MARVELL 88E1111

88E1111 Product Brief
Integrated 10/100/1000 Ultra
Gigabit Ethernet Transceiver
Doc. No. MV-S105540-00, Rev. -March 4, 2009
Document Classification: Proprietary Information
Marvell. Moving Forward Faster
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Document Conventions
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Advance
Information
This document contains design specifications for initial product development. Specifications may
change without notice. Contact Marvell Field Application Engineers for more information.
Preliminary
Information
This document contains preliminary data, and a revision of this document will be published at a later
date. Specifications may change without notice. Contact Marvell Field Application Engineers for
more information.
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Information
This document contains specifications on a product that is in final release. Specifications may
change without notice. Contact Marvell Field Application Engineers for more information.
Doc Status: Advance
Technical Publications: 1.00
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Copyright © 2009. Marvell International Ltd. All rights reserved. Marvell, the Marvell logo, Moving Forward Faster, Alaska, Fastwriter, Datacom Systems on Silicon, Libertas,
Link Street, NetGX, PHYAdvantage, Prestera, Raising The Technology Bar, The Technology Within, Virtual Cable Tester, and Yukon are registered trademarks of Marvell.
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Doc. No. MV-S105540-00 Rev. -Page 2
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
O VERVIEW
F EATURES
The Alaska® Ultra 88E1111 Gigabit Ethernet Transceiver is a physical layer device for Ethernet
1000BASE-T, 100BASE-TX, and 10BASE-T applications. It is manufactured using standard digital CMOS
process and contains all the active circuitry required to
implement the physical layer functions to transmit and
receive data on standard CAT 5 unshielded twisted pair.
•
10/100/1000BASE-T IEEE 802.3 compliant
•
Supports GMII, TBI, reduced pin count GMII
(RGMII), reduced pin count TBI (RTBI), and serial
GMII (SGMII) interfaces
•
Integrated 1.25 GHz SERDES for 1000BASE-X
fiber applications
•
Four RGMII timing modes
The 88E1111 device incorporates the Marvell Virtual
Cable Tester® (VCT™) feature, which uses Time
Domain Reflectometry (TDR) technology for the remote
identification of potential cable malfunctions, thus
reducing equipment returns and service calls. Using
VCT, the Alaska 88E1111 device detects and reports
potential cabling issues such as pair swaps, pair polarity and excessive pair skew. The device will also detect
cable opens, shorts or any impedance mismatch in the
cable and report accurately within one meter the distance to the fault.
•
Energy Detect and Energy Detect+ low power
modes
•
Three loopback modes for diagnostics
•
“Downshift” mode for two-pair cable installations
•
Fully integrated digital adaptive equalizers, echo
cancellers, and crosstalk cancellers
•
Advanced digital baseline wander correction
•
Automatic MDI/MDIX crossover at all speeds of
operation
•
Automatic polarity correction
•
IEEE 802.3u compliant Auto-Negotiation
•
Software programmable LED modes including LED
testing
•
Automatic detection of fiber or copper operation
The 88E1111 device incorporates an optional 1.25 GHz
SERDES (Serializer/Deserializer). The serial interface
may be connected directly to a fiber-optic transceiver
for 1000BASE-T/1000BASE-X media conversion applications. Additionally, the 88E1111 device may be used
to implement 1000BASE-T Gigabit Interface Converter
(GBIC) or Small Form Factor Pluggable (SFP) modules.
•
Supports IEEE 1149.1 JTAG
•
Two-Wire Serial Interface (TWSI) and MDC/MDIO
•
CRC checker, packet counter
•
Packet generation
•
Virtual Cable Tester (VCT)
•
Auto-Calibration for MAC Interface outputs
The 88E1111 device uses advanced mixed-signal processing to perform equalization, echo and crosstalk
cancellation, data recovery, and error correction at a
gigabit per second data rate. The device achieves
robust performance in noisy environments with very low
power dissipation.
•
Requires only two supplies: 2.5V and 1.0V (with
1.2V option for the 1.0V supply)
•
I/Os are 3.3V tolerant
•
Low power dissipation Pave = 0.75W
•
117-Pin TFBGA, 96-Pin BCC, and 128 PQFP
package options
•
117-Pin TFBGA and 96-Pin BCC packages available in Commercial or Industrial grade
•
RoHS 6/6 compliant packages available
The 88E1111 device supports the Gigabit Media Independent Interface (GMII), Reduced GMII (RGMII),
Serial Gigabit Media Independent Interface (SGMII),
the Ten-Bit Interface (TBI), and Reduced TBI (RTBI) for
direct connection to a MAC/Switch port.
The 88E1111 device is offered in three different package options including a 117-Pin TFBGA, a 96-pin BCC
featuring a body size of only 9 x 9 mm, and a 128 PQFP
package.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 3
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
M
a
g
n
e
t
i
c
s
88E1111
Device
10/100/1000 Mbps
Ethernet MAC
MAC Interface Options
- GMII/MII
- TBI
- RGMII
- RTBI
- SGMII
- Serial Interface
RJ-45
Media Types:
- 10BASE-T
- 100BASE-TX
- 1000BASE-T
Fiber
Optics
Media Types:
- 1000BASE-X
88E1111 Device used in Copper Application
88E1111
Device
10/100/1000 Mbps
Ethernet MAC
Serial
Interface
MAC Interface Options
- GMII/MII
- RGMII
88E1111 Device used in Fiber Application
(Effective SGMII MAC)
Gigabit Ethernet
MAC
MAC Interface Options
- GMII
- RGMII
88E1111
Device
3-Speed
SFP
Serial Interface
- 4-pin SGMIII
88E1111 RGMII/GMII MAC to SGMII MAC Conversion
Doc. No. MV-S105540-00, Rev. -Page 4
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Table of Contents
1.1
117-Pin TFBGA Package................................................................................................6
1.2
96-Pin BCC Package .....................................................................................................7
1.3
128-Pin PQFP Package ..................................................................................................8
1.4
Pin Description ...............................................................................................................9
1.4.1
Pin Type Definitions............................................................................................................ 9
1.5
I/O State at Various Test or Reset Modes ..................................................................33
1.6
117-Pin TFBGA Pin Assignment List - Alphabetical by Signal Name .....................34
1.7
96-Pin BCC Pin Assignment List - Alphabetical by Signal Name............................36
1.8
128-Pin PQFP Pin Assignment List - Alphabetical by Signal Name........................38
2.1
117-pin TFBGA Package..............................................................................................40
2.2
96-pin BCC Package - Top View .................................................................................42
2.3
96-Pin BCC Package - Bottom View ...........................................................................43
2.4
128-Pin PQFP Package ................................................................................................44
3.1
Ordering Part Numbers and Package Markings........................................................45
3.1.1
3.1.2
RoHS 5/6 Compliant Marking Examples .......................................................................... 46
RoHS 6/6 Compliant Marking Examples .......................................................................... 49
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 5
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Section 1. Signal Description
The 88E1111 device is a 10/100/1000BASE-T/1000BASE-X Gigabit Ethernet transceiver.
