Cirrus CS8952T 100base e-x and 10base-t transceiver Datasheet

CS8952T
Advanced Product Databook
FEATURES
! Single-Chip IEEE 802.3 Physical Interface IC for
100BASE-TX and 10BASE-T
! Adaptive Equalizer provides Extended Length Operation with Superior Noise Immunity and NEXT Margin
! Extremely Low Transmit Jitter (<400 ps)
! Low Common Mode Noise on TX Driver for Reduced
EMI Problems
! Integrated RX and TX Filters for 10BASE-T
! Compensation for Back-to-Back “Killer Packets”
! Digital Interfaces Supported
— Media Independent Interface (MII) for 100BASE-X and
10BASE-T
— Repeater 5-bit code-group interface (100BASE-X)
— 10BASE-T Serial Interface
!
!
!
!
Register Set Compatible with DP83840A
IEEE 802.3 Auto-Negotiation with Next Page Support
Six LED drivers (LNK, COL, FDX, TX, RX, and SPD)
Low power (135 mA Typical) CMOS design operates
on a single 5 V supply
CrystalLAN™100BASE-X
and 10BASE-T Transceiver
DESCRIPTION
The CS8952T uses CMOS technology to deliver a high-performance, low-cost 100BASE-X/10BASE-T Physical Layer
(PHY) line interface. It makes use of an adaptive equalizer optimized for noise and near end crosstalk (NEXT) immunity to
extend receiver operation to cable lengths exceeding 160 m.
In addition, the transmit circuitry has been designed to provide extremely low transmit jitter (<400 ps) for improved link
partner performance. Transmit driver common mode noise
has been minimized to reduce EMI for simplified FCC
certification.
The CS8952T incorporates a standard Media Independent Interface (MII) for easy connection to a variety of 10 and
100 Mb/s Media Access Controllers (MACs).
ORDERING INFORMATION
CS8952T-CQ 0 to 70 °C 100-pin TQFP
CS8952T-IQ -40 to 85 °C 100-pin TQFP
CDB8952
Evaluation Board
CS8952T 10BaseT/100Base-X
Transceiver
10/100
Manchester
Encoder
TX_EN
10BaseT
Filter
TXD[3:0]
4B/5B
Encoder
MDIO
CRS
COL
RX_ER/RXD4
Scrambler
TX+/-
Slew Rate
Control
10/100
MUX
MDC
MII_IRQ
Media Independent Interface
(MII)
TX_CLK
MLT-3
Encoder
MUX
TX_ER/TXD4
4B/5B
Decoder
Descrambler
RX_DV
MLT-3
Decoder
100BaseT
Slicer
Adaptive Eq. &
Baseline Wander
Compensation
Manchester
Decoder
10BaseT
Slicer
10BaseT
Filter
Timing
Recovery
Auto
Negotiation
LED
Drivers
RX+/-
RXD[3:0]
RX_CLK
RX_EN
MII
Control/Status
Registers
Link
Management
LED1
LED2
LED3
LED4
LED5
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
Copyright  Cirrus Logic, Inc. 2001
(All Rights Reserved)
OCT ‘01
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
TABLE OF CONTENTS
INTRODUCTION .......................................................................................................................... 4
High Performance Analog ....................................................................................................... 4
Low Power Consumption ........................................................................................................ 4
Application Flexibility ............................................................................................................... 4
Typical Connection Diagram ................................................................................................... 4
PIN DESCRIPTIONS ...................................................................................................................... 6
FUNCTIONAL DESCRIPTION ..................................................................................................... 17
Digital System Interface ......................................................................................................... 17
Major Operating Modes .......................................................................................................... 17
100BASE-TX Nibble Mode ........................................................................................... 17
100BASE-X Symbol Modes .........................................................................................20
10BASE-T MII Application ............................................................................................ 21
- 10BASE-T Serial Application ..................................................................................... 22
- Auto-Negotiation .................................................................................................................. 22
- Auto-Negotiation Configuration ..................................................................................23
- Auto-Negotiation Operation ........................................................................................ 23
Reset Operation ..................................................................................................................... 24
LED Indicators ........................................................................................................................ 24
MEDIA INDEPENDENT INTERFACE .......................................................................................... 25
- MII Frame Structure ............................................................................................................. 25
- MII Receive Data ................................................................................................................. 26
MII Transmit Data ................................................................................................................... 26
MII Management Interface ..................................................................................................... 27
MII Management Frame Structure .........................................................................................27
CONFIGURATION ....................................................................................................................... 29
Configuration At Power-up/Reset Time ..................................................................................29
Configuration Via Control Pins ...............................................................................................29
