Samsung NP-P60C003 System Schematic Diagram

This Document can not be used without Samsung's authorization.
7.󰼿Circuit󰼿Diagram
Revision :
T.R. Date :
4
4
Owner : SE C M obile R & D
Dev. Step :
PBA Name :
PCB Code :
Model Name :
Remarks :
CPU :
Chip Set :
4
4
SE DONA
2005/10/05
PR
0.81
BA41-#####A
SEDONA
MAIN
Signature :
3 1
3 2
X
Mobility Platform
Intel C alistoga & I CH7-M
Intel Y onah667
3
3
2
2
S heet56. DOC K IN G C ONNE C TO R , S UP E R I/O
S heet55. HDD P AR K , T PM, MOU NT H OLE
S heet57. US B B OAR D
S heet53. P3.3V_A LWS & P5.0V_A UX
S heet52. SWIT CH ED P OW E R
S heet54. GR APHIC C OR E P OW ER / P 1.2V / P 2.5V
S heet48. CH AR GE R
S heet51. CP U V RM(V CC _C OR E )
S heet50. MAIN D DR 2 P OW E R
S heet49. P1.5V_A UX, VC CP
S heet47. B’D TO B’D C onnec tor
S heet42. HDD & OD D CO NNE DTOR & R E MOTE C NT R
S heet41. AUDIO WOP E R & AU DIO C ONNE CT OR
S heet40. AUDIO AG C / A MP
S heet43. MIC OM
S heet46. MDC MO DE M / US B0 / LAN C ON N.
S heet44 - 45. L AN(Intel 82573E Z)
S heet35 - 36. C AR DB US / 1394 / ME DIA C AR D
S heet37. EXP R E S S C AR D
S heet38. MINE PC I E XP R E S S & D MB
S heet39. AUDIO C ODE C (AD1986A )
S heet33 - 34. C R T & S W IT CH
S heet25. ATI M56-P G RAP HIC C ONT R OLLE R
S heet31. VID E O S.S / T.S / LD C ONN .
S heet29 - 30. V IDE O ME MOR Y
S heet32. DVI C ONT R OLLE R
S heet24. FW H
S heet 13 - 17. C ALIS TOGA-GMC H
S heet 12. THE R MAL S E NS OR / F AN C ONT R OL
S heet 2 - 7 . DIAGR AM (B lock/P ower) & ANNOTAT ION S
S heet19. DDR T E R MINATIO N
S heet18. DDR II S ODIMM
S heet20 - 23. IC H7-M
S heet 8. C LO CK G E NE R ATOR
S heet 9 - 1 1. YONAH667 / ME R OM C P U(T BD)
S heet 1. C OV E R
2
Table of C ontents
1
A
A
B
B
C
C
D
D
1
1
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿0󰼿>
This Document can not be used without Samsung's authorization.
7.󰼿Circuit󰼿Diagram
A
A
B
B
C
D
D
E MC6 N300 (CP U The rmal S ens or)
4
6
S ystem P ower S tates
CH P3 _S LP 4S * S 4, S uspend- To-D isk(S T D) : T he C ontext of the sys tem is maintaine d on the disk. All power is then shut off to the sy stem e xcept for the logic re quired to re sume.
CH P3 _S LP S 5* S5 , S oft O ff(SO FF ) : S ys tem context is not ma intained. All power is s hut off exc ept for the logic require d to res tart. A full boot is required when wak ing.
E xternally appears s ame as S 5, but ma y ha ve differe nt wake events.
4
CH P3 _S LP S 1* S1 , P owered-O n-S uspe nd(PO S ) : In this state, all clocks (exc ept the 32 .768 KHz cloc k) a re s topped.
CH P3 _S LP S 3* S3 , S us pend-To- RA M(S TR ) : T he sys tem context is ma intained in s ys tem DR AM, but power is s hut off to non-c ritical circ uits.
The sy stem c ontext is maintained in sys tem DR A M. P ower is ma intained to P C I, the CP U, memory controller, memory, and a ll other c riticial s ubsys tems.
Note tha t this s tate does not prec lude power being remove d from non- ess ential de vices , s uch a s dis k drive s. During this state, C PU ca n be s elec ted
for either Deep S leep or Deepe r S leep.
In D eeper Sle ep, C P U v oltage reduc ed in this sta te to reduc e the le akage power.
Memory is re tained, and re freshe s c ontinue. All clocks s top exce pt RT C clock .
PO R T RE P LIC AT OR5
BL UE TO OT H
MINI P CIE X PR E S S
E XP R ES S C AR D7
US B P OR T As sign
PO R T NUMB E R
0
1,2
S YS T EM PO R T C3
S YS T EM PO R T B
AS S IGN E D T O
S YS T EM PO R T A
CK -40 8 (C lock Ge nerator) 110 1 001 x
I C / S MB Addres s
Devic es
S ODIM M0
S ODIM M1
IC H7
1001 110 X
1010 000 0
Mas ter
1010 001 X
Addres s
P3 .3V _AL WS
P1 .2V _AL WS
P2 .5V _AL WS
P5 V
MIC OM_ P3V
P2 .5V
P5 V_A UX
2
1.2 V power ra il (Alway s O n)
2.5 V power ra il (Alway s O n)
P3 .3V _AU X
3.3 V powe r rail ( Always O n)
3.3 V powe r rail ( off in S 4-S 5)P3 .3V _DT V
5.0 V s witched power rail ( off in S 3-S 5)
5.0 V powe r rail (off in S 4- S5 )
3.3 V powe r rail ( off in S 4-S 5)
P1 .5V _AU X
P1 .2V 1.2V s witched power rail (off in S 3-S 5)
VC C _C OR E
P3 .3V
3.3 V s witched power rail ( off in S 3-S 5)
P1 .5V
P1 .8V
P1 .8V _AU X
1.5 V s witched power rail ( off in S 3-S 5)
1.8 V power r ail(off in S 4- S5 )
1.8 V s witched power rail ( off in S 3-S 5)
2.5 V s witched power rail ( off in S 3-S 5)
1.5 V power ra il (off in S 4- S5 )
3.3 V a lways on power rail for MIC OM
VD C
VT T
P0 .9V
0.9 V s witched power rail ( off in S 3-S 5)
Voltage R ails
Internal MAC
AC Link -
LP C bridge/IDE /AC 97/SM BU S
MC H-M C ore Voltage
Cor e voltage for D OT HAN (1. 308~1. 068V )
Prima ry DC s ys tem power s upply (7 to 21V )
DOT HA N/ALV IS O P roce ss or S ys tem Bus (P S B) Te rmination (1. 05V )
AD2 4(internal)
AD3 1(internal)
Ca rdbus
LAN
MiniPC I SL OT 1
Devic es
US B
Hub to P C I
AD2 1
AD2 3
IDS E L#
AD2 5
AD2 9(internal)
AD3 0(internal)
S CHE MA TIC ANNOT AT IONS A ND B OAR D INF O R MAT ION
P C I Devic es
4
FI NGE R P R INT
-
9C h
Hex
A0h
A2h
D2h
S MBU S Mas ter
The rmal S ens or
Cloc k, U nuse d C lock O utput Disable
Bus
-
-
3
3
-
-
-
B
2
R EQ /GN T#
0
-
-
3
-
E
G
Interrupts
A,B ,C
US B 2.0 #0 : A
B
US B 2.0 #1 : D
US B 2.0 #2 : C
-
D,E
3
Cry stal
Cry stal
Cry stal
Cry stal
Cry stal
Cry stal
0
0
0
0
0
0
0
PS I2 *
2
0 or 1
PS I2 *
0 or 1
1
1
0
0 0.01 25 V
0
0
0
0
1
1
1
0
1
Active
1
1
1
0
1
0
1
1.02 50 V
1.01 25 V
1.03 75 V
1
1
1
1
DP R ST P *
DP R SL PV R
0010
0
0
0
0
0
0
1
1
1
00
1
1
0
Dee per S lp
0
1
1
1
0
1
1
1
0
0
1
0
1
0
0.50 00 V1
0.53 75 V
0.51 25 V
0.52 50 V
0 1
DP R SL PV R
DP R ST P *
0
0
0
1
111
1
1
1
0
0
0 0.05 00 V
0
0
0
1
1
1
000
0
0
1
1
001
0
0
1
1
1
1
1
0
0
0
1
0
0
1
0
0
1
1
1.10 00 V
1.11 25 V
1.12 50 V
1.07 50 V
1.06 25 V
1.08 75 V
1.05 00 V
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
0
0
1
1
0
0
1
1
0
1
1
0
1
0
0
1
1
0
0
0
1
0.61 25 V
0.62 50 V
0.58 75 V
0.57 50 V
0.55 00 V
0.60 00 V
0.56 25 V
0
0
0
0
0
0
1
1
1
1
1
1
0
0
1
0
1.13 75 V
1.15 00 V
1
1
0
0
0
0
0
0
1
1
0
0
0
1
0.65 00 V
0.63 75 V
0
0
0
0
0
0
1
1
0
1
1
1.16 25 V
1
0
0
0
0
1
1
0.66 25 V
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
1
1
1
0
1
0
1
1
0
0
1
1
1
0
0
0
0
1
1
1
0
1
0
1
0
0
1
1.17 50 V
1.23 75 V
1.22 50 V
1.21 25 V
1.20 00 V
1.18 75 V
1.25 00 V
0
031
0
0
1
1
1
1
1
1
0
0
1
0
1
1
0
0
1
1
0
0
1
1
0
1
1
00
0
1
0
1
1
1
0
1
0
1
1
0
0
1
0
0
1
1
1
0
1
0
0.68 75 V
0.67 50 V
0.75 00 V
0.71 25 V
0.70 00 V
0.73 75 V
0.72 50 V
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
0
0
1
1
1
0
0
1
1
0
0
1
0
0
0
1
1
1
0
0
1
1
0
1
0
1
0
1
1.32 50 V
1.31 25 V
1.30 00 V
1.28 75 V
1.26 25 V
1.33 75 V
1.27 50 V
0
0
040
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
0
1
1
0
0
0
0
1
0
1
1
1
0
1
0
0
1
0
1
0
1
1
0.80 00 V
0.76 25 V
0.78 75 V
0.77 50 V
0.83 75 V
0.82 50 V
0.81 25 V
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
1
1
1
1
0
1
1
0
0
0
1
1
1
0
0
1
1
0
1
0
0
0
1
0
1
1
1.35 00 V
1.40 00 V
1.38 75 V
1.42 50 V
1.36 25 V
1.41 25 V
1.37 50 V
0C0
0
0
0
0
0
1
1
1
1
1
1
1
0
1
0
1
1
1
1
1
0
1
0
0
0
0
1
0
1
1
0
0
0
0
0
0
1
1
1
1
1
1
0
0
0
1
0
1
1
0.91 25 V
0.87 50 V
0.85 00 V
0.90 00 V
0.88 75 V
0.92 50 V
0.86 25 V
*Yona h P roces sor (2.33 G Hz / 800 MHz : T BD )
1
1
1
1
1
*"1111 111" : 0V power good as se rted.
1
1
1
1
1
1
1
1
1
1
0
1
0.00 00 V
0.00 00 V
A
A
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
0
1
0
0
1
0
1
0.00 00 V
0.00 00 V
0.00 00 V
0.00 00 V
1
1
1
1
1
1
1
1
1
1
1
1
0
1
0
0
0
1
0
1
1
0
1
0.00 00 V
0.00 00 V
1
1
1
1
111
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
1
1
0
1
0
1
0
1
0
1
0
0
0
1
1
0
1
0
0.10 00 V
0.07 50 V
0.06 25 V
0.03 75 V
0.02 50 V
0.08 75 V
1
1
1
1
1
1
1
1
1
1
111
1
000
0
0
1
1
1
1
1
1
1
1
0
1
0
1
0.13 75 V
0.11 25 V
0.12 50 V
1
1
1
1
0
0
0
0
0
0
1
1
1
1
1
0
0
0
0
1
1
0
0
1
0 0.15 00 V
0
0
1
1
1
1
0
1
0
0
1
1
0
1
0.21 25 V
0.22 50 V
0.18 75 V
0.17 50 V
0.20 00 V
0.16 25 V
B
B
1
1
1
1
1
1
1
1
1
1
1
1
0
1
0
1
0
0
0
0
0
0
0
0
0
0
0
1
1
1
0
011
0
0
1
1
1
0
0
0
1
0
0
1
0
1
1
0
1
0.26 25 V
0.23 75 V
0.30 00 V
0.28 75 V
0.27 50 V
0.25 00 V
0.31 25 V
1
0
1
1
1
1
0
0.32 50 V
1
1
0
0
1
1
101
1
1
0
0
1
0
0.33 75 V
0.35 00 V
1
1
1
1
1
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
1
0
0
021
0
1
1
0
0
1
0
1
1
0.37 50 V
0.36 25 V
0.41 25 V
0.40 00 V
0.38 75 V
VID (6:0 )
0
0
0
0
0
0
000
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
11
0
0
0
0
1
0
1
1
0
0
1.47 50 V
1.50 00 V
1.48 75 V
1.46 25 V
1.45 00 V
1.43 75 V
Voltage
VID (6:0 )
0
040
0
0
0
1
1
1
1
1
1
0
0
0
0
0
0
1
1
1
1
1
1
0
0
1 0.93 75 V
1
0
0
1
1
0
0
0
0
1
0
1
1
0
0
0.95 00 V
Voltage
1.00 00 V
0.98 75 V
0.96 25 V
0.97 50 V
C PU C ore V oltage T able
Active Mode
Dual Mode R e gion
Active/De eper S lee p
IMV P-6
24. 576MH z
24. 576MH z (T B D)
27MH z P E G (NV 43m)
25MH z
HD Audio
Ca rdbus Controller 1394
LAN Intel L AN
Audio
VID (6:0 )
Dual Mode R e gion
Dee per S leep/E xtended Deepe r S leep
1
1
1
1
1
1
0
0
0
0
0
0
1
1
1
1
1
1
0
0
0
0
0
1
0
0
0
1
0
1
0
0
1
1
1
0
1
0
1
0
0.43 75 V
Voltage
0.48 75 V
0.45 00 V
0.47 50 V
0.46 25 V
0.42 50 V
CC
Cry stal VID E O
C rys tal / Os cillator
TY P E FR E QU E NC Y
2
14. 318MH z
32. 768K Hz
10MH z
2
TB D
DE VI CE
IC H7-M
CL OC K -Ge nerator C K-4 10M
MIC OM HD6 4F2 169/2160
US AG E
R eal Time Clock
1
1
D
D
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿1󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
NO S TU FF
R 327
10K
4
CL K3_ R EQ 9*
1%
R 219
10K
1%
R 216
10K
1%
R 270
10K
1%
CL K3_ R EQ 2*
CL K3_ R EQ 5*
CL K3_ R EQ 1*
P3 .3V
10K
R 227
10K 1%
R 222
Int.G FX s tuff
R 284 R 283
49.9 1%
49.9 1%
3 1
w/ S S Cloc k
w/ CL KR E Q
CK -41 0M
E xt.GF X 0 ohm stuff
49.9
49.9
49.9
49.9
49.9
49.9 1%
49.9 1%
49.9
49.9
49.9
49.9
1%49.9 1%49.9
1%49.9 1%49.9
1% 1%
1% 1%
1% 1%49.9
1%49.9
1%49.9
1% 1%
1% 1%
R 277
2
R 278
R 330 R 328
R 332 R 334
R 337 R 339
R 340 R 342
R 344 R 347
R 349
R 351
R 282 R 280
R 281 R 279
B
CL K1 _VG AR E F
CL K1 _VG AS S
500mils of C K -410M
Pla ce 14.31 8MHz within
R 285
R 276
E xt.GF X stuff
0
0
14. 31818 MHz
0.03 3nF
C1 96
1
Y3
2
C1 97
0.03 3nF
475
R 264
1%
73
TH ER MA L
S RC _0 *_LC D96M *_LC D100 M*
S RC _0 _LC D96 M_LC D1 00M
S RC _8 *
S RC _9 *
S RC _8
S RC _9
70
69
3
2
48
47
E xt.GF X No_s tuff
R 268
33 1%
R 329
R 331
R 272
33
33
33 1%
1%
1%
20
8
9
XIN19XO UT
VS S A15VS S _121VS S _231VS S _335VS S _442VS S _568VS S _64VS S _7
IR E F
S RC _5 *
S RC _6 *
S RC _7 *
S RC _5
S RC _6
S RC _7
61
63
64
66
67
R 336
R 341
R 338
R 333
R 335
33 1%
33
33 1%
1%
1%33
1%33
CL K3_ PC LK MIC OM
CL K1_ DR E FC LK *
CL K1_ DR E FC LK
14-D4
14-D4
R 267
1%33
44
DOT 96T *_27M _S PR E AD43DOT 96T _27 M_NO NS PR E AD
S RC _4 *
60
R 343
33 1%
CL K3_ PC LK F WH
CL K3_ PC LK S IO
CL K3_ DB GL PC
CL K3_ S IO14
CL K3_ IC H14
21-C ?
24-A4
56-D1
24-C 4
43-? 2
56-D1
R 217
R 218
R 353
R 352
R 220
12.1 1%
12.1 1%
1%12.1
1%12.1
1%12.1
R 271
Int.G FX s tuff
1%33
32
22
27
PC I2
PC I334PC I4_ FC T SE L 137PC IF 0_IT P _S E L
R EF 1
PC I1
S RC _3 *
S RC _1 *
S RC _2 *
S RC _4
S RC _2
S RC _3
56
58
59
R 345
1%3 3
52
53
55
R 348
R 350
R 273
R 274
R 346
33
33 1 %
33
33
1%
1%33
1%
1%
C
CL K3_ PC LK S IO_ DS
CL K3_ S MBD ATA
CL K3_ PC LK IC H
CL K3_ TP MLP C
CL K3_ PC LK C B
21-B ?
56-D1
55-C 2
35-A4
R 223
R 226
R 228
R 225
R 224
12.1 1%
12.1 1%
12.1
33 1%
1%12.1
1%
33
S RC _1
50
51
R 275
R 266
33 1%
1%33
CH P3_ CP US T P*
CL K3_ PW R GD *
CH P3_ PC IS T P*
CL K3_ S MBC LK
18-B 2 20-B 418- B4
18-B 4 20-B 418-B 2
As clos e as pos ible on P C B
CP U1_ BS E L2
CP U1_ BS E L1
12-C 4 51-C 443-? 221-C ?
21-C ?
10-C 3 14-A310-D4
21-C ?
10-D410-B 3 14-A3
R 229
INS T PAR
R 1436
10K
1%
39
25
16
24
VT T_ PW R GD*_ PD
PC I_ ST P *23R EF 0_F S C _TE S T _S EL
S MB_ CL K17S MB_ DAT A
CP U_ ST P *
FS B _T ES T _MO DE
CP U2 *_ITP _S R C _10*
CP U2 _IT P_ SR C _10
CL KR E Q 6*38CL KR E Q 7*71CL KR E Q 8*72CL KR E Q 9*
CL KR E Q 1*26CL KR E Q 2*28CL KR E Q 3*57CL KR E Q 4*29CL KR E Q 5*
62
46
5
6
D
C PU
CL K3 _FM 48
CL K3_ US B4 8
1
1
0
1
1 0
1
1
1
21-B ?
R 230
12.1 1%
0
1
1
0
0
1
166 MHz
100 MHz
133 MHz
R S VD
400 MHz
R 476
12.1
1%
R 269
R 221
E xt.GF X stuff
12
49
41
45
48M_ FS A
CP U1 *
CP U1
11
10
R 265
R 262
33 1%
1%33
IC S 954305D
VD DCP U30VD DPC I_ 136VD DPC I_ 2
VD DS RC _154VD DS RC _265VD DS RC _31VD DS RC _4
VD DR EF
VD D48
CP U0 *
VD DA
CP U0
18
40
7
14
13
R 263
R 261
33 1%
33
C2 52
C2 48
C2 49
C1 94
C2 03
NO S TU FF
6.3V
100nF
C2 50
1000 0nF
C2 47
6.3V
NO S TU FF
BS E L 0
0
0
F SB
BS E L 1
00
0
1
BS E L 2
F SCF SA
1
0
0
HO S T C LK
333 MHz
266 MHz
200 MHz
R 232
3.3K
1%10K
10K 1 %
C2 02
100nF
C2 01
100nF
C2 51
U1 9
10nF
C2 79
100nF
C2 78
1000nF
C2 77
10000 nF
C2 76
NO S TU FF
100nF
10nF
100nF
10000 nF
6.3V
100nF
C2 05
1000 0nF
R 231
2.2
10nF
R 256
1
VC C P
6.3V
1
27MH Z
S RC 0
MMZ1 608S 121 AT
B3 8
4
3
PC I4_ FC T SE L 1(P IN34 )
0
DOT 96
PI N 43 , 44
PI N 47 , 48
LC D96 /100
2
R 255
R 258 R 259
R 257 R 260
Pla ce Termina tion close to C K-4 10M
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿2󰼿>
49.9 1%
49.9
1%49.9
1%49.9 1%
14-C 4
14-C 4
CL K1_ DR E FS S C LK *
CL K1_ DR E FS S C LK
37-C 4
44-D?
44-D?
