ASIX AX88141

ASIX
AX88141
Fast Ethernet MAC Controller
ASIX AX88141
100BASE-TX/FX PCI Bus
Fast Ethernet MAC Controller
with Power management
Data Sheet (4/11/’ 98)
Always contact ASIX for possible updates
before starting a design.
DOCUMENT NO. : AX141-01.DOC
This data sheets contain new products information. ASIX ELECTRONICS reserves the rights to modify the products
specification without notice. No liability is assumed as a result of the use of this product. No rights under any patent
accompany the sale of the product.
ASIX ELECTRONICS CORPORATION
2F, NO.13, Industry East Rd. II, Science-based Industrial Park, Hsin-Chu City, Taiwan, R.O.C.
TEL: 886-3-579-9500
FAX: 886-3-579-9558
http:/www.asix.com.tw
CONFIDENTIAL
AX88141
PRELIMINARY
CONTENTS
1.0 INTRODUCTION .......................................................................................................................................... 6
1.1 GENERAL DESCRIPTION: ................................................................................................................................ 6
1.2 FEATURES ..................................................................................................................................................... 7
1.3 BLOCK DIAGRAM:.......................................................................................................................................... 8
1.4 AX88141 PIN CONNECTION DIAGRAM ........................................................................................................... 9
2.0 SIGNAL DESCRIPTION............................................................................................................................. 10
2.1 SIGNAL DESCRIPTIONS ................................................................................................................................. 10
2.2 PCI INTERFACE GROUP................................................................................................................................. 10
2.3 BOOT ROM , SERIAL ROM , GENERAL-PURPOSE SIGNALS GROUP .................................................................. 11
2.4 MII INTERFACE SIGNALS GROUP ................................................................................................................... 12
2.5 POWER PINS GROUP ...................................................................................................................................... 13
3.0 CONFIGURATION OPERATION ............................................................................................................. 14
3.1 CONFIGURATION SPACE MAPPING ................................................................................................................ 14
3.2 CONFIGURATION SPACE ............................................................................................................................... 15
3.2.1 Configuration ID Register (CSID)....................................................................................................... 15
3.2.2 Command and Status Configuration Register (CSCS)........................................................................... 15
3.2.3 Configuration Revision Register (CSRV)............................................................................................. 15
3.2.4 Configuration Latency Timer Register (CSLT) .................................................................................... 15
3.2.5 Configuration Base I/O Address Register (CBIO) ............................................................................... 16
3.2.6 Configuration Base Memory Address Register (CBMA) ...................................................................... 16
3.2.7 Expansion ROM Base Address Register (CBER) ................................................................................. 16
3.2.8 Configuration Interrupt Register (CSIT).............................................................................................. 16
3.2.9 Special Use Register (SUD) ................................................................................................................ 16
3.2.10 Subsystem ID and Subsystem Vendor Register (SSID) ....................................................................... 16
3.2.11 New Capabilities Pointer (CNCP) ..................................................................................................... 17
3.2.12 Power Management register block (Offset 44H to 49H)...................................................................... 17
4.0 REGISTERS OPERATION......................................................................................................................... 18
4.1 REGISTERS MAPPING ................................................................................................................................... 18
4.2 HOST REGS ................................................................................................................................................ 19
4.2.1 Bus Mode Register (REG0) .................................................................................................................. 19
4.2.2 Magic Packet Password Low (REG0B)................................................................................................ 19
4.2.3 Transmit Poll Demand (REG1) ........................................................................................................... 19
4.2.4 Magic Packet Password High (REG1B) .............................................................................................. 19
4.2.5 Receive Poll Demand (REG2) ............................................................................................................. 20
4.2.6 Receive List Base Address (REG3)...................................................................................................... 20
4.2.7 Transmit List Base Address (REG4) .................................................................................................... 20
4.2.8 Status Register (REG5) ....................................................................................................................... 21
4.2.9 Operation Mode Register (REG6) ....................................................................................................... 22
4.2.10 Interrupt Enable Register (REG7)..................................................................................................... 24
4.2.11 Missed Frame and Overflow Counter (REG8) .................................................................................. 24
4.2.12 Serial ROM and MII Management Register (REG9).......................................................................... 25
4.2.13 General -Purpose Timer (REG11) ..................................................................................................... 25
4.2.14 General -Purpose Port Register (REG12).......................................................................................... 26
4.2.15 Filtering Index (REG13) ................................................................................................................... 26
4.2.16 Filtering data (REG14) ..................................................................................................................... 26
5.0 HOST COMMUNICATION........................................................................................................................ 28
5.1 DESCRIPTOR LISTS AND DATA BUFFERS ........................................................................................................ 28
5.2 RECEIVE DESCRIPTORS ................................................................................................................................ 29
5.2.1 Receive Descriptor 0 (RDES0)............................................................................................................. 29
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5.2.2 Receive Descriptor 1 (RDES1)............................................................................................................. 30
5.2.3 Receive Descriptor 2 (RDES2)............................................................................................................. 30
5.2.4 Receive Descriptor 3 (RDES3)............................................................................................................. 30
5.3 TRANSMIT DESCRIPTORS.............................................................................................................................. 31
5.3.1 Transmit Descriptor 0 (TDES0)............................................................................................................ 31
5.3.2 Transmit Descriptor 1 (TDES1)............................................................................................................ 32
5.3.3 Transmit Descriptor 2 (TDES2)............................................................................................................ 32
5.3.4 Transmit Descriptor 3 (TDES3)............................................................................................................ 32
6.0 ELECTRICAL SPECIFICATION AND TIMINGS .................................................................................. 33
6.1 ABSOLUTE MAXIMUM RATINGS .................................................................................................................... 33
6.2 GENERAL OPERATION CONDITIONS .............................................................................................................. 33
6.3 DC CHARACTERISTICS................................................................................................................................. 33
6.4 A.C. TIMING CHARACTERISTICS................................................................................................................... 34
6.4.1 PCI CLOCK......................................................................................................................................... 34
6.4.2 PCI Timings......................................................................................................................................... 34
6.4.3 Reset Timing........................................................................................................................................ 34
6.4.4 MII Timing........................................................................................................................................... 35
6.4.5 Boot ROM Read Cycles ....................................................................................................................... 36
7.0 PACKAGE INFORMATION ...................................................................................................................... 37
APPENDIX A
H/W NOTE ....................................................................................................................... 38
A.1 BOOT ROM READ CYCLE ............................................................................................................................ 38
A.2 POWER SUPPLY ........................................................................................................................................... 39
A.3 BOUNDARY SCAN TEST PINS ....................................................................................................................... 39
APPENDIX B
FUNCTION APPLICATION........................................................................................... 40
B.1 APPLICATION FOR PCI INTERFACE ............................................................................................................... 40
B.2 APPLICATION FOR BOOT ROM INTERFACE ................................................................................................... 41
B.3 APPLICATION FOR SERIAL ROM INTERFACE ................................................................................................. 41
B.4 APPLICATIONS ............................................................................................................................................ 42
B.4.1 Application for NS DP83843 ............................................................................................................... 42
B.4.2 Application for LUCENT M-LU6612/M-3X51 ..................................................................................... 42
B.4.3 Application for TI XTNETE2101 ......................................................................................................... 43
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AX88141
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FIGURES
FIG - 1 AX88141 BLOCK DIAGRAM
..................................................................................................... 8