Configuration via the MII ........................................................................................................ 29
CS8952T REGISTERS ................................................................................................................. 30
Basic Mode Control Register - Address 00h .......................................................................... 31
Basic Mode Status Register - Address 01h ........................................................................... 33
PHY Identifier Register, Part 1 - Address 02h ........................................................................ 35
PHY Identifier Register, Part 2 - Address 03h ........................................................................ 36
Auto-Negotiation Advertisement Register - Address 04h ....................................................... 37
Auto-Negotiation Link Partner Ability Register - Address 05h ................................................ 38
Auto-Negotiation Expansion Register - Address 06h ............................................................. 39
Auto-Negotiation Next-Page Transmit Register - Address 07h .............................................. 40
Interrupt Mask Register - Address 10h ..................................................................................41
Interrupt Status Register - Address 11h ................................................................................. 44
Disconnect Count Register - Address 12h ............................................................................. 47
False Carrier Count Register - Address 13h .......................................................................... 48
Scrambler Key Initialization Register - Address 14h .............................................................. 49
Receive Error Count Register - Address 15h ......................................................................... 50
Descrambler Key Initialization Register - Address 16h .......................................................... 51
PCS Sub-Layer Configuration Register - Address 17h .......................................................... 52
Loopback, Bypass, and Receiver Error Mask Register - Address 18h .................................. 55
Self Status Register - Address 19h ........................................................................................ 58
10BASE-T Status Register - Address 1Bh ............................................................................. 60
10BASE-T Configuration Register - Address 1Ch ................................................................. 61
DESIGN CONSIDERATIONS ......................................................................................................63
Twisted Pair Interface ............................................................................................................63
Internal Voltage Reference .................................................................................................... 63
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
2
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Clocking Schemes .................................................................................................................63
Recommended Magnetics .....................................................................................................64
Power Supply and Decoupling ...............................................................................................64
General Layout Recommendations ........................................................................................64
SPECIFICATIONS AND CHARACTERISTICS ...........................................................................67
ABSOLUTE MAXIMUM RATINGS..........................................................................................67
RECOMMENDED OPERATING CONDITIONS .....................................................................67
QUARTZ CRYSTAL REQUIREMENTS..................................................................................67
DC CHARACTERISTICS ........................................................................................................68
DC CHARACTERISTICS (CONT.) .........................................................................................69
SWITCHING CHARACTERISTICS.........................................................................................70
MECHANICAL SPECIFICATIONS ..............................................................................................82
Package Dimensions .............................................................................................................82
Recommended PCB Footprint ...............................................................................................83
REVISION HISTORY ...................................................................................................................84
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
3
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
INTRODUCTION
The CS8952T is a complete physical-layer transceiver for 100BASE-TX and 10BASE-T applications. It provides a Physical Coding Sub-layer for
communication with an external MAC (Media Access Controller), a complete Physical Medium Attachment layer, and a 100BASE-TX and 10BASET Physical Medium Dependent layer.
High Performance Analog
The highly integrated mixed-signal design of the
CS8952T eliminates the need for external analog
circuitry such as transmit or receive filters. The
CS8952T builds upon Cirrus Logic’s experience in
pioneering the high-volume manufacturing of
10BASE-T integrated circuits with “true” internal
filters. The CS8952T, CS8920, CS8904, and
CS8900 include fifth-order, continuous-time Butterworth 10BASE-T transmit and receive filters, allowing those products to meet 10BASE-T wave
shape, emission, and frequency content requirements without external filters.
low-power modes are provided to make the
CS8952T ideal for power sensitive applications.