20-B 2
37-C 4
20-B 2
CL K1_ S ATA
CL K1_ S ATA *
CL K1_ PC IE LO M
CL K1_ PC IE LO M*
CL K1_ E XP CA RD
CL K1_ E XP CA RD *
B
14-D41%14-D4
38-C 4
38-C 4
56-B 4
56-B 4
CL K1_ MINI PC IE
CL K1_ MINI PC IE *
CL K1_ DC KP C IE LAN *
CL K1_ DC KP C IE LAN
21-B ?
25-A?
21-B ?
25-A?
CH P3_ S ATA CL KR E Q*
CL K3_ R EQ 2*
MINIP C IE 3_C LK R E Q*
EX P 3_C LK R EQ *
CL K1_ PC IE IC H*
CL K1_ MC H3G PL L*
CL K1_ PE G *
CL K1_ MC H3G PL L
CL K1_ PE G
CL K3_ R EQ 5*
CL K3_ R EQ 9*
CL K1_ PC IE IC H
LOM 3_C LK R EQ *
CL K3_ R EQ 1*
MCH 3_C LK R E Q*
C
10-C 3
13-C 2
10-C 3
13-B 2
CL K0_ HC LK 1
CL K0_ HC LK 0
CL K0_ HC LK 1*
CL K0_ HC LK 0*
2.2
B3 5
MMZ1 608S 121 AT
P3 .3V
1
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
B B
C
D
4
**NOT E
R MNT -25-45 -1P
MT6 09
R MNT -25-45 -1P
MT6 13
R MNT -25-45 -1P
MT6 10
R MNT -25-45 -1P
MT6 12
CP U1_ ADS T B1*
13-C 2
CP U1_ R EQ *(4:0 )
CP U1_ A*(31 :17)
13-D1
CP U1_ ADS T B0*
13-C 2
13-B 2
CP U1_ A*(16 :3)
13-D1
4
B G A B AS E D, P GA T YP E MAY NE E D AN OT HE R R HE
W6
U5
R 3
U4
Y2
V4
3704-0 0115 3
Y5
A18*
ADS T B1*
A19*
A20*
A21*
A22*U2A23*
A17*
R HE S UP PO R T ER (C IC HLID2 BAS E D)
S TP CL K*
IG NNE *
FE R R *
LIN T0B4LIN T1
S MI*
A3
D5
C4
C6
M602
DIA
HE AD
3 2
LE NG TH LE NG TH
20-C 1
20-B 1
CP U1_ S TP CL K*
HE AD
DIA
M601
CP U1_ DS TB N1*
CP U1_ DS TB P 1*
CP U1_ DB I1*
A5
20-C 1
20-C 1
20-C 1
20-C 1
CP U1_ FE R R *
CP U1_ IG NNE *
CP U1_ S MI*
CP U1_ NMI
CP U1_ INT R
W2
W3
W5
R 4
T5
T3
A24*
A25*
A26*
A27*
H2
K3
Y4
R EQ 0*
R EQ 1*K2R EQ 2*
A29*
A30*Y1A31*
A28*
M3
M1
L5
J3
R EQ 4*
R EQ 3*
N2
L2
L4
J4
ADS T B0*
J1
A3*
A4*
A5*K5A6*
A7*
A8*
A9*
R 1
P5
P2
P4
L1
YO NAH 2M-S OC K ET
A10*N3A11*
CP U1 -1
A12*
A13*
A14*P1A15*
A16*
1 / 4
R ES E T *
LO CK *
A20M *
A6
20-C 1
CP U1_ A20M *
TR DY *
R S0 *
R S1 *
R S2 *
F3
F4
13-B 2
13-B 2
CP U1_ R S2 *
CP U1_ R S1 *
CP U1_ R S0 *
IE R R*
INIT *
B1
G3
G2
B3
H4
13-C 2
20-C 1 13-B 2
13-A2
13-A2
13-B 2
CP U1_ LO CK *
CP U1_ TR DY *
CP U1_ INIT *
CP U1_ CP UR S T *
CP U1_ DS TB N0*
CP U1_ DS TB P 0*
CP U1_ D*(31 :16)
DE FE R *
DR DY *
DB SY *
HIT M*
HIT *
E 4
D20
G6
BP R I*
BN R*
ADS *
BR 0*
E 2
G5
F1
E 1
H5
F21
H1
3
VC C P
56.2 R7 41
13-C 2
13-C 213-C 2
13-C 2
13-A2
13-A2
13-A2
13-B 2
13-A2
CP U1_ DR DY *
CP U1_ DB SY *
CP U1_ DE FE R *
CP U1_ HIT M*
CP U1_ HIT *
CP U1_ DB I0*
CP U1_ ADS *
CP U1_ BP R I*
CP U1_ BN R*
CP U1_ BR E Q*
CP U1_ D*(15 :0)
13-B 2
13-B 2
M3
DIA
HE AD
LE NG TH
13-B 2
13-B 2
13-D4
13-B 2
13-D4
2 1
M24
M26
N25
N22
3704 -0011 53
DS TB N1*
DS TB P 1*
DINV 1*
D16*
M23
R 23
P2 5
P2 2
K2 5
P2 6
D17*
D18*
D19*
P2 3
L25
D20*
T24
L22
L23
D21*
D22*
D23*
D24*
D25*
D26*
D27*
G2 2
H23
N24
R 24
T25
L26
D30*
D28*
D29*
E 22
E 26
F24
J2 6
DS TB N0*
DS TB P 0*
DINV 0*
D31*
D0*
D1*
D2*
G2 4
G2 5
H22
F23
D5*
D4*
D3*
H26
E 25
E 23
K2 4
D6*
D7*
D8*
H25
K2 2
F26
J2 4
J2 3
YO NAH 2M-S OC K ET
D9*
D10*
CP U1 -2
D11*
D12*
D13*
D14*
D15*
2 / 4
DS TB N3*
DS TB P 3*
DINV 3*
D49*
D50*
D51*
D52*
D48*
AC 20
AD23
AE 24
AB 22
AA21
AC 22
AC 23
13-B 2
13-B 2
13-B 2
CP U1_ DS TB N3*
CP U1_ DB I3*
CP U1_ DS TB P 3*
D59*
D53*
AB 21
D60*
D54*
D55*
D56*
D57*
D58*
AD21
AC 25
AD20
AE 22
AF 23
AD24
AE 21
1
A
DS TB N2*
DS TB P 2*
D61*
AE 25
DINV 2*
D62*
D63*
D32*
D33*
V23
W24
Y2 5
AF 25
AF 22
AF 26
AA23
13-D4
13-B 2
13-B 2
13-B 2
CP U1_ DS TB N2*
CP U1_ DB I2*
CP U1_ DS TB P 2*
CP U1_ D*(63 :48)
C
D40*
D41*
D42*
D43*
D44*
D45*
D46*
D34*
D35*
D36*
D37*
D38*
D39*
AB 24
V24
V26
W25
U23
U25
U22
D47*
AB 25
W22
Y2 3
AA26
Y2 6
Y2 2
AC 26
AA24
13-D4
CP U1_ D*(47 :32)
D
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿3󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
B
CO MP 0,2( CO MP1 ,3) s hould be c onnected with Z o=27.4 ohm(55ohm)
trace shorter than 1/2" to their res pective Bania s socke t pins.
GT LR E F : Kee p the V oltage divide r within 0.5 "
Minimize coupling of a ny s witching signa ls to this net.
of the firs t GT LR E F 0 pin with Z o=55ohm trac e.
C
D
4
4
VC C P
1%2KR 771
1%1KR 772
10-D4 14-A 3
CP U1_ VC C SE N SE
CP U1_ VS S S E NS E
R 715
R 769
R 770
nostuff
R 765 1K
51R 768
AF 1
D22
3704-0 0115 3
3
R SV D6
C2 6
D25
D2
D3
F6
R SV D4C1R SV D5
TE S T1
TE S T2
R SV D1
R SV D2
R SV D3
R 714
54.9
54.9
27.4
27.4
11-B 4 51- B4
1%
1%
1%
1%
51-B 411-B4
AE 7
AF 7
R 26
U26
U1
V1
VC C SE N SE
VS S S E NS E
CO MP 2
CO MP 3
CO MP 0
CO MP 1
CP U1_ TH RM TR IP *
CP U1_ PR O CH OT *
8-C4
CP U2_ TH ER MD C
CP U2_ TH ER MD A
CP U1_ BS E L1
CP U1_ BS E L0
CP U1_ BS E L2
14-A310-D48-C 4
12-A3
12-A4 14-C4 20-B 1
12-C 3
12-C 3
14-A310-D 4
AD26
C2 1
B2 2
B2 3
GT LR E F
BS E L0
BS E L1
BS E L2
AD6
AF 5
D21
A24
A25
C7
VID 0
VID 1
VID 2
PR O CH OT *
TH ER MD C
TH ER MT R IP *
TH ER MD A
CP U1_ PW R GD CP U
CP U1_ DP R ST P *
CP U1_ VID (6:0 )
CP U1_ DP SL P*
CL K0_ HC LK 0*
CP U1_ DP WR *
CL K0_ HC LK 0
CP U1_ S LP *
CP U1_ PS I*
13-A2
20-C 1
20-C 1 23-B 4
51-B 4
51-B 4
AE 5
AE 3
AE 2
AF 4
AF 2
VID 3
VID 4
VID 5
VID 6
8-C1
8-C1
23-B 420-C1
20-C 113-A2
AE 6
D24
A22
A21
D7
D6
E 5
Y ONA H2M-S O CK E T
DP RS T P*
DP SL P*B5DP WR *
PS I*
PW R GO OD
C PU 1-3
BC LK 0
BC LK 1
S LP *
3
3 / 4
VC C P14
VC C P15V6VC C P16
VC C P10
VC C P11
VC C P12
R SV D10
R SV D11
R SV D19
R SV D20
B2 5
R SV D12M4R SV D13N5R SV D14T2R SV D15V3R SV D16B2R SV D17C3R SV D18
R SV D7
R SV D8
R SV D9
DB R*
C2 3
C2 4
AA1
AA4
AB 2
T22
AA3
R 764
0
ITP I/F S ignal
IT P3_ SY S R S T*
BP M0*
BP M1*
BP M2*
TR S T*
TMS
TD O
C2 0
AB 5
AB 6
11-C 3
11-C 3
CP U1_ TMS
CP U1_ TR S T *
BP M3*
TC K
TD I
AD4
AD3
AD1
AC 5
AA6
AB 3
11-C 3
11-C 3
CP U1_ TD I
CP U1_ TC K
VC C P13
PR E Q*
PR DY *
AC 2
AC 1
AC 4
VC C P9
G2 1
N21
T21
R 21
V21
W21
AL
2.5V
330uF
E C61 1
VC C P2J6VC C P3M6VC C P4N6VC C P5T6VC C P6
VC C P7
VC C P8
M21
VC C P
VC C P1
VC C A
R 6
K2 1
J2 1
B2 6
K6
C7 32
16V
10nF
P1 .5V
1000 0nF
C7 31
6.3 V
2
1
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿4󰼿>
0
0
0
0
0
0
0
PS I2 *
0 or 1
PS I2 *
0 or 1
0
DP R ST P *
DP R SL PV R
1
Active
0
DP R SL PV R
DP R ST P *
1
0
Dee per S lp
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
1
0
1
1
1
0
1
0
1
1
1
1
1
0
0
0
1
1
0
1
1.02 50 V
1.06 25 V
1.07 50 V
1.05 00 V
1.03 75 V01.01 25 V
1
1
1
1
1
1
1
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
1
1
1
1
1
0 0.00 00 V1
1
0
101
0
0
1
0
1
0
0
1
1
1
0
1
0
0
1
0
0
1
1
0
0.52 50 V
0.57 50 V
0.53 75 V
0.51 25 V
0.50 00 V
0.56 25 V
0.55 00 V
1
1
0
0
0
0
0
0
0
1
000
1.10 00 V
1.08 75 V
1
1
0
0
0
0
111
1
0
0
0
0
1
0
0.60 00 V
0.58 75 V
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1.12 50 V
1.11 25 V
1
1
0
0
0
0
1
1
1
1
0
1
0.62 50 V
0
0
010
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
011
1
1
001
0
0
1
0
1
0
0
1
0
0
1
1
1
1
1
0
101
0
1
1.13 75 V
1.15 00 V
1.20 00 V
1.21 25 V
1.18 75 V
1.17 50 V
1.16 25 V
1
1
0
1
1
1
1
0
0
0
0
0
0
0
1
010
0
0
1
0
0
1
0 0.68 75 V
0
0
0
0
0
0
11
1
0
00
1
1
0
1
1
1
0
0
0
0
1
1
0
1
1
1
0
0.67 50 V
0.66 25 V
0.63 75 V10.61 25 V
0.65 00 V
0.70 00 V
0.71 25 V
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
0
0
0
0
0
0
0
1
1
1
0
0
0
0
1
0
1
0
0
0
1
0
0
1
0
1
1
0
1.26 25 V
1.22 50 V
1.27 50 V
1.30 00 V
1.25 00 V
1.23 75 V
1.28 75 V
0
0
0
000
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
11
1
0
1
0
0
0
0
0
1
1
1
0
0
0
0
0
1
1
1
0.78 75 V
0.73 75 V
0.72 50 V
0.75 00 V
0.76 25 V
0.77 50 V
0.80 00 V
0
0
0
1
1
1
1
1.31 25 V
0
1
1
0
1
11
0.81 25 V
0
0
0
0
0
0
1
1
1
1
0
1
1
0
1.32 50 V
1.33 75 V
0
0
1
1
1
1
0
0
1
1
0
1
0
1
0.83 75 V
0.82 50 V
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
0
0
1
0
0
0
1
1
0
1
1
0
1.37 50 V
1.38 75 V
1.35 00 V
1.36 25 V
0
0
0
0
1
1
1
1
1
1
1
0
0
0
0
01
0
1
0 0.86 25 V
0
0
1
1
0
0
1
1
0.87 50 V
0.88 75 V
0.85 00 V
0
0
0
0
0
1
0
1
0
1
1
0
1
1
1.41 25 V
1.40 00 V
0
0
101
0
1
1
0
1
0
1
0
1
0
1
1
0.91 25 V
0.90 00 V
0
0
01
0
1
0
1.42 50 V
0
1
0
1
1
1
0
0.92 50 V
VID (6:0 )
0
0
0
0
0
010
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0 1.4 750 V
0
0
1
0
1
0
1
1
0
0
0
1
1
1
0
0
0
Voltage
1.48 75 V
1.50 00 V
1.43 75 V
1.46 25 V
1.45 00 V
VID (6:0 )
0
0
0
0
0
0
1
1
1
1
1
1
0
0
0
0
0
0
1
1
1
1
1
1
1
0
0
1 0.95 00 V
0
1
0
00
01
1
0
1
0
0
1
Voltage
1.00 00 V00.97 50 V
0.96 25 V
0.93 75 V
0.98 75 V
C PU C ore V oltage T able
Active Mode
Dual Mode R e gion
Active/De eper S lee p
IMV P-6
2
*Yona h P roces sor (2.33 G Hz / 800 MHz : T BD )
1
1
1
1
1
1
*"1111 111" : 0V power good as se rted.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
0
1
0
1
0
1
0.00 00 V
0.00 00 V
0.00 00 V
0.00 00 V
1
1
1
11
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
1
1
0
0
0
1
0.00 00 V
0.00 00 V
0.00 00 V
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
1
1
1
1
1
0
101
0
0
1
1
0
0.02 50 V
0.05 00 V
0.03 75 V10.01 25 V
1
1
1
1
1
101
1
1
1
0
0
0
0
1
1
0
1
0.07 50 V
0.06 25 V
1
10
1
0
0
0
0
0
1
0
1
1
0
1
1
0
1
1
1
1
0
0
1
0
1
1
0
0
0
0
1
1
1
0
0
1
0.12 50 V
0.11 25 V
0.13 75 V
0.10 00 V
0.15 00 V
0.16 25 V
0.08 75 V
1
11
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
0
0
1
0
0
1
1
0
0
01
1
1
1
0 0.25 00 V
0
0
1
1 0.21 25 V
0
0
1
0
1
0
1
0
1
0.20 00 V
0.18 75 V
0.23 75 V
0.17 50 V
0.22 50 V
B
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
01
1
0
1
0
0
1
1
0
0.30 00 V
0.28 75 V
0.26 25 V
0.27 50 V
1
1
1
1
0
1
1
1
1
0.31 25 V
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
10
0
1
1
0
0
1
1
0
0
0
0
101
0
1
0
1
1
0
1
0
0
1
0
0.41 25 V
0.37 50 V
0.32 50 V
0.33 75 V
0.38 75 V
0.35 00 V
0.40 00 V
0.36 25 V
C
VID (6:0 )
Dual Mode R e gion
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
0
1
1
1
0
1
0
1
1
1
0
0
0.43 75 V
0.46 25 V
0.42 50 V
0.45 00 V
Dee per S leep/E xtended Deepe r S leep
1
1
0
0
1
1
0
0
0
0
10
0
1
0.47 50 V
Voltage
0.48 75 V
1
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
IF IT DO UB LE D
CH E CK B UL K C AP U SI NG
4 2
B UL K C AP A RE CP U VR M S C HE MAT IC S IDE .
TH E SE AR E JU S T T E XT NO T R EA L P AR T S! !
