Gigabyte GV-R92564T Schematics

8

+12V_BUS

C10 place at the AGP connector

C10

D D

AGP_INTR#(2)

AGP_GNT#(2)
AGP_WBF#(2)

AGP_SB_S TB#(2)

AGP_MB_8X _DET#(2)

AGP_DBI_HI(2)

AGP_AD_STB1 #(2)

AGP_FRAME#(2)

AGP_TRDY#(2)

AGP_AD_STB0 #(2)

AGP_STOP#(2)
AGP_PAR(2)

AGP_RESET#

180R

AGP_MB_8 X_DET#

AGP_RESET#(2)

C C

B B

A A

10uF_20V /X

DNI

R3
100R

3

U6A
SN74ACT86D

R4

COMMON

AGP_TYPEDET#

AGP_GC_8X_D ET#

+3.3V_BUS

R83 0R

+5V_BUS

147

R19
0R

R81
0R

R90
47K

13
12

7

C11
1uF/10v/6

X7R

1
2

For retail, 1K ohm
pull-down causes
AMD system detects
AGP2X only

+12V, TYPEDET#
short protection
for OEM (1KR)

U6D
SN74ACT86D

6

The following grounds should be routed back to their respective regulators and then tied directly to the g r ound plane with one

GND_RSET

GND_R2SET

C2
100uF/16V

Biggest footprint

AGP_TYPEDET#
AGP_GC_8X_DE T#

AGP_ST1

AGP_SBA1
AGP_SBA3

AGP_SBA5
AGP_SBA7

AGP_AD30
AGP_AD28

AGP_AD26
AGP_AD24

AGP_C/BE#3

AGP_AD22
AGP_AD20

AGP_AD18
AGP_AD16

AGP_AD15
AGP_AD13

AGP_AD11
AGP_AD9

AGP_C/BE#0

AGP_AD6
AGP_AD4

AGP_AD2
AGP_AD0

+VDDQ_BUS

32

2N7002E

TEST

11

R91
1K

1

Q10

R92 147R

via: GND_PVSS, GND_MPVSS, GND_TPVSS, and GND_A2VSSN. The o t her ground pins (G ND_AVSSN, GND _A2VSSQ,
GND_RSET, GND_R2SET) should be tied to the ground plane directly through one via as close to t h e p i n s as possib le
without connecting to anything else. If space is an issue it is possible to use one via for two adjacent pins.

Use 47uF Tant. 16V 20% D size (P/N 4230047600),
800mR Max. ESR and Max. ripple 430mA @ 100kHz

or
100uF, Alum. 6.3V 20% 6.3mm dia (P/N 4261010700),
440mR Max. ESR and Max. ripple 230mA @ 100kHz
or
47uF, Alum. 6.3V 20% 5mm dia (P/N 4262047600),
760mR Max. ESR and Max. ripple 150mA @ 100kHz

MAGP1

A1

12V

A2

TYPEDET#

A3

GC_DET#/RESERVED

A4

USB-

A5

GND

A6

INTA#

A7

RST#

A8

GNT#

A9

VCC3.3

A10

ST1

A11

MB_DET#/RESERVED

A12

DBI_HI/PIPE#

A13

GND#A13

A14

WBF#

A15

SBA1

A16

VCC3.3#A16

A17

SBA3

A18

SB_STB#

A19

GND#A19

A20

SBA5

A21

SBA7

A22

KEY

A23

KEY#A23

A24

KEY#A24

A25

KEY#A25

A26

AD30

A27

AD28

A28

VCC3.3#A28

A29

AD26

A30

AD24

A31

GND#A31

A32

AD_STB1#

A33

C/BE3#

A34

VDDQ

A35

AD22

A36

AD20

A37

GND#A37

A38

AD18

A39

AD16

A40

VDDQ#A40

A41

FRAME#

A42

KEY#A42

A43

KEY#A43

A44

KEY#A44

A45

KEY#A45

A46

TRDY#

A47

STOP#

A48

PME#

A49

GND#A49

A50

PAR

A51

AD15

A52

VDDQ#A52

A53

AD13

A54

AD11

A55

GND#A55

A56

AD9

A57

C/BE0#

A58

VDDQ#A58

A59

AD_STB0#

A60

AD6

A61

GND#A61

A62

AD4

A63

AD2

A64

VDDQ#A64

A65

AD0

A66

VREFGC

UNIVERSAL_AGP_BUS/X

AGP_VREFGC

R_AGP8X must be 1%
resistor to provide
350mV +/- 5% on Vref

R_AGP8X

R93
332R

C19

R94

10nF

100R

OVRCNT#

5.0V#B3
USB+

GND#B5

INTB#
REQ#

VCC3.3#B9

RBF#

GND#B13

DBI_LO/RESERVED

SBA0

VCC3.3#B16

SBA2

SB_STB

GND#B19

SBA4
SBA6

KEY#B22
KEY#B23
KEY#B24
KEY#B25

AD31
AD29

VCC3.3#B28

AD27
AD25

GND#B31

AD_STB1

AD23

VDDQ#B34

AD21
AD19

GND#B37

AD17

C/BE2#

VDDQ#B40

IRDY#
KEY#B42
KEY#B43
KEY#B44
KEY#B45

DEVSEL#

VDDQ#B47

PERR#

GND#B49

SERR#
C/BE1#

VDDQ#B52

AD14
AD12

GND#B55

AD10

VDDQ#B58

AD_STB0

GND#B61

VDDQ#B64

VREFCG

5

+3.3V_BUS+5V_BUS+VDDQ_BUS

C5

C8

47uF_6.3V/X

47uF_6.3V

>=6.3V

>=6.3V

DNI

B1
B2

5.0V

B3
B4
B5
B6
B7

CLK

B8
B9
B10

ST0

B11

ST2

B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57

AD8

B58
B59
B60

AD7

B61
B62

AD5

B63

AD3

B64
B65

AD1

B66

AGP_ST0
AGP_ST2

AGP_SBA 0
AGP_SBA 2

AGP_SBA 4
AGP_SBA 6

AGP_AD31
AGP_AD29

AGP_AD27
AGP_AD25

AGP_AD23
AGP_AD21

AGP_AD19
AGP_AD17

AGP_C/BE#2

AGP_C/BE#1
AGP_AD14

AGP_AD12
AGP_AD10

AGP_AD8

AGP_AD7
AGP_AD5

AGP_AD3
AGP_AD1

AGP_AGPREF

4

AGP_SBA[7..0]
AGP_ST[2..0]
AGP_C/BE#[3..0]
AGP_AD[31..0]

R86 0R

3

AGP_SBA[7..0] (2)
AGP_ST[2..0] (2)
AGP_C/BE#[3..0] (2)
AGP_AD[31..0] (2)

AGP_AGP/PCICLK (2)
AGP_REQ# (2)

AGP_RBF# (2)
AGP_DBI_LO (2)

AGP_SB_S TB (2)

AGP_AD_STB 1 (2)

AGP_IRDY# (2)

AGP_DEVSEL# (2)

AGP_AD_STB 0 (2)

TEST

AGP_AGPREF
AGP_VREFGC

TEST

+VDDQ_BUS

1

R84 0R/X
R85 0R/X

+VDDQ_BUS

1

R88 137R

32

Q9
2N7002E

R89 75.0R

32

2N7002E
Q11

R95 147R

2

1%

1%

R_AGP8X must be 1%
resistor to provide
350mV +/- 5% on Vref

R_AGP8X

R96
332R

R97
100R

AGP_AGPTE ST

Keep stubs short

C21
10nF

1

AGP_AGPTE ST (2)

AGP_AGPREFCG (2)

UNIVERSAL VREFGC CIRCUIT (2X, 4X, 8X)

8

7

6

5

4

3

Title

Size Document Number Rev
Custom

Date: Sheet

2

GIGABYTE CORP.

AGP Bus 8X

GV-R92564T 1.0

01 14

1

of

8

AGP_AD[31..0]

D D

AGP_C/BE#[3..0](1)

C C

AGP_ST[2..0](1)

AGP_AGPREFCG(1)

AGP_AGPTE ST(1)

B B

AGP_C/BE#[3..0]

C20
1uF/10v/6

A_B/COMP_DAC2(11)

2 1

AGP_ST[2..0]

A_R/C_DAC2(11)
A_G/Y_DAC2(11)

Y2
27_MHZ

R36 0R

AGP_SBA[7..0]

AGP_AD_STB0#(1)
AGP_AD_STB1#(1)

AGP_MB_8X _DET#(1)
AGP_DBI_HI(1)
AGP_DBI_LO(1)

OSC_IN

AGP_SB_ST B#(1)

TP8

R1115
1M

+3.3V_BUS

C1205 22pF

C1206 22pF

AGP_AGP/PCICLK(1)

AGP_RESET#(1)

AGP_REQ#(1)

AGP_GNT#(1)

AGP_PAR(1)

AGP_STOP#(1)

AGP_DEVSEL#(1)

AGP_TRDY#(1)

AGP_IRDY#(1)

AGP_FRAME#(1)

AGP_INTR#(1)

AGP_WBF#(1)

AGP_RBF#(1)
AGP_AD_STB 0(1)
AGP_AD_STB 1(1)

AGP_SB_S TB(1)

AGP_SBA[7..0](1)

AGP_ST0
AGP_ST1
AGP_ST2

GND_R2SET

7

AGP_AD0
AGP_AD1
AGP_AD2
AGP_AD3
AGP_AD4
AGP_AD5
AGP_AD6
AGP_AD7
AGP_AD8
AGP_AD9
AGP_AD10
AGP_AD11
AGP_AD12
AGP_AD13
AGP_AD14
AGP_AD15
AGP_AD16
AGP_AD17
AGP_AD18
AGP_AD19
AGP_AD20
AGP_AD21
AGP_AD22
AGP_AD23
AGP_AD24
AGP_AD25
AGP_AD26
AGP_AD27
AGP_AD28
AGP_AD29
AGP_AD30
AGP_AD31

