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RS780M-2
3. 3V S
L1 5
1 . 8V S
R 94
* 0_ 04 02 _2 0m i l _s ho rt
1. 8 VS
V S Y N C #
R 4 22
3 K _0 4
3. 3 V S
R 4 21
D N I
*3 K _0 4
L1 7
H S Y N C #
R 4 23
R S 7 80
3 K _0 4
3. 3 V S
R 4 38
D N I
*3 K _0 4
R X 74 0/R S 740/R S 780 dif fer en c e t a b l e
15 0R termin ation < 1 inch trace
R S 74 0
R X 78 0
R S 78 0
17
N B_ V GA _R
R 75
N B_ P W R GD
3. 3 V I N
1. 8 V I N
1 . 8 V I N
17
N B_ V GA _G
I N
R 70
AL LOW _ LD T S TOP
OC
OC
OC / 1 . 8V I N
17
N B_ V GA _B
OU T(d ef a ul t )/ I N
*
R 69
LD T _S T OP#
3. 3 V I N
1. 8 V I N
3 . 3 V I N / OC
I N ( d ef au l t )/ I N
*
17
H S Y N C #
17
VS Y N C #
*, C LMC m od e: N B se nd LD T _ ST OP #, A LL OW _L D TS T OP w i l l b ec om e i np ut
17
N B_ C R T _D D C _C L K
17
N B_ C R T _D D C _D A T A
1 . 1 V S
L7 6
H C B 1 60 8K F -12 1T 25
L1 9
H C B 1 60 8K F -12 1T 25
1 . 8 V S
L1 4
H C B 1 60 8K F -12 1T 25
L7 9
C O MMO N
H C B 1 60 8K F -12 1T 25
C 91 1
C 19 1
10 U _6 . 3V _ 06
10 U _6 . 3V _ 08
C 6 91
C 17 5
2 . 2U _ 6. 3 V_ 06
2 . 2U _ 6. 3 V _0 6
2 . 2U _ 6. 3 V _0 6
1 . 1V S
R 55
4 . 7K _ 04
3 . 3V S
R 42 5
R 41 6
R 41 4
R 42 4
16
N B_ L C D _D D C _C L K
16
N B_ L C D _D D C _D A T A
17
N B_ H D MI _ D D C _ C LK
17
N B_ H D MI _ D D C _ D A TA
R 4 40
N B _ LD T _S T OP#
5, 1 8
C P U _ LD T _S T OP#
*0 _0 40 2_ 5m i l _s ho rt
1 . 8V S
R 9 9
3 00 _0 4
R 1 02
*0 _0 40 2_ 5m i l _s ho rt
5
C P U _ LD T _R EQ#
R 1 01
N B _ A LL OW_ LD TS TOP
1 8
A LL OW _L D TS T OP
*0 _0 40 2_ 5m i l _s h ort
2008/ 03/18
H C B 16 08 KF -1 21 T2 5
C K _A V D D
C 14 0
2. 2 U _6 . 3V _ 06
A VD D D I
C 17 8
2. 2 U _6 . 3V _ 06
U 2 2C
F 1 2
AV D D 1(N C )
E 1 2
PA R T 3 O F 6
AV D D 2(N C )
H C B 16 08 KF -1 21 T2 5
F 1 4
AV D D D I ( N C )
C 16 5
G1 5
AV S S D I (N C )
Z 10 73
H 1 5
AV D D Q(N C )
2. 2 U _6 . 3V _ 06
H 1 4
AV S S Q(N C )
T XOU T _L 2N (D B G_ GP I O0)
Z 10 76
E 1 7
C _P r(D F T_ GP I O5)
T XOU T _L 3N (D B G_ GP I O2)
Z 10 77
F 1 7
Y (D F T_ GP I O 2)
C 15 5
22 P _5 0V _0 4
Z 10 78
F 1 5
C OMP _P b (D FT _ GPI O4 )
T XOU T _ U 0N (N C )
C 15 0
22 P _5 0V _0 4
G1 8
R E D (D F T_ GPI O 0)
TX OU T_ U 1P (P C I E _R E S E T_ GP I O3)
14 0_ 1% _0 4
G1 7
