (HACO)
20
India
21
Israel
22
Middle Asia, Kenya,Morocco, Algeria, Turkey
23
Asia
24
Singapore
25
KOR
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5. PCB Diagram 5.1. Wiring Diagram MCN8
AMP
CD_VR
13
A
CD_VR
2
CD_MPD
14
E
CD_MPD
3
CD_LD
15
F
CD_LD
A F
4
LD_GND
16
PDIC
LD_GND
PDIC
5
VREF
SW
E
SW
17
6
F-
18
GND
F-
GND
7
T-
19
DVD_VR
T-
DVD_VR
8
DECK
VREF
T+
20
PD_GND
T+
PD_GND
9
F+
21
DVD_LD
F+
DVD_LD
1
+PVDD+63V
+PVDD+63V
1
10
B
22
RF
B
RF
2
+PVDD+63V
+PVDD+63V
2
11
C
23
VCC_5V
C
VCC_5V
3
+PVDD+63V
+PVDD+63V
3
12
D
4
+PVDD+63V
+PVDD+63V
4
CDMO-
5
SGND
SGND
5
SLED-
DGND
6
SGND
SGND
6
SLED+
DCLOAD_P
7
SGND
SGND
7
1
CDMO+
6
INSW
DCLOAD_N
8
SGND
SGND
8
2
CDMO-
7
INSW
9
SGND
SGND
9
3
SLED-
8
DGND
10
SGND
SGND
10
4
SLED+
9
DCLOAD_P
11
SGND
SGND
11
5
INSW
10
DCLOAD_N
12
SGND
SGND
12
13
-PVDD-63V
-PVDD-63V
13
1
SPK_FL
1
14
-PVDD-63V
-PVDD-63V
14
1
SPK_FL
1
SGND
2
SGND
2
SPK_FR
15
-PVDD-63V
-PVDD-63V
15
2
SGND
2
SPK_FR
3
SGND
3
SPK_R_SW+
16
-PVDD-63V
-PVDD-63V
16
3
SGND
3
SPK_R_SW+
4
SPK_L_SW+
4
CN801
SMPS
1
ACN1002
CN802
D
CDMO+
CN15
ACN3001
MAIN
PCN1
4
OUTSW
ACN4001
GCN11
SPK_L_SW+ 4
SGND GCN12
ST5.3V_PW
1
2
ST5.3V_PW
ST5.3V_PW
2
1
FR_B
1
SWR_B
1
FR_B
1
SWR_B
3
ST5.3V_PW
ST5.3V_PW
3
2
FR_G
2
SWR_G
2
FR_G
2
SWR_G
4
DGND
DGND
4
3
FR_R
3
SWR_R
3
FR_R
3
SWR_R
4
FR5V
4
SWR5V GCN14
4
FR5V
4
SWR5V
1
FL_B
1
SWL_B
FL_B
1
SWL_B
2
FL_G
2
SWL_G
DGND
5
DGND
DGND
6
7
VARI_SMPS
DGND
VARI_SMPS
7
1
GCN13
8
VSS-5V
VSS-5V
8
2
FL_G
2
SWL_G
3
FL_R
3
SWL_R
9
12V_PW
12V_PW
9
3
FL_R
3
SWL_R
4
FL5V
4
SWL5V
10
12V_PW
12V_PW
10
4
FL5V
4
SWL5V
11
DGND
DGND
11
12
P_ON
P_ON
12 UCN1
SPEAKER
FCN1 FCW1
FCW2
1
12V_PW
1
12V_PW
2
VF_GND
2
VF_GND
1
D5.1V_PW
D5.1V_PW
11
3
VF_GND
3
VF_GND
2
LED_LEVEL6
LED_LEVEL6
10
4
KEY_AD2
4
KEY_AD2
3
LED_LEVEL5
LED_LEVEL5
9
5
KEY_AD1
5
KEY_AD1
4
LED_LEVEL4
LED_LEVEL4
8
6
REMO_IN
6
REMO_IN
5
LED_LEVEL3
LED_LEVEL3
7
7
LED5.0V_PW
7
LED5.0V_PW
6
LED_LEVEL2
LED_LEVEL2
6
8
LED5.0V_PW
8
LED5.0V_PW
7
LED_LEVEL1
LED_LEVEL1
5
8
9
DGND
9
10
DGND
10
DGND
11
LOG_RXD1
11
LOG_RXD1
DGND
12
LOG_TXD1
12
LOG_TXD1
13
VFD1_RXD
13
VFD1_RXD
14
VFD1_TXD
14
VFD1_TXD
15
ST5.3V_PW
15
ST5.3V_PW
FRONT-R
KEY_AD2
KEY_AD2
4
9
JOG_DN
JOG_DN
3
10
JOG_UP
JOG_UP
2
11
DGND
DGND
1
CN1 1
SCN1
TCN1
Lighting
SGND
ST5.3V_PW
6
INSW
SGND
1
5
OUTSW
BTCN1
VCN1 V_STB
1
2
V_DT
V_DT
2
3
V_STB V_BLK
V_BLK
3
4
V_CLK
V_CLK
4
1
USB1_5V
5
D5.1V_PW
D5.1V_PW
5
2
USB1_DN
1
PIN2
6
VP
VP
6
3
USB1_DP
2
PIN1
7
VFD-
VFD-
7
4
USB1_GND
3
GND
8
VFD+_GND
VFD+_GND
8
AUX_MIC_SEN
1
5
USB1_LED
4
FCN4
9
VFD+
VFD+
9
12.5V_PW
2
6
USB2_5V
5
SCL
1
D5.1V_PW
10
VFD_GND
VFD_GND
10
MIC_SIG
3
7
USB2_DN
6
GND2
2
L_LED1
11
DGND
DGND
11
SDA
FRONT-L
DGND
4
8
USB2_DP
7
BT_TXD
3
L_LED2
12
ST5.1V
ST5.1V
12
AUX_R
5
9
USB2_GND
8
BT_RXD
4
H_LED3
13
REMOCON
REMOCON
13
DGND
6
10
USB2_LED
9
3.3V_PW
5
H_LED4
AUX_L
7
11
KEY_USB
10
BT_RST
AUX_MIC_SEN
1
1
USB1_5V
12.5V_PW
2
2
USB1_DN
1
PIN2
3
L_LED2
MIC_SIG
3
3
USB1_DP
2
PIN1
4
H_LED3
DGND
4
4
USB1_GND
3
GND
5
H_LED4
AUX_R
5
5
USB1_LED
4
DGND
6
6
USB2_5V
5
SCL
AUX_L
7
7
USB2_DN
6
GND2
8
USB2_DP
7
BT_TXD
9
USB2_GND
8
BT_RXD
10
USB2_LED
9
3.3V_PW
11
KEY_USB
10
BT_RST
VFD
LCN1 KCN2
SCN1
1 CN1
2
D5.1V_PW L_LED1
SDA
LED
USB&AUX BT MODULE
MIC CF2
CF1
1 GND 2 MIC_VR 3 GND
MIC_SENSE GND MIC_VR
1 2 3
4 MIC_SENSE
GND
4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-1
5. PCB Diagram
5.2. FUNCTION PCB Top
FCW2
(1) (2) (3) (4) FCN1
CN1
KCN1
FCN4
S CN1
FCW1
FCN2
5-2
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.2.1. Pin Connection 1) CN1
3) FCN4
Connect to VFD PCB
Connect to Front LED PCB
Pin No.
Signal
Pin No.
Signal
1
V_STB
1
D5.1V_PW
2
V_DT
2
L_LED1
3
V_BLK
3
L_LED2
4
V_CLK
4
H_LED3
5
D5.1V_PW
5
H_LED4
6
VP
7
VFD-
8
VFD+_GND
9
VFD+
Pin No.
Signal
10
VFD_GND
1
D5.1V_PW
11
DGND
2
LED_LEVEL6
12
ST5.1V
3
LED_LEVEL5
13
REMOCON
4
LED_LEVEL4
5
LED_LEVEL3
6
LED_LEVEL2
7
LED_LEVEL1
2) FCN1 Connect to Main PCB
4) FCW1 Connect to Front_L, KEY, LED, JOG
Pin No.
Signal
8
KEY_AD2
1
12V_PW
9
JOG_DN
2
VF_GND
10
JOG_UP
3
VF_GND
11
DGND
4
KEY_AD2
5
KEY_AD1
6
REMO_IN
7
LED5.0V_PW
8
LED5.0V_PW
9
DGND
10
DGND
11
LOG_RXD1
12
LOG_TXD1
13
VFD1_RXD
14
VFD1_TXD
15
ST5.3V_PW
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-3
5. PCB Diagram
5.3. FUNCTION PCB Bottom
FCW2
KCN1
CN1
FCN4
FCW1
S CN1
FCN1
FCN2
5-4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.4. VFD PCB Top/Bottom
(1)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
VCN1
VCN1
5-5
5. PCB Diagram
5.4.1. Pin Connection 1) VCN1 Connect to Front_R, VFD, EYE
5-6
Pin No.
Signal
1
V_STB
2
V_DT
3
V_BLK
4
V_CLK
5
D5.1V_PW
6
VP
7
VFD-
8
VFD+_GND
9
VFD+
10
VFD_GND
11
DGND
12
ST5.1V
13
REMOCON
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.5. LED PCB Bottom
(1)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
LCN1
5-7
5. PCB Diagram
5.5.1. Pin Connection 1) LCN1 Connect to Front_R, LED
5-8
Pin No.
Signal
1
D5.1V_PW
2
L_LED1
3
L_LED2
4
H_LED3
5
H_LED4
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.6. MAIN PCB Top
(1) (2) TP1
(14) GCN1 3
(3) (4)
GCN1 4
GCN1 2
(13)
GCN1 1
ACN4 0 0 1
ACN3 0 0 1
NCN1
UCN1 9
CN2
MCN1 8
UIC1 MCN 1 3
ACN1 0 0 2
(5)
TP 1
MIC7 MIC1 6 MIC6
GIC2 1
MIC9
(12) UCN1
MIC1
(11)
P IC1 1 AIC3 0 0 4
AIC3 0 0 5
AIC3 0 0 6
BTCN1
AIC3 0 0 6
MIC1 0 AIC3 0 0 3
AIC4 0 0 2
(10)
S IC2
MCN8
AIC3 0 0 1
AP WMIC1
(6) (7)
Copyright© 1995-2013 SAMSUNG. All rights reserved.
MIC1 7
P CN1
TCN2
S CN1
CN15
(9) (8)
5-9
5. PCB Diagram
5.6.1. Pin Connection 1) GCN14
5) ACN1002
Left SUBWOOFER lighting Connector
Amp Voltage +/-63v
10) MCN8
AUX1/MIC Control
12) UCN1
Deck Control (Focus/Data)
Controls the set
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
Pin No.
Signal
1
SWL_B
1
+PVDD+63V
1
AUX_MIC_SEN
1
CD_VR
1
12V_PW
2
SWL_G
2
+PVDD+63V
2
12.5V_PW
2
CD_MPD
2
VF_GND
3
SWL_R
3
+PVDD+63V
3
MIC_SIG
3
CD_LD
3
VF_GND
4
SWL5V
4
+PVDD+63V
4
DGND
4
LD_GND
4
KEY_AD2
5
SGND
5
AUX_R
5
SW
5
KEY_AD1
6
SGND
6
DGND
6
F-
6
REMO_IN
7
SGND
7
AUX_L
7
T-
7
LED5.0V_PW
8
SGND
8
T+
8
LED5.0V_PW
9
F+
9
DGND
10
B
10
DGND
2) GCN13 Left Font SPK lighting Connector Pin No.
Signal
1
FL_B
9
SGND
8) SCN1 USB1/USB2 Control
2
FL_G
10
SGND
3
FL_R
11
SGND
Pin No.
Signal
11
C
11
LOG_RXD1
4
FL5V
12
SGND
1
USB1_5V
12
D
12
LOG_TXD1
13
-PVDD-63V
2
USB1_DN
13
A
13
VFD1_RXD
14
-PVDD-63V
3
USB1_DP
14
E
14
VFD1_TXD
15
-PVDD-63V
4
USB1_GND
15
F
15
ST5.3V_PW
16
-PVDD-63V
5
USB1_LED
16
PDIC
6
USB2_5V
17
VREF
7
USB2_DN
18
GND
8
USB2_DP
19
DVD_VR
Pin No.
Signal
3) ACN3001 SPK Jack Connector_L Pin No.
Signal
1
SPK_FL
2
SGND
3
SGND
4
SPK_L_SW+
4) ACN4001 SPK Jack Connector_R
5-10
7) TCN2
6) PCN1 ST5.3V ,12V,-5V and so on
13) GCN11 Right Font SPK lighting Connector
Pin No.
Signal
9
USB2_GND
20
PD_GND
1
FR_B
1
ST5.3V_PW
10
USB2_LED
21
DVD_LD
2
FR_G
2
ST5.3V_PW
11
KEY_USB
22
RF
3
FR_R
3
ST5.3V_PW
23
VCC_5V
4
FR5V
9) CN15
Pin No.
Signal
4
DGND
1
SGND
5
DGND
2
SPK_FR
6
DGND
Pin No.
Signal
3
SPK_R_SW+
7
VARI_SMPS
1
CDMO+
Pin No.
Signal
Pin No.
Signal
4
SGND
8
VSS-5V
2
CDMO-
1
PIN2
1
SWR_B
9
12V_PW
3
SLED-
2
PIN1
2
SWR_G
10
12V_PW
4
SLED+
3
GND
3
SWR_R
11
DGND
5
INSW
4
SDA
4
SWR5V
12
P_ON
6
OUTSW
5
SCL
7
INSW
6
GND2
8
DGND
7
BT_TXD
9
DCLOAD_P
8
BT_RXD
10
DCLOAD_N
9
3.3V_PW
10
BT_RST
Deck Open/Close Control
14) GCN12
11) BTCN1
Right SUBWOOFER lighting Connector
Bluetooth Control
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.6.2. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-11
5. PCB Diagram
ACN1 0 0 2
5.7. MAIN PCB Bottom
5-12
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.8. SMPS PCB Top
CN802
(1)
CN8 0 1
(2)
CN8 0 0 S
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-13
5. PCB Diagram
5.8.1. Pin Connection 1) CN802 Supply for ST5.3V, 12V, -5V and so on Pin No.
Signal
1
ST5.3V_PW
2
ST5.3V_PW
3
ST5.3V_PW
4
DGND
5
DGND
6
DGND
7
VARI_SMPS
8
VSS-5V
9
12V_PW
10
12V_PW
11
DGND
12
P_ON
2) CN801 Supply for Amp Voltage
5-14
Pin No.
Signal
1
+PVDD+63V
2
+PVDD+63V
3
+PVDD+63V
4
+PVDD+63V
5
SGND
6
SGND
7
SGND
8
SGND
9
SGND
10
SGND
11
SGND
12
SGND
13
-PVDD-63V
14
-PVDD-63V
15
-PVDD-63V
16
-PVDD-63V
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5. PCB Diagram
5.9. SMPS PCB Bottom
Copyright© 1995-2013 SAMSUNG. All rights reserved.
5-15
6. Schematic Diagram
6. Schematic Diagram 6.1. Overall Block Diagram • Main MICOM IC : R5F100PGAFB (RENESSAS 100P) • Front MICOM IC : R5F100FFAFP (RENESSAS 44P)
32Mb it FLAS H d e Ae f d l R u “ ‚ š P ” • AŠ
AM5766 Mo to r Drive
32Mb it FLAS H
Fro n t En d HUB
US B DDC UB2130
Au d io DS P
q Td ES 8396
ADC In p u t
4c h AUDIO P re AMP
S P -L S WL
2c h Fro n t 850W/c h FR S P -R S WR
LINE OUT BA4560
S BC De c o d e r
• PWM IC : UB2130 • IR AMP IC : IRS2092STRPBF • IR FET IC : IRF6775MTRPbF
2c h S /Wo o fe r 850W/c h
MIC u Co m In te rfa c e
FL
IR_AMP /FET
Me m o ry Co n tro lle r
FM/AM AUX
• MPEG IC : ES8396SCD-GSWD (ESS)
128Mb it S DRAM
• Main MICOM IC controls the set • Front MICOM IC controls front LED and VFD • Audio signal comes from CD DECK, USB, TUNER, AUX, MIC, Bluetooth and so on, decoded by MPEG IC and then transfer to PWM IC.