AGP_C/BE#0
AGP_C/BE#1
AGP_C/BE#2
AGP_C/BE#3

AGP_SBA0
AGP_SBA1
AGP_SBA2
AGP_SBA3
AGP_SBA4
AGP_SBA5
AGP_SBA6

AGP_SBA 7

R40 715R

R1198 4.7K/ X DNI
R1199 4.7K/ X DNI

6

U1A

K27

AD0

L26

AD1

L25

AD2

L27

AD3

M25

AD4

M26

AD5

N26

AD6

N25

AD7

R26

AD8

R25

AD9

T26

AD10

T25

AD11

U26

AD12

U25

AD13

U27

AD14

V26

AD15

M28

AD16

N29

AD17

N28

AD18

P29

AD19

P28

AD20

R29

AD21

R28

AD22

T28

AD23

V29

AD24

V28

AD25

W29

AD26

W28

AD27

Y29

AD28

Y28

AD29

AA29

AD30

AA28

AD31

P27

C/BEb0

V25

C/BEb1

M29

C/BEb2

T29

C/BEb3

AF29

PCICLK

AG30

RSTb

AE29

REQb

AG28

GNTb

J29

PAR

J28

STOPb

K29

DEVSELb

K28

TRDYb

L29

IRDYb

L28

FRAMEb

AF28

INTAb

AF27

WBFb

AJ26

NC19

AH25

NC18

AC29

RBFb

P25

AD_STBF0

U29

AD_STBF1

AB26

SB_STBF

AE27

SBA0

AD26

SBA1

AC25

SBA2

AC26

SBA3

AA25

SBA4

AA26

SBA5

Y25

SBA6

Y26

SBA7/IDSEL

AD28

ST0

AD29

ST1

AC28

ST2

AB25

SB_STBS

P26

AD_STBS0

U28

AD_STBS1

H29

AGPREF

H28

AGPTEST

AG27

AGP8X_DETb

AB28

DBI_HI

AB29

DBI_LO

AJ21

R2SET

AJ22

C_R

AK22

Y_G

AK21

COMP_B

AG25

H2SYNC

AF25

V2SYNC

AF23

CRT2DDCCLK

AG24

CRT2DDCDAT

AG29

NC34

AH29

NC33

AJ28

XTALIN

AJ29

AH26
AJ27

XTALOUT

TESTEN
STEREOSYNC

R9250

STEREOSYNC

TESTEN

R33
1K

Part 1 of 5

EXT TMDS / GPIO

PCI/AGPAGP2XCLK

NCSTMDSDAC1

AGP4X/8X

SSC DAC2

STEREOSYNC (7)

ZV_LCDDATA10
ZV_LCDDATA11
ZV_LCDDATA12
ZV_LCDDATA13
ZV_LCDDATA14
ZV_LCDDATA15
ZV_LCDDATA16
ZV_LCDDATA17
ZV_LCDDATA18
ZV_LCDDATA19
ZV_LCDDATA20
ZV_LCDDATA21
ZV_LCDDATA22
ZV_LCDDATA23

GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8

GPIO9
GPIO10
GPIO11
GPIO12
GPIO13
GPIO14
GPIO15
GPIO16

ROMCSb

DVOMODE
ZV_LCDDATA0
ZV_LCDDATA1
ZV_LCDDATA2
ZV_LCDDATA3
ZV_LCDDATA4
ZV_LCDDATA5
ZV_LCDDATA6
ZV_LCDDATA7

/ ROM

ZV_LCDDATA8
ZV_LCDDATA9

ZV_LCDCNTL0
ZV_LCDCNTL1
ZV_LCDCNTL2
ZV_LCDCNTL3

NC35
NC27
NC36
NC28
NC37
NC29
NC39
NC31
NC38
NC30
NC22
NC13
NC23
NC14
NC24
NC15
NC26
NC17
NC25
NC16

DPLUS

DMINUS

TX0M

TX0P

TX1M

TX1P

TX2M

TX2P
TXCM
TXCP

DVIDDCCLK

DVIDDCDATA

HSYNC
VSYNC

RSET

VGADDCDATA

VGADDCCLK

AUXWIN

AJ5
AK4
AJ4
AF4
AG4
AH4
AK3
AJ3
AH3
AG3
AF3
AJ2
AH2
AG2
AF2
AH1
AG1
AH5
AE10
AF5
AE6
AF6
AE7
AG6
AF7
AG8
AF8
AE8
AE9
AF9
AG9

VID/DVO12

AK7

VID/DVO13

AJ7

VID/DVO14

AH8

VID/DVO15

AJ8
AH9
AJ9
AK9
AH10
AK10
AJ10
AH11
AJ11

AK6
AJ6
AH6
AH7

AE15
AF15
AE16
AF16
AG15
AH15
AH16
AH17
AF17
AG17
AJ17
AH18
AK18
AJ18
AG19
AH19
AJ16
AK16
AH20
AJ20
AF11

NC7

AE12

NC8

AF10
AE11

AJ13
AH13
AJ14
AH14
AJ15
AK15
AK12
AK13

AF13
AE13

AF12

HPD

AK25

R

AJ25

G

AK24

B

AH28
AH27

R39 499R

AJ23

AG26
AF26

AE25

TP10

GND_RSET

5

GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
GPIO13
GPIO14
GPIO15
GPIO16
ROMCS#
DVOMODE

VID/DVO16
VID/DVO17
VID/DVO18
VID/DVO19
VID/DVO20

TP7

VSYNC

VGADDCDATA
VGADDCCLK

GPIO[13..0]

R986
10K

24bit-SDR-DVO

DC_Strap1 (7)
DC_Strap2 (7)
DC_Strap3 (7)
DC_Strap4 (7)

4

GPIO[13..0] (7)AGP_AD[31..0](1)

Mem_Strap2 (7)
Mem_Strap1 (7)
Mem_Strap0 (7)

A_R_DAC1 (10)
A_G_DAC1 (10)
A_B_DAC1 (10)
A_HSYNC_DAC1 (10)
A_VSYNC_DAC1 (10)

CRT1DDCDATA (10)
CRT1DDCCLK (10)

RSET
R2SET

3

THE VALUES OF RSET AND R2SET SHOWN IN THE TABLE MAY BE
APPROXIMATE VALUES ONLY (SUITABLE FOR PROTOTYPING)
BEFORE GOING INTO PRODUCTION,CONTACT YOUR ATI

499R

REPRESENTATIVE FOR THE RSET/R2SET VALUES QUALIFIED FOR

715R

MASS PRODUCTION

LCDDATA16 (7)
LCDDATA17 (7)
PAL/NTSC (7)
DC_Strap5 (7)
LCDDATA20 (7)

STEREOSYNC
VGADDCDATA
VGADDCCLK
VSYNC
TESTEN

TDO
TDI
TMS
TCK
TRST

TP1
TP2
TP3
TP4
TP5

OPTION BOUNDARY
SCAN WITH TESTEN

GPIO9
GPIO10
ROMCS#

2

SERIAL EEPROM BIOS

+3.3V_BUS

R21
10K

U11

5

D

6

C

1

C80
1uF/10V/6

X7R

S

7

HOLD

3

W

8

VCC

M25P05-VMN 6T

VSS

+3.3V_BUS

1

2

Q

4

GPIO8

Drop-in without strap change

A A

8

7

6

5

4

3

Pm25LV512-25SC P/N2280002900

Title

Size Document Number Rev
Custom

Date: Sheet

2

GIGABYTE CORP.

RV280 Core

GV-R92564T 1.0

1

of

02 14

5

D D

4

3

2

1

MEMORY CHANNEL A

QSA[7..0](8)

DQMA#[7..0](8)

MAA[13..0](8)
MDA[63..0](8)

C C

B B

A A

QSA[7..0]
DQMA#[7..0]
MAA[13..0]
MDA[63..0]

MDA0
MDA1
MDA2
MDA3
MDA4
MDA5
MDA6
MDA7
MDA8
MDA9
MDA10
MDA11
MDA12
MDA13
MDA14
MDA15
MDA16
MDA17
MDA18
MDA19
MDA20
MDA21
MDA22
MDA23
MDA24
MDA25
MDA26
MDA27
MDA28
MDA29
MDA30
MDA31
MDA32
MDA33
MDA34
MDA35
MDA36
MDA37
MDA38
MDA39
MDA40
MDA41
MDA42
MDA43
MDA44
MDA45
MDA46
MDA47
MDA48
MDA49
MDA50
MDA51
MDA52
MDA53
MDA54
MDA55
MDA56
MDA57
MDA58
MDA59
MDA60
MDA61
MDA62
MDA63

U1B

R9250

DQA1
DQA2
DQA3
DQA4
DQA5
DQA6
DQA7
DQA8
DQA9
DQA10
DQA11
DQA12
DQA13
DQA14
DQA15
DQA16
DQA17
DQA18
DQA19
DQA20
DQA21
DQA22
DQA23
DQA24
DQA25
DQA26
DQA27
DQA28
DQA29
DQA30
DQA31
DQA32
DQA33
DQA34
DQA35
DQA36
DQA37
DQA38
DQA39
DQA40
DQA41
DQA42
DQA43
DQA44
DQA45
DQA46
DQA47
DQA48
DQA49
DQA50
DQA51
DQA52
DQA53
DQA54
DQA55
DQA56
DQA57
DQA58
DQA59
DQA60
DQA61
DQA62
DQA63

Part 2 of 5

ELPIDA

DQMAb0
DQMAb1
DQMAb2
DQMAb3
DQMAb4
DQMAb5
DQMAb6
DQMAb7

MEMORY

INTERFACE A

G30
F28
F30
E29
D28
D29
D30
K25
K26

J25

J26
G28
G25
G26
G27
C29
B29
B28
C27
C26
B26
C25
B25
E26
F25
E25
F24
E23
D22
F22
E22
C17
B17
C16
B16
C14
B14
C13
B13
E18
F17
E17
D16
F15
E15
F14
E14
A13
C12
A12
B12
C10
B10

