PDF-XCyange Editor DEMO

1.

4
Ed
e
g
n
ha
D
r
o
it
2
2
XG_TXP0
XG_TXN0
XG_TXP0
XG_TXN0
2
2
XG_TXP1
XG_TXN1
XG_TXP1
XG_TXN1
2
2
XG_TXP2
XG_TXN2
XG_TXP2
XG_TXN2
XG_TXP3
XG_TXN3
XG_TXP3
XG_TXN3
2
2
XC
F O
D
P EM
D
3
3
MDC_PHY
R2
MDIO
R3
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
e
g
n
ha
XC
F O
D
P EM
D
39
0
MDC
MDO
MDI
I2C_SDA_BFK
I2C_SCL_BFK
Ed
r
o
it
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
2
XG_RXP0
XG_RXN0
XG_RXP0
XG_RXN0
2
2
XG_RXP1
XG_RXN1
XG_RXP1
XG_RXN1
2
2
XG_RXP2
XG_RXN2
XG_RXP2
XG_RXN2
2
2
XG_RXP3
XG_RXN3
XG_RXP3
XG_RXN3
2
2
GPIO27
J2
e
g
n
ha
XC
F O
D
P EM
D
3.3V
3.3V_BFK
F1
Ed
1
r
o
it
GPIO27
R1
J3
J4
ERF8-020-05.0-S-DV-K-TR
J5
VDDO_M
C
r
Pull-up resistors should be located
on BFK and I2C programmator board
Ed
e
g
n
a
h
B
XC
F O
D
P EM
D
I2C_SCL_BFK
TP1
I2C_SDA_BFK
TP2
3.3V_I2C_PROG
12
13
0
16
1
WC
11
3.3V_PCA9500
6
A
881545-2
10K
J104
it
or
e
g
n
a
h
XC
F O
D
P EM
D
3.3V_PCA9500
I2C_SCL_BFK
I2C_SDA_BFK
e
g
n
a
h
HDR2x1
Ed
14
SCL
SDA
IO1
IO0
A0
IO2
A1
A2
IO3
WC
IO4
VSS
EPAD
IO5
PCA9500BS
IO6
2
3
4
5
7
RESET_PHY
R5
R6
R7
R8
R11
R12
R13
5
J7
1
2
3
10K
10K
10K
10K
10K
10K
10K
R118
10K RESET_PHY
r
e
g
n
a
h
XC
F O
D
P EM
D
Ed
it
1
2
NC
U1
VCC
Y
A
SN74LVC1G07DBVR
4
6
4
2
VCCB
B
GND
XC
F O
D
P EM
D
VCCA
OE
A
1
5
3
R9
R14
or
3
Ed
i to
r
B
10K
Q1
RST_PHY
i to
FDV305N
e
g
n
a
h
3
MDIO
XC
F O
D
P EM
D
100K
XC
F O
D
P EM
D
MDIO
GND
e
g
n
a
h
RST_PHY
10
4
Ed
3
C
3.3V
U3
TXB0101DCKR
9
I/O I2C Address: 0100000x
EEPROM I2C Address: 1010000x
e
g
n
a
h
HEADER, 1x3-PIN
3.3V_PCA9500
0.1uF
i to
MDO
3.3V
3.3V_PCA9500
17
8
Set Jumper to enable
write operation
XC
F O
D
P EM
D
r
C1
VDD
8bit I2C bus andIO72kbit EEPROM
1
2
Ed
i to
3.3V_I2C_PROG
HEADER 4
15
XJ34
1
2
3
4
U2
R10
R116
J6
D
4.7K
5
R4
i to
INT
0466004.NR
J1
Ed
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o
it
XC
F O
D
P EM
D
INT
0
e
g
n
ha
3
5
Ed
3
r
Title
CONNECTOR
Size
B
Date:
2
XC
F O
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D
Document Number
<Doc>
e
g
n
a
h
Thursday, September 24, 2015
Sheet
1
Ed
i to
r
A
Rev
1.0
1
of
7

2.