Application Flexibility
The CS8952T’s digital interface and operating
modes can be tailored to efficiently support a wide
variety of applications. For example, the Media Independent Interface (MII) supports 100BASE-TX
and 10BASE-T NIC cards, switches and routers.
Additionally, the low-latency “repeater” interface
mode minimizes data delay through the CS8952T,
facilitating system compliance with overall network delay budgets. To support 10BASE-T applications, the CS8952T provides a 10BASE-T serial
port (Seven-wire ENDEC interface).
Typical Connection Diagram
Figure 1 illustrates a typical MII to CS8952T application with twisted-pair interfaces. Refer to the Design Considerations section for detailed
information on power supply requirements and decoupling, crystal and magnetics requirements, and
twisted-pair transceiver connections.
Low Power Consumption
The CS8952T is implemented in low power
CMOS, consuming only 135 mA typically. Three
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
4
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
VDD_MII
4.7KΩ
1.5KΩ
4.7K
CS8952
4
MII Interface
33Ω
33Ω
33Ω
33Ω
33Ω
33Ω
33Ω
33Ω
33Ω
33Ω
MDIO
MDC
TXD[3:0]
TX_ER/TXD[4]
TX_EN
TX_CLK
RXD[0]
RXD[1]/PHYAD[1]
RXD[2]
RXD[3]/PHYAD[3]
RX_ER/RXD[4]/PHYAD[4]
RX_DV/MII_DRV
RX_CLK
COL/PHYAD0
CRS/PHYAD[2]
Transformer
RJ-45
TX+
0.1µF
1
2
3
TX-
4.7KΩ
5
Control Interface
RX_EN
MII_IRQ
LPSTRT
PWRDN
REPEATER
BP4B5B
BPALIGN
LPBK
ISODEF
10BT_SER
RESET
4
51Ω
5
6
51Ω
7
51Ω
8
NC
RX+
VDD_MII
51Ω
SHLD
7
RX49.9Ω
1%
49.9Ω
1%
0.1µF
SHLD
75Ω
75Ω
51Ω
51Ω
0.01µF
2KV
XTAL_I
25MHz
XTAL_O
680Ω
SPEED10
680Ω
SPEED100
VDD_MII
680Ω
LED1
680Ω
LED2
680Ω
LED3
680Ω
LED4
680Ω
TXSLEW0
TXSLEW1
NC
AN0
AN1
NC
NC
LED5
TEST0
TEST1
TCM
VDD_MII
3
3
+ 10µF
10V
NC
VDD_MII
VSS
4.99KΩ
VDD
0.1µF
11
VDD
10V
0.1µF
19
1%
VSS
11
+ 10µF
RES
RSVD
7
VSS
Figure 1. Typical Connection Diagram
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
5
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PIN DESCRIPTIONS
CS8952
100-pin
TQFP
(14 mm x 14 mm)
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
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
RSVD
RSVD
LED5
LED4
LED3
LED2
LED1
SPD10
SPD100
VDD_MII
VSS
PWRDN
ISODEF
VSS
TXSLEW1
TXSLEW0
TCM
AN1
AN0
BP4B5B
VSS
VDD
VSS
BPALIGN
LPBK
MII_IRQ
MDIO
MDC
RXD3/PHYAD3
RXD2
RXD1/PHYAD1
RXD0
RX_DV/MII_DRV
VDD_MII
VSS
RX_CLK
RX_ER/RXD4/PHYAD4
TX_ER/TXD4
VSS
VDD
VSS
TX_CLK
TX_EN
TXD0
TXD1
TXD2
TXD3
COL/PHYAD0
CRS/PHYAD2
LPSTRT
VSS
VDD
VSS
NC
NC
NC
NC
NC
NC
VSS
VDD
VSS
VSS
RX_EN
RESET
REPEATER
CLK25
VSS
VDD
VSS
VDD_MII
VSS
10BT_SER
TEST1
TEST0
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
VDD
RSVD
RSVD
XTAL_O
XTAL_I
VSS
VDD
VSS
RXRX+
VSS
VDD
VDD
VSS
RES
VSS
RSVD
VSS
VDD
TXTX+
VDD
VSS
RSVD
RSVD
Pin Diagram
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
6
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
MII Interface Pins
COL/PHYAD0 - Collision Detect/PHY Address 0. Input/Tri-State Output, Pin 48.