FIG - 2 AX88141 PIN CONNECTION DIAGRAM
...................................................................................... 9
FIG - 3 DESCRIPTOR STRUCTURE EXAMPLE
........................................................................................... 28
FIG - 4 RECEIVE DESCRIPTOR FORMAT
................................................................................................. 29
FIG - 5 TRANSMIT DESCRIPTOR FORMAT
............................................................................................... 31
FIG - 6 APPLICATION FOR LXT970
..................................................................................................... 42
FIG - 7 APPLICATION FOR MTD972 +MTD971
............................................................................... 43
FIG - 8 APPLICATION FOR DM9101
..................................................................................................... 43
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TABLES
TAB - 1 PCI INTERFACE GROUP .............................................................................................................................. 11
TAB - 2 BOOT ROM , SERIAL ROM , GENERAL-PURPOSE SIGNALS GROUP ............................................................... 12
TAB - 3 MII INTERFACE SIGNALS GROUP................................................................................................................. 12
TAB - 4 POWER PINS GROUP ................................................................................................................................... 13
TAB - 5 CONFIGURATION SPACE MAPPING.............................................................................................................. 14
TAB - 6 CSID CONFIGURATION ID REGISTER DESCRIPTION .................................................................................... 15
TAB - 7 CSCS COMMAND AND STATUS CONFIGURATION REGISTER ........................................................................ 15
TAB - 8 CSRV CONFIGURATION REVISION REGISTER DESCRIPTION......................................................................... 15
TAB - 9 CSLT CONFIGURATION ID REGISTER DESCRIPTION ................................................................................... 15
TAB - 10 CBIO CONFIGURATION BASE I/O ADDRESS REGISTER DESCRIPTION ......................................................... 16
TAB - 11 CBMA CONFIGURATION BASE MEMORY ADDRESS REGISTER DESCRIPTION .............................................. 16
TAB - 12 CBER EXPANSION ROM BASE ADDRESS REGISTER DESCRIPTION ............................................................ 16
TAB - 13 CSIT CONFIGURATION INTERRUPT REGISTER DESCRIPTION ...................................................................... 16
TAB - 14 CSIT CONFIGURATION INTERRUPT REGISTER DESCRIPTION ...................................................................... 16
TAB - 15 SSID CONFIGURATION ID REGISTER DESCRIPTION .................................................................................. 17
TAB - 16 CNCP CONFIGURATION ID REGISTER DESCRIPTION................................................................................. 17
TAB - 17 CSID CONFIGURATION ID REGISTER DESCRIPTION .................................................................................. 17
TAB - 18 COMMAND AND STATUS REGISTER MAPPING............................................................................................ 18
TAB - 19 REG0 BUS MODE REGISTER DESCRIPTION ............................................................................................... 19
TAB - 20 REG1 TRANSMIT POLL DEMAND REGISTER DESCRIPTION ........................................................................ 19
TAB - 21 REG1 TRANSMIT POLL DEMAND REGISTER DESCRIPTION ........................................................................ 19
TAB - 22 REG1 TRANSMIT POLL DEMAND REGISTER DESCRIPTION ........................................................................ 19
TAB - 23 REG2 RECEIVE POLL DEMAND REGISTER DESCRIPTION ........................................................................... 19
TAB - 24 REG3 RECEIVE LIST BASE ADDRESS REGISTER DESCRIPTION ................................................................... 20
TAB - 25 REG4 TRANSMIT LIST BASE ADDRESS REGISTER DESCRIPTION ................................................................ 20
TAB - 26 REG5 STATUS REGISTER DESCRIPTION.................................................................................................... 22
TAB - 27 REG6 OPERATION MODE REGISTER DESCRIPTION ................................................................................... 23
TAB - 28 PORT AND DATA RATE SELECTION........................................................................................................... 23
TAB - 29 REG7 INTERRUPT ENABLE REGISTER DESCRIPTION ................................................................................. 24
TAB - 30 REG8 MISSED FRAME AND OVERFLOW COUNTER DESCRIPTION ............................................................... 24
TAB - 31 REG9 SERIAL ROM, AND MII MANAGEMENT REGISTER DESCRIPTION .................................................... 25
TAB - 32 REG11 GENERAL -PURPOSE TIMER REGISTER DESCRIPTION ..................................................................... 26
TAB - 33 REG12 GENERAL -PURPOSE PORT REGISTER DESCRIPTION....................................................................... 26
TAB - 34 REG13 FILTERING INDEX REGISTER DESCRIPTION ................................................................................... 26
TAB - 35 REG14 FILTERING DATA REGISTER DESCRIPTION .................................................................................... 26
TAB - 36 DESCRIPTION OF FILTERING BUFFER ........................................................................................................ 26
TAB - 37 LAYOUT OF FILTERING BUFFER ................................................................................................................ 27
TAB - 38 RECEIVE DESCRIPTOR 0........................................................................................................................... 30
TAB - 39 RECEIVE DESCRIPTOR 1........................................................................................................................... 30
TAB - 40 RECEIVE DESCRIPTOR 2........................................................................................................................... 30
TAB - 41 RECEIVE DESCRIPTOR 3........................................................................................................................... 30
TAB - 42 TRANSMIT DESCRIPTOR 0 ........................................................................................................................ 32
TAB - 43 TRANSMIT DESCRIPTOR 1 ........................................................................................................................ 32
TAB - 44 TRANSMIT DESCRIPTOR 2 ........................................................................................................................ 32
TAB - 45 TRANSMIT DESCRIPTOR 3 ........................................................................................................................ 32
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AX88141
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1.0 Introduction
1.1 General Description:
l
The AX88141 Fast Ethernet Controller is a high performance and highly integrated PCI Bus Ethernet
Controller chip.
l
The AX88141 is cost effective, high performance solution for PCI add-in adapters, PC motherboards, or
bridge/hub applications.
l
It implements both 10Mbps and 100Mbps Ethernet function based on IEEE802.3u LAN standard.
l
The AX88141 contains a high speed 32 bit PCI Bus master interface to host CPU. Two large
independent transmit and receive FIFO allow the AX88141 to buffer the Ethernet packet efficiently.
l
The AX88141 support 10Mbps/100Mbps media-independent interface (MII) to simplify the design.
l
The AX88141 is compliant with the Network Device Class Power Management and the Communication
Device Class Power Management requirements under the OnNow Architecture for PC 97 and PC 98.
l
The AX88141 is compliant with the Advanced Configuration and Power Interface (ACPI) Specification
and the PCI Bus Power Management Interface Specification.
l
The AX88141 provide both PHY level or MAC level power management function.
l
The AX88141 provide magic packet algorithm with password to support ACPI function.
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AX88141
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1.2 Features
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
Single chip PCI bus Fast Ethernet Controller.
Direct interface to PCI bus.
Support both 10Mbps and 100Mbps data rate.
Full or Half duplex operation supported for both10Mbps and 100Mbps operation.
Provides a MII port for both 10/100Mbps operation.
Support 20MHz to 33MHz no wait state PCI Bus Interface.
Two large Independent FIFO for transmit and receive. no additional On board buffer memory required.
Interface to serial ROM for Ethernet ID address and jumper-less board design.
64KB boot ROM support.
Support automatic loading of subvendor ID.
On chip general purpose, programmable register and I/O pins.
Unlimited PCI burst.
External and internal loop-back capability.
Support early interrupts on transmit.
Powerful on chip buffer management DMA. And PCI Bus master operation reduce CPU utilization.
Support network device OnNow requirements for PC 97 and PC 98.
Compliant with the ACPI specification and the PCI Bus Power Management Interface Specification.
Support Magic Packet technology.
Big and little endian byte ordering supported.
IEEE 802.3u 100BASE-T, TX, and T4 Compatible.
128 pin PQFP package.
5V CMOS process.
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1.3 Block Diagram:
SERIAL
ROM
Serial
ROM I/F
BOOT ROM
Interface
BOOT
ROM I/F
Receive FIFO
PCI
BUS
PCI
BUS
MAC
Buffer
Management
DMA Engine
10/100 MII
Interface
Controller
MII
Interface
Transmit FIFO
General Purpose REG
General purpose I/O pins
Fig - 1 AX88141 Block Diagram
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AX88141
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1.4 AX88141 Pin Connection Diagram
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
BR_A13
BR_A12
BR_A11
BR_A10
BR_A9
BR_A8
BR_A7
BR_A6
BR_A5
BR_A4
BR_A3
BR_A2
BR_A1
BR_A0
BR_D7
VSS
BR_D6
BR_D5
BR_D4
BR_D3
BR_D2
BR_D1
VDD
SR_DI
BR_CE#
SR_CS
SR_CK
VDD
VSS
SR_DO/BR_D0
AD_0
VSS
AD_1
AD_2
VDD
AD_3
AD_4
VSS
The AX88141 is housed in the 128-pin plastic quad flat pack. Fig - 2 shows the AX88141 pin
connection diagram.
AX88141
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
AD_5
AD_6
AD_7
C_BE#0
VSS
AD_8
AD_9
AD_10
VDD
AD_11
AD_12
VSS
AD_13
AD_14
AD_15
VSS
C_BE#1
PAR
SERR#
PERR#
VDD
STOP#
DEVSEL#
TRDY#
IRDY#
FRAME#
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
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
INT#
RST#
VDD
VSS
PCI_CLK
VSS
GNT#
REQ#
PME#
AD_31
AD_30
VSS
AD_29
AD_28
VSS
AD_27
AD_26
VDD
AD_25
AD_24
C_BE#3
IDSEL
VSS
AD_23
AD_22
AD_21
AD_20
VDD
AD_19
AD_18
VDD
VSS
AD_17
AD_16
VSS
PTEST
VSS
C_BE#2
BR_A14
BR_A15
GEP_0
GEP_1
MDIO
MDC
RXER
VDD
RXDV
VSS
COL
CRS
RXCLK
RXD_0
RXD_1
RXD_2
RXD_3
VDD
TXCLK
VSS
TXEN
TXD_0
TXD_1
VDD
TXD_2
TXD_3
Fig - 2 AX88141 Pin connection diagram
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2.0 Signal Description
2.1 Signal Descriptions
The following terms describe the AX88141 pin-out:
l Address phase
Address and appropriate bus commands are driven during this cycle.
l Data phase
Data and the appropriate byte enable codes are driven during this cycle.
l #
All pin names with the # suffix are asserted low.
The following abbreviations are used in Tab - 1 PCI interface group Tab - 2 Boot ROM , Serial ROM , Generalpurpose signals group ,Tab - 3 MII interface signals group ,Tab - 4 Power pins group..
I
O
I/O
O/D
Input
Output
Input /Output
Open Drain
2.2 PCI interface group
SIGNAL TYPE
PIN
NUMBER
DESCRIPTION
BUS COMMAND and BYTE ENABLE Are multiplexed on the same PCI pins. During the address
phase of the transaction, CBE#<3:0> Provide the BUS COMMAND. During the data phase,
CBE#<3:0> Provide the BYTE ENABLE. The BYTE ENABLE determines which byte lines carry
valid data., CBE#<0> Applies to byte 0, and CBE#<3> Applies to byte 3.
Device select Is asserted by the target of the current bus access. When the AX88141 is the master of the
current bus access, the target assert DEVSEL# confirming the access. It is driven by AX88141 When
AX88141 is selected as a slave.
The FRAME# Signal is driven by the AX88141 To indicate the beginning and duration of an access.