5
4
MOP0
MON0
U2
V2
MIP0
MIN0
R1
T1
MOP1
MON1
U4
V4
MIP1
MIN1
R3
T3
MOP2
MON2
XC
F O
D
P EM
D
U6
V6
MIP2
MIN2
R5
T5
MOP3
MON3
U8
V8
MIP3
MIN3
R7
T7
U11
V11
R12
T12
C
U13
V13
R14
T14
U15
V15
R16
T16
V17
R18
T18
TP5
TP7
TP9
B
XC
F O
D
P EM
D
AHSDACN
AHSDAP
AM_TSTP_ATO
N10
N11
N9
AMOP[2]
AMON[2]
L1_NUNI_IP
L1_NUNI_IN
NOP[1]
NON[1]
L2_AMUNI_IP
L2_AMUNI_IN
AMOP[3]
AMON[3]
D9
A10
B10
L3_AMUNI_IP
L3_AMUNI_IN
AMOP[4]
AMON[4]
L2_NUNI_IP
L2_NUNI_IN
L4_AMUNI_IP
L4_AMUNI_IN
AMOP[5]
AMON[5]
NOP[2]
NON[2]
e
g
n
ha
C11
D11
i
d
E
t
L5_AMUNI_IP
L5_AMUNI_IN
AMOP[6]
AMON[6]
Ed
r
ti o
L6_AMUNI_IP
L6_AMUNI_IN
J8A
HSTXAP
HSTXAN
18
19
HSRXAP
HSRXAN
13
12
TDP
VCCT
TDN
VCCR
RDP
RDN
TX_FAULT
TX_DISABLE
RX_LOS
4
SFPA_MOD0_PRSNTn 5
6
7
9
2
3
8
Ed
r
o
it
VEET1
VEER1
VEET3
VEER2
1
22
23
SFPA_TXDISABLE
24
SFPA_LOS
25
e
g
n
ha
26
27
28
17
29
10
20
30
11
21
40
22
39
23
38
24
37
25
36
3.3V
40
39
37
36
3.3V
28
33
29
32
30
31
L3_NUNI_IP
L3_NUNI_IN
NOP[3]
NON[3]
NHSDACN
AHSDACP
AM_TSTPT_ATO
NTSTPT_ATO
NHSDACP
NTSTPT_CKTEST
XC
F O
D
P EM
D
34
NIVREFR4K
F7
32
31
RATE_SEL_1
14
SFP_PLUS_CONN_WITH_CAGE
VEER3
e
g
n
a
h
Ed
NIVREFR4K
R21
4
4
XG_TXP0 C6
XG_TXN0
100nF
C7
MIP0
100nF MIN0
1
1
XG_TXP1
XG_TXN1
XG_TXP1 C10
XG_TXN1
100nF
C11
MIP1
100nF MIN1
1
1
XG_TXP2
XG_TXN2
XG_TXP2 C14
XG_TXN2
100nF
C15
MIP2
100nF MIN2
1
1
XG_TXP3
XG_TXN3
XG_TXP3 C18
XG_TXN3
100nF
C19
MIP3
100nF MIN3
Ed
i to
SFPA_TXDISABLE
4
4
4
SFPA_MOD2_SDA
SFPA_MOD1_SCL
Data Flow
D
SFPA_VCCR
C5
C4
22uF
0.1uF
3.3V
4.7K
J9
XG_RXP0
XG_RXN0
100nF
C9
MOP0
100nF MON0
XG_RXP1
XG_RXN1
XG_RXP1 C12
XG_RXN1
100nF
C13
MOP1
100nF MON1
1
1
XG_RXP2
XG_RXN2
XG_RXP2 C16
XG_RXN2
100nF
C17
MOP2
100nF MON2
1
1
XG_RXP3
XG_RXN3
100nF
C21
MOP3
100nF MON3
1
1
e
g
n
a
h
XC
F O
D
P EM
D
Ed
SFPA_TXFAULT
R17
e
g
n
a
h
Ed
4.7K
SFPA_LOS
R19
4.7K
SFPA_MOD0_PRSNTn
R20
4.7K
XC
F O
D
P EM
D
4.7K
SFPA_MOD1_SCL R23
4.7K
4.7K
XJ1
XJ2
881545-2
881545-2
C
SFPA_RATESEL1
e
g
n
a
h
Ed
i to
r
XC
F O
D
P EM
D
VDDOS
SFPA_MOD2_SDA R22
R16
1
2
3
HEADER, 1x3-PIN HEADER, 1x3-PIN
4.7K
SFPA_TXDISABLE R18
J10
1
2
3
B
Marvell PHY
XG_RXP0 C8
XG_RXN0
1
1
4
SFPA_LOS
SFPA_MOD0_PRSNTn
Baikal PHY
r
SFPA_TXFAULT
TP6
TP8
TP10
TP11
3.65K
Marvell PHY
r
ti o
VDDOS
4
XC
F O
D
P EM
D
NHSDACN
NHSDACP
NTSTP_ATO
NTSTP_CKTEST
r
ti o
INS16920022
Data Flow
0.1uF
4.7uH
33
R15
D13
A14
B14
E6
A6
F8
e
g
n
ha
1-2: FULL BW RX
2-3: LOW BW RX
AMON[7]
L7_AMUNI_IP
L7_AMUNI_IN
AHSDACN
C3
3.3V