**Note
AL
330uF
2.5V
E CA P
270uF (C P U)
VC C _C OR E
AL
VC C P
2.5V
E C61 0
330uF
BC 633
E CA P
330uF
AL
2.5V
AL
E CA P
330uF
2.5V
AL AL
330uF
2.5V
E CA P
330uF
AL
2.5V
E CA P
2.5V
E CA P
330uF
100nF
BC 635
100nF
BC 634
100nF
BC 636
BC 637
100nF
BC 612
100nF100nF
3
B
CP U1_ VC C SE N SE
CP U1_ VS S S E NS E
10-B 3 51-B 4
R 725
R 726
51-B 410-B 3
100 1%
100 1%
BC 632
22000 nF
6.3V
20%
BC 616
22000 nF
6.3V20%
20%
BC 622
22000 nF
6.3V
20%
20%
22000 nF
BC 627
20%
6.3V
20%
22000 nF
BC 618
6.3V
20%20% 6.3V
20%
22000 nF
BC 604
20%
6.3V
20%
22000 nF
BC 626
20%
20%
22000 nF
BC 629
20%
20%
BC 624
22000 nF
20%
6.3V
20%
BC 628
22000 nF
6.3V20%
20%
BC 605
22000 nF
20%
6.3V20%
22000 nF
BC 600
6.3V20%
20%
22000 nF
BC 623
20%
20%6.3V
22000 nF
BC 607
20%
20%6.3V
22000 nF
BC 602
20%
6.3V
20%6.3V
BC 608
22000 nF
20%
20%
6.3V
VC C _C OR E
22000 nF
BC 610 B C61 1
6.3V
22000 nF
6.3V
BC 601
22000 nF
6.3V
BC 614
22000 nF
6.3V
BC 620
22000 nF
6.3V
BC 613
22000 nF
6.3V 6.3V
BC 603
22000 nF
22000 nF
BC 606
6.3V
BC 609
22000 nF
6.3V
BC 631
22000 nF
6.3V
BC 617
22000 nF
6.3V
22000 nF
BC 630
6.3V
BC 619
22000 nF
6.3V
BC 615
22000 nF
6.3V
BC 621
22000 nF
6.3V
BC 625
22000 nF
6.3V
I T P/X DP
WH EN IT P NOT U SE D S TU FF T HIS B LO CK ONL Y
WIT HIN 2. 0" O F CP U & DE L ET T HE O TH ER S
C
**Note
R 724
56
5%
56
R 723
D
4
VC C P
56
R 722
56
10-B 2
R 721
10-B 2
10-B 2
10-B 2
CP U1_ TC K
CP U1_ TD I
CP U1_ TMS
CP U1_ TR S T *
3
AD11
AC 11
AC 14
AE 14
AB 11
AA11
AE 11
AF 11
AC 3
AD2
AB 4
AE 4
AB 1
AA2
AE 1
C5
E 6
B6
F5
J5
VS S 57
VS S 58H6VS S 59
VS S 60
R 25
VS S 141
V25
VS S 142
W26
VS S 143
H24
VS S 144
G23
VS S 145
K23
VS S 146
L24
VS S 147
P2 4
VS S 148
N23
VS S 149
T23
VS S 150
U24
VS S 151
Y24
VS S 152
W23
VS S 153
H21
VS S 154
J22
VS S 155
M22
VS S 156
L21
VS S 157
P2 1
VS S 158
R 22
VS S 159
V22
VS S 160
U21
VS S 161
Y21
VS S 162
VS S 61
1
VS S 62
M5
VS S 63
VS S 64V5VS S 65U6VS S 66Y6VS S 67A4VS S 68D4VS S 69
L6
P6
VS S 53
VS S 54
VS S 55
VS S 56
AD7
AC 7
VC C 49
VC C 50
VC C 100
E 7
F7
R 5
A
AF 6
AF 3
VS S 46
VS S 47
VS S 48
VS S 49
VS S 50
VS S 51
VS S 52
AE 10
AF 10
AC 9
AE 9
AB 7
AA7
AF 9
VC C 43
VC C 44
VC C 45
VC C 46
VC C 47
VC C 48
VC C 42
VC C 92C9VC C 93
VC C 94F9VC C 95
VC C 96
VC C 97B7VC C 98A7VC C 99
F10
E 10
E 9
VS S 70H3VS S 71G4VS S 72
VS S 73
VS S 74
VS S 75
E 3
K4
L3
P3
B
AD8
AE 8
AA5
AB 8
AA8
AF 8
VS S 40
VS S 41
VS S 42
VS S 43
VS S 44
VS S 45
AC 10
AD9
VC C 39
VC C 40
VC C 41
VC C 90D9VC C 91
C1 0
VS S 76
VS S 77
VS S 78
N4
T4
AD10
D10
U3
AA9
VC C 38
VC C 88A9VC C 89
VS S 79
Y3
AA10
AB 9
VC C 36
VC C 37
VC C 87
VC C 86
B9
A10
VS S 80D1VS S 81C2VS S 82F2VS S 83
W4
VS S 36
VS S 37
VS S 38
VS S 39
AC 12
AE 12
AB 10
AF 12
VC C 34
VC C 35
VC C 32
VC C 33
VC C 82
VC C 83
VC C 84
VC C 85
C1 2
F12
E 12
B1 0
VS S 84
VS S 85J2VS S 86M2VS S 87N1VS S 88
G1
K1
AC 8
AD5
AC 6
AF 13
VS S 30
VS S 31
VS S 32
VS S 33
VS S 34
VS S 35
VC C 31
VC C 81
VS S 28
VS S 29
AD14
AC 13
AD12
AA12
AA13
AE 13
AB 12
AF 14
VC C 24
VC C 25
VC C 26
VC C 27
VC C 28
VC C 29
VC C 30
VC C 74
VC C 75
VC C 76
VC C 77
VC C 78
VC C 79
VC C 80
A13
D14
C1 3
F14
E 13
B1 2
A12
D12
VS S 89
VS S 90
VS S 91
VS S 92
VS S 93
T1
R 2
V2
W1
A26
AD16
AC 16
AD13
AE 16
AB 13
AA14
AF 16
VS S 23
VS S 24
VS S 25
VS S 26
VS S 27
AD15
AC 15
AE 15
AB 14
AF 15
VC C 19
VC C 20
VC C 21
VC C 22
VC C 23
AC 19
AD19
AC 21
AE 19
AB 16
AA16
AF 19
VS S 20
VS S 21
VS S 22
VS S 17
VS S 18
VS S 19
AE 18
AE 17
AB 15
AA15
AF 18
AF 17
VC C 13
VC C 14
VC C 15
VC C 16
VC C 17
VC C 18
AD22
AA19
AB 19
AF 21
VS S 16
VS S 15
VS S 14
VS S 13
VS S 12
VS S 11
VS S 10
AD17
AC 18
AC 17
AD18
AA17
AA18
AB 17
VC C 10
VC C 11
VC C 12
VC C 7
VC C 6
VC C 9
VC C 8
Y ONA H2M-S O CK E T
C PU 1-4
4 / 4
VC C 72
VC C 73
VC C 70
VC C 71
F15
E 15
B1 4
VS S 94
VS S 95
VS S 96
VS S 97
D26
C2 5
F25
VC C 63
VC C 64
VC C 65
VC C 66
VC C 67
VC C 68
VC C 69
F17
E 18
E 17
B1 5
A15
D15
C1 5
VS S 100
VS S 101
VS S 102
VS S 103
VS S 104
VS S 99
VS S 98
D23
B2 4
A23
E 24
B2 1
C2 2
F22
VC C 56
VC C 57
VC C 58
VC C 59
VC C 60
VC C 61
VC C 62
F18
E 21
B1 7
A18
A17
D18
D17
C1 8
C1 7
VS S 109
VS S 110
VS S 111
VS S 105
VS S 106
VS S 107
VS S 108
E 19
B1 6
B1 9
A19
D19
C1 9
F19
C
AD25
AC 24
AB 23
AE 26
AA22
VS S 9
AB 18
VC C 5
VC C 55
B1 8
VS S 112
A16
AA25
AE 23
VS S 8
AE 20
VC C 4
VC C 54
E 20
VS S 113
D16
AB 26
AF 24
VS S 4
VS S 3
VS S 2
VS S 7
VS S 6
VS S 5
VS S 1
VC C _C OR E
AA20
AB 20
AF 20
VC C 1
VC C 3
VC C 2
VC C 53
VC C 51
VC C 52
F20
B2 0
A20
VS S 114
VS S 115
VS S 116
VS S 117
VS S 118
C1 6
F16
E 16
B1 3
A14
T26
VS S 140
N26
VS S 139
M25
VS S 138
J25
VS S 137
K26
VS S 136
G26
VS S 135
E8
VS S 134
F8
VS S 133
C8
VS S 132
D8
VS S 131
A8
VS S 130
B8
VS S 129
E1 1
VS S 128
F11
VS S 127
C1 1
VS S 126
D11
VS S 125
A11
VS S 124
B11
VS S 123
E1 4
VS S 122
F13
VS S 121
VC C _C OR E
VS S 119
VS S 120
D13
C1 4
2
1
D
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿5󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
B
CP U3_ TH RM TR IP *
D
KB C3 _R S MR ST *
KB C3 _P WR S W*
CL K3_ PW R GD *
CP U1_ TH RM TR IP *
4 1
20-B 114- C410-C 3
CP U1_ PR O CH OT *
3
10-C 3
1
2
Q61 4
MMB T39 04
R 719
2K
1%
VC C P
P3 .3V _AU X
3
10K
1%
R 720
53-B 1 12-C 4
CP U3_ TH RM TR IP *
VC C P
75
R 713
1%
1
3
2
Q60 8
MMB T39 04
21-? ?
CP U3_ ALE R T *
KB C3 _C AL_ THR M*
43-? 4
G
1
D
S
2
3
Q61 5
R HU0 02N06
R 731
10K
1%
TH 600 E RT J 1VG 103 FA
2
1
2.2nF
R 730
2K
1%
C6 98
P LAC E NE AR T O D DR 2 S ODIMM
KB C3 _TH R M_AL E RT *
43-? 4 56 -B447-D4
21-B ? 23-B4 43- ?2
43-? 2 51-C48-C4 21- C?
43-? 4
100K
P5 V_A UX
R 105 R 104
100K
P3 .3V _AU X
MIC OM_ P3V
10K
R 106
C PU / DDR 2 Therma l S ens or
14
23
9
1209-0 0153 1
HW _LO CK *
AT F_I NT*
VC P
TH ER MT R IP _S IO
TH ER M_ ST P *
INT R UDE R *
R ES E R VE D
VS S
12
16
15
24
3
21
13
8
S MBA DDR S E L
R EM _DIO D1_N
R EM _DIO D1_P
R EM _DIO D2_P
19
20
18
10
11
E MC6 N300
U9
PO WE R _S W*
TH ER MT R IP 1*6TH ER MT R IP 2*7TH ER MT R IP 3*
+3V_ PW R OK *5+R TC _P WR 3V
VS US _P W RG D
R EM _DIO D2_N
TH DAT _S MB
TH CL K_S MB
+3VS U S
VS E T
17
2
1
4
22
49.9
R 107
1%
P3 .3V _AU X
100nF
10V
C6 9
3
P3 .3V _AU X
1%
R 103
C6 92
2.2 nF
10K
P3 .3V
1%
10K
2.2nF
C6 8
1
53-B 1 43-?2
3
2
25-A?
MMB T39 06LT 1
VG A3_T HR MD P
THE R M_ ST P *
10-C 3
10-C 3
25-A?
43-? 2
43-? 2
Q61 3
CP U2_ TH ER MD C
CP U2_ TH ER MD A
KB C3 _TH E RM _S MDAT A
KB C3 _TH E RM _S MC LK
VG A3_T HR MD N
R 108
R 109
10K
1%
2
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿6󰼿>
C6 7
2.2nF
1%
R 102
1%
30.1 K
R 101
KB C3 _F ANC TR L
43-? 2
R 84
100K
R 83
1%
C hanged to C ontrol Methode(E B L)
FAN 3_F DB AC K*
43-? 2
R 75
10K
1%
MMB D301 LT1
13
D13
B
100
1%
3
4
QF 1
S I3456 DV
S
D1
D22D3
D4G
1
5
6
P3 .3V
10uH
MBR 0 540T 1
L3
4
D609
21
1000 0nF
6.3V
C6 6
HDR -4 P-S MD
123
F AN C ontrol Logic
P5 V
Line Width = 20 mil
J6 01
CC
30.1 K
P3 .3V _AU X
2
- Us e rec ommended trace widths and s pacings (10 mil)
- Pla ce a ground plane unde r the trac es.
- Ke ep traces awa y from high voltage (+12 V bus )
- Us e guard trac es fla nking DX P and D XN and connecting to GND
- Pla ce the T hermal Se nsor close to a remote diode.
- Ke ep traces awa y from fa st data buse s a nd C R T s ignal.
R efe r T o T her mal S ens or L ayo ut G uideli nes .
14
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
MCH 1_H YS WI NG
MCH 1_H XS WIN G
B
1%
221
R 817
100
R 819
1%
C7 73
100nF
13-A4
MCH 1_H YS WI NG
VC C P
330uF
2.5V
AL
E C61 2
270uF
Plac e on the edge
16V
220nF
BC 666
BC 638
4700 nF
10V
Plac e in cavity
BC 640
2200nF
34
2
N9
VT T_ 40
P1
VT T_ 41
P1 0
VT T_ 42
P1 1
VT T_ 43
P1 2
VT T_ 44
P1 4
VT T_ 45
P2
VT T_ 46
P3
VT T_ 47
P4
VT T_ 48
P5
VT T_ 49
P6
VT T_ 50
P7
VT T_ 51
P8
VT T_ 52
P9
VT T_ 53
R 1
VT T_ 54
R 10
VT T_ 55
R 11
VT T_ 56
R 12
VT T_ 57
R 13
VT T_ 58
R 14
VT T_ 59
R 2
VT T_ 60
R 3
VT T_ 61
R 5
VT T_ 62
R 6
VT T_ 63
R 8
VT T_ 64
T12
VT T_ 65
T13
VT T_ 66
T14
VT T_ 67
U12
VT T_ 68
U13
VT T_ 69
V12
VT T_ 70
V13
VT T_ 71
V14
VT T_ 72
W12
VT T_ 73
W13
VT T_ 74
W14
VT T_ 75
Y12
VT T_ 76
Y13
VT T_ 77
HT RD Y*
E 7
13-C 4
13-C 4
VC C P
R 818
R 820
R 816
1%24. 9
HY R CO MPY1HY SC O MPU1HY SW ING
R 815
60
58
61
59
63
62
54.9
24.9
54.9
1%
1%
1%
AD10
AD4
AC 8
AC 6
W1
E 1
E 4
HXR C OM P
HXS W ING
AB 5
E 2
HXS C OM P
HD*_6 1
HD*_6 2
HD*_6 3
HD*_5 9
HD*_6 0
52
55
57
56
53
54
AC 11
AC 2
AD1
AD9
AC 1
AD7
AB 3
HD*_5 2
HD*_5 3
HD*_5 4
HD*_5 5
HD*_5 6
HD*_5 7
HD*_5 8
45
44
49
48
42
51
50
AB 11
AC 9
HD*_5 0
HD*_5 1
43
47846
AA10
AA4
AA7
AA2
AA6
AA1
AB 4
HD*_4 3
HD*_4 4
HD*_4 5
HD*_4 6
HD*_4 7Y8HD*_4 8
HD*_4 9
35
34
33
36
40
37
39
41
38
AB 8
HD*_4 0
HD*_4 1W2HD*_4 2
AA9
Y1 0
HD*_3 4W4HD*_3 5W3HD*_3 6Y3HD*_3 7Y7HD*_3 8W5HD*_3 9
HD*_3 2
HD*_3 3
1 / 5
HDS T BN *_2Y5HDS T BN *_3
HDS T BN *_0K4HDS T BN *_1
HDS T BP *_0K3HDS T BP *_1T6HDS T BP *_2
HC PU S LP *
HDE F E R*
HDP WR *
HDR DY *
HLO C K*
HDB S Y*
HR S *_2
HHI TM*
HHI T*
E 3
D4
B3
J9
HR S *_0B4HR S *_1
E 6
D6
D3
A7
C3
H8
HDS T BP *_3
HR E Q*_0D8HR E Q*_1G8HR E Q*_2B8HR E Q*_3F8HR E Q*_4
T7
AC 4
AA5
AC 5
A8
AB 10
HC PU R ST *
HDIN V*_0J7HDIN V*_1W8HDIN V*_2U3HDIN V*_3
HB RE Q 0*
HV RE F _1
HV RE F _2
HB PR I*
HC LK N
HC LK P
HB NR *
C6
F6
C7
AG 1
AG 2
B7
K1 3
C
VC C P
30
32
31
28
29
AB 7
T9
T5
HD*_3 0W6HD*_3 1
1%
R 845
100
100nF
C8 31
MCH 1_H XS WIN G
17
23
26
21
20
19
24
22
252827
18
W11
U11
T11
U7
HD*_1 8T3HD*_1 9
HD*_2 0U9HD*_2 1
HD*_2 2
HD*_2 3W9HD*_2 4T1HD*_2 5T8HD*_2 6T4HD*_2 7W7HD*_2 8U5HD*_2 9
HD*_1 7
C ALIS TOG A
U1 2-1
HAD ST B *_0B9HAD ST B *_1
J1 3
C1 3
HA*_2 7
HA*_2 8
HA*_2 9
HA*_3 0
HA*_3 1
HAD S*
A14
C1 4
D14
E 8
HA*_2 1
HA*_2 2
HA*_2 3
HA*_2 4
HA*_2 5
HA*_2 6
B1 2
B1 4
C1 2
A12
A13
E 13
G1 3
F12
D
VC C P
R 844
221
1%
13-A4
CP U1_ D*(63 :0)
9-C1 9-C 2 9-D1 9-D2
14
13
15
16
12
K1 1
T10
HD*_1 5G4HD*_1 6
HA*_1 6
HA*_1 7
HA*_1 8
HA*_1 9
HA*_2 0
J1 5
F14
D12
A11
C1 1
5
11
7
9
10
K1
HD*_1 0K7HD*_1 1J8HD*_1 2H4HD*_1 3J3HD*_1 4
HD*_7G2HD*_8K9HD*_9
HA*_1 1
HA*_1 2
HA*_1 3D9HA*_1 4
HA*_1 5
J1 2
G1 4
J1 4
H13
0
1
4
6
2
3
C8 29
C7 74
G1
H3
H1
K2
J6
J1
HD*_4
HD*_2
HD*_3
HD*_0F1HD*_1
HD*_5
HD*_6
A6
VT T_ 1
AA12
VT T_ 2
AA13
VT T_ 3
AB 1
VT T_ 4
AB 12
VT T_ 5
AB 13
VT T_ 6
AB 14
VT T_ 7
AC 13
VT T_ 8
AC 14
VT T_ 9
AD13
VT T_ 10
D2
VT T_ 11
L12
VT T_ 12
L13
VT T_ 13
L14
VT T_ 14
M1
VT T_ 15
M10
VT T_ 16
M11
VT T_ 17
M12
VT T_ 18
M13
VT T_ 19
M14
VT T_ 20
M2
VT T_ 21
M3
VT T_ 22
M4
VT T_ 23
M5
VT T_ 24
M6
VT T_ 25
M7
VT T_ 26
M8
VT T_ 27
M9
VT T_ 28
N1
VT T_ 29
N10
VT T_ 30
N11
VT T_ 31
N12
VT T_ 32
N13
VT T_ 33
N14
VT T_ 34
N3
VT T_ 35
N4
VT T_ 36
N5
VT T_ 37
N7
VT T_ 38
N8
VT T_ 39
HA*_1 0
HA*_3
HA*_4C9HA*_5
HA*_6
HA*_7
HA*_8
HA*_9
H9
E 11
G1 1
F11
G1 2
F9
H11
C7 72
470nF
220nF
16V470nF
3
16V
16V
2
VC C P
2
4
0
1
10-C 3
10-C 320-C1
9-C3
CP U1_ S LP *
CP U1_ TR DY *
9-C3
9-C3
9-C3
9-C3
9-C3
9-C3
CP U1_ DP WR *
CP U1_ DE FE R *
CP U1_ DB SY *
CP U1_ LO CK *
CP U1_ HIT M*
CP U1_ HIT *
CP U1_ DR DY *
3
9-C1
9-C3
9-C3
9-C3
CP U1_ R S2 *
CP U1_ R S1 *
9-C4
CP U1_ R S0 *
CP U1_ R EQ *(4:0 )
9-C1
9-C2
9-C2
9-B2
9-B1
CP U1_ DS TB P 3*
9-B2
9-B1
CP U1_ DS TB P 2*
CP U1_ DS TB P 1*
CP U1_ DS TB P 0*
CP U1_ DS TB N3*
CP U1_ DS TB N2*
CP U1_ DS TB N1*
CP U1_ DS TB N0*
8-C1
9-C1
8-C1
9-C2
9-B2
9-B1
CP U1_ DB I3*
CP U1_ DB I2*
CP U1_ DB I1*
CP U1_ DB I0*
9-C3
9-C3
9-C3
9-C3
CP U1_ CP UR S T *
CL K0_ HC LK 1
CL K0_ HC LK 1*
9-C3
9-C4
9-B4
30
31
27
29
CP U1_ ADS T B0*
CP U1_ BR E Q*
CP U1_ ADS *
CP U1_ BP R I*
CP U1_ BN R*
CP U1_ ADS T B1*
20
25
23
21
26
24
22
13
15
18
19
17
10
16
11
14
12
4
5
6
8
3
7
9
9-C49-D4
CP U1_ A*(31 :3)
VC C P
1%
R 842
200
R 843
100
1%
1
A
B
100nF
C8 30
10V
C
D
14
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿7󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
150
WH EN NO T US E D(F OR P M)
H30
LC TL A_C LK
H29
LC TL B_ DAT A
F32
LV DD_E N
J30
LB KL T_E N
D32
LB KL T_C T L
B38
LIB G
C3 3
LV RE F H
C3 2
LV RE F L
C3 5
LV BG
G26
LDD C_ CL K
G25
LDD C_ DAT A
H28
SD VO CT R L_C LK
H27
SD VO CT R L_D ATA
K16
CF G _0
K18
CF G _1
J18
CF G _2
F18
CF G _3
E1 5
CF G _4
F15
CF G _5
E1 8
CF G _6
D19
CF G _7
D16
CF G _8
G16
CF G _9
E1 6
CF G _10
D15
CF G _11
G15
CF G _12
K15
CF G _13
C1 5
CF G _14
H16
CF G _15
G18
CF G _16
H15
CF G _17
J25
CF G _18
K27
CF G _19
J26
CF G _20
A41
R SV D_5 R SV D_6 R SV D_7
F3
R SV D_8
F7
R SV D_9
H7
R SV D_1 0
J19
R SV D_1 1
R 32
R SV D_1 2
T32
R SV D_1 3
A3
NC _1
A39
NC _2
A4
NC _3
A40
NC _4 NC _5 NC _6
AY 1
NC _7 NC _8
B2
NC _9
B41
NC _10
BA 1
NC _11
BA 2
NC _12
BA 3
NC _13 NC _14 NC _15 NC _16
C1
NC _17
C4 1
NC _18
D1
NC _19
1% 1%150
150
1%
TV O3_ C_I NT
TV O3_ CO MP_ INT
TV O3_ Y_I NT
LC D1_B DA TA2 *
LC D1_B DA TA1
LC D1_B DA TA0
LC D1_B DA TA2
LC D1_B C LK *
LC D1_B C LK
31-C 4
31-C 4
31-C 4
31-C 4
E 27
E 26
LB CL KN
LB CL KP
31-C 4
31-C 4
D28
D27
D29
F29
F30
F28
R SV D_3
R SV D_4
LB DAT AN_ 2
LB DAT AP _0
LB DAT AP _1
LB DAT AP _2
LV DS
NCR SV DCF G
S M_OC DC OM P_0
S M_OC DC OM P_1
S M_R CO MP P
S M_VR E F _0
S M_VR E F _1
AT 9
AK 1
AK 41
AL2 0
AF 10
TP 1071 5
TP 1071 4
R oute as s hort as poss ible
R 883 R 887 R 880
Int.G FX s tuff
Ja panes e digital satellite Broa dcas ting.
D-C onnector Se lect O ption
R 916
R 917
NO S TU FF
100K 1%
1%100 K
14-C 4
TV O3_ DCO NS E L0
TV O3_ DCO NS E L1
LC D3_B K LT CT R L
31-B 2
Int.G FX s tuff
3
31-D4 25-? ?