C9

B9
E13
F12
E12
F11
E10

F9

E9

F8

AA10
AA11
AA12
AA13

QSA0
QSA1
QSA2
QSA3
QSA4
QSA5
QSA6

QSA7
RASAb
CASAb

WEAb
CSAb0
CSAb1

CKEA

CLKA0

CLKA0b

CLKA1

CLKA1b
CLKAFB

VREF

DIMA0
DIMA1

MAA0

B24G29

AA0DQA0

MAA1

A24

AA1

MAA2

B23

AA2

MAA3

C23

AA3

MAA4

B21

AA4

MAA5

F21

AA5

MAA6

E21

AA6

MAA7

F20

AA7

MAA8

E20

AA8

MAA9

C21

AA9

MAA10

B22

MAA11

C22

MAA12

A25

MAA13

C24

DQMA#0

E28

DQMA#1

H26

DQMA#2

A27

DQMA#3

E24

DQMA#4

B15

DQMA#5

E16

DQMA#6

C11

DQMA#7

E11

QSA0

F29

QSA1

H25

QSA2

B27

QSA3

F23

QSA4

C15

QSA5

F16

QSA6

B11

QSA7

F10

RASA#

A19

CASA#

C18

WEA#

F18

CSA#0

E19

CSA#1

F19

CKEA

B19

CLKA0

C20

CLKA#0

B20

CLKA1

B18

CLKA#1

A18
C19

TP11

+VREF

B8
F26

F13

RASA# (8)
CASA# (8)
WEA# (8)
CSA#0 (8)
CSA#1 (8)
CKEA (8)

CLKA0 (8,9)
CLKA#0 (8,9)

CLKA1 (8,9)
CLKA#1 (8,9)

Vref Voltage

+MVDDQ

R265

Re6

499R

+VREF

R268

Re7

499R

Place close to ASIC ba ll
Use localized Vref on the memory page

MEMORY CHANNEL B

U1C

B6

DQB0

R9250

DQB1
DQB2
DQB3
DQB4
DQB5
DQB6
DQB7
DQB8
DQB9
DQB10
DQB11
DQB12
DQB13
DQB14
DQB15
DQB16
DQB17
DQB18
DQB19
DQB20
DQB21
DQB22
DQB23
DQB24
DQB25
DQB26
DQB27
DQB28
DQB29
DQB30
DQB31
DQB32
DQB33
DQB34
DQB35
DQB36
DQB37
DQB38
DQB39
DQB40
DQB41
DQB42
DQB43
DQB44
DQB45
DQB46
DQB47
DQB48
DQB49
DQB50
DQB51
DQB52
DQB53
DQB54
DQB55
DQB56
DQB57
DQB58
DQB59
DQB60
DQB61
DQB62
DQB63

Part 3 of 5

ELPIDA

MEMORY

INTERFACE B

MEMVMODE

MEMVMODE1

C6

B5

C5

B2
C3
C2
D2

E8

E7
D4
D3

F6

F3

F5
G6
D1

E2

F2

F1
G2
H3
H2

J3
G4
H6
H5

J6

K5

K4

L6

L5
U2

V2

V1

V3
W3

Y2

Y3

AA2
AA3
AB2
AB3
AC2
AD1
AD3
AE1
AE2

U6
U5
U3

V6
W5
W4

Y6

Y5

AA6
AA5
AB6
AB5
AD6
AD5
AE5
AE4

AB10
AB11
AB12
AB13

DQMBb0
DQMBb1
DQMBb2
DQMBb3
DQMBb4
DQMBb5
DQMBb6
DQMBb7

QSB0
QSB1
QSB2
QSB3
QSB4
QSB5
QSB6

QSB7
RASBb
CASBb

WEBb
CSBb0
CSBb1

CKEB
CLKB0

CLKB0b

CLKB1

CLKB1b
CLKBFB

DIMB0

DIMB1

MEMTEST

J2

AB0

K3

AB1

K2

AB2

L3

AB3

L2

AB4

M3

AB5

M2

AB6

N5

AB7

M1

AB8

M5

AB9

N3
P2
P6
P5

A4
E3
G3
J5
W2
AC3
W6
AC6

B4
E5
G1
K6
W1
AD2
V5
AC5

R2
T5
T6
R5
R6
R3
N1

N2
T2

T3
P3

TP12

DNI

2.5V (DDR)

1.8V (DDR)

3.3V (SDR)

+VDDC_CT

Default

B7
C7

G5
AE3

C8

R55
47R

R51 4.7K
R52 4.7K/X

R53

R54

4.7K

4.7K/X

DNI

MEMVMODE[1:0] MEMORY IO VOLTAGE

0 1

1 0

1 1

Title

Size Document Number Rev
Custom

5

4

3

2

Date: Sheet

GIGABYTE CORP.

RV280 Mem Interface

GV-R92564T 1.0

1

03 14

of

5

U1D

P18

VDDC#P18

P19

VDDC#P19

U12

VDDC#U12

U13

VDDC#U13

U14

VDDC#U14

U17

VDDC#U17

U18

+VDDC_CT

AC11
AC20

AK19
AE19
AE20
AF20
AG20

AJ19
AF18
AF19
AE18
AE17

AJ12
AH12

AF14
AE14

AG14
AG13
AG12

AF21
AF22

AH21
AF24
AE23

AE21
AE22
AG22
AH22

U19
V12
V13
V14
V17
V18

V19
W12
W13
W14
W17
W18
W19

H10

H13

H15

H17

H19

H22

J23
J24
J27

E27

G10

G13

G15

G22

L23
H20
H11

J1

J4
J7
J8

L8
M4
N4
N7
N8
R1
R4

T4

T7

T8

F4

G7

P8

Y8

VDDC#U18
VDDC#U19
VDDC#V12
VDDC#V13
VDDC#V14
VDDC#V17
VDDC#V18
VDDC#V19
VDDC#W12
VDDC#W13
VDDC#W14
VDDC#W17
VDDC#W18
VDDC#W19

VDDR1#H10
VDDR1#H13
VDDR1#H15
VDDR1#H17
VDDR1#H19
VDDR1#H22
VDDR1#J1
VDDR1#J23
VDDR1#J24
VDDR1#J27
VDDR1#J4
VDDR1#J7
VDDR1#J8
VDDR1#L8
VDDR1#M4
VDDR1#N4
VDDR1#N7
VDDR1#N8
VDDR1#R1
VDDR1#R4
VDDR1#T4
VDDR1#T7
VDDR1#T8

VDDR1#E27
VDDR1#F4
VDDR1#G10
VDDR1#G13
VDDR1#G15
VDDR1#G22
VDDR1#G7

VDDC18#L23
VDDC18#H20
VDDC18#H11
VDDC18#P8
VDDC18#Y8
VDDC18#AC11
VDDC18#AC20

NC
VDDC18#AE19
VDDC18#AE20
NC#AF20
NC#AG20

NC#AJ19
NC#AF18
NC#AF19
NC#AE18
NC#AE17

TPVDD
TPVSS

TXVDDR
TXVDDR#AE14

TXVSSR
TXVSSR#AG13
TXVSSR#AG12

A2VDD
A2VDD#AF22

A2VDDQ
AVDD
AVDD#AE23

A2VSSN
A2VSSN#AE22
A2VSSDI
A2VSSQ

R9250

D D

+MVDDQ

C C

+3.3V_BUS

D31

2.4V/X

2 1

C56
1uF/10V/6

X7R

+TPVDD

C58

C57

100nF/X

4.7uF/X

>=6.3V

+VDDC_CT

+A2VDD

C62
1uF/10V/6

X7R

Ceramic

0R on B16

B16 0R/8

>=6.3V
Ceramic

B B

+MVDDC

L2

1.8uH

C61

4.7uF

>=6.3V
Ceramic

C63

4.7uF

DNI

>=6.3V
Ceramic

+A2VDDQ

X7R

DNI

C64
1uF/10V/6

X7R

>=6.3V
Ceramic

C59

4.7uF/X

DNI

C67

4.7uF

C60
100pF/X

X7R

DNI

+AVDD

C77
100nF/X

X7R

DNI

C68
1uF/10V/6

X7R

4

Part 4 of 5

Memory I/O Power
(1.8V/2.5V/3.3V)

I/O

I/O level shift power

(1.8V)

Ext. TMDS/

GPIO & Ext.

(1.8V)

TMDS PLL T M D S I / O

(1.8V)

Analog Display Power,
see table below

VDDC#AC15
VDDC#AC17
VDDC#AD13
VDDC#AD15

VDDR1#A21
VDDR1#AA7
VDDR1#AA8
VDDR1#D11
VDDR1#D14
VDDR1#D17

POWER

VDDR1#A28

VDDR1#AA1
VDDR1#AA4

VDDR1#AD4

VDDR1#B30
VDDR1#D10
VDDR1#D19
VDDR1#D20
VDDR1#D23
VDDR1#D26

VDDRH1 - CH B Clock PowerAGP Bus I/O Power

VDDRH0 - CH A Clock Power

PLL MPLL

VDDR4#AC9

VDDR4#AD10

VDDR4#AD9

VDDR4#AG10

DVO Power

(1.8V/3.3V)

VDDR3#AC22
VDDR3#AC21
VDDR3#AD21
VDDR3#AC19
VDDR3#AD19

VDDR3#AD7
VDDR3#AC8

(3.3V)

TMDS I/O

Power

VDDP#AA24
VDDP#AB27
VDDP#AB30
VDDP#AC23
VDDP#AD27
VDDP#AE30
VDDP#AH30

AVSSN#AD24

VDDC

VDDC#M12
VDDC#M13
VDDC#M14
VDDC#M17
VDDC#M18
VDDC#M19
VDDC#N12
VDDC#N13
VDDC#N14
VDDC#N17
VDDC#N18
VDDC#N19
VDDC#P12
VDDC#P13
VDDC#P14
VDDC#P17

VDDR1

VDDR1#D8
VDDR1#V4

VDDR1#A3
VDDR1#A9

VDDR1#B1

VDDR1#D6
VDDR1#V7
VDDR1#V8

VDDRH0
VDDRH1

VSSRH0
VSSRH1

(VDDR1)

MPVDD
MPVSS

PVDD
PVSSVDDC18

VDDR4

VDDR3

VDDP

VDDP#J30
VDDP#M23
VDDP#M24
VDDP#N27
VDDP#N30

VDDP#P23

VDDP#T23

VDDP#T24

(1.5V/3.3V) (1.8V) (1.8V)

