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Highlights
• Optimized for the highest performance applica-
tions
• Efficient architecture with low CPU overhead
• Easily interfaces to most 32-bit and 16-bit embed-
ded CPU’s
• Integrated PHY with HP Auto-MDIX support
• Supports audio & video streaming over Ethernet:
multiple high-definition (HD) MPEG2 streams
Target Applications
• Video distribution systems, multi-room PVR
• Cable, satellite, and IP set-top boxes
• Digital video recorders and DVD recorder/players
• Digital TV
• Digital media clients/servers and home gateways
• Video-over IP solutions, IP PBX & video phones
• Wireless routers & access points
• High-end audio distribution systems
Key Benefits
• Non-PCI Ethernet controller for the highest perfor-
mance applications
- Highest performing non-PCI Ethernet
controller
- 32-bit interface with fast bus cycle times
- Burst-mode read support
• Eliminates dropped packets
- Internal buffer memory can store over 200
packets
- Automatic PAUSE and back-pressure flow
control
• Minimizes CPU overhead
- Supports Slave-DMA
- Interrupt Pin with Programmable Hold-off
timer
• Reduces system cost and increases design flexi-
bility
• SRAM-like interface easily interfaces to most
embedded CPU’s or SoC’s
• Reduced Power Modes
- Numerous power management modes
- Wake on LAN
- Magic packet wakeup
- Wakeup indicator event signal
- Link Status Change
• Single chip Ethernet controller
- Fully compliant with IEEE 802.3/802.3u stan-
dards
- Integrated Ethernet MAC and PHY
- 10BASE-T and 100BASE-TX support
- Full- and Half-duplex support
- Full-duplex flow control
- Backpressure for half-duplex flow control
- Preamble generation and removal
- Automatic 32-bit CRC generation and
checking
- Automatic payload padding and pad removal
- Loop-back modes
• Flexible address filtering modes
- One 48-bit perfect address
- 64 hash-filtered multicast addresses
- Pass all multicast
- Promiscuous mode
- Inverse filtering
- Pass all incoming with status report
- Disable reception of broadcast packets
• Integrated 10/100 Ethernet PHY
- Supports HP Auto-MDIX
- Auto-negotiation
- Supports energy-detect power down
• Host bus interface
- Simple, SRAM-like interface
- 32 or 16-bit data bus
- 16Kbyte FIFO with flexible TX/RX allocation
- One configurable host interrupt
• Miscellaneous features
- Low-profile 100-pin TQFP, RoHS Compliant
package
- Integrated 1.8V regulator
- General Purpose Timer
- Optional EEPROM interface
- Support for 3 status LEDs multiplexed with
Programmable GPIO signals
• Single 3.3V Power Supply with 5V tolerant
I/O
• 0
C to +70C Commercial Temperature Support
LAN9218
High-Performance Single-Chip 10/100 Ethernet Controller
with HP Auto-MDIX Support
LAN9218
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2006-2017 Microchip Technology Inc.
TO OUR VALUED CUSTOMERS
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LAN9218
Table of Contents
1.0 General Description ........................................................................................................................................................................ 4
2.0 Pin Description and Configuration .................................................................................................................................................. 8
3.0 Functional Description .................................................................................................................................................................. 15
4.0 Internal Ethernet PHY ................................................................................................................................................................... 47
5.0 Register Description ...................................................................................................................................................................... 56
6.0 Timing Diagrams ......................................................................................................................................................................... 102
7.0 Operational Characteristics ......................................................................................................................................................... 113
8.0 Package Information ................................................................................................................................................................... 120
Appendix A: Data Sheet Revision History ......................................................................................................................................... 121
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1.0
GENERAL DESCRIPTION
The LAN9218 is a full-featured, single-chip 10/100 Ethernet controller designed for embedded applications where per-
formance, flexibility, ease of integration and system cost control are required. The LAN9218 has been specifically archi-
tected to provide the highest performance possible for any given architecture. The LAN9218 is fully IEEE 802.3
10BASE-T and 802.3u 100BASE-TX compliant, and supports HP Auto-MDIX.
The LAN9218 includes an integrated Ethernet MAC and PHY with a high-performance SRAM-like slave interface. The
simple, yet highly functional host bus interface provides a glue-less connection to most common 16-bit and 32-bit micro-
processors and microcontrollers . The LAN9218 includes large transmit and receive data FIFOs with a high-speed host
bus interface to accommodate high bandwidth, high latency applications. In addition, the LAN9218 memory buffer archi-
tecture allows highly efficient use of memory resources by optimizing packet granularity.