10-C 310-D4 8-C431-A2
10-D4 10-B3
25-? ?3 1-D4
32-C 4
32-B 4
8-C410-D4 10 -B3
CP U1_ BS E L0
CP U1_ BS E L1
LC D3_E DI D_DA TA
LC D3_E DI D_C LK
CP U1_ BS E L2
DV O2_C T R LC LK
DV O2_C T R LDAT A
14-C 4
LC D3_B K LT EN
R 906 R 907
LC D3_V DDE N
31-D2
R 922
LE F T A S NO C ONN EC T ION
P3 .3V
R 912
R 913
10K
10K
1.5K 1%
TP 346
0 0
TP 1080 0
9 10
TP 1080 1 TP 1080 2 TP 1080 3
19 20
17-C 1
17-B 1
17-B 1
AF 11
AG 11
MCH 3_C FG (1 6)
MCH 3_C FG (2 0:19)
MCH 3_C FG (1 0:9)
2
AW1
AW4 1
CF G (17: 3)
CF G (20: 18)
AY 41
Internal Pull-up
Internal Pull-down
BA 39 BA 40 BA 41
B
clos e to G MC H
R 882
0
R 886
0
R 881
0
E xt.GF X stuff
LC D1_B DA TA0 *
LC D1_B DA TA1 *
LC D1_A CL K*
LC D1_A CL K
31-C 4
31-C 4
31-C 4
31-C 4
G3 0
D30
A33
A32
LA_ CL KN
LA_ CL KP
LB DAT AN_ 0
LB DAT AN_ 1
Pla ce 150 ohm termination res istors
TV DAC _C : C, P r
TV DAC _B : Y
TV DAC _A : C V BS , Pb
P1 .5V
1%
150
R 885
150 1%
R 884
150
R 888
Int.G FX s tuff
R 898
0
LC D1_A DAT A1*
LC D1_A DAT A2*
LC D1_A DAT A0*
LC D1_A DAT A0
LC D1_A DAT A1
LC D1_A DAT A2
31-C 4
31-D4
31-C 4
A34
A36
R SV D_2
LAD ATA P_ 2
31-D4
31-D4
31-D4
A35
A37
B3 7
B3 4
R SV D_1
LAD ATA N_2
LAD ATA P_ 0
LAD ATA P_ 1
R 895
1%
4.99 K
C3 7
B3 5
B1 6
B1 8
B1 9
J2 0
LAD ATA N_0
LAD ATA N_1
TV _IR E F
TV _IR T NA
TV _IR T NB
TV _IR T NC
1%
R 897
E xt.GF X stuff
14-B 4 33 -A4
P1 .5V
0
TV O3_ DCO NS E L1
TV O3_ DCO NS E L0
TV O3_ CO MP_ INT
TV O3_ C_I NT
TV O3_ Y_I NT
14-A4
14-B 4 33 -A4
14-A4
33-A41 4-B4
R 896
255
1%
C1 8
A16
A19
K3 0
J2 2
J2 9
CR T _B LUE *
CR T _IR E F
TV DAC _A
TV DAC _B
TV DAC _C
TV _DC ON S EL 0
TV _DC ON S EL 1
TV
C
VG A3_G R E E N_IN T
VG A3_B LU E _INT
VG A3_R E D_ INT
VG A3_H S YN C
VG A3_V S YN C
33-D4
33-C 4
33-D4
33-C 4
33-C 4
R 911
R 914
37.4
37.4
1%
1%
G2 3
H23
D23
C2 2
E 23
B2 2
A21
B2 1
CR T _V SY NC
CR T _B LUE
CR T _G R EE N
CR T _G R EE N*
CR T _HS Y NC
CR T _R E D
CR T _R E D*
VG A PM
CH P3_ DP RS L PV R
MCH 3_IC HS Y NC *
VG A3_D DC DAT A
MCH 3_E XT T S0 *
VG A3_D DC CL K
21-B ?
18-C 1
33-D4
33-D4
18-C 3
R 915
R 910
KB C3 _IMV P6 _P WR GD
MCH 3_B MB US Y*
21-D?
21-B ?
R 501
NO S TU FF
0
AH3 3
G2 8
H26
C2 6
C2 5
K2 8
F25
PM_ BM_ BU S Y*
PM_ E XT _TS *_0
PM_ E XT _TS *_1
PW R OK
IC H_S Y NC *
CR T _DD C_ CL K
CR T _DD C_ DAT A
C ALIS TO GA
U1 2-2
2 / 5
S M_R CO MP N
S M_OD T_2
S M_OD T_3
S M_OD T_0
S M_OD T_1
S M_C KE _0
S M_C KE _1
S M_C KE _2
S M_C KE _3
AY 20
AU2 1
AV9
AY 29
BA 13
BA 12
19-D4 1 8-C 2
19-C 4 18 -B2
19-C 4
19-C 4 18 -B2
18-C 219-D4
18-B 419-C4
18-B 4
ME M1_O DT1
ME M1_C KE 2
ME M1_O DT2
ME M1_O DT3
ME M1_O DT0
ME M1_C KE 3
S M_C S*_ 0
S M_C S*_ 1
S M_C S*_ 2
S M_C S*_ 3
AU2 0
AT 20
BA 29
AW2 1
19-D4 1 8-C 4
19-D4
18-C 219-D4
18-C 219-D4
18-C 4
ME M1_C KE 0
ME M1_C KE 1
ME M1_C S 2*
ME M1_C S 3*
S M_C K_0
S M_C K_1
S M_C K_2
S M_C K_3
AY 35
AR 1
AW7
AW4 0
AW1 3
AW1 2
AY 21
19-D4 1 8-C 4
19-D4
18-C 4
18-C 2
18-C 4
18-C 2
18-C 4
ME M1_C S 0*
ME M1_C S 1*
CL K1_ MC LK 1
CL K1_ MC LK 2
CL K1_ MC LK 3
CL K1_ MC LK 0
DMI_ TX P_2
DMI_ TX P_3
S M_C K*_0
S M_C K*_1
S M_C K*_2
S M_C K*_3
AF 37
AW3 5
AT 1
AY 7
AY 40
AG 41
18-C 4
18-C 2
18-C 2
18-C 4
21-C ?
21-B ?
DMI1_ R XP 2
DMI1_ R XP 3
CL K1_ MC LK 1*
CL K1_ MC LK 2*
CL K1_ MC LK 3*
CL K1_ MC LK 0*
ME M1_V R E F
DMID DR MU X
DMI_ TX N_0
DMI_ TX N_1
DMI_ TX N_2
DMI_ TX N_3
DMI_ TX P_0
DMI_ TX P_1
AE 37
AF 41
AG 37
AH4 1
AC 37
AE 41
21-C ?
21-C ?
21-C ?
21-C ?
21-C ?
21-B ?
DMI1_ R XN3
DMI1_ R XN0
DMI1_ R XP 0
DMI1_ R XN1
DMI1_ R XP 1
DMI1_ R XN2
DMI_ RX N_2
DMI_ RX N_3
DMI_ RX P _0
DMI_ RX P _1
DMI_ RX P _2
DMI_ RX P _3
AG 35
AH3 9
AC 35
AE 39
AF 35
AG 39
21-C ?
21-C ?
21-B ?
21-B ?
21-B ?
21-B ?
DMI1_ TX P2
DMI1_ TX N3
DMI1_ TX P3
DMI1_ TX P0
DMI1_ TX P1
DMI1_ TX N2
43-? 2
21-C ?
CP U1_ TH RM TR IP *
10-C 3 12-A 4 20- B1
G6
TH ER MT R IP *
DMI_ RX N_1
AF 39
21-C ?
DMI1_ TX N1
NO S TU FF
PL T3_ R ST *
44-D?21-A? 21-C ? 25 -A?
8-B1
R 959
100
AH3 4
R ST IN*
PC IE G F X
DMI_ RX N_0
AE 35
DMI1_ TX N0
10K
10K
CL K1_ DR E FS S C LK *
CL K1_ DR E FS S C LK
CL K1_ DR E FC LK *
CL K1_ DR E FC LK
8-B4
8-B4
8-B1
C4 0
D41
A27
A26
D_R E F CL KN
D_R E F CL KP
D_R E F _S SC LK N
D_R E F _S SC LK P
CL K
EX P _A_C OM PI
EX P _A_C OM PO
EX P _A_R X N_0 EX P _A_R X N_1 EX P _A_R X N_2 EX P _A_R X N_3 EX P _A_R X N_4 EX P _A_R X N_5 EX P _A_R X N_6 EX P _A_R X N_7 EX P _A_R X N_8
EX P _A_R X N_9 EX P _A_R X N_10 EX P _A_R X N_11 EX P _A_R X N_12 EX P _A_R X N_13 EX P _A_R X N_14 EX P _A_R X N_15
EX P _A_R X P_ 0 EX P _A_R X P_ 1 EX P _A_R X P_ 2 EX P _A_R X P_ 3 EX P _A_R X P_ 4 EX P _A_R X P_ 5 EX P _A_R X P_ 6 EX P _A_R X P_ 7 EX P _A_R X P_ 8
EX P _A_R X P_ 9 EX P _A_R X P_ 10 EX P _A_R X P_ 11 EX P _A_R X P_ 12 EX P _A_R X P_ 13 EX P _A_R X P_ 14 EX P _A_R X P_ 15
EX P _A_T XN _0
EX P _A_T XN _1
EX P _A_T XN _2
EX P _A_T XN _3
EX P _A_T XN _4
EX P _A_T XN _5
EX P _A_T XN _6
EX P _A_T XN _7
EX P _A_T XN _8
EX P _A_T XN _9
EX P _A_T XN _10 EX P _A_T XN _11 EX P _A_T XN _12 EX P _A_T XN _13 EX P _A_T XN _14 EX P _A_T XN _15
EX P _A_T XP _0
EX P _A_T XP _1
EX P _A_T XP _2
EX P _A_T XP _3
EX P _A_T XP _4
EX P _A_T XP _5
EX P _A_T XP _6
EX P _A_T XP _7
EX P _A_T XP _8
EX P _A_T XP _9
EX P _A_T XP _10 EX P _A_T XP _11 EX P _A_T XP _12 EX P _A_T XP _13 EX P _A_T XP _14 EX P _A_T XP _15
D
CR T DI SA BL E GU IDE (F OR P M)
VC C A_C R TD AC
VS S A_C R T DAC
VC C _S YN C
R ,G ,B PA IR S
HS Y NC ,VS Y NC
S ignal
GN D
GM CH C OR E
R ecommenda tion
GM CH C OR E
GN D
GN D
P3 .3V
VR M3_ CP U_ PW RG D
CL K1_ MC H3G PL L*
CL K1_ MC H3G PL L
MCH 3_C LK R E Q*
21-B ?
8-C1
8-C1
8-C1
43-? 2 51-B4
R 499
R 921
24.9
1%
P1 .5V
0
DV O3_I NT*
DV O3_I NT
AG 33
AF 33
H32
GC LK N
GC LK P
CL K_ RE Q *
D40 D38
F34 G38 H34 J38 L34 M38 N34 P3 8 R 34 T38 V34 W38 Y34 AA38 AB 34 AC 38
D34 F38 G34 H38 J34 L38 M34 N38 P3 4 R 38 T34 V38 W34 Y38 AA34 AB 38
F36 G40 H36 J40 L36 M40 N36 P4 0 R 36 T40 V36 W40 Y36 AA40 AB 36 AC 40
D36 F40 G36 H40 J36 L40 M36 N40 P3 6 R 40 T36 V40 W36 Y40 AA36 AB 40
32-C 3
32-C 3
C1 43
C1 42
Internal Only
100nF
100nF
0 1 2 3 4 5 6 7
9 10
11 12 138 14 15
0 1 2 3 4 5 6 7 8 9
10 11 12 13 14 15
100nF
C9 29
100nF
C9 61
100nF
C9 32
100nF
C9 66
100nF
C9 35
100nF
C9 68
100nF
C9 37
100nF
C9 70
100nF
C9 39
100nF
C9 72
100nF
C9 41
100nF
C9 74
100nF
C9 43
100nF
C9 76
100nF
C9 45
100nF
C9 78
100nF
C9 26
100nF
C9 59
100nF
C9 30
100nF
C9 64
100nF
C9 34
100nF
C9 67
100nF
C9 36
100nF
C9 69
100nF
C9 38
100nF
C9 71
100nF
C9 40
100nF
C9 73
100nF
C9 42
100nF
C9 75
100nF
C9 44
100nF
C9 77
C9 31
C9 63
100nF
32-C 3
DV O3_C L K
C9 28
C9 27
C9 62
C9 65
C9 33
C9 60
100nF
100nF
100nF
100nF
100nF
100nF
100nF
32-C 3
32-C 3
32-C 3
32-C 3
32-C 3
32-C 3
32-C 3
DV O3_B LU E *
DV O3_C L K*
DV O3_R E D*
DV O3_G R E E N*
DV O3_B LU E
DV O3_R E D
DV O3_G R E E N
25-B ?
25-C ?
PE G 1_R XP (1 5:0)PE G 1_R XN (15: 0)
01 1 2 3
25-D?
4 5 6 7 8 9
10 11 12 13 14 15
015
2
25-D?
3 4 5 6 7
PE G 1_T XP (15: 0)PE G 1_T XN( 15:0 )
8 9
10 11 12 13 14
3
24
1
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿8󰼿>
P1 .8V _AU X
1%
R 846
80.6
1%
80.6
R 847
B
C
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
TP 82
C7 82
C1 84
470nF
470nF
16V
16V
S A_R C VE NO UT *
0
AK 39
SB _D Q_0
1
AJ 37
2
SB _D Q_1
AP 39
SB _D Q_2
3
AR 41
4
SB _D Q_3
AJ 38
SB _D Q_4
AK 38
6
SB _D Q_5
AN41
SB _D Q_6
AP 41
SB _D Q_7
AT4 0
9
SB _D Q_8
AV4 1
SB _D Q_9
AU38
11
SB _D Q_10
AV3 8
SB _D Q_11
AP 38
SB _D Q_12
AR 40
14
SB _D Q_13
AW3 8
1512
SB _D Q_14
AY 38
SB _D Q_15
BA 38
17
SB _D Q_16
AV3 6
18
SB _D Q_17
AR 36
19
SB _D Q_18
AP 36
20 495
SB _D Q_19
BA 36
21 27 38
SB _D Q_20
AU36
22 4826
SB _D Q_21
AP 35
23
SB _D Q_22
AP 34
24 63
SB _D Q_23
AY 33
SB _D Q_24
BA 33
SB _D Q_25
AT3 1
SB _D Q_26
AU29
28
3
2
18-D2
ME M1_B DQ( 63:0 )
AU31
29
AW3 1
308
AV2 9
31713
AW2 9
32
AM19
33
AL1 9
3416
AP 14
35
AN14 AN17
AM16
AP 15
39
AL1 5
40
AJ 11
41
AH10
4236
AJ 9
43
AN10
4437
AK 13
45
AH11
46
AK 10
4725
AJ 8
BA 10
AW1 0
50
BA 4
51
AW4
52
AY 10
53 61
AY 9
54
AW5
55
AY 5
56
AV4
57
AR 5
58
AK 4
59
AK 3
60
AT4 AK 5
6210
AJ 5 AJ 3
SB _D Q_27 SB _D Q_28 SB _D Q_29 SB _D Q_30 SB _D Q_31 SB _D Q_32 SB _D Q_33 SB _D Q_34 SB _D Q_35 SB _D Q_36 SB _D Q_37 SB _D Q_38 SB _D Q_39 SB _D Q_40 SB _D Q_41 SB _D Q_42 SB _D Q_43 SB _D Q_44 SB _D Q_45 SB _D Q_46 SB _D Q_47 SB _D Q_48 SB _D Q_49 SB _D Q_50 SB _D Q_51 SB _D Q_52 SB _D Q_53 SB _D Q_54 SB _D Q_55 SB _D Q_56 SB _D Q_57 SB _D Q_58 SB _D Q_59 SB _D Q_60 SB _D Q_61 SB _D Q_62 SB _D Q_63
S YS T EM ME MOR Y B
S B_R C VE N OUT *
TP 84
B
ME M1_AR A S*
ME M1_AC AS *
ME M1_AW E *
ME M1_AM A(13: 0)
TP 81
18-B 4
19-C 4
19-C 418-B4
11
7
9
12
10
13
8
AW1 4
AY 13
AK 23
AK 24
AY 14
S A_C AS *
S A_R AS *
S A_R C VE NIN *
S A_W E*
S B_R C VE N IN*
S B_R A S*
S B_C AS *
S B_W E *
AU2 3
AK 16
AK 18
AR 27
AR 24
18-C 219-C418-C 4 19-C 4
18-B 219-C4
18-B 219-C4
TP 83
ME M1_B WE *
ME M1_B R AS *
ME M1_B CA S *
AW1 7
AU1 3
AU1 7
AV2 0
AV1 2
AT 17
AT 16
S A_MA_ 10
S A_MA_ 11
S A_MA_ 12
S A_MA_ 13
S A_MA_ 7
S A_MA_ 8
S A_MA_ 9
AR 34
VC C SM_ 55
AR 6
VC C SM_ 56
AR 8
VC C SM_ 57
AT1 5
VC C SM_ 58
AT1 9
VC C SM_ 59
AT2 2
VC C SM_ 60
AT2 6
VC C SM_ 61
AT3 0
VC C SM_ 62
AT3 4
VC C SM_ 63
AT4 1
VC C SM_ 64
AT6
VC C SM_ 65
AT8
VC C SM_ 66
AU15
VC C SM_ 67
AU19
VC C SM_ 68
AU22
VC C SM_ 69
AU26
VC C SM_ 70
AU30
VC C SM_ 71
AU34
VC C SM_ 72
AU40
VC C SM_ 73
AU41
VC C SM_ 74
AV1
VC C SM_ 75
AV1 5
VC C SM_ 76
AV1 9
VC C SM_ 77
AV2 2
VC C SM_ 78
AV2 6
VC C SM_ 79
AV3 0
VC C SM_ 80
AV3 4
VC C SM_ 81
AV6
VC C SM_ 82
AV8
VC C SM_ 83
AW1 5
VC C SM_ 84
AW1 9
VC C SM_ 85
AW2 2
VC C SM_ 86
AW2 6
VC C SM_ 87
AW3 0
VC C SM_ 88
AW3 4
VC C SM_ 89
AW6
VC C SM_ 90
AW8
VC C SM_ 91
AY 15
VC C SM_ 92
AY 19
VC C SM_ 93
AY 22
VC C SM_ 94
AY 26
VC C SM_ 95
AY 30
VC C SM_ 96
AY 34
VC C SM_ 97
AY 6
VC C SM_ 98
AY 8
VC C SM_ 99
BA 15
VC C SM_ 100
BA 19
VC C SM_ 101
BA 22
VC C SM_ 102
BA 23
VC C SM_ 103
BA 26
VC C SM_ 104
BA 30
VC C SM_ 105
BA 34
VC C SM_ 106
BA 6
VC C SM_ 107
BA 8
VC C SM_ 108
S B_M A_10
S B_M A_11
S B_M A_12
S B_M A_13
S B_M A_7
S B_M A_8
S B_M A_9
AV2 8
AV2 7
AW2 7
AV2 4
BA 27
AY 27
AR 23
9
11
8
10
13
7
12
18-D4 19 -D3
7
4
2
0
1
5
3
6
AW1 6
AU1 4
AU1 6
AY 16
BA 16
BA 17
AV1 7
S A_MA_ 5
S A_MA_ 6
S B_M A_5
S B_M A_6
AT 28
AU2 7
5
6
AG 5
S A_MA_ 0
S A_MA_ 1
S A_DQ S _6
S A_DQ S _7
S A_MA_ 2
S A_MA_ 3
S A_MA_ 4
S B_D QS _6
S B_D QS _7
S B_M A_4
S B_M A_0
S B_M A_1
S B_M A_2
S B_M A_3
AT 27
AY 23
AW2 4
AY 24
AR 28
AN5
7
2
3
1
4
0
18-D219-C 3
ME M1_B MA(1 3:0)
ME M1_AD QS (7: 0)
4
5
0
3
1
6
2
AM22
AN28
AN12
AK 33
AT 33
AN8
AP 3
S A_DQ S _0
S A_DQ S _1
S A_DQ S _2
S A_DQ S _3
S A_DQ S _4
S A_DQ S _5
C ALIS TO GA
U1 2-3
3 / 5
S B_D QS _0
S B_D QS _1
S B_D QS _2
S B_D QS _3
S B_D QS _4
S B_D QS _5
AM39
AT 39
AU3 5
AR 29
AR 16
AR 10
AR 7
2
1
3
5
4
0
6
ME M1_B DQS ( 7:0)
C
ME M1_AD QS *(7: 0)
18-B 4
6
7
AN3
AH5
S A_DQ S *_6
S A_DQ S *_7
S B_D QS *_6
S B_D QS *_7
AT 7
AP 5
7
6
18-B 2
5
AL8
S A_DQ S *_4
S A_DQ S *_5
S B_D QS *_4
S B_D QS *_5
AT 10
5
2
3
4
AM21
AM12
AN27
S A_DQ S *_1
S A_DQ S *_2
S A_DQ S *_3
VC C SM_ 1 VC C SM_ 2 VC C SM_ 3 VC C SM_ 4 VC C SM_ 5 VC C SM_ 6 VC C SM_ 7 VC C SM_ 8
VC C SM_ 9 VC C SM_ 10 VC C SM_ 11 VC C SM_ 12 VC C SM_ 13 VC C SM_ 14 VC C SM_ 15 VC C SM_ 16 VC C SM_ 17 VC C SM_ 18 VC C SM_ 19 VC C SM_ 20 VC C SM_ 21 VC C SM_ 22 VC C SM_ 23 VC C SM_ 24 VC C SM_ 25 VC C SM_ 26 VC C SM_ 27 VC C SM_ 28 VC C SM_ 29 VC C SM_ 30 VC C SM_ 31 VC C SM_ 32 VC C SM_ 33 VC C SM_ 34 VC C SM_ 35 VC C SM_ 36 VC C SM_ 37 VC C SM_ 38 VC C SM_ 39 VC C SM_ 40 VC C SM_ 41 VC C SM_ 42 VC C SM_ 43 VC C SM_ 44 VC C SM_ 45 VC C SM_ 46 VC C SM_ 47 VC C SM_ 48 VC C SM_ 49 VC C SM_ 50 VC C SM_ 51 VC C SM_ 52 VC C SM_ 53 VC C SM_ 54
S B_D QS *_1
S B_D QS *_2
S B_D QS *_3
AT 35
AP 29
AP 16
2
4
3
18-A4
5
4
0
7
1
AU3 3
AU3 9
1
3
6
AM14
AN22
AK 32
AR 3
AH4
AL9
S A_DM_ 2
S A_DM_ 3
S A_DM_ 4
S A_DM_ 5
S A_DM_ 6
S A_DM_ 7
S A_DQ S *_0
AG 12 AH12 AH13 AH16 AH17 AH24 AH25 AH26 AH27 AH28 AH29 AJ 1 AJ 12 AJ 13 AJ 14 AJ 15 AJ 16 AJ 17 AJ 18 AJ 19 AJ 22 AJ 23 AJ 24 AJ 25 AJ 26 AJ 27 AJ 28 AJ 29 AJ 6 AK 11 AK 12 AK 19 AK 20 AK 21 AK 22 AK 29 AK 6 AL2 9 AL6 AM29 AM30 AM41 AN30 AN6 AP 19 AP 22 AP 30 AP 6 AP 8 AR 15 AR 19 AR 22 AR 26 AR 30
S B_D QS *_0
S B_D M_2
S B_D M_3
S B_D M_4
S B_D M_5
S B_D M_6
S B_D M_7
BA 31
AL1 7
AH8
BA 5
AN4
AM40
7
5
6
3
4
0
18-A2
ME M1_B DQS *(7 :0)
D
ME M1_AD M(7: 0)