Blu e to o th
LED Co n tro l BA3835
TU_Ctrl
MICOM
KEY
SPK Lig h tin g
8Kb it EEP ROM
S UB Mic o m
• The signal is sent to the Crystal amplificatory circuit through MPEG IC. This Crystal amplificatory circuit is Low Filtered. Sound will be hear by Connecting the Speaker system. S WL FL FR S WR
F/Lig h tin g VFD_3D
S MP S
6-1
+5.3V
3.3V/1.35V/5V
+12V/-5V
VFD_P W
Õ P VDD
IR-AMP
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.2. FUNCTION-1 THVV503RAA
FSW1 FOP9
FOP8
FR61 FC24 150OHM
FR62 FC25 150OHM
UNDEFINED EC12B12S 00B7Z30
FSW23
1 3 2
MGND2
MGND1
0808_BEAD ADDED
3857ST
FBD4
DGND
TP TP TP TP TP TP TP TP TP TP TP
FCW2 SMW200-11P
D5.1V LED_LEVEL6 LED_LEVEL5 LED_LEVEL4 LED_LEVEL3 LED_LEVEL2 LED_LEVEL1 KEY_AD2 JOG_DN JOG_UP DGND
FR63
150OHM
11 10 9 8 7 6 5 4 3 2 1
FOP7
FOP10
OPEN
50V 100NF
50V 100NF
50V 100NF
50V 100NF
FC20
LEFT
FOP11
DGND
FC23 150OHM
SKIP FF
STO P
FR60
DISC
50V 100NF
FSW2
THVV503RAA
FSW3
BETBO X
FR11
820 OHM
FOP12
DIS PLAY
FR12
1KOHM
THVV503RAA
FSW4
THVV503RAA
FSW5
THVV503RAA
FSW6
REC SP EED
FR13
1.2KO HM
FR59 FC22 150OHM
DELETE
FR14
1.5KO HM
50V 100NF
EQ
FR15
1.8KO HM
THVV503RAA
FSW7
2.2KO HM
LTL87HVES
RETURN
FR16
3.3KO HM
FR58 FC21 150OHM
ENTER
FR17
FSW8
FSW9
THVV503RAA
FSW10
THVV503RAA
FSW24
THVV503RAA REC
FR18
4.7KOH M
THVV503RAA
FR19
6.8KOH M
THVV503RAA
FR20
10KOHM
POWER
DGND_L JOG_UP _L JOG_DN_L KEY_AD2_L LED1_L LED2_L LED3_L LED4_L LED5_L LED6_L D5.1V_L
1126 _FO R EMI
DGND
DGND
COULD NOT APPLY TO PV2
DGND
DGND
DGND
DGND
FROM KEY_R B'D VFD+, VFD-, VP LINE :AS THICK AS P OS SIBLE (AT LEAS T 0.6MM) VR3 1004_FR OM 10KOHM
VC10
VD5
3857ST
VBD5
VC11
FC1 7
100NF
50V
100NF 3857ST FBD6
FBD5 FGND
FGND
DGND
FBD5-6, FC16-17:AS CLOS E AS P OS SIBLE TO T1 D5.1V
50V
FC29
D5.1V
P124/ XT2/EXCLKS
P11/ SI00/RxD0 P10/ SCK00-/ SCL 00
P40/ TOO L0
P146
150OHM 50V OPEN
FR79
100NF
F12. 5V 1022_C OIL REMOVED FOR HEIGHT LIMITAION 0905_R EDUCE NOIS E LEVEL
VBD6
3857ST
50V
FC1 4
M_RS T
100 OHM 100 OHM
FR40
D5.1V
FC9
KEY_AD1 REMO 16V 47UF 3857S T FBD1
FC2
1019_ HEIGHT LIMIT
1023_C AP ADDED
0808_BEAD ADDED 1018_FBD 2 REMOVED
44 43 42 41 40 39 38 37 36 35 34
DGND
0 1 2 3 4 5
6 7
DGND
1NF 50V
DGND
1019_ HEIGHT LIMIT
0808_BEAD ADDED
0911_TO ANGLE FROM STR 0814_D IRECTION CHANGED(1-15)
FROM MAIN B'D
FC3 1023_C AP ADDED
DGND
MGND2
1 3 2 130 906 VOLUME J OG
52807-1510
FBD3
FC30
100PF 50V
10KO HM
F12.5V F12.5V VFD_GND VFD_GND M_RST M_RST KEY_AD2 KEY_AD2 KEY_AD1 KEY_AD1 REMOCON REMO D5.1V D5.1V D5.1V D5.1V_2 DGND DGND DGND UART_2 RX UART2_RX UART_2 TX UART2_TX UART_1 RX UART1_RX UART_1 TX UART1_TX ST5 .1V S T5.1V
16V 47UF
FC12
10KO HM
FR9 DGND
100 OHM 100OHM
FC11
FR8
100PF 50V
FR6 FR7
D5.1V
TP TP TP TP TP
FCN1
DGND ST5.1V
BUS <7..0>
TP TP TP TP TP TP TP TP TP
0808_BEAD ADDED
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
0928_TR ANS GND CHANGE
FR39
1114_ ADDED MCU RST FROM MAIN TO REDUCE STBY POWER
DGND
D5.1V_R LED6 LED5 LED4 LED3 LED2 LED1 KEY_AD2_R JOG_DN J OG_UP DGND_R
DGND
DGND
1 0
DGND
7 6 5 4 3 2
100NF
1203_EMI
DGND
FOP1
FC71
150OHM 50V OPEN
FR78
100NF
FOP2
50V
FC76
150OHM
FR77
150OHM 50V OPEN FC75
100NF
FOP3
FR76 FOP4
150OHM 50V OPEN 100NF
FC74
FR75
150OHM 50V OPEN FC73
100NF
FOP5
FR74 FOP6
FC72
68OHM 50V OP EN
FR82
68OHM
OPEN
100NF
1203_EMI
DGND
D5.1V LED_LEVEL6 LED_LEVEL5 LED_LEVEL4 LED_LEVEL3 LED_LEVEL2 LED_LEVEL1 KEY_AD2 JOG_DN J OG_UP DGND
1 2 3 4 5 6 7 8 9 10 11
22UF
23 24 25 26 27 28 29 30 31 32 33
P 27/ANI7
P 26/ANI6
P 25/ANI5
P147/ ANI18
P24/ANI4
P41/ TI07/TO07
P23/ANI3
DGND
FCW1
3857ST
P12/ SO00/TxD0
P22/ANI2
1203_ EMI
DGND
FC7
P13/ TxD2/SO20/
P123/ XT1
RESET-
DGND
P50/INTP1 P15/ PCLBUZ1 P14/ RxD2/SI20
R5F100FFAFP
P137/ INTP 0
10KOHM
1208_TWI STED WITH BLUE
100PF 50V 100PF 50V
P70/KR0
P71/KR1
P72/KR2
P30/INTP 3
P73/KR3
P63
P62
P31/TI03
P61/SDAA0
P60/SCLA0 P122/ X2/EXCLK
P 21/ANI1/AVREFM
10KOHM FR81 OPEN
FIC1
P121/ X1
P 20/ANI0/AVREFP
1019_ HEIGHT LIMIT 1116 _STANDARD ITEM
M_RS T
P16/ TI01/TO01
P01/TO00/RxD1
DGND
REGC
FR5
D5.1V
1017_VFD OPTION REMOVED
P17/ TI02/TO02/(TXD0)
VSS
10KOHM
1212_ CAP OPEN CAUSE OF MATERIAL TOUCH
P51/ INTP2/SO11
VDD
P00/TI00/TxD1
85
1203 _EMI
DGND
ST5. 1V
1UF 50V
11 10 9 8 7 6 5 4 3 2 1
P 120/ANI19
68OHM FOP15
FR72
OP EN
50V OPEN
68OHM FOP14 FC80
OPEN
FOP13
OPEN
100NF
68OHM OPEN FR71
FR70
OPEN
OP EN
FC1
OP EN
FOP16
OPEN
12 13 14 15 16 17 18 19 20 21 22
DGND
ST5. 1V
FC15
FOP17
FC70 100NF 50V OPEN
OPEN
FR73
1128 _FRO M 150O HM 1128 _CHANGED TO BLUE 0114 _FRO M 100O HM 0114 _CHANGED TO WHITE
FR4
FC77
REMO
VFD+
FR35
FR38 FR37 FR36
VP VFD-
100NF
22OHM
FQ11
D5.1V
1203_ EMI
50V 100 NF
TO KEY_L B'D TP TP TP TP TP TP TP TP TP TP TP
DGND
KSA733-Y
FR69
330OHM
D5.1V
100OHM 100OHM 100OHM 100OHM
FR45
1/2W
FR44
1/2W
22OHM
FQ10
C
KSA733-Y
FR65
DGND
E
B C
330OHM
KSA733-Y
330OHM
FR64
KSA733-Y
E
B
1221_ FC80 OPEN
1011 _FRO M D5.1V
B4B-PH-K
DGND 0928_TR ANS GND CHANGE
OPEN
VP
VFD-
VFD+
0817_TR CHANGE 0928_D IRECTION REVERSE
VBD4
VR2
DGND_V ST5.1V_V REMO_V
400V
FC1 6
50V
1N4148 50V 1NF
UNDEFINED
UZ9.1BM 9.1
VZD2
VC8
VJ 2
3857ST
33KOHM
F12. 5V
UNDEFINED SMW200-11P
5 4 3 2 1 FC28
100NF
50V
FR43
1/2W
50V 100NF FC27
22OHM
FQ8
FR42
50V 100NF FC26
15OHM
FQ9
DGND
C
1208_ TWISTED WITH RED
50V 1KOHM
C
50V
FGND
1011_ FRO M D5.1V
FR10
E
VQ2
3857S T
ST5. 1V
D5.1V
FC13
KTD863-Y-AT
B
0128_SMALL WIDTH 1019_H EIGHT LIMIT
47UF
TO VFD B'D
D5.1V
1128 _FRO M 150O HM 1128 _CHANGED TO BLUE 0114 _FRO M 100O HM 0114 _CHANGED TO WHITE
100NF
105
100NF
T1 EE1 312V
F1T4
DGND
1 2 3 4
VD3
50V
VC9
50V
VD4
V_STB V_DI V_BLK V_CLK D5.1V VP VFDVFD_GND VFD+ VFD_GND DGND ST5.1V REMOCON
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V_LE
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V
FGND
125 11H R-13(W)
E
B C
SDATA ST5 .1V RESET GND
47UF
5 4 3 2 1
VC7
1 2 3 4 5 6 7 8 9 10 11 12 13
DGND
E B
FR41
VBD3
6 7 8 9 400V F1T4 10
VQ1
COULD NOT AP PLY TO P V2
DGND
330OHM
3857S T
TP TP TP
KTD863-Y-AT
E
1004_WI LL BE CHANGE
DGND
1126_ FOR EMI
FCN2
VC6
105
FCN4
FCZ100E-05RS -K
C B
50V
22UF
TP TP TP TP TP TP TP TP TP
CN1
TO LED B'D
40V 1N5819
1019_H EIGHT LIMIT
1019_ HEIGHT LIMIT
V_STB V_DT V_BLK V_CLK D5.1V_V VP VFDVFD_GND_V VFD+
TP TP TP TP TP
VD2
105
VJ3
RIGHT
40V 1N5819
75
VC5
VD1
VD6
25V 220UF
75
6.8KOHM
1023_H OLE LIMIT
1N4148 50V 1NF
VJ1
DGND DGND
MGND1 FSW22 FR30
EVEKD2F3024M
FR29
10KOHM
6.8KO HM
FR28
4.7KO HM
FR27
3.3KO HM
FR2 6
FR2 5
2.2KOHM
1.8KOHM
FR2 4
1.5KOHM
FR2 3
FR2 2
FR2 1
1KOHM
1.2KOHM
820OHM KEY_AD1
FLANGER
CHORUS
GIGA
WHAWHA
PANNING
VISUAL
EJEC T
FSW11
FSW12
THVV503RAA
THVV503RAA
FSW13
THVV503RAA
FSW14
THVV503RAA
FSW15
THVV503RAA
FSW16
THVV503RAA
FSW17
FSW18
THVV503RAA
THVV503RAA
AUX/TUNER
POWER
THVV503RAA
SKIP
FSW19
FSW20
THVV503RAA
FSW21
1010 _MISSED
THVV503RAA
DGND
PLAY/PAUS E DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-2
6. Schematic Diagram
6.3. FUNCTION-2 POWER AUDIO
SR4 OPEN 330 OHM
E
MGND1
C
OPEN
KSA733 -Y
SCN1
MGND2 OPEN 47N F 50V SC5
MGND2
B E
330 OHM OP EN OP EN
SQ2
KBD1
USB_GND
KR1
3857ST
15KO HM
385 7ST
1012_C HANGED TO BLACK FROM YELLOW 1128_C HANGED TO ALL BLACK CAUS E OF DES IGN COULD NOT APP LY TO PV2
330PF 50V 330PF
7 6 5 4 3 2 1
50V
KC2
3857ST
KC3
KR2 KBD3
AUX_GND
AUX_L AUX_GND AUX_R MIC_GND MIC_VR MIC_VCC MIC_SEN SE
KD2
2.2KOHM
KC9
KR10
33OHM
KR9
10KOHM
KC8
1NF 50V
E
KR6
KQ1 C B
KSC1008-Y
KR7
KR8
220 OHM
1UF 50V
100KOHM
KC7
1UF 50V
KC6
1N4148 75
75 1N4148
KC5
47NF 50V
TO MAIN B'D
KD1
CF1 4 3 2 1
TP3TP2TP1
AUX_L AUX_GND AUX_R MIC_GND MIC_VR MIC_VCC MIC_SENSE
33KO HM
1UF 50V
KC4
KR4
TO MIC
TP TP TP
KR3
1017_ FRO M 330O HM
TP TP TP TP TP TP TP
47KOHM 47KOHM
0121_ FRO M DISC TYPE
UEJ-CV-075
YBH200-04
KC1
KBD2
5 4 3 6 2 1
KAJ1
22NF 25V
0124_ CHANGE BACK TEMP.2202-002254 0325_ CHANGE TO 2202-002254 FOR BRACKET PROBLEM
TO MAIN B'D
USB2 JTP12 86H A
LTL87HVES
SC10
820OHM
SR12
S W2
1
USB2_LED KEY_AD3
KCN1
2
USB1
US B1_5V US B1_DN US B1_DP US B_GND USB1_LED US B2_5V US B2_DN US B2_DP
1015_ USB1_G ND&USB2_GND MERGED 1017_ USB_G ND&DGND MERGED
47NF 50V OPEN
MGND2
MGND1
2
S W1
1
USB_GND
MGND2
KSA733 -Y JTP12 86H A
MGND1
SR2 OPEN
1017_ HAS TO BE CO NNECT WITH SCREW HOLE
SR5
C
470 UF 10V
150OHM
SOP2
OPEN
US B_GND
SC9
SJA 2
1115 _REDU CE PO WER 1210 _REDU CE MO RE 1212 _CHANGE BACK
SC8
SR9
MGND1
47NF 50V
470OHM
184-0423211
4 3 2 1
USB1_5V USB1_DN USB1_DP USB_GND USB1_LED USB2_5V USB2_DN USB2_DP USB_GND USB2_LED KEY_AD3
TP TP
1 2 3 4 5 6 7 8 9 10 11
SMW200-07P
184-0423211
SQ1
TP TP TP TP TP TP TP TP
JACK
B
1 2 3 4
SMW200-11P
OPEN
50V 47NF
SOP1
470UF 10V
SJA 1
SC3
1017 _SC1,SC7,SC4,SC6 REMOVED CAUSE OF GND MERGE
SC2
SR3 470OHM
SR1
150OHM OPEN
1115_ REDUCE PO WER 1212_ CHANGE BACK
1113_ SAME SPEC
100UF 16V
MIC_GND
50V 1113 _EMI
1113_ EMI
3857ST KC10
3857S T KBD5 MIC_GND
AUX_GND
TO MIC
4 3 2 1
TP TP TP
TP4 TP5 TP6
GCC01-0045
6 5 4 2 3 7 8 9 1
CF2
CN2
MIC_GND
YBH200-04
US B_GND
MIC1_GND
6-3
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.4. VFD
TP
F+
TPTPTPTP TPTPTPTPT TP PT TP PT TP P
VDD2 VSS CLK BLK LAT VDD1 DI
VFD
TP
F-
POWER
UNDEFINED
0925_VF D CHANGED F+ F+
VDD2 VSS CLK BLK LAT VDD1 DI
F-
F-
FVT1 0925_MOVED F ROM F RONT_R PCB
10 11 VC4
50V
VC3 100NF
3857ST
VBD2
3857ST
VBD1
50V
50V 10UF VC2
VC1 100NF
1112_HEIGHT LIMITATION
VC6 OPEN
50V
100NF 3857S T VBD3
OPEN FGND
DGND
NOT APPLIED TO DV BOARD. IT WILL APPLY... VC5 OPEN
FGND
P6KE180A
VZD11
3.5
100NF 50V
50V
100NF 3857S T
ST5.1V
DGND
FGND
VBD4
OPEN
1008_DGN D CHASSIS
DGND
FGND
DGND:AS LARGE AS POSSIBLE.
