MCNIX MX98L715BEC

PRELIMINARY
MX98L715BEC
3.3V SINGLE CHIP FAST ETHERNET NIC CONTROLLER
1. FEATURES10/100M
Ethernet Interface
PCI/MiniPCI interface
• A single chip solution integrates 100/10 Base-T fast
Ethernet MAC, PHY and PMD
• Fully comply to IEEE 802.3u specification
• Operates over 100 meters of STP and cat 5 UTP cable
• Support full and half duplex operations in both 100
Base-TX and 10 Base-T mode
• Supports IEEE802.3x Frame Based Flow Control
scheme in full duplex mode.
• Supports transmission and reception of IEEE802.1Q
tagged frames.
• Supports QoS with prioritized traffic.
• Supports network and communication device class
OnNow requirements for Microsoft's PC99 specifications, including 3 wake up events :
- Link Change (link-on)
- Wake Up Frames
- Magic Packet
• 100/10 Base-T NWAY auto-negotiation function
• Support up to 5 LEDs for various network activities
• Supports early interrupt on both transmit and receive
operations.
• Support a variety of flexible address filtering modes
with 16 CAM address and 64 bits hash table
• Fully comply to PCI spec. 2.2 and Mini PCI spec. 0.73
up to 33MHz
• Fully comply to Advanced Configuration and Power
Interface (ACPI) Rev 1.1
• Fully comply to PCI Bus Power Management Interface
spec. Rev 1.1
• Bus master architecture with linked host buffers delivers the most optimized performance
• 32-bit bus master DMA channel provides ultra low
CPU utilization suitable for server and windows applications.
• Proprietary Adaptive Network Throughput Control
(ANTC) technology to optimize data integrity and
throughput
Other features
• Large on-chip FIFOs for both transmit and receive
operations without external local memory
• Support up to 128K bytes boot ROM/Flash interface
• MicroWire interface to EEPROM for customer's IDs
and configuration data
• Single 3.3V power supply, CMOS technology, 128-pin
PQFP package
Home PNA interface
( Magic Packet Technology is a trademark of Advanced Micro Device Corp. )
• Support 7-wire general purpose serial interface to link
with 1M8 PHY for home networking
2. GENERAL DESCRIPTIONS
The MX98L715BEC contains a PCI local bus glueless
interface, a Direct Memory Access (DMA) buffer management unit, an IEEE802.3u-compliant Media Access
Controller (MAC), large Transmit and Receive FIFOs, and
an on-chip 10 Base-T and 100 Base-TX transceiver simplifying system design and improving high speed signal
quality. Full-duplex operation are supported in both 10
Base-T and 100 Base-TX modes that increases the
controller's operating bandwidth up to 200Mbps.
Equipped with intelligent IEEE802.3u-compliant auto-negotiation, the MX98L715BEC-based adapter allows a
single RJ-45 connector to link with the other IEEE802.3ucompliant device without re-configuration.
The MX98L715BEC controller is an IEEE802.3u compliant single chip 32-bit full duplex, 10/100Mbps highly
integrated Fast Ethernet combo solution, designed to
address high performance local area networking (LAN)
system application requirements.
MX98L715BEC's PCI bus master architecture delivers
the optimized performance for future high speed and powerful processor technologies. In other words, the
MX98L715BEC not only keeps CPU utilization low while
maximizing data throughput, but it also optimizes the
PCI bandwidth providing the highest PCI bandwidth utilization. To further reduce maintenance costs the
MX98L715BEC uses drivers that are backward compatible with the original MXIC MX98715 series controllers.
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In MX98L715BEC, an innovative and proprietary design
"Adaptive Network Throughput Control" (ANTC) is builtin to configure itself automatically by MXIC's driver based
on the PCI burst throughput of different PCs. With this
proprietary design, MX98L715BEC can always optimize
its operating bandwidth, network data integrity and
throughput for different PCs.
The MX98L715BEC features Remote-Power-On and Remote-Wake-Up capability and is compliant with the Advanced Configuration and Power Interface version 1.0
(ACPI). This support enables a wide range of wake-up
capabilities, including the ability to customize the content of specified packet which PC should respond to,
even when it is in a low-power state. PCs and workstations could take advantage of these capabilities of being waked up and served simultaneous over the network
by remote server or workstation. It helps organizations
reduce their maintenance cost of PC network.
The 32-bit multiplexed bus interface unit of
MX98L715BEC provides a direct interface to a PCI local bus, simplifying the design of an Ethernet adapter in
a PC system. With its on-chip support for both little and
big ending byte alignment, MX98L715BEC can also address non-PC applications.
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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
IDSEL
GND
AD23
AD22
GND
AD21
AD20
VDD
AD19
AD18
GND
AD17
AD16
CBEB2
FRAMEB
GND
IRDYB
TRDYB
DEVSELB
STOPB
VDD
PERRB
SERRB
PAR
CBEB1
AD15
GND
AD14
AD13
VDD
AD12
AD11
AD10
GND
AD9
AD8
CBEB0
AD7
RTX
GNDA
GNDA
TXOP
TXON
VDDA
GNDA
GNDR
VDDR
RXIP
RXIN
VDDR
GNDR
VDDA
GNDA
XO
XI/CKREF
VDDA
GNDA
GNDA
VDDA
(LED3)FOEB
(LED2)BPA16
(LED1)BPA15
(LED0)BPA14
(LED4)BPA13
GND
VDD
BPA12
BPA11
BPA10
BPA9
FCSB(VAUX)
FWEB(HLINKB)
BPA8
BPA7
BPA6
BPA5
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
MX98L715BEC
3. PIN CONFIGURATIONS
VDDA
103
GNDA
104
VDDR
105
GNDR
106
CLKRUNB
107
ISOLATE
108
LANWAKE
109
PMEB
110
INTAB
111
RSTB
112
PCICLK
113
GNTB
114
REQB
115
AD31
116
AD30
117
GND
118
AD29
119
AD28
120
VDD
121
AD27
122
GND
123
AD26
124
AD25
125
GND
126
AD24
127
CBEB3
128
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64
BPA4
63
BPA3
62
BPA2
61
BPA1(EEDI)
60
BPA0(EECK)
59
EECS
58
BPD0(EED0)
57
BPD1(TXE)
56
BPD2(TXD)
55
BPD3(RXD)
54
BPD4(RXC)
53
BPD5(COL)
52
BPD6(CRS)
51
BPD7(TXC)
50
GND
49
VDD
48
AD0
47
AD1
46
GND
45
AD2
44
AD3
43
VDD
42
AD4
41
AD5
40
GND
39
AD6
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4. PIN DESCRIPTION ( 128 PIN PQFP )
( T/S : tri-state, S/T/S : sustained tri-state, I : input, O : output, O/D : open drain )
Pin Name
AD[31:0]
Type
T/S
CBEB[3:0] T/S
Pin No
116, 117
119,120,
122,124,
125,127,
3,4,6,7,9,
10,12,13,
26,28,29,
31-33,35,
36,38,39,
41,42,44,
45,47,48
128,14
25,37
FRAMEB
S/T/S 15
TRDYB
S/T/S 18
IRDYB
S/T/S 17
DEVSELB S/T/S 19
IDSEL
I
1
PCICLK
I
RSTB
I
LANWAKE O
113
112
109
INTAB
O/D
111
SERRB
O/D
23
PERRB
S/T/S 22
128 Pin Function and Driver
PCI address/data bus: shared PCI address/data bus lines. Little or big ending
byte ordering are supported.
PCI command and byte enable bus: shared PCI command byte enable bus,
during the address phase of the transaction, these four bits provide the bus
command. During the data phase, these four bits provide the byte enable.
PCI FRAMEB signal: shared PCI cycle start signal, asserted to indicate the
beginning of a bus transaction. As long as FRAMEB is asserted, data
transfers continue.
PCI Target ready: issued by the target agent, a data phase is completed on
the rising edge of PCICLK when both IRDYB and TRDYB are asserted.
PCI Master ready: indicates the bus master's ability to complete the current
data phase of the transaction. A data phase is completed on any rising edge
of PCICLK when both IRDYB and TRDYB are asserted.
PCI slave device select: asserted by the target of the current bus access.
When MX98L715BEC is the initiator of current bus access, the target must
assert DEVSELB within 5 bus cycles, otherwise cycle is aborted.
PCI initialization device select: target specific device select signal for
configuration cycles issued by host.
PCI bus clock input: PCI bus clock range from 16MHz to 33MHz.
PCI bus reset: host system hardware reset.
LAN wake up signal:asserts high to indicate one of the 3 wake up events has
been detested in remote power on mode.
PCI bus interrupt request signal: wired to INTAB line.
PCI bus system error signal: If an address parity error is detected and CFCS
bit 8 is enabled, SERRB and CFCS's bit 30 will be asserted.
PCI bus data error signal: As a bus master, when a data parity error is
detected and CFCS bit 8 is enabled, CFCS bit 24 and CSR5 bit 13 will be
asserted. As a bus target, a data parity error will cause PERRB to be
asserted.
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Pin Name
PAR
Type
T/S
STOPB
S/T/S 20
REQB
GNTB
T/S
I
115
114
EECS
BPA1
(EEDI)
O
O
59
61
BPA0
(EECK)
O
60
BPA[12:0]
O
BPA13
(LED4)
BPA14
( LED0)
BPA15
( LED1)
BPA16
( LED2)
BPD0
(EEDO)
O
74-71,
68-60
77
O
78
Boot PROM address line 14 (LED0)
O
79
Boot PROM address line 15 ( LED1)
O
80
Boot PROM address line 16 ( LED2)
T/S
58
Boot PROM data line 0(EECS=0): boot PROM or flash data line 0.
EEPROM data out(EECS=1): EEPROM serial data outpin(during reset
initialization).
T/S
T/S
51-58
69
Boot PROM data lines: boot PROM or flash data lines 7-0.
Flash Write Enable Output ( or Home PNA Link active low input )
T/S
70
O
81
Boot PROM Chip Select Output or Auxiliary Vdd input with 10k external
resistor pull-up. (Internal pull-down)
Boot PROM Output Enable ( LED3 )
O
O/D
102
110
Connecting an external resistor to ground, Resistor value=1K ohms
Power Management Event Status Output
BPD[7:0]
FWEB
( HLINKB)
FCSB
( VAUX)
FOEB
( LED3 )
RTX
PMEB
Pin No
24
128 Pin Function and Driver
PCI bus parity bit: shared PCI bus even parity bit for 32 bits AD bus and CBE
bus.
