SD Card / Hard Disk Video Camera Model No.SDR-H80P SDR-H80PC€¦ · · 2009-06-08model no.sdr-h80p sdr-h80pc sdr-h80eg sdr-h80ee sdr-h80eb sdr-h80ep sdr-h80ef ... 6.1. service
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2 Warning 5 2.1. Prevention of Electrostatic Discharge (ESD) to
Electrostatic Sensitive (ES) Devices 5
2.2. Service caution based on legal restrictions 6
2.3. Caution for AC Cord (For EB/GC) 7
3 Specifications 8 4 Service Mode 9
4.1. Service Menu 9
4.2. About Default Setting 15
5 Service Fixture & Tools 16 5.1. Service Tools and Equipment 16
6 Measurements and Adjustments 17 6.1. Service Positions 17
6.2. Location for Connectors of the Main P.C.B. and Sub
P.C.B. 19
6.3. Location for CSP IC 痴 of the Main P.C.B. and Sub P.C.B.
21
6.4. Temperature Profile for Heat Resistance of CSP IC 23
7 Block Diagrams 25 7.1. POWER SUPPLY BLOCK DIAGRAM 25
7.2. CAMERA DRIVE BLOCK DIAGRAM 26
7.3. LENS DRIVE BLOCK DIAGRAM 27
7.4. SYSTEM CONTROL BLOCK DIAGRAM 28
7.5. AUDIO/VIDEO BLOCK DIAGRAM 29
7.6. MONITOR BLOCK DIAGRAM 30
8 Schematic Diagrams 31 8.1. MAIN (MAIN CONNECTION (1/4)) SCHEMATIC
DIAGRAM 31
8.2. MAIN (MAIN CONNECTION (2/4)) SCHEMATIC
DIAGRAM 32
8.3. MAIN (MAIN CONNECTION (3/4)) SCHEMATIC
DIAGRAM 33
8.4. MAIN (MAIN CONNECTION (4/4)) SCHEMATIC
DIAGRAM 34
8.5. MAIN (MEMORY) SCHEMATIC DIAGRAM 35
8.6. MAIN (TG/AFE) SCHEMATIC DIAGRAM 36
8.7. MAIN (RESIZE) SCHEMATIC DIAGRAM 37
8.8. MAIN (KAO) SCHEMATIC DIAGRAM 38
8.9. MAIN (LENS DRIVE (1/4)) SCHEMATIC DIAGRAM 39
8.10. MAIN (LENS DRIVE (2/4)) SCHEMATIC DIAGRAM 40
(K)........Black Type (except DMR-H80GK)(S)........Silver Type (except DMR-H80EF, H81, H90)(A)........Blue Type (except DMR-H80EF/EE, H81, H90)(R)........Red Type (except DMR-H80EE, H81, H90)
8.11. MAIN (LENS DRIVE (3/4)) SCHEMATIC DIAGRAM 41
8.12. MAIN (LENS DRIVE (4/4)) SCHEMATIC DIAGRAM 42
8.13. MAIN (VIDEO (1/4)) SCHEMATIC DIAGRAM 43
8.14. MAIN (VIDEO (2/4)) SCHEMATIC DIAGRAM 44
8.15. MAIN (VIDEO (3/4)) SCHEMATIC DIAGRAM 45
8.16. MAIN (VIDEO (4/4)) SCHEMATIC DIAGRAM 46
8.17. MAIN (USB HOST) SCHEMATIC DIAGRAM 47
8.18. MAIN (AVIO) SCHEMATIC DIAGRAM 48
8.19. MAIN (LCD) SCHEMATIC DIAGRAM 49
8.20. MAIN (SUB-POWER) SCHEMATIC DIAGRAM 50
8.21. MAIN (MIC) SCHEMATIC DIAGRAM 51
8.22. SUB (SUB CONNECTION (1/4)) SCHEMATIC DIAGRAM
52
8.23. SUB (SUB CONNECTION (2/4)) SCHEMATIC DIAGRAM
53
8.24. SUB (SUB CONNECTION (3/4)) SCHEMATIC DIAGRAM
54
8.25. SUB (SUB CONNECTION (4/4)) SCHEMATIC DIAGRAM
10 Appendix Information of Schematic Diagram 75 10.1. Checking Point Table of the CSP IC 75
10.2. Waveform Table of the CSP IC 92
10.3. Abbreviations 98
11 Parts and Exploded Views 103
CONTENTS Page Page
2
SDR-H80P
11.1. Replacement Parts List 103
3
SDR-H80P
1 Safety Precaution1.1. General Guidelines 1. IMPORTANT SAFETY NOTICE
There are special components used in this equipment which are important for safety. These parts are marked by in theSchematic Diagrams, Circuit Board Layout, Exploded Views and Replacement Parts List. It is essential that these critical partsshould be replaced with manufacturer’s specified parts to prevent X-RADIATION, shock fire, or other hazards. Do not modifythe original design without permission of manufacturer.
2. An Isolation Transformer should always be used during the servicing of AC Adaptor whose chassis is not isolated from the ACpower line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injuryfrom electrical shocks. It will also protect AC Adaptor from being damaged by accidental shorting that may occur duringservicing.
3. When servicing, observe the original lead dress. It a short circuit is found, replace all parts which have been overheated ordamaged by the short circuit.
4. After servicing, see to it that all the protective devices such as insulation barriers, insulation papers shields are properlyinstalled.
5. After servicing, make the following leakage current checks to prevent the customer from being exposed to shock hazards.
4
SDR-H80P
2 Warning2.1. Prevention of Electrostatic Discharge (ESD) to Electrostatic Sensitive
(ES) DevicesSome semiconductor (solid state) devices can be damaged easily by static electricity. Such components commonly are calledElectrostatic Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors andsemiconductor “chip” components. The following techniques should be used to help reduce the incidence of component damagecaused by electrostatic discharge (ESD).
1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on yourbody by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging ESD wrist strap,which should be removed for potential shock reasons prior to applying power to the unit under test.
2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such asaluminum foil, to prevent electrostatic charge buildup or exposure of the assembly.
3. Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. Use only an antistatic solder removal device. Some solder removal devices not classified as “antistatic (ESD protected)” can
generate electrical charge sufficient to damage ES devices. 5. Do not use freon-propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most
replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparableconductive material).
7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective materialto the chassis or circuit assembly into which the device will be installed.CAUTION:
Be sure no power is applied to the chassis or circuit, and observe all other safety precautions. 8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the
brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity (ESD)sufficient to damage an ES device).
5
SDR-H80P
2.2. Service caution based on legal restrictions2.2.1. General description about Lead Free Solder (PbF)The lead free solder has been used in the mounting process of all electrical components on the printed circuit boards used for thisequipment in considering the globally environmental conservation.
The normal solder is the alloy of tin (Sn) and lead (Pb). On the other hand, the lead free solder is the alloy mainly consists of tin(Sn), silver (Ag) and Copper (Cu), and the melting point of the lead free solder is higher approx.30 degrees C (86°F) more than thatof the normal solder.
Definition of PCB Lead Free Solder being usedThe letter of “PbF” is printed either foil side or components side on the PCB using the lead free solder.(See right figure)
Service caution for repair work using Lead Free Solder (PbF)�
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�The lead free solder has to be used when repairing the equipment for which the lead free solder is used.(Definition: The letter of “PbF” is printed on the PCB using the lead free solder.)
�
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�To put lead free solder, it should be well molten and mixed with the original lead free solder.�
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�Remove the remaining lead free solder on the PCB cleanly for soldering of the new IC.�
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�Since the melting point of the lead free solder is higher than that of the normal lead solder, it takes the longer time to meltthe lead free solder.
�
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�Use the soldering iron (more than 70W) equipped with the temperature control after setting the temperature at 350±30degrees C (662±86°F).
Recommended Lead Free Solder (Service Parts Route.)�
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�The following 3 types of lead free solder are available through the service parts route.RFKZ03D01KS-----------(0.3mm 100g Reel)RFKZ06D01KS-----------(0.6mm 100g Reel)RFKZ10D01KS-----------(1.0mm 100g Reel)
Note* Ingredient: tin (Sn), 96.5%, silver (Ag) 3.0%, Copper (Cu) 0.5%, Cobalt (Co) / Germanium (Ge) 0.1 to 0.3%
6
SDR-H80P
2.3. Caution for AC Cord(For EB/GC)
2.3.1. Information for your safetyIMPORTANT
Your attention is drawn to the fact that recording of pre-recorded tapes or discs or other published or broadcastmaterial may infringe copyright laws.
WARNINGTo reduce the risk of fire or shock hazard, do not exposethis equipment to rain or moisture.
CAUTIONTo reduce the risk of fire or shock hazard and annoyinginterference, use the recommended accessories only.
FOR YOUR SAFETYDO NOT REMOVE THE OUTER COVERTo prevent electric shock, do not remove the cover. No userserviceable parts inside. Refer servicing to qualified servicepersonnel.
2.3.2. Caution for AC mains leadFor your safety, please read the following text carefully.
This appliance is supplied with a moulded three-pin mains plugfor your safety and convenience.A 5-ampere fuse is fitted in this plug.Should the fuse need to be replaced please ensure that thereplacement fuse has a rating of 5 amperes and it is approvedby ASTA or BSI to BS1362Check for the ASRA mark or the BSI mark on the body of thefuse.
If the plug contains a removable fuse cover you must ensurethat it is refitted when the fuse is replaced.If you lose the fuse cover, the plug must not be used until areplacement cover is obtained.A replacement fuse cover can be purchased from your localPanasonic Dealer.
If the fitted moulded plug is unsuitable for the socket outlet inyour home then the fuse should be removed and the plug cutoff and disposed of safety.There is a danger of severe electrical shock if the cut off plugis inserted into any 13-ampere socket.
If a new plug is to be fitted please observe the wiring code asshown below.If in any doubt, please consult a qualified electrician.
2.3.2.1. ImportantThe wires in this mains lead are coloured in accordance withthe following code:
Blue NeutralBrown Live
As the colours of the wires in the mains lead of this appliancemay not correspond with the coloured markings identifying theterminals in your plug, proceed as follows:
The wire which is coloured BLUE must be connected to theterminal in the plug which is marked with the letter N orcoloured BLACK.
The wire which is coloured BROWN must be connected to theterminal in the plug which is marked with the letter L or colouredRED.
Under no circumstances should either of these wires beconnected to the earth terminal of the three pin plug, markedwith the letter E or the Earth Symbol.