47O HM VR11
FROM KEY_ R B'D
0925_PIN MAP CHANGED VCN1 12511HR-1 3(W)
VFDVP D5.1V V_CLK V_BLK V_DI V_STB
47O HM
VFD_GND VFDVP D5.1V V_CLK V_BLK V_DI V_STB
VR12
13 12 11 10 9 8 7 6 5 4 3 2 1
VC22
VC21
VZD2 DGND 1114_F ROM 100KOHM 1128_IN TERNAL 30KOHM COULD NOT APPLY T O PV2 0102_REM OVED
50V 10UF
1112_HEIGH T LIMITATION
REMOCON REMO ST5.1V ST5.1V DGND DGND VFD_GND VFD_GND VFD+ VFD+
GND
3
VCC
2
0808_D5 .1V->ST5.1V
1128_U NIFIED WITH 8000 COULD NOT APPLY TO PV2
16V 100UF
1
VOUT
VEYE1
1127_F OR ESD COULD NOT APPLY T O PV2
6.8 GDZJ6.8C
3 4 5 6 7 8 9
1 2
1120_3LIGHT ING NG
1008_D GND-FGND LAYOUT CHANGE
HCA-47M231T
TSO P32238Q J1
TPTPTPTPTP TPTPTPTPTP TP TPTPTPTPTP TPTPTPTP Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-4
6. Schematic Diagram
6.5. LED POWER
LOP 1
LOP 2
LOP 3
TP T PTP TPT TP PT TP PT TP P
5.1V
LOP 4
LCN1 1208_LR2 MOVED 1211_LR1 REMOVED
LOP 5 LR2
0OHM
LOP LOP66
MGND2 5 4 3 2 1 MGND1
H_LED4 H_LED3 L_LED2 L_LED1 D5.1V
1108_LR3 REMOVED LOP LOP77
10003HR-05 A00 LOP LOP13 13
LOP LOP88 LOP14
6-5
LOP LOP99
LOP LOP15 15
LOP 10
LOP LOP16 16
LOP 11
LOP LOP17 17
LOP 12
LOP LOP18 18
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.6. MAIN–1 TP24
M5V_PW
ST5.3V _PW
POWER
M5V_PW
VAA+5V
M5V_PW
USB5.0V_PW
CHANGE FROM 0505-000274 -> 0505-003205_CSC_0904
UNDEFINED 0.01OHM CB2012UA300T
BOTTOM B5V_CTL
10V 22UF PC33
PC52
10V 22UF
22UF 10V
PC51
22UF
PC50
10V
1/10W
PC49
OPEN100NF
PR18
5.6KOHM 1/10W
PR17
1/10W 20KOHM
PC48
OPEN
PC47
33NF 16V
100NF
PR16
50V
PC46
2.2NF
PR15
47KOHM
PR19 PC45 100NF
10V 22UF
10V 22UF
PC31
PC32
22UF 10V
10V PC9
PC8
PC17
PR10
100NF PC16
1/10W
PC42
33NF 16V
PR9
20KOHM
50V
PC641
1/10W
OPEN
DGND
2
DGND
10KOHM PR8
CS1608X7R104K160NRB
10KOHM 1/16W
2.2NF
PC36
PC15
MMBT2222A
OPEN100NF
EN
PR11
SS
COMP
3.3KOHM
FB
LX LX
UNDEFINED 0.01OHM CB2012UA300T
UNDEFINED
3.6KOHM
1/16W
10KOHM
100NF
10V PC35
PQ5
DGND CB2012UA300T UNDEFINED
GND
OPEN
10V 10UF
DGND
TC9
TC3
10V 10V
E
AGND
0923_MANUFACTURER GUIDE
TBD4
3
TC1
10V
TC5
10UF 10UF
10UF 10V
10UF 10V
TU5V
1KOHM 1/16W
VIN
8 7 6 5
MGND1
T3.3V_CTL C
PGND
2.2UH
AOZ3011PI
TOP
B3.3V_CTL PR38
PR39
10UF 10V
PR37
PC94
10UF
1/16W 10KOHM
1UF 16V
B
PC95
10V 22UF
PC93
MP1.35V_PW
AGND
PBD6 PL1
PIC11
1 2 3 4
G
MP1.35V_PW
TC4
PR7
D
S
DGND
BOTTOM
OUT
PC68
PQ4
BD8
1/4W 0OHM
DGND
PR12 1KOHM
AO3415AS
DGND
TIC2
M5V_PW
1/16W
100K OHM 1/16W
IN
PC44
10V PC76
22UF
10V PC75
22UF
PR81 PC74
MP3.3V_PW
PR36
MIC5V
DGND
R8
0.01OHM CB2012UA300T
12.5V_PW
1115_CSC
0923_MANUFACTURER GUIDE
BECAUSE OF MIC PIPI NOISE_1212
KRC106S-R TK
KIA7805AF
EN COMP
DGND
PQ23
E
UNDEFINED 0.01OHM CB2012UA300T
PBD21
KRC106S-R TK VARI_PC_A
FB
2 1/16W 1OHM
1
PC73
16V 1UF
PQ22
C
SS
LX
AGND
ADJ
E
B
VIN
8 7 6 5
LX
1/10W
VOUT VOUT
PGND
1/10W
VIN
10V 22UF
C B
TP PTP36
1/10W 68KO HM
PR72
PR71
PTP31
PQ21
1/10W 51KOHM
E
TP
10UF
PC7
10UF 10V 10UF 10V 10UF 10V 10UF 10V PC41
MIC14 3
AL3.3V_PW
0.01O HM CB2012UA 300T UNDEF INED
AP1117D-33- GZ-13-89
1 2 3 4
PL2
UNDEFINED 4.7UH
MGND1
PC67
PC72
10V 22UF
PC71
10V 22UF
PR80
1/16W 1OHM
1
PC70
16V 1UF
ST5.3V _PW
PBD7
PIC12
AOZ3011PI
1B3<
PR70
1/10W 56KOHM C B
VARI_PC_C
CB2012UA300T UNDEFINED
10V 10UF
1/16W
12.5V_PW
1/16W
2
VOUT VOUT ADJ
330OHM
VIN
10KOHM
3
LED5.0V_PW
PR14 1KOHM
1/10W
MIC15
1004_CHA NGE COIL_BECAUSE OF AMP NOISE 2703-003890 :3225 SIZE
UNDEFINED CB2012UA300T 0.01OHM
PBD20
PC66
UB3.3V_PW
AP1117D- 33-G Z-13-89
PC59
10UF 10V
PC65 PC58
10UF 10V
10UF 10V 10UF 10V
10V
10V PC5710UF
PC64 10UF
10V
10V PC56 10UF
10UF 10V
PC62
10V
10V
10UF 10V
PC61
PC55
10UF
PC5410UF
PC53 10UF 10V
PC60 10UF 10V
P_O N 2A4> 1B5<
PL3 M5V_PW
PC63 10UF
PBD17
AP3.3V_PW
UNDEFINED 47UH
22UF
VARI_SMP S
0.01O HM CB2012UA300T 0.01O HM PBD19 CB2012UA300T
PBD14
UB3.3V_PW
1D3>
KRC106S-R TK
1
CB2012UA300T
DGND
12.5V_PW
0.01O HM CB2012UA300T
VARI_SMP S
TBD5
CB2012UA300T 0.01OHM PBD31
OPEN
PC4
50V 1NF VSS-5V
VARIABLE POWER BLOCK
2C3>
MP3.3V_PW
PBD5 UNDEFINED
UNDEFINED
DGND
VARI_PC_B
10V
RF3.3V_PW
DGND
2C3>
RF5.0V_PW
0812_O PEN_MLCC VE
0.01O HM CB2012UA300T
DGND
2A6>
UNDEFINED
CB2012UA300T PBD18
DGND
TP69
M5V_PW
P_ON2 2A4> 1B2<
PBD16
DGND
TP
PC6 10UF
OPEN
10V 100NF
PC43
DGND
B
ST5.3V _PW
MGND2
B_5.3V_1 B_5.3V_2 B_5.3V_3 B_GND_6 B_GND_7 B_GND_9 B_VPS B_-5V B_12.5V_1 B_12.5V_2 B_GND3 B_P_ON
UNDEFINED
UNDEFINED
0812_O PEN_MLCC VE
0.01O HM
PBD15
PBD2
CB2012UA300T 0.01OHM PBD29
1/10W PR25 10KOHM
CB2012UA300T
MGND1 1 2 3 4 5 6 7 8 9 10 11 12
0.01OHM CB2012UA300T
TOP
E
0.01O HM
20022WS -12A00
CB2012UA300T 0.01OHM PBD11
PBD1
T5V_CTL
C
PQ2
TP22
TP35 TP18 TP21
SRC1203S
PCN1
8 7 6 5
10KOHM 1/10W
PR13
DGND
1 2 3 4
PR73
1/10W 100KOHM
10V 1UF
PC3
220UF
PC1
16V
DMG4435SSS-13 PQ3
DGND
C1
50V 47NF
OPEN R1
OPEN
0OHM 1/10W
DGND GGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
SGND
6-6
6. Schematic Diagram
6.7. MAIN-2
UR19
10KOHM
UQ10 2SA1979S-Y
UR14 47KOHM
UR2
10KOHM
UD1
40 RB751V-40TE-17
10KOHM 1/16W OPEN
UR63
10KOHM
1/16W P61/SDAA0
P60/SCLA0
EVDD0
VDD
EVSS0
VSS
REGC
P121/X1
P122/X2/EXCLK
P137/INTP0
P123/XT1
P124/XT2/EXCLKS
/RESET
P40/TOOL0
P41
P42/TI04/TO04
P43/SCK01-/SCL01
P44/SI01/SDA01
P45/SO01
P46/INTP1/TI05/TO05
P47/INTP2
P120/ANI19
OPEN
UR56 P87/(INTP9)
EVDD1
P30/INTP3/RTC1HZ/S CK11-/SCL11
P51/SO11
P50/SI11/SDA11
P52/SO31
P53/SI31/SDA31
P56/(INTP1)
P54/SCK31-/SCL31
P57/(INTP3)
P55/(PCLBUZ1)/(SCK00-)
P17/TI02/TO02/(SO00)/(TXD0)
P15/SCK20-/SCL20/(TI02)/(TO02)
P16/TI01/TO01/INTP5/(SI00)/(RXD0)
P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03)
P13/TxD2/S O20/(SDAA0)/(TI04)/(TO04)
P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06)
P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05)
P101
P 110/(INTP10)
P10/SCK00-/SCL00/(TI07)/(TO07)
P147/ANI18
P 111/(INTP11)
P100/ANI20
P146/(INTP 4) P140/PCLBUZ0/INT6
P141/PCLBUZ1/INTP7
P142/SCK30-/SCL30
7 5 3 1 UAR8
UR1 7
M_ACK M_RXD
1/16W 100OHM 1/16W 100OHM
UR1 8 DGND
TO MP EG TO MPEG
4F1< M_PWM_RST 3C3< M_RES ET 3F3<> TU_CLK
SUB_RS T
4F1< 4F1<
4F1<
2F4<
TP
TP26 TP29 TP
UR3 7
UAR5
UAR4
100OHM
8 6 4 2 8 6 4 2
1/16W
7 5 +-250P PM/C 3 100OHM 1 7 5 3 1 UR6 6
100OHM 100OHM 1/16W +-250PP M/C
TP43 TP46
UB2130_RS T IR_RSTI IR_SD
7C3<
2A8<
TU_RDS 3F2> 2D3< FL_LED5 FL_LED4 2D3< EQ_C 6E8< EQ_B 6E8< EQ_A 6E8< 2D3< FL_LED6
TP TP
UB2130_SDA UB2130_SCL
7C3<> 7C3<
MC301
1/16W 100OHM 100OHM 1/16W
DGND
UR11
0OHM
UAR24 UAR23
1/10W
UC26
10UF
UC10
MICOM_RST
100NF
UAR2
2D5> 2E4>
FR_LED7
1.0
FR_LED1 FR_LED2 FR_LED3 FR_LED4 FR_LED5 FR_LED6 2A3< 2A3< 2B3< 2B3< 2B3< 2B3<
DGND
AL3.3V_PW
12PF
3 UC39
Q2
32.768HZ UX2
10V 1UF
7 5 3 1 7 5 3 1 8 6 4 2 8 100OHM 6 +-250PPM/C 4 2
FL_LED1 FL_LED2 FL_LED3
TP 1
4
DGND
50V
50V
UC24
UC14
100NF UC28 10UF 10V
0OHM 1/10W UR45
+-250P PM/C
2 4 6 8
TP_OPEN
100NF UC27
3F3<>
TP_CLOSE 3F3<> 3F3<>
TU_CE TU_RST
TU_DA
M_TXD M_STB
UAR11
1 UAR34 3 5 7
100OHM
VARI_PC_C FROM MPEG 4E8> FROM MPEG 4E8>
2.7KOHM
10KOHM 1/16W
UR20
UR22
10KOHM
UR21 10KOHM
UR67 1/16W
CLOSE_SW OUTSW INSW USB1_EN P_ON2
100OHM +-250PPM/C
7 5 3 1 2 4 6 100OHM 8 +-250PPM/C
UAR12
8 6 4 2 1 3 5 7 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 Q3
2C4<
VFD MICOM
2C4>
1
/RESET,RESET VDD
3
UC6
100NF 10V
16V 47UF
UC4
2 6B3<
UC5
4E5>
RT9818C-29P V
UIC3 GND
4E5<
UP DATE ONLY
2C8>
10V 1UF
6B3>
UR50
1/16W 1KOHM 1UF UC22
UR15
B E
C
10KOHM 1/16W
10KOHM 1/10W
UR84
UVT3 UVT4
1/16W
8 6 4 2
VOLTAGE DIVIDER FOR FRONT MICOM_0624
UR83
1/10W 20KOHM
UR82
UR60 UR61 UR62
D1
10KOHM
UR54
UR53
1/16W
10KOHM
12PF 16V 12 12 100NF 100NF LOPIVA16G05 LOPIVA16G05 UC20 UC21
100NF
UD4C
10KOHM
1/16W UR51
10KOHM
UR52
1/16W UR55
10KOHM
OPEN
TP20
0.01OHM
BD4
1/10W 20KOHM
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
1/16W 1/16W 1/16W 100OHM 100OHM 100OHM
UPIN94
1/16W 2.7KOHM UR70
100NF
GFRC7
GC14
T_ESS_RX T_ESS_TX TP23 TP19 TP17 TP33 TP40 TP41
GC13 TP34 TP25
0.01OHM
BD2
220NF
220NF
220NF
220NF GC11
220NF GC10
UR24
1/16W 47KOHM
E
C B
OPEN
RB751V-40TE-17 UR69
UR68
2.7KOHM
1/16W 2.7KOHM
MGND2
2C8>
0.01OHM
27OHM 1/4W
10V 100NF
UR26
1/16W
UR29
GQ12 GBD9
1/16W 330KOHM
1/4W
MMBT2222A
1/4W
GR34
27OHM
UC29 100NF
2D6>
GQ11
MMBT2222A
GQ10 GR32
39OHM
27OHM 1/4W
MMBT2222A
MMBT2222A
GR28
C
1/4W
GQ9
C
C
C
C
GR26
UC1
B_FA_RXD
T_TX
B_FA_TXD
TP49 LOPIVA16G05 LOPIVA16G05
0.01OHM CB2012UA300T UNDEFINED
GBD8 100NF
GLC1
1/16W
1/4W
27OHM
27OHM
1/4W
OP EN
GQ4
GR35
220NF
GC15
GC16 220NF
GC18
220NF GC17 220NF
GC19
220NF
GQ8
E B
E B
C
27OHM
1/16W 4.7KOHM
GCC02-0096 GQ6
MMBT2222A
GQ5
MMBT2222A
1/4W
1/4W
GR27
27OHM GR31
39OHM
GR33
GQ2
1/4W GR25
27OHM
39OHM
MMBT2222A
GQ3
MMBT2222A
1/4W
MMBT2222A
GQ1
MMBT2222A
GC20
GQ7
E B
E B
B
B
GR36
TP52
E E
BD1
P143/ SI30/RxD3/SDA30
MMBT2222A
P62/ SCLA1
P144/ SO30/ TxD3
1/4W
P63/ SDAA1
39OHM
P00/ TI00 P145/ TI07/TO07
220NF
P01/ TO00
P31/ TI03/TO03/INTP4/(PCLBUZ0)
GC9
P02/ ANI17/S O10/TxD1
P64/ TI10/TO10
0.01OHM
P03/ SI10/RXD1/SDA10
P65/ TI11/TO11
DGND
TOP TP
AL3.3V_PW
DGND
VFD1_RXD
P66/ TI12/TO12
180KO HM 1/10W
VFD1_TXD
P67/ TI13/TO13
MMBT2222A
P130 P102/ TI06/TO06 P04/ SCK10-/SCL10
SUB_RST
REMO_IN