PCI Target requested transfer stop signal: as bus master, assertion of STOPB
cause MX98L715BEC either to retry, disconnect, or abort.
PCI bus request signal: to initiate a bus master cycle request
PCI bus grant acknowledge signal: host asserts to inform MX98L715BEC
that access to the bus is granted
EEPROM Chip Select pin.
Boot PROM address bit 1(EECS=0): together with BPA[15:0] to access
external boot PROM up to 256KB.
EEPROM data in(EECS=1): EEPROM serial data input pin.
Boot PROM address bit 0(EECS=0): together with BPA[15:0] to access
external boot PROM up to 256KB.
EEPROM clock(EECS=1): EEPROM clock input pin
Boot PROM address line.
Boot PROM address line 13 ( LED4 )
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MX98L715BEC
Pin Name
RXIP
Type
I
Pin No
93
RXIN
I
92
TXOP
O
99
TXON
O
98
XI/CKREF I
XO
I
LED0
O
86
87
78
LED1
O
79
LED2
O
80
LED3
O
81
LED4
O
77
VDD
P
GND
G
8,21,30,43,
49,75,121
2,5,11,16,27
34,40,46,50
76,118,123,
126
128 Pin Function and Driver
Twisted pair receive differential input: Support both 10 Base-T and 100
Base-TX receive differential input.
Twisted pair receive differential input: Support both 10 Base-T and 100
Base-TX receive differential input
Twisted pair transmit differential output: Support both 10 Base-T and 100
Base-TX transmit differential output
Twisted pair transmit differential output: Support both 10 Base-T and 100
Base-TX transmit differential output
Reference clock: 25MHz oscillator clock input or Crystal in pin
Crystal out pin
Programmable LED0 pin:
CSR9.28=1
Set the LED0 as Link Speed (10/100) LED.
CSR9.28=0
Set the LED0 as Activity LED.
Default is Activity LED after reset.
Programmable LED1 pin:
CSR9.29=1
Set the LED1 as Link/Activity LED.
CSR9.29=0
Set the LED1 as Good Link LED.
Default is Good Link LED after reset.
Programmable LED2 pin:
CSR9.30=1
Set the LED2 as Collision LED.
CSR9.30=0
Set the LED2 as Link Speed (10/100) LED.
Default is Link Speed (10/100) LED after reset.
Programmable LED3 pin:
CSR9.31=1
Set the LED3 as Full/Half Duplex LED.
CSR9.31=0
Set the LED3 as RX LED.
Default is RX LED after reset.
Programmable LED4 pin:
CSR9.24=1
Set the LED4 as Power Management Event LED.
CSR9.24=0
Set the LED4 as COL LED.
Default is Collision LED after reset.
Digital Power pins.
Digital Ground pins.
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MX98L715BEC
Pin Name
VDDA
Type
P
GNDA
G
VDDR
GNDR
TXE
( BPD1)
TXD
( BPD2)
RXD
( BPD3)
RXC
( BPD4)
COL
( BPD5)
CRS
( BPD6)
TXC
( BPD7)
CLKRUNB
P
G
T/S
Pin No
82, 85, 89,
97,103,
83,84,88,96,
100,101,104,
91, 94,105
90, 95,106
57
T/S
56
T/S
55
T/S
54
T/S
53
T/S
52
T/S
51
T/S
107
T/S
108
ISOLATE
128 Pin Function and Driver
Analog Power pins.
Analog Ground pins.
Receive Channel Power pins.
Receive Channel Ground pins.
Transmit Enable Output : TXE signal in 7 wire interface for Home PNA
connection. ( Or BPD1 pin during Flash or boot ROM activities )
Transmit Data Output : TXD signal in 7 wire interface for Home PNA
connection. ( Or BPD2 pin during Flash or boot ROM activities )
Receive Data Input : RXD signal in 7 wire interface for Home PNA
connection. ( Or BPD3 pin during Flash or boot ROM activities )
Receive Clock Input : RXC signal in 7 wire interface for Home PNA
connection. ( Or BPD4 pin during Flash or boot ROM activities )
Collision Input : COL signal in 7 wire interface for Home PNA
connection. ( Or BPD5 pin during Flash or boot ROM activities )
Transmit Enable Output : CRS signal in 7 wire interface for Home PNA
connection. ( Or BPD6 pin during Flash or boot ROM activities )
Transmit Clock Input : TXC signal in 7 wire interface for Home PNA
connection. ( Or BPD7 pin during Flash or boot ROM activities )
Mini PCI bus CLock Run pin : Indicates the MiniPCI clock status, normally
controlled by host, low for normal clocking, high when clock is about to be
slowed down. Can be asserted low by MX98L715BEC to request normal
clocking when necessary.
ISOLATE pin : Output pin to isolate external Home PNA PHY chip
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5. PROGRAMMING INTERFACE
5.1 PCI CONFIGURATION REGISTERS:
5.1.1 PCI ID REGISTER ( PFID ) ( Offset 03h-00h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9
8
7
6
5
4
3
2
1
0
Device ID (bit 31:16)
Vendor ID (bit 15:0)
This register can be loaded from external serial EEPROM or use a MXIC preset value of "10D9" and "0531" for vendor
ID and device ID respectively. Word location 3Eh and 3Dh in serial EEPROM are used to configure customer's
vendor ID and device ID respectively. If location 3Eh contains"FFFF" value then MXIC's vendor ID and device ID will
be set in this register, otherwise both 3Eh and 3Dh will be loaded into this register from serial EEPROM.
5.1.2 PCI COMMAND AND STATUS REGISTER ( PFCS ) ( Offset 07h-04h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Detect Parity Error
Signal System Error
Receive Master Abort
Receive Target Abort
Deceive Select Timing
Data Parity Report
Fast Back-to-back
New Capability
System Error Enable
Parity Error Response
Master Operation
Memory Space Access
IO Space Access
The bit content will be reset to 0 when a 1 is written to the corresponding bit location.
bit 0 : IO Space Access, set to 1 enable IO access
bit 1 : Memory Space Access, set to 1 to enable memory access
bit 2 : Master Operation, set to 1 to support bus master mode
bit 5-3 : not used
bit 6 : Parity Error Response, set to 1 to enable assertion of CSR<13> bit if parity error detected.
bit 7 : not used
bit 8 : System Error Enable, set to 1 to enable SERR# when parity error is detected on address lines and CBE[3:0].
bit 20 : New capability. Set to support PCI power management.
bit 22-bit19 : not used
bit 23 : Fast Back-to back, always set to accept fast back-to-back transactions that are not sent to the same bus
device.
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bit 24:Data Parity Report, is set to 1 only if PERR# active and PFCS<6> is also set.
bit 26-25:Device Select Timing of DEVSELB pin.
bit 27:not used
bit 28:Receive Target Abort, is set to indicate a transaction is terminated by a target abort.
bit 29:Receive Master Abort, is set to indicate a master transaction with Master abort.
bit 30:Signal System Error, is set to indicate assertion of SERRB.
bit 31:Detected Parity Error, is set whenever a parity error detected regardless of PFCS<6>.
5.1.3 PCI REVISION REGISTER ( PFRV ) ( Offset 0Bh-08h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
5
4
3
2
4
3
1
0
Base Class
Subclass
Revision Number
Step Number
bit 3 - 0 : Step Number, range from 0 to Fh.
bit 7 - 4 : Revision Number, fixed to 6h for MX98L715BEC
bit 15 - 8 : not used
bit 23 - 16 : Subclass, fixed to 0h.
bit 31 - 24 : Base Class, fixed to 2h.
5.1.4 PCI LATENCY TIMER REGISTER ( PFLT ) (Offset 0Fh-0Ch)
PFLT Register (0Fh-0Ch)
6
5
2
1
0
Configuration Latency Timer
System cache line size
bit 0 - bit 7 : System cache line size in units of 32 bit word, device driver should use this value to program CSR0<15:14>.
bit 8 - bit 15 : Configuration Latency Timer, when MX98L715BEC assert FRAMEB, it enables its latency timer to
count.
If MX98L715BEC desserts FRAMEB prior to timer expiration, then timer is ignored. Otherwise, after timer expires,
MX98L715BEC initiates transaction termination as soon as its GNTB is deserted.
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5.1.5 PCI BASE IO ADDRESS REGISTER ( PBIO ) ( Offset 13h-10h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Configuration Base Memory Address
Memory Space Indicator
bit 0 : IO/Memory Space Indicator, fixed to 1 in this field will map into the IO space. This is a read only field.
bit 7 - 1 : not used, all 0 when read
bit 31 - 8 : Defines the address assignment mapping of MX98L715BEC CSR registers.
5.1.6 PCI Base Memory Address Register ( PBMA ) ( Offset 17h-14h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Configuration Base IO Address
IO/Memory Space Indicator
bit 0 : Memory Space Indicator, fixed to 0 in this field will map into the memory space. This is a read only field.
bit 7 - 1 : not used, all 0 when read
bit 31 - 7 : Defines the address assignment mapping of MX98L715BEC CSR registers.
5.1.7 PCI SUBSYSTEM ID REGISTER ( PSID ) ( Offset 2Fh-2Ch )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Subsystem ID (31:16)
Subsystem Vendor ID (bit 15:0)
This register is used to uniquely identify the add-on board or subsystem where the NIC controller resides. Values in
this register are loaded directly from external serial EEPROM after system reset automatically. Word location 36h of
EEPROM is subsystem vendor ID and location 35h is subsystem ID.
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5.1.8 PCI BASE EXPANSION ROM ADDRESS REGISTER ( PBER ) ( Offset 33h-30h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Expansion ROM Base Address (upper 21 bit)
Address Decode Enable
bit 0 : Address Decode Enable, decoding will be enabled if only both enable bit in PFCS<1> and this expansion ROM
register are 1.
bit 16 - 1 : not use
bit 31 - 17 : Defines the upper 21 bits of expansion ROM base address.