Asserted active-high to indicate a collision on the medium during half-duplex operation. In
full-duplex operation, COL is undefined and should be ignored. When configured for 10 Mb/s
operation, COL is also used to indicate a Signal Quality Error (SQE) condition.
At power-up or at reset, the logic value on this pin is latched into bit 0 of the PHY Address
field of the Self Status Register (address 19h). This pin includes a weak internal pull-down
(~ 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
NOTE: Silicon revisions A and B included a weak internal pull-up rather than a pull-down.
CRS/PHYAD2 - Carrier Sense/PHY Address 2. Input/Tri-State Output, Pin 49.
The operation of CRS is controlled by the REPEATER pin as follows:
REPEATER pin
high
low
low
DUPLEX mode
don’t care
full duplex
half duplex
CRS Indicates
receive activity only
receive activity only
receive or transmit activity
At power-up or at reset, the logic value of this pin is latched into bit 2 of the PHY Address
Field of the Self Status Register (address 19h). This pin includes a weak internal pull-down
(> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
MDC - Management Data Clock. Input, Pin 28.
Input clock used to transfer serial data on MDIO. The maximum clock rate is 16.67 MHz. This
clock may be asynchronous to RX_CLK and TX_CLK.
MDIO - Management Data Input/Output. Bi-Directional, Pin 27.
Bi-directional signal used to transfer management data between the CS8952T and the Ethernet
controller.
In order to conform with Annex 22B of the IEEE 802.3u specification, the MII_DRV pin
should be pulled high during power-up or reset, and the MDIO pin should have an external
1.5 KΩ pull-up resistor.
MII_IRQ - MII Interrupt. Open Drain Output, Pin 26.
Asserted low to indicate the status corresponding to one of the unmasked interrupt status bits in
the Interrupt Status Register (address 11h) has changed. It will remain low until the ISR is read,
clearing all status bits.
This open drain pin requires a 4.7 kΩ pull-up resistor.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
7
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
RX_CLK - Receive Clock. Tri-State Output, Pin 36
Continuous clock output used as a reference clock for sampling RXD[3:0], RX_ER, and
RX_DV. RX_CLK will have the following nominal frequency:
Speed
100 Mb/s
10 Mb/s
10 Mb/s
10BT_SER pin
n/a
low (parallel)
high (serial)
Nominal frequency
25 MHz
2.5 MHz
10 MHz
In order to conform with Annex 22B of the IEEE 802.3u specification, the MII_DRV pin
should be pulled high during power-up or reset, and the RX_CLK pin should have an external
33 Ω series resistor. For systems not required to drive external connectors and cables as
described in the IEEE802.3u specification, the external series resistor may not be necessary.
RX_DV/MII_DRV - Receive Data Valid/MII Drive Strength. Input/Tri-State Output, Pin 33.
Asserted high to indicate valid data nibbles are present on RXD[3:0].
At power-up or at reset, this pin is used as an input to determine the drive strength of the MII
output drivers. When the pin is low, all MII output drivers will be standard 4 mA CMOS
drivers. When high, additional drive strength will be added to the MII output drivers. This pin
includes a weak internal pull-down (> 20 KΩ), or the value may be set by an external 4.7 KΩ
pull-up or pull-down resistor.
In order to conform with Annex 22B of the IEEE 802.3u specification, this pin should be
pulled high during power-up or reset and should have an external 33 Ω series resistor. For
systems not required to drive external connectors and cables as described in the IEEE802.3u
specification, it may be possible to reduce overall power consumption by pulling the pin low at
power-up or reset, and the external series resistor may not be necessary.
RX_EN - Receive Enable. Input, Pin 14.
When high, signals RXD[3:0], RX_CLK, RX_DV, and RX_ER are enabled. When low, these
signals are tri-stated. RX_EN allows the received data signals of multiple PHY transceivers to
share the same MII bus.