LOG_RXD1 LOG_TXD1
R5F100PGAFB
DGND
DGND
AL3.3V_PW
KRC106S -RTK UQ2
UR81
DGND
IR_RSTI
AL3.3V_PW
ST5. 3V_PW
KEY_AD2 KEY_AD1
1KOHM 1/10W
Q1
UIC1
P77/ KR7/INTP11/(TXD2)
GR24
P20/ ANI0/AVREFP
1/16W 10MOHM
Q0
P76/ KR6/INTP10/(RXD2)
AL3.3V_PW
DGND
P75/ KR5/INTP9
1211_D UPLICATED LED5.0V_PW
P74/ KR4/INTP8
GC1
P23/ ANI3 P22/ ANI2
P21/ ANI1/AVREFM
2
P73/ KR3
1
P72/ KR2/SO21
UR3 9
MC-146(32.768KHZ,20P PM)
UR36
DGND
P25/ ANI5
MICOM_RST
2D5>
TP48
UR38
10KOH M 1/10W
P24/ ANI4
C
DIRECTION CHECK
1/10W 10KOH M
2D3<
2D6<
DGND
UR80
1116_BD REMOVED
2C3<
2E4>
MICOM_RS T
P71/ KR1/SI21/SDA21
2C3<
P70/ KR0/SCK21-/SCL21
B
SCB-2415-M-2
B_DGND_6 B_VFD_RXD B_VFD_TXD B_VFD1_RXD B_VFD1_TXD B_S T5.3V_1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
P27/ ANI7
C
UCN1
ST5. 3V_PW
P26/ ANI6
1 2 3 4
P06
1.0
TP_RST_TOP
12. 5V_PW
P150/ ANI8
1.SD ATA 2.AL3.3V 3.R ESET 4.G ND
B_SDTA B_AL3.3V_8 B_RS T_MICOM B_GND_8
AL3.3V_PW
1/16W UBR1 1KOHM
P05
UR1 00
CN2
UNDEFINED
UAR1
FL_LED6
P151/ ANI9
3.3KOHM 1/16W
2C8>
IR_RS T
100OHM +-250PP M/C
EVSS1
UAR33 AL3.3V_PW
DGND
MGND1
P152/ ANI10
2C8>
1KOHM
DGND
TP111
P80/ (SCK10-)/(SCL10)
FL_LED5
TOP TP
P153/ ANI11
1KOHM
DEBUG_FANET_TXD DEBUG_FANET_RXD
E B C
AL3.3V_PW
P81/ (SI10)/(RXD1)/(SDA10)
2C8>
1.0
P154/ ANI12
FL_LED4
2D6>
PIN93
LED5.0V_PW
IR_SD
DGND
P82/ (SO10)/(TXD1)
1KOHM
REMO_IN
2D6<
GGND
6-7
FL_LED3
GR12
1 2 3 4
GCN14
B_12.5V_4 B_GND_5 B_S UB_RST B_KEY_AD2 B_KEY_AD1 B_REMO_IN B_M5V_5
GR11
FL_LED2
1KOHM
3B4< USB2_EN VFD1_RXD VFD1_TXD USB2_FAULT 2F3>
100OHM +-250PPM/C
TP13 TP14 TP15 TP16
1 2 3 4
LM302LD-004- TF1
B_SWL_B B_SWL_G B_S WL_R B_SWL5V_2
KEY_AD2 KEY_AD1 US B_M_RST
SMW200-H04G
LM302LD-004- TF1
TP12
UR4 2
2A4< 6B1<
P155/ ANI13
B
GCN13
TP9 TP10 TP11
GR10
1206_FO R EMI 1D1< VARI_PC _B
1KOHM
EQ_IN
DGND
2F3> 2F3< 3B4<
FL_LED1
81 82 8 7 83 6 5 4 3 +-250PP M/C84 2 1 100OHM 85 86 UAR16 87 1/10W 88 100OHM UR3 3 89 90 100OHM UAR19 100OHM 91 UAR30 92 100OHM 93 UR3 4 1/10W 94 200OHM 95 UR3 5 1/10W 96 97 100OHM UAR31 98 99 100OHM UAR32 100 100OHM
1/16W 33KO HM RES IS TOR DIVIDE_1118
2F3>
GR8
TP
TP44 TP45
8B1>
P83
VARI_PC _A
P156/ ANI14
C
B_FL_B B_FL_G B_FL_R B_FL5V_1
UR2 7 UR2 8 UR3 0 UR3 1 UR4 3
AUX_MIC_S EN KEY_US B
TOP TP
GR9
TP
2C8<
AL3.3V_PW
P84/ (INTP6)
B
E
E
C
C
C
LM302LD-004- TF1
1E1<
6E8>
1/16W 1/16W 1/16W 1/16W 1/16W 76 100OHM 77 100OHM 78 100OHM 79 100OHM 80 100KOHM
10/08
8B5> FAN_CHECK 7C5< UB2130_MUTE 4E8> 3A3< USB1_FAULT
3B3<
SPK L IGHTING_L
ADD DIODE_0618
FAN_ON
GGND
GGND
TOP TP TP
TP42
P85/ (INTP7)
12. 5V_PW
DELETE
1KOHM
UR2 5
AL3.3V_PW
LED5.0V_PW
GR7
1/16W 10KOHM
DGND
DGND
AL3.3V_PW
1 2 3 4
220NF
DGND
2D6>
FR_LED6
B
B
GR23
UR78
MP 3.3V_PW
P86/ (INTP8)
E
E
E B
E
LM302LD-004- TF1
1 2 3 4
DEBUG_FANET_RXD
2D6>
FR_LED5
1KOHM
UQ1
2D6>
FR_LED4
GR2 1KOHM
DEBUG_FANET_TXD
2D6>
FR_LED3
1KOHM
GR6
2D6>
FR_LED2
GR4 1KOHM GR5
2D6>
FR_LED1
GR31KOHM
GCN12
TP5 TP6 TP7 TP8
1/16W 33O HM 1/16W 33O HM
2SA1980S -Y
6B1< 2C5>
1/16W 10KOHM
GCN11
B_S WR_B B_SWR_G B_SWR_R B_S WR5V_1
1KOHM
1B2<
UR79
UVT2
SPK L IGHTING_R
TP4
1B5<
P_O N
MP3.3V_PW
AL3.3V_PW
AL3.3V_PW
4 5
GR1
AL3.3V_P W
AL3.3V_PW
UR23
1 3 2
UVT1
GGND
TP1 TP2 TP3
T_RX
UFANETCN1
B_FR_B B_FR_G B_FR_R B_FR5V_1
AL3.3V_PW
B_FA_GND
POWER
DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.7.1. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-8
6. Schematic Diagram
6.8. MAIN-3 USB1_5V
POWER AUDIO S C13 10UF 10V MP3. 3V_PW
MP3. 3V_PW
SR2 SR3
0.01OHM UNDEFINED
US B1 : 0.5A TPS2069C DBVR SIC 3
1 2 3
5
OUT IN GND
4
/FLT EN/EN#
R15
SC16 100NF
S C15 10UF 10V
DGND
USB1_EN
2A6>
USB2_5V
US B1_FAULT
2B4<
DGND SC12
TP31 TP36 4.7KOHM 1/16W 4.7KOHM 1/16W
SC10
DGND
S R12
2B8>
220NF 16V
4F1<
0OHM
OPEN
OPEN
DGND
SR8 SR9
SDCW2012H-2-900TF
SC9
SR6
SR7
50V 18PF
SC8
3C5<> 3C5<>
KEY_USB DGND
AGND
3C3<>
GND
L_CH
R_CH
VCC
SCLK
SDIO
/SEN
/RST
GPIO2/INT
MGND4 MGND3
DGND
MGND2 MGND1
UNDEFINED TAF-6MF-D
TU1
TP57
TP56 B_TU_L B_TU_R
DGND
TU5V
US B2_DN USB2_DP
9 8 7 6 5 4 3 2 1
3C3<>
TUNER_R
4 3
S DCW2012H-2-900TF
B_TU5V TP63
100NF
TC67
TC66
TC60 22PF TC58 22PF
J1
TP 64
TC59 10NF
AGND
3.3KOHM
SHORT(GND) SHORT-GND
1201_AUTO SEARCH
OP EN TR56 100OHM
1211_CDR FLO ATING 1V @STBY
1 3 5 7
TU_RST TU_CE TU_DA TU_CLK
ADD JUMPER FOR ES D_1126 1/4W 0OHM
2 4 6 8
B_TU_RDS B_TU_RST B_TU_CE B_TU_DA B_TU_CLK
AGND
DGND
TC2
CS1608X7R104K160NRB
DGND
OPEN
TR336 100OHM
16V 100NF
2A7> 2A6> 2A6<> 2B8>
AGND TP58 TP59 TP60 TP61 TP62 R7
TR7
3.3KOHM TR6
3.3KOHM TR5
TR4
3.3KOHM
3.3KOHM
TR37
TU_RDS
OPEN
OPEN
TR12
TR53 33KOHM
TR52 33KOHM
OPEN
MP3. 3V_PW
1211_CDR FLO ATING 1V @STBY
1/10W 3.3KOHM
DGND
1211_C HANGED TO 105. TRANSIENT
B_TU_GND
MP3. 3V_PW
2C8<
16V 47UF
TR55 100OHM
SD2
4C8<
1 2
0
TUNER_L
UNDEFINED UNDEFINED SFT2
RCLAMP 0502B.TCT
TR54 100OHM 4C8<
USB1_5V USB1_DN USB1_DP USB1_GND USB1_LED USB2_5V USB2_DN USB2_DP USB2_GND US B2_LED KEY_USB MGND2
0OHM
4 3
0
US B1_DP USB1_DN
1 2 3 4 5 6 7 8 9 10 11
SD1
3D6<> 3D6<>
USB2_DP USB2_DN
UNDEFINED SMW200-H11G
MGND1
1 2
US B1_DN US B1_DP
DIRECTION OUTWARD
SCN1
UNDEFINED UNDEFINED SFT1
DGND 12MHZ DGND
50V 18PF
USB2_5V
DGND
3C3<> 3C3<>
0OHM
USB1_5V
10KOHM
B_USB_GND
M_RESET
B_USB2_5V USB2_5V_2 B_USB1_LED B_USB2_LED B_KEY_USB
1/16W 33OHM
SR19
SC17
USB2_DN USB2_DP
2C4>
1/16W 120OHM
SR11
SR1
16V
16V
1/10W 510OHM
SC6
100NF
SC5 100NF
100NF
USB2_EN
US B2_FAULT
1206_FO R EMI
A411433E12M SX1
SC21
10UF 10V
RCLAMP0502B.TCT
SC4
100NF
16V
1114_USB EYE
SC20
SR10
US B_M_RST
AVDD
DM4
EN/EN#
B_USB2_DN B_USB2_DP
DP4
4
/FLT
2C4<
DGND
DGND
8 9 10 11 12 13 14
X1
RESET#
DP3
MGND1
DP2
TEST/ SCL
DM3
DM2
X2
AVDD
5
IN GND
USB1_5V_1
OVCUR4#
DP1
1UF
DM1
2C4> 2C4<
0OHM 0OHM SC11
OVCUR3#
R28
OUT
B_USB1_5V
21 20 19 18 17 16 15
DVDD
DP0
TPS2 069CDBVR S IC4
1 2 3 DGND
100NF 16V
PSELF
PGANG
SDA
OVCUR2#
OVCUR1#
V5
V33 DM0
4.7KO HM 1/10W
USB5.0V_PW
USB2 : 0.5A
B_USB1_DN B_USB1_DP USB1_DN USB1_DP
100NF 16V
SC7
1 2 3 4 5 6 7
AVDD
1UF DGND
SC19 10UF 10V
DGND
RREF
US B_DM US B_DP
S C18 10UF 10V
MP3.3V_PW
0.8
DGND
GL852G- 31 SIC 2
SR15 10KOHM 1/10W
220N F 16V
28 27 26 25 24 23 22
SC3
6.3V
6.3V
TP TP
10UF 4D3>
4C3>
4.7KO HM 1/10W
DGND
SC2
SBD1
CB2012UA300T
MP3. 3V_PW
USB5.0V_P W
SC14 10UF 10V
DGND
6-9
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
MC161 10UF
MC153 10UF
MBD6
100NF MC165
100NF
MC162
UNDEFINED
100NF
MC166 220UF
MC164
MC163 10UF
MR261 4.7KOHM
MR257 4.7KOHM
100NF
MC146
MX2 27MHZ
100KOHM MR264
OPEN
1/16W OPEN
4.7KOHM
MR14
MIC6 SPI_CS
6B5> DGND SPI_DI
1 2 3 4
/CS
VCC DO(IO1) /HOLD(IO3) /WP(IO2) CLK GND DI(IO0)
100NF 8 10V MC170 7 MC3 4B2< 10UF 6 S PI_CLK 5 S PI_DO
4B2<
B_SPI_DI T_SPI_DI B_SPI_CS T_SPI_CS T_GND_2
6C3<
B_NOR_GND_2
W25Q32FVS SIG
DGND
BT_RS T #52 BOOTSTRAP HIGH WHEN BOOT
1116_TP ADDED
MR247
SPI _CS 100OHM
1/16W 4.7KOHM
1/16W
0.01OHM
MR248
1104_EMI
MR13
MC145
100NF MR16
VD33P LL
SPDIF_OUT
SPDIF_IN
VDD
SPI_DO
SPI_DI
VSS
SPI_CLK
SPI_CS 3
SPI_CS2
AUX[0]
AUX[1]
AUX[2]
VD33
RESET_B
VS33
AUX[3]
AUX[4]
AUX[5]
VDD
AUX[6]
AUX[7]
VSS
DB[15]
DB[13]
DB[12]
DB[14]
VS33
VD33
DB[11]
DB[10]
DB[8]
DB[9]
VDD
DB[2]
DB[0]
DB[1]
VS33PLL
4.7KOHM
SR[03]
SR[04]
SR[30]
SR[05]
SR[06]
SR[26]
SR[27]
SR[25]
SR[24]
SR[21]
SR[22]
SR[23]
OP[12]
SR[36]
SR[20]
SR[35]
SR[31]
SR[34]
SR[33]
VSS
SR[14]
SR[13]
VD33
BD3
SPI EMULATOR SP I_CS FLASH SPI_CS3 EMULATOR
DGND
B_SPI_DO T_SPI_DO B_SPI_CLK T_SPI_CLK
MC143
MC300
MC270 VD33
SR[15]
VDD
VD33
VS33
SIN
S OUT
SR[32]
AMPSTBY
OPENSW
CLOSESW
CLOS E/VOBS 1
VPB
VGB
OPEN/VOBS
MB
DB
TE
MP DB[3]
VSS
DB[4]
DB[5]
MR266 2.2KOHM 2.2KOHM
MR265
2.2KOHM MR263
100NF
B_I2C_DAT B_I2C_SCL B_I2C_WP B_MP3.3V_3 T_I2C_DAT T_I2C_SCL T_I2C_WP T_MP3.3V_3
1UF
100NF
100NF
T_DVD/CD
MC139
100NF
DRV
MC140
100NF
OPEN 47KOHM 1/16W
OPEN MR339
MR340
CLOSE
MR356
1/16W 100OHM
C152
100OHM 1/16W
MR357 INSW
100OHM 1/16W
1/16W 47KOHM OPEN 5E3<
1/16W 100OHM
1/16W 100OHM
MC133 MC134 MC135
B_TP84 B_TP85 MC132 4.7NF 10UF 1NF 150NF 100NF MC136 DB[6]
DB[7]
VS33
VD33
DQM
VDD
DSCK
VSS
2 4MAR1 6 8
100OHM
MP3.3V_PW
1 3 5 7
MC108
220NF 16V
111 2_ADD MC108 FOR EMI
MC144 10UF
4D2> 4D2>
220NF MC109
OPEN
LOPIVA16G05
DWE_B
DCS0_B
5C7> 5C8> 5C8> 5C8>
MVT5
DCAS_B
MC110 100PF 100NF
10NF
C107 10UF
MP3.3V_PW
MC101
MC102
470NF
C108
MR230 4.7KOHM
1 5E7> CS0# 2 5E7> RAS0# 3 5E7> CAS# 4 5E7> DWE# 5 6 MR376 56OHM 100NF DSCK 7 MC127 CB1608GM600T 8 MR241 DQM 9 MC129 100OHM 10 100NF 11 1 MAR2 2 DB7 12 3 4 DB6 13 5 6 DB5 14 7 8 DB4 15 100OHM 16 1 MAR3 2 DB3 17 3 4 DB2 18 5 6 DB1 19 7 8 DB0 20 MC137 100OHM 21 1 MAR4 2 5C7> 22 3 4 5C7> 23 5 6 100NF 5C7> 24 7 8 5C7> 25 MC138 100OHM 26 27 1 MAR5 2 5C7> DB12 100NF 28 3 4 DB13 29 5 6 5C7> DB14 30 7 8 5C6> DB15 31 100OHM 32 MR378 LOG_RXD1 33 200OHM LOG_TXD1 34 1/16W LOG ANALYZER 35 MC141 /VFD MICOM UPDATE 36 100NF 37 MC142 38 39 100NF 40 41 42 I2C_SCL 43 I2C_DAT 44 45 46 MR244 100OHM SPI_CLK 1/10W 47 48 MR245 100OHM SPI_DI MR246 49 SPI_DO 100OHM 50 100NF 51 52 10KOHM MC152 53 54
B_NOR_GND
B_SPI_DO_2 T_SPI_DO_2 B_SPI_CLK_2 T_SPI_CLK_2
(OPEN)
MR240
DB11 DB10 DB9 DB8
TP81
DRAS0_B
DCS1 _B