5.1.9 PCI CAPABILITY POINTER REGISTER ( PFCP ) ( Offset 37h-34h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Capability Pointer (Set to 44h)
bit 7- 0 : Capability pointer (Cap_Ptr) is set to 44h.
bit 31- 8 : reserved
5.1.10 INTERRUPT REGISTER ( PFIT ) ( Offset 3Fh-3Ch )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
0
0
1
1
1
0
0
0
0
0
0
0
1
0
0
9
8
7
6
5
4
3
2
1
0
0
Max_Lat
Min-Gnt
Interrupt Pin
Interrupt Line
bit 7 - 0 : Interrupt Line, system BIOS will writes the routing information into this field, driver can use this information
to determine priority and interrupt vector.
bit 15 - 8 : Interrupt Pin, fixed to 01h which use INTA#.
bit 31 - 24 : Max_Lat which is a maximum period for a access to PCI bus.
bit 23 - 16 : Min_Gnt which is the maximum period that MX98L715BEC needs to finish a burst PCI cycle.
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5.1.11 PCI DRIVER AREA REGISTER ( PFDA ) ( 43h-40h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
5
4
4
3
2
1
1
0
0
Board Type
Driver Special Use
bit 29 : board type
bit 15 - 8 : driver is free to read and write this field for any purpose.
bit 7 - 0 : not used.
5.1.12 PCI POWER MANAGEMENT CAPABILITY REGISTER ( PPMC ) ( 47h-44h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
0
0
0
0
0
0
9
0
8
7
6
3
2
0
PME_Support
D2_Support
D1_Support
AUX_I
DSI
Auxiliary Power Source
PME Clock
Version
Next Pointer
Capability ID
bit 31- 27 : PME_Support, read only indicates the power states in which the function may assert LANWAKE pin.
bit 31 ---- PME_D3cold (value depending on Vaux / FCSB pin )
bit 30 ---- PME_D3hot
bit 29 ---- PME_D2
bit 28 ---- PME_D1
bit 27 ---- PME_D0
bit 26 : D2 mode support, read only, set to 1.
bit 25 : D1 mode support, read only, set to 1.
bit 24-22 : AUX_I bits. Auxiliary current field, set to 000.
bit 21 : DSI, read only, reset to 0.
bit 20 : Auxiliary power source, supporting D3cold, set to 1. This bit is valid only when bit 15 is a '1'.
bit 19 : PME Clock, read only, reset to 0.
bit 18-16 : PCI power management version1.1, set to 010, read only.
bit 15-8 : Next Pointer, all bits reset to 0.
bit 7-0 : Capability ID, read only, set to 1 indicates support of power management
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MX98L715BEC
5.1.13 PCI POWER MANAGEMENT COMMAND AND STATUS REGISTER ( PPMCSR ) ( 4Bh-48h )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
0
0
0
0
0
0
0
0
9
8
7
6
5
4
3
2
0
0
0
0
0
0
1
0
Data
Bridge Extension Support
PME_Status
Data_Scale
Data_Select
PME_EN
Reserved
Power State
bit 1-0 : Power_State, read/write, D0 mode is 00, D1 mode is 01, D2 mode is 10, D3 hot mode is 11.
bit7-2 : all 0. Reserved.
bit8 : PME_EN, set 1 to enable PMEB and LANWAKE pins. Set 0 to disable PMEB and LANWAKE assertion.
bit 12-9 : Data_Select for report in the Data register located at bit 31:24. Not supported, reset to 0.
bit 14-13 : Data_Scale, read only, not supported, reset to 0.
bit 15 : PME_Status independent of the state of PME_EN. Cleared during power up.
When set, indicates a PME event.
Write 1 to clear the PMEB and LANWAKE assertion, PME-Status become 0. Write 0, no effect.
bit 21-16 : Reserved.
bit 22 : B2_B3# = 0, BPCC_EN = 1, read only, not support.
bit 23 : BPCC_EN = 0, Bus Power/Clock Control Enable, read only, not support.
bit 31-24 : Data = 0, read only, not support.
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5.2 HOST INTERFACE REGISTERS
MX98L715BEC CSRs are located in the host I/O or memory address space. The CSRs are double word aligned and
32 bits long. Definitions and address for all CSRs are as follows :
CSR Mapping
Register
Meaning
Offset from CSR Base
Address ( PBIO and PBMA )
CSR0
Bus mode
00
CSR1
Transmit poll demand
08h
CSR2
Receive poll demand
10h
CSR3
Receive list base address
18h
CSR4
Transmit list base address
20h
CSR5
Interrupt status
28h
CSR6
Operation mode
30h
CSR7
Interrupt enable
38h
CSR8
Missed frame counter
40h
CSR9
Serial ROM and MII management
48h
CSR10
Flash Memory Address Register
50h
CSR11
General Purpose timer
58h
CSR12
10 Base-T status port
60h
CSR13
SIA Reset Register
68h
CSR14
10 Base-T control port
70h
CSR15
Watchdog timer
78h
CSR16
( Reserved ) Test Operation port
80h
CSR17
( Reserved ) IC Test Port-1
88h
CSR18
( Reserved ) IC Test Port-2
90h
CSR19
( Reserved ) IC test Port-3
98h
CSR20
Auto compensation
A0h
CSR21
Flow control Register
A4h
CSR22
MAC ID Byte 3-0
A8h
CSR23
Magic ID 5, 4 / MAC ID Byte 5, 4
ACh
CSR24
Magic ID Byte 3-0
B0h
CSR25
Filter 0 Byte Mask
B4h
CSR26
Filter 1 Byte Mask
B8h
CSR27
Filter 2 Byte Mask
BCh
CSR28
Filter 3 Byte mask
C0h
CRS29
Filter Offset
C4h
CSR30
Filter 1&0 CRC-16
C8h
CSR31
Filter 3&2 CRC-16
CCh
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MX98L715BEC
CSR32
Reserved A Register 1
D0h
CSR33
Reserved A Register 2
D4h
CSR34
Reserved A Register 3
D8h
CSR35
Reserved A Register 4
DCh
CSR36
Reserved A Register 5
E0h
CSR37
Reserved P Register
E4h
CSR38
VLAN Tag Register
E8h
CSR39
Power Management Register
ECh
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MX98L715BEC
5. 2.1 BUS MODE REGISTER ( CSR0 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
WIE-Write and Invalidate Enable
RLE-Read Line Enable
RME-Read Multiple Enable
TAP-Transmit Automatic Polling
BAR2
CAL-Cache Alignment
PBL-Programmable Burst Length
BLE-Big/Little Endian
DSL-Descriptor Skip Length
BAR0-Bus Arbitration bit 0
SWR-Software Reset
Field
0
Name
SWR
1
BAR0
6:2
DSL
7
BLE
13:8
PBL
15:14
CAL
16
BAR2
18:17
TAP
21
RME
23
RLE
24
WIE
Description
Software Reset, when set, MX98L715BEC resets all internal hardware with the exception
of the configuration area and port selection.
Internal bus arbitration scheme between receive and transmit processes.
The receive channel usually has higher priority over transmit channel when receive FIFO
is partially full to a threshold. This threshold can be selected by programming this bit. Set
for lower threshold, reset for normal threshold.
Descriptor Skip Length, specifies the number of longwords to skip between two descriptors.
Big/Little Ending, set for big ending byte ordering mode, reset for little ending byte ordering
mode, this option only applies to data buffers
Programmable Burst Length, specifies the maximum number of longwords to be transferred in one DMA transaction. default is 0 which means unlimited burst length, possible
values can be 1,2,4,8,16,32 and unlimited .
Cache Alignment, programmable address boundaries of data burst stop, MX98L715BEC
can handle non-cache- aligned fragment as well as cache-aligned fragment efficiently.
Reset to use RX dominate arbitration. Set to use TX dominant arbitration in fast forward
mode or round Robin in store/forward mode. Must be reset to zero for normal operation.
Transmit Auto-Polling time interval, defines the time interval for MX98L715BEC to performs transmit poll command automatically at transmit suspended state.
PCI Memory Read Multiple command enable, indicates bus master may intend to fetch
more than one cache lines disconnecting.
PCI Memory Read Line command enable, indicating bus master intends to fetch a complete cache line.
PCI Memory Write and Invalidate command enable, guarantees a minimum transfer of one
complete cache.
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MX98L715BEC
TABLE 5.2.0 TRANSMIT AUTO POLLING BITS
CSR<18:17>
Time Interval
00
No transmit auto-polling, a write to CSR1 is required to poll
01
auto-poll every 200 us
10
auto-poll every 800 us
11
auto-poll every 1.6 ms
5.2.2 TRANSMIT POLL COMMAND ( CSR1 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2 1
0
Transmit Poll command
Field
31:0
Name
TPC
Description
Write only, when written with any value, MX98L715BEC read transmit descriptor list in host
memory pointed by CSR4 and processes the list.
5.2.3 RECEIVE POLL COMMAND ( CSR2 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Receive Poll command
Field
31:0
Name
RPC
Description
Write only, when written with any value, MX98L715BEC read receive descriptor list in host
memory pointed by CSR3 and processes the list.
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5.2.4 DESCRIPTOR LIST ADDRESS ( CSR3, CSR4 )
CSR3 Receive List Base Address
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
9
8
7
6
5
4
3
2
1
0
Start of Receive List Address
CSR4 Transmit List Base Address
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
Start of Transmit List Address
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5.2.5 INTERRUPT STATUS REGISTER ( CSR5 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
WKUPI-Wake Up event Interrupt
LC-Link Change
EB-Error Bits
TS-Transmit Process State
RS-Receive Process State
NIS-Normal Interrupt Summary
AIS-Abnormal Interrupt Summary
ERI-Early Receive Interrupt
FBE-Fatal Bus Error
LF-Link Fail
GTE-General Purpose Timer Expired
ETI-Early Transmit Interrupt
RWT-Receive Watchdog Timeout
RPS-Receive Process Stopped
RU-Receive Buffer Unavailable
RI-Receive Interrupt
UNF-Transmit Underflow
LPANCI-Link Pass/Autonegotiation
Completed Interrupt
TJT-Transmit Jabber Timeout
TU-Transmit Buffer Unavailable
TPS-Transmit Process Stopped
TI-Transmit Interrupt
Field
28
27
Name
WKUPI
LC
25:23
22:20
19:17
16
EB
TS
RS
NIS
15
AIS
14
ERI
13
FBE
12
LF
Description
Wake Up event interrupt. Set if wake-up event occurs in power-down mode.
100 Base-TX link status has changed either from pass to fail or fail to pass.
Read CSR12<1> for 100 Base-TX link status.
Error Bits, read only, indicating the type of error that caused fatal bus error.
Transmit Process State, read only bits indicating the state of transmit process.
Receive Process State, read only bits indicating the state of receive process.
Normal Interrupt Summary, is the logical OR of CSR5<0>, CSR5<2> and CSR5<6> and
CSR5<28>.