Applications
The LAN9218 is well suited for many high performance embedded applications, including:
• High-end cable, satellite and IP set-top boxes
• Video distribution systems
• Multi-room PVR (Personal Video Recorder)
• Digital video recorders
• High-definition televisions
• Digital media clients/servers
• Home gateways
The LAN9218 also supports features which reduce or eliminate packet loss. Its internal 16-KByte SRAM can hold over
200 received packets. If the receive FIFO gets too full, the LAN9218 can automatically generate flow control packets to
the remote node, or assert back-pressure on the remote node by generating network collisions.
The LAN9218 supports numerous power management and wakeup features. The LAN9218 can be placed in a reduced
power mode and can be programmed to issue an external wake signal via several methods, including “Magic Packet”,
“Wake on LAN” and “Link Status Change”. This signal is ideal for triggering system power-up using remote Ethernet
wakeup events. The device can be removed from the low power state via a host processor command.
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LAN9218
1.1
Block Diagram
.
The Microchip LAN9218 integrated 10/100 MAC/PHY controller is a peripheral chip that performs the function of trans-
lating parallel data from a host controller into Ethernet packets. The LAN9218 Ethernet MAC/PHY controller is designed
and optimized to function in an embedded environment. All communication is performed with programmed I/O transac-
tions using the simple SRAM-like host interface bus.
The diagram shown above, describes a typical system configuration of the LAN9218 in a typical embedded environ-
ment.
The LAN9218 is a general purpose, platform independent, Ethernet controller. The LAN9218 consists of four major func-
tional blocks. The four blocks are:
• 10/100 Ethernet PHY
• 10/100 Ethernet MAC
• RX/TX FIFOs
• Host Bus Interface (HBI)
FIGURE 1-1:
SYSTEM BLOCK DIAGRAM
Microprocessor/
Microcontroller
LAN9218
Magnetics
Ethernet
System
Peripherals
System Memory
EEPROM
(Optional)
LEDS/
GPIO
25MHz
XTAL
System Bus
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1.2
Compatibility with First-generation LAN9118 Family Devices
The LAN9218 is driver-, register-, and footprint-compatible with previous generation LAN9118 Family devices. Drivers
written for these products will work with the LAN9218. However, in order to support HP Auto-MDIX, other components
such as the magnetics and the passive components around the magnetics need to change, and supporting these
changes does require a minor PCB change. A reference design for the LAN9218 will be available on Microchip’s web-
site.
1.3
Internal Block Overview
This section provides an overview of each of these functional blocks as shown in Figure 1-2, "Internal Block Diagram".
FIGURE 1-2:
INTERNAL BLOCK DIAGRAM
1.4
10/100 Ethernet PHY
The LAN9218 integrates an IEEE 802.3 physical layer for twisted pair Ethernet applications. The PHY can be configured
for either 100 Mbps (100BASE-TX) or 10 Mbps (10BASE-T) Ethernet operation in either full or half duplex configura-
tions. The PHY block supports HP Auto-MDIX and auto-negotiation.
Minimal external components are required for the utilization of the Integrated PHY.
1.5
10/100 Ethernet MAC
The transmit and receive data paths are separate within the MAC allowing the highest performance especially in full
duplex mode. The data paths connect to the PIO interface Function via separate busses to increase performance. Pay-
load data as well as transmit and receive status is passed on these busses.
A third internal bus is used to access the MAC’s Control and Status Registers (CSR’s). This bus is accessible from the
host through the PIO interface function.
On the backend, the MAC interfaces with the internal 10/100 PHY through a MII (Media Independent Interface) port
internal to the LAN9218. The MAC CSR's also provide a mechanism for accessing the PHY’s internal registers through
the internal SMI (Serial Management Interface) bus.
The MAC Interface Layer (MIL), within the MAC, contains a 2K Byte transmit and a 128 Byte receive FIFO which is sep-
arate from the TX and RX FIFOs. The FIFOs within the MAC are not directly accessible from the host interface. The
differentiation between the TX/RX FIFO memory buffers and the MAC buffers is that when the transmit or receive pack-
10/100
Ethernet
PHY
10/100
Ethernet
MAC
2kB to 14kB
Configurable TX FIFO
2kB to 14kB
Configurable RX FIFO
Interrupt
Controller
GP
Timer
PIO
Controller
3.3V to 1.8V
Core Regulator
25MHz
+3.3V
EEPRO
M
Controller
EEPROM
(Optional )
RX Status FIFO
TX Status FIFO
MIL - TX Elastic
Buffer - 2K bytes
MIL - RX Elastic
Buffer - 128 bytes
Power
Management
IRQ
FIFO _SEL
PME
Wakup Indicator
Host Bus Interface
(HBI)
SRAM I/F
LAN
PLL
+3.3V
3.3V to 1.8V
PLL Regulator
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LAN9218
ets are in the MAC buffers, the host no longer can control or access the TX or RX data. The MAC buffers (both TX and
RX) are in effect the working buffers of the Ethernet MAC logic. In the case of reception, the data must be moved first
to the RX FIFOs for the host to access the data. For TX operations, the MIL operates in store-and-forward mode and
will queue an entire frame before beginning transmission.