FRAME# Asserts to indicate the beginning of a bus transaction. While FRAME# is asserted, data
transfers continue. When FRAME# deasserts the next data phase is the final data phase transaction.
BUS GRANT Indicates to the AX88141 That access to the bus is granted.
CBE#<3>
CBE#<2>
CBE#<1>
CBE#<0>
DEVSEL#
I/O
I/O
21,
38,
48,
61
42
FRAME#
I/O
39
GNT#
I
7
IDSEL
I
22
INT#
O/D
1
IRDY#
I/O
40
PAR
I/O
47
Initialization devise select asserts To indicate that the host is issuing a configuration cycle to the
AX88141.
Interrupt request asserts When one of the appropriate bits of reg5 sets and causes an interrupt, provided
that the corresponding mask bit in reg7 is not asserted. interrupt request deasserts by writing a 1 into the
appropriate reg5 bit.
This pin must be pulled up by an external resistor.
Initiator ready Indicates the bus master ability to complete the current data phase of the transaction.
A data phase is completed on any rising edge of the clock When both IRDY# and target ready TRDY#
are asserted. Wait cycles are inserted until both IRDY# and TRDY# are asserted together.
When the AX88141 is the bus master, IRDY# is asserted during write operations to indicate that valid
data is present on the AD<31:0>. During read operations, the AX88141 asserts IRDY# to indicate that
it is ready to accept data.
Parity is an even parity bit for the AD<31:0> AD and CBE#<3:0>.
During address and data phases, parity is calculated on all the AD<31:0> AND CBE#<3:0>lines
whether or not any of these lines carry meaningful information.
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AD<31>
AD<30>
AD<29>
AD<28>
AD<27>
AD<26>
AD<25>
AD<24>
AD<23>
AD<22>
AD<21>
AD<20>
AD<19>
AD<18>
AD<17>
AD<16>
AD<15>
AD<14>
AD<13>
AD<12>
AD<11>
AD<10>
AD<9>
AD<8>
AD<7>
AD<6>
AD<5>
AD<4>
AD<3>
AD<2>
AD<1>
AD<0>
PCI_CLK
I/O
I
10,
11,
13,
14,
16,
17,
19,
20,
24,
25,
26,
27,
29,
30,
33,
34,
50,
51,
52,
54,
55,
57,
58,
59,
62,
63,
64,
66,
67,
69,
70,
72
5
PERR#
I/O
45
REQ#
RST#
O
I
8
2
SERR#
I/O
46
STOP#
I/O
43
TRDY#
I/O
41
O
9
PME#
Address and data bits are multiplexed on the same pins. During the address phase, the AD<31:0>
contain a physical address (32 bits). During, data phases, AD<31:0> contain 32 bits of data.
The AX88141 supports both read and write bursts (in master operation only). Little and big endian byte
ordering can be used.
The clock provides the timing for the AX88141 related PCI bus transactions. All the bus signals are
sampled on the rising edge of PCI_CLK. The clock frequency range is between 20MHZ and 33MHZ.
Parity error asserts when a data parity error is detected. When the AX88141 is the bus master it monitor
PERR# to see if the target report a data parity error., when the AX88141 is the bus target and a parity
error is detected, the AX88141 asserts PERR#. This pin must be pulled up by an external resistor.
Bus request is asserted by the AX88141 to indicate to the bus arbiter that it wants to use the bus.
Resets the AX88141 to its initial state. This signal must be asserted for at least 10 active PCI clock
cycles. When is the reset state, all PCI output pins are put into tri-state and all PCI o/d signals are
floated.
System Error is used by AX88141 to report address parity Error. This pin must be pulled up by an
external resistor.
Stop indicator indicates that the current target is requesting the bus master to stop the current transaction.
The AX88141 responds to the assertion of STOP# when it is the bus master, and stop the current
transaction.
Target ready indicates the target ability to complete the current data phase of the transaction.
A data phase is completed on any clock when both TRDY# and IRDY# are asserted. Wait cycles are
inserted until both IRDY# and TRDY# are asserted together. When the AX88141 is the bus master,
target ready is asserted by the bus slave on the read operation, indicating that valid data is present on the
ad lines. During a write cycle, it indicates that the target is prepared to accept data.
Tab - 1 PCI interface group
2.3 Boot ROM , Serial ROM , General-purpose signals group
SIGNAL
TYPE
PIN
NUMBER
DESCRIPTION
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AX88141
BR_A<15>
BR_A<14>
BR_A<13>
BR_A<12>
BR_A<11>
BR_A<10>
BR_A<9>
BR_A<8>
BR_A<7>
BR_A<6>
BR_A<5>
BR_A<4>
BR_A<3>
BR_A<2>
BR_A<1>
BR_A<0>
BR_D<7>
BR_D<6>
BR_D<5>
BR_D<4>
BR_D<3>
BR_D<2>
BR_D<1>
BR_D<0>/
SR_DO
BR_CE#
SR_CK
SR_CS
SR_DI
GENP<1>
GENP<0>
O
I
O
O
O
O
I/O
PRELIMINARY
104,
103,
102,
101,
100,
99,
98,
97,
96,
95,
94,
93,
92,
91,
90,
89
88,
86,
85,
84,
83,
82,
81,
73
78
76
77
79
106,
105
Boot ROM address lines bit 15 to bit 0.
Boot ROM data lines bit 7 to bit 0.
Serial ROM data-out signal.
Boot ROM chip enable.
Serial ROM clock signal.
Serial ROM chip-select signal.
Serial ROM data-in signal.
General-purpose pins can be used by software as either status pins or control pins. These pins can be
configured by software to perform either input or output functions.
Tab - 2 Boot ROM , Serial ROM , General-purpose signals group
2.4 MII interface signals group
SIGNAL
TYPE PIN
NUMBER
FOR 160 PIN
COL
I
113
CRS
RXDV
I
I
114
111
RXER
I
109
MDC
O
108
MDIO
I/O
107
RXCLK
I
115
RXD<3>
RXD<2>
RXD<1>
RXD<0>
TXCLK
I
119,
118,
117,
116
121
TXD<3>
TXD<2>
TXD<1>
TXD<0>
TXEN
O
I
O
128,
127,
125,
124
123
DESCRIPTION
Collision detected is asserted when detected by an external physical layer protocol(PHY)
device.
Carrier sense is asserted by the PHY when the media is active.
Data valid is asserted by an external PHY when receive data is present on the RXD lines
and is deasserted at the end of the packet. This signal should be synchronized with the
RXCLK signal.
Receive error asserts when a data decoding error is detected by an external PHY device.
This signal is synchronized to RXCLK and can be asserted for a minimum of one receive
clock. When asserted during a packet reception, it sets the cyclic redundancy check(CRC)
error bit in the receive descriptor (RDESO).
MII management data clock is sourced by the AX88141 to the PHY devices as a timing
reference for the transfer of information on the MII_MDIO signal.
MII management data input/output transfers control information and status between the
PHY and the AX88141.
Supports either the 25-MHZ or 2.5-MHZ receive clock. This clock is recovered by the
PHY.
Four parallel receive data lines When MII mode is selected. This data is driven by an
external PHY that attached the media and should be synchronized with the RXCLK signal.
Supports the 25-MHZ or 2.5-MHZ transmit clock supplied by the external physical layer
medium dependent (PMD) device. This clock should always be active.
Four parallel transmit data lines. This data is synchronized to the assertion of the TXCLK
signal and is latched by the external PHY on the rising edge of the TXCLK signal.
Transmit enable signals that the transmit is active to an external PHY device.
Tab - 3 MII interface signals group
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2.5 Power pins group
SIGNAL
TYPE
VDD
P
VSS
P
PIN
NUMBER
DESCRIPTION
3,18,28,31,44,56, 5-V supply input voltage.
68,75,80,110,120,
126
4,6,12,15,23,32, Ground pins.
35,37,49,53,60,
65,71,74,87,112,
122
Tab - 4 Power pins group
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3.0 Configuration Operation
1.
Software reset (REG0<0>) has no effect on the configuration registers.
2.
Hardware reset puts the configuration registers in default values.
3.
The configuration registers could be accessed in byte, word , and long-word.
3.1 Configuration Space Mapping
CONFIGURATION REGISTER
DEVICE/VENDOR ID
COMMAND AND STATUS
REVISION
LATENCY TIMER
BASE I/O ADDRESS
BASE MEMORY ADDRESS
RESERVED
SUBSYSTEM/SUBVENDOR ID
EXPANSION ROM BASE ADDRESS
NEW CAPABILITIES POINTER
RESERVED
INTERRUPT
SPECIAL USE
POWER MANAGEMENT
IDENTIFIER
I/O ADDRESS OFFSET
CSID
CSCS
CSRV
CSLT
CBIO
CBMA
SSID
CBER
CNCP
CSIT
SUD
CPMR
00H
04H
08H
0CH
10H
14H
18H-28H
2CH
30H
34H
38H
3CH
40H
44H - 49H
Tab - 5 Configuration Space Mapping
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3.2 Configuration Space
3.2.1 Configuration ID Register (CSID)
FIELD
R/W
31:16
R
15:0
R
DESCRIPTION
Device ID :
Provides the unique AX88141 ID number (1400H)
Vender ID :
Provides the manufacturer of the AX88141 (125BH)
Tab - 6 CSID Configuration ID Register Description
3.2.2 Command and Status Configuration Register (CSCS)
FIELD
R/W
TYPE
31
30
29
28
26:25
24
23
22:21
20
19-9
8
6
2
1
0
R
R
R
R
R
R
R
R
R/W
R/W
R/W
R/W
R/W
STATUS
STATUS
STATUS
STATUS
STATUS
STATUS
STATUS
RESERVED
STATUS
RESERVED
COMMAND
COMMAND
COMMAND
COMMAND
COMMAND
DESCRIPTION
Detected Parity Error : active high
Signal System Error : active high
Received Master Abort : active high
Received Target Abort : active high
Device Select Timing : fixed at 01 which indicates a medium assertion of DEVSEL#
Data Parity Report : active high
Fast Back-to-Back : always set
Cpapbility of Power Management : always set.