R E D b(N C )
T XOU T_ U 1N (P C I E _R E S E T_ GP I O2)
C 14 3
22 P _5 0V _0 4
E 1 8
GR E E N (D FT _G PI O1 )
15 0_ 1% _0 4
F 1 8
GR E E N b(N C )
T XOU T _ U 2N (N C )
E 1 9
BL U E (D F T_ GP I O3)
TX OU T_ U 3P (P C I E _R E S E T_ GP I O5)
15 0_ 1% _0 4
F 1 9
BL U E b(N C )
T XOU T _ U 3N (N C )
H S Y N C #
A 1 1
D A C _H S Y N C (P W M_ GPI O4 )
T XC L K _L P(D B G_ GP I O1)
V S Y N C #
B 1 1
D A C _V S Y N C (P W M_GP I O6 )
TX C L K_ LN (D B G_ GP I O3)
R 95
*0_ 04 02 _5 mi l _s ho rt
Z 10 01
F 8
D A C _S C L (PC E _ R C A LR N )
T XC LK _U P (P C I E _R E S E T_ GP I O4)
R 85
*0_ 04 02 _5 mi l _s ho rt
Z 10 02
E 8
D A C _S D A (P C E _T C A LR N )
T XC L K _U N (P C I E _R E S E T_ GP I O1)
R 6 1
Z 10 03
G1 4
D A C _R S E T(P W M_ GPI O1 )
7 15 _1 %_0 4
P LL VD D
A 1 2
PL L VD D ( N C )
P LL VD D 18
D 1 4
PL L VD D 18 ( N C )
B 1 2
PL L VS S (N C )
H 1 7
VD D A 18 H TP LL
V D D A 18 H TP L L
V D D A 18 PC I E P L L
D 7
VD D A 18 PC I E P L L1
R 4 15
E 7
VD D A 18 PC I E P L L2
C 13 4
C 70 7
*0 _0 40 2_ 5m i l _s ho rt
A _R S T #
Z 10 04
D 8
16 , 18 , 20 , 23
A _ R S T#
SY SR ES E Tb
2. 2U _6 . 3V _0 6
A 1 0
3 2
N B _ P WR GD _I N
PO WE R GOO D
N B _L D T _S TOP #
C 1 0
LD T S TOP b
N B _A L LOW _ LD T ST OP
C 1 2
AL L OW_ LD T S TOP
N B H T_ C L KP
C 2 5
2
N B H T _C L K P
H T_ R E F C LK P
N B H T_ C L KN
C 2 4
2
N B H T _C L K N
H T_ R E F C LK N
R 41 3
N B _R EF C L K _P
E 1 1
2
N B _ OS C
R E FC LK _P / OS C I N (OS C I N )
R 59
*0 _0 40 2_ 5mi l _s ho rt
N B _R EF C L K _N
F 1 1
R E FC LK _N (P W M_ GPI O3 )
L V D S_ D I GON (P C E _ TC A LR P)
Z1 00 5
*0_ 04 02 _5 mi l _s ho r t
L V D S _B L ON (PC E_ R C A LR P)
R 60
4. 7 K_ 04
N B GF X_ C LK P
T 2
2
N B GF X _C L K P
GF X_ R E FC L K P
LV D S _E N A _ BL (P WM_ GP I O2)
N B GF X_ C LK N
T 1
2
N B GF X _C L K N
GF X_ R E FC L K N
4. 7K _ 04
Z 10 06
U 1
GP P_ R E F C LK P
4. 7K _ 04
Z 10 07
U 2
GP P_ R E F C LK N
4. 7K _ 04
S B LI N K _C LK P
V 4
2
S B LI N K _ C LK P
GP PS B _ R EF C L K P ( S B _ R EF C L K P )
4. 7K _ 04
S B LI N K _C LK N
V 3
2
S B LI N K _ C LK N
GP PS B _ R EF C L K N (S B_ R E F C LK N )
N B _L C D _D D C _C L K
B 9
I 2C _ C LK
N B _L C D _D D C _D A T A
A 9
MI S.