1.6
Receive and Transmit FIFOs
The Receive and Transmit FIFOs allow increased packet buffer storage to the MAC. The FIFOs are a conduit between
the host interface and the MAC through which all transmitted and received data and status information is passed. Deep
FIFOs allow a high degree of latency tolerance relative to the various transport and OS software stacks thus reducing
or minimizing overrun conditions. Like the MAC, the FIFOs have separate receive and transmit data paths. In addition,
the RX and TX FIFOs are configurable in size, allowing increased flexibility.
1.7
Interrupt Controller
The LAN9218 supports a single programmable interrupt. The programmable nature of this interrupt allows the user the
ability to optimize performance dependent upon the application requirement. Both the polarity and buffer type of the
interrupt pin are configurable for the external interrupt processing. The interrupt line can be configured as an open-drain
output to facilitate the sharing of interrupts with other devices. In addition, a programmable interrupt de-assertion interval
is provided.
1.8
GPIO Interface
A 3-bit GPIO and 2-bit GPO (Multiplexed on the EEPROM and LED Pins) interface is included in the LAN9218. It is
accessible through the host bus interface via the CSRs. The GPIO signals can function as inputs, push-pull outputs and
open drain outputs. The GPIO’s (GPO’s are not configurable) can also be configured to trigger interrupts with program-
mable polarity.
1.9
Serial EEPROM Interface
A serial EEPROM interface is included in the LAN9218. The serial EEPROM is optional and can be programmed with
the LAN9218 MAC address. The LAN9218 can optionally load the MAC address automatically after power-on reset,
hardware reset, or soft reset.
1.10
Power Management Controls
The LAN9218 supports comprehensive array of power management modes to allow use in power sensitive applications.
Wake on LAN, Link Status Change and Magic Packet detection are supported by the LAN9218. An external PME (Power
Management Event) interrupt is provided to indicate detection of a wakeup event.
1.11
General Purpose Timer
The general-purpose timer has no dedicated function within the LAN9218 and may be programmed to issue a timed
interrupt.
1.12
Host Bus Interface (SRAM Interface)
The host bus interface provides a FIFO interface for the transmit and receive data paths, as well as an interface for the
LAN9218 Control and Status Registers (CSR’s).
The host bus interface is the primary bus for connection to the embedded host system. This interface models an asyn-
chronous SRAM. TX FIFO, RX FIFO, and CSR’s are accessed through this interface. Programmed I/O transactions are
supported.
The LAN9218 host bus interface supports 32-bit and 16-bit bus transfers. Internally, all data paths are 32-bits wide. The
LAN9218 can be interfaced to either Big-Endian or Little-Endian processors.
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2.0
PIN DESCRIPTION AND CONFIGURATION
FIGURE 2-1:
PIN CONFIGURATION (TOP VIEW)
**DENOTES A MULTIFUNCTON PIN
NOTE 1: When HP Auto -MDIX is activated , the TPO+/- pins function as TPI +/- and vice -versa.
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
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
G
ND_
CO
R
E
VREG
V
DD_
CO
R
E
V
SS_
P
L
L
XT
A
L
2
XT
A
L
1
VDD
_
PL
L
VD
D
_
R
E
F
A
T
EST
RB
IA
S
V
SS_
R
E
F
A7
A6
A5
A4
A3
A2
A1
GN
D
_
IO
VD
D
_
IO
D3
1
D3
0
D2
9
D2
8
D2
7
PD
S
PEED
_
S
EL
AM
DI
X
_
E
N
IR
Q
NC
PM
E
EE
C
L
K
**
EE
C
S
EE
D
IO
**
G
N
D_
C
O
RE
VDD
_
C
O
RE
D0
D1
D2
VDD
_
IO
GN
D
_
IO
D3
D4
D5
D6
VDD
_
IO
GN
D
_
IO
D7
D8
D9
D10
D11
VDD_IO
GND_IO
D12
D13
D14
D15
VDD_IO
GND_IO
D16
D17
D18
D19
D20
VDD_IO
GND_IO
D21
D22
D23
D24
D25
VDD_IO
GND_IO
D26
FIFO_SEL
VSS_A
(Note 1) TPO-
(Note 1) TPO+
VSS_A
VDD_A
(Note 1) TPI -
(Note 1) TPI+
NC
VDD_A
VSS_A
EXRES1
VSS_A
VDD_A
NC
NC
nRD
nWR
nCS
nRESET
GND_IO
VDD_IO
GPIO0/nLED1**
GPIO1/nLED2**
GPIO2/nLED3**
LAN9218
100 PIN TQFP
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LAN9218
2.1
Pin List
TABLE 2-1:
HOST BUS INTERFACE SIGNALS
Name
Symbol
Buffer
Type
#
Pins
Description
Host Data High
D[31:16]
I/O8
(PD)
16
Bi-directional data port.