Abnormal Interrupt Summary, is the logical OR of CSR5<1>, CSR5<3>, CSR5<5>,
CSR5<7>, CSR5<8>, CSR5<9>, CAR5<10>, CSR5<11> and CSR5<13>, CSR5<27>.
Early receive interrupt, indicating the first buffer has been filled in ring mode, or 64 bytes
has been received in chain mode.
Fatal Bus Error, indicating a system error occurred, MX98L715BEC will disable all bus
access.
Link Fail, indicates a link fail state in 10 Base-T port. This bit is valid only when
CSR6<18>=0, CSR14<8>=1, and CSR13<3>=0.
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Field
11
10
Name
GTE
ETI
9
RWT
8
RPS
7
RU
6
5
RI
UNF
4
LPANCI
3
TJT
2
TU
1
0
TPS
TI
Description
General Purpose Timer Expired, indicating CSR11 counter has expired.
Early Transmit Interrupt, indicating the packet to be transmitted was fully transferred to
internal TX FIFO. CSR5<0> will automatically clears this bit.
Receive Watchdog Time-out, reflects the network line status where receive watchdog
timer has expired while the other node is still active on the network.
Write only, when written with any value, MX98L715BEC reads receive descriptor list in
host memory pointed by CSR4 and processes the list.
Receive Buffer Unavailable, the receive process is suspended due to the next
descriptor in the receive list is owned by host. If no receive poll command is issued, the
reception process resumes when the next recognized incoming frame is received.
Receive Interrupt, indicating the completion of a frame reception.
Transmit Underflow, indicating transmit FIFO has run empty before the completion of a
packet transmission.
When autonegotiation is not enabled ( CSR14<7>=0 ), this bit indicates that the 10
Base-T link integrity test has completed successfully, after the link was down. This bit is
also set as as a result of writing 0 to CSR14<12> ( Link Test Enable ).
When Autonegotiation is enabled ( CSR14<7> =1 ) , this bit indicates that the autonegotiation
has completed ( CSR12<14:12>=5 ). CSR12 should then be read for a link status report.
This bit is only valid when CSR6<18>=0, i.e. 10 Base-T port is selected Link Fail interrupt
( CSR5<12> ) will automatically clears this bit.
Transmit Jabber Timeout, indicating the MX98715 has been excessively active. The
transmit process is aborted and placed in the stopped state. TDES0<1> is also set.
Transmit Buffer Unavailable, transmit process is suspended due to the next descriptor in
the transmit list is owned by host.
Transmit Process Stopped.
Transmit Interrupt. indicating a frame transmission was completed.
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TABLE 5.2.1 FATAL BUS ERROR BITS
CSR5<25:23>
000
001
010
011
1XX
Process State
parity error for either SERR# or PERR#, cleared by software reset.
master abort
target abort
reserved
reserved
TABLE 5.2.2 TRANSMIT PROCESS STATE
CSR5<22:20>
000
001
010
011
100
101
110
111
Process State
Stopped- reset or transmit jabber expired.
Fetching transmit descriptor
Waiting for end of transmission
filling transmit FIFO
reserved
Setup packet
Suspended, either FIFO underflow or unavailable transmit descriptor
closing transmit descriptor
TABLE 5.2.3 RECEIVE PROCESS STATE
CSR5<19:17>
000
010
011
100
101
110
111
Process State
Stopped- reset or stop receive command. Fetching receive descriptor
checking for end of receive packet
Waiting for receive packet
Suspended, receive buffer unavailable
closing receive descriptor
Purging the current frame from the receive FIFO due to unavailable receive buffer
queuing the receive frame from the receive FIFO into host receive buffer
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5.2.6 OPERATION MODE REGISTER ( CSR6 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
SCR-Scrambler Mode
PCS-PCS function
TTM-Transmit Threshold Mode
SF-Store and Forward
HBD-Hearbeat Disable
PS-Port Select
COE-Collision Offset Enable
TR-Threshold Control Bits
ST-Start/Stop Transmission Command
FC-Force collision mode
LOM-Loopback Operation Mode
FD-Full Duplex Mode
FKD
PM-Pass All Multicast
PR-Promiscuous Mode
SB-Start/Stop Backoff Counter
IF-Inverse Filtering
PB-Pass Bad Frame
HO-Hash-Only Filtering Mode
SR-Start/Stop Receive
HP-Hash/Perfect Receive Filtering Mode
Field
24
Name
SCR
23
PCS
22
21
TTM
SF
19
18
HBD
PS
17
COE
15:14
TR
Description
Scrambler Mode, default is set to enable scrambler function. Not affected by software
reset.
Default is set to enable PCS functions. CSR6<18> must be set in order to operate in
symbol mode.
Transmit Threshold Mode, set for 10 Base-T and reset for 100 Base-TX.
Store and Forward, when set, transmission starts only if a full packet is in transmit FIFO.
the threshold values defined in CSR6<15:14> are ignored
Heartbeat Disable, set to disable SQE function in 10 Base-T mode.
Port Select, default is 0 which is 10 Base-T mode, set for 100 Base-TX mode.
A software reset does not affect this bit.
Collision Offset Enable, set to enable a modified backoff algorithm during low collision
situation, reset for normal backoff algorithm.
Threshold Control Bits, these bits controls the selected threshold level for MX98L715BEC's
transmit FIFO, transmission starts when frame size within the transmit FIFO is larger
than the selected threshold. Full frames with a length less than the threshold are also
transmitted.
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MX98L715BEC
Field
13
Name
ST
12
FC
11:10
9
LOM
FD
8
7
FKD
PM
6
PR
5
SB
4
IF
3
PB
2
HO
1
SR
0
HP
Description
Start/Stop Transmission Command, set to place transmission process in running state
and will try to transmit current descriptor in transmit list. When reset, transmit process is
placed in stop state.
Force Collision Mode, used in collision logic test in internal loopback mode, set to force
collision during next transmission attempt. This can result in excessive collision reported
in TDES0<8> if 16 or more collision.
Loopback Operation Mode, see table 5.2.6.
Full-Duplex Mode, set for simultaneous transmit and receive operation, heart beat check
is disabled, TDES0<7> should be ignored, and internal loopback is not allowed. This bit
controls the value of bit 6 of link code word .
Reserved for internal test for back off speeding up
Pass All Multicast, set to accept all incoming frames with a multicast destination address
are received. Incoming frames with physical address are filtered according to the CSR6<0>
bit.
Promiscuous Mode, any incoming valid frames are accepted, default is reset and not
affected by software reset.
Start/Stop Backoff Counter, when reset, the backoff timer is not affected by the network
carrier activity. Otherwise, timer will start counting when carrier drops.
Inverse Filtering, read only bit, set to operate in inverse filtering mode, only valid during
perfect filtering mode.
Pass Bad Frames, set to pass bad frame mode, all incoming frames passed the address
filtering are accepted including runt frames, collided fragments, truncated frames caused
by FIFO overflow.
Hash-Only Filtering Mode , read only bit, set to operate in imperfect filtering mode for both
physical and multicast addresses.
Start/Stop Receive, set to place receive process in running state where descriptor
acquisition is attempted from current position in the receive list. Reset to place the
receive process in stop state.
Hash/Perfect Receive Filtering Mode, read only bit, set to use hash table to filter multicast
incoming frames. If CSR6<2> is also set, then the physical addresses are
imperfect address filtered too. If CSR6<2> is reset, then physical addresses are perfect
address filtered, according to a single physical address as specified in setup frame.
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MX98L715BEC
TABLE 5.2.4 TRANSMIT THRESHOLD
CSR6<21>
CSR6<15:14>
0
0
0
0
1
00
01
10
11
XX
CSR6<22>=0
(for 100 Base-TX)
128
256
512
1024
( Store and Forward )
CSR6<22>=1 (Threshold bytes)
(for 10 Base-T)
72
96
128
160
TABLE 5.2.5 DATA PORT SELECTION
CSR14<7>
1
0
0
CSR6<18>
0
0
1
CSR6<22>
X
1
0
CSR6<23>
X
X
1
CSR6<24>
X
X
1
Port
Nway Auto-negotiation
10 Base-T
100 Base-TX
TABLE 5.2.6 LOOPBACK OPERATION MODE
CSR6<11:10>
00
01
11
10
Operation Mode
Normal
Internal loopback at FIFO port
Internal loopback at the PHY level
External loopback at the PMD level
TABLE 5.2.7 FILTERING MODE
CSR6<7>
PM
0
0
CSR6<6>
PR
0
0
CSR6<4>
IF
0
0
CSR6<2>
HO
0
0
CSR6<0>
HP
0
1
0
0
X
1
0
0
1
0
0
1
X
X
1
X
X
X
1
0
X
X
Filtering Mode
CAM 16-entry perfect filtering
64-bit hash (mulitcast=1) + 1perfect (entry 0)
filtering. (multicast=0)
64-bit hash for multicast
Inverse filtering. Only valid with CSR6<0>=0
Promiscuous (Pass all kinds)
Pass All Multicast
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5.2.7 INTERRUPT MASK REGISTER ( CSR7 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
WKUPIE-Wake Up event interrupt Enable
LCE-Link Changed Enable
NIE-Normal interrupt Summary Enable
AIE-Abnormal Interrupt Summary Enable
ERIE-Early Receive Interrupt Enable
FBE-Fatal Bus Error Enable
LFE-Link Fail Enable
GPTE-General-Purpose Timer Enable
ETIE-Early Transmit Interrupt Enable
RWE-Receive Watchdog Enable
RSE-Receive Stopped Enable
RUE-Receive Buffer Unavailable Enable
RIE-Receive Interrupt Enable
UNE-Underflow Interrupt Enable
LPANCIE-Link Pass
/Nway Complete Interrupt Enable
TJE-Transmit Jabber Timeout Enable
TUE-Transmit Buffer Unavailable Enable
TSE-Transmit Stopped Enable
TIE-Transmit Interrupt Enable
Field
28
27
16
15
Name
WKUPIE
LCE
NIE
AIE
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
ERIE
FBE
LFE
GPTE
ETIE
RWE
RSE
RUE
RIE
UNE
LPANCIE
TJE
TUE
TSE
TIE
Description
Wake Up Event Interrupt Enable, enables CSR5<28>.
Link Changed Enable, enables CSR5<27>.
Normal Interrupt Summary Enable, set to enable CSR5<0>, CSR5<2>, CSR5<6>.