System Error Enable : active high
Parity Error Response : active high
Master Operation : active high
Memory Space Access : active high
I/O Space Access : Active high
Tab - 7 CSCS Command and Status Configuration Register
3.2.3 Configuration Revision Register (CSRV)
FIELD
R/W
31:24
23:16
7:4
3:0
R
R
R
R
DESCRIPTION
Base Class : Always equal to 2H that indicates the network controller
Subclass : Always equal to 0H that indicates the fast Ethernet controller
Revision Number : Indicates the AX88141 revision number and is equal to 1H
Step Number : Indicates the AX88141 step number and is referred to current silicon step.
Tab - 8 CSRV Configuration Revision Register Description
3.2.4 Configuration Latency Timer Register (CSLT)
FIELD
R/W
31:16
15:8
7:0
R/W
R/W
R/W
DESCRIPTION
Reserved
Configuration Latency Timer. The value after hardware reset equal to 0h.
Reserved
Tab - 9 CSLT Configuration ID Register Description
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3.2.5 Configuration Base I/O Address Register (CBIO)
FIELD
R/W
31:7
6:1
0
R/W
R
R
DESCRIPTION
Configuration Base I/O Address : Defines the address assignment mapping of AX88141‘s regs.
This field value is 0 when read
I/O Space Indicator : Determines that the register maps into the I/O space. The value in this field is 1.
Tab - 10 CBIO Configuration Base I/O Address Register Description
3.2.6 Configuration Base Memory Address Register (CBMA)
FIELD
31:7
6:1
0
R/W
R/W
R
R
DESCRIPTION
Configuration Base Memory Address : Defines the address assignment mapping of AX88141‘s regs.
This field value is 0 when read
Memory Space Indicator : Determines that the register maps into the memory space. The value in this field is 0.
Tab - 11 CBMA Configuration Base Memory Address Register Description
3.2.7 Expansion ROM Base Address Register (CBER)
FIELD
R/W
31:10
9:1
0
R/W
R
R/W
DESCRIPTION
Expansion ROM Base Address
This field value is 0 when read
Expansion ROM Enable Bit : Active high
Tab - 12 CBER Expansion ROM Base Address Register Description
3.2.8 Configuration Interrupt Register (CSIT)
FIELD
31:24
23:16
15:8
7:0
R/W
R
R
R
R/W
DESCRIPTION
MAX_LAT : time unit is equal to 0.25 microsecond.(28H)
MIN_GNT : Time unit is equal to 0.25 microsecond.(14H)
Interrupt Pin : The AX88141 uses INTA# and the read value is (01H).
Interrupt Line : The BIOS writes the routing information into this field.
Tab - 13 CSIT Configuration Interrupt Register Description
3.2.9 Special Use Register (SUD)
FIELD
R/W
31:30
29
28
27
26-25
24
R
R/W
R/W
R/W
R
R/W
23-16
15:8
7-0
R
R/W
R
DESCRIPTION
Reserved
Enable bit, when set to “1”, if GEP LINK pin has transition, PME# will active.
This bit will be “1” if GEP LINK pin has transitions.
This bit will be “1” if Magic Packet was detected.
Reserved
Password enable bit, when this bit is set to “1”, AX881401 will check the password from Magic Packet With the stored
password in REG 0B and REG 1B before asserting the Magic Packet detected bit (<3> of REG 43)
Reserved
Driver special Use
Reserved
Tab - 14 CSIT Configuration Interrupt Register Description
3.2.10 Subsystem ID and Subsystem Vendor Register (SSID)
FIELD
R/W
31:16
R
15:0
R
DESCRIPTION
Subdsystem ID :
Provides the subsystem ID which is loaded from EEPROM at hardware reset
Subsystem Vender ID :
Provides the subsystem vendor ID which is loaded from EEPROM at hardware reset.
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Tab - 15 SSID Configuration ID Register Description
3.2.11 New Capabilities Pointer (CNCP)
FIELD
R/W
7:0
R
DESCRIPTION
New Capabilities Pointer :
Point to Power management registers starting address, value is 44H
Tab - 16 CNCP Configuration ID Register Description
3.2.12 Power Management register block (Offset 44H to 49H)
OFFSET R/W
44H
45H
46H
47H
48-49H
DESCRIPTION
R
Capability ID :
The value is 01H to indicate power management block.
R Next item pointer :
The value is 00H to indicate this is the last block
R Power management capabilities, :
The value is 21H to indicate version 1.0 of PCI power management specification and need a device specific initialization
sequence following transition to the DO uninitialized state
R Power management capabilities :
The value is 48H to indicate PME# support from Do and D3 hot state.
R/W Power management status :
<15> : PME# status -Set when the function would normally assert the PME# signal independent of the state of the PME# pin enable
bit. Write a “1” to this bit will clear it and cause the function to stop asserting a PME# (if enabled). Write a “0” no
effect. When reset default is “0”.
<8> : PME# pin enable control bit -A “1” enable the function to assert PME#. Writing a “0” PME# assertion is disabled. When reset default is “0”
<1:0> : Power state -Only 00 (D0) and 11 (D3) supported
Tab - 17 CSID Configuration ID Register Description
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4.0 Registers Operation
1.
The REGs are quad-word aligned, 32-bits long, and must be accessed using long-word
instruction with quad-word aligned addresses only.
2.
Reserved bits should be written with 0.; Reserved bits are UNPREDICTABLE on read access.
3.
Retries on second data transactions occur in response to burst accesses.
4.1 Registers Mapping
REGISTER
REG0
REG0B
REG1
REG1B
REG2
REG3
REG4
REG5
REG6
REG7
REG8
REG9
REG10
REG11
REG12
REG13
REG14
REG14B
REG15
REG15B
MEANING
OFFSET FROM REG BASE ADDRESS
(CBIO,CBMA)
BUS MODE
MAGIC PACKET PASSWORD LOW <31:0>
TRANSMIT POLL DEMAND
MAGIC PACKET PASSWORD HIGH <47:32>
RECEIVE POLL DEMAND
RECEIVE LIST BASE ADDRESS
TRANSMIT LIST BASE ADDRESS
STATUS
OPERATION MODE
INTERRUPT ENABLE
MISSED FRAME AND OVERFLOW COUNTER
SERIAL ROM, AND MII MANAGEMENT
GENERAL-PURPOSE TIMER
GENERAL-PURPOSE PORT
FILTERING BUFFER INDEX
FILTERING BUFFER DATA
RESERVED
RESERVED
RESERVED
00H
04H
08H
0CH
10H
18H
20H
28H
30H
38H
40H
48H
50H
58H
60H
68H
70H
74H
78H
7CH
Tab - 18 Command and Status Register Mapping
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4.2 Host REGs
4.2.1 Bus Mode Register (REG0)
FIELD
R/W/C
DESCRIPTION
31:22
21
R/W
20
R/W
19:14
13:8
R/W
7
R/W
6:2
1
R/W
0
R/W
RESERVED
RML - Read Multiple
When set, the AX88141 supports the memory-read-multiple command on the PCI bus. This bus command is used in
memory read bursts with more than one longword. When reset, the AX88141 uses memory-read command in all its
memory read accesses on the PCI bus.
DBO - Descriptor Byte Ordering Mode
When set, the AX88141 operates in big edian ordering mode for descriptors only.
When reset, the AX88141 operates in little endian mode.
Reserved.--Written as “0” for future compatibility concern.
PBL - Programmable Burst Length
Indicates the maximum number of longwords to be transfered in one DMA transaction. If reset, the AX88141 burst is
limited only by the amount of data stored in the receive FIFO (at least 16 longword), or by the amount of free space in
the transmit FIFO (at least 16 longword) before issuing a bus request. The PBL can be programmed with permissible
values 0,1,2,4,8,16, or 32. After reset, the PBL default value is 0.
BLE - Big/Little Endian
When set, the AX88141 operates in big endian byte ordering mode. When reset, the AX88141 operates in little endian
byte ordering mode. Big endian is applicable only for data buffer
RESERVED
BAR - Bus Arbitration
Selects the internal bus arbitration between the receive and transmit processes.
When set, a round robin arbitration scheme is applied resulting in equal sharing between processes. When reset, the
receive process has priority over the transmit process, unless the AX88141 is currently transmitting.
SWR - Software Reset
When set, the AX88141 resets all internal hardware with the exception of the configuration area and also, it does not
change the port select setting (REG6<18>).
Software reset does not affect the configuration area.
Tab - 19 REG0 Bus Mode Register Description
4.2.2 Magic Packet Password Low (REG0B)
FIELD
R/W
31:0
R/W
DESCRIPTION
MPPL - Magic Packet Password Low
This register contains the magic packet password bits 31 to 0.