Note that Pull-downs are disabled in 32 bit mode.
Host Data Low
D[15:0]
I/O8
16
Bi-directional data port.
Host Address
A[7:1]
IS
7
7-bit Address Port. Used to select Internal CSR’s and
TX and RX FIFOs.
Read Strobe
nRD
IS
1
Active low strobe to indicate a read cycle.
Write Strobe
nWR
IS
1
Active low strobe to indicate a write cycle. This signal,
qualified with nCS, is also used to wakeup the
LAN9218 when it is in a reduced power state.
Chip Select
nCS
IS
1
Active low signal used to qualify read and write
operations. This signal qualified with nWR is also used
to wakeup the LAN9218 when it is in a reduced power
state.
Interrupt
Request
IRQ
O8/OD8
1
Programmable Interrupt request. Programmable
polarity, source and buffer types.
FIFO Select
FIFO_SEL
IS
1
When driven high all accesses to the LAN9218 are to
the RX or TX Data FIFOs. In this mode, the A[7:3]
upper address inputs are ignored.
TABLE 2-2:
DEFAULT ETHERNET SETTINGS
Default Ethernet Settings
SPEED_SEL
Speed
Duplex
Auto Neg.
0
10Mbps
Half-Duplex
Disabled
1
100Mbps
Half-Duplex
Enabled
TABLE 2-3:
LAN INTERFACE SIGNALS
Name
Symbol
Buffer
Type
# Pins
Description
TPO+
TPO+
AO
1
Transmit Positive Output (normal)
Receive Positive Input (reversed)
TPO-
TPO-
AO
1
Transmit Negative Output (normal)
Receive Negative Input (reversed)
TPI+
TPI+
AI
1
Receive Positive Input (normal)
Transmit Positive Input (reversed)
TPI-
TPI-
AI
1
Receive Negative Input (normal)
Transmit Negative Output (reversed)
PHY External Bias
Resistor
EXRES1
AI
1
Must be connected to ground through a 12.4K
ohm 1% resistor.
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Note:
The pin names for the twisted pair pins shown above apply to a normal connection. If HP Auto-MDIX is
enabled and a reverse connection is detected, or a reverse connection is manually selected, the input pins
become outputs, and vice-versa, as indicated in the descriptions.
TABLE 2-4:
SERIAL EEPROM INTERFACE SIGNALS
Name
Symbol
Buffer
Type
# Pins
Description
EEPROM Data,
GPO3, TX_EN,
TX_CLK,
D32/nD16
EEDIO/GPO3/
TX_EN/TX_CLK
(D32/nD16
)
I/O8 1
EEPROM Data: This bi-directional pin can be
connected to a serial EEPROM DIO. This is
optional.
General Purpose Output 3: This pin can also
function as a general purpose output, or it can
be configured to monitor the TX_EN or
TX_CLK signals on the internal MII port. When
configured as a GPO signal, or as a
TX_EN/TX_CLK monitor, the EECS pin is
deasserted so as to never unintentionally
access the serial EEPROM. This signal cannot
function as a general-purpose input.
Data Bus Width Select: This signal also
functions as a configuration input on power-up
and is used to select the host bus data width.
Upon deassertion of reset, the value of the
input is latched. When high, a 32-bit data bus
is utilized. When low, a 16-bit interface is
utilized.
EEPROM Chip
Select
EECS
O8
1
Serial EEPROM chip select.
EEPROM Clock,
GPO4 RX_DV,
RX_CLK
EECLK/GPO4/
RX_DV/RX_CLK
O8 1
EEPROM Clock: Serial EEPROM Clock pin.
General Purpose Output 4: This pin can also
function as a general-purpose output, or it can
be configured to monitor the RX_DV or
RX_CLK signals on the internal MII port. When
configured as a GPO signal, or as an
RX_DV/RX_CLK monitor, the EECS pin is
deasserted so as to never unintentionally
access the serial EEPROM. This signal cannot
function as a general-purpose input.
Note:
When the EEPROM interface is not
used, the EECLK pin must be left
unconnected.