ME M1_AB S 2
ME M1_AB S 1
ME M1_AB S 0
18-B 4
18-C 4 19-C 4
19-C 418-C4
19-C 418-C4
1
0
2
AM35
AU1 2
BA 20
AV1 4
AL2 6
AJ 33
S A_B S_ 2
S A_DM_ 0
S A_DM_ 1
S A_B S_ 0
S A_B S_ 1
SA _DQ _0 SA _DQ _1 SA _DQ _2 SA _DQ _3 SA _DQ _4 SA _DQ _5 SA _DQ _6 SA _DQ _7 SA _DQ _8
S YS T EM ME MOR Y A
SA _DQ _9 SA _DQ _10 SA _DQ _11 SA _DQ _12 SA _DQ _13 SA _DQ _14 SA _DQ _15 SA _DQ _16 SA _DQ _17 SA _DQ _18 SA _DQ _19 SA _DQ _20 SA _DQ _21 SA _DQ _22 SA _DQ _23 SA _DQ _24 SA _DQ _25 SA _DQ _26 SA _DQ _27 SA _DQ _28 SA _DQ _29 SA _DQ _30 SA _DQ _31 SA _DQ _32 SA _DQ _33 SA _DQ _34 SA _DQ _35 SA _DQ _36 SA _DQ _37 SA _DQ _38 SA _DQ _39 SA _DQ _40 SA _DQ _41 SA _DQ _42 SA _DQ _43 SA _DQ _44 SA _DQ _45 SA _DQ _46 SA _DQ _47 SA _DQ _48 SA _DQ _49 SA _DQ _50 SA _DQ _51 SA _DQ _52 SA _DQ _53 SA _DQ _54 SA _DQ _55 SA _DQ _56 SA _DQ _57
P1 .8V _AU X
SA _DQ _58 SA _DQ _59 SA _DQ _60 SA _DQ _61 SA _DQ _62 SA _DQ _63
S B_D M_0
S B_D M_1
S B_B S _0
S B_B S _1
S B_B S _2
AK 36
AR 38
AT 36
AT 24
AV2 3
AY 28
0
2
1
19-C 4 18-C 2
18-C 219-C4
18-C 219-C4
18-B 2
ME M1_B DM(7 :0)
ME M1_B BS 2
ME M1_B BS 1
ME M1_B BS 0
AJ 35 AJ 34 AM31 AM33 AJ 36 AK 35 AJ 32 AH31 AN35 AP 33 AR 31 AP 31 AN38 AM36 AM34 AN33 AK 26 AL2 7 AM26 AN24 AK 28 AL2 8 AM24 AP 26 AP 23 AL2 2 AP 21 AN20 AL2 3 AP 24 AP 20 AT2 1 AR 12 AR 14 AP 13 AP 12 AT1 3 AT1 2 AL1 4 AL1 2 AK 9 AN7 AK 8 AK 7 AP 9 AN9 AT5 AL5 AY 2 AW2 AP 1 AN2 AV2 AT3 AN1 AL2 AG 7 AF 9 AG 4 AF 6 AG 9 AH6 AF 4 AF 8
C9 48
470nF
16V
ME M1_AD Q(6 3:0)
18-D4
1 39 2
5 51 6 7 43
11 1292 8
16 17 18 19 20
22 23 24 25 26 27 5342
29010 30 31 32 33 34 3515 36 37 38
40 41
45 46 47 6113 48 49 50
52
5444 5521 56 573 58 634148 59 60
62
C7 80
470nF
16V
Pla ce near B A1 5 pin
4
3
2
P1 .8V _AU X
S M_C K( 5:3)*
S M_S KE (3 :2)
S M_OD T(1 :0)
S DVO _T VC LK IN
S DVO _S TA LL
S DVO _T VC LK IN*
S DVO C_ CL K
S DVO B_ INT
S DVO _S TA LLB
S DVO B_ INT *
S DVO C_ INT B
S DVO C_ INT
E XP _R XN _1
E XP _R XP _2
E XP _R XN _5
E XP _R XP _5
E XP _R XP _1
E XP _R XP _0
E XP _T XP _7
E XP _R XN _2
E XP _R XN _0
A
S DVO B_ ALP HA
S DVO C_ GR E E N
S DVO C_ BL UE
S DVO C_ BL UE *
S DVO C_ CL K*
E XP _T XN_ 7
S DVO C_ R ED
S DVO B_ ALP HA *
S DVO C_ GR E E N*
E XP _T XP _6
E XP _T XP _4
E XP _T XN_ 5
E XP _T XN_ 6
E XP _T XP _5
B
S DVO B_ GR E E N
S DVO B_ BL UE
S DVO C_ R ED *
S DVO B_ CL K*
S DVO B_ BL UE *
S DVO B_ CL K
E XP _T XP _3
E XP _T XN_ 2
E XP _T XP _2
E XP _T XN_ 4
E XP _T XN_ 3
S DVO Mode
S DVO _R E D
S DVO B_ R ED *
S DVO B_ GR E E N*
E XP _T XP _1
E XP _T XN_ 1
PE G (S AG P ) Mode
E XP _T XN_ 0
E XP _T XP _0
S M_C S (3:2) *
S A_O DT( 1:0)
N/A
N/A
S B_C S (3: 2)*N/A
N/A
S B_C K E (3:2 )
S B_O DT (3:2 )S M_OD T(3 :2)
S M_C K( 2:0)
S M_C K( 5:3)
S M_C K( 2:0)*
S M_C KE (1 :0)
S A_C KE (1 :0)
S A_C S (1:0 )*S M_C S( 1:0) *
N/A
N/A
C
Dual Cha nnel
BC 694
470nF
16V
Pla ce near B A2 3 or A J2 3 pin
16V
470nF
S A_C K( 2:0) *
Ch. A (S o-DIMM A)
N/A
S A_C K( 2:0)
N/A
Ch. B (S o-DI MM B )
S B_C K (2:0 )*N/A
S B_C K (2:0 )
N/A
BC 696
Che ck L oad T rans ient
2.5V
AL
E C61 3
330uF
E C61 6
AL
2.5V
330uF
330uF
2.5V
AL
E C61 5
6.3V
1000 0nF
BC 697
BC 698
1000 0nF
6.3V
1
Pla ce in cavity
D
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿9󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
A
W18
W24
W25
W26
W27
Y1 8
Y2 4
Y2 5
Y2 6
Y2 7
VC C _NC TF _68
VC C _NC TF _69
VC C _NC TF _70
VC C _NC TF _71
VC C _NC TF _72
VC C _NC TF _73
V25
V26
V27
VC C _NC TF _61
VC C _NC TF _62
VC C _NC TF _63
VC C _NC TF _64
VC C _NC TF _65
VC C _NC TF _66
VC C _NC TF _67
P1 .5V
100nF
C9 14
AC 29
VC C AUX _1
AC 30
VC C AUX _2
AC 31
VC C AUX _3
AD12
VC C AUX _4
AD29 AD30
AE 12 AE 13 AE 14 AE 28 AE 29 AE 30 AE 31 AF 12 AF 13 AF 14 AF 28 AF 29 AF 30
AF 31 AG 14 AG 28 AG 29 AG 30 AH14 AH15 AH19 AH20 AH21 AH22 AH30
AJ 20
AJ 21
AJ 30
AK 30
AK 31
AL3 0
P1 5 P1 6 P1 9 Y14
VC C AUX _5 VC C AUX _6 VC C AUX _7 VC C AUX _8 VC C AUX _9 VC C AUX _10 VC C AUX _11 VC C AUX _12 VC C AUX _13 VC C AUX _14 VC C AUX _15 VC C AUX _16 VC C AUX _17 VC C AUX _18 VC C AUX _19 VC C AUX _20 VC C AUX _21 VC C AUX _22 VC C AUX _23 VC C AUX _24 VC C AUX _25 VC C AUX _26 VC C AUX _27 VC C AUX _28 VC C AUX _29 VC C AUX _30 VC C AUX _31 VC C AUX _32 VC C AUX _33 VC C AUX _34 VC C AUX _35 VC C AUX _36 VC C AUX _37 VC C AUX _38 VC C AUX _39 VC C AUX _40 VC C AUX _41
100nF
10V
C8 67
within 250mils
100nF c aps need to be loca ted
100nF
10V
C8 61
1000 0nF
C8 59
6.3V
E xt.GF X stuff
MMB D301 LT1
D613
13
M32
N16
N17
N18
N19
N20
VC C _50
VC C _51
VC C _52
VC C _53
VC C _54
VC C _55
VC C _106
VC C _107
VC C _108
VC C _109
VC C _110
VC C _111
Y2 2
Y2 3
Y2 8
Y2 9
Y3 0
Y3 2
VC C A_T VDA CC _2
VC C A_T VDA CC _1
VC C A_T VDA CB _1
VC C A_T VDA CB _2
E 20
F20
C2 0
D20
10V
100nF
C8 65
BL M18P G 181S N1
Int.G FX s tuff
B6 32
P3 .3V
R 879
0
R 878
10
as edge caps within 200 mils
P1 .5V
B
B
U18
U19
U20
U21
U22
U23
U24
U25
U26
U27
V19
V20
V21
V22
V23
V24
V18
VC C _NC TF _56
VC C _NC TF _57
VC C _NC TF _58
VC C _NC TF _59
VC C _NC TF _60
VC C _NC TF _54
VC C _NC TF _55
M25
M27
M28
M29
M30
M31
VC C _44
VC C _45
VC C _46
VC C _47
VC C _48
VC C _49
VC C _43
VC C _NC TF _47
VC C _NC TF _48
VC C _NC TF _49
VC C _NC TF _50
VC C _NC TF _51
VC C _NC TF _52
VC C _NC TF _53
M24
M17
M18
M19
M20
M21
M22
M23
VC C _36
VC C _37
VC C _38
VC C _39
VC C _40
VC C _41
VC C _42
T24
T25
T26
T27
VC C _NC TF _41
VC C _NC TF _42
VC C _NC TF _43
VC C _NC TF _44
VC C _NC TF _45
VC C _NC TF _46
VC C _NC TF _40
M16
L27
L28
L29
L30
L32
L33
VC C _29
VC C _30
VC C _31
VC C _32
VC C _33
VC C _34
VC C _35
R 27
T18
T19
T20
T21
T22
T23
VC C _NC TF _32
VC C _NC TF _33
VC C _NC TF _34
VC C _NC TF _35
VC C _NC TF _36
VC C _NC TF _37
VC C _NC TF _38
VC C _NC TF _39
L19
L20
L21
L22
L23
L25
L26
VC C _21
VC C _22
VC C _23
VC C _24
VC C _25
VC C _26
VC C _27
VC C _28
C
C
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
R 20
R 21
R 22
R 23
R 24
R 25
R 26
VC C _NC TF _27
VC C _NC TF _28
VC C _NC TF _29
VC C _NC TF _30
VC C _NC TF _31
L18
VC C _20
VC C _NC TF _24
VC C _NC TF _25
VC C _NC TF _26
AC 20
AC 21
AC 22
AB 28
L16
J3 2
J3 3
VC C _13
VC C _14
VC C _15
VC C _16
VC C _17
VC C _18
VC C _19
VC C _NC TF _17
VC C _NC TF _18
VC C _NC TF _19
VC C _NC TF _20
VC C _NC TF _21
VC C _NC TF _22
VC C _NC TF _23
AA33
AA32
AB 19
AB 20
AB 22
AB 23
AA31
VC C _9
VC C _8
VC C _6
VC C _11
VC C _12
VC C _10
VC C _7
C ALIS TO GA
U1 2-4
4 / 5
VC C _100
VC C _101
VC C _102
VC C _103
VC C _104
VC C _105
W33
Y1 9
Y2 0
VC C A_T VDA CA _1
VC C A_T VDA CA _2
VS S A_T VB G
E 19
F19
VC C _95
VC C _96
VC C _97
VC C _98
VC C _99
W20
W21
W22
W29
W30
W31
W32
VC C A_T VB G
VC C A_LV DS
VC C A_MP LL
VS S A_L VD S
VC C A_HP LL
A38
AF 2
H20
B3 9
G2 0
E xt.GF X 0 ohm stuff
C9 24
100nF
10nF
C9 23
BL M18P G 181S N1
Int.G FX s tuff
B6 39
P2 .5V
C8 63
10V
100nF
100nF
10V
330uF
C7 75
100nF
AL2.5V
2200 0nF
C7 76
6.3V
100nF
6.3V
2200 0nF
100nF c aps need to be loca ted
MMZ1 608S 121 AT
100nF
10V
2.5V AL
330uF
C7 78
C7 79
MMZ1 608S 121 AT
B6 21
MMZ1 608S 121 AT
B6 22
P1 .5V
VC C _88
VC C _89
VC C _90
VC C _91
VC C _92
VC C _93
VC C _94
V32
AF 1
VC C _87
U28
U29
U30
V28
V29
V30
V31
VC C A_C R TDA C_ 1
VC C A_C R TDA C_ 2
VS S A_C R TD AC
VC C A_DP LL A
VC C A_DP LL B
E 21
F21
B2 6
C3 9
G2 1
VC C _80
VC C _81
VC C _82
VC C _83
VC C _84
VC C _85
VC C _86
T31
R 28
R 29
R 30
R 31
T28
T30
VC C A_3G P LL
VC C A_3G B G
VS S A_3 GB G
VC C _S YN C
G4 1
AC 33
H22
H41
Int.G FX s tuff
0
R 894
C8 69
100nF
100nF
C9 13
100nF
C9 15
1000 0nF
6.3V
C9 46
C1 51
BL M18P G 181S N1
E C2
100nF
C8 66
C9 25
E C61 9
10V
Ca ps should be within 250mils of e dge
BL M18P G 181S N1
B6 33
MMZ1 608S 121 AT
B6 38
Int.G FX s tuff
10V
C8 27
B2 9
100nF
P1 .5V
10
MMB D301 LT1
Int.G FX s tuff
D612
13
VC C _73
VC C _74
VC C _75
VC C _76
VC C _77
VC C _78
VC C _79
P3 0
P3 1
P3 2
P3 3
0
R 891
E xt.GF X stuff
VC C _69
VC C _70
VC C _71
VC C _72
P2 4
P2 6
P2 7
P2 8
P2 9
P2 2
P2 3
VC C HV_ 1
VC C HV_ 2
VC C HV_ 3
A23
B2 3
B2 5
C8 62
100nF
6.3V
C8 60
1000 0nF
P2 .5V
VC C _62
VC C _63
VC C _64
VC C _65
VC C _66
VC C _67
VC C _68
N28
N30
N31
N32
N33
P1 7
P2 0
VC C 3G_ 1
VC C 3G_ 2
VC C 3G_ 3
VC C 3G_ 4
VC C 3G_ 5
VC C 3G_ 6
VC C 3G_ 7
AJ 41
L41
N41
R 41
V41
Y4 1
C9 47 C 181
6.3V
1000 0nF
P3 .3V
1000 0nF
6.3V
BL M18P G 181S N1
AL
2.5V
E C6
330uF
Ca ps should be on top la yer
P1 .5V
Ca ps should be place d in ca vity
B6 40
10V
100nF
P1 .5V
0
R 889
E xt.GF X stuff
P2 .5V
R 841
BL M18P G 181S N1
1.5 V_Q TV DAC
100nF C aps us ed in 1 .5V _TV DAC ,
within 250mils of e dge
100nF
VC C P
D
D
VC C P
AC 18
AC 24
AC 25
AC 26
AC 27
AD18
AD19
VC C _NC TF _13
VC C _NC TF _14
VC C _NC TF _15
VC C _NC TF _16
AA30
AA29
AA23
AA28
AA21
VC C _5
VC C _3
VC C _4
VC C _2
VC C _59
VC C _60
VC C _61
VC C _58
N23
N24
N25
N26
N27
VC C DQ_ TV DAC
VC C D_T VDA C
H19
D21
AB 41
AB 18
AA27
AA25
AA26
AA24
AB 24
VC C _NC TF _6
VC C _NC TF _7
VC C D_LV DS _1
VC C D_LV DS _2
B2 8
VC C _NC TF _5
VC C _NC TF _4
VC C D_HM PL L_2
AH2
A28
AA18
VC C _NC TF _3
VC C _NC TF _2
VC C _NC TF _1
VC C AUX _NC TF _1 VC C AUX _NC TF _2 VC C AUX _NC TF _3 VC C AUX _NC TF _4 VC C AUX _NC TF _5 VC C AUX _NC TF _6 VC C AUX _NC TF _7 VC C AUX _NC TF _8
VC C AUX _NC TF _9 VC C AUX _NC TF _10 VC C AUX _NC TF _11 VC C AUX _NC TF _12 VC C AUX _NC TF _13 VC C AUX _NC TF _14 VC C AUX _NC TF _15 VC C AUX _NC TF _16 VC C AUX _NC TF _17 VC C AUX _NC TF _18 VC C AUX _NC TF _19 VC C AUX _NC TF _20 VC C AUX _NC TF _21 VC C AUX _NC TF _22 VC C AUX _NC TF _23 VC C AUX _NC TF _24 VC C AUX _NC TF _25 VC C AUX _NC TF _26 VC C AUX _NC TF _27 VC C AUX _NC TF _28 VC C AUX _NC TF _29 VC C AUX _NC TF _30 VC C AUX _NC TF _31 VC C AUX _NC TF _32 VC C AUX _NC TF _33 VC C AUX _NC TF _34 VC C AUX _NC TF _35 VC C AUX _NC TF _36 VC C AUX _NC TF _37 VC C AUX _NC TF _38 VC C AUX _NC TF _39 VC C AUX _NC TF _40 VC C AUX _NC TF _41 VC C AUX _NC TF _42 VC C AUX _NC TF _43 VC C AUX _NC TF _44 VC C AUX _NC TF _45 VC C AUX _NC TF _46 VC C AUX _NC TF _47 VC C AUX _NC TF _48 VC C AUX _NC TF _49 VC C AUX _NC TF _50 VC C AUX _NC TF _51 VC C AUX _NC TF _52 VC C AUX _NC TF _53 VC C AUX _NC TF _54 VC C AUX _NC TF _55 VC C AUX _NC TF _56 VC C AUX _NC TF _57 VC C AUX _NC TF _58
VC C D_HM PL L_1
AH1
AA15 AA16 AA17 AB 15 AB 16 AB 17 AC 15 AC 16 AD15 AD16 AD17 AE 15 AE 16 AE 17 AF 15 AF 16 AF 17 AF 18 AF 19 AF 20 AF 21 AF 22 AF 23 AF 24 AF 25 AF 26 AF 27 AG 15 AG 16 AG 17 AG 18 AG 19 AG 20 AG 21 AG 22 AG 23 AG 24 AG 25 AG 26 AG 27 R 15 R 16 R 17 R 18 R 19 T15 T16 T17 U15 U16 V15 V16 V17 W15 W16 W17 Y15 Y16
AB 27
AB 25
AB 26
VC C _NC TF _12
VC C _NC TF _10
VC C _NC TF _11
VC C _NC TF _8
VC C _NC TF _9
VC C P
AA19
VC C _1
VC C _56
VC C _57
N21
N22
VC C P
VC C TX _LV DS _1
VC C TX _LV DS _2
VC C TX _LV DS _3
VC C D_LV DS _3
C2 8
A30
B3 0
C3 0
4
P1 .5V
3
2
2
Int.G FX s tuff
R 909
R 908
0
E xt.GF X stuff
C8 32
100nF
0
100nF
C9 11
4700 nF
10V
B3 4
P1 .5V
Int.G FX s tuff
E xt.GF X 0 ohm stuff
100nF
C9 12
C8 68
B6 34
P1 .5V
P1 .5V
C8 64
C8 33
C7 77
1000 0nF
6.3V
P1 .5V
P2 .5V
BL M18P G 181S N1
B6 37
Che ck L oad T rans ient
within 200mils of e dge
NO S TU FF
100nF C aps us ed in 1 .5V _DL VDS , 2.5 V_A LVD S ,
2.5 V_T XL VDS , 2.5 V_3 GB G should be plac ed
VC C P
AL
2.5V
330uF
E C62 1
E C62 2
330uF
2.5V
AL
1000 0nF
BC 639
6.3V
6.3V
BC 641
1000 0nF
1000nF
BC 642
BC 693
220nF
16V
220nF
BC 695
16V 16V
BC 692
220nF
13
14
A
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿10󰼿>
B
B
C
C
D
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
E 30
E 14
E 22
E 25
E 28
E 29
F13
F16
F22
F23
F26
F27
F33
VS S _23 9
VS S _24 0
AE 33
VS S _51
AE 34
VS S _52
AE 36
VS S _53
AE 38
VS S _54
AE 40
VS S _55
AF 3
VS S _56
AF 32
VS S _57
AF 34
VS S _58
AF 36
VS S _59
AF 38
VS S _60
AF 40
VS S _61
AF 5
VS S _62
AF 7
VS S _63
AG 10
VS S _64
AG 13
VS S _65
AG 3
VS S _66
AG 31
VS S _67
AG 32
VS S _68
AG 34
VS S _69
AG 36
VS S _70
AG 38
VS S _71
AG 40
VS S _72
AG 6
AH18 AH23
AH32 AH35 AH36 AH37 AH38 AH40
AJ 10
AJ 31 AJ 39
AJ 40
AK 14 AK 15 AK 17
AK 25 AK 27 AK 34
VS S _73
AG 8
VS S _74 VS S _75 VS S _76
AH3
VS S _77 VS S _78 VS S _79 VS S _80 VS S _81 VS S _82 VS S _83
AH7
VS S _84
AH9
VS S _85 VS S _86
AJ 2
VS S _87 VS S _88 VS S _89
AJ 4
VS S _90 VS S _91
AJ 7
VS S _92 VS S _93 VS S _94 VS S _95
AK 2
VS S _96 VS S _97 VS S _98 VS S _99