Abnormal Interrupt Summary enable, set to enable CSR5<1>, CSR5<3>, CSR5<5>,
CSR5<7>, CSR5<8>, CSR5<9>, CSR5<11> and CSR5<13>.
Early Receive Interrupt Enable
Fatal Bus Error Enable, set together with with CSR7<15> enables CSR5<13>.
Link Fail Interrupt Enable, enables CSR5<12>
General Purpose Timer Enable, set together with CSR7<15> enables CSR5<11>.
Early Transmit Interrupt Enable, enables CSR5<10>
Receive Watchdog Timeout Enable, set together with CSR7<15> enables CSR5<9>.
Receive Stopped Enable, set together with CSR7<15> enables CSR5<8>.
Receive Buffer Unavailable Enable, set together with CSR7<15> enables CSR5<7>.
Receive Interrupt Enable, set together with CSR7<16> enables CSR5<6>.
Underflow Interrupt Enable, set together with CSR7<15> enables CSR5<5>.
Link Pass/Autonegotiation Completed Interrupt Enable
Transmit Jabber Timeout Enable, set together with CSR7<15> enables CSR5<3>.
Transmit Buffer Unavailable Enable, set together with CSR7<16> enables CSR5<2>.
Transmit Stop Enable, set together with CSR7<15> enables CSR5<1>.
Transmit Interrupt Enable, set together with CSR7<16> enables CSR5<0>.
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5.2.8 MISSED FRAME COUNTER ( CSR8 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Missed Frame Overflow
Missed Frame Counter
Field
16
Name
MFO
15:0
MFC
Description
Missed Frame Overflow, set when missed frame counter overflows, reset when CSR8
is read.
Missed Frame Counter, indicates the number of frames discarded because no host
receive descriptors were available.
5.2.9 NONVOLATILE MEMORY CONTROL REGISTER ( CSR9 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
LED3SEL
LED2SEL
LED1SEL
LED0SEL
WKFCAT
LED4SEL
RD-Read Operation
Reload
BR-Boot ROM Select
SR-Serial ROM Select
Data-Boot ROM data
or Serial ROM control
Field
31
30
29
28
24
Name
Description
LED3SEL 0:Default value. Set LED3 as RX LED.
1:Set LED3 as F/H duplex LED.
LED2SEL 0: Default value. Set LED2 as SPEED LED.
1: Set LED2 as Collision LED
LED1SEL 0:Default value. Set LED1 as Good Link LED.
1: Set LED1 as Link/Activity LED.
LED0SEL 0:Default value. Set LED0 as Activity LED.
1: Set LED0 as Link Speed (10/100) LED.
LED4SEL 0: Default value. Set LED4 as Collision LED.
1: Set LED4 as PMEB LED.
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Field
26:25
14
13
12
11
7:0
3
2
1
0
Name
Description
WKFACT Wake up frame catenation option bits.
CRS21<4>
CSR<26>
CSR<25>
Wake up event
0
X
X
CH0+CH1+CH2+CH3
1
0
0
(CH0*CH1)+(CH2*CH3)
1
0
1
(CH0*CH1)+CH2+CH3
1
1
0
(CH0*CH1*CH2)+CH3
1
1
1
CH0*CH1*CH2*CH3
RD
Boot ROM/EEPROM read operation select bit
WR
EEPROM reload operation select bit.
Operation definition:
RD WR
Operation
1
0
Boot ROM/EEPROM Read
0
1
Boot ROM/EEPROM write
1
1
EEPROM reload operation ( bit 11, SR=1)
BR
Boot ROM Select, set to select boot ROM only if CSR9<11>=0.
SR
Serial ROM Select, set to select serial ROM for either read or write operation.
Data
If boot ROM is selected ( CSR9<12> is set ), this field contains the data to be read from
and written to the boot ROM. If serial ROM is selected , CSR9<3:0> are defined as
follows :
SDO
Serial ROM data out from serial ROM into MX98L715BEC.
SDI
Serial ROM data input to serial ROM from MX98L715BEC.
SCLK
Serial clock output to serial ROM.
SCS
Chip select output to serial ROM.
Notice : CSR9<11> and CSR9<12> should be mutually exclusive for correct operations.
LED DISPLAY Option Summary Table
LED0SEL
LED1SEL
LED2SEL
LED3SEL
LED4SEL*
0
ACT
LINK
SPEED
RX
COL
1
SPEED
LINK/ACT
COL
FULL/HALF
PMEB
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5.2.10 FLASH MEMORY PROGRAMMING ADDRESS REGISTER ( CSR10 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
3
2
2
1
0
MA
Field
16:0
Name
MA
Description
Flash Memory Address : Address bit 16 to 0.
GENERAL PURPOSE TIMER ( CSR11 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
1
0
CON-Continuous Mode
Timer Value
Field
16
Name
CON
15:0
Timer
Description
When set, the general purpose timer is in continuous operating mode. When reset, the
timer is in one-shot mode.
Value contains the timer value in a cycle time of 204.8us.
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5.2.11 10 BASE-T STATUS Port ( CSR12 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
LPC-Link Partner's Link Code Word
LPN-Link Partner Negotiable
ANS-Autonegotiation Arbitration State
TRF-Transmit Remote Fault
APS-Autopolarity State
LS10B-Link Status of 10 Base-T
LS100B-Link Status of 100 Base-TX
*Software reset has no effect on this register
Field
31:16
Name
LPC
15
LPN
14:12
ANS
11
3
TRF
APS
2
LS10B
1
LS100B
Description
Link Partner's Link Code Word, where bit 16 is S0 ( selector field bit 0 ) and bit31 is NP
( Next Page ). Effective only when CSR12<15> is read as a logical 1.
Link Partner Negotiable, set when link partner support NWAY algorithm and CSR14<7>
is set.
Autonegotiation Arbitration State, arbitration states are defined
000 = Autonegotiation disable
001 = Transmit disable
010 = ability detect
011 = Acknowledge detect
100 = Complete acknowledge detect
101 = FLP link good; autonegotiation complete
110 = Link check
When autonegotiation is completed, an ANC interrupt ( CSR5<4>) is generated, write
001 into this field can restart the autonegotiation sequence if CSR14<7> is set.
Otherwise, these bits should be 0.
Transmit Remote Fault
Autopolarity State, set when polarity is positive. When reset, the 10 Base-T polarity is
negative. The received bit stream is inverted by the receiver.
Set when link status of 10 Base-T port link test fail. Reset when 10 Base-T link test is in
pass state.
Link state of 100 Base-TX, this bit reflects the state of SD pin, effective only when
CSR6<23>= 1 ( PCS is set ). Set to indicate a fail condition .i.e. SD=0.
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5.2.12 VLAN & HomeLAN Register (CSR13)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
HPNA2EN
Htxrise
Hlinkb
HPNA1EN
VLANEN
VLAN TX S/H
VLAN RX S/H
Nway ResetNway and 10 Base-T PHY level reset
Field
11
10
9
8
7
6
Name
HPNA2EN
Htxrise
Hlinkb
HPNA1EN
VLANEN
VLAN TX S/H
5
VLAN RX S/H
0
Nway Reset
Description
Home PNA 2.0 MII Interface Enable, default=0
Reset to send signal in rising edge, set to send signal in falling edge, default=0.
Home PNA Link status, low is good link, high is bad link, default=0.
Home PNA 1.0 7-wire interface enable, default=0
Set to enable VLAN function, reset to disable VLAN function, default=0.
While VLANEN=1, reset this bit for software VLAN TX function,
set this bit for hardware VLAN TX function, default=0.
While VLANEN=1, reset this bit for software VLAN RX function,
set this bit for hardware VLAN RX function, default=0.
While writing 0 to this bit, resets the CSR12 & CSR14, default=0.
5.2.13 10 Base-T Control PORT (CSR14)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
PAUSE-Pause (link code word)
T4-100 Base-T4 (link code word)
TXF-100 Base-TX full duplex
(link code word)
TXH-100 Base-TX half duplex
(link code word)
LTE-Link Test Enable
RSO-Receive Squelch Enable
ANE-Autonegotiation Enable
HDE-Half Duplex Enable)
LBK-Loopback (MCC)
*The software reset bit (bit0 of CSR0) has no effect to this register.
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Field
19
18
17
16
Name
PAUSE
T4
TXF
TXH
12
8
7
6
LTE
RSQ
ANE
HDE
1
LBK
Description
Bit 10 of link code word for 100 Base-TX pause mode.
Bit 9 of link code word for T4 mode. (allways 0 after reset)
Bit 8 of link code word for 100 Base-TX full duplex mode.
Bit 7 of link code word for 100 Base-TX half duplex mode. Meaningful only when CSR14<7>
( ANE ) is set.
Link Test Enable, when set the 10 Base-T port link test function is enabled.
Receive Squelch Enable for 10 Base-T port. Set to enable.
Autonegotiation Enable, .
Half-Duplex Enable, this is the bit 5 of link code word, only meaningful when CSR14<7> is
set.
Loop back enable for 10 Base-T MCC.
5.2.14 WATCHDOG TIMER ( CSR15)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
MBZ-Must Be Zero
RWR-Receive Watchdog Release
PWD-Receive Watchdog Disable
JCK-Jabber Clock
HUJ-Host Unjabber
JAB-Jabber Disable
Field
8
5
Name
FJT
RWR
4
RWD
2
JCK
1
HUJ
0
JBD
Description
Internal test for jabber timer. Must be zero. Default = 0
Defines the time interval no carrier from receive watchdog expiration until re-enabling the
receive channel. When set, the receive watchdog is release 40-48 bit times from the last
carrier desertion. When reset, the receive watchdog is released 16 to 24 bit times from
the last carrier desertion.
When set, the receive watchdog counter is disable. When reset, receive carriers longer
than 2560 bytes are guaranteed to cause the watchdog counter to time out. Packets shorter
than 2048 bytes are guaranteed to pass.
When set, transmission is cut off after a range of 2048 bytes to 2560 bytes is transmitted,
When reset, transmission for the 10 Base-T port is cut off after a range of 26 ms to 33ms.
When reset, transmission for the 100 Base-TX port is cut off after a range of 2.6ms to
3.3ms.
Defines the time interval between transmit jabber expiration until reenabling of the
transmit channel. When set, the transmit channel is released immediately after the jabber
expiration. When reset, the jabber is released 365ms to 420 ms after jabber expiration for
10 Base-T port. When reset, the jabber is released 36.5ms to 42ms after the jabber explo
ration for 100 Base-TX port.