1.1 117-Pin TFBGA Package
Figure 1: 88E1111 Device 117-Pin TFBGA Package (Top View)
1
2
3
4
5
6
7
8
9
A
RXD5
RXD6
S_IN+
S_IN-
S_CLK+
S_CLK-
S_OUT+
S_OUT-
B
RX_DV
RXD0
RXD3
VDDO
CRS
COL
AVDD
C
RX_CLK
VDDO
RXD2
RXD4
RXD7
DVDD
DVDD
D
TX_CLK
RX_ER
RXD1
VSS
VSS
VSS
DVDD
E
TX_EN
GTX_CLK
DVDD
VSS
VSS
VSS
DVDD
F
TXD0
TX_ER
DVDD
VSS
VSS
VSS
VDDOH
G
NC
TXD1
TXD2
VSS
VSS
VSS
CONFIG[3]
H
TXD4
TXD3
TXD5
VSS
VSS
VSS
VSSC
J
TXD6
TXD7
DVDD
VSS
VSS
VSS
DVDD
K
VDDO
125CLK
RESETn
VSS
VSS
VSS
L
INTn
VDDOX
MDC
COMA
VSS
M
MDIO
RSET
AVDD
AVDD
N
MDI[0]+
MDI[0]-
MDI[1]+
1
2
3
LED_
LED_
LINK1000
A
VDDOH
B
LED_RX
C
LED_TX
D
CONFIG[1]
E
CONFIG[2]
CONFIG[4]
F
CONFIG[6]
CONFIG[5]
G
XTAL1
H
VDDOH
XTAL2
J
NC
TDO
VDDOX
K
VSS
TDI
TMS
TCK
L
HSDAC+
HSDAC-
AVDD
AVDD
TRSTn
M
MDI[1]-
AVDD
MDI[2]+
MDI[2]-
MDI[3]+
MDI[3]-
N
4
5
6
7
8
9
LINK100
LED_
LINK10
CONFIG[0]
LED_
DUPLEX
SEL_
FREQ
Figure 2: Pin A1 Location
Pin A1 location
88E1111-BAB
Doc. No. MV-S105540-00, Rev. -Page 6
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
96-Pin BCC Package
1.2
96-Pin BCC Package
76
54
52
XTAL2
VDDOH
50
TDO
NC
VSSC
51
53
55
XTAL1
57
56
SEL_
FREQ
DVDD
59
CONFIG[5]
58
CONFIG[6]
61
CONFIG[3]
60
CONFIG[4]
63
DVDD
62
CONFIG[2]
65
CONFIG[0]
64
CONFIG[1]
67
66
VDDOH
DVDD
69
LED_RX
68
70
LED_TX
71
LED_DUPL
EX
DVDD
72
MDI[2]-
41
MDI[2]+
39
MDI[3]+
42
82
S_IN+
AVDD
40
84
CRS
HSDAC-
38
86
RXD7
88
S_IN-
COL
DVDD
HSDAC+
88E1111 - CAA
AVDD
36
VDDO
MDI[1]-
34
90
RXD4
AVDD
32
92
RXD1
RSET
30
94
RX_DV
RESETn
28
VDDOX
26
RXD6
RXD5
35
MDI[1]+
33
MDI[0]-
RXD2
MDI[0]+
125CLK
TXD4
TXD6
VDDO
17
19
21
MDIO
DVDD
15
24
NC
13
INTn
TXD0
11
March 4, 2009, Advance
23
TX_EN
9
Copyright © 2009 Marvell
31
29
COMA
27
MDC
25
22
TXD7
TX_ER
7
20
TXD5
VDDO
5
18
TXD3
RX_ER
3
16
DVDD
1
14
TXD2
RXD0
VDDO
37
AVDD
RXD3
2
96
43
S_CLK-
12
95
MDI[3]-
80
TXD1
93
45
44
DVDD
91
AVDD
S_CLK+
10
89
47
46
TDI
GTX_CLK
87
TRSTn
TMS
AVDD
8
85
VSS
DVDD
83
0
6
81
49
48
S_OUT+
78
79
LED_LINK
10
4
77
TCK
VDDOX
S_OUT-
TX_CLK
75
LED_LINK
100
RX_CLK
74
VDDOH
LED_LINK
1000
73
Figure 3: 88E1111 Device 96-Pin BCC Package (Top View)
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 7
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
1.3 128-Pin PQFP Package
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
88E1111 - RCJ
Top View
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
AVDD
VSS
MDI[3]MDI[3]+
VSS
AVDD
VSS
MDI[2]MDI[2]+
VSS
HSDACHSDAC+
AVDD
VSS
NC
AVDD
VSS
MDI[1]MDI[1]+
VSS
AVDD
VSS
MDI[0]MDI[0]+
VSS
RSET
VSS
DVDD
RXD0
RX_DV
VDDO
DVDD
RX_CLK
RX_ER
VSS
TX_CLK
VDDO
DVDD
TX_ER
GTX_CLK
VSS
TX_EN
DVDD
TXD0
TXD1
TXD2
VSS
VSS
DVDD
TXD3
TXD4
TXD5
DVDD
TXD6
TXD7
VDDO
125CLK
INTn
MDIO
VDDOX
MDC
RESETn
COMA
VSS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
VSS
AVDD
S_OUTVSS
S_OUT+
VSS
S_CLKS_CLK+
VSS
S_INS_IN+
COL
CRS
VSS
DVDD
DVDD
VSS
RXD7
RXD6
VDDO
RXD5
RXD4
RXD3
RXD2
VSS
RXD1
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
VSS
VSS
LED_LINK10
LED_LINK100
LED_LINK1000
VDDOH
DVDD
LED_DUPLEX
VSS
VSS
LED_RX
LED_TX
DVDD
VDDOH
CONFIG[0]
CONFIG[1]
CONFIG[2]
DVDD
VSS
VSS
CONFIG[3]
CONFIG[4]
CONFIG[5]
CONFIG[6]
DVDD
SEL_FREQ
XTAL1
XTAL2
VSSC
VDDOH
TDO
VDDOX
TCK
TMS
TRSTn
TDI
VSS
VSS
Figure 4: 88E1111 Device 128-Pin PQFP Package (Top View)
Doc. No. MV-S105540-00, Rev. -Page 8
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
1.4 Pin Description
1.4.1 Pin Type Definitions
Pi n Type
D efin i ti o n
H
Input with hysteresis
I/O
Input and output
I
Input only
O
Output only
PU
Internal pull up
PD
Internal pull down
D
Open drain output
Z
Tri-state output
mA
DC sink capability
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 9
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 1:
Media Dependent Interface
117-TFBGA 9 6-BCC
Pin #
Pin #
128 -PQF P Pi n Na me
Pin #
Pi n
Ty pe
Des cription
N1
N2
41
42
I/O, D
Media Dependent Interface[0].
29
31
MDI[0]+
MDI[0]-
In 1000BASE-T mode in MDI configuration,
MDI[0]± correspond to BI_DA±.
In MDIX configuration, MDI[0]± correspond
to BI_DB±.
In 100BASE-TX and 10BASE-T modes in
MDI configuration, MDI[0]± are used for the
transmit pair. In MDIX configuration,
MDI[0]± are used for the receive pair.
MDI[0]± should be tied to ground if not used.
N3
N4
33
34
46
47
MDI[1]+
MDI[1]-
I/O, D
Media Dependent Interface[1].
In 1000BASE-T mode in MDI configuration,
MDI[1]± correspond to BI_DB±.
In MDIX configuration, MDI[1]± correspond
to BI_DA±.
In 100BASE-TX and 10BASE-T modes in
MDI configuration, MDI[1]± are used for the
receive pair. In MDIX configuration, MDI[1]±
are used for the transmit pair.
MDI[1]± should be tied to ground if not used.
Doc. No. MV-S105540-00, Rev. -Page 10
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 1:
Media Dependent Interface (Continued)
117-T FB GA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
Des cription
N6
N7
56
57
I/O, D
Media Dependent Interface[2].
39
41
MDI[2]+
MDI[2]-
In 1000BASE-T mode in MDI configuration,
MDI[2]± correspond to BI_DC±.
In MDIX configuration, MDI[2]± corresponds
to BI_DD±.
In 100BASE-TX and 10BASE-T modes,
MDI[2]± are not used.
MDI[2]± should be tied to ground if not used.
N8
N9
42
43
61
62
MDI[3]+
MDI[3]-
I/O, D
Media Dependent Interface[3].
In 1000BASE-T mode in MDI configuration,
MDI[3]± correspond to BI_DD±.
In MDIX configuration, MDI[3]± correspond
to BI_DC±.
In 100BASE-TX and 10BASE-T modes,
MDI[3]± are not used.
MDI[3]± should be tied to ground if not used.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 11
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
The GMII interface supports both 1000BASE-T and 1000BASE-X modes of operation. The GMII interface pins are
also used for the TBI interface. See Table 3 for TBI pin definitions. The MAC interface pins are 3.3V tolerant.
Table 2:
GMII/MII Interfaces
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P Pin Name
Pin #
Pin
Typ e
Desc ription
E2
8
14
GTX_CLK
I
GMII Transmit Clock. GTX_CLK provides a
125 MHz clock reference for TX_EN,
TX_ER, and TXD[7:0]. This clock can be
stopped when the device is in 10/100BASET modes, and also during Auto-Negotiation.