3
AC 17 AE 18 AE 19 AE 20 AE 21 AE 22 AE 23 AE 24 AE 25 AE 26 AE 27
VS S _17 0
U17 Y17
VS S _16 9
AW2 0
AW2 3
VS S _23 5F2VS S _23 6
VS S _23 7
VS S _23 8
VS S _NC T F_1 VS S _NC T F_2 VS S _NC T F_3 VS S _NC T F_4 VS S _NC T F_5 VS S _NC T F_6 VS S _NC T F_7 VS S _NC T F_8 VS S _NC T F_9 VS S _NC T F_1 0 VS S _NC T F_1 1 VS S _NC T F_1 2 VS S _NC T F_1 3
VS S _16 5
VS S _16 6
VS S _16 7
VS S _16 8
AV4 0
AV5
AV7
E 9
VS S _23 1
VS S _23 2
VS S _23 3
VS S _23 4
M35
VS S _29 9
VS S _30 0
VS S _36 1
VS S _36 0
Y9
VS S _16 3
VS S _16 4
AV3 5
AV3 9
VS S _22 6
VS S _22 7
VS S _22 8
VS S _22 9
VS S _23 0
M15
M26
M33
L15
L35
L37
L39
VS S _29 4
VS S _29 5
VS S _29 6
VS S _29 7
VS S _29 8
VS S _35 4
VS S _35 5
VS S _35 6
VS S _35 7
VS S _35 8
VS S _35 9
Y2 1
Y3 1
Y3 3
Y3 5
Y3 7
Y3 9
Y4
Y6
VS S _16 0
VS S _16 1
VS S _16 2
VS S _15 6
VS S _15 7
VS S _15 8
VS S _15 9
AV2 1
AV3
AV3 1
AV3 3
AU2 8
AV1 0
AV1 3
AV1 6
B
BA 28
BA 35
BA 7
D22
D25
D26
D33
D35
D37
D39
E 12
VS S _22 2
VS S _22 3
VS S _22 4D7VS S _22 5
K2 9
K2 5
K2 6
VS S _29 0
VS S _29 1K6VS S _29 2K8VS S _29 3
VS S _28 8
VS S _28 9
D13
D18
VS S _21 7
VS S _21 8
VS S _21 9
VS S _22 0
VS S _22 1
VS S _21 5
VS S _21 6
K1 2
K1 4
K1 9
K2 0
K2 1
K2 2
K2 3
VS S _28 1
VS S _28 2
VS S _28 3
VS S _28 4
VS S _28 5
VS S _28 6
VS S _28 7
C2 9
C3 4
C3 6
C3 8
D11
VS S _20 8
VS S _20 9
VS S _21 0
VS S _21 1
VS S _21 2C4VS S _21 3C8VS S _21 4
J2 8
J3 5
J3 7
J3 9
J4 1
J2 7
J4
VS S _27 5
VS S _27 6
VS S _27 7
VS S _27 8
VS S _27 9
VS S _28 0
VS S _27 4
BA 9
C1 6
C1 9
C2 1
C2 3
C2 7
VS S _20 2
VS S _20 3
VS S _20 4C2VS S _20 5
VS S _20 6
VS S _20 7
J2 1
J2 3
VS S _27 0
VS S _27 1J2VS S _27 2
VS S _27 3
VS S _19 7
VS S _19 8
VS S _19 9
VS S _20 0
VS S _20 1
H33
H35
H37
H39
J1 1
J1 6
VS S _26 3
VS S _26 4
VS S _26 5
VS S _26 6
VS S _26 7
VS S _26 8H6VS S _26 9
C
BA 14
BA 21
BA 24
VS S _19 6
H21
H25
B2 9
B3 2
B3 3
B3 6
B4 0
VS S _18 9
VS S _19 0
VS S _19 1
VS S _19 2
VS S _19 3
VS S _19 4B6VS S _19 5
G3 9
H18
H12
H14
VS S _26 0
VS S _26 1H2VS S _26 2
VS S _25 5
VS S _25 6G7VS S _25 7G9VS S _25 8
VS S _25 9
AY 39
AY 4
B1 1
B1 3
B1 5
B2 0
B2 7
VS S _18 2
VS S _18 3
VS S _18 4
VS S _18 5
VS S _18 6
VS S _18 7
VS S _18 8
G2 7
G2 9
G3 2
G3 3
G3 5
G3 7
VS S _24 8
VS S _24 9
VS S _25 0G3VS S _25 1
VS S _25 2
VS S _25 3
VS S _25 4
C ALIS TO GA
U1 2-5
5 / 5
VS S _34 7
VS S _34 8
VS S _34 9
VS S _35 0
VS S _35 1
VS S _35 2Y2VS S _35 3
W37
W39
W41
Y1 1
VS S _15 0
VS S _15 1
VS S _15 2
VS S _15 3
VS S _15 4
VS S _15 5
AT 2
AT 23
AT 29
AT 38
AU2 4
VS S _34 0
VS S _34 1
VS S _34 2
VS S _34 3
VS S _34 4
VS S _34 5
VS S _34 6
W35
AT 14
V35
V37
V39
W10
W19
W23
W28
VS S _14 5
VS S _14 6
VS S _14 7
VS S _14 8
VS S _14 9
VS S _14 2
VS S _14 3
VS S _14 4
AR 33
AR 35
AR 39
AR 4
AR 9
AR 20
AR 21
VS S _33 2
VS S _33 3
VS S _33 4
VS S _33 5U2VS S _33 6U4VS S _33 7U6VS S _33 8U8VS S _33 9
U10
U14
V33
VS S _13 5
VS S _13 6
VS S _13 7
VS S _13 8
VS S _13 9
VS S _14 0
VS S _14 1
AP 28
AP 4
AP 40
AP 7
AR 13
AR 17
AR 2
VS S _32 5
VS S _32 6T2VS S _32 7
VS S _32 8
VS S _32 9
VS S _33 0
VS S _33 1
T41
T29
T33
T35
T37
T39
VS S _13 0
VS S _13 1
VS S _13 2
VS S _13 3
VS S _13 4
VS S _12 8
VS S _12 9
AN39
AN40
AP 10
AP 17
AP 2
AP 27
AN36
VS S _31 8
VS S _31 9
VS S _32 0
VS S _32 1
VS S _32 2
VS S _32 3
VS S _32 4
R 7
R 9
VS S _12 6
VS S _12 7
AN31
AN34
VS S _31 6
VS S _31 7
P4 1
R 33
R 35
R 37
R 39
R 4
P3 9
VS S _11 9
VS S _12 0
VS S _12 1
VS S _12 2
VS S _12 3
VS S _12 4
VS S _12 5
AN15
AN16
AN19
AN21
AN23
AN26
AN29
VS S _30 9
VS S _31 0N6VS S _31 1
VS S _31 2
VS S _31 3
VS S _31 4
VS S _31 5
N39
P1 3
P1 8
P2 1
P2 5
P3 5
P3 7
VS S _11 6
VS S _11 7
VS S _11 8
VS S _11 2
VS S _11 3
VS S _11 4
VS S _11 5
AM27
AM28
AM38
AN13
AM15
AM17
AM20
AM23
D
4
AW3 6
AW3 9
AW2 8
AW3 3
AY 12
AY 17
AY 31
AY 36
AW9
AY 3
VS S _17 9
VS S _18 0
VS S _18 1
G1 9
G2 2
F41
VS S _24 6
VS S _24 7
VS S _30 7
VS S _30 8
N29
N35
N37
VS S _10 9
VS S _11 0
VS S _11 1
AL4
AL7
AM13
AW3
VS S _17 4
VS S _17 5
VS S _17 6
VS S _17 7
VS S _17 8
VS S _24 4F4VS S _24 5
VS S _30 5N2VS S _30 6
VS S _10 8
VS S _17 1
VS S _17 2
VS S _17 3
A15
VS S _1
A18
VS S _2
A20
VS S _3
A22
VS S _4
A25
VS S _5
A29
VS S _6
A9
VS S _7
AA11
VS S _8
AA14
VS S _9
AA20
F35
F37
F39
VS S _24 1
VS S _24 2
VS S _24 3
VS S _30 1
VS S _30 2
VS S _30 3
VS S _30 4
M37
M39
M41
N15
VS S _10 1
VS S _10 2
VS S _10 3
VS S _10 4
VS S _10 5
VS S _10 6
VS S _10 7
AL3
VS S _10 0
AK 40
AL1
AL1 0
AL1 3
AL1 6
AL2 1
AL2 4
VS S _10
AA22
VS S _11
AA3
VS S _12
AA35
VS S _13
AA37
VS S _14
AA39
VS S _15
AA41
VS S _16
AA8
VS S _17
AB 2
VS S _18
AB 21
VS S _19
AB 29
VS S _20
AB 30
VS S _21
AB 31
VS S _22
AB 32
VS S _23
AB 33
VS S _24
AB 35
VS S _25
AB 37
VS S _26
AB 39
VS S _27
AB 6
VS S _28
AB 9
VS S _29
AC 10
VS S _30
AC 12
VS S _31
AC 19
VS S _32
AC 23
VS S _33
AC 28
VS S _34
AC 3
VS S _35
AC 32
VS S _36
AC 34
VS S _37
AC 36
VS S _38
AC 39
VS S _39
AC 41
VS S _40
AC 7
VS S _41
AD11
VS S _42
AD14
VS S _43
AD2
VS S _44
AD28
VS S _45
AD3
VS S _46
AD5
VS S _47
AD6
VS S _48
AD8
VS S _49
AE 32
VS S _50
AK 37
3
2
MCH 3_C FG (1 0)
MCH 3_C FG (1 6)
MCH 3_C FG (9 )
CF G (17: 3)
CF G (20: 18)
Internal Pull-down
Internal Pull-up
14-A2
14-A2
14-A2
R 893
R 890
2K 1 %
2K
1%
MCH 3_C FG (1 9)
MCH 3_C FG (2 0)
14-A2
14-A2
R 918
R 892
2K
1%
R 919
No s tuff
No s tuff
1K
1K
1%
P3 .3V
CF G (18)
CF G (16)
CF G (9)
CF G (11)
CF G (20)
CF G (19)
Onl y(d ef.)
DMI La ne Norm al
S DVO or P CI E X1
S imultaneously
S DVO and PC IE X 1
DMI Lane R ever sal
CF G (7)
Ca lis tog a
PE G R eve rsa l
DT /Trans portable
VC C 1. 05V (def .)
Disa bled
Dyna mic OD T
Nor mal
R ese rved
Mobi le C P U ( def. )
VC C 1.5 V
E nabl ed ( def. )
Dyn ami c O DT
** No te
CF G (5)
CF G (6)
CF G #
Cu rre nt S etti ng
*PO CA FE B -10 On ly (R emo ve i n MP M odel )
R ese rved
DMIx 2
Low
(def. : de fault Option)
DDR -II (de f.)
DMIx 4 ( def. )
High
2
PS B 4X C LK E nable
1
A
B
C
D
1
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿11󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
ME M1_AD QS *(7: 0)
15-C 4
6
7
146
167
186
3709-0 0134 1
DQS *5
DQS *6
DQS *7
7
3
4
2
0
1
5
129
DQS *011DQS *129DQS *249DQS *368DQS *4
DQ6 0
DQ6 1
DQ6 2
DQ6 3
180
182
192
194
63
60
61
62
1
5
2
4
3
6
188
131
148
169
DQS 7
DQS 5
DQS 6
DQ5 3
DQ5 4
DQ5 5
DQ5 6
DQ5 7
DQ5 8
DQ5 9
160
174
176
179
181
189
191
57
55
54
58
59
56
53
B B
Addres s : ’A 0’
ME M1_AD QS (7: 0)
15-C 4
0
5
6
3
4
7
185
130
147
170
DQS 013DQS 131DQS 251DQS 370DQS 4
DM7
DM5
DM6
DQ5 1
DQ5 2
DQ4 5
DQ4 6
DQ4 7
DQ4 8
DQ4 9
DQ5 0
175
158
152
154
157
159
173
49
51
48
46 46
52
47
50
CL K3_ S MBD ATA
ME M1_AD M(7: 0)
CL K3_ S MBC LK
ME M1_AR A S*
ME M1_O DT0
ME M1_O DT1
14-B 1 19- C4
15-C 4
1
2
0
119
ODT 0
ODT 1
DM010DM126DM252DM367DM4
DQ4 0
DQ4 1
DQ4 2
DQ4 3
DQ4 4
143
151
153
140
142
45
42
41
44
43
ME M1_AW E *
R 743
R 744
14-B 1 19- C4
10K
10K
19-C 415-B4
18-B 220-B4 8 -C4
18-B 220-B4 8 -C4
114
198
200
197
195
109
R AS *
S A0
S A1
S CL
S DA
WE *
DQ3 7
DQ3 8
DQ3 9
DQ3 3
DQ3 4
DQ3 5
DQ3 6
126
134
136
141
40
125
135
137
124
35
39
33
38
34
362737
CL K1_ MC LK 0*
CL K1_ MC LK 1*
ME M1_AC AS *
19-C 415-B4
108
CA S*
CL K1_ MC LK 0
CL K1_ MC LK 1
ME M1_C KE 0
ME M1_C KE 1
14-C 1
14-B 1
14-C 1
14-B 1
14-B 1
19-D4
19-D414-B 1
19-C 415-B4
113
164
166
80
CK 030CK 0*32CK 1
CK 1*
CK E 079CK E 1
DQ3 074DQ3 176DQ3 2
64
123
28
29
32
25
27
26
31
30
10V
P1 .8V _AU X
2200nF
BC 663
121
122
196
BC 691
2200nF
2200nF
BC 673
BC 686
2200nF
2200nF
BC 652
193
3709-0 0134 1
72
VS S 10
VS S 11
VS S 12
VS S 13
VS S 148VS S 15
VS S 54
VS S 55
VS S 56
VS S 57
VS S 51
VS S 5228VS S 53
149
161
40
138
150
162
183
133
184
48
12
77
47
VS S 6
VS S 778VS S 871VS S 9
VS S 4
VS S 5
VS S 3
VS S 2
VS S 1
GN D1
VS S 4034VS S 41
VS S 42
VS S 43
VS S 44
VS S 452VS S 463VS S 4715VS S 4827VS S 49
VS S 50
132
144
156
168
39
C
ME M1_AB S 2
ME M1_AB S 1
ME M1_AB S 0
ME M1_C S 0*
ME M1_C S 1*
14-B 1
15-C 4 19-C 4
19-D4
19-C 415-D4
19-D414-B 1
19-C 415-C4
110
115
107
106
S 0*
S 1*
BA 0
BA 1
DQ2 256DQ2 358DQ2 461DQ2 563DQ2 673DQ2 775DQ2 862DQ2 9
DQ2 044DQ2 1
57
46
23
24
18
22
19
21
17
MCH 3_E XT T S0 *
100nF
C9 51
C9 52
2200nF
14-C 4
201
202
163
1
NC TE S T
VR E F
GN D0
VS S 33
VS S 34
VS S 35
VS S 369VS S 3721VS S 3833VS S 39
155
177
187
178
190
10
11
12
9
13
105
116
85
91
A10_ AP
A1190A1289A13
A1486A1584A16_ BA2
DQ1 035DQ1 137DQ1 220DQ1 322DQ1 436DQ1 538DQ1 643DQ1 745DQ1 855DQ1 9
DQ9
25
11
16
12
10
9
15
13
ME M1_V R E F
C7 08
100nF
10V
P3 .3V
C7 07
2200nF
103
104
199
120
83
VDD 1088VDD 11
VDD 12
VDD S PD
NC 1
NC 250NC 369NC 4
VS S 25
VS S 26
VS S 27
VS S 28
VS S 29
VS S 30
VS S 31
VS S 32
127
139
128
145
165
171
172
66
D
ME M1_AM A(13: 0)
15-B 4 19- D3
8
5
2
1 1
3
6
7
DQ716DQ8
23
8
7
0
100
102
101
DDR 2 -SO DIMM -200P -R VS
DDR 1 -1
A1
A2
A399A498A597A694A792A893A9
A0
DQ6
DQ4
DQ5
DQ3
DQ05DQ1
DQ2
14
4
6
19
7
17
2
5
0
3
6
4
1
112
111
117
118
2/2 2/21/21/2
DDR 1 -2
DDR 2 -SO DIMM -200P -R VS
VDD 1
VDD 2
VDD 396VDD 495VDD 5
VDD 681VDD 782VDD 887VDD 9
VS S 1624VS S 1741VS S 1853VS S 19
VS S 2054VS S 2159VS S 2265VS S 2360VS S 24
18
42
ME M1_AD Q(6 3:0)
15-D4
P1 .8V _AU X
3
ME M1_B DQS *(7 :0)
Addres s : ’A 4’
ME M1_B DQS ( 7:0)
CL K3_ S MBD ATA
ME M1_B DM(7 :0)
CL K3_ S MBC LK
ME M1_O DT2
ME M1_O DT3
R 745
15-C 2
7
5
4
2
6
7
129
146
167
2
186
DQS *5
DQS *6
DQS *7
6
1
0
3
169
188
11
DQS *129DQS *249DQS *368DQS *4
DQS 6
DQS 7
DQS *0
DQ5 8
DQ5 9
DQ6 0
DQ6 1
DQ6 2
DQ6 3
189
191
180
182
192
194
61
62
63
60
58
15-C 2
5
0
4
2
3
6
7144
1
131
148
DQS 5
DQ5 6
DQ5 7
179
181
57
56
170
185
DQS 013DQS 131DQS 251DQS 370DQS 4
DM6
DM7
DQ5 3
DQ5 4
DQ5 5
DQ4 9
DQ5 0
DQ5 1
DQ5 2
160
174
176
159
173
175
158
55
49
54
52
53
50
15-C 2
8-C4 20 -B418-B 4
8-C4 20 -B418-B 4
19-C 414-B1
10K
19-C 414-B1
0
5
1
3
2
119
200
197
195
130
147
DM5
DQ4 7
DQ4 8
154
157
47
48451
114
ODT 1
S A0
S A1
S CL
S DA
ODT 0
DM010DM126DM252DM367DM4
DQ3 9
DQ4 0
DQ4 1
DQ4 2
DQ4 3
DQ4 4
DQ4 5
DQ4 6
153
140
142
152
45
43
44
DQ3 5
DQ3 6
DQ3 7
DQ3 8
136
141
143
151
124
126
134
42
37
36
41
38
40
39
P3 .3V
ME M1_B R AS *
ME M1_B WE *
CL K1_ MC LK 3
CL K1_ MC LK 2
ME M1_C KE 2
ME M1_C KE 3
ME M1_B BS 0
ME M1_B BS 1
ME M1_B BS 2
ME M1_C S 2*
ME M1_C S 3*
CL K1_ MC LK 3*
CL K1_ MC LK 2*
ME M1_B CA S *
ME M1_B MA(1 3:0)
ME M1_B DQ( 63:0 )
R 746
15-B 2 19- C4
15-B 2 19- C4
15-B 2 19- C4
14-B 1
14-B 1 19- D4
14-C 1
14-B 1
14-B 1 19- D4
14-C 1
10K
108
198
109
113
164
166
80
R AS *
WE *
CA S*
CK 1*
CK E 079CK E 1
DQ3 074DQ3 176DQ3 2
DQ3 3
DQ3 4
64
123
125
135
137
34
32
35
33
25
26
29
30
31
28
15-D2 1 9-C 4
14-B 1 19- D4
15-C 2 19-C 4
14-B 1 19- D4
19-C 415-C2
110
115
107
106
85
S 0*
S 1*
CK 030CK 0*32CK 1
DQ2 461DQ2 563DQ2 673DQ2 775DQ2 862DQ2 9
58
24
23
22
A1486A1584A16_ BA2
BA 0
BA 1
DQ2 044DQ2 146DQ2 256DQ2 3
57
20
15
18
19
17
21
14
16
7
8
12
9
6
11
10
13
116
105
91
A1190A1289A13
A10_ AP
DQ1 035DQ1 137DQ1 220DQ1 322DQ1 436DQ1 538DQ1 643DQ1 745DQ1 855DQ1 9
DQ6
DQ716DQ823DQ9
14
25
6
9205
11
13
7
12
10
8
19-C 315-B2
5
2
3
4
0
100
102A1101
DDR 2 -SO DIMM -200P -R VS
A2
A399A498A597A694A792A893A9
A0
DQ4
DQ5
DQ3
DQ1
DQ2
DQ0
4
6
19
7
17
5
4
3
0
1
2
15-A2
DDR 2 -1
24 1
ME M1_V R E F
MCH 3_E XT T S0 *
C9 55
100nF
10V
P1 .8V _AU X
2200 nF
C9 56
BC 648
2200nF
2200nF
BC 671
13
BC 684
2200nF59
2200nF
BC 658
BC 677
2200nF
193
VS S 148VS S 15
VS S 55
VS S 56
VS S 57
138
150
162
184
121
122
196
72
VS S 778VS S 871VS S 9
VS S 10
VS S 11
VS S 12
VS S 13
VS S 5228VS S 5340VS S 54
VS S 50
VS S 51
161
39
149
10V
183
201
202
133
48
77
12
47
VS S 6
VS S 4
VS S 5
VS S 3
GN D0
GN D1
VS S 1
VS S 2
VS S 3833VS S 39
VS S 4034VS S 41
VS S 42
VS S 43
VS S 44
VS S 452VS S 463VS S 4715VS S 4827VS S 49
155
132
144
156
168
100nF
C6 96
10V
P3 .3V
C6 97
2200nF
14-C 4
103
104
199
120
163
50
83
1
NC TE S T
NC 2
VR E F
NC 369NC 4
VS S 32
VS S 33
VS S 34
VS S 35
VS S 369VS S 37
21
177
187
178
190
VDD 1088VDD 11
VDD 12
VDD S PD
NC 1
VS S 26
VS S 27
VS S 28
VS S 29
VS S 30
VS S 31
127
139
128
145
165
171
172
111
117
118
VDD 2
VDD 396VDD 495VDD 5
VDD 681VDD 782VDD 887VDD 9
VS S 2360VS S 2466VS S 25
VS S 2054VS S 2159VS S 22
65
42
P1 .8V _AU X
112
DDR 2 -2
DDR 2 -SO DIMM -200P -R VS
VDD 1
VS S 1624VS S 1741VS S 1853VS S 19
18
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿12󰼿>
C
D
This Document can not be used without Samsung's authorization.