C13
B6
Ed
C2
22uF
L2
35
34
L1
4.7uH
38
SFP_PLUS_CONN_WITH_CAGE
26
35
27
r
o
it
SFPA_VCCT
J8B
21
SFPA_TXFAULT
XC
F O
D
P EM
D
MOD-DEF1_SCL
MOD-DEF0_ABS
RATE_SEL_0
SFPA_VCCR
15
MOD-DEF2_SDA
VEET2
SFPA_RATESEL0
SFPA_RATESEL1
16
1
A12
B12
AMOP[7]
e
g
n
a
h
SFPA_VCCT
or
SFPA_MOD2_SDA
SFPA_MOD1_SCL
XC
F O
D
P EM
D
2
SFPA_RATESEL0
XG_TXP0
XG_TXN0
5
C9
U4B
88X2222_BGA324
1
1
XC
F O
D
P EM
D
HSTXAP
HSTXAN
A8
B8
L1_AMUNI_IP
L1_AMUNI_IN
Baikal PHY
A
NOP[0]
NON[0]
HSRXAP
HSRXAN
C7
D7
AMOP[1]
AMON[1]
e
g
n
a
h
U17
t
L0_NUNI_IP
L0_NUNI_IN
L0_AMUNI_IP
L0_AMUNI_IN
e
g
n
ha
D
i
d
E
AMOP[0]
AMON[0]
or
3
i to
r
XG_RXP3 C20
XG_RXN3
e
g
n
a
h
3
XC
F O
D
P EM
D
Ed
i to
r
Title
e
g
n
a
h
Ed
i to
r
A
SFI and KR/XAUI PORTS
Size
B
Date:
2
XC
F O
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P EM
D
Document Number
<Doc>
Friday, September 25, 2015
Sheet
1
Rev
1.0
2
of
7

3.

5
4
3
DVDD10
C22
0.1uF
R25
U5
R29
100K
5
e
g
n
ha
IN
MR
Gnd
MIC2776N-YM5
R35
48.7K
S1
XC
F O
D
P EM
D
1
2
1
i
d
E
t
3.3V
or
3
2
VDDOT=3.3V
3
2
VDDO_M
R33
XC
F O
D
P EM
D
R37
100K
1
3
5
7
2
4
6
8
LED0[0]
LED1[0]
1
3
5
7
e
g
n
a
h
2
4
6
8
Ed
it
XC
F O
D
P EM
D
881545-2
B
J13
LED0[0]
LED1[0]
1
3
5
7
2
4
6
8
CONFIG2
CONFIG1
881545-2
A
LED0[0]
LED1[0]
J14
1
3
5
7
5
K3
L4
L18
INT
VSEL_L
VDDOL
LED0[0]
LED0[1]
LED0[2]
LED0[3]
K17
D4
H1
F1
LED1[0]
LED1[1]
LED1[2]
LED1[3]
D1
G1
A2
E1
CONFIG0
CONFIG1
CONFIG2
CONFIG3
C1
F2
B1
E2
e
g
n
a
h
R42
R43
R44
R45
100K
100K
100K
100K
GPIO0
GPIO1
GPIO2
GPIO3
R46
R47
R48
R49
100K
100K
100K
100K
TOD0
TOD1
TOD2
TOD3
F4
E4
C3
B3
TMS
TDO
RESETN
TDI
TEST
FREQ_SEL[0]
FREQ_SEL[1]
U4A
88X2222_BGA324
VSEL_M
MDC
MDIO
INT
1
TP12
or
LED0[2]
LED1[0]
LED0[3]
LED1[1]
it
1
1
LED1[2]
CONFIG[0]
LED1[3]
CONFIG[1]
DSP_LOCK[1]
DSP_LOCK[2]
DSP_LOCK[3]
88X2222
LTST-C171TBKT
LED0[0]
D3
LTST-C171TBKT
LED0[1]
R52
R54
R53
200
D4
LTST-C171TBKT
LED0[2]
R55
200
D5
LTST-C171TBKT
LED0[3]
R57
e
g
n
a
h
R58
R59
XC
F O
D
P EM
D
4
DO NOT STUFF
TRSTN
TDI
R34
R36
100K
100K
INT
R40
Ed
D6
LTST-C171TBKT
LED1[0]
200
D7
LTST-C171TBKT
LED1[1]
200
D8
LTST-C171TBKT
LED1[2]
200
D9
LTST-C171TBKT
LED1[3]
200
Ed
r
o
it
D
XC
F O
D
P EM
D
DO NOT STUFF
10K
MDIO
e
g
n
a
h
MDIO
R41
C
or
MDC_PHY
it
1k
R117
10K
MDC_PHY
INT
Ed
e
g
n
a
h
MDIO
XC
F O
D
P EM
D
DSP_LOCK[0]
it
MDC_PHY
INT
1
CONFIG[2]
GPIO[0]
GPIO[1]
CONFIG[3]
GPIO[2]
GPIO[3]
or
e
g
n
ha
VDDO_T
TP4
D2
R56
100K
4.7K
100K
100K
0
VDDO_M
LED0[1]
200
Ed