2.3.2.2. Before useremove the Connector Cover as follows.
2.3.2.3. How to replace the Fuse 1. Remove the Fuse Cover with a screwdriver.
2. Replace the fuse and attach the Fuse cover.
7
SDR-H80P
3 Specifications
8
SDR-H80P
4 Service Mode4.1. Service Menu
When abnormal detection contents are confirmed, do the following operation. Automatic diagnosis code will bedisplayed.(Service Menu)
To enter the Service Menu 1. Turn the Power on and set the Mode Dial to [VIDEO RECORDING MODE]. 2. Push the [OIS], [JOYSTICK CONTROL LEFT] and [iA] simultaneously for 3 seconds (with no SD Card inserted).
Note:If a SD Card is inserted, the above operation will not work.
Fig. 1-1
Note:Only perform items 1, 2, 3, 4, 9, 10, 14 and 15 in the Service Menu.
9
SDR-H80P
To select the Item of Service Menu 1. Press [JOYSTICK CONTROL UP/DOWN] to select item [1], [2], [3], [4], [9], [10], [14] or [15]. 2. Press [JOYSTICK CONTROL RIGHT] to display [YES/NO] screen. 3. Press [JOYSTICK CONTROL UP/DOWN] to select [YES]. 4. Press [JOYSTICK CONTROL CENTER] to end.
Fig. 1-2
10
SDR-H80P
Fig. 1-3
11
SDR-H80P
Fig. 1-4
12
SDR-H80P
Fig. 1-5
13
SDR-H80P
Fig. 1-6
Fig. 1-7
To exit the Service MenuUnplug the AC Cord.
14
SDR-H80P
4.2. About Default SettingThe data of Menu, Mode, Card and EEPROM setting, etc. is set to the default condition in factory.
4.2.1. How to set the Default Setting 1. Turn the Power on and set the Mode Dial to [VIDEO RECORDING MODE]. 2. When pressing [OIS], [JOYSTICK CONTROL RIGHT] and [iA] for more than 3 minutes simultaneously (with no SD Card
inserted), the items below are set to the Default Setting.
1. Menu, Mode, Adjusted Value2. Card format3. Reset of picture files and directory number (Set the picture record file number to 1)4. Clear the information of Mechanism Lock5. Set the time setting to no-setting
15
SDR-H80P
5 Service Fixture & Tools5.1. Service Tools and Equipment
16
SDR-H80P
6 Measurements and Adjustments6.1. Service Positions
6.1.1. List of the extension cablesUse the following extension cables when checking or adjusting individual circuit boards except module Parts (Main P.C.B. and SubP.C.B.).
17
SDR-H80P
6.1.2. Checking and repairing individual circuit boards except module parts (MainP.C.B. and Sub P.C.B.)
How to use extension cables.
18
SDR-H80P
6.2.1. Main P.C.B.6.2. Location for Connectors of the Main P.C.B. and Sub P.C.B.
19
SDR-H80P
6.2.2. Sub P.C.B.
20
SDR-H80P
6.3. Location for CSP IC’s of the Main P.C.B. and Sub P.C.B.
6.3.1. Main P.C.B.Make sure to install CSP IC in the correct position of the Main P.C.B. as shown.
21
SDR-H80P
6.3.2. Sub P.C.B.Make sure to install CSP IC in the correct position of the Sub P.C.B. as shown.
22
SDR-H80P
6.4.1. IC Temperature Profile (IC3202,IC6001, IC6004)
6.4.2. IC Temperature Profile (IC302)
6.4.3. IC Temperature Profile (IC401)
6.4.4. IC Temperature Profile (IC501)
6.4.5. IC Temperature Profile (IC3001)
6.4.6. IC Temperature Profile (IC3301)
6.4.7. IC Temperature Profile (IC3502)
6.4. Temperature Profile for Heat Resistance of CSP ICWhen using equipment other than the Pre-Heater, refer to the temperature profile.CSP ICs for Model of SDR-H80, SDR-H81 and SDR-H90 have the following temperature profile.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
SDR-H80P
34
8.5. MAIN (MEMORY) SCHEMATIC DIAGRAM
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF. SDR-H80, H81, H90
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
SDR-H80, H81, H90MAIN (TG/ AFE) SCHEMATIC DIAGRAM
(MAIN P.C.B.)REFER TO MAIN CONNECTION
C31410u10V
C3100.1u[KB]10V
C3220.1u[KB]
C3050.1u[KB]
C3280.1u[KB]10V
C3150.1u[KB]10V
C3201000p[KB]
C3060.1u[KB]10V
C3021u[KB]10V
C323 0.1u[KB]
C3070.1u[KB]10V
C32510u10V
C3040.1u[KB]10V
C3270.1u[KB]16V
C321 0.1u[KB]
C3030.1u[KB]10V
C309
0.1u
[KB]
C3244.7u16V
C3010.1u[KB]10V
C3180.1u[KB]10V
C3261000p[KB]C3
160.
01u[
KB]
D301MA2S728008
D302MA2S111008
C1AB00003001(CAMERA SIGNAL PROCESS/ TIMING GENERATOR/ CCD V-DRIVE)
A1
H1
H1
VRM
C5
HD I/
O
A2
DVDD
5
B2
DVDD
5
B7
V1
C6 VH12.0
0.3
0.1
3.0
3.0
- - 3.0
0.8
0 0 3.3
1.4
0 001.1
1.0
3.0
1.1
3.3
1.7
12.0
2.9
3.0
1.0
2.0
0
0
0
0
0
2.0
01.3
2.9
0-7.5
1.5
3.0
2.0
0 0 3.0
3.0
03.0
3.0
0 0 0- - -
-
1.8
2.0
2.0
2.9
2.9
- -
3.3
0
0
-
-
3.0
0
0
0
1.0
4.8
3.3
0 4.8
-
-
-
-
-
-
F10
D0
H8
VL
B9
D11
G10
DVSS
12
C10 D8
C4
VD I/
O
K1CCDGND
H5
DVDD
1
K4CCDIN
C3
VDRV
DD
F3
DVSS
E9 D5
H6
DVDD
1
A4
DLLC
D1 DVDD4
B8
D7
K8AVDD2
J2
NC
J8ADCK
H4
AVSS
12
K6VRT
C2
VDRV
DD
K7VRB
G3
TEST
O2
H3
AVSS
12
K3FBC
J7NC
G8
V6
B6
RESE
T
A3
DVSS
5
B10
D10
H7
MO
N
A6
DVDD
3
G2
NC
D2 HL
J4AVSS12
E2 DVSS4
D4 VM
B5
CLKO
H10
SUB
A7
OSC
O
F8
V5
H9
NC
C7 D9
A10
NC
J1
BIAS
C1
RG
J10SDID9 D6
A9
SCAN
K2SHC
F9
D3
K9CS
K5AVSS12
G1
AVDD
1
E3 DVSS4
E10 D2
C8 V3
K10VHH
E8 V4
H2
OSC
_ON
B3
DVSS
5
J3
SHC
J6SCK
F1DV
DD1
C9 V2
J9ID
E1 DVSS4
J5AVSS12
F2
DVSS
B1
H2
D3 DVSS4
D10 DVDD2
B4
DVSS
5
D8 D4
A5
DVSS
3
G9
D1
A8
OSC
I
L30410u
L30110u
TP307TP304
TP301
TP306
TP308
TP316
CAM-7.5V (G18)
CAM_12V (G17)
(G21) TG_VD
(G22) TG_HD
REGD3V (G16)
CAM_CG_CS (G24)
(G15) AF_5V
D_GND (G14)
CGAFE_CLK (G26)
CGAFE_DTO (G25)
(G23) CG_RST
(G11) V4
CCD_12V (G6)
(G12) V5
CCD_VL (G3)
(G8) V1
(G10) V3
(G13) V6
H1 (G2)
CCD_RESET (G5)
SUB (G4)
(G9) V2
H2 (G1)
R31633k
R317100k
R31847
RESIZE_FCK (G20)
TP317 TP318
R3230
L3020
C3110.01u[KB]16V
C3320.1u[KB]
CCDOUT (G7)
C0DBGFC00031IC301
(+3.3V REGULATOR)
1VDD
2GND
3CE
5VOUT
4NC
R3210
L30310uH
C3315p
C31222p
C31922p
TO MAIN CN (H-5)<TO SYSCON>
TO MAIN CN (G-4)<TO POWER>
TO MAIN CN (I-4)<TO CCD>
TO MAIN CN (I-4)<TO CCD>
TO MAIN CN (I-5)<TO RESIZE/ KAO>
(G19) ADIN_RESIZE1
(G19) ADIN_RESIZE6
(G19) ADIN_RESIZE8
(G19) ADIN_RESIZE4
(G19) ADIN_RESIZE0
(G19) ADIN_RESIZE3
(G19) ADIN_RESIZE2
(G19) ADIN_RESIZE5
(G19) ADIN_RESIZE7
(G19) ADIN_RESIZE9
TO MAIN CN (I-5)<TO RESIZE/ KAO>
TO MAIN CN (I-4)<TO CCD>
TO MAIN CN (G-4)<TO POWER>
IC302
TO MAIN CN (I-5)<TO RESIZE/ KAO>
TO MAIN CN (I-4)<TO CCD>
TO MAIN CN (G-4)<TO POWER>
TO MAIN CN (H-5)<TO SYSCON>
TO MAIN CN (I-4)<TO CCD>
TO MAIN CN (G-4)<TO POWER>
: VIDEO MAIN SIGNAL PATH
8 9 1076
E
F
G
D
C
54321
B
A
SDR-H80P
36
8.7. MAIN (RESIZE) SCHEMATIC DIAGRAM
SDR-H80, H81, H90MAIN (RESIZE) SCHEMATIC DIAGRAM
(MAIN P.C.B.)REFER TO MAIN CONNECTION
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
ADIN0
ADIN1
ADIN2
ADIN3
ADIN4
ADIN5
ADIN6
ADIN7
ADIN8
ADIN9
ADIN_RESIZE0
ADIN_RESIZE1
ADIN_RESIZE2
ADIN_RESIZE3
ADIN_RESIZE4
ADIN_RESIZE5
ADIN_RESIZE6
ADIN_RESIZE7
ADIN_RESIZE8
ADIN_RESIZE9
ADIN_RESIZE9
ADIN_RESIZE8
ADIN_RESIZE7
ADIN_RESIZE6
AD
IN_R
ES
IZE
5
AD
IN_R
ES
IZE
4
AD
IN9
AD
IN3
AD
IN_R
ES
IZE
3
AD
IN_R
ES
IZE
2
ADIN8
ADIN7
ADIN5
ADIN2
ADIN_RESIZE1
ADIN_RESIZE0
ADIN6
ADIN4
ADIN1
ADIN0
C4040.1u[KB]
C4050.1u[KB]10V
C4020.1u[KB]10V
0.1
0 0 0 0 0 0 0 0
0
-
0
0.1
0.3
0
1.5
-
-
-
-
3.0
0
0.1
0.3
1.5
0
1.0
3.0
1.1
0
-
-
-
1.0
-
-
-
-
-
0
3.0
1.5
1.2
1.0
-3.0
0
2.9 - - 0 0
3.0
1.5
3.0- - --
1.5
1.5
C40110u[KB]6.3V
C1AB00003002(RESIZE)
A1
GN
D3
A2
TM
C2
A4 FE_VD
B5
PO
RL
D1
VD
D3
H2 SCK
H7DATAIN0
E6
GN
D1
H5
DA
TA
IN4
E7DATAOUT5
G3 DATAIN8
F8DATAOUT1
G4 DATAIN7
G2
CS
G1
SD
I
F6
DA
TA
OU
T3
F5
VD
D1
F4 GND1
F3 DATAIN9
H3 VDD3
E8DATAOUT4
H4 DATAIN6
H8GND1
G7DATAIN1
E1
VO
UT
D8DATAOUT6
F7DATAOUT2
H1
GN
D3
C7DATAOUT8
C6
DA
TA
OU
T9
C5
VD
D1
C3 TMC1
C2
AM
C
C1
CLK
IN
B6
NP
_SE
L
F1
AG
ND
H6
DA
TA
IN2
B1
CLK
OU
T
A8GND1
A3 BE_VD
D4GND
F2
GN
D3
B4 FE_HD
E3 VDD1
E2
AV
DD
D3 GND1
G6
DA
TA
IN3
C8VDD3
D2
PD
C4 VDD1
B8FCKOUT
B7GND3
B3 BE_HD
B2
TR
ST
G5
DA
TA
IN5
G8DATAOUT0
D7DATAOUT7
D6
VD
D1
(L7) ADIN_RESIZE0
(L7) ADIN_RESIZE1
(L7) ADIN_RESIZE7
(L7) ADIN_RESIZE5
CGAFE_CLK (L10)
(L7) ADIN_RESIZE2
(L7) ADIN_RESIZE6
(L7) ADIN_RESIZE8
(L7) ADIN_RESIZE9
RESIZE_CS (L11)
CGAFE_DTO (L12)
REGD3V (L13)
D_GND (L14)
(L7) ADIN_RESIZE4
(L15) RESIZE_RST
(L7) ADIN_RESIZE3
(L8) ADIN8
(L8) ADIN7
(L2) RESIZE_VD
(L5) TG_VD
(L8) ADIN6
(L9) 12MCLK
(L8) ADIN5
(L8) ADIN9
(L3) RESIZE_HD
(L8) ADIN2
(L8) ADIN1
(L8) ADIN0
RESIZE_FCK (L1)
(L4) TG_HD
(L8) ADIN4
(L8) ADIN3
R4180
R415 0
R4170
R419 0
R420 0
R421 0
R422 0
R4230
R414
3.0 1.0
01.0
0RESIZE_FCK36 (L6)
C40610p[DC]
C0JBAB000624IC402
TC7SZ04FU (TE85L,F)(INV.)