7.󰼿Circuit󰼿Diagram
18-C 215-C2
7
R A623 -2
34
56
ME M1_B BS 2
15-C 2 18-C 2
R A621 -1
12
56
6
R A623 -1
12
56
ME M1_B BS 1
15-D2 1 8-C 2
R A609 -134R A607 -1
12
56
5
R A622 -1
12
56
ME M1_B BS 0
12
56
4
R A624 -2
34
56
C
ME M1_AC AS *
ME M1_AR A S*
ME M1_AW E *
15-B 4 18- C4
18-B 415-B4
18-B 415-B4
R A601 -2
R A604 -1
34
12
56
56
3
2
R A624 -1
R A620 -2
34
12
56
56
R A601 -1
12
56
1
R A620 -1
12
56
ME M1_AB S 2
15-C 4 18-C 4
0
R A609 -2
34
56
18-C 415-C4
R A612 -1
12
56
ME M1_O DT3
ME M1_AB S 0
ME M1_AB S 1
14-B 1 18- B2
18-C 415-D4
R A605 -2
R A602 -1
12
56
56
ME M1_B MA(1 3:0)
15-B 2
18-D2
A
100nF
10V
4
3
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V
100nF
10V 10V
100nF
10V
100nF
10V
100nF
10V
Pla ce one ca p clos e to e very 2 pull-up res istors terminated to P0 .9V
100nF
10V
100nF
10V
100nF
10V
100nF
100nF
10V10V
100nF100nF
10V
100nF
10V
10V
100nF100 nF
10V
100nF
100nF
10V
P0 .9V
BC 668
BC 669
BC 646
BC 662
BC 688
BC 689
Pla ce near G MC H
BC 649
BC 674
BC 675
BC 645
BC 687
Pla ce near S O -DIMM 0
BC 682
BC 681
BC 644
BC 676
BC 650
BC 661
Pla ce near S O -DIMM 1
BC 655
BC 680
BC 651
BC 660
BC 656
BC 667
BC 643
BC 683
BC 654
B
ME M1_B CA S *
ME M1_B R AS *
ME M1_B WE *
15-B 2 18- C2
15-B 2 18- B2
15-B 2 18- B2
R A606 -1
R A610 -2
12
R A619 -2
34
56
11
R A625 -1
12
56
10
R A607 -2
34
56
9
R A619 -1
12
56
R A606 -2
34
8
R A622 -2
34
56
12
56
563456
P1 .8V _AU X
BC 659
100nF
100nF
BC 657
BC 679
100nF
100nF
BC 670
P1 .8V _AU X
BC 664
100nF
100nF
BC 665
BC 690
100nF
100nF
BC 678
P1 .8V _AU X
100nF
BC 647
BC 653
100nF
100nF
BC 685
BC 672
100nF
13
R A611 -1
12
56
ME M1_O DT2
18-B 214-B1
R A608 -1
12
56
18-B 414-B1
R A611 -2
34
56
13
R A603 -2
34
56
ME M1_O DT1
18-B 414-B1
R A600 -1
12
56
R A613 -2
3
4
56
ME M1_O DT0
R A603 -1
12
56
18-C 214-B1
11
R A617 -2
34
56
ME M1_C KE 3
14-B 1 18- C2
R A625 -2
34
56
10
R A602 -2
34
56
ME M1_C KE 2
14-B 1 18- C4
R A621 -2
34
56
9
R A613 -1
1
2
56
ME M1_C KE 1
ME M1_C KE 0
ME M1_C S 3*
14-B 1 18- C2
14-B 1 18- C4
R A617 -1
R A612 -2
12
34
56
56
8
7
R A615 -23R A615 -1
R A618 -1
12
4
56
56
14-B 1
18-C 2
R A608 -2
34
56
6124
R A618 -2
34
56
ME M1_C S 2*
R A610 -1
ME M1_C S 1*
14-B 1 18- C4
12
56
5
12
56
ME M1_C S 0*
14-B 1 18- C4
R A600 -2
34
56
R A616 -1
12
56
R A604 -2
34
56
3
R A614 -2
34
56
2
R A616 -2
34
56
P0 .9V
1
R A614 -1
12
56
D
0
R A605 -1
12
56
4
ME M1_AM A(13: 0)
15-B 4 18- D4
3
P0 .9V
2
C han nel B
C alis toga
VC C SM
VC C A_S M
DDR -II : :
VC C SM
P1 .8V _AU X
C han nel A
P1 .5V
2
VC C A_S M
Memory Topolo gy
(T BD) "
(T BD) "
(T BD) "
(T BD) "
(T BD) "
BS
CON TAC T -PL AT E- EM I
CON TAC T -PL AT E- EM I
CON TAC T -PL AT E- EM I
1
CON TAC T -PL AT E- EM I
E MI2
EMI
E MI1
EMI
E MI3
EMI
E MI4
EMI
CA S /RAS /WE
(T BD) "
CS
Addres s
CK E
P0 .9V
Memory Channel B
(T BD) "
(T BD) "
(T BD) "
(T BD) "
DQ( 63:0 )
CL K
C onne cto r
R eve rs e
DD R-II
CL K
P1 .8V _AU X
Memory Channel A
C onne cto r
S tand ard
P3 .3V
A
B
C
(T BD) "
DQ( 63:0 )
CA S /RAS /WE
BS
P1 .8V _AU X
DD R-II
P3 .3V
(T BD) "
(T BD) "
(T BD) "
CS
CK E
( D ual cha nnel for DDR -II )
Addres s
P0 .9V
1
D
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿󰼿13󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
CH P3_ E E_ DOU T
CH P3_ E E_ CL K
CH P3_ E E_ DIN
No_s tuff
CH P3_ E E_ CS
4
20-C 2
20-C 2
20-C 2
20-C 2
R HU0 02N06
Q24
G
2
4
93L C46 B
U62 9
CL K1CS3DI
DO
VC C
VS S
NC 16NC 2
7
8
5
100nF
P3 .3V _AU X
C3 94
KB C3 _WK ON _LA N_D
LAN DI SA BL E
KB C3 _WK ON _LA N
3
R 1007
R 1006
43-? 4
43-? 4
0
R 1005
10K
0
3
2
1
U63 2
NC 7S Z175 P6 X
CP
D
GN D Q
VC C
C*
4
5
6
20-D2 20 -C4
PR T C _BA T
1
18-B 4 18 -B2 8-C 4
R 419
24.9
1%
CH P3_ IDE IR Q
IDE 5_D AC K*
IDE 5_I OR DY
IDE 5_D RE Q
IDE 5_I OW*
IDE 5_I OR *
42-C 3 42-D1
23-B 3
42-C 3 42-D1
42-C 2 42-C 4
42-C 3 42-D2
42-C 2 42-C 4
42-C 342-C1
CH P3 _R TC R S T*
AG 16
AH1 5
AH1 6
AE 15
AF 16
AF 15
IOR DY
DDAC K *
DDR E Q
DIO R*
DIO W*
IDE IR Q
2
B
38-C 3
21-D? 23-C3 37 -C4
56-B 155-C 144- A?
D
3
S
2
CL K3_ S MBD ATA
AG 10
AH1 0
S ATA RB IAS N
S ATA RB IAS P
44-B ? 5 5-C 1 56-B 1
SM B3_ DAT A
SM B3_ CL K
38-C 337-C 423-C 321-D?
R HU0 02N06
Q62 4
3
D
G
1
S
2
R 958
R 297
18-B 4 8-C418- B2
CL K3_ S MBC LK
CL K1_ S ATA *
CL K1_ S ATA
8-B1
8-B1
SA TA1 _TX P 0
42-B 4
42-B 4
Pla ce near to HDD side
C3 39
25V4.7nF
AG 6
AH6
AE 1
AF 1
S ATA _C LK N
S ATA _C LK P
AH2
AE 7
AF 7
S ATA 2TX P
S ATA 0TX P
S ATA 2R XN
S ATA 2R XP
S ATA 2TX N
P3 .3V
2K
2K
SA TA1 _R XP 0
SA TA1 _TX N0
42-B 4
C3 41
C3 68
4.7nF
25V
25V4.7nF
AG 2
AE 3
S ATA 0R XP
S ATA 0TX N
0
CH P3_ AZ_ MDC _S DO
CH P3_ AZ_ AUD_ SD O
CH P3_ S ATA LE D*
SA TA1 _R XN 0
42-B 4
23-C 4 39-D4
46-B 4
46-B 4
42-A3
R 987
R 985
C3 40
33
1%33
1%
25V4.7nF
AF 18
AF 3
T1
T4
S ATA LE D*
S ATA 0R XN
AC Z_S DO UT
**Note
AC Z_S Y NC
x1 / x 2 Doc king
1
PO R T X L ine
1x2 / 2x1
4x1
No S tuff
PU
S tuff
No S tuff
PD
S tuff
CH P3_ AZ_ MDC _S YN C
CH P3_ AZ_ MDC _BC L K
CH P3_ AZ_ AUD_ SY NC
CH P3_ AZ_ AUD_ BC LK
CH P3_ AZ_ MDC _R S T*
CH P3_ AZ_ AUD_ R ST *
CH P3_ AZ_ SD I1
CH P3_ AZ_ SD I0
39-D4
39-D4
39-C 4
46-B 4
46-B 4
39-C 4
R 989
R 495
R 494
R 492
R 489
33 1%
33 1%
1%33
1%33
1%33
R 5
R 6
AC Z_B IT_ CL KU1AC Z_R S T*
AC Z_S DIN 0T2AC Z_S DIN 1T3AC Z_S DIN 2
AC Z_S Y NC
C
1
2
R 504
1K
PL AC E TO B OT TO M
AR R OU ND M EM OR Y DOO R
1M
R 318
C1 056
0.01 nF
0.01 nF
C1 057
CH P3_ E E_ DOU T
LAN 3_P HY RS T
LAN 3_P HY CL K
CH P3_ E E_ CL K
LAN 3_R XD 2
LAN 3_R XD 1
LAN 3_T XD1
LAN 3_T XD0
LAN 3_T XD2
44-A?
44-A?
46-B 3
44-A?
44-A?
44-A?
R 988
33 1%
V6
LAN _TX D1V7LAN _TX D2
CH P3_ E E_ DIN
LAN 3_R XD 0
20-A4
44-A?
44-A?
20-A4
44-A?
20-A4
U3
U5
LAN _R XD 0V4LAN _R XD 1T5LAN _R XD 2U7LAN _TX D0
Y1
LAN _C LKV3LAN _R S TS Y NC
nostuff
CH P3_ E E_ CS
E E_ CSW1E E_ DINW3E E_ DOU TY2E E_ SH CL K
HDR -2 P-S MD
23
20-A4
.
D
J6 07
D27
TP 1072 0
6.3V
14
W4
INT R UDE R *Y5INT VR ME N
BA T54 C
3
R 503
20K
C3 66
1000 nF
C3 67
1000nF
20-D2 2 0-A2
CH P3_ R TC R ST *
R 990
32. 768K Hz Y6 01
10M
CH P3_ R TC R ST *
Disa ble
20-A2
20-C 4
Pull down
R 416
AA3
AB 2
AB 1
R TC R ST *
R TC X2
R TX C1
MIC OM_ P3V
12
4
PR T C _BA T
3
**Note
(V ccS us1 _05 : NC )
Internal VR S trap
E nable
Pull up
PR T C _BA T
330K
1M
R 417
2
1
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿14󰼿>
IC H7-M
1 / 5
U6 24-1
GP IO 49_C P UP WR GD
TH ER MT R IP *
DC S1 *
DC S3 *
DA2
DA0
DA1
AE 17
AF 17
AE 16
AD16
42-C 3
42-C 142-C3
42-C 242-C3
42-C 242-C3
42-C 2
42-C 142-C3
IDE 5_A 0
IDE 5_A 1
IDE 5_A 2
IDE 5_C S 1*
IDE 5_C S 3*
DD10
DD11
DD12
DD13
DD14
DD15
AC 15
AH1 7
15
DD7
DD8
DD9
AB 13
AC 14
AF 14
AH1 3
AH1 4
12
13
11
14
10
DD2
DD3
DD4
DD5
DD6
AD12
AC 12
AE 12
AF 12
AF 13
AD14
AC 13
8
5
6
3
7
9
4
Pla ce 56 ohm resis tor within 2" of IC H6- M
Pla ce PU res istor within 2 " of IC H6 -M
S TP CL K*
DD0
DD1
AE 14
AG 13
1
2
**Note
S MI*
AH2 2
AF 26
AB 15
TP 1070 7
0
42-B 442-D2 42-D 1 42-C 4
9-B3
R 314
CP U1_ S TP CL K*
IDE 5_D (0:1 5)
CP U1_ S MI*
27.4
12-A41 4-C 4 10-C3
1%
CP U1_ TH RM TR IP *
INIT 3_3 V*
IG NNE *
R CIN *
INT R
INIT *
NMI
AF 23
AH2 4
AG 23
AF 22
AG 21
AF 25
R 310
TP 1070 8
INS T PAR
43-? 2 23 -B3
24-C 4
9-C3
9-B3
9-B3
9-B3
CP U1_ IG NNE *
CP U1_ INIT *
CP U1_ INT R
CP U1_ NMI
FW H3_I NIT *
KB C3 _C PU RS T *
VC C P
56.2
1%
R 315
B
TP 1_D PR S TP *
TP 2_D PS LP *
CP US L P*
FE R R *
AF 24
AH2 5
AG 26
AG 24
AG 22
TP 1259 4
TP 1071 9
23-B 4 10-C 3
10-C 3
10-C 323-B4
9-B3
CP U1_ PW R GD CP U
CP U1_ DP SL P*
CP U1_ DP R ST P *
9-B3
1%
CP U1_ FE R R *
C
LDR Q 1*_G PIO 23
A20G AT E
LF R AME *
LDR Q 0*
A20M *
56-D1 24-A455-C 2 43-?2 2 4-C 3
AB 3
AE 22
AH2 8
AG 27
23-A343 -?2
9-C3
KB C3 _A20 G
LP C3 _LF R AME *
CP U1_ A20M *
LAD 0
LAD 1
LAD 2Y6LAD 3
56-D1 24-A4
AC 3
AA5
AA6
AB 5
AC 4
55-C 2 43-?2 24 -C3
3
0
1
2
56-D1
23-C 456-D1
CH P3_ LDR Q 0*
CH P3_ LDR Q 1*
LP C3 _LAD (0:3 )
1
VC C P
56.2
R 313
D
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
B
C
D D
PC I3_ AD(3 1:0)
CP U3 _AL ER T *
4
12-A3
No_s tuff
R 378
0
21-C ?
CH P3 _TH R M*
CH P3_ S PI_ MOS I
CH P3_ S PI_ MIS O
PL T3_ R ST * PL T3_ R ST F*
14-C 4 25-A?21-C ?
R 296
INS T PAR
R 960
100K
1%
37-C 2
32-C 3 24-C4
42-D3 42 -A4
38-C 3
24-A4
#3
CH P3_ S PI_ CS *
AG 8
AH8
AE 9
S ATA 3R XN
S ATA 3R XP
S ATA 3TX N
S ATA 3TX P
MC H_S Y NC*
AH2 0
44-? ?
44-? ?
44-? ?
R 490
1%
R 491
1%
3
R 415
1%
P3 .3V _AU X
10K
10K
CH P3_ S ATA _DE T*
10K
Pla ce under ke yboard
SI O3_ DCD E T*
R 317
10K
21-A? 47-C1
R 316
10K
2
R 984
1%
R 983
10K
CH P3_ S ATA CL KR E Q*
47
P3 .3V
1%
P2
S PI_ MIS OP5S PI_ MOS I
CH P3_ INT GF X_ ON*
LOM 3_S PI _AR B
CH P3_ S PI_ CL K
SI O3_ DCD E T*
8-C1
33-C 1 33-D 4
44-? ?
44-C ?
R 493
47-C 121-??
no s tuff
R 496
47
0
AD21
AD20
AE 20
D20
R 2
P1
S PI_ AR B
R 3
GP IO 35_S AT AC LK R EQ *
GP IO 38
GP IO 39
GP IO 24
GP IO 25
S PI_ CL KP6S PI_ CS *
R 301
10K
CH P3 _10/100 *
R 362
10K
42-C 342-B4
10K
R 982
1%
CH P3_ IVT P WR ON
KB C3 _WA KE S C I*
DC KL AN_R S T F*
GP IO 15
KB C3 _R UNS C I*
KB C3 _E XT S MI*
31-C 2
43-? 2
43-? 4
56-B 4
E 22
43-? 4
AC 18
E 21
E 20
A20
E 19
F19
R 4
GP IO 7
GP IO 8
GP IO 9
GP IO 13
GP IO 14
GP IO 10
GP IO 12
14-C 4
MCH 3_IC HS Y NC *
CH P3_ PW R BT N*
P3 .3V
P3 .3V _AU X
43-? 2
R 299 R 355
KB C3 _R S MR ST *
KB C3 _LA NR S T*
BT _DE T *
12-C 4 43-? 22 3-B 4
43-? 2
R 497
100
1%
AC 21
C2 3
C1 9
Y4
PW R BT N*
R SM RS T *
GP IO 6
LAN _R S T*
TP 0_B AT LO W*
PC I3_ INT C*
PC I3_ INT D*
PC I3_ INT B*
PC I3_ INT A*
35-C 335-B4
23-B 3
23-B 3
30
31
AG 4
AD5
AH4
AD9
AE 5
S ATA 1R XN
S ATA 1R XP
S ATA 1TX N
S ATA 1TX P
D6
B5
AD31
PI RQ A*A3PI RQ B*B4PI RQ C*C5PI RQ D*
24
23
29
26
25
27
D9
B6
E 6
AD30
E 9
AD23
AD24
AD25B9AD26A8AD27A6AD28C7AD29
16
17
18
19
22
F10
AD22
15
20
G1 3
C1 1
D11
E 12
A11
A10
F11
AD15
AD16
AD17
AD18
AD19
AD20
AD21
8289
2
4
7
13
12
11
14
10
G1 5
C1 4
D14
C1 3
A17
A15
E 14
B1 2
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
0
5
3
6
1
C1 8
E 16
A18
E 17
A16
E 18
F18
AD3
AD4
AD5
AD6
AD2
AD0
AD1
4 1
IC H7-M
2 / 5
U6 24-2
GP IO 22_R E Q4 *
GP IO 17_G NT 5*
GP IO 4_P IR QG *
GP IO 5_P IR QH*
GP IO 2_P IR QE *
GP IO 3_P IR QF *
PL TR S T *
PC IC LK
PME *
TP 3
F21
G7
F8
35-C 3 23 -B3
23-B 3
PC I3_ INT G*
PC I3_ INT H*
A9
C2 6
B1 9
G8
F7
35-C 3
35-C 3 23 -B3
23-B 3
8-C4 8-C4
PC I3_ INT E*
PC I3_ INT F*
CL K3_ PC LK IC H
PL T3_ R ST *
14-C 444-D? 25-A? 21-A?