This pin includes a weak internal pull-up (> 150 KΩ), or the value may be set by an external
10 KΩ pull-up or pull-down resistor.
RX_ER/PHYAD4/RXD4 - Receive Error/PHY Address 4/Receive Data 4. Input/Tri-State Output,
Pin 37.
During normal MII operation, this pin is defined as RX_ER (Receive Error). When RX_DV is
high, RX_ER asserted high indicates that an error has been detected in the current receive
frame. When RX_DV is low and RXD[3:0] = “1110”, RX_ER high indicates a False Carrier
condition.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
8
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
If either BPALIGN or BP4B5B is asserted, then this pin is re-defined as RXD4 (Receive
Data 4), the most-significant bit of the received five-bit code-group. If the 4B5B encoder is
being bypassed, receive data is present when RX_DV is asserted. If alignment is being
bypassed, data reception is continuous.
At power-up or at reset, the logic value on this pin is latched into bit 4 of the PHY Address
field of the Self Status Register (address 19h). This pin includes a weak internal pull-down
(> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
In order to conform with Annex 22B of the IEEE 802.3u specification, the MII_DRV pin
should be pulled high during power-up or reset, and the RX_ER pin should have an external
33 Ω series resistor. For systems not required to drive external connectors and cables as
described in the IEEE802.3u specification, the external series resistor may not be necessary.
RXD3/PHYAD3 - Receive Data 3/PHY Address 3. Input/Tri-State Output, Pin 29.
RXD2 - Receive Data 2. Tri-State Output, Pin 30.
RXD1/PHYAD1 - Receive Data 1/PHY Address 1. Input/Tri-State Output, Pin 31.
RXD0 - Receive Data 0. Tri-State Output, Pin 32.
Receive data output. Receive data is present when RX_DV is asserted. RXD0 is the leastsignificant bit. For MII modes, nibble-wide data (synchronous to RX_CLK) is transferred on
pins RXD[3:0]. In 10 Mb/s serial mode, pin RXD0 is used as the serial output pin, and
RXD[3:1] are ignored. When either BP4B5B or BPALIGN is selected, pin RXD4 contains the
most-significant bit of the five-bit code-group.
At power-up or at reset, the value on RXD1/PHYAD1 is latched into bit 1 of the PHY Address
field of the Self Status Register (address 19h). This pin includes a weak internal pull-down
(> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
At power-up or at reset, the logic value on RXD3/PHYAD3 is latched into bit 3 of the PHY
Address field of the Self Status Register (address 19h). This pin includes a weak internal pulldown (> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
In order to conform with Annex 22B of the IEEE 802.3u specification, the MII_DRV pin
should be pulled high during power-up or reset, and the RXD[3:0] pins should have external
33 Ω series resistors. For systems not required to drive external connectors and cables as
described in the IEEE802.3u specification, the external series resistors may not be necessary.
TX_CLK - Transmit Clock. Input/Tri-State Output, Pin 42.
Continuous clock signal used by the CS8952T as a reference clock to sample TXD[3:0],
TX_ER, and TX_EN. TX_CLK can be referenced either internally (Output Mode) or externally
(Input Mode) based upon the value of the TCM pin at power-up or at reset.
TCM pin
high
floating
low
TX_CLK mode
TX_CLK is input
TX_CLK is input
TX_CLK is output
CLK25 status
CLK25 pin is an output
CLK25 is disabled
CLK25 is disabled
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
9
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
When the TCM pin is high on power-up or reset, the CLK25 pin may be used as a source for
the TX_CLK pin. When the TCM pin is floating on power-up or reset, TX_CLK must be
supplied externally. TX_CLK should have the following nominal frequency:
Speed
100 Mb/s
10 Mb/s
10 Mb/s
10BT_SER pin
low (nibble)
low (nibble)
high (serial)
Nominal frequency
25 MHz
2.5 MHz
10 MHz
TX_EN - Transmit Enable. Input, Pin 43.