Jabber Disable, set to disable transmit jabber function.
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5.2.15 NWAY Status Internal test Register (CSR20)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
PAUSE
100TXF
100TXH
10TXF
10TXH
100GLT
LOCKT
SYCM1INT
RESERVED
RXSIZE1
RESERVED
BAR1
TXSIZE1
TXSIZE0
RXSIZE0
SELIDLE
Field
31
30
Name
PAUSE
100TXF
29
100TXH
28
10TXF
27
10TXH
26
25
24
19
17
16
15
100GLT
LOCKT
SYNM1INT
RESERVED
RXSIZE1
RESERVED
BAR1
14
13
11
10
TXSIZE1
TXSIZE0
RXSIZE0
SELIDLE
8:0
RBCNT
Description
Flow Control PAUSE mode is accepted, read only.
100 base-T full duplex mode selection indication : After NWAY autonegotiation , a 1
in this bit indicate the IC has settled down in this mode. Otherwise 0.
100 base-T half duplex mode selection indication : After NWAY autonegotiation , a 1
in this bit indicate the IC has settled down in this mode. Otherwise 0.
10 base-T full duplex mode selection indication : After NWAY autonegotiation , a 1
in this bit indicate the IC has settled down in this mode. Otherwise 0.
10 base-T half duplex mode selection indication : After NWAY autonegotiation , a 1
in this bit indicate the IC has settled down in this mode. Otherwise 0.
100 TX NWAY good link test speed option, set for fast, reset for normal.
Descrambler lock speed test, set for fast, reset for normal
Sync. modem function 1 Interrupt
Fixed to 1 by chip
Must be 0 for normal operation
Default is 0.
RX FIFO arbitration option control bit 1, together with CSR0<1> BAR0 define a internal
RX almost full threshold, definition as followed
BAR0
BAR1
RX Near full threshold
0
0
1K bytes
0
1
256
1
0
512
1
1
128
Device driver can determine these values to reduce over-flow error rate, option 00 is least
likely to have overflow but would reduce TX performance, while option 11 is near
round-robin type of arbitration
Must be zero for normal operation
Must be zero for normal operation
Must be zero for normal operation
Set for 200-250 ns idle pulse width detection, reset for 175-225 ns idle pulse detection
Default is 0.
RX DMA Byte Count for driver's early interrupt assertion control
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5.2.16 Flow Control Register (CSR21)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
TMVAL-Flow Control timer Value
TEST-Test Flow Counter Timer
RESTART-Set Reset Mode
RESTOP-Set Restop Mode
TXFCEN-Transmit Flow Control Enable
RXFCEN-Receive Flow Control
RUFCEN-Receive Flow Control Enable
while Receive Descriptor is Unavailable
STOPTX-Indicate the transmit is stoped
REJECTFC-Abort the Receive Flow Control Frame
FCTH1-Flow Control Thresold 1
FCTH0-Flow Control Thresold 0
NFCEN-NWAY Flow Control
WKFCATEN-Wake up Frame Catenation Enable
LNKCHGDIS - Link change indication disable
MPHITDIS - magic packet hit disable
FSTEE
Field
31:16
15
14
Name
TMVAL
TEST
RESTART
13
RESTOP
12
11
10
TXFCEN
RXFCEN
RUFCEN
9
STOPTX
8
7
6
5
4
REJECTFC
RXFCTH1
RXFCTH0
NFCEN
WKFCATEN
3
LNKCHGDIS
2
1
MPHITDIS
FSTEE
Description
Timer value in the flow control frame for receive flow control.
Test the flow control timer.
Set the receive flow control into the restart mode, the RXFCEN should be asserted. The
default value is 0.
Set the receive flow control into the restop mode, the RXFCEN should be asserted. The
default value is 0.
Transmit flow control enable. The default value is 1.
Receive flow control enable. The default value is 0.
Send flow control frame control when the receive descriptor is unavailable, the RXFCEN
should be asserted. The default value is 0.
Indicate the transmit status. If the receive flow control stop the transmission, this bit is
set. After recovering transmission, this bit is clear.
Abort the receive flow control frame when set. The default value is 1.
Receive flow control threshold 1. Default = 0
Receive flow control threshold 0. Default = 1
Accept flow control from the auto-negotiation result. Default = 1
Enable the wake up frame concatenation feature. loadable from EEPROM offset 77h bit
3, See CSR9 for details
Set to disable link change detection in power down mode, loadable from EEPROM
offset 77h bit 1
Set to disable magic packet address matching, loadable from EEPROM offset 77h bit 0
Set to speed up EEPROM clk for test, reset for normal EEPROM clock.
Receive Flow Control Threshold Table
FCTH1
1
FCTH0
1
Threshold Value (Byte) 512
1
0
256
0
1
128
0
0
overflow
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5.2.17 MAC ID Byte 3-0 Register (CSR22)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
9
8
7
6
5
4
3
2
1
0
9
8
7
6
5
4
3
2
1
0
MAC ID byte 2
MAC ID byte 3
MAC ID byte 0
MAC ID byte 1
5.2.18 Magic ID Byte 5,4/ MAC ID Byte 5,4 (CSR23)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
Magic ID byte 4
Magic ID byte 5
MAC ID byte 4
MAC ID byte 5
5.2.19 Magic ID Byte 3-0 (CSR24)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
Magic ID byte 2
Magic ID byte 3
Magic ID byte 0
Magic ID byte 1
5.2.20 Filter 0 Byte Mask Register 0 (CSR25)
Filter 1 Byte Mask Register 1 (CSR26)
Filter 2 Byte Mask Register 2 (CSR27)
Filter 3 Byte Mask Register 3 (CSR28)
CSR25 to CSR28 are Filter N ( N=0 to 3 ) Byte Mask Register N ( N=0 to 3 )
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9
8
7
6
5
4
3
2
1
0
Byte Mask
Field
31:0
Name
Byte Mask
Description
If bit number j of the byte mask is set, byte number (offset+j) of the incoming frame is
checked.
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5.2.21 Filter Offset Register (CSR29)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
Filter 3 Enable
Filter 3 Offset
Filter 2 Enable
Filter 2 Offset
Filter 1 Enable
Filter 1 Offset
Filter 0 Enable
Filter 0 Offset
Field
6:0
Name
Pattern 0 Offset
7
Filter 0 Enable
14:8
Pattern 1 Offset
15
Filter 1 Enable
22:16
Pattern 2 Offset
23
Filter 2 Enable
30:24
Pattern 3 Offset
31
Filter 3 Enable
Description
The offset defines the location of first byte that should be checked by filter 0 in the
frame. Offset is always greater than 12.
This bit is set to enable the filter 0. If it is reset, filter 0 is disabled for the wake-up
frame checking.
The offset defines the location of first byte that should be checked by filter 1 in the
frame. Offset is always greater than 12.
This bit is set to enable the filter 1. If it is reset, filter 1 is disabled for the wake-up
frame checking.
The offset defines the location of first byte that should be checked by Filter 2 in
the frame. Offset is always greater than 12.
This bit is set to enable the filter 2. If it is reset, filter 2 is disabled for the wake-up
frame checking.
The offset defines the location of first byte that should be checked by Filter 3 in
the frame. Offset is always greater than 12.
This bit is set to enable the filter 3. If it is reset, filter 3 is disabled for the wake-up
frame checking.
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5.2.22 Filter 1 and 0 CRC-16 Register (CSR30)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9
8
7
6
5
4
3
2
1
0
Filter 1 CRC-16
Filter 0 CRC-16
Field
15:0
Name
Filter 0 CRC-16
31:0
Filter 1 CRC-16
Description
The 16-bit CRC value is programmed by the driver to be matched against the
current result from the CRC-16's remainder at the location specified by Filter 0
offset and Filter 0 Byte Mask register. if matched, the incoming frame is a wakeup
frame.
Same description as Filter 0 CRC-16.
5.2.23 Filter 3 and 2 CRC-16 Register (CSR31)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9
8
7
6
5
4
3
2
1
0
Filter 3 CRC-16
Filter 2 CRC-16
Field
15:0
31:0
Name
Filter 2 CRC-16
Filter 3 CRC-16
Description
Same description as Filter 0 CRC-16.
Same description as Filter 0 CRC-16
5.2.24 PMDCTRL 1 Register (CSR32)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
0
0
0
1
1
0
1
0
1
0
0
1
0
0
0
0
1
1
0
1
1
FULLSCAL15M
FULLSCAL16M
FULLSCAL17M
PMDB40[1:0]M
PMDB60[1:0]M
PMDB100[1:0]M
PMDB120[1:0]M
PMDGS3[2:0]
PMDGS2[2:0]
PMDGS1[2:0]
PMDB2[1:0]
PMDGS4[2:0]
PMDB3[2:1]
PMDB5[2:0]
PMDPZ[1:0]
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Field
1:0
4:2
6:5
9:7
11:10
14:12
17:15
20:18
22:21
24:23
26:25
28:27
29
30
31
Description
PMDPZ[1:0] : Pole/Zero programming bit. R/W Default=00
PMDB5[2:0] : Reference programming bits. Use PMDB5[2:0} to reference if AUTOCALB=1
Use PMDB4[2:0] to set reference if AUTOCALB=0 Default=101 R/W
PMDB3[2:1] : Reference offset setting bits. Default=10. R/W
PMDGS4[2:0] : EQ transfer curve set. Use PMDGS4[2:0] to set EQ transfer curve if AUTOCALB=1
Use PMDGS3[2:0] to set EQ transfer curve id AUTOCALB=0 Default=001 R/W
PMDB2[1:0] : PMD calibration output for reference, RO.
PMDGS1[2:0] : PMD calibration output for reference, RO.
PMDGS2[2:0] : PMD calibration output ofr reference, RO.
PMDGS3[2:0} : The modified output of PMDGS2[2:0] according to EQ gain, RO.
PMDB120[1:0]M : default=11, R/W.
PMDB100[1:0]M : default=10, R/W.
PMDB60[1:0]M : default=01, R/W.
PMDB40[1:0]M : default=00, R/W.
FULLSCAL17M : default=0, R/W.
FULLSCAL16M : default=1, R/W.
FULLSCAL15M : default=0, R/W.