D1
4
10
TX_CLK
O, Z
MII Transmit Clock. TX_CLK provides a 25
MHz clock reference for TX_EN, TX_ER,
and TXD[3:0] in 100BASE-TX mode, and a
2.5 MHz clock reference in 10BASE-T
mode.
TX_CLK provides a 25 MHz, 2.5 MHz, or 0
MHz clock during 1000 Mbps Good Link,
Auto-Negotiation, and Link Lost states
depending on the setting of register 20.6:4.
The 2.5 MHz clock is the default rate, which
may be programmed to another frequency
by writing to register 20.6:4.
E1
9
16
TX_EN
I
GMII and MII Transmit Enable. In GMII/MII
mode when TX_EN is asserted, data on
TXD[7:0] along with TX_ER is encoded and
transmitted onto the cable.
TX_EN is synchronous to GTX_CLK, and
synchronous to TX_CLK in 100BASE-TX
and 10BASE-T modes.
F2
7
13
TX_ER
I
GMII and MII Transmit Error. In GMII/MII
mode when TX_ER and TX_EN are both
asserted, the transmit error symbol is transmitted onto the cable. When TX_ER is
asserted with TX_EN de-asserted, carrier
extension symbol is transmitted onto the
cable.
TX_ER is synchronous to GTX_CLK, and
synchronous to TX_CLK in 100BASE-TX
and 10BASE-T modes.
Doc. No. MV-S105540-00, Rev. -Page 12
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 2:
GMII/MII Interfaces (Continued)
117-T FBGA 9 6-BCC
Pin #
Pin #
J2
J1
H3
H1
H2
G3
G2
F1
20
19
18
17
16
14
12
11
12 8-PQF P Pin Name
Pin #
29
28
26
25
24
20
19
18
TXD[7]
TXD[6]
TXD[5]
TXD[4]
TXD[3]/TXD[3]
TXD[2]/TXD[2]
TXD[1]/TXD[1]
TXD[0]/TXD[0]
Pin
Ty pe
Des cription
I
GMII and MII Transmit Data. In GMII mode,
TXD[7:0] present the data byte to be transmitted onto the cable in 1000BASE-T mode.
In MII mode, TXD[3:0] present the data nibble to be transmitted onto the cable in
100BASE-TX and 10BASE-T modes.
TXD[7:4] are ignored in these modes, but
should be driven either high or low. These
pins must not float.
TXD[7:0] are synchronous to GTX_CLK, and
synchronous to TX_CLK in 100BASE-TX
and 10BASE-T modes.
Inputs TXD[7:4] should be tied low if not
used (e.g., RGMII mode).
C1
2
7
RX_CLK
O, Z
GMII and MII Receive Clock. RX_CLK provides a 125 MHz clock reference for RX_DV,
RX_ER, and RXD[7:0] in 1000BASE-T
mode, a 25 MHz clock reference in
100BASE-TX mode, and a 2.5 MHz clock
reference in 10BASE-T mode.
TX_TCLK comes from the RX_CLK pins
used in jitter testing. Refer to Register 9 for
jitter test modes.
B1
94
4
RX_DV
O, Z
GMII and MII Receive Data Valid. When
RX_DV is asserted, data received on the
cable is decoded and presented on
RXD[7:0] and RX_ER.
RX_DV is synchronous to RX_CLK.
D2
3
8
RX_ER
O, Z
GMII and MII Receive Error. When RX_ER
and RX_DV are both asserted, the signals
indicate an error symbol is detected on the
cable.
When RX_ER is asserted with RX_DV deasserted, a false carrier or carrier extension
symbol is detected on the cable.
RX_ER is synchronous to RX_CLK.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 13
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 2:
GMII/MII Interfaces (Continued)
117-T FBGA 96 -BCC
Pi n #
Pin #
C5
A2
A1
C4
B3
C3
D3
B2
86
87
89
90
91
93
92
95
128 -PQF P Pin Name
Pin #
120
121
123
124
125
126
128
3
RXD[7]
RXD[6]
RXD[5]
RXD[4]
RXD[3]/RXD[3]
RXD[2]/RXD[2]
RXD[1]/RXD[1]
RXD[0]/RXD[0]
Pin
Typ e
Desc ription
O, Z
GMII and MII Receive Data. Symbols
received on the cable are decoded and presented on RXD[7:0] in 1000BASE-T mode.
In MII mode, RXD[3:0] are used in
100BASE-TX and 10BASE-T modes. In MII
mode, RXD[7:4] are driven low.
RXD[7:0] is synchronous to RX_CLK.
B5
84
115
CRS
O, Z
GMII and MII Carrier Sense. CRS asserts
when the receive medium is non-idle. In halfduplex mode, CRS is also asserted during
transmission. CRS assertion during halfduplex transmit can be disabled by programming register 16.11 to 0.
CRS is asynchronous to RX_CLK,
GTX_CLK, and TX_CLK.
B6
83
114
COL
O, Z
GMII and MII Collision. In 10/100/
1000BASE-T full-duplex modes, COL is
always low. In 10/100/1000BASE-T halfduplex modes, COL asserts only when both
the transmit and receive media are non-idle.
In 10BASE-T half-duplex mode, COL is
asserted to indicate signal quality error
(SQE). SQE can be disabled by clearing register 16.2 to zero.
COL is asynchronous to RX_CLK,
GTX_CLK, and TX_CLK.
Doc. No. MV-S105540-00, Rev. -Page 14
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
The TBI interface supports 1000BASE-T mode of operation. The TBI interface uses the same pins as the GMII
interface. The MAC interface pins are 3.3V tolerant.
Table 3:
TBI Interface
117-T FBGA 96 -BCC
Pin #
Pin #
128 -PQFP Pin Name
Pin #
Pin
Ty pe
Des cription
E2
14
I
TBI Transmit Clock. In TBI mode, GTX_CLK
is used as TBI_TXCLK. TBI_TXCLK is a 125
MHz transmit clock.
8
GTX_CLK/
TBI_TXCLK
TBI_TXCLK provides a 125 MHz clock reference for TX_EN, TX_ER, and TXD[7:0].
D1
4
10
TX_CLK/RCLK1 O, Z
J2
J1
H3
H1
H2
G3
G2
F1
20
19
18
17
16
14
12
11
29
28
26
25
24
20
19
18
TXD[7]
TXD[6]
TXD[5]
TXD[4]
TXD[3]
TXD[2]
TXD[1]
TXD[0]
I
E1
9
16
TX_EN/
TXD8
I
TBI 62.5 MHz Receive Clock- even code
group. In TBI mode, TX_CLK is used as
RCLK1.
TBI Transmit Data. TXD[7:0] presents the
data byte to be transmitted onto the cable.
TXD[9:0] are synchronous to GTX_CLK.
Inputs TXD[7:4] should be tied low if not
used (e.g., RTBI mode).
TBI Transmit Data. In TBI mode, TX_EN is
used as TXD8.
TXD[9:0] are synchronous to GTX_CLK.
F2
7
13
TX_ER/
TXD9
I
TBI Transmit Data. In TBI mode, TX_ER is
used as TXD9.
TXD[9:0] are synchronous to GTX_CLK.
TX_ER should be tied low if not used (e.g.,
RTBI mode).
C1
2
7
RX_CLK/
RCLK0
O, Z
TBI 62.5 MHz Receive Clock- odd code
group. In the TBI mode, RX_CLK is used
as RCLK0.
C5
A2
A1
C4
B3
C3
D3
B2
86
87
89
90
91
93
92
95
120
121
123
124
125
126
128
3
RXD[7]
RXD[6]
RXD[5]
RXD[4]
RXD[3]
RXD[2]
RXD[1]
RXD[0]
O, Z
TBI Receive Data code group [7:0]. In the
TBI mode, RXD[7:0] present the data byte to
be transmitted to the MAC. Symbols
received on the cable are decoded and presented on RXD[7:0].
B1
94
4
RX_DV/
RXD8
O, Z
RXD[7:0] are synchronous to RCLK0 and
RCLK1.
TBI Receive Data code group bit 8. In the
TBI mode, RX_DV is used as RXD8.
RXD[9:0] are synchronous to RCLK0 and
RCLK1.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 15
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 3:
TBI Interface (Continued)
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P Pin Name
Pin #
Pin
Ty pe
Des cription
D2
8
O, Z
TBI Receive Data code group bit 9. In the
TBI mode, RX_ER is used as RXD9.