DGND
1018_INSERT MC109 BECAUS E OF ESD
OP[0]
10NF
FE
DRAS1 _B
MC99
V165O
DRAS2 _B
OP[1]
MC100
MR242 MC131
VSS
OP[2]
470NF
PI
DMA[10]
OP[3]
MR219
REX
DMA[0]
OP[4]
MP3. 3V_PW
B_ES SRESET
VD33
4.7KOHM
DVDLD
DMA[1]
4.7KOHM
VBO
DMA[2] VS33
B_SPI_DI_2 T_SPI_DI_2 B_SPI_CS_2 T_SPI_CS_2 T_GND
CDLD
VDD OP[5]
MR215
DVDPD
DMA[3] OP[6]
4.7KOHM
10KOHM 22NF
MR239 10KOHM
DMA[11] OP[7]
MR214
AGC2
DMA[9] VDD
4.7KOHM
SPNP
VSS
MR227 4.7KOHM
DMA[8]
MC107
VS33
MCLK
82PF
VD33
VS33
MC106
VID_XO
82PF
MDA[7]
82PF
VSS DMA[6]
VID_XI
TES T MODE
VS33
MC105
VDD SYSCLK
VD33
1
PAD_REF
MC104
PAD_COMP
MR212
DMA[5]
82PF
VD33 DMA[4]
NORMAL MODE
100OHM 1/16W
1/10 W
TP 82
0
PAD_RSET
4D2>
100OHM 100OHM 100OHM
TP OTP
UDAC
P ARALLEL MODE
USB_D P
S ERIAL MODE
1
VDAC
0
DCLK INP UT
USB_D M
CRYSTAL
1
MR280 MR281 MR282
PLL3 P LL2 PLL1
M_TXD
MP3.3V_P W
MP3. 3V_PW
S _P_OPTION
0
USB_AGND
S_L
CLK SOURCE
MP1. 35V_ PW
100OHM
VD33VDAC
PL3
USB_VC CA
148.5
VS33VD AC
162
5.5
ES8396SCD-GSWD
YDAC
6.0
1
CDAC
0
1
100OHM
VDD
1
1
MR223
S_P _OP TION
USB_R REF
1
4D2>
VD33
155.25
VSS
141.75
5.75
USB_VD DA
5.25
1
DAC_O1L
0
0
100OHM 100OHM MR233 MR234
DVCC
0
1
RAS2# RAS1#
DAC_O2L
1
5E7> 5E7>
AVS33
135
MIC1
DAC_O2R
5.0
AVD33
1
VD33ADAC
1
VS33AD AC
0
DAC_O3L
128.25
TRO
121.5
4.75
REFD
4.5
0
DAC_O3R
1
1
SLO
0
0
2 4 6 8
3 5 7
MAR8
CDPD
0
MC122 100NF 1
5E8> MA2 5E8> MA1 5E7> MA0 5E7> MA10
DAC_O1R
N/A
FOO
BY
LINE_OL
0
DQM
DMO
FREP
0
2 4 6 8
LINE_OR
MULTI
0
PLL1
100OHM
1 3 5 7
MAR7
VD33AADC
100NF MC114 5C7> MA8 5C7> MA9 5C7> MA11 5E8> MA3
LINE_IN_L1
MAR6
DGND P LL2
MC121 100NF
100OHM
H
4E3>
MR236
OPOUT
SLV
2 4 6 8
LINE_IN_R1
1 3 5 7
G
S_P_OPTION
MA4 MA5 MA6 MA7
100NF
MIN
5E7> 5C7> 4F4> 4E3> 4E3> 4E3>
MC113
100 OHM
LINE_IN_L2
PLL0 DQM P LL1 P LL2 P LL3
USB_DM USB_DP
F
3B1< 3B1<
LINE_IN_R2
DGND
E
MR237 7.5KOHM
6C6>
108 MP1.35V_PW 107 1211_C HANGED TO 105. TRANS IENT 106 105 104 AGND 103 102 1/10W 101 22OHM MR343 100 10UF 4.7KOHM MC155 99 MR250 6C6> AUX_R 10UF 4.7KOHM MC156 98 MR251 AUX_L 6C6> 4.7KOHM MC157 10UF 97 MR252 TUNER_R 3E3<> 10UF 4.7KOHM MC158 96 MR253 3E3<> TUNER_L 10UF 4.7KOHM MC159 95 MR254 6A6< AUX2_R 10UF 4.7KOHM MC160 94 MR255 6A6< AUX2_L MP3.3V_PW 93 92 CB2012UA300T MR59 91 470OHM 90 ES S_TBCK 7A4> 7B5< 89 820->470OHM_0627 F750 : DAC OUT 88 MC169 87 86 1.2KOHM CB2012UA300T MR64 85 ESS_TSD1 MBD4 220UF 1.2KOHM MR249 84 UNDEFINED ESS _TSD0 1211_C HANGED TO 105. TRANS IENT 1KOHM MR65 83 ESS _TWS 82 2.7K->1K_0627 81 MC174 1120_ADDED FOR EMC 80 100NF 79 MC154 78 100NF 77 76 DGND 390OHM 75 MR256 MC149 100NF 74 MC150 100NF 1120_ADDED FOR EMC 73 100NF 72 10UF MC171 71 MC167 MC147 70 27PF AK27012013 MR262 69 150OHM 68 27PF 1206_FOR EMI 67 MC168 MP1.35V_PW 66 MC148 100NF 65 64 TP72 MOVE TO TOP TP_0709_NOT APPLIED 63 TP75 62 MP3.3V_PW TP76 MC151 61 MP3.3V_PW 60 100NF 59 T_MP3.3V_1 MR324 58 33OHM B_MP3.3V_1 2A6> M_STB 57 4A8> I2C_WP 56 MR325 55 33OHM 2A6<
LINE_IN_L3
MP3. 3V_PW
MC119 100NF MC120 100NF
MP1.35V_PW
D
100NF
MEMORY OPTION
MIC_SIG
LINE_IN_R3
MC112
MP3. 3V_PW
MP3.3V_PW
C
MPD
1120_ADDED FOR EMC
VDDAADC
4A4> 5C3>
6D3<
B
MR229 1KOHM
MR216 4.7KOHM
DGND
6D3< I2C_WP I2C_SCL I2C_DAT
33OHM 33OHM 33OHM
1.0
MIC_L
MR228 1KOHM
MR225 1.2KOHM
MR258 MR259 MR260
A
100NF MC118
MIN
100OHM 1/16W
MIC_R
5E5> SPINDLE 5D4> FOCUS 5E4> SLEGN 5E5> TRACK
PUHRF 5B3> A 5B3> B 5B3> C 5B3> D
SDA
VS33AADC
4A4> MR224 1.2KOHM
MC117
SCL
VSS
VDD
DGND
MC111 680P F
VGA
5B3>
E2
8 7 6 5
S-24CS08AFJ-TB-1GE
DRFP
100NF
W25Q32FVSSIG
163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216
/WC
SR[00]
MC212 MC213 4E8< SP I_CLK 4E8< SP I_DO
100NF MC116 VPA
VCC DO(IO1) /HOLD(IO3) /WP(IO2) CLK GND DI(IO0)
BT_TX 6C3> BT_RX 6C3<
VCC
NC
DRFN
8 7 6 5
/CS
T_ROM_GND_1
MR47 MR48
NC
SR[01]
1 2 3 4
SPI_DI
10V 10U F
AGC1
10V 100NF
MIC7
SPNN
1.0
S PI_CS2
DGND
1 2 3 4
162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144MR349 143 142 141 140MR358 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109
B_TP83
MC115 10UF
MC125 MC126
MR238 470KOHM
MP3. 3V_PW
MP1.35V_P W
RF3.3V_PW
1.0
1/16W 100OHM
SR[02]
RF3.3V_PW
B_MP 3.3V_2
T_MP3.3V_2
MP3.3V_PW
4.7KOHM 1/16W
MR290
MIC16
B_ROM_GND_1
VSS
ADD FLASH2_CS2_0814
1NF 100PF
MC124
100NF
MC123 10UF
MC128 10PF
AUDIO
MIN 4C2> DA 5E5>
5B7<
MPD MVREF 5B3< 5A5< CDLD T_DVDLD
1.0
MOCTL
POWER
MR355 OUTSW
6.9. MAIN-4
R35 INSERT
MR244 330O HM
OP EN
0OHM
MP3.3V_PW
2B8>
MR243
10KOHM 1/16W
SPI_CS2
5E7>
M_RESET 5E7> 5E7> 5E7> 5E7>
2B8>
5C7>
3C3<
MR222
M_RXD
M_PWM_ RS T
100OHM
2B8> 2B8>
M_ACK
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-10
6. Schematic Diagram
6.10. MAIN-5 RF3.3V_PW
A 4B2< D 4B2< C 4B2< B 4B2< FOCUS + 5F4> TRACK+ 5F5> 5E5> TRACKFOCUS- 5E4> 5C5> SW_CD_DVD
MR294
4.7KOHM
5D3<
MR300 680OHM
5E5>
MR298 3.3KOHM
10V
5D3<
MR301 10KOHM
DGND
MR38
5E7>
4D3> 4D3> 4D3> 4D2> 4D2> 4D2> 4D2> MA11 MA9 MA8 MA7 MA6 MA5 MA4 10P F
DB8
OPEN
54 53 52 51 50 MC201 49 48 47 46 45 44 MC204 43 42 41 40 39 38 37 36 MR291 35 4.7KOHM 34 33 32 31 30 29 28 NC
A11
A9
A8
A7
A6
A5
A4
VSS
/CS
A13
A12
A10/AP
A0
A1
A2
A3
VDD
CKE
NC
CLK
UDQM
VSS
DQ8
DQ9
VDDQ
DQ10
VSSQ
DQ11
DQ12
VDDQ
DQ13
DQ14
VSSQ
VSS
0709_CHANGE TO 1105-002494 BY P URCHAS E
DGND
DQ15
MC203 16V
MC211
DGND
2203-005393 : 5PF
0729_OP EN_BECAUSE OF DRAM CHANGE
T_OUTS W T_INSW
5E4> 5E4> 5B7> 5E5> 5B7> 5F6>
MC130
4A5< OUTS W 2A6< 4A5< INSW 2A6<
100NF
100NF
1/16 W 100OHM
100OHM 1/16 W
100NF
16V 100NF
SLED + SLED DCMODCMO+
DB12 DB11
5E4> 5E4>
MR351 MR350
111 6_GN D ENFORCED FOR EMI
DB14 DB13
DB15
OPEN 47KOHM 1/16W
OPEN
1/16W DCLOAD_N DCLOAD_P
MR359
MR360 47KOHM
RF3.3V_PW
4F5>
DB10 4F5> DB9 4F5>
4F5>
4F5> 4F5>
1116_GND ENFORCED FOR EMI
DGND
4F5> 4F5>
B_FOCUS+ B_B B_C B_D B_A B_E B_F
B_TRACK+
DGND
4F4> DQM 4D2> DSCK 4F4>
MR32A
1/4W 0OHM
RF5. 0V_PW
MR211 10KOHM
CDVR
SW_CD_DVD
5C3>
22OHM
5C3<
DGND
CDLDO 5B4> 4C3< MPD 4A4> CDVR 5C4<
CN15
10022HS -10C00
DCMO+ 5F6> MR299 10KOHM
100NF
MR274 47KOHM
4A4>
1130_BEFORE : E,F
MR293 18KOHM
LOPIVA16G05
100NF MC184
MVREF
MOCTL 4A4>
DCMO-
1130_BEFORE : NC
DGND
10 9 8 7 6 5 4 3 2 1
IN2+
MR297 1KOHM
MC173
B_CDVR B_MP D B_CDLDO B_GND B_SW_CD_DVD B_FOCUSB_TRACKB_GND2
DIRECTION_OUTWARD
IN2-
8 7 6 5
4B2<
DVDVR 10V 4.7UF
VCC OUT2
22KOHM MC207
PUHRF
10V
MC172 330UF 16V
DGND
MCN8 10022HS-23C02
GND
MD3
23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
IN1+
SN358
113 0_BEFOR E : 5V
VCC_5V RF DVD_LD P D_GND DVD_VR GND VREF P DIC F E A D C B F+ T+ TFSW LD_GND CD_LD CD_MPD CD_VR
IN1-
MR292
MC183 1NF
CDLDO
OUT1
MR296
5C3>
MC189 1NF
B_RF5V_1
MIC17
1 2 3 4
MR295 1MOHM
CDLD 4A4>
10V
2.2KOHM
MC186 10UF
MR272 10OHM C182 10UF
MR270 10OHM B_RF5V_2
DGND
MQ39 KST2907A
B_PUHRF B_DVDLDO B_DVDVR B_MVREF
1NF 50V
MR275 220OHM
C
MC257
RF5.0V_PW
E
100NF 10V 100NF 10V 10NF 16V
RF5. 0V_PW
100NF MC206
B
MC259 MC255 MC256
MR276 10KOHM
POWER
MIC9 REV
GND
Vcc1
VCTL
VOTR-
OPI N
VOTR+
Vcc2
VOSL+
VOLD-
VOSL-
VOLD+
VOFC-
VOTK-
VOFC+
VOTK+
MR313 S PINDLE 1KOHM
DCMOTRACKTRACK+ MR315 2.2OHM
MGND2 AM5766 MR316 2.2OHM
MR352
MC269
47KOHM 1/16W
CLOS E_SW
16V 100NF
2A6>
/RAS
/CAS
/WE
LDQM
VDD
DQ7
VSSQ
DQ6
DQ5
VDDQ
DQ4
DQ3
VSSQ
DQ2
DQ1
DQ0
VDD
TRACK
OPOUT
4C1> MR323 1.2KOHM
MR320 10KOHM MR319 3.3KOHM 5C3<
4D3>
100NF
100NF
100NF
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 MC208
MR312 39KOHM
5B7> DGND
DGND 5D3<
5C3< 5B7> DCMO+
220UF 16V
5D3<
DQM 4F4> DWE# 4F4> CAS# 4F4> RAS0# 4F4> CS0# 4E3> RAS1# 4E3> RAS2# 4E3> MA10 MA0 4D3> MA1 4D3> MA2 4D3> MA3 4D3>
VINLD
MC205
OPOUT
DB7
TRB_ 2
4F4>
FWD
4C1>
MC202
REGO1
ADD CAPACITOR FOR ESD_1126
MC271 MR321 1KOHM
DB5 DB6
VINSL+
VINTK
4F4> 4F4>
REGO2
28 27 26 25 24 23 22 21 20 19 18 17 16 15
DB3 DB4
16V
SLEDSLED+ FOCUSFOCUS+
BIAS
4F4> 4F4>
DGND
MC268
MC267
DCLOAD_N DCLOAD_P MD43
16V
5D3< 5D3<
75 1N4148WS
220 UF
100NF
1211 _CHANGED TO 105. TRANSIENT
MUTE
TRB_ 1
DB1 DB2
CLOSE TO IC
VINFC
4F5> 4F5>
DGND
RF5.0V_PW
1 2 3 4 5 6 7 8 9 10 11 12 13 14
4A5> DRV
DB0
1/16 W 100KOHM
RF5. 0V_PW
MR311 1KOHM
4F5>
MR354
MIC10
MC200
OP EN
MD40
MR310 3.3KOHM
MR353
1/16 W
4A4> DA
10V
MP3.3V_PW
75
100NF
MR329 27KOHM
OP EN 100KOHM
1N4148WS 4A5< CLOS E 4A5> OPE N
MR314 33OHM
MC210
MR303
MR317 22KOHM
6.8KOHM SLEGN
MR318 1MOHM
FOCUS
4C1>
MGND1
4C1>
M12L128168A-6TG2N
MR302
VDDQ
22KOHM
100NF
T_DCLOAD_N T_DCLOAD_P T_SLED+ T_SLEDT_DCMOT_DCMO+
B_OUTSW B_INSW B_DGND B_DCLOAD_N B_DCLOAD_P B_SLED+ B_SLEDB_DCMOB_DCMO+
DIRECTION OUTWARD
DGND
DGND
6-11
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
SHORT(GND) SHORT-GND
ADD JUMP ER FOR ES D_1126
TP51 TP105 B_AUX2_R B_AUX2_L
POWER
B_AUX_GND
6.11. MAIN-6 J2
AUDIO
CN14 DGND
1 3 2 4
XR308
220OHM 4C8< 4C8<
AUX2_R AUX2_L XR327
XR309
47KOHM
DGND
XVT12
XVT13
LOPIVA16G05
47KOHM
220PF AGND
AGND
B_MIC_SIG B_AUX_MIC_SEN B_AUX_MIC_GND
12. 5V_PW
B_AUX_L B_AUX_R
MCN13
0.01OHM
1/10W 1/10W 0OHM 0OHM
DGND
EMULATOR OPTION
MICOM LOG DEBUG
ESS_LOG_ OPT ION
TCN2
BD7
DGND
1 2 3 4 5 6
XAUC5R XR328
XAUC5L
TP65 B_12.5V_7 TP74 TP66 TP67 TP68 TP73
OPEN 10022HS-05C
MCN18
OPEN 0OHM OPEN 0OHM 1/10W OP EN 1/10W OPEN