VDDP#T27

VDDP#T30

VDDP#V23

VDDP#V24
VDDP#W27
VDDP#W30

VDDP#Y27

AVDDDI

A2VDDDI

AVSSQ

AVSSDI

AVSSN

AC13
AC15
AC17
AD13
AD15
M12
M13
M14
M17
M18
M19
N12
N13
N14
N17
N18
N19
P12
P13
P14
P17

A15
A21
AA7
AA8
D11
D14
D17
D8
V4

A28
A3
A9
AA1
AA4
AD4
B1
B30
D10
D19
D20
D23
D26
D6
V7
V8

G19
N6

G18
M6

A7
A6

AK27
AK28Y23

AC10
AC9
AD10
AD9
AG10
AD22
AC22
AC21
AD21
AC19
AD19
AD7
AC8

AA23
AA24
AB27
AB30
AC23
AD27
AE30
AH30
J30
M23
M24
N27
N30
P23
T23
T24
T27
T30
V23
V24
W27
W30
Y27

AH24
AH23

AJ24
AG23
AD24
AE24

+VDDC

+MVDDQ

+3.3V_BUS

+VDDQ_BUS

TP9

C65
1uF/10V/6

X7R

+VDDC

CP9A

8 1

10nF

+MPVDD

C51
1uF/10V/6

X7R

+PVDD

C53
1uF/10V/6

X7R

B17 200R/400mA
C66

4.7uF

>=6.3V
Ceramic

CP9B

7 2

10nF

+VDDC_CT

C52

4.7uF

>=6.3V
Ceramic

+VDDC_CT

L3

1.8uH

C54

4.7uF

>=6.3V
Ceramic

CP9C

6 3

10nF

L6

1.8uH

+VDDC_CT

3

CP9D

CP3A

CP3C

CP3B

5 4

8 1

6 3

7 2

10nF

10nF

10nF

10nF

+VDDC

C26
1uF/10v/6

X7R X7R X7R X7R X7R

+3.3V_BUS

CP1A

8 1

10nF

+MVDDQ +MVDDQ

CP5A

8 1

10nF

+MVDDQ

C32
100nF

X7R X7R X7R X7R

+VDDC_CT

CP1C

6 3

10nF

C45
1uF/10V/6

X7R

Distributed around
+VDDQ_BUS plane

CP4B

CP4A

CP3D

7 2

8 1

5 4

10nF

10nF

10nF

C27

C28

1uF/10v/6

1uF/10v/6

C44

CP1B

1uF/10V/6

7 2

10nF

CP5D

CP5C

CP5B

5 4

6 3

7 2

10nF

10nF

10nF

C33

C34

1uF/10V/6

1uF/10V/6

C83
1uF/10V/6

CP1D

5 4

10nF

X7R

C46

C47

1uF/10V/6

1uF/10V/6

X7R X7R X7R X7R

CP4C

6 3

10nF

C29
1uF/10v/6

CP6A

8 1

10nF

C35
1uF/10V/6

C48
1uF/10V/6

CP4D

5 4

10nF

C30
1uF/10V/6

CP6B

7 2

10nF

C49
1uF/10V/6

CP6C

6 3

10nF

CP2A

8 1

10nF

CP2B

CP2C

7 2

6 3

10nF

10nF

CP6D

5 4

10nF

PLACE DIRECTLY
UNDERNEATH CHANNEL
A & B SECTION OF ASIC.

+3.3V_BUS

C38
10uf

2 1

CP2D

5 4

10nF

+VDDQ_BUS+VDDQ_BUS

8 1

C39
10uf

CP8A
10nF

D30

2.4V/X

2

+VDDC

C23
10uf

At the corner of VDDC plane

CP8C

CP8B

6 3

7 2

10nF

10nF

CP8D

5 4

10nF

1

U1E

F27

VSS#F27
VSS#F7
VSS#G12
VSS#G16
VSS#G21
VSS#G24
VSS#G9
VSS#H12
VSS#H14
VSS#H16
VSS#H18
VSS#H21
VSS#H23
VSS#H27
VSS#H4
VSS#H8
VSS#H9
VSS#K1
VSS#K23
VSS#K24
VSS#K30
VSS#K7
VSS#K8
VSS#L4
VSS#M15
VSS#M16
VSS#M27
VSS#M30
VSS#M7
VSS#M8
VSS#N15
VSS#N16
VSS#N23
VSS#N24
VSS#P15
VSS#P16
VSS#P4
VSS#R12
VSS#R13
VSS#R14
VSS#R15
VSS#R16
VSS#R17
VSS#R18
VSS#R19
VSS#R23
VSS#R24
VSS#R27
VSS#R30
VSS#R7
VSS#R8
VSS#T1
VSS#T12
VSS#T13
VSS#T14
VSS#T15
VSS#T16
VSS#T17
VSS#T18
VSS#T19
VSS#W23
VSS#W24
VSS#W25
VSS#W26
VSS#W7
VSS#W8
VSS#Y4

Part 5 of 5

CORE

GND

F7
G12
G16
G21
G24

G9
H12
H14
H16
H18
H21
H23
H27

H4

H8

H9

K1
K23
K24
K30

K7

K8

L4
M15
M16
M27
M30

M7

M8
N15
N16
N23
N24
P15
P16

P4
R12
R13
R14
R15
R16
R17
R18
R19
R23
R24
R27
R30

R7

R8

T1
T12
T13
T14
T15
T16
T17
T18
T19

W23
W24
W25
W26

W7
W8

Y4

R9250

VSS#U15
VSS#U16
VSS#U23

VSS#U4
VSS#U8

VSS#V15
VSS#A16

VSS#A2
VSS#A22
VSS#A29

VSS#AA27
VSS#AA30

VSS#AB1

VSS#AB23
VSS#AB24

VSS#AB4
VSS#AB7
VSS#AB8

VSS#AC12
VSS#AC14
VSS#AC16
VSS#AC18
VSS#AC27

VSS#AC4

VSS#AD12
VSS#AD16
VSS#AD18
VSS#AD25
VSS#AD30
VSS#AE26
VSS#AE28
VSS#AG11
VSS#AG16
VSS#AG18
VSS#AG21

VSS#AG5
VSS#AG7

VSS#AJ1

VSS#AJ30

VSS#AK2

VSS#AK29

VSS#B3

VSS#C1

VSS#C28
VSS#C30

VSS#C4

VSS#D12
VSS#D13
VSS#D15
VSS#D18
VSS#D21
VSS#D24
VSS#D25
VSS#D27

VSS#D5

VSS#D7

VSS#D9

VSS#E4

VSS#E6
VSS#V16
VSS#V27
VSS#V30

VSS#W15
VSS#W16

U15
U16
U23
U4
U8
V15
A10

VSS

A16
A2
A22
A29
AA27
AA30
AB1
AB23
AB24
AB4
AB7
AB8
AC12
AC14
AC16
AC18
AC27
AC4
AD12
AD16
AD18
AD25
AD30
AE26
AE28
AG11
AG16
AG18
AG21
AG5
AG7
AJ1
AJ30
AK2
AK29
B3
C1
C28
C30
C4
D12
D13
D15
D18
D21
D24
D25
D27
D5
D7
D9
E4
E6
V16
V27
V30
W15
W16

+AVDD

Pin Names

A A

5

Voltage

DAC1 VDD A2VSSQ

Usage

DAC1 Band Gap Ref.

Board power

AVDD sourced from VDDC_CT

and ground

thru bead at least 15 mil trace

option(s)

and not longer than 1.5 inch.
AVSSN and AVSSQ with single
via to GND close to the pin.

(80mA)

Matching

+A2VDD

Ground

2.5V1.8V
AVSSN
(Noisy)

DAC2 VDD

AVSSQ

(1) A2VDD regulated source
and A2VSSN return path routed
with at least 15 mil trace and
not longer than 1.5 inch.
AVSSN with single via to GND
at the regulator.
(2) Sourced from VDD thru bead
instead of the regulator

(120mA)

4

Matching
Ground

A2VSSN
(Noisy)

+A2VDDQ

1.8V

DAC2 Band Gap Ref.

Source from AVDD thru bead.
A2VSSQ with sigle via to GND
close to the pin.

Matching
Ground

(Quiet)

+AVDDDI
+A2VDDDI

1.8V
Digital Power for

DAC1 and DAC2

Source from VDDC_CT
thru bead

Matching
Ground

AVSSDI
A2VSSDI
(Digital)(Quiet)

Title

Size Document Number Rev
Custom

3

2

Date: Sheet

GIGABYTE CORP.

RV280 Power

GV-R92564T 1.0

1

04 14

of

8

Place caps very
close to power pin

D D

+3.3V_BUS

R801

U810

33R

R816
249R/6/1

4

NC

1

249R

NC

2

3240249000

5 3

1.25V_REF

R814
249R/6/1

249R

2.5V_REF

C810

4.7uF/X

TL431CDBVR

DNI

C C

C15
1uF/10v/6

7

+12V_BUS

C14
1uF/10v/6

3
2

R815 0R/X

R812 1K/6/1

R813

3.32K

Ry2

5
6

R501 1k/6/1

R502

3.32K

Rcx2

10

9

R107 1070R/X

R108

3.32K/X

Rpx2

12
13

R109 1K/6/1

R110

2.21K/6/1

Rpx2

6

R104
0R

R103
0R/X

+A2VDD

+MVDDC

1

+5V_BUS

3 2

4

MQ814
BCP68/X

25V 1A SOT-223

411

U811A

+

1

-

LM324M

G_MVDDC

1.5W @ 25'C
12mW/'C above 25'C

G_MVDDC (2)

+A2VDD

C804
10uF_6.3V/X

Ry1

U811B

+

7

-

LM324M

Rcx1

U811C

+

8

-

LM324M

Rpx1

U811D

+

14

-

LM324M

Rpx1

R503
0R

R105
0R/X

R106
0R

G_VDDC

+3.3V_BUS

1

2 3

+3.3V_BUS

1

3 2

300mW @ 25'C

2.4mW/'C above 25'C

Q813
MMBT2222ALT1/X

40V 600mA SOT-23

4

1.5W @ 25'C

MQ811

12mW/'C above 25'C

BCP68

25V 1A SOT-223

+VDDC

+PVDD

+VDDC_CT

C802
22uF/10/1206

C803
10uF_6.3V/X

C801
22uF/10/1206

Vout = 1.8V

Vout = 2.5V

Vout = 1.62V

Vout = 1.8V

5

Regulator for VDDC_CT (Core Transform)

Vin = 3.3V AGP
Vout = 1.8V
Iout = 350mA + 100mA + 50mA = 500mA MAX
Iout = 600mA MAX (with PVDD/TPVDD)