DE VS E L*
FR AM E*
23-C 335-B4
PC I3_ FR AME *
PC IR S T*
PL OC K*
S ER R *
S TOP *
TR DY *
B1 0
F15
F14
F16
35-B 4 23-C 3
35-B 4
35-B 4 23- B3
23-C 3
23-C 3
PC I3_ PL OC K*
PC I3_ SE R R *
PC I3_ ST OP *
PC I3_ TR DY *
C_ BE 3*
PE R R *
IR DY *
PA R
A7
E 10
B1 8
C9
E 11
A12
35-B 4 23-C 3
35-B 4 23-C 3
35-B 4 23- B3
35-B 4
35-A4
35-B 4
PC I3_ DE VS E L*
PC I3_ IR DY*
PC I3_ PAR
PC I3_ RS T *
PC I3_ PE R R *
PC I3_ CB E 3*
CL K3 _P WR G D*
CH P3_ TH RM *
1
P3 .3V _AU X
10K
10K 10K
KB C3 _IMV P6 _P WR GD
VR M3_ CP U_ PW RG D
CH P3_ DP RS L PV R
CH P3_ S LP S4 *
CH P3_ S LP S5 *
10K
3
2
KS R 110 2
Q62 6
CH P3_ S LP S3 *
CL K3_ US B4 8
ICH 3_S US 32
CL K3_ IC H14
R 969
21-? ?
1%
10K
R 374
10K
1%
PC I3_ CL KR UN *
CH P3_ S ER IR Q
PE X 3_WA KE *
NO S TUF F
51-C 4
14-C 4 43-? 2
R 312
R 498
43-? 2 51-B414-D4
100
1%
0
0
AC 22
AA4
C2 1
PW R OK
GP IO 16_D PR S LP VR
8-C4
43-? 223-B 3 14-C 1
43-? 2
43-? 223-B 3
55-B 1
R 500
AD22
AC 1
D23
C2 0
B2 4
F22
B2
S LP _S 4*
S LP _S 5*
S US CL K
S LP _S 3*
CL K1 4
CL K4 8
VR MP WR G D
23-C 3
23-C 3
55-C 2
23-B 3
55-C 1
43-? 2
56-D1
35-A4
35-C 3 43-? 2
56-D1
43-D1 44-C?
43-? 2
38-D43 7-C 4
AG 18
AC 19
AF 20
F20
AH21
S ER IR Q
GP IO 32_C LK R UN*
GP IO 33_A Z_DO CK _E N*U2GP IO 34_A Z_DO CK _R S T*
TH RM *
WAK E *
GP IO 48_G NT 4*
GP IO 1_R E Q5*
C_ BE 0*
C_ BE 1*
C_ BE 2*
C1 2
D12
C1 5
35-B 4
35-B 4
35-B 4
PC I3_ CB E 0*
PC I3_ CB E 1*
PC I3_ CB E 2*
R EQ 3*
R EQ 0*D7R EQ 1*
R EQ 2*
GN T0*
GN T1*
GN T2*
GN T3*
B1 5
D8
24-C 4
23-B 3
CH P3_ BIO S TB L*
C1 7
E 13
C1 6
E 7
D16
D17
F13
C8
A13
A14
23-B 3
24-C 4
23-C 4
35-C 2
CH P3_ 1394 _R OMW *
MOD_ HOM E
CH P3_ BIO S WP *
23-B 335-B4
23-B 3
35-B 4
23-B 3
PC I3_ GNT 3*
PC I3_ GNT 0*
PC I3_ RE Q 2*
PC I3_ RE Q 0*
PC I3_ RE Q 1*
PC I3_ RE Q 3*
IT P3_ SY S R S T*
3
CH P3 _S AT ADE T0 *
1%
R 302
10K
P3 .3V _AU X
P3 .3V _AU X
10K
R 304
P3 .3V
CH P3_ CA PS LE D *
CH P3_ NUM LE D*
CH P3_ S CL ED *
47-B 1
47-A1
47-B 1
B2 1
E 23
GP IO 26
GP IO 27
GP IO 28
MCH 3_B MB US Y*
PE G 3_B MBU S Y*
CH P3_ CP US T P*
CH P3_ PC IS T P*
SM B3_ ALE R T *
23-C 4
14-C 4
8-C4
8-C4
R 369
R 370
44-B ?23-D3
NO ST UF F
0
0
AC 20
AB 18
AF 21
A21
B2 3
GP IO 18_S T PP C I*
GP IO 20_S T PC P U*
S MBA LE R T*_G P IO11
GP IO 0_B M_B US Y*
1%
CH P3_ S US S TAT *
A22
S US _S TA T*
S YS _R S T*
SM B3_ LIN KAL E RT *
CH P3_ S MLIN K0
CH P3_ S MLIN K1
CH P3_ S PK R
23-C 4 40-A 4
55-C 2 56-A 1 56-D 143-?2
A27
S PK R
SM B3_ DAT A
SM B3_ CL K
R 377
R 372
R 379
R 380
23-D3
23-D3
38-C 3
20-B 4
38-C 3
20-B 4
23-D3
44-A? 55-C 15 6-B 1
44-B ? 55 -C1 5 6-B1
23-C 3 37-C 4
TP 1070 6
A19
23-C 3 37-C 4
100 1%
100
1%100
1%
1%100
AH1 9
AH1 8
AE 19
AF 19
C2 2
B2 2
B2 5
A25
A28
A26
R I*
S MLIN K1
GP IO 36_S AT A2G P
GP IO 37_S AT A3G P
LIN KAL E R T*
GP IO 19_S AT A1G P
GP IO 21_S AT A0G P
S MBC LK
S MBD ATA
S MLIN K0
2
IC H7-M
3 / 5
U6 24-3
US BR B IAS *
US BR B IAS
US BP 7N
US BP 6N
US BP 5P
US BP 6P
US BP 7P
M1
M2
N4
N3
D1
D2
1%
22.6
1
R 487
US B 6 : FI NG ER PR T / DMB
US B 7 : E XP R ES S C AR D
**Note
US B 5 : PO R T RE P LI CAT OR
US B 0,1, 2 : S YS T E M
US B 4 : BL UE T OOT H
US B 3 : Mini C ard, C AME R A
38-C 347-B4
38-C 347-B4
37-C 4
37-C 4
56-B 4
US B
US B3 _P7 +
US B3 _P6 -
US B3 _P6 +
US B3 _P7 -
US B3 _P5 +
US BP 2N
US BP 3N
US BP 4N
US BP 5N
L5
56-B 4
US B3 _P5 -
US BP 1P
US BP 2P
US BP 3P
US BP 4P
H1
H2
J4
J3
K1
K2
L4
57-C 4
38-C 2
38-C 2
57-C 4
47-B 4
47-B 4
US B3 _P3 +
US B3 _P2 -
US B3 _P2 +
US B3 _P3 -
US B3 _P1 +
US B3 _P4 -
US B3 _P4 +
A
GP IO 29_O C5 *A2GP IO 30_O C6 *B3GP IO 31_O C7 *
US BP 0N
US BP 1N
US BP 0P
F1
F2
G4
G3
46-B 2
46-A2
46-B 22146-A2
R 409
US B3 _P0 -
US B3 _P0 +
US B3 _P1 -
1%1K
B
DMI_ IR CO MP
DMI_ ZC OMP
DMI_ CL KN
DMI_ CL KP
DMI3T XN
OC 3*
OC 4*
OC 0*D3OC 1*C4OC 2*
D5
D4
E 5
C3
R 410
1K 1%
P3 .3V _AU X
DMI3T XP
AC 27
AE 28
AE 27
D25
C2 5
8-C1
8-C1
CL K1_ PC IE IC H*
CL K1_ PC IE IC H
R 298
14-C 1
24.9
DMI1_ TX N3
DMI1_ TX P3
1%
P1 .5V
DMI2R X N
DMI3R X N
DMI2R X P
DMI3R X P
AD25
AD24
AC 28
14-C 1
14-C 1
DMI1_ R XN3
DMI1_ R XP 3
DMI1T XN
DMI2T XN
DMI1T XP
DMI2T XP
W27
AB 26
AB 25
AA28
AA27
14-C 1
14-C 1
14-C 1
14-C 1
14-C 1
DMI1_ TX N1
DMI1_ TX P1
DMI1_ R XN2
DMI1_ R XP 2
DMI1_ TX N2
DMI1_ TX P2
DMI0R X N
DMI1R X N
DMI0R X P
DMI1R X P
DMI0T XN
DMI0T XP
PE T N6
PE T P6
R 27
V26
V25
U28
U27
Y2 6
Y2 5
W28
PE R N5
PE R N6
PE R P 5
PE R P 6
R 28
T25
T24
PE T N4
PE T N5
PE T P4
PE T P5
N28
L27
N27
P2 6
P2 5
C2 22
14-C 1
14-C 1
14-C 11%14-C 1
14-C 1
14-C 1
14-C 1
DMI1_ R XN1
DMI1_ R XP 1
DMI1_ R XN0
DMI1_ R XP 0
DMI1_ TX N0
DMI1_ TX P0
10V1 00nF
37-C 4
PE X 1_E XP TX N4
PE X 1_E XP TX P 4
PE R N3
PE R N4
PE R P 3
PE R P 4
PE T N3
PE T N2
PE T P2
PE T P3
J2 8
L28
M26
M25
C2 23
10V1 00nF
37-C 4
37-C 4
37-C 4
PE X 1_E XP R XN 4
PE X 1_E XP R XP 4
G2 7
J2 7
K2 6
K2 5
C2 18
C2 21
C2 20
100nF
100nF
10V
10V1 00nF
10V
38-C 4
56-B 4
56-B 4
56-B 4
56-B 4
PE X 1_DC K RX P3
PE X 1_DC K TX P3
PE X 1_DC K TX N3
PE X 1_DC K RX N3
PE X 1_MIN TX N2
PE X 1_MIN TX P2
PE R N1
PE R N2
PE R P 1
PE R P 2
PE T N1
PE T P1
G2 8
E 27
F26
H26
F25
H25
E 28
R esis tor for T es t : P lace S tuffing Option to minimize stubs
AC ca ps : P CI E need to be within 250 mils of the driver
C2 19
C2 17 100nF
100nFC2 16
10V1 00nF
38-C 4
38-C 4
44-D?
38-C 4
44-D?
44-D?
44-D?
PE X 1_LA NTX P 1
PE X 1_LA NR XP 1
PE X 1_MIN RX N2
PE X 1_LA NTX N1
PE X 1_MIN RX P 2
PE X 1_LA NR XN 1
C
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿15󰼿>
This Document can not be used without Samsung's authorization.
7. Circuit󰼿Diagram
A
of IC H6- M pin ? ?
Pla ce 100nF within 100 mils
P3 .3V _AU X
4
near pin C 1
3
C3 29
100nF
100nF
C3 36
Pla ce 100nF within 100 mils
near pin AG 9
Pla ce both within 100 mils
P1 .5V
C3 34
1000nF
near pin AG 5
P1 .5V
100nF
C3 60
TP 1070 5
AA2
AF 6
C1
Y7
P7
VC C 1_5_A _18
VC C US BP LL
VC C SU S 1_05_ VC C LAN 1_05_ 1
VC C SU S 1_05_ VC C LAN 1_05_ 2
VC C SU S 3_3_1 9
Pla ce 100nF within 100 mils
C3 35
100nF
AD10
AE 10
AF 10
AC 7
AC 8
AD6
AE 6
AF 5
VC C 1_5_A _15
VC C 1_5_A _16
VC C 1_5_A _17
AA7
VC C 3_3_2
VC C 1_5_A _10
VC C 1_5_A _11
VC C 1_5_A _12
VC C 1_5_A _13
VC C 1_5_A _14
B
Pla ce 100nF within 100 mils
near pin AG 28
P3 .3V
Pla ce 100nF within 100 mils
near pin AD2
R 502
1
C3 65
100nF
AC 10
AC 17
AC 6
AD2
VC C SA TAP LL
AB 7
AB 8
AB 9
VC C 1_5_A _3
VC C 1_5_A _4
VC C 1_5_A _5
VC C 1_5_A _6
VC C 1_5_A _7
VC C 1_5_A _8
VC C 1_5_A _9
P1 .5V
R 242
6.3V
1000 0nF
C1 82
1
1uH
L5
16V
C2 25
10nF
P1 .5V
P3 .3V
100nF
C3 22
AG 28
AB 17
AB 10
A1
VC C 1_5_A _1
VC C 1_5_A _2
W22
W23
U22
U23
V22
V23
Y2 2
Y2 3
A5
VC C 3_3_1
VC C DMIP LL
VC C 1_5_B _4 8
VC C 1_5_B _4 9
VC C 1_5_B _5 0
VC C 1_5_B _5 1
VC C 1_5_B _5 2
VC C 1_5_B _5 3
T22
T23
T26
T27
T28
VC C 1_5_B _4 0
VC C 1_5_B _4 1
VC C 1_5_B _4 2
VC C 1_5_B _4 3
VC C 1_5_B _4 4
VC C 1_5_B _4 5
VC C 1_5_B _4 6
VC C 1_5_B _4 7
C
330uF
2.5V
AL
100nF
C2 57
100nF
C2 24
C2 15
100nF
M22
R 25
R 26
R 24
VC C 1_5_B _3 8
VC C 1_5_B _3 9
M23
N22
N23
R 22
R 23
P2 2
P2 3
VC C 1_5_B _3 3
VC C 1_5_B _3 4
VC C 1_5_B _3 5
VC C 1_5_B _3 6
VC C 1_5_B _3 7
K2 2
K2 3
L22
L23
VC C 1_5_B _2 5
VC C 1_5_B _2 6
VC C 1_5_B _2 7
VC C 1_5_B _2 8
VC C 1_5_B _2 9
VC C 1_5_B _3 0
VC C 1_5_B _3 1
VC C 1_5_B _3 2
D
Pla ce caps within 100mils of I CH 7-M
near D28, T 28, AD28
P5 V_A UX
10
C3 61
R 488
1000nF
P3 .3V _AU X
3
1
MMB D301 LT1
100nF
C3 24
Pla ce 100nF nea r pin F 6
D26
P1 .5V
BL M18P G 181S N1
B3 9
E C10
G2 2
G2 3
H22
H23
F24
J2 2
J2 3
VC C 1_5_B _1 9
VC C 1_5_B _2 0
VC C 1_5_B _2 1
VC C 1_5_B _2 2
VC C 1_5_B _2 3
VC C 1_5_B _2 4
D26
D27
D28
E 24
E 25
E 26
F23
VC C 1_5_B _1 2
VC C 1_5_B _1 3
VC C 1_5_B _1 4
VC C 1_5_B _1 5
VC C 1_5_B _1 6
VC C 1_5_B _1 7
VC C 1_5_B _1 8
1000nF
1%
100
R 981
C3 27
3
C2 94
100nF
Pla ce 100nF nea r pin G 10
AD26
AD27
AD28
AC 25
AC 26
VC C 1_5_B _1 0
VC C 1_5_B _1 1
VC C 1_5_B _6
VC C 1_5_B _7
VC C 1_5_B _8
VC C 1_5_B _9
MMB D301 LT1
AC 23
AC 24
AB 23
AB 22
AA22
AA23
F6
VC C 1_5_B _4
VC C 1_5_B _5
VC C 1_5_B _3
VC C 1_5_B _2
VC C 1_5_B _1
V5R E F _S US
4
P5 V
P3 .3V
1
D20
AD17
G1 0
3 2
V5R E F _1
V5R E F _2
IC H7-M
4 / 5
U6 24-4
VC C SU S 3_3_V C CL AN3 _3_1V1VC C SU S 3_3_V C CL AN3 _3_2V5VC C SU S 3_3_V C CL AN3 _3_3W2VC C SU S 3_3_V C CL AN3 _3_4
VC C SU S 3_3_V C CS U SH DA
VC C SU S 3_3_1 0
VC C 1_5_A _30
2
J7
T7
K7
C2 8
G2 0
TP 1071 0
P1 .5V
C3 25
100nF
Pla ce both within 100 mils
near pin ? ?
VC C 1_5_A _19
VC C 1_5_A _20
VC C 1_5_A _21
VC C 1_5_A _22
AH5
AH9
F17
G1 7
AF 9
AG 5
AG 9
100nF
C3 59
NO S TU FF
100nF
C3 42
100nF
C2 84
C3 38
100nF
VC C SU S 1_05_ 1
VC C SU S 1_05_ 2
VC C SU S 1_05_ 3
VC C 1_5_A _23
VC C 1_5_A _24
VC C 1_5_A _25
VC C 1_5_A _26H6VC C 1_5_A _27H7VC C 1_5_A _28J6VC C 1_5_A _29
VC C SU S 3_3_1 1L1VC C SU S 3_3_1 2L2VC C SU S 3_3_1 3L3VC C SU S 3_3_1 4L6VC C SU S 3_3_1 5L7VC C SU S 3_3_1 6M6VC C SU S 3_3_1 7M7VC C SU S 3_3_1 8
VC C SU S 3_3_5
VC C SU S 3_3_6
VC C SU S 3_3_7
VC C SU S 3_3_8K4VC C SU S 3_3_9
K5
N7
P1 .5V
K6
C3 63
100nF
C3 28
100nF 100nF
100nF
C3 26
C2 56
VC C SU S 3_3_1
VC C SU S 3_3_2
VC C SU S 3_3_3
VC C SU S 3_3_4
D22
E 3
G1 9
K3
A24
C2 4
D19
C3 32
100nF
C3 33
100nF
VC C 3_3_1 7
VC C 3_3_1 8F9VC C 3_3_1 9
VC C 3_3_2 0
VC C 3_3_2 1
VC C RT C
G1 1
G1 2
G1 6
W5
PR T C _BA T
P3 .3V _AU X
VC C 3_3_1 0
VC C 3_3_1 1
VC C 3_3_1 2
VC C 3_3_1 3
VC C 3_3_1 4
VC C 3_3_1 5B7VC C 3_3_1 6
B1 3
B1 6
B2 7
C1 0
D15
C2 83
100nF
100nF
C2 95
100nF
C3 37
100nF
C2 96
C3 23
100nF
VC C 3_3_4
VC C 3_3_5
VC C 3_3_6
VC C 3_3_7
VC C 3_3_8
VC C 3_3_9
AG 19
AH1 1
AC 16
AD13
AD18
AG 12
AG 15
10V
P3 .3V
Distribute in PC I sec tion
1
VC C 3_3_V C CH DA
V_C P U_I O_1
V_C P U_I O_2
V_C P U_I O_3
VC C 3_3_3
R 7
AE 23
AE 26
AH2 6
AB 12
AB 20
U6
VC C 1_05_ 19
VC C 1_05_ 20
W7
V18
VC C 1_05_ 12
VC C 1_05_ 13
VC C 1_05_ 14
VC C 1_05_ 15
VC C 1_05_ 16
VC C 1_05_ 17
VC C 1_05_ 18
V16
V17
VC C 1_05_ 10
VC C 1_05_ 11
VC C 1_05_ 9
T11
T18
U11
U18
V11
V12
V14
P1 8
VC C 1_05_ 2
VC C 1_05_ 3
VC C 1_05_ 4
VC C 1_05_ 5
VC C 1_05_ 6
VC C 1_05_ 7
VC C 1_05_ 8
P1 1
VC C 1_05_ 1
M18
L12
L14
L16
L17
L18
M11
L11
P3 .3V _AU X
10nF
C2 87
16V
C2 89
100nF
100nF
C2 60
C2 59
100nF
4700 nF
C1 030
C3 64
Pla ce 100nF within 100 mils
near pin ? ?
VC C P
P3 .3V _AU X
C3 30
100nF
100nF
No S tuff
100nF
C2 88
C2 86
100nF
No S tuff
C2 91
100nF
100nF
C2 92
100nF
C2 90
C2 85
100nF
C2 58
100nF
1000nF
C2 93
E C62 0
330uF
AL
2.5V
VC C P
P3 .3V
C3 31
100nF
of P in ? ?
Pla ce within 100 mils
1
A
SAMSUNG󰼿X60󰼿<󰼿7󰼿-󰼿16󰼿>
B
C
D
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