I 2C _ D A TA
N B _H D M I _ D D C _ C LK
A 8
D D C _ C LK 0/ A U X 0P (N C )
N B _H D M I _ D D C _ D A TA
B 8
D D C _ D AT A 0/ A U X 0N (N C )
Z 10 08
B 7
D D C _ C LK 1/ A U X 1P (N C )
S U S _ S TA T# (P WM_ GP I O5)
3. 3 V
Z 10 09
A 7
D D C _ D AT A 1/ A U X 1N (N C )
TH ER M AL D I OD E _P
R 43 9
10 K _0 4
Z 10 75
B 1 0
ST R P _D AT A
TH E R MA L D I OD E _N
Z 10 11
G1 1
R S VD
Z 10 12
C 8
AU X_ C A L(N C )
R S 7 80 (R X7 80 )
U 2 2D
P AR 4 O F 6
Z 10 23
A B 1 2
ME M_A 0 (N C )
M EM_ D Q0 / D V O_V S Y N C (N C )
Z 10 24
A E 1 6
ME M_A 1 (N C )
ME M_ D Q1/ D V O_ H S Y N C (N C )
Z 10 25
V 1 1
ME M_A 2 (N C )
M EM _D Q2 / D V O_D E (N C )
Z 10 26
A E 1 5
ME M_A 3 (N C )
ME M_D Q 3/ D V O_ D 0(N C )
Z 10 27
A A 1 2
ME M_A 4 (N C )
ME M_D Q4(N C )
Z 10 28
A B 1 6
ME M_A 5 (N C )
ME M_D Q 5/ D V O_ D 1(N C )
Z 10 29
A B 1 4
ME M_A 6 (N C )
ME M_D Q 6/ D V O_ D 2(N C )
Z 10 30
A D 1 4
ME M_A 7 (N C )
ME M_D Q 7/ D V O_ D 4(N C )
Z 10 31
A D 1 3
ME M_A 8 (N C )
ME M_D Q 8/ D V O_ D 3(N C )
Z 10 32
A D 1 5
ME M_A 9 (N C )
ME M_D Q 9/ D V O_ D 5(N C )
Z 10 33
A C 1 6
ME M_A 1 0(N C )
ME M_ D Q1 0/ D V O_ D 6(N C )
Z 10 34
A E 1 3
ME M_A 1 1(N C )
ME M_ D Q1 1/ D V O_ D 7(N C )
Z 10 35
A C 1 4
ME M_A 1 2(N C )
ME M_ D Q1 2(N C )
Z 10 36
Y 1 4
ME M_A 1 3(N C )
ME M_ D Q1 3/ D V O_ D 9(N C )
ME M_D Q 14 / D VO_ D 1 0(N C )
Z 10 37
A D 1 6
ME M_B A 0(N C )
ME M_D Q 15 / D VO_ D 1 1(N C )
Z 10 38
A E 1 7
ME M_B A 1(N C )
Z 10 39
A D 1 7
ME M_B A 2(N C )
ME M_ D QS 0P / D V O_I D C KP (N C )
M EM_ D QS 0 N / D VO _I D C K N (N C )
Z 10 40
W 1 2
ME M_R A S b ( N C )
ME M_ D QS 1P (N C )
Z 10 41
Y 1 2
ME M_C A S b ( N C )
ME M_D QS 1N (N C )
Z 10 42
A D 1 8
ME M_W E b(N C )
Z 10 43
A B 1 3
ME M_C S b (N C )
ME M_D M0(N C )
Z 10 44
A B 1 8
ME M_C K E (N C )
ME M_D M 1/ D V O_ D 8(N C )
Z 10 45
V 1 4
ME M_OD T(N C )
I OP L LV D D 1 8(N C )
Z 10 46
V 1 5
ME M_C K P (N C )
I OP L LV D D (N C )
Z 10 47
W 1 4
ME M_C K N (N C )
I OP LL V SS (N C )
Z 10 48
A E 1 2
ME M_C O MPP (N C )
Z 10 49
A D 1 2
ME M_C O MPN ( N C )
ME M_ VR EF (N C )
R S 7 80 (R X7 80 )
A 22
T XOU T _L 0P (N C )
N B _L VD S_ TX _L 0P 1 6
B 22
TX OU T _L 0N (N C )
N B _L VD S_ TX _L 0N 1 6
A 21
T XOU T _L 1P (N C )
N B _L VD S_ TX _L 1P 1 6
B 21
TX OU T _L 1N (N C )
N B _L VD S_ TX _L 1N 1 6
B 20
T XOU T _L 2P (N C )
N B _L VD S_ TX _L 2P 1 6
A 20