1NC
2
IN_A
3GND
5Vcc
4OUT_Y
C4080.01u[KB]
A7
VD
D3
A6
US
BC
LK
A5
GN
D1
R4240
R425 0
C40
90.
01u[
KB
]
C4102.2u[KB]2012
X401H0J360500014
R4270
C4074p[CC]
L401
J0JHC000001842ohm
FBMJ2125HS420-T
TO MAIN CN (E-13)<TO TG/ AFE/ KAO>
TO MAIN CN (E-13)<TO SYSCON>
TO MAIN CN (E-13)<TO VIDEO>
[2012][2012]
IC401
TO MAIN CN (E-13)<TO TG/ AFE/ KAO>
TO MAIN CN (E-13)<TO VIDEO>
TO MAIN CN (E-13)<TO VIDEO/ LENS DRIVE>
PAL:L
NTSC:H
: VIDEO MAIN SIGNAL PATH
TO MAIN CN (E-13)<TO KAO>
TO MAIN CN (F-13)<TO SYSCON>
TO MAIN CN (F-13)<TO VIDEO/ TG/ AFE>
TO MAIN CN (E-13)<TO POWER>
0
(EXCEPT H80P/80PC/80PU/80PR, H90P/90PC/90PU)R426
(H80P/80PC/80PU/80PR, H90P/90PC/90PU)
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37
8.8. MAIN (KAO) SCHEMATIC DIAGRAM
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
SDR-H80, H81, H90MAIN (KAO) SCHEMATIC DIAGRAM
(MAIN P.C.B.)REFER TO MAIN CONNECTION
ADM0
ADM1
ADM2
ADM3
ADM4
ADM5
ADM6
ADM7
ADM8
ADM9
ADM10
ADM11
ADM12
ADM13
ADM14
ADM15
AD
M14
AD
M9
AD
M7
AD
M1
ADM15
R5140
ADM12
ADM10
ADM8
ADM5
ADM3
ADM2
AD
M11
AD
M6
AD
M4
AD
M0
-3.
0
3.0
3.0
3.0
3.0
3.0
3.0
2.4
2.8
1.0
1.2
1.2
3.0
1.2
1.2
1.2
1.0
0.3
0 0 -- -
0
0
0
1.2
1.2
1.2
1.0
3.0
3.0
0
0.1
-
1.2
-
3.0
1.2
-
1.2
-
-
3.0
-
-
2.8
-
-
-
-
-
-
3.0
3.0
-
-
-
1.0
-
-
0.3
0
-
-
-
0 0 0 0 0 0 0 0 0 0 0 0- - - -- - -
ADIN_RESIZE0
ADIN_RESIZE1
ADIN_RESIZE2
ADIN_RESIZE3
ADIN_RESIZE4
ADIN_RESIZE5
ADIN_RESIZE6
ADIN_RESIZE7
ADIN_RESIZE8
ADIN_RESIZE9
ADIN_RESIZE0
ADIN_RESIZE3
ADIN_RESIZE5
ADIN_RESIZE7
ADIN_RESIZE9
AD
IN_R
ES
IZE
1
AD
IN_R
ES
IZE
4
AD
IN_R
ES
IZE
8
ADIN_RESIZE2
ADIN_RESIZE6
ADM13
C5050.01u[KB]16V
C5010.1u[KB]10V
C50310u10V
C5040.01u[KB]16V
C5060.1u[KB]10V
C5020.1u[KB]10V
C1AB00002840(KAO)
A1 NC
E10TMODE1
J3
VS
S
K4GYIN0K11 TSOUT8
H2
FJT
ES
T1
H11 YSOUT4
C1 VDDI
J8
VS
S
C4
MA
DB
0
K5GYIN3
C2
CLK
RS
T
F1 VDDI
D2
PO
R
B4WAIT
VD
DC
PU
B7MADB5
H10TSOUT5
A7
VD
DI
TM
OD
E3
J10TSOUT6
L7 GYIN6
K10TSOUT9
E9
TM
OD
E2
TM
OD
E0
J4
GY
IN1
G3
VS
S
B10MADB12
E3
FJT
ES
T5
L1 NC
J1 VCOOUT
L5 GYIN2
A2
VD
DC
PU
J9
TS
OU
T7
C5
VS
S
D10MADB15
D1 PLLVS
K6GYIN5
F2
FJT
ES
T3
C9
MA
DB
11
C8
VS
S
NC
L11 NC
G9
TS
OU
T3
VD
DI
L6
J11 VDDI
A8
MA
DB
7
L8 VDDI
MA
DB
14
L3 GLVD
H1 VDDRGB
C3
VS
S
C7
MA
DB
6
B3WEL
J5
GY
IN4
A6
VD
DC
PU
L2 VDDRGB
H9
VS
S
F10TSOUT0
K9TSOUT10
E1 PLLVD
K7GYIN7
F3
FJT
ES
T4
B6MADB3
B9MADB10
B1 ASTB
C6
MA
DB
4
G10TSOUT2
K1 CKEX
A9
MA
DB
9
L4 VDDI
L9 TSOUT11
E2
VD
DI
A3
VD
DI
J6
VS
S
D3
VS
S
VD
DC
PU
A5
MA
DB
I
D9
VS
S
J7
GY
IN8
G1 PCK
B8MADB8
K3HD
B5MADB2
K8GYIN9
F9
TS
OU
T1
H3
VP
D
A4
CS
L
J2
VD
DI
G2
FJT
ES
T2
B2
RE
L
L10 VDDCPU
C10MADB13
VD
DC
PU
K2SELOH
TP509
TP504
TP506
TP510
TP503
TP505
(M2) ADIN_RESIZE8
(M2) ADIN_RESIZE9
(M2) ADIN_RESIZE0
(M29) REGD1.2V
(M1) RESIZE_FCK36
(M2) ADIN_RESIZE1
(M30) REGD3V
ELVIS_POR (M25)
(M3) TG_VD
ELVIS_CLKRST (M26)
(M2) ADIN_RESIZE3
(M2) ADIN_RESIZE4
ELV_ALE (M21)
(M2) ADIN_RESIZE2
D_GND (M28)
ELVIS_CS (M27)
(M2) ADIN_RESIZE5
(M2) ADIN_RESIZE6
(M2) ADIN_RESIZE7
(M4) TG_HD
ELV_WE (M22)
ELV_RE (M24)
CPU_FINISH (M23)
ADM15 (M20)
ADM7 (M12)
ADM12 (M17)
ADM1 (M6)
ADM9 (M14)
ADM4 (M9)
ADM10 (M15)
ADM3 (M8)
ADM2 (M7)
ADM8 (M13)
ADM11 (M16)
ADM14 (M19)
ADM6 (M11)
ADM13 (M18)
ADM0 (M5)
ADM5 (M10)
R5110
R502 0
R5080
R5060
R510 1k
R5150
R509 1k
R5010
R503 0
TP511
TP512
TP513
R51
7
0
TP514
TO MAIN CN (G-13)<TO POWER>
TO MAIN CN (D-13)<TO TG/ AFE/ RESIZE>
TO MAIN CN (C-14/D-14)<TO VIDEO/ SYSCON>
TO MAIN CN (C-14)<TO VIDEO/ SYSCON>
TO MAIN CN (B-14)<TO POWER>
TO MAIN CN (C-14)<TO SYSCON>
TO MAIN CN (B-14)<TO SYSCON>
TO MAIN CN (C-14)<TO VIDEO/ SYSCON>
IC501
TO MAIN CN (D-13)<TO RESIZE>
G11 F11 E11 A11C11 B11D11 A10
VDDRGB
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8.9. MAIN (LENS DRIVE (1/4)) SCHEMATIC DIAGRAM
A B C D E F G H I J K L M N
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
2526
2827
29
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE. NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE. NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS PLAYBACK MODE.THE MEASUREMENT MODE OF THE DC VOLTAGE IN THE BRACKETS ( ) ON THIS DIAGRAM IS RECORD MODE. (SP MODE)
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS PLAYBACK MODE.THE MEASUREMENT MODE OF THE DC VOLTAGE IN THE BRACKETS ( ) ON THIS DIAGRAM IS RECORD MODE. (SP MODE)
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS PLAYBACK MODE.THE MEASUREMENT MODE OF THE DC VOLTAGE IN THE BRACKETS ( ) ON THIS DIAGRAM IS RECORD MODE. (SP MODE)
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS PLAYBACK MODE.THE MEASUREMENT MODE OF THE DC VOLTAGE IN THE BRACKETS ( ) ON THIS DIAGRAM IS RECORD MODE. (SP MODE)
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS PLAYBACK MODE.THE MEASUREMENT MODE OF THE DC VOLTAGE IN THE BRACKETS ( ) ON THIS DIAGRAM IS RECORD MODE. (SP MODE)
: AUDIO MAIN SIGNAL PATH IN REC MODE
: VIDEO MAIN SIGNAL PATH IN PLAYBACK MODE
: VIDEO MAIN SIGNAL PATH IN REC MODE
: AUDIO MAIN SIGNAL PATH IN PLAYBACK MODE
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8.19. MAIN (LCD) SCHEMATIC DIAGRAM
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
SDR-H80, H81, H90MAIN (LCD) SCHEMATIC DIAGRAM
(MAIN P.C.B.)REFER TO MAIN CONNECTION
+
LYCIO7
LYCIO6
LYCIO5
LYCIO4
LYCIO3
LYCIO2
LYCIO0
LYCIO1
LCD
_OE
VE
/LC
D_C
OM
C8011 2.2u[KB]
C8012 1u[KB]
C80010.1u[KB]
C8010 2.2u[KB]
C80
061u
[KB
]
C80
080.