R3 R2 R4 R5
SPI_CS SP I_CLK SPI_DI SP I_DO
UCN19
10KOHM
DON`T S MAP BANK2/3
10KOHM MR278
10KOHM 1/16W
SMAP BANK2/3
1
MP3.3V_PW
5 4 3 2 1
DGND
0
MR63 1/16W
B_LOG_GND
UART1_D3.3V MR15
OPEN
B_LOG_TXD1
B_LOG_RXD1
B_FA_GND2
B_LOG_D3.3V
B_DEBUG_TXD
MP3. 3V_PW
STRAP OP TION
20010WS-06A00
OPTION
5 4 3 2 1
10022HS-05C
DEBUG_FANET_TXD
MP3. 3V_PW
LOPIVA16G05 UVT17 OPTION LOPIVA16G05 12
2C5> 2A4<
12 UVT16
DEBUG_FANET_RXD
220P F S PI_CS3
LOPIVA16G05
B_DEBUG_RXD
220OHM
2A4> 2C5<
JB020024AZ
AGND
4.7KOHM 1/16W
DGND
4C8<
AUX_L
100 OHM 1/16 W 100 OHM 1/16 W
12PF 12PF 100NF 10PF 10PF
I2C_SC L I2C_DAT
MGND2
LOPIVA16G05
XVT16
OPEN
4F6> 4A8> 4A8> 4F6>
XVT15 LOPIVA16G05
4A6< 4A6>
OPEN
4E7>
BT_RX BT_TX
XVT14 LOPIVA16G05
BT_RS T
33OH M 1/16 W 33OH M 1/16 W
AUX_MIC_SENSE MIC_VCC MIC_SIG MIC_GND AUX_R AUX_GND AUX_L
DGND
DIRECTION OUTWARD
50V 50V 16V
DGND
BTC4 BTC5 BTC6 BTC7
MGND2 125 07H S -H10M
AUX_R
OPEN
33OH M 1/16 W
BTR2 BTR3 BTR4 BTR5
4C8<
BVT6 BVT7 BVT8 BVT9 BVT10
BTR7
4.7KOHM
DGND BTR1
50V BTC3 50V
1 2 3 4 5 6 7 8 9 10
TP TP TP TP TP TP TP TP TP TP
MIC_S IG
DGND
MGND1 TP_BT_RST TP _3.3V_P W TP_BT_RXD TP_BT_TXD TP_GND_2 TP_S CL TP_S DA TP _GND_3 TP _PIN1 TP _PIN2
4B8<
CB2012UA300T
BTR6 1/16W
10UF 6.3V
BTCN1
TOP TP BT_RST 3.3V_P W BT_RXD BT_TXD GND2 SCL SDA GND3 PIN1 PIN2
16V 100NF
BTC1 BTC2
BTBD1
1 2 3 4 5 6 7
AUX_MIC_SEN
2C4<
MP3. 3V_PW
UNDEFINED
BLUETOOTH CONNECTOR : CSR 8810 0.01 OHM
20022WS-07A00
MGND1
DGND
EQ LIGHTING
1/1 0W 18KO HM AR2033
10V 10UF 7D8>
PWM_1 -
1/10 W 8.2KO HM
AC2011
AR2028
1/10W 4.7KOHM
AR2029
AR2034
M5V_PW
50V 470PF
AC2018
6F7<
LINE_L
GC356
OUT1
IN1-
IN1+
VEE
4 3 2 1
AC2017
CS1608X7R104K160NRB
DGND
DGND
DGND
AR2042
100KOHM 1/16W GC357
10OHM GR437
16V
AC2019
VCC
IN2-
IN2+
OUT2
AIC2002
50V 470PF
1/10W 18KOHM AR2032
AC2013
50V 1NF
47KOHM
AR2025
5 6 7 8
CS1608X7R104K160NRB
100NF
AR2035
10KOHM
DGND
BA3835F
1/16W 10KOHM
GC354
AR2043
DGND 6E6>
10OHM
LINE_L
GR435
GIC21
16V 100NF
GR438
AC2020 16V
AR2030
50V 100PF
50V 1NF
AR2027
16V 100NF
VAA+5V
BA4560F
AC2012
1/1 0W 4.7 KOHM
100NF
PWM_1 +
GC355
AC2015
7D8>
1/10 W 8.2KO HM
AC2014
10V 10UF
47KOHM
AR2026
10KOHM
GC358
16V 100NF
100NF 16V 16V 100NF
1 2 3 4 5 6 7 8 9
DGND
BIASC GND VREFC AOUT RREF TEST N.C. N.C DIFOUT SEL N.C. N.C. CIN C AIN B VCC A
18 17 16 15 14 13 12 11 10
EQ_IN GR439 OP EN
0OHM 1/10W
EQ_C 2C8> EQ_B 2C8> EQ_A 2C8>
1/16W 56KOHM
VSS -5V
DGND
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-12
6. Schematic Diagram
6.12. MAIN-7 AC1113
AR1048 TP70 AP3.3V_P W
100NF
100NF
AC1110 10UF
AC1111
P WM_SP3_P
SDA
P WM_SP3_N
9E3<
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
100NF DGND
AC5 AC28
1UF 10V
1210_TO IMP ROVE SN
AR1066 AR1067 AR1068 AR1069
220OHM 220OHM 220OHM 220OHM
PWM_6+ PWM_6PWM_5+ PWM_5-
AR1070 AR1071 AR1072 AR1073
220OHM 220OHM 220OHM 220OHM
PWM_4+ 10D1<
9D1< 9D1< 9C1< 9C1<
PWM_4PWM_3+ 10E1< PWM_31210_TO IMP ROVE S N
IO_VDD
L_S W L_HIGH R_SW
10D1<
R_HIGH
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
10KOHM
100NF
100NF
TP1007 TP 71
1UF
100NF
AR19
2.2KOHM
2.2KOHM
AR18
10KOHM
AR17
AR16
PWM_8+
7A3<
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 P WM_SP4_N
SCL
AC1106
AC1103
100NF
AC1101
AC1099
100NF AC1096
100NF
100NF
AC1095
AC1093
100NF AC1088
P WM_SP4_P
RESETB
EXT_MUTE
100NF
100NF
IO_VDD
10/08
AC1085
AC1084
10UF
100NF AC1079
AC1074
IO_VDD
DGND
PWM_SP2_P
AC1067
P WM_SP5_N
MCLK
PWM_SP2_N
10V 10UF
CVDD
PWM_SP1_P
10V 10UF
P WM_SP5_P
CVDD
AC8
TMODE1
IO_VDD
PWM_SP7_N
VSS33_C ORE
IO_VDD
OFF
P WM_SP6_N
PWM_SP1_N
ON
PWM_SP7_P
ON
PWM_SP8_N
63V
DGND
VDD33_CORE
IO_VDD
ON
IO_VDD P WM_SP6_P
VSS33_CORE
ON
CVDD
MGND1
PWM_HPL_P
ON
SDI4
VDD33_CORE
66V
SDI3
PWM_HPL_N
VPS C
VSS33_C ORE
UB2130
SDI2
PWM_HPR_P
VPS B
VDD33_CORE
APWMIC1
SDI1
IO_VDD
VPS A
BCK
TMODE2
DGND
PVDD VOLTAGE
PWRSTG_ENA
PWM_HPR_N
ABD1004
UB2130_MUTE CB2012UA300T
1/16W 1KOHM
DGND
PWRSTG_ERR
LRCK
I2C_ADDR1
4E8> 2B4> AP3. 3V_PW
2 +-200P PM/C 4 33OHM 6 8
PWM_SP8_P
2D8<>
1 3 5 7
IO_VDD
4A8>
UB2130_RST UB2130_SCL UB2130_S DA
IO_VDD
2C8> 4F6>
10UF
OS C_IN
TOP _TP TP80 UB2130_MCLK
OS C_OUT
DGND
AR1033
DGND
TP 1004 TP1005 TP1006
CVDD
AC6
IO_VDD
VSS33_CORE
CHANGE TO 2.2KOHM TO REDUCE NOISE
TP32 TP 30
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
VDD33_CORE
TOP TP TOP TP
2 4 6 8
PLL_AVDD
AR1032
1 3 5 7
VSS33_P LL
33OHM +-200PP M/C ESS_ TWS ESS_ TBCK ESS_ TSD 0 ESS_ TSD 1
27P F
AR1062
VDD33_PLL
DGND
7A4> 4C7> 7A4> 4C7> 7A4> 4C7> 7A4> 4C7>
AC1114
DGND
100NF
100NF
AC1108
16V AC1104
100NF
AC1100
100NF AC1102
AC1097
10UF
AP3. 3V_PW
10UF
AC1094
4.7OHM
27P F 12.288MHZ
16V
DGND
AR1024
AC1109
CB2012UA300T ABD1006
AP3.3V_PW
1210 _TO IMPRO VE SN (MP3.3V_PW) 0717_ CHANGE TO AP3.3V_PW TO REDUCE NOISE
AC1107 10UF
AC1098
22OHM
10UF
AC1027
470UF
16V
TOP TP
CB2012UA300T ABD1005 AR1035
120 6_T O IMP ROVE SN
4C7> 7B5< 4C7> 7B5< 4C7> 7B5< 4C7> 7C5<
ESS_TWS ESS_TBC K ESS_TSD 0 ESS_TSD 1
TP28 TP37 TP38 TP39
120OHM
AX1001
PWM_8 +
AUDIO
100NF
7B8>
DGND
AC11
DGND
AR1076 AR1077
AC7
9E3<
AR1047 1MOHM
POWER
220OHM 220OHM
PWM_2+ PWM_2-
PWM_1+ PWM_1-
EQ OUT
1210_TO IMP ROVE SN
DGND +PVDD+66V
100NF
16V AC2010
470UF
10KOHM
10KOHM 91KOHM
MAX5033DUS A
AR2021
AC2009
ON/OFF#
AR2022
GND
47NF
VIN
SGN D
GVDD-51V
680UH CMI-S PC7L32F-681M
AR2023
VSS-5V
LX
VD
FB
UNDEFINED AL2001
MBRS1100T3
1203_EMI
100NF
AC2004
100NF
AC1056
100NF
AC1048
100NF
0OHM OP EN
BST
SGND 1211_C HANGED TO 105. TRANS IENT
8 7 6 5
-PVDD-66V
-PVDD-66V
SGND
400V S1G
100NF
AC1055
100NF
AC1047
100NF
AC1043
80V
SGND AR1045
AC1044
4.7MF
AC1038
100NF 100NF
AC1032 AC1033
100NF
AC1025 AC1026
100NF
100NF 100NF
100NF
AC1019 AC1020
100NF
80V
AC1015 AC1016
4.7MF
AC1012
100NF 100NF
AC1009 AC1010
22KOHM
AR1005 AR1006
1 2 3 4
AC2008
100NF
AD2007
AC2005
AMP_GND
10UF 100V
DGND
GVDD
AC2007
AR1054
SGND
10NF 100V
100NF
AC1054
100NF
AMP_GND
0OHM 1/16W 0OHM 1/16W 0OHM 1/16W
AC2006
100NF
AC1053
100NF
AC1045 AC1046
100NF
4.7MF
100NF
AC1041
80V
AR1053
AC1042
100NF
AC1037
100NF
AC1030 AC1031
100NF
AC1023 AC1024
100NF
AC1017
100NF
100NF 100NF
AC1018
100NF
AC1013
80V 4.7MF
AC1014
100NF
AC1011
100NF
AC1007 AC1008
22KOHM
AR1003 AR1004
22KOHM
1203_EMI 0OHM AR1052
AMP_GND
6-13
OP EN
AD1001
GRM188R72A103KA01D GRM188R71H224K GRM188R71H224K
AR1050
AIC2001
22KOHM
AC1003 AC1004
220NF 1.5OHM 1.5OHM 220NF 220NF
AR1001 AR1002 AC1005 AC1006
ACN1002
10NF 100V
B_+P VDD1 B_+P VDD2 B_+P VDD3 B_+P VDD4 B_SGND1 B_SGND2 B_SGND3 B_SGND4 B_SGND5 B_SGND6 B_SGND7 B_SGND8 B_-PVDD4 B_-PVDD3 B_-PVDD2 B_-PVDD1
AC1002
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
AC1001
SMW20 0-16C
10NF 100V
GRM188R72A103KA01D
220NF
GRM188R71H224K GRM188R71H224K
-PVDD-66V
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.13. MAIN-8
FAN CONTROL
10D5>
10G5>
9C5<
50V 1NF
2B4<
AC2001
GGND
2B4>
10UF 10V
50V NC1 9
B
NC2 3 ND5 1N4148WS
MMBT2222A 10UF
1126_CHANGED FROM PULL DN
10KOHM 0620_CHANGE TO MP 3.3V
47KOHM NR6 7
SPK_ FL
2.2UF
10KOHM NR5 1
E
MP3.3V_PW
100NF
NC14
NC13 10UF 10V NC15
NC17 10UF 10V NC16
NR64
3.3KOHM NR55
ND2
FAN_ON
1N4148WS
C
NQ8
10UF 10V
C
E B
2.2UF 50V NC30
E
C
B
47KOHM 4.7KOHM
FAN_CHECK
AMP SIDE
NQ9 S RC1203S
E
GGND
9F5<
C B
NR66
AMP_SD
10KOHM
NR65
NCN1
NR5 0
25V
25V
MGND2
SMW2 00-H03G
GGND
NR6 8
2.2UF 50V
SPK_ FR 47KOHM
NC12
25V
AMP_GND
100KOHM
NR52
E
12. 5V_PW
50V
10UF
10UF
NR49
1/10 W 220 OHM
15OHM 1/4W 1229_RIPP LE
NC11
AR2001
B
2SA1979S-Y NQ7
NR4 1
NR74
C
AR2003
AQ2001
1 2 3
1/10W 100KOHM
C
SRC1203S
100OHM 1/4W NR4 0
NC10
E
AQ2002
IR_S D
B
2A7>
TP107
1/10W 47KOHM 2SA19 80S- Y
NQ10 2SA1979S-Y
1229_FAN NOISE NG
MGND1
AR2002
MICOM S IDE
2C8<
B_GGND TP27 TP106 B_FAN
VAA+5V
B_FANCHECK
POWER
47KOHM
47KOHM
GGND
PRO TECTION DC-PROTECTION VAA+5V
SGND
GVDD-51V
B
AQ3
B
1/10W 100KOHM
C
1/10W 12KOHM
1/10W 10KOHM AR30
AC18
2SA19 80S- Y
10KOHM
E
9.1
AD2003
36
AD2006
AD2005
36
AD2004
AR39
AR2018
C
10KO HM
B E
VSS-5V
8D3>
9C5>
9G5>
10D5>
10G5>
C
B
AQ2005
MMBT2222 A
27KOHM 1N4148WS
9C5> 9G5> 10G5>
AR2016
1/10W 22KOHM 1/10W 22KOHM
AD2002 8D5> 10D5>
EXT_S D
E
AQ2006
KST4 2
AQ2007
KST4 2
-PVDD-66V
AR27
16V 220 UF
S GND
AR31
D
E
AR33
1/10 W 100 KOHM
AR2010
AR25
AC2003
1/16W 47KOHM
AR42
47NF
E
EXT_SD
AR2020
C
5.1
OPEN AR35
1/10 W 10KO HM
VSS-5V
47KOHM
AQ2
1/10 W 0OH M
AR2019
KTC387 5S- Y
10KO HM
47KOHM
C B
AR32
AR29
1/16W 47KOHM
AOP2001
0109_OP TION REMOVED
AR2015
2SA19 80S- Y
AR2014
AR26
1/10W 22KOHM
C
OPEN
AR28
AQ4
B
10KOHM
VAA+5V
E
10KOHM 19-217/R6C-AL1M2VY/3T
1/10W 10KOHM
AR2017
OVER/UND ER VOLTAGE P ROTECTION
VSS-5V
AR34
1/10 W 12KOH M
SGND VAA+5V
8F3>
8F2>
S D_THERM 16V
3.3KOHM
AR2007
47NF
AP2001
AC2002
AQ1
22KOHM 1/10W
1/10 W 0OH M
2SA19 80S- Y 1/10 W 0OHM 8F2>
SD_THERM AR45
S D_THERM
AR43 AR44
1/10 W 6.8KO HM
SGND
8E2<
KST92
AR54
C
AR2004
E
E
VSS-5V
AD4
AC20
AQ6
B
1/10 W 22O HM
47U F
AMP _RESET THERMAL PROTECTION
C
IR_RST
AR53
B
PRF21BB471QB5RA
VAA+5V
75 1N4148WS
8F3>
8E2<
1/10 W 0OH M
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-14
6. Schematic Diagram