N B _L VD S_ TX _L 2N 1 6
A 19
T XOU T _L 3P (N C )
B 19
B 18
TX OU T_ U 0P (N C )
N B _L VD S_ TX _U 0P 16
A 18
N B _L VD S_ TX _U 0N 16
A 17
N B _L VD S_ TX _U 1P 16
B 17
N B _L VD S_ TX _U 1N 16
D 2 0
TX OU T_ U 2P (N C )
N B _L VD S_ TX _U 2P 16
D 2 1
N B _L VD S_ TX _U 2N 16
D 1 8
D 1 9
B 16
N B _L VD S_ TX _C LK LP 16
1. 8 VS
A 16
N B _L VD S_ TX _C LK LN 1 6
D 1 6
N B _L VD S_ TX _C LK U P 16
D 1 7
N B _L VD S_ TX _C LK U N 16
Z 10 13
A 13
L 20
H C B1 6 08 KF -1 21 T2 5
V D D L TP 1 8(N C )
B 13
C 1 74
V S SL TP 1 8(N C )
1. 8 VS
2 . 2U _ 6. 3 V_ 06
A 15
Z 10 14
6 00mA
V D D L T1 8_ 1(N C )
B 15
L 78
H C B 1 60 8K F -12 1T 25
V D D L T1 8_ 2(N C )
A 14
Z 10 15
V D D L T3 3_ 1(N C )
B 14
Z 10 74
V D D L T3 3_ 2(N C )
C 1 4
C 6 90
V S S LT 1(V S S)
C 6 93
D 1 5
V S S LT 2(V S S)
C 1 6
. 1U _1 6V _0 4
4 . 7U _ 6. 3 V_ 06
V S S LT 3(V S S)
C 1 8
V S S LT 4(V S S)
C 2 0
V S S LT 5(V S S)
E 20
V S S LT 6(V S S)
C 2 2
V S S LT 7(V S S)
E 9
Z 10 16
R 8 6
*0 _0 4 02 _5 mi l _ sh ort
N B _ LC D _ P WR _ E N 16
F 7
Z 10 79
R 5 75
* 0_ 04
G1 2
Z 10 18
R 9 3
N B _ LC D _ B KL _E N 1 6
*0 _0 40 2_ 5m i l _ sh ort
R 6 05
R 9 2
R 8 7
*1 . 2 7 K_ 04
1 . 2 7K _ 04
1 . 27 K_ 04
D 9
T MD S _H P D (N C )
TMD S_ H P D 0 1 7
D 1 0
H P D (N C )
D 1 2
Z 10 20
R 4 43
*0 _0 4
S U S _S T AT # 1 9
A E 8
Z 10 21
A D 8
Z 10 22
R 4 37
1 0K _0 4
D 1 3
TE S T_ E N
T E S TMOD E
R 6 4
1. 8 K _1 %_ 04
A A1 8
Z 10 50
A A2 0
Z 10 51
A A1 9
Z 10 52
Y 19
Z 10 53
V 17
Z 10 54
A A1 7
Z 10 55
A A1 5
Z 10 56
Y 15
Z 10 57
A C 20
Z 10 58
A D 19
Z 10 59
A E2 2
Z 10 60
A C 18
Z 10 61
A B2 0
Z 10 62
A D 22
Z 10 63
A C 22
Z 10 64
A D 21
Z 10 65
Y 17
Z 10 66
W 18
Z 10 67
S T R A P _D E B U G_ B US _ GP IO _E N AB LE b
A D 20
Z 10 68
A E2 1
Z 10 69
En ables the Test Deb ug Bus us ing GPIO .
W 17
Z 10 70
RX 780:NB_TV _C; RS740 :RS740_DF T_GPIO5; RS780:VS YNC#
A E1 9
Z 10 71
A E2 3
1. 8 V S
R S740/RS78 0
RX78 0
A E2 4
1. 1 V S
1 Disable
Enab le
A D 23
0 Enable
Disa ble
A E1 8
Z 10 72
R 20
0_ 04
R S7 40/R S 780: E nables S ide po r t mem or y
RS 740:RS740 _DFT_GPIO 0
RS 780:HSYNC #
Se lects if Memory SI DE PORT i s availa ble or no t
1 = Memory Side port Not avai lable
0 = Memory Side port availabl e
Re gister Re adback of strap:
NB _CLKCFG:C LK_TOP_SP ARE_D[1]
Schematic Diagrams
Sheet 10 of 47
RS780M-2
RS780M-2 B - 11
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