1.9V

C129
47uF_6.3V/ X

>=6.3V

4

and AVDD/A2VDDQ/AVDDDI/A2VDDDI

TXVDDR, LVDDRx, MPVDD

Rct1 Rct2

1K 3240100100

3 2

C131
100nF/X

X7R

603

REG22

LT1117CST/X

IN OUT

CASE

ADJ

1

422R1.8V

3240422000 603

499R 3240499000 603

4

3

+VDDC_CT+3.3V_BUS

R282

1.00K/X

1%

R278
499R/X

1%

Rct1

Rct2

Required for
stability

2

Regulator for PVDD (Core PLLs)

and optional TPVDD (TMDS PLLs)

Vin = 3.3V AGP
Vout = +1.8V
Iout = 25mA MAX (PVDD only)
Iout = 30mA MAX (PVDD + TPVDD)

The value of resistor were chosen to reduce failure r a t e c a u s e d b y
possible defective regulators, i.e., 33R are used instead of 47R or
51R for more start up current. (3.465V - 1.8V) / 33R = 50.5mA

805 package resistor are required for sufficient p o w e r ratin g
(0.1W rating). (3.465V - 1.8V) * 50.5mA = 0.085W; therefore,
smaller resistor value would require 1206 package

+PVDD

+3.3V_BUS

R284
33R/X

R287

Rvdd

681R/X
C55
47uF_6.3V/ X

>=6.3V

3 2

REG25
AS432S/X

1

Rvdd

1%

R290

1.5K/X

1%

4

NC

1

NC

2

5 3

MRG25
SC431LC5SK-1/X

ALT

1

Regulator For A2VDD (2nd DACs)

Vin = +3.3V AGP
Vout = 2.5V
Iout = 150mA MAX

A2VDD might not be
needed if VDD can
provide stable 2.5V

REG24

Rpx1 Rpx2Range

REG6
AS432S/X

1K
3240100100

Rcx1 Rcx2+VDDC
1K
3240100100

+12V_BUS

C506

100nF/X

MREG6
SC431LC5SK-1/X

Rc1 Rc2

1.8V 1.805V ~ 1.827V

B B

Buffered Shount Regulator for VDDC
Vin = 3.3V
Vout = 1.62V or Adjustable
Iout = 3A MAX

Range

1.62V 1.619V ~ 1.635V

G_VDDC

A A

1

3 2

8

2.21K
3240221100

These dummy resistors are placed

3.32K
3240332100

OPTIONAL

+VDDC

R504
750R/X

/.25W

5 3

R505

3.32K/X

Rc1

1%

4

NC

1

NC

2

R506
2K/X

Rc2

1%

7

under the diodes to avoid PCB heat
damage due to hot diodes.

R554

R553

0R

R552

0R

0R

Q1 Pin2/4 should be soldered to
board for heat dissipation and a
GND fill area.

+VDDC_Source

C501

C504

470uF_10V /X

100nF/X

6

R551
0R

4

1

1.75W @ 25'C

Q1
MTD3055V

32

G_VDDC

1N5400

1N5400

+3.3V_BUS

D6

21

D7

21

+VDDC

C502
470uF_10 V

C503
470uF_10V /X

4

3

C505
100nF/X

5

AVDD/A2VDDQ (1st DAC & 2nd DAC Band Gap)
TPVDD

+VDDC_CT

B27 200R/400mA

B29 200R/400mA

B25 200R/300mA

1

VIN

3

SHDN

C139
100nF/X

X7R

A2VDD and A2VSSN routed with at least 1 5
mil trace and not longer than 1.5 inch.
A2VSSN with signle via to GND a t the
regulator

+AVDD

+A2VDDQ

+TPVDD

Title

Size Document Number Rev

Custom

Date: Sheet

2

VOUT

BYPASS

GND

2.5V/X

2

A2VDD

+A2VDD+3.3V_BUS

5

4

Power_REG(VDDC/etc)

TC1185

GIGABYTE CORP.

GV-R92564T 1.0

05 14

1

of

8

D D

Voltage Req.

+MVDDC

3.3V
[-0.02V/+0.02V]

+MVDDQ

C C

Rmx1

1.07K

0R2.5V
P/N 3230000000

Rqx1 Rqx2Voltage Req.
0R2.5V
P/N 3230000000

2.5V_REF2

C820
10uf/X

DNI

U800

TL431CDBVR/X

Rmx2

3.32K

DNI

DNI

+3.3V_BUS

7

+3.3V_BUS

R820
33R/X

4

NC

1

NC

R805

2

54.9R/X

5 3

R803
140R/X

+12V_BUS

411

3

+

2

-

R112 0R/X

12

+

13

-

R817 1070R/X

R818

3.32K/X

Rmx2

5

+

6

-

R819 0R/X

R821

3.32K/X

Rqx2

10

+

9

-

U801A

LM324M/X

U801D

LM324M/X

U801B

LM324M/X

U801C

LM324M/X

1

14

7

Rqx1

8

6

Place caps very
close to power pin

C13

C12

100nF/X

100nF/X

G_MVDDC

G_MVDDC G_MVDDQ

R100
0R/X

+MVDDC

5

Rmx1

G_MVDDQ

R101
0R/X

+MVDDQ

R102
0R/X

+3.3V_BUS

1

Q802
CMPT3904/X

2 3

+MPVDD

C805
10uF_6.3V/X

4

Buffered Shunt Regulator for MVDDQ & VDDR1
Vin = 3.3V AGP
Vout = 2.5V
Iout = 1200mA MAX
Iout = 1000mA Est. MAX

Type
Elpida

Voltage Req.

[-0.09V/+0.18V]

2.5V

2.6V

AS432S/X

1

3 2

C130
47uF_6.3V/ X

REG23

C132
100nF/X

X7R

Rq1
681R

1K

4.75K

C136
100nF/X

+3.3V_BUS

4

1

32406810001.8V

3240100100

3240475100

+12V_BUS

NC
NC

5 3

Q25
MTD3055V/X

32

G_MVDDQ

R277
750R/X

/.25W

MRG23
SC431LC5SK-1/X

4
1
2

+MVDDQ

3

Rq2

3230015200

1.5K

1K

3240100100

32404321004.32K

OPTIONAL OPTIONAL

R279

1.00K/X

Rq1

1%

R283

1.00K/X

Rq2

1%

***

C127
470uF_6.3V/ X

***

2

Buffered Shount Regulator for MVDDC
Vin = 5V
Vout = 3.3V
Iout = 1.4A MAX

Hynix

Sumsung

Voltage Req.

3.22V
[-0.04V/+0.04V]

3.34V
[-0.04V/+0.04V]

3.45V
[-0.04V/+0.04V]

2.56V
[-0.03V/+0.03V]

G_MVDDC

1

3 2

Q34 Pin2/4 should be soldered to
board for heat dissipation and a
GND fill area.

+MVDDC_Source

C1035
47uF_6.3V

Rm1

4.32K
P/N 3240432100

4.32K

P/N 3240432100 P/N 3250243100

2.55K
P/N 3240255100

+12V_BUS

C1037

100nF/X

REG18

MREG5

SC431LC5SK-1/ X

AS432S/X

+5V_BUS

4

Q34
MTD3055V

32

G_MVDDC

C1036

1

100nF/X

R949
750R/X

/.25W

NC
NC

5 3

Rm2

2.74K
P/N 3240274100

2.55K
P/N 3240255100P/N 3240432100

2.43K4.32K

2.43K
P/N 3250243100

4
1
2

G_MVDDC (2)

1

+MVDDC+MVDDQ

R958

3.32K/X

Rm1

1%

R960
2K/X

Rm2

1%

+MVDDC

+MVDDC

C1033
100nF/X

C105
470uF_10V

1 square inch pad size

B B

+3.3V_BUS

L4

+MVDDC +MVDDQ

1.8uH/X

+MVDDC

L5
0R/6

Buffered Shount Regulator for MPVDD
Vin = 3.3V
Vout = 1.8V
Iout = 10mA MAX

+MPVDD

+3.3V_BUS

R285
75R/X

R288
681R/X

REG26
AS432S/X

1%

1

R291

3 2

1.5K/X

1%

MRG26

4

NC

SC431LC5SK-1/X

1

NC

2

5 3

OPTIONAL

A A

Title

Size Document Number Rev
Custom

8

7

6

5

4

3

Date: Sheet

2

GIGABYTE CORP.

Power_REG (MVDDC/MVDDQ)

GV-R92564T 1.0

06 14

1

of

8

GPIO[13..0]

GPIO[13..0](2)

D D

C C

LCDDATA16(2)

LCDDATA17(2)

LCDDATA20(2)

32

SW1B
DIP_SWX2 /X

R250 0R/X

STEREOSYNC(2)

Mem_Strap0(2)

Mem_Strap1(2)

Mem_Strap2(2)

GPIO0

GPIO1

GPIO2

GPIO3

GPIO11

GPIO12

GPIO13

GPIO9

GPIO8

GPIO4

GPIO5

GPIO6

GPIO7

7

STRAP G

STRAP H

STRAP J

STRAP K

STRAP L

STRAP M

STRAP N

STRAP O

STRAP A

STRAP D

STRAP E

STRAP F

STRAP B

STRAP R

STRAP S

STRAP T

STRAP P

R201 10K/XDNI
R202 10K
R203 10K/XDNI
R204 10K
R205 10K/XDNI
R206 10K
R207 10K/XDNI
R208 10K
R209 10K
R210 10K/X
R211 10K
R212 10K/X
R213 10K/X
R214 10K
R215 10K
R216 10K/XDNI

R217 10K/XDNI
R218 10K

R219 10K/XDNI
R220 10K
R221 10K/XDNI
R222 10K
R223 10K/XDNI
R224 10K

R225 10K/XDNI
R226 10K

R227 10K/XDNI
R228 10K
R229 10K
R230 10K/XDNI

R231 10K
R232 10K/XDNI

R233 10K/XDNI
R234 10K

R235 10K/XDNI
R236 10K/X
R237 10K/XDNI
R238 10K/X
R239 10K/XDNI
R240 10K/X

6

+3.3V_BUS

STRAPS

AGPFBSKEW(1:0)

X1CLK_SKWE(1: 0)

DNI

DNI
DNI

ROMIDCFG(3:0)

ID_DISABLE

BUSCFG(2:0)

VGA_DISABLE

MULTIFUNC(1:0)

VIP_DEVICE

STRAP P INTERRUPT

ENABLED (DEFAULT)

LOW

DISABLED

HIGH

5

PIN

GPIO(1:0)

GPIO(3:2)

GPIO(9,13:11)

GPIO(8)

GPIO(6:4)

GPIO(7)

LCDDATA(17:16)

LCDDATA(20)
STRAP T

4

OPTION STRAPS

DESCRIPTION

AGP 1x clock feedback phase adjustment wrt refclk(cpuclk)

00 - re fc l k s l i g h tl y e a r lier then feedback

01 - refclk 1 tap earlier then feedback
10 - refclk 1 tap later then feedback
11 - refclk 2 taps earlier then feedback clock

Clock phase adjustment between x1 clk and x2clk

00 - 0 tap delay

01 - 1 tap delay
10 - 2 taps delay
11 - 3 taps delay

If no ROM attached, comtrols chip IDis. If rom attached identifies ROM type
0000 - No ROM, CHG_ID=0
0001 - No ROM, CHG_ID=1
0100 - reserved
0110 - reserved
1000 - Parallel ROM, chip IDis from ROM
1001 - Serial AT25F1024 ROM (Atmel), chip IDis from ROM
1010 - Serial AT45DB011 ROM (Atmel), chip IDis from ROM

1011 - Serial M25P05/10 ROM (ST), chip IDis from ROM

1100 - Reserved
1100 - Serial NX25F011B ROM (ISSI), chip IDis from ROM

0 - Normal operation

1 - Shuts the chip down by not responding to any config cycles
In a system with two graphics chips, one on the motherboard,
the other on add-in card, the strap can be used to disable one of the two throught a jumper.