Tab - 20 REG1 Transmit Poll Demand Register Description
4.2.3 Transmit Poll Demand (REG1)
FIELD
R/W
DESCRIPTION
31:0
W
TPD - Transmit Poll Demand
When written with any value, the AX88141 checks for frames to be transmitted. If no descriptor is available, the transmit
process returns to the suspended states and REG5<2> is asserted. If the descriptor is available the transmit process resumes.
Tab - 21 REG1 Transmit Poll Demand Register Description
4.2.4 Magic Packet Password High (REG1B)
FIELD
R/W
31:16
15:0
R
R/W
DESCRIPTION
Reserved
MPPH - Magic Packet Password High
This register contains the magic packet password bits 47 to 32.
Tab - 22 REG1 Transmit Poll Demand Register Description
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4.2.5 Receive Poll Demand (REG2)
FIELD
R/W/C
DESCRIPTION
31:0
W
RPD - Receive Poll Demand
When written with any value, the AX88141 checks for receive descriptors to be required. If no descriptor is available,
the receive process returns to the suspended states and REG5<7> is not asserted. If the descriptor is available the receive
process resumes.
Tab - 23 REG2 Receive Poll Demand Register Description
4.2.6 Receive List Base Address (REG3)
1.
The register is used to point the AX88141 to the start of receive descriptors list.
2.
The descriptor list resides in physical memory space and must be longword aligned. The
AX88141 behaves UNPREDICTABLY when the list are not longword aligned.
3.
Writing to REG3 is permitted only when receive process is in the stopped state. That is, the
REG3 must be written before the receive START command is given .
REG3 Receive List Base Address Register Description
FIELD
R/W/C
31:2
1:0
R/W
R/W
DESCRIPTION
Start of receive list
Must be 00 for longword alignment
Tab - 24 REG3 Receive List Base Address Register Description
4.2.7 Transmit List Base Address (REG4)
1.
The register is used to point the AX88141 to the start of transmit descriptors list.
2.
The descriptor list resides in physical memory space and must be long-word aligned. The
AX88141 behaves UNPREDICTABLY when the list are not long-word aligned.
3.
Writing to REG4 is permitted only when transmit process is in the stopped state. That is, the
REG4 must be written before the transmit START command is given .
FIELD
R/W/C
31:2
1:0
R/W
R/W
DESCRIPTION
Start of transmit list
Must be 00 for long-word alignment
Tab - 25 REG4 Transmit List Base Address Register Description
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4.2.8 Status Register (REG5)
1.
2.
3.
4.
The status register contains all the status bits that the AX88141 reports to the host.
Most of the fields in this register cause the host to be interrupted.
REG5 bits are not cleared when read.
Writing 1 to these bits clears them; writing 0 has no effect. Each field can be masked.
Field
R/W/C
31:26
25:23
R
22:20
19:17
16
15
R
R
13
R
11
R/W/C
10
R/W/C
9
R/W/C
8
R/W/C
7
R/W/C
6
R/W/C
5
R/W/C
4
-
Description
Reserved
EB - Error Bits
(Not generate interrupt)
Indicates the type of error that
caused system error.
Valid only when fatal bus error
REG5<13> is set.
25
24
23
Description
0
0
0
Parity error
0
0
0
1
1
0
Master abort
Target abort
0
1
1
Reserved
1
x
x
Reserved
Reserved.--Written as “0” for future compatibility concern.
Reserved.--Written as “0” for future compatibility concern.
NIS - Normal Interrupt Summary
Only the unmasked bits affect normal interrupt summary REG5<16> bit Normal interrupt summary bit. Its
value is the logical OR of :
CSR5<0>
transmit interrupt
CSR5<2>
transmit buffer unavailable
CSR5<6>
receive interrupt
CSR5<10>
Early transmit interrupt
CSR5<11>
General-purpose timer expired
AIS - Abnormal Interrupt Summary
Only unmasked bits affect only the abnormal interrupt summary REG5<15> bit.
Abnormal interrupt summary bits. Its value is the logical OR of :
CSR5<1>
transmit process stopped
CSR5<3>
transmit jabber time out
CSR5<5>
transmit under-flow
CSR5<7>
receive buffer unavailable
CSR5<8>
receive process stopped
CSR5<9>
receive watchdog time out
CSR5<13>
fatal bus error
FBE - Fatal Bus Error
Indicates that a system error occurred. If a system error occurs, all bus accesses are disabled
GTE - General Purpose Timer Expired
Indicates that the general-purpose timer (REG11) counter has expired. This timer is mainly used by the
software driver.
ETI - Early Transmit Interrupt
Indicates that the packet to be transmitted was fully transferred into the chip‘s internal transmit FIFOs.
Transmit interrupt (REG5<0>) automatically clears this bit.
RWT - Receive watchdog Time out
Indicates that the receive watchdog timer expired and another node is still active on the network. In case of
overflow, the long packets may not be received.
RPS - Receive Process Stopped
Asserts when the receive process enters stopped state.
RU - Receive Buffer Unavailable
Indicates the next descriptor in the receive list is owned by the host and cannot be acquired by the
AX88141.The reception process is suspended.
RI - Receive Interrupt
Indicates the completion of a frame reception. Specific frame status information has been posted in the
descriptor. The reception process remains in the running state.
UNF - Transmit Under-flow
Indicates that the transmit FIFO had an under-flow condition during the packet transmission. The transmit
process is placed in the suspended state and under-flow error TDES0<1> is set.
Reserved.--Written as “0” for future compatibility concern.
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AX88141
3
R/W/C
2
R/W/C
1
R/W/C
0
R/W/C
PRELIMINARY
TJT - Transmit Jabber Time-out
Indicates that the transmit jabber timer expired, meaning that the AX88141 transmitter had been excessively
active. The transmission process is aborted and placed in the stopped state. This event causes the transmit
jabber time-out TDES0<14> is set.
TU - Transmit Buffer Unavailable
Indicates that the next descriptor on the transmit list is owned by the host and cannot be acquired by the
AX88141.The transmission process is suspended. To resume processing transmit descriptors, the host should
change the ownership bit of the descriptor and then issue a transmit poll demand command.
TPS - Transmit Process Stopped
Asserts when the transmit process enters the stopped state.
TI - Transmit Interrupt
Indicates that a frame transmission was completed, while TDES1<31> is asserted in the first descriptor of the
frame.
Tab - 26 REG5 Status Register Description
4.2.9 Operation Mode Register (REG6)
1.
2.
REG6 establishes the receive and transmit operating modes and commands.
REG6 should be the last REG to be written as part of initialization.
Field
R/W/C
31
30
R/W
Description
29:23
22
R/W
1 All incoming packets will be received
0 Filtering mode
Reserved.--Written as “0” for future compatibility concern.
TTM - Transmit Threshold Mode
1 Threshold is 10Mb/s
21
R/W
SF - Store and Forward
20
19
R/W
18
R/W
Reserved
RA - Receive All
0
0
17:16
15:14
R/W
Threshold is 100Mb/s
1 Enable Store and Forward
0 Disable Store and Forward
Reserved.--Written as “0” for future compatibility concern.
HBD - Heartbeat Disable
1 Heartbeat Disable
0 Heartbeat Enable
PS - Port Select
1 MII port is selected.
N/A
Reserved.--Written as “0” for future compatibility concern.
TR - Threshold Control Bits
The threshold value has a direct impact on the AX88141 bus arbitration scheme . Transmission starts when the frame size
within the transmit FIFO is larger than the threshold. In addition, full frames with a length less than the threshold are also
transmitted. The transmit process must be in the stopped state to change these bits.
Controls the selected threshold level for the AX88141 transmit FIFO. Four threshold levels are allowed.
REG6<18>=0
REG6<18>=1
REG6<18>=1
REG6<21>
0
REG6<15:14>
00
REG6<22>=X
72
REG6<22>=1
72
REG6<22>=0
128
0
01
96
96
256
0
10
128
128
512
0
11
160
160
1024
1
XX
Store & Forward
Store & Forward
Store & Forward
13
R/W
ST - Start/Stop Transmission
12
R/W
FC - Force Collision Mode
11:10
R/W
OM - Operating Mode
9
R/W
FD - Full-Duplex Mode
8
R/W
RB - Receive broadcast packet
7
R/W
PM - Pass All Multicast
6
R/W
PR - Promiscuous Mode
1
0
1
0
00
01
10
1
0
1
0
1
0
1
22
Start Transmission
Stop Transmission
Enable force collision
Disable force collision
Normal
Internal Loop-back
External Loop-back
Full-Duplex
Half-Duplex
Accept broadcast packet
Reject broadcast packet
Enable Pass All Multicast
Disable Pass All Multicast
Indicates that any incoming valid frame is received, regardless
of its destination address.
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5:4
3
R/W
2
1
R/W
0
R/W
PRELIMINARY
0 Disable Promiscuous Mode.
Reserved.--Written as “0” for future compatibility concern.
PB - Pass Bad Frames
1 All incoming frames that passed the address filtering are
received, including runt frames, collided fragments, or
truncated frames caused by FIFO over-flow. If any received bad
frames are required, promiscuous mode (REG6<6>) should be
set to 1.
0 Disable pass bad frame.
Reserved.--Written as “0” for future compatibility concern.