R27
R28
R30
R31
R32
VDDO_T
LED0[0]
200
it
t
or
VDDO_M
TP3
R51
or
XC
F O
D
P EM
D
VSEL_L
R50
0 FREQ_SEL0
0 FREQ_SEL1
e
g
n
ha
TCK
TRSTN
3.3V
CONFIG0
i
d
E
TMS
TRSTN
TCK
TDO
TDI
VSEL_T
Ed
C2
G3
F3
B2
E3
D3
t
or
CLKP/N Frequency:
00=156.25MHz
e
g
n
a
h
XC
F O
D
P EM
D
2
4
6
8
H2
MDC_PHY
MDIO_R K18
VDDOL=3.3V
XC
F O
D
P EM
D
J2
H3
L17
or
VDDOL
XJ6
0
J3
FREQ_SEL0
FREQ_SEL1L3
22
R39
CONFIG3
VDDOL
XJ5
R38
i
d
E
K4
RESETN
L2
J1
0
VSEL_M
MDIO
J12
e
g
n
ha
1
VDDOM=1.8V
VDDOL
881545-2
TMS
TRSTN
TCK
TDO
TDI
2
BAT54SW-7-F
RST_PHY
LED0[0]
LED1[0]
XJ4
3
1
RST_PHY
J11
VSEL_T
0
D1
VDDOL
881545-2
4.7K
R26
3
4
PB Switch
XJ3
R24
4.7K
RST_PHY
1
VDD RST
4
D
C
2
VDDO_T
3.3V
3
e
g
n
a
h
XC
F O
D
P EM
D
Ed
i to
r
XC
F O
D
P EM
D
Ed
i to
B
r
Title
e
g
n
a
h
Ed
i to
r
A
PHY CONTROL SIGNALS
Size
B
Date:
2
XC
F O
D
P EM
D
Document Number
<Doc>
Friday, November 20, 2015
Sheet
1
Rev
1.0
3
of
7

4.

5
D
e
g
n
ha
4
Ed
C VDDOS
X
F- O
PD EM
R61
D
r
o
it
e
g
n
ha
10K
C
A
Ed
it
or
XC
F O
D
P EM
D
e
g
n
a
h
2
SFPA_TXDISABLE
SFPA_TXFAULT
SFPA_TXDISABLE
SFPA_TXFAULT
R62
R63
R64
R65
R66
R67
R68
10K
10K
10K
4.7K
4.7K
10K
10K
R69
R70
R71
R72
R73
R74
R75
10K
10K
10K
4.7K
4.7K
10K
10K
SCL1
SDA1
Ed
R81
R82
Ed
i to
r
10K
10K
SFPA_MOD1_SCL
SFPA_MOD2_SDA
e
g
n
a
h
TP15
TP16
Ed
E16
H15
J15
J16
H18
J18
K16
K15
F15
G17
G16
F18
G18
H17
J17
C16
D17
D15
D18
E18
E17
F17
A16
A17
B16
B18
C18
B17
C17
SCL3
SDA3
SCL1
SDA1
TP13
TP14
it
or
e
g
n SCL2
a
h SDA2
XC
F10K O
R76
R77 D 10K
R78P
10KM
E
R79
D4.7K
R80
4.7K
XC
F O
D
P EM
D
5
e
g
n
ha
VDDOS=3.3V
2
B
Ed
2
r
o
it
XCR60 0 VSEL_S
F O SFPA_LOS
2
SFPA_LOS
SFPA_MOD0_PRSNTn
2
SFPA_MOD0_PRSNTnD
P EM MPC0
SFPA_MOD1_SCL
2
SFPA_MOD1_SCL
SFPA_MOD2_SDA
2
SFPA_MOD2_SDA D
VDDOS
e
g
n
a
h
3
i to
e
g
n
ha
U4F
LOS[1]
MOD0[1] 88X2222_BGA324
MPC[1]
SCL[1]
SDA[1]
TX_DISABLE[1]
TX_FAULT[1]
LOS[2]
MOD0[2]
MPC[2]
SCL[2]
SDA[2]
TX_DISABLE[2]
TX_FAULT[2]
e
g
n
a
h
Ed
it
or
D
Ed
i to
XC
F O
D
P EM
D
LOS[3]
MOD0[3]
MPC[3]
SCL[3]
SDA[3]
TX_DISABLE[3]
TX_FAULT[3]
Ed
i to
Document Number
<Doc>
Thursday, September 24, 2015
2
B
r
SFP+ SIGNALS
r
C
e
g
n
a
h
XC
F O
D
P EM
D
XTitleC
F O
D
P EM
Size
A
D Date:
Ed
r
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it
XC
F O
D
P EM
D
LOS[0]
MOD0[0]
MPC[0]
SCL[0]
SDA[0]
TX_DISABLE[0]
TX_FAULT[0]
e
g
n
a
h
3
r
o
it
XC
F O
D
P EM
D
r
XC
F O
D
P EM
D
4
VSEL_S
Ed
1
e
g
n
a
h
XC
F O
D
P EM
D4 of
Sheet
1
Ed
i to
A
Rev
1.0
7
r

5.