Controls bus type, CLK PLL select, and IDSEL

000 - 1.5V BUS -> AGP 4x, PLL clk, IDSEL=AD16

000 - 3.3V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD16
001 - 1.5V BUS -> AGP 4x, PLL clk, IDSEL=AD17
001 - 3.3V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD17
010 - 1.5V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD16
010 - 3.3V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD16
011 - 1.5V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD17
011 - 3.3V BUS -> AGP 1x/2x, PLL clk, IDSEL=AD17
100 - PCI 66MHz, PLL clk
101 - PCI 33MHz, 3.3v, REF clk
110 - 1.5V BUS -> AGP 1x, REF clk, IDSEL=AD16
110 - 3.3V BUS -> AGP 1x, REF clk, IDSEL=AD16
111 - 1.5V BUS -> AGP 1x, REF clk, IDSEL=AD17
111 - 3.3V BUS -> AGP 1x, REF clk, IDSEL=AD17
Note that for AGP configurations GPIO(4) acts as the IDSEL strap.
For PCI it acts as the PLL bypass (33 or 66MHz) strap.

0 - VGA c o nt r o l l e r c a pabillity enabled.

1 - The device will not be recognized as the systemis VGA controller.

Multi-function device select
00 - single function device.
01 - two function device. No AGP in either function

10 - two function device. AGP only in functi on 0

11 - two function device. AGP in both functions
If BUSCFG pin based straps are set to PCI, then AGP will not be enabled in any function.
See AGP function table below for detail on AGP ability claims.

Indicates if any slave VIP host devices drove this in low during reset.

0 - Slave VIP host port devices present

1 - No slave VIP host port devices reporting presence during reset

3

DEFAULT

00
(internal pull-down)

00
(internal pull-down)

1100

0
(internal pull-down)

000
(internal pull-down)

0

10

0

2

1

B B

STRAPS

PIN

DC_STRAP1 LCDDATA12

Daughter Card Str aps

+3.3V_BUS

R582 10K/X
R578 10K/X
R574 10K/X

DC_Strap5(2)
DC_Strap3(2) DC_Strap4 (2)
DC_Strap1(2)

A A

R575 10K/X
R579 10K/X
R583 10K/X

8

P1
PLUG/X

COMMON

JU1

1
2
3

Header_3_Pin_1 X3/X

R584 10K
R580 10K/X
R576 10K/X

R577 10K/X
R581 10K/X
R585 10K/X

7

+3.3V_BUS

DC_Strap2 (2)

41

SW1A
DIP_SWX 2/X

PAL/NTSC (2)

6

DC_STRAP2 LCDDATA13

DC_STRAP4 LCDDATA15 DAC2 ConfigurationDC_STRAP5 LCDDATA19

00
01
1
11

0

DC_STRAP6 LCDDATA18 TVO Standard Default (Resistor pull-up and switch short to GND)

5

4

DESCRIPTION

Internal TMDS Enabled

0 - Disabled

1 - Enabled

Video Capture Enabled

0 - Disabled

1 - Enabled

DAC2 Off
DAC2 On as CRT
DAC2 On as TVOUT
DAC2 On as TVOUT and CR T

0 - PAL (on b oard resistor pull-down and sw itch closed)
1 -NTSC (on board resistor pull-up)

3

Title

Size Document Number Rev
Custom

Date: Sheet

2

GIGABYTE CORP.

Option Straps

GV-R92564T 1.0

07 14

1

of

5

4

3

2

1

MDA[63..0]

TERMINATION FOR
MEMORY
CHANNEL A

D D

C C

Proper Termination of QSA?

MDA[63..0](3)

QSA[7..0]

QSA[7..0](3)

MDA0

RP117D 56R

MDA1

RP117C 56R

MDA2

RP117B 56R

MDA3

RP117A 56R

MDA4

RP118D 56R

MDA5

RP118C 56R

MDA6

RP118B 56R

MDA7

RP118A 56R

MDA8

RP119D 56R

MDA9

RP119C 56R

MDA10

RP119B 56R

MDA11

RP119A 56R

MDA12

RP120A 56R

MDA13

RP120B 56R

MDA14

RP120C 56R

MDA15

RP120D 56R

MDA16

RP121D 56R

MDA17

RP121C 56R

MDA18

RP121B 56R

MDA19

RP121A 56R

MDA20

RP122D 56R

MDA21

RP122C 56R

MDA22

RP122B 56R

MDA23

RP122A 56R

MDA24

RP123A 56R

MDA25

RP123B 56R

MDA26

RP123C 56R

MDA27

RP123D 56R

MDA28

RP124D 56R

MDA29

RP124C 56R

MDA30

RP124B 56R

MDA31

RP124A 56R

MDA32

RP127A 56R

MDA33

RP127B 56R

MDA34

RP127C 56R

MDA35

RP127D 56R

MDA36 M_MDA36

RP128A 56R

MDA37

RP128B 56R

MDA38

RP128C 56R

MDA39

RP128D 56R

MDA40

RP125D 56R

MDA41

RP125C 56R

MDA42 M_MDA42

RP125B 56R

MDA43

RP125A 56R

MDA44

RP126D 56R

MDA45

RP126C 56R

MDA46

RP126B 56R

MDA47

RP126A 56R

MDA48

RP129A 56R

MDA49

RP129B 56R

MDA50

RP129C 56R

MDA51

RP129D 56R

MDA52

RP130A 56R

MDA53

RP130B 56R

MDA54

RP130C 56R

MDA55

RP130D 56R

MDA56

RP131A 56R

MDA57

RP131B 56R

MDA58

RP131C 56R

MDA59

RP131D 56R

MDA60

RP132D 56R

MDA61

RP132C 56R

MDA62

RP132B 56R

MDA63

RP132A 56R

QSA0
QSA1
QSA2
QSA3
QSA4
QSA5
QSA6
QSA7

R759 0R
R760 0R
R761 0R
R762 0R
R764 0R
R763 0R
R765 0R
R766 0R

5 4
6 3
7 2
8 1

5 4
6 3
7 2
8 1
8 1
7 2
6 3
5 4
8 1
7 2
6 3
5 4
5 4
6 3
7 2
8 1
5 4
6 3
7 2
8 1
8 1
7 2
6 3
5 4
8 1
7 2
6 3
5 4

5 4
6 3
7 2
8 1

M_MDA0

54

M_MDA1

63

M_MDA2

72

M_MDA3

81

M_MDA4

54

M_MDA5

63

M_MDA6

72

M_MDA7

81

M_MDA8
M_MDA9
M_MDA10
M_MDA11
M_MDA12

81

M_MDA13

72

M_MDA14

63

M_MDA15

54

M_MDA16

54

M_MDA17

63

M_MDA18

72

M_MDA19

81

M_MDA20

54

M_MDA21

63

M_MDA22

72

M_MDA23

81

M_MDA24

81

M_MDA25

72

M_MDA26

63

M_MDA27

54

M_MDA28
M_MDA29
M_MDA30
M_MDA31
M_MDA32
M_MDA33
M_MDA34
M_MDA35

M_MDA37
M_MDA38
M_MDA39
M_MDA40
M_MDA41

M_MDA43
M_MDA44
M_MDA45
M_MDA46
M_MDA47
M_MDA48
M_MDA49
M_MDA50
M_MDA51
M_MDA52
M_MDA53
M_MDA54
M_MDA55
M_MDA56

81

M_MDA57

72

M_MDA58

63

M_MDA59

54

M_MDA60
M_MDA61
M_MDA62
M_MDA63

M_MDA[63..0]

SERIES Resistors

M_QSA0
M_QSA1
M_QSA2
M_QSA3
M_QSA4
M_QSA5
M_QSA6
M_QSA7

M_MDA[63..0] (9)

For Bi-Directional signals,
Series resistors should be
placed close to the memory

M_QSA[7..0]

M_QSA[7..0] (9)

CLOCK
terminations

Change from 1:1 spacing to at least a

2.5:1 spacing between the pair

These resistors and caps must be placed to minimize any stubs. These
must also be placed after the memory

CLKA0(3,9)

CLKA#0(3,9)

CLKA1(3,9)

CLKA#1(3,9)

M_CLKA0

M_CLKA0 (3,9)

M_CLKA#0

M_CLKA#0 (3,9)

M_CLKA1

M_CLKA1 (3,9)

M_CLKA#1

M_CLKA#1 (3,9)

R797
56R

R798
56R

R799
56R

R800
56R

C778
10nF

C779
10nF

M_DQMA#[7..0](9)

B B

M_MAA[13..0](9)

M_RASA#(9)

M_CASA#(9)

M_WEA#(9)
M_CSA#0(9)
M_CSA#1(9)

M_CKEA(9)

A A

5

M_DQMA#[7..0]

M_MAA[13..0]

4

M_RASA#
M_CASA#
M_WEA#
M_CSA#0
M_CSA#1
M_CKEA

M_DQMA#0
M_DQMA#1
M_DQMA#2
M_DQMA#3
M_DQMA#4
M_DQMA#5
M_DQMA#6
M_DQMA#7

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11
M_MAA12
M_MAA13

R775 56R
R776 56R
R777 56R
R778 56R
R780 56R
R779 56R
R781 56R
R782 56R

RP137A 0R

8 1

RP137B 0R

7 2

RP137C 0R

6 3

RP137D 0R

5 4

RP138C 0R
RP138B 0R
RP138A 0R
RP139A 0R
RP139B 0R
RP139C 0R
RP138D 0R
RP139D 0R
RP140C 0R
RP140D 0R

RP142B 0R
RP142C 0R
RP142D 0R
RP142A 0R
RP140A 0R
RP140B 0R

8 1

7 2

6 3

5 4

63
72
81

54
63

54

72
63
54
81
81
72

DQMA#0
DQMA#1
DQMA#2
DQMA#3
DQMA#4
DQMA#5
DQMA#6
DQMA#7

MAA0
MAA1
MAA2
MAA3
MAA4
MAA5
MAA6
MAA7
MAA8
MAA9
MAA10
MAA11
MAA12
MAA13

RASA# (3)
CASA# (3)
WEA# (3)
CSA#0 (3)
CSA#1 (3)
CKEA (3)

3

DQMA#[7..0]

MAA[13..0]

DQMA#[7..0] (3)

MAA[13..0] (3)

For Uni-Directional
signals, Series
resistors should be
placed close to the
ASIC

Title

Size Document Number Rev
Custom

2

Date: Sheet

GIGABYTE CORP.