3
RX_ER/
RXD9
RXD[9:0] are synchronous to RCLK0 and
RCLK1.
B5
84
115
CRS/
COMMA
O, Z
TBI Valid Comma Detect. In the TBI mode,
CRS is used as COMMA.
B6
83
114
COL/LPBK
I
TBI Mode Loopback. In the TBI mode, COL
is used to indicate loopback on the TBI.
When a “0 - 1" transition is sampled on this
pin, bit 0.14 is set to 1.
When a “1 - 0" is sampled on this pin, bit
0.14 is reset to 0.
If this feature is not used, the COL pin
should be driven low on the board. This pin
should not be left floating in TBI mode.
Doc. No. MV-S105540-00, Rev. -Page 16
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
The RGMII interface supports 10/100/1000BASE-T and 1000BASE-X modes of operation.The RGMII interface
pins are also used for the RTBI interface. See Table 5 for RTBI pin definitions. The MAC interface pins are 3.3V
tolerant.
Table 4:
RGMII Interface
117-TFBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
E2
8
14
GTX_CLK/
TXC
I
RGMII Transmit Clock provides a 125 MHz,
25 MHz, or 2.5 MHz reference clock with ±
50 ppm tolerance depending on speed. In
RGMII mode, GTX_CLK is used as TXC.
H2
G3
G2
F1
16
14
12
11
24
20
19
18
TXD[3]/TD[3]
TXD[2]/TD[2]
TXD[1]/TD[1]
TXD[0]/TD[0]
I
RGMII Transmit Data. In RGMII mode,
TXD[3:0] are used as TD[3:0].
In RGMII mode, TXD[3:0] run at double data
rate with bits [3:0] presented on the rising
edge of GTX_CLK, and bits [7:4] presented
on the falling edge of GTX_CLK. In this
mode, TXD[7:4] are ignored.
In RGMII 10/100BASE-T modes, the transmit data nibble is presented on TXD[3:0] on
the rising edge of GTX_CLK.
E1
9
16
TX_EN/
TX_CTL
I
RGMII Transmit Control. In RGMII mode,
TX_EN is used as TX_CTL. TX_EN is presented on the rising edge of GTX_CLK.
A logical derivative of TX_EN and TX_ER is
presented on the falling edge of GTX_CLK.
C1
2
7
RX_CLK/
RXC
O, Z
RGMII Receive Clock provides a 125 MHz,
25 MHz, or 2.5 MHz reference clock with ±
50 ppm tolerance derived from the received
data stream depending on speed. In RGMII
mode, RX_CLK is used as RXC.
B1
94
4
RX_DV/
RX_CTL
O, Z
RGMII Receive Control. In RGMII mode,
RX_DV is used as RX_CTL. RX_DV is presented on the rising edge of RX_CLK.
A logical derivative of RX_DV and RX_ER is
presented on the falling edge of RX_CLK.
B3
C3
D3
B2
91
93
92
95
125
126
128
3
RXD[3]/RD[3]
RXD[2]/RD[2]
RXD[1]/RD[1]
RXD[0]/RD[0]
O, Z
RGMII Receive Data. In RGMII mode,
RXD[3:0] are used as RD[3:0]. In RGMII
mode, RXD[3:0] run at double data rate with
bits [3:0] presented on the rising edge of
RX_CLK, and bits [7:4] presented on the falling edge of RX_CLK. In this mode, RXD[7:4]
are ignored.
In RGMII 10/100BASE-T modes, the receive
data nibble is presented on RXD[3:0] on the
rising edge of RX_CLK.
RXD[3:0] are synchronous to RX_CLK.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 17
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
The RTBI interface supports 1000BASE-T mode of operation. The RTBI interface uses the same pins as the
RGMII interface. The MAC interface pins are 3.3V tolerant.
Table 5:
RTBI Interface
117-TFBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
E2
8
14
GTX_CLK/
TXC
I
RGMII Transmit Clock provides a 125 MHz
reference clock with ± 50 ppm tolerance. In
RTBI mode, GTX_CLK is used as TXC.
H2
G3
G2
F1
16
14
12
11
24
20
19
18
TXD[3]/TD[3]
TXD[2]/TD[2]
TXD[1]/TD[1]
TXD[0]/TD[0]
I
RTBI Transmit Data.
In RTBI mode, TXD[3:0] are used as
TD[3:0]. TD[3:0] run at double data rate with
bits [3:0] presented on the rising edge of
GTX_CLK, and bits [8:5] presented on the
falling edge of GTX_CLK. In this mode,
TXD[7:4] are ignored.
E1
9
16
TX_EN/
TD4_TD9
I
RTBI Transmit Data.
In RTBI mode, TX_EN is used as TD4_TD9.
TD4_TD9 runs at a double data rate with bit
4 presented on the rising edge of GTX_CLK,
and bit 9 presented on the falling edge of
GTX_CLK.
C1
2
7
RX_CLK/
RXC
O, Z
RTBI Receive Clock provides a 125 MHz reference clock with ± 50 ppm tolerance
derived from the received data stream. In
RTBI mode, RX_CLK is used as RXC.
B3
C3
D3
B2
91
93
92
95
125
126
128
3
RXD[3]/RD[3]
RXD[2]/RD[2]
RXD[1]/RD[1]
RXD[0]/RD[0]
O, Z
RTBI Receive Data.
In RTBI mode, RXD[3:0] are used as
RD[3:0]. RD[3:0] runs at double data rate
with bits [3:0] presented on the rising edge of
RX_CLK, and bits [8:5] presented on the falling edge of RX_CLK. In this mode, RXD[7:4]
are ignored.
B1
94
4
RX_DV/
RD4_RD9
O, Z
RTBI Receive Data.
In RTBI mode, RX_DV is used as
RD4_RD9. RD4_RD9 runs at a double data
rate with bit 4 presented on the rising edge
of RX_CLK, and bit 9 presented on the falling edge of RX_CLK.
Doc. No. MV-S105540-00, Rev. -Page 18
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 6:
SGMII Interface
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
A3
A4
113
112
I
SGMII Transmit Data. 1.25 GBaud input Positive and Negative.
82
81
S_IN+
S_IN-
Input impedance on the S_IN± pins may be
programmed for 50 ohm or 75 ohm impedance by setting register 26.6. The input
impedance default setting is determined by
the 75/50 OHM configuration pin.
A5
A6
79
80
110
109
S_CLK+
S_CLK-
I/O
SGMII 625 MHz Receive Clock.
For Serial Interface modes
(HWCFG_MODE[3:0] = 1x00) the S_CLK±
pins become Signal Detect± (SD±) inputs.
A7
A8
77
75
107
105
S_OUT+
S_OUT-
O, Z
SGMII Receive Data. 1.25 GBaud output Positive and Negative.
Output impedance on the S_OUT± pins may
be programmed for 50 ohm or 75 ohm
impedance by setting register 26.5. Output
amplitude can be adjusted via register
26.2:0. The output impedance default setting
is determined by the 75/50 OHM configuration pin.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 19
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 7:
1.25 GHz Serial High Speed Interface
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
A3
A4
113
112
I
1.25 GHz input - Positive and Negative.
When this interface is used as a MAC interface, the MAC transmitter’s positive output
connects to the S_IN+. The MAC transmitter’s negative output connects to the S_IN-.
82
81
S_IN+
S_IN-
When this interface is used as a fiber interface, the fiber-optic transceiver’s positive
output connects to the S_IN+. The fiber-optic
transceiver’s negative output connects to the
S_IN-.
Input impedance on the S_IN± pins may be
programmed for 50 ohm or 75 ohm impedance by setting register 26.6. The input
impedance default setting is determined by
the 75/50 OHM configuration pin.
A5
A6
79
80
110
109
S_CLK+/SD+
S_CLK-/SD-
I
Signal Detect input.
For Serial Interface modes the S_CLK± pins
become Signal Detect± (SD±) inputs.
A7
A8
77
75
107
105
S_OUT+
S_OUT-
O, Z
1.25 GHz output − Positive and Negative.
When this interface is used as a MAC interface, S_OUT+ connects to the MAC
receiver’s positive input. S_OUT- connects
to the MAC receiver’s negative input.