5.2.25 PMDCTRL 2 Register (CSR33)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
1
0
0
1
0
1
0
0
1
0
0
1
1
0
0
1
0
0
1
1
0
1
0
1
1
0
0
1
0
0
0
1
PMDUG40[1:0]M
PMDUG60[1:0]M
PMDUG100[1:0]M
PMDUG120[1:0]M
MLDTHRE3[5:0]
MLDTHRE2[5:0]
MLDTHRE1[5:0]
MLENGTH[5:0]
Field
5:0
11:6
17:12
Description
MLENGTH[5:0] : Length detection result. RO. Latch the data from SPPM[5:0] bus by LDREADM
positive edge.
LDTHRE1[5:0] : Threshold used to dertermine length range. Loaded from EEPROM. R/W Default=010010
LDTHRE2[5:0] : Threshold used to dertermine length range. Loaded from EEPROM. R/W Default=100100
23:18
25:24
27:26
29:28
31:30
LDTHRE3[5:0] : Threshold used to dertermine length range. Loaded from EEPROM. R/W Default=110101
PMDUG120[1:0]M : default=00, R/W.
PMDUG100[1:0]M : default=01, R/W.
PMDUG60[1:0]M : default=10, R/W.
PMDUG40[1:0]M : default=11, R/W.
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5.2.26 PMDCTRL 3 Register (CSR34)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
1
0
1
1
1
0
1
1
1
1
0
1
1
0
0
1
0
0
1
1
0
0
1
0
0
0
1
1
0
0
1
0
PMDUG40[1:0]M
PMDUG60[1:0]M
PMDUG100[1:0]M
PMDUG120[1:0]M
MGCTHRE2[5:0]
MGCTHRE1[5:0]
MVCPTHRE2[5:0]
MVCPTHRE1[5:0]
Field
5:0
11:6
17:12
23:18
25:24
27:26
29:28
31:30
Description
MVCPTHRE1[5:0] : Threshold used to identify process coner. Loaded from EEPROM. R/W Default=011110
MVCPTHRE2[5:0] : Threshold used to identify process coner. Loaded from EEPROM. R/W Default=100111
MGCTHRE1[5:0] : Threshold used to identify EQ gain. Loaded from EEPROM. R/W Default=011110
MGCTHRE2[5:0] : Threshold used to identify EQ gain. Loaded from EEPROM. R/W Default=110010
PMDIR120[1:0]M : default=00, R/W.
PMDIR100[1:0]M : default=01, R/W.
PMDIR60[1:0]M : default=10, R/W.
PMDIR40[1:0]M : default=11, R/W.
5.2.27 PMDCTRL 4 Register (CSR35)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
0
1
0
9
8
7
6
5
4
3
2
1
0
1
UGDFT[1:0]M
TDFT[1:0]M
PMDB[2:0]P
PMDGS[2:0]
PMDBP2:0]
MGAINCAL[5:0]
MNORMAL[5:0]
MPLLVCP[5:0]
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Field
5:0
11:6
17:12
20:18
23:21
26:24
28:27
30:29
Description
MVPLLVCP[5:0] : PLLVCP result. which can be used to identify process corner. RO. Latch the data from
SPPM[5:0] bus by PLLVCPREADM positive edge.
MNORMAL[5:0] : EQ gain at normal operation. RO. Latch the data from MEQGAIN[6:1] bus by
NORMALREADM positive edge.
MGAINCAL[5:0] : EQ gain calibration output. RO. Latch the data from MEQGAIN[6:1] bus by CALREADM
positive edge.
PMDB[2:0] : PMD calibration output for reference. RO.
PDGS[2:0] : PMD calibration output for refernce. RO.
PMDB[2:0]P : RO.
TDFT[1:0]M : default=01, R/W.
UGDFT[1:0]M : default=01, R/W.
5.2.28 PMDCTRL 5 Register (CSR36)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
1
1
1
0
0
1
1
1
1
0
0
0
1
0
0
0
1
0
0
0
0
0
0
0
1
1
1
BLBYPS
CHECK_DISBM
PMDGS40[2:0]M
PMDGS60[2:0]M
PMDGS100[2:0]M
PMDGS120[2:0]M
SDIS1M
SDIS2M
SCH1M
SCH2M
FLAGM
TRFM[3:1]
VPPGM[6:1]
R1_10
R1_100
SDBPSB
AUTOCALB
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Field
0
1
2
3
9:4
12:10
13
14
15
16
17
20:18
23:21
26:24
29:27
30
31
Description
AUTOCALB : If AUTOCALB=0, PMDGS[2:0] and PMDB[2:0] are determined automatically.
If AUTOCALB=1, PMDGS[2:0] and PMDB[2:0] are determined by driver. R/W. Default=1
SDBPSB : If SDBPSB=0, bypass signal detection. R/W. Default=1.
R1_100 : 100BT loop filter option. R/W. Default=0
R1_10 : 10BT loop filter option. R/W. Default=0
VPPGM[6:1] : AOI programming bits. R/W. Default=000111.
TRFM[3:1] : AOI programming bits. R/W. Default=111.
FLAGM : PHY output for reference, RO.
SCH2M : PMD programing bit. R/W. Default=0
SCH1M : PMD programing bit. R/W. Default=0
SDIS2M : PMD programing bit. R/W. Default=0
SDIS1M : PMD programing bit. R/W. Default=0
PMDGS120[2:0]M : default=000, R/W.
PMDGS100[2:0]M : default=001, R/W.
PMDGS60[2:0]M : default=010, R/W.
PMDGS40[2:0]M : default=100, R/W.
CHECK_DISBM : default=1, R/W.
BLBYPS:default=0, R/W
5.2.29 PLLCTRL 5 Register (CSR37)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
1
0
1
1
1
1
0
1
0
0
0
0
1
1
9
8
7
6
5
4
3
2
1
0
1
1
1
0
0
0
0
0
0
1
CTU10[5:0]
CTD10[5:0]
CTU100[5:0]
CTD100[5:0]
Field
5:0
11:6
Description
CTD100[5:0] : 100BT RXDLL down counter threshold. R/W. Default=000001.
CTD100[5:0] : 100BT RXDLL up counter threshold. R/W. Default=111110.
17:12
23:18
CTD10[5:0] : 10BT RXDLL down counter threshold. R/W. Default=010000.
CTD10[5:0] : 10BT RXDLL up counter threshold. R/W. Default=101111.
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5.2.30 VLan Tag Register (CSR38)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
QTag
User Priority
CFI
VID
Field
31:16
Name
QTag
15:13
12
11:0
Priority
CFI
VID
Description
802.1Q QTag header which is used in insertion of VLan Tag in TX packet, default
value is 8100h.
Q0S Priority bit, 000 to 111
Counonical format Indicator, default=0
VLan ID, default value is 0h.
5.2.31 Power Management Register (CSR39)
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
AUTOPM
ENRXCLK
ENTXCLK
LDD100
LDD10
PD100
PD10
RST100B
RST10B
FORCEPM
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Field
0
Name
FORCEPM
1
RST10B
2
RST100B
3
PD10
4
PD100
5
LDD10
6
LDD100
7
ENTXCLK
8
ENRXCLK
9
AUTOPM
Description
Default is 0 after host hardware reset, which means NWAY autonegotiation is
enabled. Set this bit to 1 will enable manual controls ( bit 8 :1 ) over chip power
saving features.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 and write 0 followed by write 1 to RST10B will
reset 10 base-T analog module.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 and write 0 followed by write 1 to RST100B will
reset 100 base-TX analog module.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 and write 1 to PD10 will power down 10 base-T
analog module's core except the 10 base-T line drivers.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 and write 1 to PD100 will power down 100 base-TX
analog module's core except the 100 base-TX line drivers.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 and write 1 to LDD10 will power down 10 base-TX
analog module's line drivers.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 then write 1 in LD100 will power down 100 base-TX
analog module's line drivers.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 then write 0 in ENTXCLK will stop TXC 25/2.5
MHz clock in the MAC core.
Default is 0 after host hardware reset, this bit is meaningful only if bit 0 ( FORCEPM)
is set to 1. When FORCEPM=1 then write 0 in ENRXCLK will stop RXC 25/2.5
MHz clock in the MAC core.
Default is 0 after host hardware reset, which means NWAY autonegotiation is
enabled. Set this bit high will enable automatic power saving mode which depends
on the status of PCI configuration's D0 - D3cold bits and will result in different
level of power saving.
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If D1, D2 or D3hot state is set, the PC is still turned on
and is commonly called entering the Remote Wake-up
mode. Otherwise if the main power on a PC is totally
shut off, we call that it is in the D3cold state or Remote
Power-On mode. To sustain the operation of the LAN
card, a 3.3V standby power is required. Once the PC is
turned on, MX98L715BEC loads the Magic ID from
EEPROM and set it up automatically. No registers is
needed to be programmed. After then, simply turn of
PC to enter D3cold state. In either Remote Wake-up mode
or Remote Power-On mode. The transceiver and the RX
block are still alive to monitor the network activity. If
one of the three wake-up events occurred, the following
status is changed:
5.3 ACPI Power Management Support
The Advanced Configuration and Power Interface (ACPI)
Specification defines a flexible and abstract hardware
interface for a wide variety of PC systems to implement
power and thermal management functions. This chip is
fully compliant with the OnNow Network Device Class
Power Management spec. rev.1.0, the PCI power management interface spec. rev.1.1 and the ACPI spec.
rev.1.1.
Four power states defined for a PCI function are:
* D0-Fully On.
The device is completely active and responsive.
* D1-Light Sleep.
Save a little power than D0 state. The PCI
clock is running.
* D2-Deeper Sleep:
Save more power than D1 state. The PCI clock
can be stopped.
* D3hot-Deepest Sleep:
Save more power than D2 state. The PCI clock
is stopped.
* D3cold-Power Down:
In this state, the main system power is removed from the chip but will preserve their PME
context when transition from the D3cold to the
D0 state. Such function requires an auxiliary
power source other than main system power
plane.
1. PPMCSR[15] (PME status) is set to 1.
2. CRS5[28] (WKUPI) is set to 1.
3. PCI interrupt pin INTA# is asserted low.
4. PMEB pin is asserted low.
5. In MX98L715BEC, LANWAKE are also asserted.
5.3.1 Magic Packet
The Magic Packet(TM) technology, proposed by AMD, is
used to remotely wake up a sleeping or powered off PC
on a network. This is accomplished by sending a specific packet, called Magic Packet, to a node on the network. When a NIC capable of recognizing the specific
frame goes to sleep (entering D1, D2 or D3 state), it
scans all incoming frames addressed to the node for a
specific data sequence, which indicates to the controller that this is a Magic Packet frame. The specific sequence consists of 16 duplications of the IEEE address
of this node, with no breaks or interruptions. This sequence can be located anywhere within the packet, but
must be preceded by a synchronization stream. The
synchronization stream is defined as 6 bytes of FFh.