1u[K
B]
C80
092.
2u[K
B]
C80
070.
1u[K
B]
C80041u[KB]
C800222u 6.3V
IC8001
C1AB00002388
(LCD RGB SIGNAL PROCESS)
1
CK
V1
2
ST
V2
3
ST
V1
4 VDD1
5 SCS
6 SDATA
7 SCLK
8 VDD1
9 RESET
10 VSS
11 CLKIN
12 HSYNC
13 VSYNC
14
DA
TA
7
15
DA
TA
6
16
DA
TA
5
17
VSS
18
DATA4
19
DATA3
20
DA
TA
2
21
DA
TA
1
22
DA
TA
0
23
VD
D2
24
VC
C1
25
BO
UT
26
GO
UT
27
RO
UT
28
VS
S
29
VR
EF
30
VREFH
31
VREFL
32
COML
33
VC
C1
34
CO
MH
CO
MO
UT
36
35
PCD
37VSS
38VDD1
39CLK27EL
40UCONSEL
41TEST0
42TEST1
43BLCONT2
44BLCONT1
45UD
46
LR
47
CK
H4
48
CK
H3
49
VSS
50
WIDE
51
FR
52
XS
TB
2
53
XS
TB
1
54
PC
G2
55
PC
G1
56
VD
D1
57
CK
H2
58
CK
H1
59
ST
H2
60
ST
H1
61
EN
B2
62
ENB1
63
VSS
64
CKV2
L8002 10u
L8001 10u
(N9) LYCIO3
(N11) LYCIO1
(N10) LYCIO2
(N4) CLK27C
(N7) LYCIO5
(N12) LYCIO0
(N8) LYCIO4
(N5) LYCIO7
(N1) LCD_CS
(N6) LYCIO6
(N3) LCD_SCK
(N31) LCD_3V
(N32) LCD_5V
(N2) LCD_SD
(N33) D_GND
LCD_CKH1/LCD_HCK1 (N14)
LCD_CKV (N26)
LCD_BL_CONT (N29)
LCD_G (N20)
LCD_/CKH1/LCD_HCK2 (N13)
LCD_VCSH/LCD_PSIG (N22)
LCD_OEV (N25)
LCD_STV (N27)
LCD_PCG (N15)
LCD_LR (N16)
LCD_OEVE/LCD_COM (N28)
LCD_FR/LCD_XSTBY (N23)
LCD_STH (N18)
LCD_B (N19)
LCD_UD (N24)
LCD_R (N21)
LCD_WIDE (N17)
R8004 0
R80021k
R8001510
R8003 0
COMH (N30)
R80060
R8007
1.3
2.9
2.9
2.9
2.9
0.9
0.9
0.4
1.0
2.8
0
0
0
0 2.2
0 1.4
1.4
2.9
0.2
0.7
0.2
0 0
0
2.9
2.9
2.9
2.9
2.6
4.3
4.8
0.3
0.8
4.5
4.60
2.5
2.5
2.5
4.8
1.1
0.7
0.7
0.7
0.6
1.20
0
2.3
TO MAIN CN (I-15)<TO SUB POWER>
TO MAIN CN (J-14)<TO VIDEO>
TO MAIN CN (J-14)<TO VIDEO>
: VIDEO MAIN SIGNAL PATHTO MAIN CN (I-15/J-15)<TO LCD BL>
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
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8.21. MAIN (MIC) SCHEMATIC DIAGRAM
SDR-H80, H81, H90MAIN (MIC) SCHEMATIC DIAGRAM
(MAIN P.C.B.)REFER TO MAIN CONNECTION
+
C48
0310
u[K
B]
C48021u
C48011u
C48
1222
u6.
3V
IC4801C0ABBB000369(MIC AMP)
1
A O
UT
PU
T
2
A-I
NP
UT
3
A+
INP
UT
4
V-
5
B+
INP
UT
6
B-I
NP
UT
7
B O
UT
PU
T
8
V+
(R7) ECM_R
TO MAIN CN (C-17/D-17)<TO ECM>
(R5) ECM_L
(R6) MIC_GND
REGA5V (R1)
MIC_L (R4)
MIC_GND (R3)
MIC_R (R2)
R48
0739
00[D
]
R4808150k
R48
0433
k
R4805150k
R48
0322
k
R48
0247
00
R48
1039
00[D
]
TP4801
TP4802
Q4801
4.9 4.9
4.2
2SD2216J08(R.FILTER)
C48
0947
0p
C48
0447
0p
R480618k
R480918k
C48100.022u
C48060.022u
TO MAIN CN (D-17)<TO POWER>
TO MAIN CN (C-17/D-17)<TO AVIO>
0 2.4 2.4 2.4
2.42.4 2.4 4.9
: AUDIO MAIN SIGNAL PATH IN REC MODE
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
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8.22. SUB (SUB CONNECTION (1/4)) SCHEMATIC DIAGRAM
A B C D E F G H
1
2
3
4
5
6
7
8
9
10
11
A3V
AF_3V
SPK3V
LCD_BL_5V_POWER
REGD1.8V
CAM_12V
CAM-7.5V
LCD_8.5V_POWER
REGD1.2V
HDD_3.3V
AF_5V
REGD3.3V
REGA5V
REGD3V
POW_VREF
D_GND
LIGHT_REG (A21)
SPK3V (A9)
REGD1.8V (A7)
REGD1.2V (A5)(F-19)
(M-19)
(I-19)
(K-19)
(J-19)
(J-19)
(D-19)
(K-19)
(J-19)
(N-19)
(K-19)
(L-19)
(J-19)
(L-19)
(D-19)
(N-19)
(N-19)
(B-19)
(N-1)
CAM_12V (A11)
REGD3.3V (A13)
REGD3V (A17)
HDD_3.3V (A6)
CAM-7.5V (A12)
A3V (A14)
AF_3V (A10)
(A4) UNREG
(A3) BATT_TMP
(A2) BATT_DET
LCD_8.5V_POWER (A20)
LCD_BL_5V_POWER (A19)
AF_5V (A8)
(A1) B_GND
(M-1)
(L-1)
REGA5V (A16)
BATT_D (A22)
BATT_T (A23)
CTL6_ON_H (A24)
CCD_ON_H (A25)
POW_VREF (A26)
VBATT (A27)
HDD_ON_H (A28)
NOREG (A15)
D_GND (A18)
L1201J0JHC0000054
L1202J0JHC0000054JK1001
K2EC2B000004
FP11
1
2
3
4
5
6
7
8
9
10
11
12
POWER
TO SYSCON
TO SYSCON
TO SYSCON/VIDEO
TO SYSCON
TO SYSCON
TO SUB POWER
TO LIGHT
TO BATTERY FPC
UNREG
GND
BATT_DET
GND
UNREG
GND
UNREG
UNREG
BATT_TMP
GND
UNREG
GND
TO KAO/VIDEO
TO HDD
TO VIDEO/AVIO/USB HOST/LENS DRIVE/MEMORY
TO LENS/TG/AFE/LENS DRIVE
TO AVIO
TO LENS DRIVE
TO TG/AFE
TO VIDEO/REAR/SUB POWER/USB HOST
TO VIDEO/AVIO
TO SUB SYSCON
TO SYSCON/AVIO/MIC/SUB POWER/USB HOST
TO SYSCON/G-SENSOR/TG/AFE/LENS DRIVE/VIDEO/KAO/AVIO/RESIZE/REAR/SUB POWER/LCD BL
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
SDR-H80P
59
8.29.1. SYSCON DC VOLTAGE CHART (SP MODE)
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDEDAS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAYDIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
SDR-H80, H81, H90SYSCON VOLTAGE CHART
Ref. No.MODE E C B E C B E C B E C B E C BSTOPPLAYREC
TRs DC VOLTAGE CHART (SP MODE)Q6004 Q6005Q6001 Q6002 Q6003Ref. No.