6.14. MAIN-9 CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
AR3043
6.8KOHM
AC3004
AR3002
VSS-5V
10C10>
AC3108
10NF 100V
AC3109
SPK_ FL
10NF 100V
1.2KOHM 1/4W
AR3144 AR3145
1.2KOHM 1/4W
AC3104
100NF 250V 10OHM 1W
470NF 250V
AR3139
400V S1G
10F10>
8D1<
47KOHM
AR3143
400V S1G
AD3017 AD3018
OPEN 10NF 100V
AC3203
AR3131
39KOHM
AC3100
OPEN
AC3204
10NF 100V
100NF 250V
AC3092
220NF 50V
AC3077
220NF
AC3076
50V
AR3132
3
27OHM IRF6775MTRPBF
39KOHM
AR3120
D 9F10>
UNDEFINED
DBF-2022A
1OHM 1/4W
7 6 5 4
1 2
AC3078
AQ3002
AL1
1130_EMI OPTION
220NF AR3127 50V
3
27OHM IRF6775MTRP BF
AC3079
7 6 5 4
220NF
10UF 25V
AC3072
AR3079
AR3095
10KOHM
4.7KOHM
AR3119
10OHM 1/4W
AR3107
DT
ES1 D-13-F
25V
COM
OCSET
AR3112
1 2
10OHM
AC3068
VREF
AD3013
AQ3001
GVDD-51V
AR3099
8.2KOHM
LO
IRS2092STRP BF
220O HM
AD3002
1N4148WS
VSS
27KOHM
10KOHM AOT-0603P-B01AZ
1N4148WS
VCC
27KOHM
AOP3001
EXT_SD
CSD
AR3111
10UF
8D3>
8D5>
VS
AR3072
9G5>
HO
COMP
AR3103
9E10<
8B8<
S GND
50V
10OHM AR3035
10D5>
IN-
16 15 14 13 12 11 10 9
3.9KOHM
AMP_SD
AMP _GND 10G5>
AR3067
AD3001
10D5>
25V
10G5>
AC3064
8B3<
VB
10UF
10UF 10V
9F5<
CSH
GND
BAV20WS -V
AD3009
3.3KOHM
AMP_GND
VAA
AR3080
3.9KOHM 1NF AR3071
6.8KOHM
1NF
AC3060
AR3055
0107_CHANG ED PWM FREQ. FROM 330OHM
10UF 10V
100NF AC3212
1NF
AR3041
AC3028
AM_FL
1.8KO HM
1206_ENFO RCED SN
100NF AC3211
VCC
OUT2
AC3021 AC3022
OUT1
IN1+
IN1-
10U F
AC3034
1/10W 12KO HM
470OHM
390PF
IN2-
5 6 7 8
AC3013
4 3 2 1
9D4>
AC3056
AC3052
1 2 3 4 5 6 7 8
AR3081
AC3044
100NF
AC3045
AIC3004 AR3051
LPF_FL
50V 100PF
10OHM
390PF
AC3014
12KOHM
680OHM
L_HIGH+
VAA+5V
CS1608X7R104K160NRB AR3033
CS1608X7R104K160NRB
AR3018
AC3003
2.2NF
AMP_GND
1208_FROM 2%,PART CERTI
7C8> PWM_6-
9C3>
IN2+
AIC3001
BA4560F
680OHM
AR3028
2.2KOHM
1208_FROM 2%,PART CERTI
L_SW
3.3NF AC3010
6.8KOHM
47KO HM
1211_CHANGED TO 105. TRANSIENT
VSS-5V
AR3027
2.2KOHM
AR3011
+PVDD+66V
AR3060
4.7O HM
AR3010
2.2NF
7C8> PWM_6+
AR3001
AMP_GND AR3044
VEE
6.8KOHM
L_HIGH
390PF
680OHM
12KOHM
2.2NF
AC3001 AR3006
AC3002
7C8> PWM_5+
2.2NF
AMP_GND 1208_FROM 2%,PART CERTI
9C5<
LPF_FL
AR3059
100NF
2.2KOHM
1208_FROM 2%,PART CERTI
L_HIGH
AR3021
AR3009
6.8KOHM
AR3017
AR3005
3.3NF AC3009
7C8> PWM_5-
AC3032
10KOHM AC3017
150KO HM
10UF
AR3031
4.7O HM
10UF
1210_TO IMPRO VE SN
AC3033
AUDIO
AR3082
POWER
-PVDD-66V
VSS-5V
AR3023
AR3015 2.2KOHM
680OHMAC3018
390P F
L_S W
10KOHM
9C4<
1210_TO IMPRO VE SN
9F4<
B_SGND_3
9F5<
LPF_SWL
B_SPK_FL B_SPK_SWL
AR3024
ACN3001
14 13 12 11 10 9 8
100NF
AC3025
A4
Y4 GND
Y3
A5
Y6
Y5 A3
Y2
A6 Y1
A2
VCC A1
ST0290731P
MGND1
4 2 1 3
TP 1
CS1608X7R104K160NRB
SGND
CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
AR3047
9C5>
8D5>
8D3>
AD3006
EXT_SD
1N4148WS
8D1<
47KOHM
10F10>
AC3112
9E10<
10NF 100V
SPK_ L_S W+
10NF 100V
AR3151
AC3113
100NF
AR3150
1W 10OHM
250V AC3106
470NF
AC3102
400V S1G
AD3022
OPEN 10NF 100V
10C10>
250V
AR3149
400V S1G
AD3021
10NF 100V
OPEN
100NF 250V
AC3096
220NF 50V 220NF 50V
AC3084 AC3085
AC3074
10UF 25V
AC3200 25V
10UF
AR3097
3.9KOHM
10KOHM
AC3202 AC3201
3
27OHM IRF6775MTRPBF
7 6 5 4
AR3135
1 2 AR3124
AR3141
IRS 2092S TRPBF
UNDEFINED DBF-2022A
39KOHM
DT
AR3136
COM
OCSET
1OHM 1/4W
VREF
AQ3006
10OHM
D 9B10>
AL2
1130_EMI OPTION
0109_DI SCO NTINUOUS SOUND
AR3101
AC3086
LO
3
27OHM IRF6775MTRP BF
AR3109
VCC
VSS
10OHM 1/4W
AR3123
1.2KOHM 1.2KOHM 1/4W 1/4W
220O HM
CSD
1130_SAMEX NG
25V
1NF
AR3075
AR3069
VS
AD3015
7 6 5 4
1 2
39KOHM
1N4148WS
HO
COMP
GVDD-51V
AR3116
220NF 220NF 50V AR3129 50V
AD3005
AMP_SD
IN-
16 15 14 13 12 11 10 9
AQ3005
27KOHM
AC3087
10D5>
VB
27KOHM ES1 D-13-F
10KOHM AOT-0603P-B01AZ
10D5>
10G5>
CSH
GND
AR3115
AR3105
AOP3003
10G5>
8B3<
VAA
BAV20WS -V
10UF
9C5<
AMP_GND
6.8KOHM
AR3042 0107_CHANG ED PWM FREQ. FROM 240OHM
25V
AC3029
AR3076
1217_CHANGED PWM FREQ
AM_WL
1NF
3.9KOHM
1NF
AC3062
1.8KO HM
AC3066
9D4>
1/10W 12KO HM
10UF
10U F 50V 100PF
1 2 3 4 5 6 7 8
AD3011
AC3070
LPF_SWL
L_SW
AC3058
AC3054
AR3057
9D3>
AR3053
8.2KOHM
AC3040
3.3KOHM
1211_CHANGED TO 105. TRANSIENT
4.7KOHM
AR3087
4.7O HM
390OHM
VSS-5V
AR3088
AC3048
100NF
AIC3006
AR3089
AR3048
AC3049
AC3039
AMP_GND
+PVDD+66V
47KO HM
AR3064
100NF
AC3038
AR3063 150KO HM
10UF
10D4<
10E4<
4.7O HM
AR3090
AMP _GND
10UF
AM_WR
AM_FR
MM74HCU04MTCX
9C10> 8B8<
1 2 3 4 5 6 7
AIC3003
PWM_8+
UNDEFINED
AM_FL
SPK_ L_SW+ SPK_ FL
-
9F10>
VAA+5V
+
7B8>
-
7A3<
+
AM_WL
LEFT HOLE FROM OUTSIDE
SGND -PVDD-66V
VSS-5V
6-15
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.14.1. Test Point Wave Form TP1
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-16
6. Schematic Diagram
6.15. MAIN-10 CHANGE FROM 120KOHM TO 150KOHM_0617
FEED BACK R HAVE TO BE PLACED NEAR P WM IC
VAA+5V
+PVDD+66V
47KOHM
AD4011
AC4015 390PF
AR4149
47KOHM
AR4150
1.2KOHM 1/4W
AC4111
1.2KOHM 1/4W
AC4112
AD4021
400V S1G
OPEN AC3206
100NF 250V
10NF 100V 10NF 100V
AR4151
100NF 250V
AC4105 AR4141
10OHM 1W
AC4101
470NF 250V
AD4022
400V S1G
OPEN 10NF 100V
39KOHM 39KOHM
AC3205
AR4135
1OHM 1/4W
AR4136
SGND -PVDD-66V
VSS-5V
ACN4001
10UF 10V
10OHM
AMP_GND AR4036
8B8<
10F10> 10D10>
4 2 1 3
SPK_ FR SPK_ R_S W+
VSS-5V
UNDEFINED
MGND1
RIGHT HOLE FROM OUTSIDE
10UF 10V
AC4023
VCC
100NF AC3214 100NF AC3213
AC4024
OUT1
IN1-
OUT2
5 6 7 8 IN2+
IN2-
IN1+
VEE
BA4560F
10E11<
SPK_ R_SW+
1206 _ENFORCED SN
AC4016 390PF
12KOHM
680OHM
10NF 100V
50V AC4095
AC4083
220NF
220NF 50V
AC4084 AC4085 AC4086
AR4109
10KOHM AOT-0603P-B01AZ
AOP4003
3
27OHM IRF6775MTRPBF
220NF 220NF 50V AR4129 50V
25V AC4073
10UF 25V
AC3210
10UF
AR4097
3.9KOHM
10KOHM 25V
AC4069
1NF AR4075
IRS 2092S TRPBF
7 6 5 4
1 2 AR4124
DBF-2022A
1127_CROSS ED P HAS E
AR4020
2.2NF
DT
10OHM
2.2KOHM
SGND 1203 _CHANGED PWM FREQ
CHANGE FROM 120KOHM TO 150KOHM_0617
AC4026
FEED BACK R HAVE TO BE P LACED NEAR PWM IC
VAA+5V
AR4066
47KO HM
+PVDD+66V
AD4008
1N4148WS
10C10>
8D1<
47KOHM
AR4152
400V S1G
AD4023
OPEN AC3208
100NF 250V
AC4097
220NF 50V
AC4087 AC4088
10UF 25V
10KOHM
10NF 100V
AC4113
10NF 100V 10NF 100V
1.2KOHM 1/4W
SPK_ FR
AC4114
1.2KOHM 1/4W
100NF 250V
AR4153 AR4154
10OHM 1W
AC4106
470NF 250V
AC4102
400V S1G
AD4024
3
27OHM IRF6775MTRPBF
7 6 5 4
AR4142
IRS2092STRP BF
1 2 AR4126
OPEN 10NF 100V
DT
AC3207
COM
OCSET
AR4137
VREF
DBF-2022A
39KOHM
LO
AR4130
VSS
AQ4008
10OHM
9F10>
AL4
UNDEFINED AR4102
AR4110
AR4077
220 OHM
VCC
D 9B10>
1130_EMI OPTION
AR4138
1N4148WS
CSD
3
27OHM IRF6775MTRPBF
39KOHM
EXT_S D
VS
AR4125
1OHM 1/4W
8D3>
HO
COMP
10OHM 1/4W
C4089
8D5>
IN-
16 15 14 13 12 11 10 9
7 6 5 4
220NF 50V
9C5>
VB
AR4118
1 2
AC4090
9G5>
AR4070
CSH
GND
AD4016
AQ4007
GVDD-51V
220NF 50V
AMP_SD
VAA
27KOHM
10KOHM AOT-0603P-B01AZ
10D5>
1 2 3 4 5 6 7 8
27KOHM
AOP4004
8B3<
AR4078
9C5<
3.9KOHM
10D5>
AD4007
9F5<
AMP_GND
AC4066
AR4058
0107 _CHANGED PWM FREQ . FROM 300OHM
6.8KOHM
1NF
1NF
1NF
1.8KO HM
AC4062
10U F
AC4058
430OHM
LPF _FR
AC4054
25V 10UF
10E3>
AR4054
AR4117
ES1D- 13- F
AC4074
1211_ CHANGED TO 105. TRANS IENT
AC4042
AR4106
25V
AIC4006
4.7O HM VSS-5V
0313_STR ESS NG(1608->2012)
BAV20WS-V
220NF 50V
AD4012
AC4070
100NF
AC4049 AC4050
150 KOHM
10UF
AR4050
AR4065
100NF
AC4041
AMP_GND
10UF
4.7O HM
10UF
1210_ TO IMPROVE SN
AC4040
10KOHM
3.9KOHM
AR4049
AR4098
AR4038
4.7KOHM
AM_FR
10F5<
8.2KOHM
9E4>
LPF _FR
3.3KOHM
AC4020 390P F
AR4026
AR4091
680OHM
1/10 W 12KO HM
AR4092
2.2KOHM
50V 100 PF
AR4025
AR4093
AR4016
PWM_3 6.8KOHM
1N4148WS
VAA+5V
4 3 2 1
AR4030
220 OHM
AD4006
EXT_S D
COM
OCSET
AR4094
AR4004
3.3NF AC4012
AIC4002 AMP_GND 1208_ FROM 2%,P ART CERTI
AC4008
6.8KOHM
AC4007
PWM_3 + 1208 _FROM 2%,PART CERTI
7C8>
AR4014
2.2NF
7C8>
AR4003
8D3>
1N4148WS
VREF
UNDEFINED
AQ4006
10OHM
8D1<
AL3
AR4034
680OHM
AR4013 2.2KOHM
8D5>
AMP_SD
LO
AR4101
10F10>
ST0290732P
12KOHM AR4029
9C5>
AR4069
AD4005
10G5>
AC4065
3.3NF AR4019
AC4011
2.2NF
AC4005 6.8KOHM
AC4006
PWM_4 +
9G5>
8B3<
VCC
VSS
1130_EMI OPTION
0109_D ISCONTINUOUS SOUND
1130_SAMEX NG
9F10>
B_SGND_4
7C8>
AR4008
10G5>
9C5<
CSD
3
27OHM IRF6775MTRPBF
D 9B10>
B_SPK_FR B_SPK_SWR
AMP_GND 1208 _FROM 2%,PART CERTI
2.2NF
9F5<
VS
10UF
680OHM
2.2KOHM
1208_ FROM 2%,P ART CERTI
HO
COMP
AR4123
10OHM 1/4W
10UF
6.8KOHM
0107 _CHANGED PWM FREQ. FROM 240OHM
390PF
IN-
16 15 14 13 12 11 10 9
7 6 5 4
1 2
AR4116
-
AR4012
VB
AQ4005
GVDD-51V
AD4015
+
PWM_4 -
AR4007
AMP_GND
CSH
GND
AR4115
27KOHM
-
7C8>
AR4042
6.8KOHM
AC4028
AR4076
9E4> AM_WR
AC4061
10D5<
1NF
25V
LPF _SWR
1NF
AR4057
10KOHM AC4019
AR4022
1.8KO HM
1/10 W 12KO HM
50V 100 P F
VAA
AR4105
27KOHM ES1 D-13-F
+
AR4032
10U F
AC4057
360OHM
1210 _TO IMPRO VE SN
LPF _SWR
AC4053
3.9KOHM
AR4053
AC4039 10D3>
1 2 3 4 5 6 7 8
1211_ CHANGED TO 105. TRANS IENT
AR4090
4.7O HM VSS-5V
AR4089
AIC4005
AR4088
AR4087
BAV20WS -V
4.7KOHM
AR4064
8.2KOHM
10UF
100NF
AR4048
100NF
AC4037 AC4038
AMP _GND
AC4047
4.7O HM
10UF
AUDIO
AR4063 150 KOHM
AC4048
AR4047
3.3KOHM
POWER
8B8<
10E11<
SGND -PVDD-66V
VSS-5V
6-17
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.16. SMPS–1 (PFC BLOCK) DP 818 1N5408-G6 1 2
DP 803 1N5408-G6 1 2
832 680pF 1KV 1 2 TP A801
RP 803 4.7J 2W
824 220pF 1KV 1
7T
2 1