5
4
3
AVDD15_N
e
g
n
ha
DVDD10
D
Ed
C51
C49
100uF
100uF
100uF
G10
G8
G12
H7
G14
H11
H9
H13
J8
J6
J10
K7
J12
K11
K9
J14
C
K13
L8
L10
L12
L14
M11
M5
M13
M7
P2
M15
M9
P4
Ed
e
g
n
a
h
C68
C69
100uF
100uF
P11
P6
P13
P8
R2
P15
XC
F O
D
P EM
D
R4
P17
AVDD15_AM
B
C23
C24
C25
C26
C27
C28
C29
C30
C31
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
e
g
n
ha
AVDD15_N
Ed
R11
R6
R13
R8
R15
R17
DVDD
AVDD15_N
AVDD15_N
AVDD15_N
DVDD
DVDD
DVDD
DVDD
AVDD15_N
AVDD15_N
DVDD
DVDD
VHV
DVDD
AVDD15_N
AVDD10_AM
AVDD10_AM
AVDD15_N
AVDD10_AM
AVDD15_N
DVDD
U4C
88X2222_BGA324
DVDD
AVDD10_AM
AVDD15_N
AVDD10_AM
DVDD
AVDD10_AM
DVDD
or
AVDD10_AM
DVDD
AVDD11_N
AVDD10_AM
AVDD11_N
AVDD10_AM
AVDD11_N
DVDD
DVDD
DVDD
DVDD
DVDD
AVDD15_AM
DVDD
DVDD
AVDD15_AM
AVDD11_N
VDDOL
AVDD11_N
VDDOL
AVDD15_AM
VDDOL
VDDO_M
VDDOL
VDDOS
AVDD15_AM
D10
VDDOS
AVDD15_AM
VDDO_T
VDDOS
AVDD15_AM
AVDD15_AM
AVDD15_AM
AVDD15_AM
C33
C34
22uF
1uF
C35
22uF
C36
22uF
A7
A9
A11
C47
A13
B4
100uF
B11
B7
D14
B13
B9
C4
B15
C5
AVDD10_AM
E8
N2
N3
E10
N4
E12
C10
C6
C57
C58
100uF
100uF
C12
C8
E7
C14
E11
E9
N6
E14
N13
N7
N14
N8
N16
N12
F12
D5
F13
F5
H4
L16
H5
C15
E15
E13
N5
N15
AVDD11_N
F9
N17
F10
N18
F11
e
g
n
a
h
Ed
it
or
P1
C67
100uF
VDDOL
P3
P10
P5
P12
P7
P14
P9
R9
P16
R10
P18
T2
VDDO_M
VDDOS
T4
K5
G15
T8
VDDO_M
T9
C79
C80
C85
0.1uF 1uF
T10
C86
T11
0.1uF 1uF
T13
T15
DVDD10
T17
U1
C89
C90
C91
C92
C93
C94
C95
C96
C97
C98
C99
C100 C101 C102 C103 C104 C105 C106 C107 C108 C109 C110
or
or
C111
C112
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
DVDD10
A
e
g
n
a
h
Ed
C118
C119 C120 C121 C122
1uF
1uF
1uF
XC
F O
D
P EM
D
5
1uF
1uF
it
DVDD10
C123
22uF
VDDOL
C124
22uF
C125
22uF
C126
22uF
e
g
n
a
h
U5
U7
U9
VDDOS
U10
C127 C128 C129 C130 C131
C132 C133 C134 C135
U12
0.1uF 0.1uF 0.1uF 0.1uF 1uF
0.1uF 0.1uF 0.1uF 1uF
U14
XC
F O
D
P EM
D
4
Ed
it
U3
U16
U18
AVSS_N
VSS
AVSS_N
VSS
AVSS_N
AVSS_N
VSS
U4D
88X2222_BGA324
VSS
AVSS_N
AVSS_N
AVSS_N
AVSS_N
VSS
VSS
VSS
AVSS_N
VSS
AVSS_N
AVSS_N
AVSS_N
AVSS_N
VSS
VSS
AVSS_N
AVSS_AM
AVSS_AM
VSS
AVSS_AM
AVSS_AM
AVSS_AM
AVSS_AM
e
g
n
a
h
AVSS_AM
AVSS_AM
AVSS_AM
AVSS_AM
AVSS_AM
AVSS_AM
Ed
it
or
VSS
3
V3
V5
V7
V9
V10
V12
V14
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
AVSS_AM
AVSS_AM
VSS
AVSS_AM
VSS
AVSS_AM
NC_M2
VSS
AVSS_AM
NC_M3
VSS
AVSS_AM
NC_M4
VSS
AVSS_AM
AVSS_AM
e
g
n
a
h
VSS
VSS
AVSS_AM
AVSS_AM
VSS
VSS
AVSS_AM
AVSS_AM
VSS
VSS