For example, if the IEEE address for a particular node
on the network was 11h 22h 33h 44h 55h 66h, then the
Magic Packet for this node would be:
This chip also supports the OnNow Network Device Class
Specification based on the ACPI specification defines
the power management requirements of a network device. It defines the following wake-up events:
* Reception of a Magic Packet.
* Reception of a Network wake-up frame.
* Detection of change in the network link state.
To put MX98L715BEC into the sleep mode and enable
the wake-up events detection are done as following:
DA SA MISC. FF FF FF FF FF FF 11 22 33 44 55 66 11
22 33 44 55 66 11 22 33 44 55 66 11 22 33 44 55 66 11
22 33 44 55 66 11 22 33 44 55 66 11 22 33 44 55 66 11
22 33 44 55 66 11 22 33 44 55 66 11 22 33 44 55 66 11
22 33 44 55 66 11 22 33 44 55 66 11 22 33 44 55 66 11
22 33 44 55 66 11 22 33 44 55 66 11 22 33 44 55 66
MISC. CRC.
1. Write 1 to PPMCSR[8] to enable power management
feature.
2. Write the value to PPMCSR[1:0] to determine which
power state to enter.
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This chip can automatically loads the IEEE address into
the internal registers from EEPROM while booting up.
the magic packet detection scheme is not active while
chip is in normal running state (D0). After entering into
the sleep mode(D1, D2, D3) by host, the chip begins to
scan the incoming packet but does not load the packet
into RX FIFO. If a magic packet is detected, the PMEB
is asserted to notify the host.
The chip implements imperfect pattern matching by calculating a CRC-16 on all bytes of the received frame
that where specified by the pattern's offset and the byte
mask and comparing to a programmable pre-calculated
CRC-16 remainder value. The CRC calculation uses the
following polynomial:
G(X)=X16 + X15 + X2 +1
The calculated CRC-16 value is compared with four possible CRC-16 values stored in CSR30 and CSR31. if the
result matches any one and the enable bit of the corresponding filter also set, then we call a Wakeup frame
received.
Magic packet event occurs when the following conditions are approved:
* The destination address of the received packet
matches.
* The PMEN bit (PPMCSR[8]) is set to 1.
* Not in D0 state.
* The magic packet pattern matches, i.e., 6*FFh +
16* Destination ID.
Table1 shows the wake-up frame register block. This
block is accessed through CSR registers mapping.
<Note>: The CRC value is not checked during magic
packet detection.
Filter 0 Byte Mask
Filter 1 Byte Mask
Filter 2 Byte Mask
Filter 3 Byte Mask
Filter 3
Filter 2 Filter 1
Filter 0
Filter 1 CRC-16
Filter 0 CRC-16
Filter 3 CRC-16
Filter 2 CRC-16
5.3.2 Wake-up Frames
A network wake-up frame is typically a frame that is
sent by existing network protocols, such as ARP requests or IP frames addressed to the machine. Before
putting the network adapter into the wake-up state, the
system passes to the adapter's driver a list of sample
frames and corresponding byte masks. Each sample
frame is an example of a frame that should wake up the
system. Each byte mask defines which bytes of the
incoming frames should be compared with corresponding sample frame in order to determine whether or not to
accept the incoming frame as a wake-up event.
CSR25
CSR26
CSR27
CSR28
CSR29
CSR30
CSR31
The four filters can operate independently to match four
32-byte wake up frames. They also can be programmed
to catenate each other to support longer wake up frames,
ranging from 32 bytes up to 128 bytes. The following
table shows the possible combination.
The on-chip Wake-up logic provides four programmable
filters that allow support of many different receive packet
patterns. Specifically, these filters allow support of IP
and IPX protocols which currently are the only protocols
targeted to be power manageable. Each filter relates to
32 contiguous bytes in the incoming frame.
When a frame is received from the network, the chip
examines its content to determine whether the pattern
matches to a wake-up frame. To know which byte of the
frame should be checked, a programmable byte-mask
and a programmable pattern offset are used for each
one of the four supported filters. The pattern offset defines the location of the first byte in the frame that should
be checked. Beginning with the pattern offset, if bit j in
the byte mask is set, byte offset+j in the frame is checked.
CSR21.4
CSR9.26
CSR9.25
Wake up event
WKFCATEN
WKFCAT1 WKFCAT0
0
X
X
CH0+CH1+CH2+CH3
1
0
0
(CH0*CH1)+(CH2*CH3)
1
0
1
(CH0*CH1)+CH2+CH3
1
1
0
(CH0*CH1*CH2)+CH3
1
1
1
CH0*CH1*CH2*CH3
If WAKCATEN (CSR21.4) is not set, the four filters are
independent and simultaneous to match the incoming
frame. When WKFCATEN is set, the catenation options
are determined by WKFCAT<1:0> (CSR<26:25>). For
example, if WKFCAT<1:0>=00, wake up event is occurred only if either both of channel 0 and channel 1
match or both of channel 2 and channel 3 match. If the
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driver sets filter 0 and filter 1 be contiguous and also
sets filter 2 and filter 3 be contiguous by adjusting the
offsets, then two 64-byte wake up frames are supported.
Another example is that if WKFCAT<1:0>=11 and the
driver sets filter 0,1,2,3 as contiguous, a 128-byte wake
up frame is supported.
Wakeup Frames event occurs when following conditions
are met:
* Not in D0 state.
* The destination address of the received wakeup
frame matches.
* No CRC-32 error is detected in the wakeup frame.
* The PMEN bit (PPMCSR[8]) is set to 1.
* The enable bit in the wakeup frame register block
must be set.
* The CRC value calculated from the bytes in the
pre-designated locations equals to the respectively
stored CRC-16 value.
* If catenation must be met. enable bit WKFCATEN
is set, the condition in table 2.
5.3.3 Link Change
Link change wakeup event occurs when the following
conditions are met:
* Not in D0 state.
* The PMEN bit (PMCSR[8]) is set to 1.
* The cable is reconnected.
The Remote Power-on (RPO) feature is a mechanism
can be used to remotely power up a sleeping station.
When the PC turned on, MX98L715BEC loads the network ID from serial ROM automatically. Once the PC is
turned off, MX98L715BEC enters the RPO mode.
MX98L715BEC monitors the network for receipt of a
wakeup packet. If a magic packet or wake up frame is
received, it asserts LANWAKE, signal to wake up the
system. After main power is on, LANWAKE is deserted
by PCI RSTB signal. After the desertion, MX98L715BEC
can enter RPO mode again if the main power is switched
off.
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6. AC/DC CHARACTERISTICS
6.1 BOOT ROM READ TIMING
BPA 15-0
TRC
BCEB
BOEB
TOES
(CE&OE is typical shorted)
TCE
TOOLZ
TOH
TOH
BPD 7:0
TCOLZ
TACC
6.2 AC CHARACTERISTICS
SYMBOL
TRC
TCE
TACC
TOES
TOH
DESCRIPTION
Read Cycle
Chip Enable Access Time
Address Access Time
Output Enable Access Time
Output Hold from Address, CEB, or OEB
MINIMUM
8
0
TYPICAL
-
MAXIMUM
7
7
7
-
UNITS
PCI Cycle
PCI Cycle
PCI Cycle
PCI Cycl
ns
PCI cycle range:66ns (16MHz)~30ns (33MHz)
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6.3 ABSOLUTE OPERATION CONDITION
Supply Voltage (VCC)
DC Input Voltage (Vin)
DC Output Voltage (Vout)
Storage Temperature Range (Tstg)
Operating Temperature Range
Operating Surface Temperature(25°C)
Power Dissipation (PD)
Lead Temp. (TL) (Soldering, 10 sec)
ESD Rating (Rzap = 1.5k, Czap = 100pF)
Clamp Diode Current
-0.5V to +7.0V
3.15 V to 3.45 V
-0.5V to VCC + 0.5V
-55°C to +150°C
0°C to 70°C
48 °C(TYP)
750 mW (Typ.)
260°C
3kV
20mA
6.4 DC CHARACTERISTICS
Symbol
Parameter
Conditions
TTL/PCI Input/Output
Voh
Minimum High Level Output Voltage
Ioh = -3mA
Vol
Maximum Low Level Output Voltage
Iol = +6mA
Vih
Minimum High Level Input Voltage ( 3.3V/5V tolerant )
Vil
Maximum Low Level Input Voltage ( 3.3V/5V tolerant )
Iin
Input Current
Vi = VCC or GND
Ioz
Minimum TRI-STATE Output Leakage Current
Vout = VCC or GND
Min
Max
Units
0.4
2.0
0.8
+ 1.0
+10
V
V
V
V
uA
uA
0.4
V
2.4
- 1.0
-10
LED output Driver
Vlol
Supply
Idd
Vdd
LED turn on Output Voltage
Iol = 16mA
Average Supply Current
CKREF =25MHz
PCICLK = 33MHz
D0 (100Mbps)
D1 (100Mbps)
D2 (100Mbps)
D3 (100Mbps)
D0 (10Mbps)
D1 (10Mbps)
D2 (10Mbps)
D3 (10Mbps)
Average Supply Voltage
3.3V
85.5
mA
84
53
22
120
119
31
22
5% tolerant
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7.0 PACKAGE INFORMATION
128-Pin Plastic Quad Flat Pack
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MX98L715BEC
REVISION HISTORY
REVISION
0.3
DESCRIPTION
Insert "L" in parts NO. to distinguish this parts is an 3.3V parts
PAGE
DATE
MAR/30/2001
REV. 0.3, MAR. 30, 2001
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MX98L715BEC
TOP SIDE MARKING
MX98L715BEC
line 1 : MX98L715B is MXIC parts No.
"E" : PQFP
"C" : commercial grade
line 2 : Assembly Date Code.
line 3 : Wafer Lot No.
line 4 : State
C9930
TA777001
TAIWAN
MACRONIX INTERNATIONAL CO., LTD.
HEADQUARTERS:
TEL:+886-3-578-6688
FAX:+886-3-563-2888
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http : //www.macronix.com
MACRONIX INTERNATIONAL CO., LTD. reserves the right to change product and specifications without notice.