- N.C. Not Used - PM7 Not Used I/O D9/AD9/A9 Address Data - PH1 Not Used- N.C. Not Used - PM5 Not Used - P54 Not Used O LENS_DRV_CS Lens Drive Chip SelectI RESET Reset I INT_FRP Frame Reference Pulse Interruption O SENS_SW OIS Sensor Switch I LENS_DRV_DI Lens Drive Serial Data Input- PCST1 Not Used I CAM_IRQ Camera Interrrupt - TEST_PORT03 Not Used O LENS_DRV_EVR_LD Lens Drive Reset- PCST3 Not Used O EEPROM_SCK EEPROM Serial Clock I DVCC30 Voltage - DVSSG GND- DCLK Not Used O EEPROM_DI EEPROM Serial Data Output I AVREFH1 Not Used I NTSC_PAL(NTSC_L) NTSC/PAL SelectO TDO TEST Serial Data Output I EEPROM_DO EEPROM Serial Data Input I HDD_G_TEMP HDD G Sensor Temp. O POWER_LED Power LED Drive- PP6 Not Used O CGAFE_SCK Character Generation Serial Clock I HDD_VREF HDD Voltage Reference I DISK_ACCESS_INFO Disk Access Information- PP4 Not Used O RESIZE_CS RESIZE Chip Select I HDD_G_Z HDD G Sensor Z - P44 Not Used- PP2 Not Used O MEMORY_RST Memory Reset I ADKEY4 Analog Key Input 4 - P45 Not Used- PP0 Not Used O ARM_UPDATE Updata Control I ADKEY3 Analog Key Input 3 O ALE Address Latch Enable- PJ4 Not Used - IR_OUT Not Used I/O D10/AD10/A10 Address Data - P60 Not Used- PJ2 Not Used - ANA6 Not Used I/O D11/AD11/A11 Address Data - P62 Not Used- PJ0 Not Used - ANA5 Not Used O SENS_SW2 OIS Sensor Switch 2 - P64 Not UsedO RTC_SCK RTC Serial Clock O MREF Reference Voltage - P57 Not Used - PN0 Not UsedO RTC_DO RTC Serial Data Output I/O D0/AD0 Address Data - BW0 Not Used - PN2 Not UsedO AFE_CS AFE Chip Select I/O D1/AD1 Address Data I DVCC15 Voltage - PN4 Not UsedO UART_DO PC Data Output O BATT_D0 battery D Terminal Dutput I AVCC31 Voltage - PN6 Not Used- N.C. Not Used I BATT_D1 battery D Terminal input I DVCC15 Voltage - PH0 Not Used- N.C. Not Used - DVSSC GND I HDD_G_Y HDD G Sensor Y - PH2 Not Used- N.C. Not Used O EJE TEST Signal I HDD_G_X HDD G Sensor X O LENS_DRV_DO Lens Drive Serial Data Output- N.C. Not Used I DVCC33 Voltage I ADKEY2 Analog Key Input 2 O LENS_DRV_SCK Lens Drive Serial Clock- PCST0 Not Used I DVCC34 Voltage I ADKEY1 Analog Key Input 1 - PD2 Not Used- PCST2 Not Used I DVCC34 Voltage I/O D12/AD12/A12 Address Data - DVSSH GND- PCST4 Not Used I DVCC34 Voltage I/O D13/AD13/A13 Address Data I USB_SHIMUKE(IN_L) USB Cable Connection Detect- TOVR Not Used I DVCC32 Voltage O *RD/RE X Read Strobe O X2 OSC OutI TDI TEST Serial Data Input - AVSS0A GND O *WR/WEL Write Enable ON/OFF - P46/SC_OUT Not Used- PP7 Not Used - ANA15 Not Used - BW1 Not Used - P47 Not Used- PP5 Not Used I REG3VDET Regulator 3V Getect - TEST1 Not Used - TB15OUT Not Used- PP3 Not Used - ANA3 Not Used - BUSMD Not Used I X1 OSC In- PP1 Not Used - ANA2 Not Used I FVCC15 Voltage - N.C. Not Used- PJ5 Not Used I/O D2/AD2 Address Data I DVCC15 Voltage - N.C. Not Used- PJ3 Not Used I/O D3/AD3 Address Data - PLLSEL Not Used O HOST_REQ Microcomputer Communication Request- PJ1 Not Used - PK2 Not Used - DVSSF GND - P23 Not UsedO EEPROM_CS EEPROM Chip Select - PK3 Not Used - CVCC15 Voltage O ELVIS_POR Not UsedI RTC_DI RTC Serial Data Input - PK4 Not Used I HANSEIHIN_DET2 Holf-Finished Producta Det. O RESIZE_RST Not UsedO RTC_CS RTC Chip Select - DVSSD GND I HANSEIHIN_DET1 Holf-Finished Producta Det. - P67 Not UsedI UART_DI PC DataInput I FVCC30 Voltage - PB7 Not Used - PI1 Not Used- N.C. Not Used I FVCC31 Voltage - PB6 Not Used O S_NOTICE_CS EEPROM Chip Select- N.C. Not Used I FVCC15 Voltage I/O D14/AD14/A14 Address Data I S_NOTICE_DI EEPROM Serial Data Input- PL0 Not Used I DVCC15 Voltage I/O D15/AD15/A15 Address Data O S_NOTICE_RESET EEPROM ResetO CTL4_ON Power Control - AVSS1A GND O *HWR/WEH X Write Strobe - CHG_CNT2 Not Used- POWER_OFF__REQ Not Used O BATT_REF Battery Voltage Detect O *WAIT/XWAIT X Ready Strobe O STANDBY_LED Standby LED Drive- PJ6 Not Used I BATT_V Battery Voltage Reference - TEST2 Not Used I/O G-SENSOR_SCA HDD G-Sensor_Serial DataO CCD_ON_H CCD Power Control I BATT_T Battery Temprature - TEST3 Not Used I G-SENSOR_RST HDD G-Sensor_ResetI CAM_D3_OFF_H Camera Power Control - ANA1/ADP_V Not Used - ENDIAN Not Used - PD1 Not Used- DVSS GND - ANA0/CHG_I Not Used - NMI Not Used - CHG_SW Not UsedI NARMTRST ARM Reset I/O D4/AD4 Address Data I DVCC31 Voltage - BOYO LED Not UsedI TCK TEST Serial Clock I/O D5/AD5 Address Data I DVCC31 Voltage - N.C. Not UsedO DINT TEST Signal I ZENC Zoom Encorder - CVSS GND - N.C. Not Used- PO6 Not Used I FENC Focus Encorder - DVSS GND - N.C. Not Used- PO4 Not Used - TEST_PORT01 Not Used - PC5 Not Used - N.C. Not Used- P02 Not Used I DVCC30 Voltage I TEST_MODE2 Mode Select - P20 Not UsedO CG_RESET Character Generation Reset - DVSS GND - PB5 Not Used O CAM_WAKEUP Camera Wakeup Control- PJ6 Not Used I AVCC30 Voltage O DISK_ACCESS_LED DISK_Access_LED Drive I ELVIS_CPU_FINISH ELVIS CPU Finish- PM6 Not Used I BATT_D Battery D Terminal Input O *CS0/UP_CS AMMP Chip Select O ELVIS_CLKRST ELVIS Clock Reset- HDD_OG_DETECT Not Used O SENS_TEMP_VREF Sensor Temp Voltage Reference O ELVIS_CS ELVIS Chip Serct I S/S_SW Start/Stop Switch InputI ARM_REQ ARM Communication Request I FNO F Value - *BUSREQ Not Used I/O LENS_DEBUG_DO Lens Debug Serial DataO CAM_VD VD to DSP LSI I HDD_DEW HDD Dew Sensor - *BUSACK,NO_DRY Not Used O LENS_DEBUG_SCK Lens Debug Serial Clock- PG5 Not Used I HDD_TEMP HDD Tempereture Sensor I TEST_MODE(SMT_TEST) Mode Select O S-NOTICE_DO EEPROM Serial Data Output- PG4 Not Used I/O D6/AD6 Address Data I LANG_SHIMUKE(USA_L) Lang Select O S-NOTICE_CLK EEPROM Serial ClockO EEPROM_PROTECT EEPROM Write Protect I/O D7/AD7 Address Data O PB3 Not Used - CHG_CNT1 Not UsedO CGAFE_DO Character Generation Serial Data O LENS_LED Lens LED Drive O CARD_ACCESS_LED Card Access LED Drive - CHG_CNT3 Not UsedO CG_CS Character Generation Crip Select - AFST Process Timing Pulse - P42 Not Used O G-SENSOR_REARY HDD G-Sensor InterruptO XRST System Reset - TEST_PORT02 Not Used - P43 Not Used O G-SENSOR_SEL HDD G-Sensor Serial Clock- DVSS GND I DVCC30 Voltage - R/W Not Used - PD0 Not UsedI TRST TEST Reset I AVREFH0 Not Used I AV_PLUG AV Plug Connection Detect O LIGHT_ON_H Light Power ControlI TMS TEST Master Clock - ANB15 Not Used I LCD_RVS_SW LCD Reverse Detect - BAT_SW Not UsedO HDD UNLOAD HDD Unload Control - ANB14 Not Used - P65 Not Used - N.C. Not Used- PO5 Not Used - ANB13 Not Used - PN1 Not Used - N.C. Not UsedO HDD_POWER_CONTROL HDD Power Control I ZOOM_SW Zoom SW Voltage - ICELL_H Not UsedO LENS_DRV_RESET Lens Drive Reset I ADKEY5 Analog Key Input 5 - PN5 Not Used- PJ7 Not Used I/O D8/AD8/A8 Address Data - HDD_H Not Used
SDR-H80P
61
8.30. SUB (HDD G-SENSOR) SCHEMATIC DIAGRAM
C2301
R23
03 4
700
0.1u [KB] 10V
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
8 9 1076
E
F
G
D
C
54321
B
A
SDR-H80P
63
8.32. SUB (POWER (1/4)) SCHEMATIC DIAGRAM
P_GND
D1006MA2S111008
(A3) BATT_TMP
L1002J0JHC0000018
Q1001
8.1
4.3
0
8.1
0.1
0
2.8
0.1
0
UNR31A200L
C10060.01u[KB]
(A1) B_GND
C10950.1u[KB]
D10
05B
0BC
0120
0021
VC
C-2
SP
4
R1105D1JBR102A006
GND-2SP2
R10094700
TP4
D10
03B
0BC
0120
0021
TP5
L109122u
R10
900
R100110k
C10011u[KB]
R100210k
(A2) BATT_DET
TP1
TP3
Q1003
H(POWER ON :ON)
(OVERLOAD PROTECTOR)
L(POWER ON :ON)
UNR32A300L
L101122u
(A22) BATT_D
C10044.7u
(A23) BATT_T
TP2
IP1K5H2022A000832V 2A
R10064700
D_GND
C10050.01u[KB]
(A4) UNREG
R10034700
IP2K5H1022A000832V 1A
C10031u[KB]
Q10022SC584600L
R100747k [D]
L103122u
C10024.7u
D10
92M
A2S
1110
08
D10
12M
A2S
1110
08
(A29) POW_SHUTDOWN
D1001MAZ81000ML
R10040
D10
32M
A2S
1110
08
R10053900
L1001J0JHC0000018
C10150.1u[KB]
C10
914.