When this interface is used as a fiber interface, S_OUT+ connects to the fiber-optic
transceiver’s positive input. S_OUT- connects to the fiber-optic transceiver’s negative
input.
Output impedance on the S_OUT± pins may
be programmed for 50 ohm or 75 ohm
impedance by setting register 26.5. Output
amplitude can be adjusted via register
26.2:0. The output impedance default setting
is determined by the 75/50 OHM configuration pin.
B3
91
125
RXD[3]
O, Z
Serial MAC interface Copper Link Status[1]
connection.
1 = Copper link up
0 = Copper link down
Doc. No. MV-S105540-00, Rev. -Page 20
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 7:
1.25 GHz Serial High Speed Interface (Continued)
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
C3
93
126
RXD[2]
O, Z
Serial MAC interface Copper Link Status[0]
connection.
1 = Copper link down
0 = Copper link up
D3
92
128
RXD[1]
O, Z
Serial MAC interface PHY_SIGDET[1] connection.
1 = S_OUT± valid code groups according to
clause 36.
0 = S_OUT± invalid
B2
95
3
RXD[0]
O, Z
Serial MAC interface PHY_SIGDET[0] connection.
1 = S_OUT± invalid
0 = S_OUT± valid code groups according to
clause 36
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 21
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 8:
Management Interface and Interrupt
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
L3
25
35
MDC
I
3.3V
Tolerant
MDC is the management data clock reference for the serial management interface. A
continuous clock stream is not expected.
The maximum frequency supported is 8.3
MHz.
M1
24
33
MDIO
I/O
3.3V
Tolerant
MDIO is the management data. MDIO
transfers management data in and out of the
device synchronously to MDC. This pin
requires a pull-up resistor in a range from
1.5 kohm to 10 kohm.
L1
23
32
INTn
D
The polarity of the INTn pin may be programmed at hardware reset by setting the
INT_POL bit.
Polarity:
0 = Active High
1 = Active Low
Table 9:
Two-Wire Serial Interface
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
L3
25
35
MDC/SCL
I
Two-Wire Serial Interface (TWSI) serial
clock line. When the 88E1111 device is connected to the bus, MDC connects to the
serial clock line (SCL).
Data is input on the rising edge of SCL, and
output on the falling edge.
M1
24
33
MDIO/SDA
I/O
TWSI serial data line. When the 88E1111
device is connected to the bus, MDIO connects to the serial data line (SDA). This pin is
open-drain and may be wire-ORed with any
number of open-drain devices.
Doc. No. MV-S105540-00, Rev. -Page 22
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 10:
LED Interface
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
C8
100
O, mA
Parallel LED output for 10BASE-T link or
speed. This active low LED pin may be programmed in direct drive or combined LED
modes by programming register LED_LINK
Control register 24.4:3.
76
LED_LINK10
In direct drive LED mode, this pin indicates
10 Mbps link up or down.
In combined LED mode, the output from
LED_LINK10, LED_LINK100, and
LED_LINK1000 must be read together to
determine link and speed status.
LED_LINK10 is a multi-function pin used to
configure the 88E1111 device at the deassertion of hardware reset.
B8
74
99
LED_LINK100
O, mA
Parallel LED output for 100BASE-TX link or
speed. This active low LED pin may be programmed in direct drive or combined LED
modes by programming register LED_LINK
Control register 24.4:3.
In direct drive LED mode, this pin indicates
100 Mbps link up or down.
In combined LED mode, the output from
LED_LINK10, LED_LINK100, and
LED_LINK1000 must be read together to
determine link and speed status.
LED_LINK100 is a multi-function pin used to
configure the 88E1111 device at the deassertion of hardware reset.
A9
73
98
LED_LINK1000
O, mA
Parallel LED output for 1000BASE-T link/
speed or link indicator. This active low LED
pin may be programmed in direct drive or
combined LED modes by programming register LED_LINK Control register 24.4:3.
In direct drive LED mode, this pin indicates
1000 Mbps link up or down.
In combined LED mode, the output from
LED_LINK1000 indicates link status.
LED_LINK1000 is a multi-function pin used
to configure the 88E1111 device at the deassertion of hardware reset.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 23
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 10:
LED Interface (Continued)
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
E8
95
O, mA
Parallel LED duplex or duplex/collision
modes. The LED_DUPLEX pin may be programmed to Mode 1 or Mode 2 by setting
register bit 24.2.
70
LED_DUPLEX
Mode 1
Low = Full-duplex
High = Half-duplex
Blink = Collision
Mode 2
Low = Full-duplex
High = Half-duplex
Mode 3
Low = Fiber Link up
High = Fiber Link down
LED_DUPLEX is a multi-function pin used to
configure the 88E1111 device at the deassertion of hardware reset.
Doc. No. MV-S105540-00, Rev. -Page 24
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 10:
LED Interface (Continued)
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
C9
92
O, mA
Parallel LED Receive Activity or Receive
Activity/Link modes. LED_RX may be programmed to Mode 1 or Mode 2 by setting
register bit 24.1.
69
LED_RX
Mode 1
Low = Receiving
High = Not receiving
Mode 2
Low = Link up
High = Link down
Blink = Receiving
LED_RX is a multi-function pin used to configure the 88E1111 device at the de-assertion of hardware reset.
D9
68
91
LED_TX
O, mA
Parallel LED Transmit Activity or RX/TX
Activity/Link modes. LED_TX may be programmed to Mode 1 or Mode 2 by setting
register bit 24.0.
Mode 1
Low = Transmitting
High = Not transmitting
Mode 2
Low = Link up
High = Link down
Blink = Transmitting or receiving
LED_TX is a multi-function pin used to configure the 88E1111 device at the de-assertion of hardware reset.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 25
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 11:
JTAG Interface
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P Pin Type
Pin #
Pin
Nam e
Des cription
L7
44
67
TDI
I, PU
Boundary scan test data input.
TDI contains an internal 150 kohm pull-up
resistor.
L8
46
69
TMS
I, PU
Boundary scan test mode select input.
TMS contains an internal 150 kohm pull-up
resistor.
L9
49
70
TCK
I, PU
Boundary scan test clock input.
TCK contains an internal 150 kohm pull-up
resistor.
M9
47
68
TRSTn
I, PU
Boundary scan test reset input. Active low.
TRSTn contains an internal 150 kohm pullup resistor as per the 1149.1 specification.
After power up, the JTAG state machine
should be reset by applying a low signal on
this pin, or by keeping TMS high and applying 5 TCK pulses, or by pulling this pin low
by a 4.7 kohm resistor.
K8
50
72
TDO
O, Z
Boundary scan test data output.
Doc. No. MV-S105540-00, Rev. -Page 26
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 12:
Clock/Configuration/Reset/I/O
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
K2
22
31
125CLK
O
Clock 125. A generic 125 MHz clock reference generated for use on the MAC device.
This output can be disabled via DIS_125
through the CONFIG[3] pin.
D8
65
88
CONFIG[0]
I
CONFIG[0] pin configures PHY_ADR[2:0]
bits of the physical address.
Each LED pin is hardwired to a constant
value. The values associated to the CONFIG[0] pin are latched at the de-assertion of
hardware reset.
CONFIG[0] pin must be tied to one of the
pins based on the configuration options
selected. They should not be left floating.
For the Two-Wire Serial Interface (TWSI)
device address, the lower 5 bits, which are
PHYADR[4:0], are latched during hardware
reset, and the device address bits [6:5] are
fixed at ‘10’.
E9
64
87
CONFIG[1]
I
CONFIG[1] pin configures PHY_ADR[4:3]
and ENA_PAUSE options.
Each LED pin is hardwired to a constant
value. The values associated to the CONFIG[1] pin are latched at the de-assertion of
hardware reset.
CONFIG[1] pin must be tied to one of the
pins based on the configuration options
selected. They should not be left floating.
For the TWSI device address, the lower 5
bits, which are PHYADR[4:0], are latched
during hardware reset, and the device
address bits [6:5] are fixed at ‘10’.
F8
63
86
CONFIG[2]
I
CONFIG[2] pin configures ANEG[3:1] bits.
Each LED pin is hardwired to a constant
value. The values associated to the CONFIG[2] pin are latched at the de-assertion of
hardware reset.