SR - Start/Stop Receive
1 Start Receive
0 Stop Receive
FIFO Mode
1 AX88141 Mode.
0 AX88140 Mode.
Tab - 27 REG6 Operation Mode Register Description
Port and Data Rate Selection
REG6
<18>
REG6
<22>
ACTIVE
PORT
1
1
1
0
MII
MII
DATA
RATE
FUNCTION
10MB/S MII with transmit FIFO thresholds appropriate for 10MB/S
100MB/S MII with transmit FIFO thresholds appropriate for 100MB/S
Tab - 28 Port and Data Rate Selection
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4.2.10 Interrupt Enable Register (REG7)
1.
2.
The interrupt enable register (REG7) enables the interrupts reported by REG5.
Setting bit to 1 enables a corresponding interrupt. After a hardware or software reset, all interrupts are disabled.
Field
R/W/C
31:17
16
R/W
15
R/W
13
11
10
9
8
7
6
5
4
3
2
1
0
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
Description
Reserved
NI - Normal Interrupt Summary Enable
When set, normal interrupt is enabled.
When reset, no normal interrupt is enabled. This bit (REG7<16>) enables the following bits :
CSR5<0>
Transmit interrupt
CSR5<2>
Transmit buffer unavailable
CSR5<6>
Receive interrupt
CSR5<10>
Early transmit interrupt
CSR5<11>
General-purpose timer expired
AI - Abnormal Interrupt Summary Enable
When set, abnormal interrupt is enabled.
When reset, no abnormal interrupt is enabled. This bit (REG7<15>) enables the following bits :
CSR5<1>
transmit process stopped
CSR5<3>
transmit jabber time-out
CSR5<5>
transmit under-flow
CSR5<7>
receive buffer unavailable
CSR5<8>
receive process stopped
CSR5<9>
receive watchdog time-out
CSR5<11>
fatal bus error
FBE - Fatal Bus Error interrupt enable. Active high.
GPT - General purpose Timer interrupt Enable. Active high.
ETE - Early Transmit Interrupt Enable. Active high.
RW - Receive Watchdog Time out interrupt Enable. Active high
RS - Receive Stopped interrupt Enable. Active high.
RU - Receive Buffer Unavailable interrupt Enable. Active high.
RI - Receive Interrupt Enable. Active high.
UN - under-flow interrupt Enable. Active high.
Reserved.--Written as “0” for future compatibility concern.
TJ - Transmit Jabber Time out interrupt Enable. Active high.
TU - Transmit Buffer Unavailable interrupt Enable. Active high.
TS - Transmission Stopped interrupt Enable. Active high.
TI - Transmit Interrupt Enable. Active high.
Tab - 29 REG7 Interrupt Enable Register Description
4.2.11 Missed Frame and Overflow Flag (REG8)
Field
R/W
31: 18
17
R/C
16 : 1
0
R/C
Description
Reserved
Overflow Flag
Indicates the frames discarded because of overflow. The flag clears when read.
Reserved
Missed Frame Flag
Indicates the frames discarded because no host receive descriptors were available. The flag clears when read.
Tab - 30 REG8 Missed Frame and Overflow Counter Description
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4.2.12 Serial ROM and MII Management Register (REG9)
1.
2.
The register provides an interface to the Microwire serial ROM and to the physical layer
protocol (PHY). It selects the device and contains both the commands and data to be read from
and stored in the serial ROM.
The MII management selects and operation mode for reading and writing the MII.
FIELD
R/W/C
DESCRIPTION
31:20
19
R
18
R/W
17
R/W
16
R/W
14
R/W
13:12
11
R/W
10:4
3
R/W
2
R
Reserved.--Written as “0” for future compatibility concern.
MDI - MII management data_in
Used by the AX88141 to read data from the PHY
MII - MII management operation mode
Defines the operation mode (read or write) of the PHY.
MDO - MII Management write data
Specifies the value of the data that AX88141 writes to the PHY
MDC - MII Management clock
MII management data clock (MII_MDC) is an output signal to the PHY. it is used as a timing reference.
RD - Read operation
Read control bit. When set together with REG9<12>, The AX88141 performs read cycles from the BOOT ROM, and
the serial ROM.
Reserved.--Written as “0” for future compatibility concern.
SR - SERIAL ROM select
When set together with either SERIAL ROM read operation (REG9<14>) or SERIAL ROM Write operation
(REG9<13>), The AX88141 selects the SERIAL ROM.
Reserved.--Written as “0” for future compatibility concern.
SDO - SERIAL ROM data_out
SERIAL ROM data output(SR_DO) From the SERIAL ROM device to the AX88141.
SDI - SERIAL ROM data_in
SERIAL ROM Data input(SR_DI) To the SERIAL ROM device from the AX88141.
1
R/W
SCLK - SERIAL ROM serial clock
Serial clock (SR_CK) Output to the SERIAL ROM.
0
R/W
SCS - Serial ROM Chip Select
Chip select (sr_cs) output to the serial ROM.
Tab - 31 REG9 Serial ROM, and MII Management Register Description
4.2.13 General -Purpose Timer (REG11)
1.
2.
This register contains a 16 bit general-purpose timer. It is used mainly by the software driver for
timing functions not supplied by the operating system. After the timer is loaded, it starts
counting down . The expiration of the timer causes an interrupt in REG5<11>.
If the timer expires with the CON bit on, the counter will load itself automatically with the last
value. The timer is not active in snooze mode.
Field
31:17
16
R/W/C
R/W
Description
Reserved.--Written as “0” for future compatibility concern.
CON - Continuous Mode
1
Continuous operating mode.
0
15:0
R/W
One-shot operating mode.
Timer value
Contains the general-purpose timer value within a N microsecond cycle.
SRL_10M : 204.8us
MII_10M : 819.2us
MII_100M : 81.92us
25
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Tab - 32 REG11 General -Purpose Timer Register Description
4.2.14 General -Purpose Port Register (REG12)
Field
R/W/C
31:9
-
8
R/W
7:0
Description
Reserved.--Written as “0” for future compatibility concern.
R/W
GPC - General Purpose Control .
When a hardware reset is initiated, all gep pins
become input pins.
1
0
Indicate next write REG12<7:0> is use for define
General purpose port in/out direction.
Indicate next write REG12<7:0> is use for read/write
general purpose port data.
MD - General Purpose Mode and Data
Tab - 33 REG12 General -Purpose Port Register Description
4.2.15 Filtering Index (REG13)
FIELD
R/W/C
31:6
5:0
R/W
DESCRIPTION
Reserved.--Written as “0” for future compatibility concern.
FI - Filtering Index
When writing data to filtering buffer, uses filtering index register REG13 to point the position (buffer number) in
filtering buffer. The valid value is between 0 and 3.
Tab - 34 REG13 Filtering Index Register Description
4.2.16 Filtering data (REG14)
FIELD
R/W/C
DESCRIPTION
31:0
R/W
FD - Filtering Data
By indexed by filtering index register REG13, write the filtering data register REG14 to put filtering address/hash table
into filtering buffer..
Tab - 35 REG14 Filtering Data Register Description
Filtering Buffer
The AX88141 stores one Ethernet address for local physical address and filters the packets
with multicast addresses by 64 bits array. For any incoming frame with a multicast destination
address, the AX88141 applies the standard Ethernet cyclic redundancy check function to the
destination address, then uses the most significant 6 bits of the result as a bit index into the table. If
the indexed bit is set, the frame is accepted. If the bit is reset, the frame is rejected.
Description of Filtering Buffer
BUFFER
NUMBER
0
1
2
3
DESCRIPTION
BYTE 0 - 3 OF LOCAL PHYSICAL ADDRESS
BYTE 4 - 5 OF LOCAL PHYSICAL ADDRESS IN THE LEAST SIGNIFICANT WORD
BIT 0 - 31 OF MULTICAST ADDRESS FILTERING TABLE
Bit 32 - 63 of multicast address filtering table
Tab - 36 Description of Filtering Buffer
Layout of Filtering Buffer
BUFFER
NUMBER
0
BYTE 3
BYTE 2
BYTE 1
PHYSICAL ADDRESS PHYSICAL ADDRESS PHYSICAL ADDRESS
BYTE 3
BYTE 2
BYTE 1
26
BYTE 0
PHYSICAL ADDRESS BYTE 0
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1
2
3
PRELIMINARY
RESERVED
RESERVED
PHYSICAL ADDRESS
PHYSICAL ADDRESS BYTE 4
BYTE 5
MULTICAST
MULTICAST
MULTICAST ADDRESS MULTICAST ADDRESS FILTERING
ADDRESS
ADDRESS
FILTERING TABLE BIT
TABLE BIT 0 - 7
FILTERING TABLE FILTERING TABLE
8 - 15
BIT 24 - 31
BIT 16 - 23
multicast address
multicast address
multicast address filtering multicast address filtering table bit 32 filtering table bit 56 - 63 filtering table bit 48 - 55
table bit 40 - 47
39
Tab - 37 Layout of Filtering Buffer
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5.0 Host Communication
Descriptor lists and data buffers, collectively called the host communication, reside in the host
memory and manage the actions and status related to buffer management.
5.1 Descriptor Lists and Data Buffers
The AX88141 transfers data frames to the receive buffers and from the transmit buffers in host
memory. Descriptors that reside in the host memory act as pointers to these buffers.
There are two descriptor lists, one for receive and one for transmit. The base address of each list is
written into REG3 and REG4, respectively. A descriptor list is forward-linked (explicitly). The last
descriptor may point back to the first entry to create a ring structure. Explicit chaining of descriptors
is accomplished by setting the address pointer chained in both the receive and transmit descriptors
(RDES3 and TDES3). The descriptor lists reside in the host physical memory address space.