7u16
V
GND-2SP1B_GND
D10
91M
A21
D38
2GL
D10
11M
A21
D38
2GL
D10
31M
A21
D38
2GL
GN
D-2
SP
3
TO SUB CN (J-4)<TO SYSCON>
TO SUB CN (I-4)<TO SYSCON>
TO MAIN CN (K-2)<TO BATTERY>
TO MAIN CN (K-2)<TO BATTERY>
TO SUB CN (F-4)<TO SUB SYSCON>
1
2
3
4
5
6
7
8
9
10
11
12
13
14
A B C D E F G H J K L M N O P Q R S T U V W X YI
8 9 1076
L
M
N
K
J
54321
I
H
SCHEMATIC DIAGRAM
LOCATION MAP
1/4 2/4
3/4 4/4
TOSUB (POWER (3/4))SECTION
SUB (POWER (1/4))SDR-H80, H81, H90
(SUB P.C.B.)REFER TO SUB CONNECTION
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
CAUTION: FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH THE SAME TYPE 1.0A 32V FUSE. ATTENTION: POUR UNE PROTECTION CONTINUE LES RISQUES D’ INCENDIE N’ UTILISERQUE DES FUSIBLE DE MÉME TYPE 1.0A 32V
1.0A 32V
CAUTION: FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH THE SAME TYPE 2.0A 32V FUSE. ATTENTION: POUR UNE PROTECTION CONTINUE LES RISQUES D’ INCENDIE N’ UTILISERQUE DES FUSIBLE DE MÉME TYPE 2.0A 32V
2.0A 32V
IMPORTANT SAFETY NOTICE:COMPONENTS IDENTIFIED WITH THE MARK HAVE THE SPECIALCHARACTERISTICS FOR SAFETY. WHEN REPLACING ANY OF THESECOMPONENTS, USE ONLY THE SAME TYPE.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
SDR-H80P
67
8.36. SUB (LIGHT) SCHEMATIC DIAGRAM
TO SUB CN (D-2)<TO LED>(E1) LIGHT 5V
TO SUB CN (E-4)<TO POWER>
LIGHT REG (E3)
TO SUB CN (D-4)<TO POWER>REGA5V (E4)
TO SUB CN (D-4)<TO POWER>
LIGHT ON H (E5)
TO SUB CN (D-4)<TO POWER>
D GND (E6)
TO SUB CN (D-2)<TO LED>(E2) LIGHT DRIVE
Q4301
(LIGHT DRIVE)2SD1819ARL Q4303
(LIGHT DRIVE)2SB1218ARL
Q4304
(POWER SUPPLY)UNR9112J08
Q4305
(POWER SUPPLY CONT.)UNR9213J08
R430718K
0 4.9
4.8
4.8
0
R43082.2k
C43011608
R43062.2k
R43012.2
R430327
R430227
R430427
0
0
0
0
0
0
R430527
R43095.6k
(SUB P.C.B.)REFER TO SUB CONNECTION
NOTE:DO NOT USE ANY PART NUMBER SHOWN ONTHIS SCHEMATIC DIAGRAM FOR ORDERING.WHEN YOU ORDER A PART, PLEASE REFERTO PARTS LIST.
NOTE:THE MEASUREMENT MODE OF THE DC VOLTAGE ON THIS DIAGRAM IS STOP MODE.
NOTE:CIRCUIT VOLTAGE AND WAVEFORM DESCRIBED HEREIN SHALL BE REGARDED AS REFERENCE INFORMATION WHEN PROBING DEFECT POINT,BECAUSE IT MAY DIFFER FROM AN ACTUAL MEASURING VALUE DUE TO DIFFERENCE OF MEASURINGINSTRUMENT AND ITS MEASURING CONDITION AND PRODUCT ITSELF.
9 Printed Circuit Board9.1. MAIN P.C.B. (COMPONENT SIDE)
1
A
B
C
D
E
F
2 3 4 5 6 7 8 9
SDR-H80, H81, H90MAIN P.C.B.
(COMPONENT SIDE)
NOTE:MULTILAYER P.C.B. THIS P.C.B. IS Multi-Layer P.C.B. THIS CIRCUIT BOARD SHOWS COMPONENT LAYOUT-PATTERN FOR COMPONENT SIDE AND FOIL SIDE. LAYOUT-PATTERNS ARE SINGLE PATTERN FOR EACH SIDE THAT MAKE EASY TO SIGHT THE COMPONENT LAYOUT.
NOTE:MULTILAYER P.C.B. THIS P.C.B. IS Multi-Layer P.C.B. THIS CIRCUIT BOARD SHOWS COMPONENT LAYOUT-PATTERN FOR COMPONENT SIDE AND FOIL SIDE. LAYOUT-PATTERNS ARE SINGLE PATTERN FOR EACH SIDE THAT MAKE EASY TO SIGHT THE COMPONENT LAYOUT.
(EXCEPT SDR-H80P/PC/PU/PR, H90P/PC/PU)
(SDR-H80P/PC/PU/PR, H90P/PC/PU)
SDR-H80P
70
9.3. MAIN P.C.B. ADDRESS INFORMATION
Parts Location
Integrated Circuit TP3029 C-6 F C319 D-3 F C1411 B-4 C C3516 C-4 F R718 C-3 C R3086 B-4 C R3520 B-5 F
IC301 D-3 F TP3030 B-4 C C320 D-2 F C1431 C-4 C C3517 B-4 F R719 B-3 C R3087 B-4 C R3521 B-5 F
IC302 D-2 F TP3032 B-4 C C321 D-2 F C1461 C-4 C C3518 C-6 F R720 C-3 C R3091 D-6 C R3522 B-5 F
IC401 C-2 F TP3033 B-3 C C322 D-2 F C3001 D-5 C C3519 B-6 F R721 B-3 C R3101 D-6 F R3523 B-4 F
IC402 C-2 F TP3034 B-3 C C323 D-2 F C3002 D-3 F C3521 C-6 F R722 C-3 C R3102 D-7 F R3524 B-5 F
IC501 C-3 F TP3035 B-4 C C324 C-2 F C3003 B-3 F C4501 C-7 F R723 D-5 C R3103 D-7 F R3525 B-5 F
IC701 C-3 C TP3036 B-4 C C325 D-3 F C3004 B-5 C C4502 C-7 F R724 D-4 C R3104 D-6 F R3526 C-5 F
IC704 B-2 C TP3037 D-4 F C326 C-2 F C3005 B-5 C C4503 C-7 F R725 D-3 C R3117 B-5 F R3527 B-4 F
IC3001 C-6 C TP3038 C-4 F C327 C-2 F C3011 C-7 C C4505 C-8 F R726 D-4 C R3118 B-5 C R3528 B-4 F
IC3003 D-7 C TP3039 B-3 F C328 D-2 F C3012 C-7 C C4506 C-8 F R727 D-4 C R3119 B-4 C R3529 B-5 F
IC3202 C-7 C TP3507 B-4 F C331 D-2 F C3013 C-7 C C4507 C-8 F R730 D-3 C R3120 B-4 C R3530 B-5 F
IC3203 C-5 C TP3510 C-4 F C332 D-2 F C3015 C-7 C C4508 D-7 F R731 D-5 C R3121 B-4 C R3532 B-5 F
IC3301 C-7 F TP4801 C-8 F C401 C-2 F C3016 C-7 C C4509 D-7 F R732 D-4 C R3122 B-4 C R3533 B-4 F
IC3501 C-4 F TP4802 C-8 F C402 C-2 F C3018 D-6 C C4510 D-8 F R733 D-4 C R3123 B-4 C R3537 B-4 F
IC3502 B-5 F Connector C404 C-2 F C3020 D-6 C C4801 C-2 C R736 B-3 C R3124 B-4 C R3538 B-4 F
IC3503 B-6 F B9001 C-5 F C405 C-2 F C3021 D-6 C C4802 C-2 C R737 D-3 C R3125 B-4 C R3539 B-4 F
IC4801 C-2 C FP21 D-5 F C406 C-2 F C3023 D-6 C C4803 D-2 C R738 D-3 C R3126 B-6 C R3540 B-4 F
IC8001 B-7 F FP31 D-7 C C407 C-2 F C3025 D-6 C C4804 C-2 C R739 B-3 C R3127 B-4 C R3541 B-4 F
Transister FP41 D-7 F C408 D-1 F C3026 D-6 C C4806 C-2 C R740 B-3 C R3128 B-4 C R3544 B-4 F
Q1411 C-4 C FP51 D-8 C C409 B-2 F C3027 D-6 C C4809 C-2 C R741 C-3 C R3129 B-6 C R3546 C-4 F
Q1412 B-4 C FP71 D-3 C C410 B-2 F C3028 C-5 C C4810 C-2 C R742 C-3 C R3131 B-3 F R3552 C-6 F
Q1413 B-4 C FP81 B-3 C C501 C-3 F C3030 C-5 C C4812 D-2 C R743 D-3 C R3134 D-4 F R3553 B-6 F
Q1431 C-4 C P91 B-8 F C502 C-3 F C3031 B-5 C C8001 B-6 F R744 D-3 C R3135 B-5 C R3554 B-6 F
Q1461 C-4 C Diode C503 C-3 F C3032 B-7 C C8002 C-7 F R745 D-3 C R3139 D-5 C R3555 B-6 F
Q1462 C-4 C D301 D-2 F C504 C-3 F C3033 B-5 C C8004 B-6 F R746 D-3 C R3140 B-5 C R3556 B-6 F
Q3003 D-6 C D302 D-3 F C505 C-3 F C3034 B-5 C C8006 B-7 F R747 D-3 C R3144 C-8 C R3557 B-6 F
Q3004 D-7 C D1411 C-4 C C506 B-3 F C3035 B-5 C C8007 B-7 F R748 D-3 C R3145 B-8 C R3558 B-6 F
Q3006 B-4 F D1461 C-4 C C701 C-2 C C3037 B-5 C C8008 B-7 F R749 D-4 C R3154 B-3 F R3559 B-6 F