CONFIG[2] pin must be tied to one of the
pins based on the configuration options
selected. They should not be left floating.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 27
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 12:
Clock/Configuration/Reset/I/O (Continued)
11 7- TF BGA 96-BC C
Pin #
Pin #
128-PQFP Pin Name
Pi n #
Pin
Typ e
Desc ription
G7
82
I
CONFIG[3] pin configures ANEG[0],
ENA_XC, and DIS_125 options.
61
CONFIG[3]
Each LED pin is hardwired to a constant
value. The values associated to the CONFIG[3] pin are latched at the de-assertion of
hardware reset.
CONFIG[3] pin must be tied to one of the
pins based on the configuration options
selected. They should not be left floating.
F9
60
81
CONFIG[4]
I
CONFIG[4] pin configures
HWCFG_MODE[2:0] options.
G9
59
80
CONFIG[5]
I
CONFIG[5] pin configures DIS_FC,
DIS_SLEEP, and HWCFG_MODE[3]
options.
G8
58
79
CONFIG[6]
I
CONFIG[6] pin configures SEL_TWSI,
INT_POL, and 75/50 OHM options.
H8
56
77
SEL_FREQ
H9
55
76
XTAL1
I
Reference Clock. 25 MHz ± 50 ppm or 125
MHz ± 50 ppm oscillator input. PLL clocks
are not recommended.
J9
54
75
XTAL2
0
Reference Clock. 25 MHz ± 50 ppm tolerance crystal reference. When the XTAL2 pin
is not connected, it should be left floating.
There is no option for a 125 MHz crystal.
See “Crystal Oscillator” Application Note for
details.
Frequency Selection for XTAL1 input
NC = Selects 25 MHz clock input.
Tied low = Selects 125 MHz clock input.
Internally divided to 25 MHz. SEL_FREQ is
internally pulled up.
Doc. No. MV-S105540-00, Rev. -Page 28
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 12:
Clock/Configuration/Reset/I/O (Continued)
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
K3
28
36
RESETn
I
Hardware reset. Active low. XTAL1 must be
active for a minimum of 10 clock cycles
before the rising edge of RESETn. RESETn
must be pulled high for normal operation.
L4
27
37
COMA
I
COMA disables all active circuitry to draw
absolute minimum power. The COMA power
mode can be activated by asserting high on
the COMA pin. To deactivate the COMA
power mode, tie the COMA pin low. Upon
deactivating COMA mode, the 88E1111
device will continue normal operation.
The COMA power mode cannot be enabled
as long as hardware reset is enabled.
In COMA mode, the PHY cannot wake up on
its own by detecting activity on the CAT 5
cable.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 29
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 13:
Test
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
M5
M6
53
54
Analog
PD
Test pins. These pins should be left floating
but brought out for probing.
Table 14:
37
38
HSDAC+
HSDAC-
Control and Reference
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
M2
39
Analog
I
Constant voltage reference. External 5.0
kohm 1% resistor connection to VSS
required for each pin.
30
RSET
Doc. No. MV-S105540-00, Rev. -Page 30
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
Pin Description
Table 15:
Power & Ground
117-T FBGA 9 6-BCC
Pin #
Pin #
12 8-PQF P Pin Name
Pin #
Pin
Type
De scrip tio n
B7
M3
M4
M7
M8
N5
32
35
36
40
45
78
44
49
52
59
64
104
AVDD
Power
Analog Power. 2.5V.
C6
C7
D7
E3
E7
F3
J3
J7
1
6
10
15
57
62
67
71
85
2
6
12
17
23
27
78
85
90
96
117
118
DVDD
Power
Digital Power. 1.0V (Instead of 1.0V, 1.2V
can be used).
B9
F7
J8
52
66
72
73
89
97
VDDOH
Power
2.5V Power Supply for LED and CONFIG
pins.
K9
L2
26
48
34
71
VDDOX
Power
2.5V Supply for the MDC/MDIO, INTn,
125CLK, RESETn, JTAG pin Power.
B4
C2
K1
5
21
88
96
5
11
30
122
VDDO
Power
2.5V I/O supply for the MAC interface pins.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 31
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Table 15:
Power & Ground (Continued)
117-T FBGA 96 -BCC
Pi n #
Pin #
128 -PQF P P i n N a m e
Pin #
Pin
Ty pe
Des cription
D4
D5
D6
E4
E5
E6
F4
F5
F6
G4
G5
G6
H4
H5
H6
J4
J5
J6
K4
K5
K6
L5
L6
0
1
9
15
21
22
38
40
43
45
48
51
55
58
60
63
65
66
83
84
93
94
101
102
103
106
108
111
116
119
127
VSS
GND
Global ground
H7
53
74
VSSC
GND
Ground reference for XTAL1 and XTAL2
pins. This pin must be connected to the
ground.
G1
K7
13
51
50
NC
NC
No connect. Do not connect these pins to
anything
Doc. No. MV-S105540-00, Rev. -Page 32
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
I/O State at Various Test or Reset Modes
1.5 I/O State at Various Test or Reset Modes
P in ( s )
I so l a t e
L o o pb a c k
or Normal
o p e r a ti o n
S o ftw a r e
Reset
Hardware
Reset
Power Down
Coma
Power
D ow n a n d
I s o la t e
MDI[3:0]±
Active
Active
Tri-state
Tri-state
Tri-state
Tri-state
Tri-state
TX_CLK
Tri-state
Active
Reg. 16.3
state
0 = Low
1 = Active
Low
Reg. 16.3 state
0 = Low
1 = Active
Reg. 16.3
state
0 = Low
0 = Static but
can be either
high or low
Tri-state
RXD[0],
RXD[2]
Tri-state
Active
High
High
High
High
Tri-state
RXD[7:3,1],
RX_DV,
RX_ER,
CRS
Tri-state
Active
Low
Low
Low
Low
Tri-state
COL
Tri-state
TBI mode input
else -active
Tri-state
Tri-state
TBI mode input
else - low
TBI mode input
else - low
Tri-state
RX_CLK
Tri-state
Active
Reg. 16.3
state
0 = Low
1 = Active
Low
Reg. 16.3 state
0 = Low
1 = Active
Reg. 16.3
state
0 = Low
0 = Static but
can be either
high or low
Tri-state
S_CLK±
S_OUT±
Active
Active
Tri-state
Tri-state
Reg. 16.3 state
0 = Tri-state
1 = Active
Tri-state
Active
MDIO
Active
Active
Active
Tri-state
Active
Tri-state
Active
INT
Active
Active
Tri-state
Tri-state
Tri-state
Tri-state
Tri-state
LED_***
Active
Active
High
High
High
High
High
TDO
Tri-state
Tri-state
Tri-state
Tri-state
Tri-state
Active
Tri-state