AVSS_AM
AVSS_AM
VSS
VSS
AVSS_AM
Ed
it
or
VSS
VSS
A1
A3
C37
C38
C50
AVSS_AM
XC
F O
D
P EM
D
F6
D16
AVDD10_AM
G2
F14
G4
F16
C52
22uF
G5
G13
G7
H6
G9
H8
G11
H10
AVSS_AM
C44
C45
AVDD10_AM
C53
C56
1uF
1uF
C64
C65
C66
1uF
1uF
1uF
C
H16
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
C60
C61
C62
C63
J4
J5
AVDD11_N
J7
e
g
n
a
h
J9
C70
22uF
J11
J13
K6
AVDD15_AM
K8
M6
K10
M8
K12
M10
M14
K14
M17
M12
M16
M18
L1
C73
C71
22uF
XC
F O
D
P EM
D
C74
C75
C76
C77
Ed
i to
r
C72
22uF
C78
B
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
C81
L5
C82
C83
C84
C87
C88
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
L6
M2
L7
AVDD15_AM
AVDD15_AM
M3
L9
M4
L11
C113
22uF
L13
C114
22uF
C116
C115
22uF
PHY POWER
XC
F O
D
P EM
D
Document Number
<Doc>
e
g
n
a
h
Friday, September 25, 2015
Sheet
1
r
1uF
L15
Date:
AVSS_AM
D
C43
AVDD11_N
C59
AVSS_AM
AVSS_AM
C42
C55
22uF
H14
Size
B
AVSS_AM
C54
22uF
AVDD11_N
AVSS_AM
AVSS_AM
C41
H12
Title
2
C40
Ed
r
o
it
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
A18
AVSS_AM
AVSS_AM
e
g
n
ha
C39
E5
D2
AVSS_AM
XC
F O
D
P EM
D
V1
AVDD10_AM
VSS
VSS
XC
F O
D
P EM
D
T6
VDDO_T
e
g
n
ha
Ed
r
o
it
AVSS_N
AVSS_N
XC
F O
D
P EM
D
A15
B5
D12
XC
F O
D
P EM
D
AVDD15_AM
r
o
it
1uF
100uF
XC
F O
D
P EM
D
DVDD
it
D6
D8
1
AVDD15_N
C32
C46
G6
XC
F O
D
P EM
D
C48
r
o
it
AVDD15_N
2
Ed
i to
C117
1uF
A
Rev
1.0
5
of
7

6.

5
D
4
e
g
n
ha
Ed
3
r
o
it
e
g
n
ha CLKP
CLKP
CLKN
XC
F O
D
P EM
D
r
o
it
XC
59 WAN_CLKN
F O
59 WAN_CLKP
D
P EM
D
A5
A4
CLKN
1
Ed
100, 1%
r
o
it
R83
M1
N1
R85
R86
Ed
2
U4E
88X2222_BGA324
RCLK0
RCLK1
RUNI_WAN_REF_CLKN
RUNI_WAN_REF_CLKP
e
g
RCLK0
RCLK1
an
h
C
X100,
R84
F O1%
PD EM
D
3.3V_CLK
K1
3.3V_CLK
B
A
R91
4.7K
6
1
0.01uF
0.1uF
e
g
n
a
hOUT(+)
Ed
it
Ed
i to
DNP
82
R90
R92
5
3
2
or
r
e
g
n
a
h
Ed
R93
R94
147
147
i to
49.9
C138 0.01uF
e
g
n
a
h
XC
F O
D
P EM
D
Ed
or
DNP
CLKP
R95
R96
127
127
XTitleC
F O
D
P EM
Size
A
D Date:
Ed
i to
DNP
Document Number
<Doc>
Friday, September 25, 2015
2
e
g
n
a
h
Ed
i to
XC
F O
D
P EM
D
B
r
CLOCK
r
C
82
CLKN
DNP
e
g
n
a
h
3
it
R88
C139 0.01uF
r
XC
F O
D
P EM
D
4
49.9
4
C OUT(-)
X
NC F
O
U6:
PD EM156.25MHZ_LVPECL
XUP535156.250JS6I8 - IDT
D
VDD
OE/ST
XC
F O
D
P EM
D
5
C137
U6
XC
F O
D
P EM
D
e
g
n
a
h
0.5VDD_CLK
C136
GND
e
g
n
a
h
ER89d
it
or
D
XC
F O
D
P EM
D
K2
R87
C
e
g
n
ha
Ed
r
o
it
e
g
n
a
h
XC
F O
D
P EM
D6 of
Sheet
1
Ed
i to
A
Rev
1.0
7
r

7.