Q3007 D-5 C Crystal Ocillator C702 C-2 C C3039 C-5 C C8009 B-7 F R750 D-3 C R3159 C-8 C R3560 B-6 F
Q3008 D-5 C X401 C-1 F C705 B-2 C C3040 D-5 C C8010 B-8 F R751 D-3 C R3160 B-7 C R3562 C-6 F
Q3009 B-3 F X3501 C-5 F C706 D-2 C C3041 C-5 C C8011 B-7 F R752 D-3 C R3161 C-8 C R3563 C-6 F
Q3010 D-6 C Coil C707 C-2 C C3042 C-5 C C8012 B-7 F R753 C-3 C R3162 C-8 C R3564 C-6 F
Q3201 B-4 C L301 D-3 F C710 D-2 C C3044 B-5 C C9002 D-6 F R754 C-3 C R3163 C-8 C R3570 B-4 F
Q3501 B-6 F L302 D-3 F C711 D-2 C C3045 B-6 C Resistor R763 D-4 C R3164 B-7 C R4501 C-7 F
Q3502 B-6 F L303 D-1 F C712 D-2 C C3046 B-6 C R316 D-2 F R764 C-3 C R3168 C-5 C R4502 C-8 F
Q4801 D-2 C L304 C-3 F C713 B-3 C C3047 B-5 C R317 D-1 F R765 C-3 C R3171 D-6 C R4503 C-8 F
Q7802 D-4 C L401 C-2 F C714 C-2 C C3049 B-6 C R318 D-2 F R768 B-2 C R3174 C-8 C R4802 D-2 C
Q7803 D-4 C L701 C-2 C C715 C-3 C C3051 B-7 C R321 D-2 F R769 D-4 C R3175 C-8 C R4803 C-2 C
Test Point L702 C-2 C C716 C-3 C C3053 B-7 C R323 C-3 F R770 D-4 C R3176 C-8 C R4804 C-2 C
TP61 C-4 C L3001 D-5 C C717 C-3 C C3054 B-7 C R414 D-2 F R1411 B-4 C R3177 B-7 C R4805 C-2 C
TP92 C-4 C L3002 B-3 F C718 C-3 C C3056 B-7 C R415 B-2 F R1412 B-4 C R3178 C-8 C R4806 C-2 C
TP301 D-2 F L3004 B-5 C C719 B-3 C C3059 B-7 C R417 C-2 F R1413 B-4 C R3179 D-6 C R4807 C-8 F
TP304 D-2 F L3005 D-5 C C720 C-3 C C3061 B-7 C R418 C-2 F R1414 B-4 C R3180 D-7 C R4808 C-2 C
TP306 C-2 F L3006 B-3 F C721 B-3 C C3062 B-6 C R419 C-2 F R1431 D-4 C R3183 D-5 C R4809 C-2 C
TP307 D-2 F L3007 B-3 F C722 D-4 C C3064 B-7 C R420 C-2 F R1432 C-4 C R3184 D-7 C R4810 C-8 F
TP308 C-2 F L3008 B-7 C C723 D-4 C C3068 B-5 C R421 C-2 F R1461 C-4 C R3188 D-5 C R8001 B-7 F
TP316 B-2 F L3201 D-5 C C724 D-4 C C3073 D-7 C R422 C-2 F R1462 C-4 C R3189 B-7 C R8002 B-6 F
TP317 D-3 F L3202 D-8 C C725 D-3 C C3077 D-5 C R423 C-2 F R1463 C-4 C R3194 B-7 C R8003 C-7 F
TP503 B-3 F L3301 C-8 F C727 D-3 C C3080 B-6 C R424 B-2 F R1464 C-4 C R3197 D-6 C R8004 C-7 F
TP504 B-3 F L3501 C-6 F C728 D-5 C C3081 B-7 C R425 C-2 F R3001 B-6 C R3199 B-4 F R8006 C-7 F
TP505 C-3 F L3502 C-5 F C729 D-4 C C3202 B-8 C R426 C-2 F R3002 B-6 C R3218 D-5 C R8007 C-7 F
TP506 C-3 F L3503 C-4 F C730 D-4 C C3203 C-8 C R427 C-2 F R3005 B-6 C R3223 B-4 C R9018 D-5 F
TP509 C-3 F L3504 C-4 F C731 D-3 C C3204 B-7 C R501 B-2 F R3006 B-6 C R3301 C-8 F R9023 D-5 F
TP510 C-3 F L3505 C-4 F C733 D-3 C C3206 D-7 C R502 C-3 F R3013 C-4 C R3302 C-8 F R9026 D-6 F
TP511 C-3 F L3506 C-4 F C734 D-3 C C3208 D-8 C R503 C-3 F R3015 D-5 C R3303 C-8 F R9027 D-6 F
TP512 C-3 F L4501 D-7 F C735 C-3 C C3209 D-4 C R506 D-3 F R3017 D-5 C R3304 C-8 F R9036 C-3 F
TP513 C-3 F L4502 C-7 F C736 B-3 C C3212 C-4 C R508 B-3 F R3022 D-7 C R3305 C-8 F R9037 C-3 F
TP514 D-3 F L4504 D-7 F C737 D-3 C C3213 D-5 C R509 C-3 F R3023 C-7 C R3501 B-5 F R9038 C-3 F
TP701 C-6 F L8001 B-7 F C738 D-3 C C3301 C-7 F R510 C-3 F R3029 C-7 C R3502 B-5 F R9039 D-2 C
TP702 D-6 F L8002 B-8 F C739 D-3 C C3302 C-7 F R511 C-3 F R3030 C-7 C R3503 B-5 F R9040 D-2 C
TP703 D-6 F Capacitor C740 D-3 C C3303 C-8 F R514 B-3 F R3037 D-6 C R3504 B-5 F R9048 D-5 F
TP704 D-6 F C301 D-3 F C742 D-3 C C3304 C-8 F R515 B-3 F R3042 D-5 C R3505 B-5 F R9049 D-6 F
TP705 D-6 F C302 D-3 F C744 D-4 C C3307 C-8 F R517 B-3 F R3044 D-6 C R3506 B-5 F
TP3003 C-3 F C303 D-2 F C745 D-4 C C3501 C-6 F R701 C-2 C R3045 D-6 C R3507 B-5 F
TP3004 C-4 F C304 C-2 F C746 D-3 C C3503 C-4 F R702 D-3 C R3046 D-6 C R3508 B-5 F
TP3005 C-4 F C305 D-3 F C747 D-3 C C3505 C-4 F R704 D-2 C R3047 C-5 C R3509 B-5 F
TP3006 C-4 F C306 D-2 F C748 D-3 C C3506 C-5 F R705 D-2 C R3048 C-5 C R3510 B-5 F
TP3007 C-4 F C307 D-2 F C749 C-3 C C3507 B-5 F R706 C-3 C R3049 B-5 C R3511 B-5 F
TP3008 C-4 F C309 D-2 F C750 C-4 C C3508 C-5 F R708 D-2 C R3054 B-5 C R3512 B-5 F
TP3009 C-4 F C310 D-3 F C754 C-3 C C3509 C-5 F R709 B-3 C R3055 B-5 C R3513 B-5 F
TP3010 D-4 F C311 D-2 F C757 C-3 C C3510 C-5 F R710 D-2 C R3060 D-6 F R3514 B-5 F
TP3011 C-4 C C312 D-3 F C758 D-3 C C3511 C-4 F R711 B-3 C R3061 D-7 F R3515 C-5 F
TP3014 B-4 C C314 D-1 F C759 B-2 C C3512 B-5 F R714 C-2 C R3062 D-6 F R3516 B-5 F
TP3015 C-4 C C315 D-3 F C760 B-2 C C3513 C-5 F R715 C-2 C R3063 D-6 F R3517 B-5 F
TP3017 C-4 C C316 D-3 F C762 D-2 C C3514 C-5 F R716 C-2 C R3084 D-7 F R3518 C-5 F
TP3018 C-4 C C318 D-3 F C763 D-2 C C3515 B-4 F R717 C-3 C R3085 B-4 C R3519 B-5 F
ADDRESS INFORMATION C...COMPONENT SIDE F...FOIL SIDE
NOTE:MULTILAYER P.C.B. THIS P.C.B. IS Multi-Layer P.C.B. THIS CIRCUIT BOARD SHOWS COMPONENT LAYOUT-PATTERN FOR COMPONENT SIDE AND FOIL SIDE. LAYOUT-PATTERNS ARE SINGLE PATTERN FOR EACH SIDE THAT MAKE EASY TO SIGHT THE COMPONENT LAYOUT.
IMPORTANT SAFETY NOTICE: COMPONENTS IDENTIFIED WITH THE MARK HAVE THE SPECIAL CHARACTERISTICS FOR SAFETY. WHEN REPLACING ANY OF THESE COMPONENTS, USE ONLY THE SAME TYPE.
CAUTION: FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH THE SAME TYPE 2.0A 32V FUSE. ATTENTION: POUR UNE PROTECTION CONTINUE LES RISQUES D’ INCENDIE N’ UTILISERQUE DES FUSIBLE DE MÉME TYPE 2.0A 32V
2.0A 32V
CAUTION: FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH THE SAME TYPE 1.0A 32V FUSE. ATTENTION: POUR UNE PROTECTION CONTINUE LES RISQUES D’ INCENDIE N’ UTILISERQUE DES FUSIBLE DE MÉME TYPE 1.0A 32V
NOTE:MULTILAYER P.C.B. THIS P.C.B. IS Multi-Layer P.C.B. THIS CIRCUIT BOARD SHOWS COMPONENT LAYOUT-PATTERN FOR COMPONENT SIDE AND FOIL SIDE. LAYOUT-PATTERNS ARE SINGLE PATTERN FOR EACH SIDE THAT MAKE EASY TO SIGHT THE COMPONENT LAYOUT.
IMPORTANT SAFETY NOTICE: COMPONENTS IDENTIFIED WITH THE MARK HAVE THE SPECIAL CHARACTERISTICS FOR SAFETY. WHEN REPLACING ANY OF THESE COMPONENTS, USE ONLY THE SAME TYPE.