125CLK
Reg. 16.4
state
0 = Toggle
1 = Low
Reg. 16.4
state
0 = Toggle
1 = Low
Reg. 16.4
state
0 = Toggle
1 = Low
Toggle
Reg. 16.4 state
0 = Toggle
1 = Low
Reg. 16.3
state
0 = Static but
can be either
high or low
0 = Low
Reg. 16.4
state
0 = Toggle
1 = Low
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 33
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
1.6 117-Pin TFBGA Pin Assignment List - Alphabetical by
Signal Name
Pin #
Pin Name
Pin #
Pin Name
K2
125CLK
A9
LED_LINK1000
B7
AVDD
C9
LED_RX
M3
AVDD
D9
LED_TX
M4
AVDD
L3
MDC
M7
AVDD
N2
MDI[0]-
M8
AVDD
N1
MDI[0]+
N5
AVDD
N4
MDI[1]-
B6
COL
N3
MDI[1]+
L4
COMA
N7
MDI[2]-
D8
CONFIG[0]
N6
MDI[2]+
E9
CONFIG[1]
N9
MDI[3]-
F8
CONFIG[2]
N8
MDI[3]+
G7
CONFIG[3]
M1
MDIO
F9
CONFIG[4]
G1
NC
G9
CONFIG[5]
K7
NC
G8
CONFIG[6]
K3
RESETn
B5
CRS
M2
RSET
C6
DVDD
B2
RXD0
C7
DVDD
D3
RXD1
D7
DVDD
C3
RXD2
E3
DVDD
B3
RXD3
E7
DVDD
C4
RXD4
F3
DVDD
A1
RXD5
J3
DVDD
A2
RXD6
J7
DVDD
C5
RXD7
E2
GTX_CLK
C1
RX_CLK
M6
HSDAC-
B1
RX_DV
M5
HSDAC+
D2
RX_ER
L1
INTn
A6
S_CLK-
E8
LED_DUPLEX
A5
S_CLK+
C8
LED_LINK10
A4
S_IN-
B8
LED_LINK100
A3
S_IN+
Doc. No. MV-S105540-00, Rev. -Page 34
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
117-Pin TFBGA Pin Assignment List - Alphabetical by Signal Name
1.6 117-Pin TFBGA Pin Assignment List - Alphabetical by
Signal Name (Continued)
Pin #
Pin Name
Pin #
Pin Name
A8
S_OUT-
D4
VSS
A7
S_OUT+
D5
VSS
H8
SEL_FREQ
D6
VSS
L9
TCK
E4
VSS
L7
TDI
E5
VSS
K8
TDO
E6
VSS
L8
TMS
F4
VSS
M9
TRSTn
F5
VSS
F1
TXD0
F6
VSS
G2
TXD1
G4
VSS
G3
TXD2
G5
VSS
H2
TXD3
G6
VSS
H1
TXD4
H4
VSS
H3
TXD5
H5
VSS
J1
TXD6
H6
VSS
J2
TXD7
J4
VSS
D1
TX_CLK
J5
VSS
E1
TX_EN
J6
VSS
F2
TX_ER
K4
VSS
B4
VDDO
K5
VSS
C2
VDDO
K6
VSS
K1
VDDO
L5
VSS
B9
VDDOH
L6
VSS
F7
VDDOH
H7
VSSC
J8
VDDOH
H9
XTAL1
K9
VDDOX
J9
XTAL2
L2
VDDOX
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 35
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
1.7 96-Pin BCC Pin Assignment List - Alphabetical by
Signal Name
Pin #
Pin Name
Pin #
Pin Name
22
125CLK
74
LED_LINK100
32
AVDD
73
LED_LINK1000
35
AVDD
69
LED_RX
36
AVDD
68
LED_TX
40
AVDD
25
MDC
45
AVDD
31
MDI[0]-
78
AVDD
29
MDI[0]+
83
COL
34
MDI[1]-
27
COMA
33
MDI[1]+
65
CONFIG[0]
41
MDI[2]-
64
CONFIG[1]
39
MDI[2]+
63
CONFIG[2]
43
MDI[3]-
61
CONFIG[3]
42
MDI[3]+
60
CONFIG[4]
24
MDIO
59
CONFIG[5]
13
NC
58
CONFIG[6]
51
NC
84
CRS
28
RESETn
1
DVDD
30
RSET
6
DVDD
95
RXD0
10
DVDD
92
RXD1
15
DVDD
93
RXD2
57
DVDD
91
RXD3
62
DVDD
90
RXD4
67
DVDD
89
RXD5
71
DVDD
87
RXD6
85
DVDD
86
RXD7
8
GTX_CLK
2
RX_CLK
38
HSDAC-
94
RX_DV
37
HSDAC+
3
RX_ER
23
INTn
80
S_CLK-
70
LED_DUPLEX
79
S_CLK+
76
LED_LINK10
81
S_IN-
Doc. No. MV-S105540-00, Rev. -Page 36
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
96-Pin BCC Pin Assignment List - Alphabetical by Signal Name
1.7 96-Pin BCC Pin Assignment List - Alphabetical by
Signal Name (Continued)
Pin #
Pin Name
Pi n #
Pi n Name
82
S_IN+
4
TX_CLK
75
S_OUT-
9
TX_EN
77
S_OUT+
7
TX_ER
56
SEL_FREQ
5
VDDO
49
TCK
21
VDDO
44
TDI
88
VDDO
50
TDO
96
VDDO
46
TMS
52
VDDOH
47
TRSTn
66
VDDOH
11
TXD0
72
VDDOH
12
TXD1
26
VDDOX
14
TXD2
48
VDDOX
16
TXD3
0
VSS
17
TXD4
53
VSSC
18
TXD5
55
XTAL1
19
TXD6
54
XTAL2
20
TXD7
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 37
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
1.8 128-Pin PQFP Pin Assignment List - Alphabetical by
Signal Name
Pin #
Pin Name
Pin #
Pin Name
31
125CLK
32
INTn
44
AVDD
95
LED_DUPLEX
49
AVDD
100
LED_LINK10
52
AVDD
99
LED_LINK100
59
AVDD
98
LED_LINK1000
64
AVDD
92
LED_RX
104
AVDD
91
LED_TX
114
COL
35
MDC
37
COMA
41
MDI[0]+
88
CONFIG[0]
42
MDI[0]-
87
CONFIG[1]
46
MDI[1]+
86
CONFIG[2]
47
MDI[1]-
82
CONFIG[3]
56
MDI[2]+
81
CONFIG[4]
57
MDI[2]-
80
CONFIG[5]
61
MDI[3]+
79
CONFIG[6]
62
MDI[3]-
115
CRS
33
MDIO
2
DVDD
50
NC
6
DVDD
36
RESETn
12
DVDD
39
RSET
17
DVDD
7
RX_CLK
23
DVDD
4
RX_DV
27
DVDD
8
RX_ER
78
DVDD
3
RXD0
85
DVDD
128
RXD1
90
DVDD
126
RXD2
96
DVDD
125
RXD3
117
DVDD
124
RXD4
118
DVDD
123
RXD5
14
GTX_CLK
121
RXD6
53
HSDAC+
120
RXD7
54
HSDAC-
110
S_CLK+
Doc. No. MV-S105540-00, Rev. -Page 38
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Signal Description
128-Pin PQFP Pin Assignment List - Alphabetical by Signal Name
1.8 128-Pin PQFP Pin Assignment List - Alphabetical by
Signal Name (Continued)
Pin #
Pin Name
Pin #
Pin Name
109
S_CLK-
9
VSS
113
S_IN+
15
VSS
112
S_IN-
21
VSS
107
S_OUT+
22
VSS
105
S_OUT-
38
VSS
77
SEL_FREQ
40
VSS
70
TCK
43
VSS
67
TDI
45
VSS
72
TDO
48
VSS
69
TMS
51
VSS
68
TRSTn
55
VSS
10
TX_CLK
58
VSS
16
TX_EN
60
VSS
13
TX_ER
63
VSS
18
TXD0
65
VSS
19
TXD1
66
VSS
20
TXD2
83
VSS
24
TXD3
84
VSS
25
TXD4
93
VSS
26
TXD5
94
VSS
28
TXD6
101
VSS
29
TXD7
102
VSS
5
VDDO
103
VSS
11
VDDO
106
VSS
30
VDDO
108
VSS
122
VDDO
111
VSS
73
VDDOH
116
VSS
89
VDDOH
119
VSS
97
VDDOH
127
VSS
34
VDDOX
74
VSSC
71
VDDOX
76
XTAL1
1
VSS
75
XTAL2
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 39
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Section 2. Package Mechanical Dimensions
2.1 117-pin TFBGA Package
(All dimensions in mm.)
Doc. No. MV-S105540-00, Rev. -Page 40
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Package Mechanical Dimensions
117-pin TFBGA Package
Table 16:
117-Pin TFBGA Package Dimensions
Dim ens io ns i n mm
Sy mbol
MIN
NOM
MAX
A
--
--
1.54
A1
0.40
0.50
0.60
A2
0.84
0.89
0.94
c
0.32
0.36
0.40
D
9.90
10.00
10.10
E
13.90
14.00
14.10
D1
--
8.00
--
E1
--
12.00
--
e
--
1.00
--
b
0.50
0.60
0.70
aaa
0.20
bbb
0.25
ccc
0.35
ddd
0.15
MD/ME
NOTE:
1. CONTROLLING DIMENSION: MILLIMETER.
2. PRIMARY DATUM C AND SEATING PLANE ARE DEFINED BY THE
SPHERICAL CROWNS OF THE SOLDER BALLS.