2 DP 805 BAV70
RP 826 10KF 1608
QP 802 FCA22N60N
825 0.22nF 1000V
100
RP 808 2MF 3216
RP 842 2.2MF 3216
HS 8 0 2
2
RP 820 20F 2012
RP 824 51F 3216
RP 825 51F 3216
1
2 1
1
1
RP 840 2MF 3216
RP 839 20KF 1608
RP 872 0.015m 2W
RP 838 20KF 1608
1E B 2 3C
QP 807 MMBT2907A 2
813 47pF 1608
1
1
2
RP 873 0.015m 2W
1
1
80
100
RP 865 1.5MF 3216
RP 844 2MF 3216
2
802 180uF 450V
801 180uF 450V
803 180uF 450V
QP 803 3 FCA22N60N
3
RP 848 2.7F 2012
RP 864 1.5MF 3216
RP 883 4.7J 2W
2
LP 802 2150ohm 1
2
3
1
RP 828 10KF 1608
2
DP 806 BAV70
1
QP 806 MMBT2222A
RP 871 0.015m 2W
2
1
1
3C QP 805 MMBT2907A
3
1
1
3
RP 849 2.7F 2012
200
RP 837 2MF 3216
2
RP 831 2.2MF 3216
1
1E B 2
160
2 1
RP 818 20F 2012
2
200
RP 863 1.5MF 3216 2
2
RP 882 4.7J 2W
LP 801 150ohm
RP 834 2.2MF 3216
2
8
2
300
1
7
1
2 1
280
1
9
1
P FC-OUT
2
6
RP 822 51F 3216
RP 823 51F 3216
3
RP 830 2.2MF 3216
400
RP 862 1.5MF 3216
1
10
HS 8 0 2
RP 833 2.2MF 3216
826 0.22nF 1000V VCC2-ON
RP 851 100KF 1608
814 47pF 1608
2
11
5
QP 804 MMBT2222A 2
1
4
VCC
7T
2
12
2
13
300
2
833 680pF 1KV
1
2 3
RP 817 4.7F 2012
RP 829 2.2MF 3216
RP 836 130KF 1608
1
2 1 2
14
AP 122-4P FC 150uF, EER4245
2
RP 804 4.7J 2W 1
1
5 4 .5 T
RP 806 2MF 3216
2
822 220pF 1KV
TP B801 RP 805 2MF 3216
1
1
AP 122-4P FC 150uF, EER4245
2
8
DP 802 S F1608P T TO-247AD
1
7
1 3
2
9
1
6
2
2
10
1
11
5
2
4
5 4 .5 T
1
VAC-A
2
HS 8 0 2
1
12
2
13
1
14
2 3
2
1
811 1nF 1608
RP 867 56KF 1608
RP 802 0.015m 2W
VAC-B AC_P
RP 810 0.015m 2W RP 807 0.015m 2W
GND_P
VINAC
CS
ZCDB
ZCDA
GDA
GDB
GND_P
HVS EN
RP 809 10KF 1608
VS ENS E
RP 814 220F 1608
I 801 UCC28063 ZC DB
ZC DA 1
16
2
15
3
14
4
13
VS E NS E
VR E F
TS E T
G DA
P HB
RP 884 22F 3216
P G ND
C O MP
VC C 5
12
6
11
7
10
AG ND
VCC
VCC
1
2
G DB
VINAC
CS
HVS E N
P WMC NTL
2
9
819 2.2uF 2012
810 220nF 1608
1
8
RP 816 10KF 1608
816 22uF 50V
RP 813 133KF 1608
807 1nF 1608
805 2.7nF 1608
806 2.2uF 2012
817 2.2uF 2012
818 N.C
820 2.2uF 2012 804 100nF 1608
RP 812 200KF 2012
808 10nF 1608
815 220nF 1608
809 100nF 1608 ZDP 8 0 1 Z0 2 W2 2 VY
RP 811 18KF 1608
GND_P GND_P
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-18
6. Schematic Diagram
6.17. SMPS–2 (PVDD(+, –) BLOCK) [HO T]
[C O LD] LS 801 3.8uH 1
2
+P VDD
P FC-OUT
HS 8 0 3
2
2 1 FS 801S T8AH 250V
1
2
2
3
1
2
DS 824 MBRF20200CT
LS 805 150ohm
13
4
14
10
11
12
13
14
15
16
8
10
12
14
3
1
2
1
1
1.+P VDD 3.+P VDD 5.GND 7.GND 9.GND 11.GND 13.-P VDD 15.-P VDD
2
2
3T 14
DA825 MBRF20200CTR
CA801 820uF 100V
CA802 820uF 100V
RS 847 10KF 3216
2
2.+P VDD 4.+P VDD 6.GND 8.GND 10.GND 12.GND 14.-P VDD 16.-P VDD
1
DS 800 UF4007
2
2
CS 804 0.22nF 1KV
16
2
RS 846 10KF 3216
1
1
LB801 3.8uH 1 2
1
QS 802
DS 805 BAT54C
CS 808 33nF 1250V
CS 809 33nF 1250V
2
FDA24N50F
CS 811 22uF 50V
QS 814 MMBT2222A
OUT_B
QS 817 MMBT2907A
GD2
4 2
CS 810 100nF 1608
RS 814 2.7KF 1608
3
DS 830 BAV70 RS 821 1.2KF 1608
CS 827 1uF 2012
DS 822 BAV70
RS 855 18KF 1608
RS 854 6.2KF 1608
CS 840 10nF 1608
CS 838 1uF 1608
DS 807 BAV70 3
CS 836 220nF 1608
CS 828 1uF 2012
2
3
P CS 802S LTV817BS TA-B
1
CS 835 220nF 1608
2
RS 830 10KF 1608
RS 843 15KF 2012
1
1 OC
CS 820 1uF 2012
RS 817 51KF 2012 CS 847 22uF 50V
RS 838 200KF 2012
GND
RT
CS 813 1uF 2012
2012
1
RS 864 10F 1608
VCC
CS 812 1uF 2012
2
QS 816 MMBT2907A
2
GD2
1
GD1
2 1 1
RS 842 18KF RS 837 200KF 2012 OUT-B
QS 815 MMBT2222A
2
4 S S GD2 5
RS 813 2.4KF 1608
OUT-A
OUT_A
3 OC GND 6
RS 860 470F 1608
RS 839 56KF 2012
RS 863 10F 1608
1
2 RT VCC 7
VCC-S
RS 836 200KF 2012
GD1
ICS 801 UCC25600D 1 DT GD1 8
GND_S
1
RS 835 300KF 2012
RS 867 4.7F 2012
2
2
50
VCC
RS 820 1.2MF 1608
CE809S 1nF 250V
RS 803 7.5KF 2012
2
110 RS 834 300KF 2012
1
RS 833 300KF 2012
1
RS 858 3KF 1608
9
6
S TW200-H16CBF
1
13
2
2
12T
1
11 12
12T
3
10
1
3
9
1
5
6
7
8 1
2
8
4
CS 823 1nF 1000V
RS 871 22F 3216
CS 805 QS 820 1uF MMBT2222A 1608
8
GND_S
DA824 MBRF20200CT
8 7 6
3
RS 809 10KF 1608
GND_P
CS 850 100nF 1608
7
4
11
P VDD-IS ENS E
AP 122-3LM 150uH, EER3540
GND_P
RS 870 330KF 1608
6
13
1
3
DS 804 BAT54C
1
CS 819 1nF 1000V
2
GB_OUT
RS 812 51F 3216
5
15
LS 806 150ohm
DS 821 BAV70
4
9
TS 802S
RS 801 20F 3216 RS 811 51F 3216
3T
HS 8 0 3
TS 803S P T-7
OUT_B
2
3 5
AP 122-3LM 150uH, EER3540
19T
RS 810 22F 3216
12T
14
7
RS 861 20F 3216
2 1
3
14
RS 808 10KF 1608
RS 807 51F 3216
1
2
2
1
OUT_A
OUT-B
12
5
OUT-A
11
1
FDA24N50F
RS 805 51F 3216
CN801 DS 825 MBRF20200CTR
7
QS 801
GA_OUT
10
3216
12T
3
DS 820 BAV70
9
2
RS 802 22F 3216
400
19T
CS 822 1nF 1000V
3
6
4
1
8
3
CS 818 1nF 1000V
2
RS 845 10KF
8 7
5
7
CS 801 820uF 100V
CS 802 820uF 100V
TS 801S
1
HS 8 0 1
1
1
2
RS 844 10KF 3216
1 1 2 3 ICS 802 KIA431AM S OT-23
2
RS 818 51KF 2012
A5.3V
RS 815 20KF 1608 VP S
CS 817 470nF 2012 RS 819 7.5KF 3216
GND_P
RS 822 510KF 3216
RS 823 8.2KF 1608
3
QS 818 2N7002BK 2 RS 824 150KF 1608
RS 825 10F 1608
RS 826 100KF 1608 CVCC_P WM
CS 821 N.C
GND_S
6-19
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6. Schematic Diagram
6.18. SMPS–3 (EMI & MULTI – BLOCK) [C O LD] QM851 MDD3752RH
2
P FC-OUT 2
3
1
2
3
DM852 MBRF10150CT
RM846 100KF 1608 RM841 1KF 1608
TB801S
2 2
1
FB801S T3.15AL 250V
DB809 1N4007 DO-41
1
1
CB801 2.2nF 800V
RB804 47KJ 2W
1
12
2
11
3
10
23T
4T
2
3 1
BD801S GBJ 1506
2
BD802S GBJ 1506
8 3 0 1000nF 500V
2
3
1
1
1
4
2
1
3
1
3
2
B
21
5
RM874 20KF 1608
CM868 1000nF 1608
CM867 820uF 25V CM846 1000nF 1608
QQ8 5 5 MMBT2 2 2 2 A
33
2
2 RM873 5.1KF 3216
DB802 UF4007-0021
CM866 100nF 1608
2
3
2 4
RM840 470J 2W
RM875 47KF 1608
UM852 KIA431AM S OT-23
2
2
7
Dra in
Vcc
6
S /O
FB
GND
DH5 8 0 0 8 0 S F A 8 mH
2
2
CM840 CM841 100nF 100nF 1608 1608
UM801S S QT6010K
4
2
RM872 10F 1608 RM880 100KF 1608
1
VAC-B
1
7
RM858 4.7KF 1608
RM842 8.2KF 1608
HS 8 0 1
2
2
2
6
CM858 470uF 25V NXB
AP P 122-3VM 520uH, EER3224
8 0 0 1000nF 500V
B/OUT
1
4T
CM859 470uF 25V NXB
2
LE8 0 4 S
1
8
1
3
7T
9
5
1
4
4
RM881 2KF 1608
CM872 220nF 1608
1
9T
DB801 1N4007G-03
3
4
B12V
QM8 5 4 MMBT2 9 0 7 A
1
VAC-A
4
1
2
2
3T
400
1
ZM853 Z02W15VY
CM860 CM861 CM862 1nF 1nF 1nF 1608 1608 1608
1
23T
HS 8 0 4 2
1
RM813 47F 2012
RM811 10J 2012
1E
2
RM812 47F 2012
1 LM802 25MHz 30ohm
CM870 1000nF 1608
3
DB808 1N4007 DO-41
3C
1
2
[HO T]
P VDD_ O N
RM877 1KF 1608
11
RM876 150KF 3216
400
RQ867 2KF 1608
1
CB803 47uF 50V
2
2 1
CN802
KTD1624 QQ810 1
2 1
DM851 MBRF2080CTR
2
2
CX820 1500uF 10V
2
1 LM801 25MHz 30ohm
1
3
CE807S 680pF 250V
CE806S 680pF 250V
1 3
1
DM854 UF4007-0021
HS 803
2
CB804 220nF 1608
B
2
UM805 S N7905D
2 1
RB807 0.4J 2W
RM843 100F 1608
RM844 220F 1608
2
CM842 CM843 1nF 1nF 1608 1608
1
1
2
1
GND_S
2
2 1
CB806 100nF 1608
1
1
Re la y_B
RM822 47F 2012
2
CM857 470uF 25V
2
1
QQ8 1 1 MMBT2 9 0 7 A
CM856 47uF 50V
1
2
1
DB804 BAT54C
2 NT8 0 2 S 5ohm 5 D- 1 5 MS OC
1
RM823 10J 2012
E1
C 3
2
CM855 47uF 50V
2
RM821 47F 2012
CB802 220nF 1608
1
NT8 0 1 S 5ohm 5 D- 1 5 MS OC
RQ868 1KF 1608
3
CB816 22uF 450V
Re la y_A
RM863 1F 3216
1
CE805S 470nF 275V
2
Re la y_C
RM810 22F 3216
2
2
2
G ND_ S
1
3
CX821 1500uF 10V
CB810 1000nF 1608
4 1
A5.3V
5 6 7
VP S
8 LE8 0 3 S 2
1
2
ZDB802 S MFZ18V
1
1
1
2 1
2
2
4
2
2 1
P HO_H
S A801 N.C 2
2
9 10 11
S A802 N.C 1
S -GND
1
3
1
RB801 20F 2012
GND_P
DH5 8 0 0 8 0 S F A 8 mH
4
CB807 1nF 1608
A5.3V_HEAD
1 P C801S LTV817BS TA-B
2
RQ869 3.3J 3216
1.A5.3V 3.A5.3V 5.GND 7.VP S 9.B12V 11.GND
RM871 1KF 1608
RM867 10KF 1608
2.A5.3V 4.GND 6.GND 8.B-5V 10.B12V 12.P S _ON
1
RX803S 330KF 3216
DB803 UF4007-0021
CM865 33pF 1608
RQ866 100KF 1608
2
RQ811 1KF 1608
CM853 N.C 1608
QQ803 KTD1624-C S OT-89
IDM852 KIA431AM GND_S
RM870 8.2KF 3216
P S _ON
2
2
QQ8 0 2 P BS S 5 3 5 0 X
B
1
2C
VCC_A
CM864 100nF 1608
3
1
VCC
CE8 0 1 S 1uF 275V
3E
RX802S 330KF 3216
20010WS -12
RM869 910F 1608
RM854 1KF 1608
P HO_L
RX801S 330KF 3216
RM868 8.2KF 1608
RM852 1KF 1608
2
3
12
A5.3V
GND_S 3 1
1
2
2
DQ813 BAV99LT1G S OT-23
1
1
VCC2-ON
4
1
2 2
3 ICQ804 KIA431AM S OT-23
ZDQ914 Z02W7.5VY S OT-23 1
CQ806 1uF 2012
CQ815 220uF 50V
2
3 P CQ802S LTV817BS TA-B
3 1
RQ823 100KF 1608
3
1
2 1
FP 801S T12AH 250V
ZDQ915 Z02W7.5VY S OT-23
2
1
2
VX801S TVR14751
2
CQ807 47uF 50V
3
RQ808 10KF 2012
CE803S 0. 22nF 250V
1
CE802S 0. 22nF 250V
RQ819 470F 2012
1
2
2
1
1
2
Re la y_on 3
QQ852 2N7002BK 2 RQ861 150KF 1608
DQ812 N.C
RQ863 20KF 1608 CQ813 10nF 1608
3
QQ808 2N7002BK 2 RQ865 150KF 1608
RQ864 1KF 1608 S HUTDOWN CQ816 10nF 1608
S -GND
1
2
3
4
5
GND_P
L
N
S -GND
CN800S DAC-14S 2 GND_S
Copyright© 1995-2013 SAMSUNG. All rights reserved.
6-20
GSPN (GLOBAL SERVICE PARTNER NETWORK) Area
Web Site
Europe, MENA, CIS, Africa
https://gspn1.samsungcsportal.com
E.Asia, W.Asia, China, Japan
https://gspn2.samsungcsportal.com
N.America, S.America
https://gspn3.samsungcsportal.com
This Service Manual is a property of Samsung Electronics Co.,Ltd. Any unauthorized use of Manual can be punished under applicable International and/or domestic law.
© 2013 Samsung Electronics Co.,Ltd. All rights reserved. Printed in Korea
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