SDR-H80P
73
9.6. SUB P.C.B. ADDRESS INFORMATION
Parts Location
Integrated Circuit TP2303 C-6 C L1231 C-4 F C1371 C-5 F R1093 B-6 F R6040 B-8 C
IC1001 C-6 F TP2304 D-8 C L1232 C-3 F C1403 C-5 F R1102 C-6 F R6041 B-8 C
IC1231 C-5 F TP6001 C-6 C L1233 C-3 F C1472 C-5 F R1103 C-6 F R6043 B-3 F
IC1232 C-5 F TP6002 C-6 C L1236 C-5 F C1473 B-4 F R1105 C-6 F R6044 B-2 F
IC1321 B-5 C TP6003 C-7 C L1251 D-4 C C2301 D-8 C R1111 B-6 F R6045 D-7 C
IC2302 D-8 C TP6004 B-7 C L1261 B-5 F C4301 C-8 C R1131 B-7 F R6046 C-6 C
IC6001 C-7 C TP6005 C-7 C L1271 B-5 F C6001 C-6 C R1151 B-6 F R6047 C-6 C
IC6002 C-8 C TP6006 B-7 C L1281 B-3 F C6002 B-6 C R1161 C-7 F R6048 D-7 C
IC6003 D-2 F TP6007 C-8 C L1291 C-6 C C6003 B-6 C R1191 B-6 F R6049 C-8 C
IC6004 B-2 F TP6008 C-8 C L1321 C-6 C C6004 B-6 C R1231 C-5 F R6050 C-6 C
IC6005 C-2 F TP6009 C-8 C L6001 D-3 F C6005 B-7 C R1361 C-4 F R6051 D-7 C
IC6201 C-2 F TP6010 C-7 C L9903 D-8 F C6006 D-2 F R1362 C-4 F R6052 C-8 C
IC6202 C-1 F TP6011 C-7 C L9904 C-8 F C6007 B-6 C R1363 B-4 F R6053 D-7 C
IC6203 D-1 F TP6012 B-8 C L9905 B-8 F C6008 C-2 F R1364 B-4 F R6054 D-7 C
Transister TP6013 B-8 C L9906 B-7 F C6009 D-2 F R1365 C-4 F R6055 D-7 C
Q1001 D-8 F TP6014 C-6 C Capacitor C6010 D-2 F R1391 B-3 F R6056 C-3 F
Q1002 C-7 F TP6015 C-6 C C1001 C-8 F C6011 D-2 F R1392 C-3 F R6057 C-8 C
Q1003 C-8 F TP6201 D-8 C C1002 C-8 F C6012 C-8 C R1393 C-4 F R6058 C-8 C
Q1061 C-4 C TP6202 C-9 C C1003 C-2 C C6013 C-8 C R1394 B-3 F R6059 D-7 C
Q1071 C-3 C TP6203 C-2 F C1004 C-2 C C6014 C-8 C R1395 B-3 F R6060 D-7 C
Q1072 C-7 F TP6204 C-2 F C1005 C-2 C C6015 C-7 C R1396 C-4 F R6061 D-7 C
Q1361 C-4 F TP9901 C-1 C C1006 C-2 C C6016 B-7 C R1398 B-3 F R6062 D-7 C
Q1362 B-4 F TP9902 B-2 C C1011 D-6 F C6017 C-6 C R1471 C-5 F R6063 B-3 F
Q1391 B-3 F TP9903 B-2 C C1012 C-4 C C6018 D-7 C R1472 B-5 F R6064 B-8 C
Q1392 B-3 F Connector C1015 D-6 F C6019 C-3 F R1473 C-4 F R6065 D-8 C
Q1471 B-5 F B9002 C-4 F C1031 D-7 F C6020 C-8 C R1476 C-4 F R6066 B-3 F
Q1472 B-4 F FP11 D-3 C C1032 C-4 C C6021 B-3 F R1477 B-4 F R6067 B-3 F
Q1473 B-4 F FP61 D-8 F C1035 C-7 F C6022 B-3 F R1478 B-4 F R6074 B-6 C
Q1474 B-4 F P92 D-8 C C1051 C-6 F C6023 C-6 C R1480 B-5 F R6075 B-6 C
Q4301 C-9 C JK1001 C-1 C C1052 D-4 C C6201 C-1 F R1501 C-6 F R6076 B-6 C
Q4303 C-8 C JK9902 D-1 C C1055 C-6 F C6202 C-2 F R2301 D-8 C R6077 B-4 C
Q4304 B-8 C JK9903 B-3 C C1061 B-3 C C6203 C-2 F R2302 D-8 C R6078 B-6 C
Q4305 B-8 C Fuse C1062 C-4 C C6204 C-2 F R2303 D-8 C R6079 D-7 C
Q6001 B-3 F IP1 C-2 C C1063 B-7 F C6205 C-2 F R2304 D-8 C R6080 D-7 C
Q6002 B-3 F IP2 C-2 C C1064 B-7 F C6207 C-2 F R4301 C-8 C R6081 D-7 C
Q6003 B-3 F Diode C1071 C-7 F C6208 C-2 F R4302 C-9 C R6082 D-7 C
Q6004 C-3 F D1001 C-7 F C1081 B-4 C C9901 D-2 C R4303 C-9 C R6201 C-2 F
Q6005 D-7 C D1003 C-9 F C1082 B-4 C C9902 D-2 C R4304 C-9 C R6203 C-2 F
Q6201 C-2 F D1005 C-8 F C1091 D-6 F C9903 C-8 F R4305 C-9 C R6204 C-2 F
Q6202 D-2 F D1006 B-8 F C1092 C-5 C C9904 B-7 F R4306 C-8 C R6206 C-2 F
Test Point D1011 D-6 F C1095 D-6 F C9905 B-7 F R4307 C-8 C R6207 C-2 F
TP1 C-2 C D1012 D-6 F C1101 C-6 F Resistor R4308 C-8 C R9901 D-8 F
TP2 B-9 F D1031 D-7 F C1103 C-6 F R1001 D-7 F R4309 B-8 C R9906 D-2 C
TP3 C-8 F D1032 D-7 F C1104 C-6 F R1002 C-7 F R6002 B-6 C R9907 B-3 C
TP4 C-1 C D1051 C-6 F C1105 C-7 F R1003 D-7 F R6003 C-8 C R9909 B-7 F
TP5 B-8 F D1052 C-6 F C1111 B-7 F R1004 B-9 F R6005 C-6 C
TP11 C-5 C D1080 B-4 C C1131 B-7 F R1005 B-9 F R6007 B-3 F
TP17 D-2 C D1081 B-4 C C1151 B-6 F R1006 B-8 F R6008 C-7 C
TP21 C-6 C D1091 D-6 F C1161 C-7 F R1007 B-8 F R6009 B-6 C
TP31 D-8 C D1092 D-6 F C1163 C-6 F R1009 C-4 F R6010 B-6 C
TP41 C-6 C D1471 B-4 F C1164 B-6 F R1010 D-6 F R6011 B-3 F
TP51 D-5 C D1472 B-4 F C1168 C-7 F R1011 B-6 F R6012 B-3 F
TP62 D-7 C D1503 D-6 F C1191 B-6 F R1012 B-6 F R6013 C-3 F
TP71 D-6 C D6201 C-2 F C1193 B-6 F R1013 B-6 F R6014 B-6 C
TP81 D-7 C D9901 B-2 C C1211 C-5 C R1030 D-7 F R6015 C-8 C
TP91 C-6 C Switch C1213 B-4 C R1031 B-6 F R6016 B-2 F
TP93 C-3 F SW6001 B-5 C C1218 B-4 C R1032 B-7 F R6017 D-7 C
TP94 D-7 F SW6002 B-6 C C1231 C-4 F R1033 B-7 F R6018 C-8 C
TP95 C-7 F SW6003 B-4 C C1232 C-4 F R1050 C-6 F R6019 C-2 F
TP101 C-5 F SW6004 B-4 C C1233 C-3 F R1051 B-6 F R6020 C-8 C
TP102 C-6 F SW9901 B-9 C C1234 C-5 F R1052 B-6 F R6021 B-7 C
TP103 C-6 F Crystal Ocillator C1235 C-5 F R1053 B-6 F R6022 B-7 C
TP104 C-6 F X6001 C-6 C C1236 C-5 F R1060 C-3 C R6023 B-7 C
TP105 B-6 F X6201 C-2 F C1237 C-5 F R1061 B-7 F R6025 D-6 C
TP106 C-6 F Coil C1238 C-4 F R1062 B-7 F R6026 C-6 C
TP107 C-6 F L1001 C-8 F C1251 D-4 C R1063 B-7 F R6028 B-7 C
TP108 C-6 F L1002 C-2 C C1256 D-4 C R1064 B-7 F R6030 B-7 C
TP109 C-7 F L1011 C-4 C C1261 B-5 F R1065 C-7 F R6031 B-7 C
TP110 C-7 F L1031 C-4 C C1271 B-5 F R1071 C-3 C R6032 B-8 C
TP111 C-7 F L1051 D-4 C C1281 B-4 F R1072 C-3 C R6033 B-7 C
TP114 C-7 F L1061 C-4 C C1291 C-6 C R1073 C-7 F R6034 B-7 C
TP115 C-7 F L1091 C-5 C C1292 D-6 C R1074 C-7 F R6035 C-6 C
TP116 C-7 F L1201 B-8 F C1321 B-5 C R1080 B-4 C R6036 B-8 C
TP117 C-7 F L1202 C-8 F C1322 B-5 C R1090 D-6 F R6037 D-8 C
TP2301 C-6 C L1211 C-5 C C1323 B-6 C R1091 B-6 F R6038 C-6 C
TP2302 D-8 C L1213 C-5 C C1324 C-6 C R1092 B-6 F R6039 D-8 C
ADDRESS INFORMATION C...COMPONENT SIDE F...FOIL SIDE
SUB P.C.B.
SDR-H80P
74
10 Appendix Information of Schematic Diagram10.1. Checking Point Table of the CSP IC
IC301 C0DBGFC00031 IC 1 E.S.D.IC302 C1AB00003001 IC 1 E.S.D.IC401 C1AB00003002 IC 1 E.S.D.IC402 C0JBAB000624 LOGIC IC 1 E.S.D.IC501 C1AB00002840 IC 1 E.S.D.IC701 C1AB00002796 IC 1 E.S.D.IC704 C0DBGFC00030 IC 1 E.S.D.IC3001 MN2WS0056SP1 IC 1 E.S.D.IC3003 C0JBAU000024 IC 1 E.S.D.IC3202 C3ABSJ000010 DRAM 1 E.S.D.IC3203 LSSK0138 IC 1 E.S.D.IC3301 VUEALLPT024 IC 1 E.S.D.IC3501 C0JBBS000003 IC 1 E.S.D.IC3502 C1DB00001579 IC 1 E.S.D.IC3503 C0BBBA000059 IC 1 E.S.D.IC4801 C0ABBB000369 IC 1 E.S.D.IC8001 C1AB00002388 IC 1 E.S.D.
IC1001 VUEALLPT023 IC 1 E.S.D.IC1231 C0DBGYY00291 IC 1 E.S.D.IC1232 C0EBC0000090 IC 1 E.S.D.IC1321 C0CBABD00060 IC 1 E.S.D.IC2302 L2EE00000010 IC 1 E.S.D.IC6001 C2DBMK000067 IC 1 E.S.D.IC6002 C0EBE0000442 IC 1 E.S.D.IC6003 C0CBCAC00355 IC 1 E.S.D.IC6004 C3EBJC000098 EEPROM 1 E.S.D.IC6005 C1ZBZ0003542 IC 1 E.S.D.IC6201 C1ZBZ0003851 IC 1 E.S.D.IC6202 C0DBGYY00014 IC 1 E.S.D.IC6203 C0EBJ0000150 IC 1 E.S.D.IC6203 C0EBJ0000316 IC 1 E.S.D.
IP1 K5H2022A0008 IC PROTECTOR 1IP2 K5H1022A0008 IC PROTECTOR 1
JK1001 JJSEC3110010 JK, DC IN 1JK9902 K2HZ105E0013 JK, USB 1JK9903 K2HC106E0009 JK, A/V 1