3. DIMENSION b IS MEASURED AT THE MAXIMUM SOLDER BALL
DIAMETER, PARALLEL TO PRIMARY DATUM C.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 41
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
2.2 96-pin BCC Package - Top View
PIN 1 CORNER
9.00±0.10
Z X Y
0.08 M
0.30±0.05
C0.2
74
75
95
96
X
1
73
3
71
23
51
24
50
0.400±0.05
Z X Y
0.15
49
47
TOP VIEW
0.670±0.025
Y
27
9.00±0.10
DETAIL "A" (1X)
25
0.08 M
0.075±0.025
Z
0.80 MAX
0.20
0.05
Doc. No. MV-S105540-00, Rev. -Page 42
Z
Z
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Package Mechanical Dimensions
96-Pin BCC Package - Bottom View
2.3 96-Pin BCC Package - Bottom View
4.100
3.50
''A''
(PIN 1 CORNER)
0.60±0.10
0.600 TYP.
7.00
7.200
3.50
Z X Y
0.08
M
0.40±0.05
"B"
4.100
CL.(PKG.)
0.2
0.2
0.600 TYP.
CL.(PKG.)
7.20
8.20
9.00
5.800
0.60±0.10
4.800
0.30±0.05
0.08
M
Z X Y
8.20
9.00
DETAIL "B" (95X)
BOTTOM VIEW
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 43
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
2.4 128-Pin PQFP Package
23.20
± 0.20
20.00
± 0.10
102
65
103
64
14.00
± 0.10
17.20
PIN1
INDICATOR
128
± 0.20
39
1
38
1.6 Nominal
3.40 Max
0.25
min
0.22
± 0.05
0.88
± 0.15
0.5 Basic
Doc. No. MV-S105540-00, Rev. -Page 44
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Order Information
Ordering Part Numbers and Package Markings
Section 3. Order Information
3.1 Ordering Part Numbers and Package Markings
Figure 5 shows the ordering part numbering scheme for the 88E1111 devices. Contact Marvell® FAEs or sales
representatives for complete ordering information.
Figure 5: Sample Part Number
88E1111 – xx – xxx – Cxxx - xxxx
Custom Code (optional)
Part Number
88E1111
Cus t om Code
Custom Code
Temperature Range
C = Commercial
I = Industrial
Package Code
Environmental
BAB = 117-pin TFBGA
CAA = 96-pin BCC
RCJ - 128-pin PQFP
“-” = RoHS 5/6 compliant package
1 = RoHS 6/6 compliant package
Table 17:
88E1111 Part Order Options - RoHS 5/6 Compliant Package
Pack ag e Typ e
Part Or der Nu mb er
88E1111 117-pin TFBGA - Commercial
88E1111-XX-BAB-C000
88E1111 117-pin TFBGA - Industrial
88E1111-XX-BAB-I000
88E1111 96-pin BCC - Commercial
88E1111-XX-CAA-C000
88E1111 96-pin BCC - Industrial
88E1111-XX-CAA-I000
88E1111 128-pin PQFP - Commercial
88E1111-XX-RCJ-C000
Table 18:
88E1111 Part Order Options - RoHS 6/6 Compliant Package
Pack ag e Typ e
Pa rt Ord er Nu mbe r
88E1111 117-pin TFBGA - Commercial
88E1111-XX-BAB1C000
88E1111 117-pin TFBGA - Industrial
88E1111-XX-BAB1I000
88E1111 96-pin BCC - Commercial
88E1111-XX-CAA1C000
88E1111 96-pin BCC - Industrial
88E1111-XX-CAA1I000
88E1111 128-pin PQFP - Commercial
88E1111-XX-RCJ1C000
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 45
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
3.1.1 RoHS 5/6 Compliant Marking Examples
Figure 6 is an example of the package marking and pin 1 location for the 88E1111 117-pin TFBGA commercial
RoHS 5/6 compliant package.
Figure 6: 88E1111 117-pin TFBGA Commercial RoHS 5/6 Compliant Package Marking and Pin
1 Location
Logo
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
88E1111-BAB
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Figure 7 is an example of the package marking and pin 1 location for the 88E1111 117-pin TFBGA Industrial RoHS
5/6 compliant package.
Figure 7: 88E1111 117-pin TFBGA Industrial RoHS 5/6 Compliant Package Marking and Pin 1
Location
L o go
88E1111-BAB
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
I
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Industrial Grade Package Marking
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Doc. No. MV-S105540-00, Rev. -Page 46
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Order Information
Ordering Part Numbers and Package Markings
Figure 8 is an example of the package marking and pin 1 location for the 88E1111 96-pin BCC Commercial RoHS
5/6 compliant package.
Figure 8: 88E1111 96-pin BCC Commercial RoHS 5/6 Compliant Package Marking and Pin 1
Location
L o go
88E1111-CAA
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
Lot Number
YYWW xx@
Country
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Figure 9 is an example of the package marking and pin 1 location for the 88E1111 96-pin BCC Industrial RoHS 5/
6 compliant package.
Figure 9: 88E1111 96-pin BCC Industrial RoHS 5/6 Compliant Package Marking and Pin 1 Location
Logo
88E1111-CAA
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
I
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Industrial Grade Package Marking
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 47
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Figure 10 is an example of the package marking and pin 1 location for the 88E1111 128-pin PQFP Commercial
RoHS 5/6 compliant package.
Figure 10: 88E1111 128-pin PQFP Commercial RoHS 5/6 Compliant Package Marking and Pin 1
Location
L o go
88E1111-RCJ
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Doc. No. MV-S105540-00, Rev. -Page 48
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Order Information
Ordering Part Numbers and Package Markings
3.1.2 RoHS 6/6 Compliant Marking Examples
Figure 11 is an example of the package marking and pin 1 location for the 88E1111 117-pin TFBGA commercial
RoHS 6/6 compliant package.
Figure 11: 88E1111 117-pin TFBGA Commercial RoHS 6/6 Compliant Package Marking and Pin
1 Location
Logo
88E1111-BAB1
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
Lot Number
YYWW xx@
Country
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Figure 12 is an example of the package marking and pin 1 location for the 88E1111 117-pin TFBGA industrial
RoHS 6/6 compliant package.
Figure 12: 88E1111 117-pin TFBGA Industrial RoHS 6/6 Compliant Package Marking and Pin 1
Location
Logo
88E1111-BAB1
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
I
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Industrial Grade Package Marking
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 49
88E1111 Product Brief
Integrated 10/100/1000 Ultra Gigabit Ethernet Transceiver
Figure 13 is an example of the package marking and pin 1 location for the 88E1111 96-pin BCC Commercial
RoHS 6/6 compliant package.
Figure 13: 88E1111 96-pin BCC Commercial RoHS 6/6 Compliant Package Marking and Pin 1
Location
L o go
88E1111-CAA1
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
Lot Number
YYWW xx@
Country
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Figure 14 is an example of the package marking and pin 1 location for the 88E1111 96-pin BCC Industrial RoHS 6/
6 compliant package.
Figure 14: 88E1111 96-pin BCC Industrial RoHS 6/6 Compliant Package Marking and Pin 1 Location
L o go
88E1111-CAA1
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
I
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Industrial Grade Package Marking
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Doc. No. MV-S105540-00, Rev. -Page 50
Copyright © 2009 Marvell
Document Classification: Proprietary Information
March 4, 2009, Advance
Order Information
Ordering Part Numbers and Package Markings
Figure 15 is an example of the package marking and pin 1 location for the 88E1111 128-pin PQFP Commercial
RoHS 6/6 compliant package.
Figure 15: 88E1111 128-pin PQFP Commercial RoHS 6/6 Compliant Package Marking and Pin 1
Location
Logo
88E1111-RCJ1
Country of origin
(Contained in the mold ID or
marked as the last line on
the package.)
Lot Number
YYWW xx@
Country
Part number, package code, environmental code
Environmental Code - No code = RoHS 5/6
1 = RoHS 6/6
Date code, custom code, assembly plant code
YYWW
xx
= Date code
= Custom code
@ = Assembly location code
Pin 1 location
Note: The above example is not drawn to scale. Location of markings is approximate.
Copyright © 2009 Marvell
March 4, 2009, Advance
Doc. No. MV-S105540-00, Rev. -Document Classification: Proprietary Information
Page 51
Back Cover
Marvell Semiconductor, Inc.
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Santa Clara, CA 95054, USA
Tel: 1.408.222.2500
Fax: 1.408.752.9028
www.marvell.com
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