A data buffer consists of either an entire frame or part of a frame, but it cannot exceed a single
frame. Buffers contain only data; buffer status is maintained in the descriptor. Data chaining refers
to frames that span multiple data buffers.
Descriptor Structure Example
Buffer 1
Descriptor 0
Buffer 2
Descriptor 1
Next Descriptor
Fig - 3 Descriptor Structure Example
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5.2 Receive Descriptors
The receive descriptor provides one buffer, one byte-count buffer, and one address pointer in
each descriptor. Descriptors and receive buffers addresses must be long-word aligned.
Receive Descriptor Format
RDES0
RDES1
31
O
W
N
0
Status
Control bits
Byte Count Buffer 2
RDES2
Buffer Address 1
RDES3
Buffer Address 2
Byte Count Buffer 1
Fig - 4 Receive Descriptor Format
5.2.1 Receive Descriptor 0 (RDES0)
RDES0 contains the received frame status, the frame length, and the descriptor ownership
information.
Field
31
30
29:16
15
14
13:12
11
Description
OWN - Own Bit
The AX88141 clears this bit either when it completes the
frame reception or
when the buffers that are associated with this descriptor are
full.
FF - Filtering Fail
This bit can be set only when receive all (REG6<30>) is set.
1
Indicates that the descriptor is owned by the AX88141
0
Indicates that the descriptor is owned by the host
1
0
Indicates that the frame failed the address recognition filtering
Indicates that the frame passed the address recognition filtering
FL - Frame Length
Indicates the length in bytes of the received frame including the cyclic redundancy check (CRC).
This field is valid only when last descriptor (RDES0<8>) is set and descriptor error ( RDES0<14>) is reset.
ES - Error Summary
Indicates the logical OR of the following RDES0 bits :
This field is valid only when last descriptor (RDES0<8>) is set.
RDES0<1>
CRC error
RDES0<6>
collision seen
RDES0<7>
frame too long
RDES0<11>
runt frame
RDES0<14>
descriptor error
DE - Descriptor Error. The frame is truncated. Active high.
This field is valid only when last descriptor (RDES0<8>) is set.
Reserved.--Written as “0” for future compatibility concern.
RF - Runt Frame. Indicates that this frame is a runt frame. Active high.
This field is valid only when last descriptor (RDES0<8>) is set .
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10
MF - Multicast Frame Indicates that this frame is a multicast address.
This field is valid only when last descriptor (RDES0<8>) is set.
9
FS - First Descriptor
8
LS - Last Descriptor
1
Indicates that this descriptor contains the first buffer of a frame.
0
Indicates that this descriptor is the middle or last buffer of a frame.
1
Indicates that the buffers pointed to by this descriptor, are the last buffers
0
Indicates that this descriptor is the middle or first buffer of a frame.
7
TL - Frame Too Long. Frame length grater then 1518 bytes. Active high.
This field is valid only when last descriptor (RDES0<8>) is set.
6
CS - Collision Seen. This is a late collision.
This field is valid only when last descriptor (RDES0<8>) is set.
5
4
Reserved.--Written as “0” for future compatibility concern.
RW – Received first packet flag after receiver buffer unavailable state is cleared.
3
2
RE - Report on MII Error. Active high.
DB - Dribbling Bit Active high.
If set, and CRC error (RDES0<1>) is reset, then the packet is valid.
CE - CRC Error. Active high.
This field is valid only when last descriptor (RDES0<8>) is set.
FIFO Overrun. Active high.
1
0
Tab - 38 Receive Descriptor 0
5.2.2 Receive Descriptor 1 (RDES1)
FIELD
31:11
10:0
DESCRIPTION
Reserved.--Written as “0” for future compatibility concern.
RBS - Receive Data Buffer Size
Indicates the size in bytes of the data buffer. If this field is 0, the AX88141 ignores this buffer.
The buffer size must be a multiple of 4.
Tab - 39 Receive Descriptor 1
5.2.3 Receive Descriptor 2 (RDES2)
FIELD
31:0
DESCRIPTION
Data Buffer Pointer
Indicates the physical address of data buffer. The buffer must be long-word-aligned (RDES2<1:0>=00).
Tab - 40 Receive Descriptor 2
5.2.4 Receive Descriptor 3 (RDES3)
FIELD
31:0
DESCRIPTION
Address Pointer
Indicates the physical address of next descriptor. The address must be long-word aligned (RDES3<1:0>=00).
Tab - 41 Receive Descriptor 3
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5.3 Transmit Descriptors
Providing one buffer, one byte-count buffer, and two address pointers in each descriptor .
Transmit Descriptor Format
31
O
TDES0
W
N
TDES1
0
Status
Control bits
Byte Count Buffer 2
TDES2
Buffer Address 1
TDES3
Buffer Address 2
Byte Count Buffer 1
Fig - 5 Transmit Descriptor Format
5.3.1 Transmit Descriptor 0 (TDES0)
TDES0 contains transmitted frame status and descriptor ownership information.
Field
31
30:16
15
14
13:12
11
10
9
8
7
6:3
2
Description
OWN - Own Bit
1
Indicates that the descriptor is owned by the AX88141.
0
Indicates that the descriptor is owned by the host.
Reserved.--Written as “0” for future compatibility concern.
ES - Error Summary
Indicates the logical OR of the following bits :
TDES0<1>
under-flow error
TDES0<8>
successive collisions
TDES0<9>
late collision
TDES0<10>
no carrier
TDES0<11>
loss of carrier
TDES0<14>
transmit jabber time-out
TO - Transmit Jabber Time-out : Active high.
The transmission process is aborted and placed in the STOPPED state.
When TDES0<14> is set any heartbeat fail indication (TDES0<7>) is not valid.
Reserved.--Written as “0” for future compatibility concern.
LO - Loss of Carrier during transmission. Active high. (The status is no meaning except 10BASE SRL mode)
Not valid in internal loop-back mode (REG6<11:10>=01).
NC - No Carrier. Indicates that the carrier signal from the transceiver was not present during transmission. Active high.
Not valid in internal loop-back mode (REG6<11:10>=01).
LC - Late Collision. When set, indicates that the frame transmission was aborted due to collision occurring after the collision
window of 64 bytes. Not valid if under-flow error (TDES0<1>) is set.
EC - Excessive Collision When set, indicates that the transmission was aborted after 16 successive collisions while attempting to
transmit the current frame.
HF - Heartbeat Fail
This bit is effective only in 10Mb/s operation mode. When set, indicates a heartbeat collision check failure
This bit is not valid if under-flow error (TDES0<1>) is set.
On the second transmission attempt, after the first transmission was aborted due to collision, the AX88141 does not check
heartbeat fail and (TDES0<7>) is reset.
CC - Collision Count
This 4-bit counter indicates the number of collisions that occurred before the frame was transmitted.
Not valid when the excessive collisions bit (TDES0<8>) is also set.
Reserved.--Written as “0” for future compatibility concern.
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UF - Under-flow Error
When set, indicates that the transmitter aborted the message because data arrived late from memory. Under-flow error indicates
that the AX88141 encountered an empty transmit FIFO while transmitting a frame. The transmission process enters the
suspended state and sets both transmit under-flow (REG5<0>) and transmit interrupt (REG5<0>).
DE - Deferred
When set, indicates that the AX88141 had to defer while ready to transmit a frame because the carrier was asserted.
Tab - 42 Transmit Descriptor 0
5.3.2 Transmit Descriptor 1 (TDES1)
Field
Description
31
IC - Interrupt on Completion
When set, the AX88141 sets transmit interrupt (REG5<0>) after the present frames has been transmitted. It is valid only when
first segment (TDES1<30>) is set.
LS - Last Segment
1 Indicates that the buffer contains the last segment of a frame.
30
29
28:27
26
25:24
23
FS - First Segment
0
Indicates that the buffer contains the first or middle segment of a frame.
1
Indicates that the buffer contains the first segment of a frame.
0
Indicates that the buffer contains the middle or last segment of a frame.
Reserved.--Written as “0” for future compatibility concern.
AC - Add CRC Disable
When set, the AX88141 does not append the CRC to the end of the transmitted frame. This field is valid only when first segment
(TDES1<29>) is set.
Reserved.--Written as “0” for future compatibility concern.
DPD - Disabled Padding
1 the AX88141 does not automatically add a padding field, so a packet
The CRC field is added despite the state of
shorter than 64 bytes.
the add CRC disable (TDES1<26>) flag.
0
22:11
10:0
The AX88141 automatically adds a padding field and also a CRC field to a
packet shorter than 64 bytes.
Reserved.--Written as “0” for future compatibility concern.
Data Buffer Size
Indicates the size, in bytes, of the data buffer. If this field is 0, the AX88141 ignores this buffer.
Tab - 43 Transmit Descriptor 1
5.3.3 Transmit Descriptor 2 (TDES2)
Field
31:0
Description
Data Buffer Pointer
Physical address of data buffer. There are no limitations on the buffer address alignment.
Tab - 44 Transmit Descriptor 2
5.3.4 Transmit Descriptor 3 (TDES3)
Field
31:0
Description
Address Pointer
Physical address of next descriptor address. There are no limitation on the buffer address alignment.