Serial Termination CH A

GV-R92564T 1.0

1

08 14

of

8

M_DQMA#[7..0](8)

D D

M_QSA[7..0](8)

C C

M_MAA[13..0](8)

B B

M_DQMA#[7..0]

M_QSA[7..0]

M_CLKA#0(3,8)
M_CLKA#1(3,8)

M_CLKA0(3,8)
M_CLKA1(3,8)

M_CKEA(8)
M_WEA#(8)
M_CASA#(8)
M_RASA#(8)
M_CSA#0(8)
M_CSA#1(8)

M_MAA[13..0]

M_DQMA#0
M_DQMA#1
M_DQMA#2
M_DQMA#3
M_DQMA#4
M_DQMA#5
M_DQMA#6
M_DQMA#7

M_QSA0
M_QSA1
M_QSA2
M_QSA3
M_QSA4
M_QSA5
M_QSA6
M_QSA7

M_CLKA0#
M_CLKA1#

M_CLKA0
M_CLKA1

M_CKEA
M_WEA#
M_CASA#0
M_RASA#0
M_CSA#0
M_CSA#1

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11
M_MAA12
M_MAA13

M_MDA[63..0](8)

7

M_CLKA0
M_CLKA#0
M_CKEA

C566
1uF/10V/6

M_CLKA0
M_CLKA0#
M_CKEA

C418
1uF/10V/6

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11

M_CSA#0
M_RASA#0
M_CASA#0
M_WEA#

M_QSA3
M_QSA1

M_DQMA#3
M_DQMA#1

M_MAA13
M_MAA12

+VREF_U33

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11

M_CSA#0
M_RASA#0
M_CASA#0
M_WEA#

M_QSA0
M_QSA2

M_DQMA#0
M_DQMA#2

M_MAA13
M_MAA12

6

C420
1uF/10V/6

49

29
30
31
32
35
36
37
38
39
40
28
41

45
46
44

24
23
22
21

16
51

20
47

26
27

49

29
30
31
32
35
36
37
38
39
40
28
41

45
46
44

24
23
22
21

16
51

20
47

26
27

Channel A Bottom UpChannel A Bottom Down

U30

2MX16X4

64MB

U34

2MX16X4

64MB

Channel A Top UpChannel A Top Down

+MVDDQ

+MVDDQ

+MVDDQ+MVDDQ

+VREF_U30+VREF_U29

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11

M_CLKA1
M_CLKA1#
M_CKEA

M_CSA#0
M_RASA#0
M_CASA#0
M_WEA#

M_QSA7
M_QSA5

M_DQMA#7
M_DQMA#5

M_MAA13
M_MAA12

C569
1uF/10V/6

+VREF_U34

M_MAA0
M_MAA1
M_MAA2
M_MAA3
M_MAA4
M_MAA5
M_MAA6
M_MAA7
M_MAA8
M_MAA9
M_MAA10
M_MAA11

M_CLKA1
M_CLKA1#
M_CKEA

M_CSA#0
M_RASA#0
M_CASA#0
M_WEA#

M_QSA4
M_QSA6

M_DQMA#4
M_DQMA#6

M_MAA13
M_MAA12

U29

49

VREF

29

A0

30

A1

31

A2

32

A3

35

A4

36

A5

37

A6

38

A7

39

A8

40

A9

28

A10/AP

41

A11

45

CK

46

CK

44

CKE

24

CS

23

RAS

22

CAS

21

WE

16

LDQS

51

UDQS

20

LDM

47

UDM

26

BA0

27

BA1

2MX16X4

64MB

U33

49

VREF

29

A0

30

A1

31

A2

32

A3

35

A4

36

A5

37

A6

38

A7

39

A8

40

A9

28

A10/AP

41

A11

45

CK

46

CK

44

CKE

24

CS

23

RAS

22

CAS

21

WE

16

LDQS

51

UDQS

20

LDM

47

UDM

26

BA0

27

BA1

2MX16X4

64MB

M_MDA31 M_MDA63

2

DQ0

M_MDA30

4

DQ1

M_MDA29

5

DQ2

M_MDA28

7

DQ3

M_MDA27

8

DQ4

M_MDA26

10

DQ5

M_MDA25

11

DQ6

M_MDA24

13

DQ7

M_MDA15

54

DQ8

M_MDA14

56

DQ9

M_MDA13

57

DQ10

M_MDA12

59

DQ11

M_MDA11

60

DQ12

M_MDA10

62

DQ13

M_MDA9

63

DQ14

M_MDA8

65

DQ15

14

NC

17

NC#17

19

NC#19

25

NC#25

M_CSA#1 M_CSA#1

42

NC#42

43

NC#43

+MVDDC +MVDDC

50

NC#50

53

NC#53

1

VDD

18

VDD#18

33

VDD#33

3

VDDQ

9

VDDQ#9

15

VDDQ#15

55

VDDQ#55

61

VDDQ#61

34

VSS

48

VSS#48

66

VSS#66

6

VSSQ#6

12

VSSQ#12

52

VSSQ

58

VSSQ#58

64

VSSQ#64

M_MDA0

2

DQ0

M_MDA1

4

DQ1

M_MDA2

5

DQ2

M_MDA3

7

DQ3

M_MDA4

8

DQ4

M_MDA5

10

DQ5

M_MDA6

11

DQ6

M_MDA7

13

DQ7

M_MDA16

54

DQ8

M_MDA17

56

DQ9

M_MDA18

57

DQ10

M_MDA19

59

DQ11

M_MDA20

60

DQ12

M_MDA21

62

DQ13

M_MDA22

63

DQ14

M_MDA23

65

DQ15

14

NC

17

NC#17

19

NC#19

25

NC#25

42

NC#42

43

NC#43

50

NC#50

53

NC#53

1

VDD

18

VDD#18

33

VDD#33

3

VDDQ

9

VDDQ#9

15

VDDQ#15

55

VDDQ#55

61

VDDQ#61

34

VSS

48

VSS#48

66

VSS#66

6

VSSQ#6

12

VSSQ#12

52

VSSQ

58

VSSQ#58

64

VSSQ#64

VREF

A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11

CK
CK
CKE

CS
RAS
CAS
WE

LDQS
UDQS

LDM
UDM

BA0
BA1

VREF

A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11

CK
CK
CKE

CS
RAS
CAS
WE

LDQS
UDQS

LDM
UDM

BA0
BA1

DQ10
DQ11
DQ12
DQ13
DQ14
DQ15

NC#17
NC#19
NC#25
NC#42
NC#43
NC#50
NC#53

VDD#18
VDD#33

VDDQ

VDDQ#9
VDDQ#15
VDDQ#55
VDDQ#61

VSS#48
VSS#66
VSSQ#6

VSSQ#12

VSSQ
VSSQ#58
VSSQ#64

DQ10
DQ11
DQ12
DQ13
DQ14
DQ15

NC#17
NC#19
NC#25
NC#42
NC#43
NC#50
NC#53

VDD#18
VDD#33

VDDQ

VDDQ#9
VDDQ#15
VDDQ#55
VDDQ#61

VSS#48
VSS#66
VSSQ#6

VSSQ#12

VSSQ
VSSQ#58
VSSQ#64

5

2

DQ0

M_MDA62

4

DQ1

M_MDA61

5

DQ2

M_MDA60

7

DQ3

M_MDA59

8

DQ4

M_MDA58

10

DQ5

M_MDA57

11

DQ6

M_MDA56

13

DQ7

M_MDA47

54

DQ8

M_MDA46

56

DQ9

M_MDA45

57

M_MDA44

59

M_MDA43

60

M_MDA42

62

M_MDA41

63

M_MDA40

65
14

NC

17
19
25
42
43
50
53

1

VDD

VSS

DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9

VDD

VSS

+MVDDQ

18
33
3
9
15
55
61

34
48
66
6
12
52
58
64

M_MDA32

2

M_MDA33

4

M_MDA34

5

M_MDA35

7

M_MDA36

8

M_MDA37

10

M_MDA38

11

M_MDA39

13

M_MDA48

54

M_MDA49

56

M_MDA50

57

M_MDA51

59

M_MDA52

60

M_MDA53

62

M_MDA54

63

M_MDA55

65
14

NC

17
19
25

M_CSA#1M_CSA#1

42
43

+MVDDC+MVDDC

50
53

1

+MVDDQ

18
33
3
9
15
55
61

34
48
66
6
12
52
58
64

+MVDDQ

4

R60

5.1K

R61

5.1K

R68

5.1K

+VREF_U33

R69

5.1K

+MVDDQ+MVDDQ

+MVDDQ

R62

5.1K

+VREF_U30+VREF_U29

R63

5.1K

R70

5.1K

+VREF_U34

R71

5.1K

3

2

1

+MVDDQ

C82

C81

1uF/10V/6

1uF/10V/6

2 capacitors SHOULD BE
PLACED CLOS E T O T HE
REFERENCE LAYER
CHANGE OF CLOCKS F OR

A A

EMI REDUCE.