5
4
3
2
1
3.3V
3.3V
1.1V @ 4A
3.3V
U7A
LTM4614 - CHANNEL 1
J1
C140
C141
C142
J2
10uF
10uF
0.1uF
J3
J4
J5
D
The RUN/SS1 pin has a 1M internal
resistor to VIN
C152
0.01uF
SW_1_1V
J6
K6
K1
L2
K2
L5
K3
H2
K4
PGOOD1
VIN1_1
VOUT1_0
VIN1_2
VOUT1_1
VIN1_3
VOUT1_4
VOUT1_2
VIN1_4
VOUT1_5
VOUT1_3
e
g
n
ha
VIN1_5
VIN1_11
VIN1_6
RUN/SS1
VIN1_7
COMP1
VIN1_8
XC
F O
D
P EM
D
H3
K5
H4
G1
H5
G2
H6
G3
G4
G5
G10
G6
G11
H1
G7
G12
H7
G8
H10
H8
G9
H9
SW1_0
VIN1_9
SW1_1
VIN1_10
VOUT1_8
VOUT1_6
VOUT1_10
VOUT1_7
VOUT1_9
VOUT1_11
VOUT1_12
VOUT1_15
VOUT1_13
TRACK1
FB1
VOUT1_14
1.1V
GND1_17
GND1_1
SW1_4
GND1_18
GND1_20
GND1_19
GND1_21
GND1_2
GND1_3
GND1_4
GND1_9
GND1_5
GND1_10
GND1_12
GND1_6
GND1_11
GND1_13
GND1_7
GND1_16
GND1_14
GND1_8
LTM4614
GND1_15
GND1_22
GND1_23
GND1_24
GND1_25
GND1_26
GND1_27
GND1_29
C
GND1_30
GND1_31
GND1_32
J9
J10
AVDD11_N
t
L4
C146
C148
22uF
100uF
K9
J11
120,
e
g
n
a
h
e
g
n
ha
L12
3.3V
FB_1_1V
R99
C149
22uF
DCR=15mOhm
L11
L10
K12
XC
F O
D
P EM
D
13.3k
H11
H12
J8
J7
K7
K8
L1
L7
i
d
E
t
3.3V
or
C143
C144
C145
C2
10uF
10uF
0.1uF
C3
C4
C5
C154
VIN2_1
VIN2_2
VOUT2_1
VIN2_3
VOUT2_4
VOUT2_2
B2
D4
VOUT2_8
VOUT2_6
VOUT2_10
VOUT2_7
VOUT2_9
VOUT2_11
VOUT2_14
VOUT2_12
XC
F O
D
P EM
D
SW2_0
VIN2_9
A2
B6
A3
A4
HOLE_MH_125_250
B10
B8
A9
M2
B9
GND2_0
SW2_3
GND2_17
GND2_1
SW2_4
GND2_18
GND2_2
GND2_19
GND2_22
GND2_20
GND2_23
GND2_21
GND2_24
GND2_3
A5
A10
A6
A11
B1
A7
A12
B7
A8
MH2
GND2_4
GND2_9
GND2_5
GND2_10
GND2_12
GND2_6
GND2_11
GND2_13
GND2_7
GND2_25
GND2_26
GND2_27
GND2_16
GND2_14
GND2_8
LTM4614
M3
GND2_28
GND2_15
GND2_29
M4
GND2_30
M5
M6
it
M7
M8
or
1.0V @ 8A
3.3V
C155 C157
10uF
R104
10uF
10K RUN_1V
E8
D9
D8
D7
D5
D4
D3
D1
C9
C8
C1
F1
F4
E5
B3
B5
B4
E3
B7
B8
C5
C4
C3
A1
A2
Ed
it
or
A3
A4
A5
A10
A6
A11
B9
A7
B1
B10
A8
A9
VIN-E8
VIN-D9
VIN-D8
VIN-D7
VIN-D5
VIN-D4
VIN-D3
VIN-D1
VIN-C9
VIN-C8
VIN-C1
LTM4608AEV
e
g
n
a
h
1.0V
U8
VOUT-C10
VOUT-C11
VOUT-D10
VOUT-D11
VOUT-E9
VOUT-E10
VOUT-E11
VOUT-F9
VOUT-F10
VOUT-F11
VOUT-G9
VOUT-G10
VOUT-G11
C10
C11
D10
D11
E9
E10
E11
F9
F10
F11
G9
G10
G11
SVIN
FB
TRACK
CLKIN
MODE
PHMODE
PLLLPF
BSEL
ITH
ITHM
PGOOD
MGN
SW1
SW2
SW3
CLKOUT
GND-A1
GND-G8
GND-A2
GND-G6
GND-G7
GND-G5
GND-G4
GND-G3
GND-G2
GND-G1
GND-F8
GND-F7
GND-F3
GND-B11
GND-A3
GND-A4
GND-A5
GND-A10