Tab - 45 Transmit Descriptor 3
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6.0 Electrical Specification and Timings
6.1 Absolute Maximum Ratings
Description
SYM
Min
Max
Units
Operating Temperature
Ta
0
+70
°C
Storage Temperature
Ts
-55
+150
°C
Supply Voltage
Vcc
-0.5
+7
V
Input Voltage
Vin
Vss-0.5
Vdd+0.5
V
Output Voltage
Vout
Vss-0.5
Vdd+0.5
V
Lead Temperature (soldering 10 seconds maximum)
Tl
-55
+250
°C
Note : Stress above those listed under Absolute Maximum Ratings may cause permanent damage to the device.
Exposure to Absolute Maximum Ratings conditions for extended period, adversely affect device life and reliability
6.2 General Operation Conditions
Description
Operating Temperature
Supply Voltage
SYM
Ta
Vdd
Min
0
+4.75
Max
+70
+5.25
Units
°C
V
Min
Vss-0.5
2
2.4
-
Tpy
Max
0.8
Vdd+0.5
0.4
10
500
10
Units
V
V
V
V
uA
uA
uA
mA
mA
mA
6.3 DC Characteristics
(Vdd=4.75V to 5.25V, Vss=0V, Ta=0°C to 70°C)
Description
Low Input Voltage
High Input Voltage
Low Output Voltage
High Output Voltage
Input Leakage Current 1 (Note 1)
Input Leakage Current 2 (Note 2)
Output Leakage Current
Power Consumption ( Sleep ,Note 3 )
Power Consumption ( Idle , Driver Loaded )
Power Consumption ( Heavy Traffic )
SYM
Vil
Vih
Vol
Voh
Iil1
Iil1
Iol
Ps
Pi
Pt
18
72
110
Note :
1.
All the input pins without pull low or pull high.
2.
Those pins had been pull low or pull high.
3.
When sleep mode, PCI clock stop / Link on ; If link off, typical is 2.5mA .
33
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6.4 A.C. Timing Characteristics
6.4.1 PCI CLOCK
Symbol
Tcyc
Thigh
Tlow
Tr/Tf
Description
Min
30
11
11
1
CYCLE TIME
PCI_CLK HIGH TIME
PCI_CLK LOW TIME
PCI_CLK SLEW RATE
Typ.
-
Max
45
4
Units
ns
ns
ns
ns
Min
2
2
7
0
Typ.
-
Max
11
28
-
Units
ns
ns
ns
ns
ns
Min
10
Typ.
-
Max
-
Units
PCI Clk
6.4.2 PCI Timings
PCI_CLK
Tval
(max)
Tval
(min)
OUTPUT
Ton
Toff
INPUT
Tsu
Symbol
Tval
Ton
Toff
Tsu
Th
Th
Description
CLK TO SIGNAL VALID DELAY
FLOAT TO ACTIVE DELAY
ACTIVE TO FLOAT DELAY
INPUT SETUP TIME TO CLK
INPUT HOLD TIME FROM CLK
6.4.3 Reset Timing
PCI_CLK
RST#
Symbol
Trst
Description
Reset pulse width
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6.4.4 MII Timing
Ttclk
Ttch
Ttcl
TXCLK
Ttv
Tth
TXD<3:0>
TXEN
Trclk
Trch
Trcl
RXCLK
Trs
Trh
RXD<3:0>
RXDV
Trs1
RXER
Symbol
Ttclk
Ttclk
Ttch
Ttch
Trch
Trch
Ttv
Tth
Trclk
Trclk
Trch
Trch
Trcl
Trcl
Trs
Trh
Trs1
Description
Min
14
140
14
140
5
14
140
14
140
6
10
10
Cycle time(100Mbps)
Cycle time(10Mbps)
high time(100Mbps)
high time(10Mbps)
low time(100Mbps)
low time(10Mbps)
Clock to data valid
Data output hold time
Cycle time(100Mbps)
Cycle time(10Mbps)
high time(100Mbps)
high time(10Mbps)
low time(100Mbps)
low time(10Mbps)
data setup time
data hold time
RXER data setup time
35
Typ.
40
400
40
400
-
Max
26
260
26
260
20
26
260
26
260
-
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
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6.4.5 Boot ROM Read Cycles
Boot ROM Byte Read Cycle
BR_D<7:0>
data
BR_A<15:0>
address
BR_CE#
Boot ROM Dword Read Cycle
BR_D<7:0>
BR_A<15:0>
data3
addr3
data2
data1
addr2
addr1
data0
addr0
BR_CE#
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7.0 Package Information
He
A2
A1
L
L1
D
Hd
E
pin 1
e
b
θ
SYMBOL
MILIMETER
MIN.
NOM
MAX
A1
0.21
0.31
0.41
A2
2.80
2.85
2.90
b
0.15
0.20
0.30
D
13.80
14.00
14.20
E
19.80
20.00
20.20
e
0.50
Hd
17.10
17.20
17.30
He
23.10
23.20
23.30
L
0.70
0.80
0.90
L1
θ
1.60
0
8
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A
APPENDIX
H/W NOTE
A.1 Boot ROM read cycle
ASIX 88141 Boot ROM Byte Read Cycle
BR_D<7:0>
data
BR_A<15:0>
address
BR_CE#
27512
BR_A0
BR_A1
BR_A2
BR_A3
BR_A4
BR_A5
BR_A6
BR_A7
BR_A8
BR_A9
BR_A10
BR_A11
BR_A12
BR_A13
BR_A14
BR_A15
BR_CE#
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
BR_D0
BR_D1
BR_D2
BR_D3
BR_D4
BR_D5
BR_D6
BR_D7
/CE
/OE
DEC 21140 Boot ROM Byte Read Cycle:
br_ad<7:0>
address 7-2
address 15-8
br_a1
data
address 1
br_a0
address 17
address16
address 0
brce#
27512
74LS374
BRAD0
BRAD1
BRAD2
BRAD3
BRAD4
BRAD5
BRAD6
BRAD7
GND
BRA1
D0
D1
D2
D3
D4
D5
D6
D7
OC
CLK
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
BRA0
BRA1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
74LS374
A8
A9
A10
A11
A12
A13
A14
A15
GND
D0
D1
D2
D3
D4
D5
D6
D7
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
/WE
/OE
A2
A3
A4
A5
A6
A7
OC
CLK
BR_CE
/OE
38
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
BRAD0
BRAD1
BRAD2
BRAD3
BRAD4
BRAD5
BRAD6
BRAD7
/CE
/OE
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A.2 Power Supply
AX88141 power supply is +5V DC
DEC 21140 power supply is +3.3V DC
A.3 Boundary Scan Test Pins
AX88141 do not support boundary scan test pins
DEC 21140 supports boundary scan test pins
39
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PRELIMINARY
B
Function Application
B.1 Application for PCI Interface
Features :
l Direct interface to PCI Bus.
l Support 33 MHz no wait state PCI Bus Interface.
l Powerful on chip buffer management DMA. And PCI Bus master operation reduce CPU
utilization.
l 5 Volt CMOS process.
PCI Interface Schematic:
PCI BUS CONNECTOR
AX88141 PCI I/O PINS
AD[31:0]
C/BE[3:0]
PAR
PCI SLOT
MAC
FRAME#
TRDY#
IRDY#
STOP#
DEVSEL#
IDSEL
PERR#
SERR#
REQ#
GNT#
CLK
RST#
PME#
The pull high resisters are required for pin REQ#, GNT#, PERR#, and SERR# on MAC for more detail please to
check the schematic.
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B.2 Application for Boot ROM Interface
AX88141
Boot ROM Byte Read Cycle
BR_D<7:0>
data
BR_A<15:0>
address
BR_CE#
27512
BR_A0
BR_A1
BR_A2
BR_A3
BR_A4
BR_A5
BR_A6
BR_A7
BR_A8
BR_A9
BR_A10
BR_A11
BR_A12
BR_A13
BR_A14
BR_A15
BR_CE#
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
BR_D0
BR_D1
BR_D2
BR_D3
BR_D4
BR_D5
BR_D6
BR_D7
/CE
/OE
B.3 Application for Serial ROM Interface
AX88141
Serial ROM Interface
Serial ROM Chip Select
Serial ROM Clock
Serial ROM Data In
Serial ROM Data Out
41
Serial ROM
93C46
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B.4 Applications
B.4.1 Application for NS DP83843
10BASE-T Transceiver
4B/5B
RJ-45
A.N.
RJ-45
STA
NS DP83843
PHY
ST 6166
X‘former
MII
ST 6114
X‘former
AX88141
MAC Controller
MII
Scrambler /
Descrambler
Fig - 6 Application for NS DP83843
B.4.2 Application for LUCENT M-LU6612/M-3X51
10BASE-T Transceiver
AX88141
MAC Controller
MII
MII
STA
A.N.
LUCENT
M-LU6612
/M-3X51
Scrambler /
Descrambler
4B/5B
Fig - 7 Application for LUCENT M-LU6612
42
ASIX ELECTRONICS CORPORATION
CONFIDENTIAL
AX88141
PRELIMINARY
B.4.3 Application for TI XTNETE2101
10BASE-T Transceiver
STA
A.N.
TI
XTNETE2101
Scrambler /
Descrambler
4B/5B
RJ-45
MII
YCL 20PMT04
X‘former
AX88141
MAC Controller
MII
Fig - 8 Application for TI XTNETE2101
43
ASIX ELECTRONICS CORPORATION
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