8

Put 1 1uF cap per power pin of memory

C229
1uF/10V/6

+MVDDQ

+MVDDQ

C572
1uF/10V/6

C592
1uF/10V/6

C231
100nF

C232
1uF/10V/6

7

C573
1uF/10V/6

C593
1uF/10V/6

C574
1uF/10V/6

C594
1uF/10V/6

C235
1uF/10V/6

+MVDDC

+MVDDC

+MVDDQ+MVDDC

C575
1uF/10V/6

C595
1uF/10V/6

C221
1uF/10V/6

C576
1uF/10V/6

C596
1uF/10V/6

C222
1uF/10V/6

+MVDDQ

+MVDDQ

C577
1uF/10V/6

C597
1uF/10V/6

C223
1uF/10V/6

6

C578
1uF/10V/6

C598
1uF/10V/6

C224
1uF/10V/6

C579
1uF/10V/6

C599
1uF/10V/6

C237
1uF/10V/6

C580
1uF/10V/6

C600
1uF/10V/6

C238
1uF/10V/6

+MVDDC

+MVDDC

C581
1uF/10V/6

C601
1uF/10V/6

C239
1uF/10V/6

C243
1uF/10V/6

5

Part number for 8Mx16: 2354274204 (Samsung)

DATA GROUP SHOULD BE ASSIGNED TO EACH DQS AND DQM ACCORDINGLY
AND THIS MAPPING IS JUST FOR PLACEMENT AND ROUTING REASONS

All +VDD_MEM_IO and +VDD decoupling caps should be e q u a l l y d i s tr i b u t e d
per memory chip . A s close to t h e pin as po s s i ble.

Title

Size Document Number Rev
Custom

4

3

Date: Sheet

2

GIGABYTE CORP.

TSOP 16Mx16 DDR

GV-R92564T 1.0

09 14

1

of

8

D D

7

6

5

OPTIONAL ESD/HOTPLUG PROTECTION DIODES

4

3

+5V_BUS

2

1

PRIMARY CRT

Place close to ASIC

R520

R521

R885

R884

C413
5pF

B8 82nHB7 82nH
B10 82nH
B12 82nH

C409

C405

5pF

5pF

33R

DDCDATA_DAC1_R

33R

DDCCLK_DAC1_R

51R

A_HSYNC_DAC1_R

51R

A_VSYNC_DAC1_R

A_R_DAC1(2)
A_G_DAC1(2)

A_B_DAC1(2)

R1258

75.0R

C C

CRT1DDCDATA(2)

CRT1DDCCLK(2)

B B

A_HSYNC_DAC1(2)

A_VSYNC_DAC1(2)

R1259

75.0R

+3.3V_BUS

R416

4.7K

+3.3V_BUS

R417

4.7K

R1260

75.0R
C404

3.3pF/X

DNI DNI DNI DNI DNI DNI

1

32

BSN20
Q3

1

32

BSN20
Q4

5
4

10

9

C408

3.3pF/X

+5V_BUS

+5V_BUS

6

U6B
SN74ACT86D

8

U6C
SN74ACT86D

B9 82nH
B11 82nH

C412

3.3pF/X

R400

6.8k

DDCDATA_DAC1_5V

R399

6.8k

DDCCLK_DAC1_5V

A_HSYNC_DAC1_B

A_VSYNC_DAC1_B

+3.3V_BUS +3.3V_BUS +3.3V_BUS +5V_BUS+5V_BUS

BAT54SLT1/X

D3

DNI

3

DDCDATA_DAC1_R
DDCCLK_DAC1_R
A_HSYNC_DAC1_R

A_VSYNC_DAC1_R

2

1

BAT54SLT1/X

D2

DNI

3

BAT54SLT1/X

2

DNI

1

2

D1

3

1

C414
5pF/X

B15
82nH/X

DNI DNI DNI

GND_CHASSIS

BAT54SLT1/X

DNI

C410
5pF/X

B14
82nH/X

C406
5pF/X

B13
82nH/X

D4

+5V_BUS +5V_BUS

3

BAT54SLT1/X

2

DNI

1

BAT54SLT1/X

2

D5

DNI

3

1

Place close to CONNECTOR

F1

750mA

2

1

Resettable fuse

B6 26R/600mA

C402
68pF

Close to
Connector

+5V_DIN_CNCR

GND_CHASSIS

1
2

3
11
12

4
15

9
13
14

5

6

7

8
10
16
17

J4

R
G
B
MS0

DDC2_MONID0

MS1

DDC2_MONID1(SDA)

MS2

DDC2_MONID2

MS3

DDC2_MONID3(SCL)

NC
HS
VS
VSS
VSS#6
VSS#7
VSS#8
VSS#10
CASE
CASE#17

Connector_DB15_Female_VGA_Blue

BAT54SLT1/X

2

D9

DNI

D8

3

3

1

R411 0R

805
805
805
805
805
805

GND_CHASSIS

Three on top side, three at
the bottom, spreaded high,
middle and low vertically

7

Title

Size Document Number Rev
Custom

6

5

4

3

Date: Sheet

2

GIGABYTE CORP.

DAC RGB Filters

GV-R92564T 1.0

10 14

1

of

R412 0R
R413 0R
R414 0R
R415 0R
R418 0R

A A

8

8

D D

7

6

5

4

3

2

1

Place Resistors close to ASIC.

A_G/Y_DAC2(2)

A_R/C_DAC2(2)

C C

A_B/COMP_DAC2(2)

A_Y_DAC2

A_C_DAC2

A_COMP_DAC2

R1257

75.0R/X

R1256

75.0R/X

R1255

75.0R

L20 1.8uH/X

C550
82pF/X

L21 1.8uH/X

C552
82pF/X

L22 1.8uH

C554
82pF

C551
82pF/X

C553
82pF/X

C555
82pF

A_Y_DAC2_F
A_C_DAC2_F
A_COMP_DAC2_F

Place near connector
0R leaves footprint for F e rrite
Beads if req'd for EM I

R519 0R/X
R1266 0R/X
R1267 0R

A_Y_DAC2_DIN
A_C_DAC2_DIN
A_COMP_DAC2_DIN

C507
82pF/X

C508
82pF/X

C509
82pF/X

R513
1Kohm@100MH z/X

TV Out (Comp)

J7

1

2

Jack_Phono_RCA/X

3

PIN7

B B

Add alternate part for 7 pin S v id e o
6071001500

TV Out (SVHS)

PIN1
PIN2

R514
1Kohm@100MHz /X

DO NOT POPULATE
for footprint only

PIN7

1

GND_CHASSISGND_CHASSIS

J6

6

+12V

3

Y-OUT

4

C-OUT

PIN7

7

Comp_out

PIN5

5

SYNC

1

GND

2

GND#2

8

CASE

9

CASE#9

10

CASE#10

Connector_DIN_Miniature_Circular_7_Pin/X

GND_CHASSIS

J8
Jack_Phono_RCA

3

2

A A

Title

Size Document Number Rev
Custom

8

7

6

5

4

3

Date: Sheet

2

GIGABYTE CORP.

VO Filter & Connectors

GV-R92564T 1.0

11 14

1

of

5

4

3

2

1

CRT SCREWS

ASSY1

SCREW

JACKSCREW

ASSY

D D

C C

ASSY2

SCREW

JACKSCREW

ASSY

ATX Brackets

ASSY10

BRACKET

RCA,_MINIDIN,_VGA,_318

ASSY11

BRACKET

RCA/ MINIDIN, VGA

ASSY12

BRACKET

VGA

RCA + MiniDIN + VGA

RCA or MiniDIN + VGA

VGA

MISC. BOARD PARTS

ASSY7

ANTISTATIC
BAG

6_X_11

ASSY

ASSY8

BLANK
LABEL

1.50W_X_0.50 H

ASSY

LP Brackets

ASSY13

BRACKET

MINIDIN,_VGA,_319

ASSY14

BRACKET

VGA

RCA or MiniDIN + VGA

VGA

REF1

SCHEMATIC

105-A165xx-00B
ASSY

REF2

SCHEMATIC

105-A165xx-00B
ASSY

REF5

ATI LOGO
LABEL

ATI_LOGO_LABE L/X

Heatsink

MH101

HEATSINK/X

B B

A A

Title

Size Document Number Rev
Custom

5

4

3

2

Date: Sheet

GIGABYTE CORP.

Heatsink & Mechanicals

GV-R92564T 1.0

1

12 14

of

5

4

3

2

1

MEMORY CHANNEL A

D D

Memory

MEMORY TERMINATIONS A

MA[14..0]
CASA#

RASA#

WEA#

QSA[7..0]

CS0A#MDA[63..0]

DQMA[0..7]

CLKA01CKEA

CLKA01#

MEM A MEM B

CLOCK

C C

GPIO16 XTALIN XTALOUT ZV_LCDDATA18: 19

DAC1

R G B HSY VSY DDC1DATA DDC1CLK

PRIMARY CRT

LOGIC

STRAPS

VGA DB15

BIOS

B B

POWER

REGULATION

VDDC VDDC_CT MVDDC MVDDQ VTT
PVDD TPVDD MPVDD
A2VDD Vref

ROMCS#

ROM

RV280

DAC2

TVOUT Filters

TVOUT
CONN

TMDS

CONN

AGP

PAR

CBE3..0

GNT#

CLK

SBA[7..0]

AD_STB1#

CPUCLK

TRDY#

INTR

ST2..0

WBF#

AD_STB0

AD31..0
IRDY#

FRAME#

+12V_BUS

+5V_BUS+3.3V_BUS

A A

5

+VDDQ_BUS

AGPREF

AD_STB1

AGP BUS
1X/2X/4X/8X

4

STOP#
DEVSEL#

DBI_HI

SB_STB

AD_STB0#

REQ#

RESET#

DBI_LO

SB_STB#

RBF#

Title

Size Document Number Rev
Custom

3

2

Date: Sheet

GIGABYTE CORP.

Block Diagram

GV-R92564T 1.0

1

13 14

of

5

4

3

2

1

D D

Model Name: GV-R92564T

Component history

Date Reason

C C

B B

Change Item

RELEASE REV1.0 New BOM1.0

A A

Title

GIGABYTE CORP.

Rev History

Size Document Number Rev
Custom

Date: Sheet

5

4

3

2

GV-R92564T 1.0

14 14

of

1