GND-A6
GND-A11
GND-B9
GND-A7
GND-B1
GND-B10
GND-A8
SGND
GND-A9
E7
FB_1V
C158
C159
100uF
100uF
R105
GND2_31
GND2_32
GND2_33
4.5A,
FBMH2016HM121NT
L10
FBMH2016HM121NT
L11
FBMH2016HM121NT
L12
FBMH2016HM121NT
DVDD10
C160
100uF
AVDD10_AM
4.5A,
L14
14.7K
F6
DCR=15mOhm
FBMH2016HM121NT
PG_1VR106
J22
10K
D10
C12
t
C147
AVDD15_AM
J15
L3
FBMH2016HM121NT
L5
FBMH2016HM121NT
C150
22uF
C151
22uF
100uF
120,
4.5A,
DCR=15mOhm
E9
D11
AVDD15_N
e
g
n
ha
Ed
r
o
it
D
J19
E11
E10
D12
E12
F11
F9
F12
F10
E3
E6
J18
3.3V
FB_1_5V
R100
L6
FBMH2016HM121NT
L7
FBMH2016HM121NT
C153
22uF
XC
F O
D
P EM
D
5.76k
B11
B12
C7
D8
C8
E1
D7
E7
E8
F1
F2
F3
F4
F5
F6
F7
F8
Ed
it
or
C
J20
VDDOL
VDDOL=3.3V
3.3V
R101
0
R102
0
R103
0
VDDOS
L8
VDDOS=3.3V
e
g
n
a
h
VDDO_T
MPZ1608S101ATAH0
VDDOT=3.3V
C156
22uF
3.3V
XC
F O
D
P EM
D
3.3V_CLK
L13
BLM15AX601SN1D
C161
C162
1uF
0.1uF
Ed
i to
r
B
1.8V @ 150mA
F2
3.3V
1
C164
G6
G7
G5
G4
G3
G2
G1
F8
F7
F3
B11
E1
3.3V
e
g
n
a
h
Ed
it
or
3.3V
LTST-C171GKT
D11
1.8V
U9
G8
XC
F O
D
P EM
D
4
D9
C11
XC
F O
D
P EM
D
2
1uF
OUT
NC/FB
EN
IN
GND
3.3V
LTST-C171GKT
D12
3.3V
R109
R110
R111
499
499
499
499
VDDO_M
1.8V
R107
3.3V
5
4
3
0
r
ti o
Power LEDS
C
X
F O
D
P EM
D
1.0V
1.1V
1.5V
e
g
n
a
h
1.8V
U10
1
2
3
4
5
6
3
VDDOM=1.8V
4.7uF
Ed
e
g
n
a
h
LTST-C171GKT
D13
R108
J24
C165
TPS76318DBVT
7
5
C10
or
C163
22uF
3.3V
F5
C7
J23
i
d
E
C9
e
g
n
a
h
DCR=15mOhm
L9
120,
LTST-C171GKT
D10
XC
F O
D
P EM
D
or
120,
J21
XC
F O
D
P EM
D
RUN/SS
Ed
it
PG_1_5V
SW2_2
A1
B5
1
VOUT2_15
VOUT2_13
TRACK2
FB2
SW2_1
VIN2_10
B4
E4
e
g
n
ha
VOUT2_5
VOUT2_3
RUN/SS2
VIN2_7
COMP2
VIN2_8
B3
D5
HOLE_MH_125_250
M1
PGOOD2
VOUT2_0
VIN2_5
VIN2_11
VIN2_6
E2
D2
E5
D3
SW_1_5V
VIN2_0
VIN2_4
C6
D6
D1
0.01uF
1
10K
1.5V
LTM4614 - CHANNEL 2
C1
The RUN/SS2 pin has a 1M internal
resistor to VIN
MH1
R98
U7B
L8
XC
F O
D
P EM
D
e
g
n
a
h
4.5A,
L9
K11
M9
M12
M10
L3
L6
M11
J16
FBMH2016HM121NT
K10
J12
Ed
GND1_33
A
J17
SW1_2
GND1_0
SW1_3
GND1_28
B
1.5V @ 4A
10K
PG_1_1V
L4
i
d
E
VIN1_0
or
R97
8
C1-1
C1-2
C2-1
C2-2
E1
B1
E2
B2
E3
B3
E4
16
15
14
13
12
11
10
R112
2K
R113
2K
R114
2K
R115
2K
Title
MMPQ2222A
C3-1
C
C4-1
C4-2
B4
XC
F O
D
P EM
D
A
POWER SUPPLIES
Size
C3-2
9
Ed
i to
Date:
2
Document Number
<Doc>
Thursday, September 24, 2015
1
Sheet
Rev
1.0
7
of
7
r