Asserted high to indicate valid data nibbles are present on TXD[3:0]. When BPALIGN is
selected, TX_EN must be pulled up to VDD_MII.
TX_ER/TXD4 - Transmit Error Encoding/Transmit Data 4. Input, Pin 38.
When high, TX_ER indicates to the CS8952T that a transmit error has occurred. If TX_ER is
asserted simultaneously with TX_EN in 100 Mb/s mode, the CS8952T will ignore the data on
the TXD[3:0] pins and transmit one or more 100 Mb/s HALT symbols in its place. In 10 Mb/s
mode, TX_ER has no effect on the transmitted data.
If BP4B5B or BPALIGN are set, TX_ER/TXD4 is used to transmit the most-significant bit of
the five-bit code group.
TXD[3:0] - Transmit Data. Input, Pins 47, 46, 45, and 44.
Transmit data input pins. For MII modes, nibble-wide data (synchronous to TX_CLK) must be
presented on pins TXD[3:0] when TX_EN is asserted high. TXD0 is the least significant bit. In
10 Mb/s serial mode, pin TXD0 is used as the serial input pin, and TXD[3:1] are ignored.
When either BP4B5B or BPALIGN is selected, pin TXD4 contains the most significant bit of
the five-bit code-group.
Control and Status Pins
10BT_SER - 10 Mb/s Serial Mode Select. Input, Pin 23.
When asserted high during power-up or reset and 10 Mb/s operation is selected, serial data will
be transferred on pins RXD0 and TXD0. When low during power-up or reset and 10 Mb/s
operation is selected, data is transferred a nibble at a time on RXD[3:0] and TXD[3:0]. This
pin is ignored during 100 Mb/s operation.
10 Mb/s serial mode may also be entered under software control through bit 9 of the 10BASET Status Register (address 1Bh).
At power-up or at reset, the value on this pin is latched into bit 9 of the 10BASE-T Status
Register (address 1Bh). This pin includes a weak internal pull-down (> 20 KΩ), or the value
may be set by an external 4.7 KΩ pull-up or pull-down resistor.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
10
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
AN[1:0] - Auto-Negotiate Control. Input, Pins 58 and 57.
These three-level input pins are sampled during power-up or reset. They control the forced or
advertised auto-negotiation operating modes. If either of these pins is left unconnected, internal
logic pulls its signal to a mid-range value, designated as 'M' in the following table. Either pin
may also be connected to a 5 to 25 MHz TTL-level clock source, designated as ’C’ in the
following table. A minimum of 8 rising edges of the clock are required while RESET is
asserted for the AN[1:0] input logic to interpret the input as ’C’.
AN1 pin
0
1
M
M
C
M
C
M
0
0
1
1
C
C
1
0
AN0 pin
M
M
0
1
M
C
C
M
0
1
0
1
1
0
C
C
Forced/Auto
Forced
Forced
Forced
Forced
Forced
Forced
Forced
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Speed
10 Mb/s
10 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100/10 Mb/s
10 Mb/s
10 Mb/s
100 Mb/s
100 Mb/s
100/10 Mb/s
100/10 Mb/s
100 Mb/s
10 Mb/s
Full/Half Duplex
Half
Full
Half
Full
Full (Note 1)
Full (Note 2)
Half (Note 3)
Full/Half
Half
Full
Half
Full
Full
Half
Full/Half
Full/Half
1. The Auto-Negotiation Advertisement Register will be modified to advertise 100 Mb/s
Full/Half.
2. The Auto-Negotiation Advertisement Register will be modified to advertise
100/10 Mb/s Full.
3. The Auto-Negotiation Advertisement Register will be modified to advertise
100/10 Mb/s Half.
Auto-Negotiation may also be enabled and the advertised capabilities modified under software
control through bit 8 of the Basic Mode Control Register (address 00h), and bits 5, 6, 7, 8, and
10 of the Auto-Negotiation Advertisement Register (address 04h).
These pins are pulled to ‘M’ through weak internal resistors (> 150 KΩ). Other values may be
set by tying them directly to VDD_MII, VSS, or a clock source, or through external 10 KΩ
pull-up or pull-down resistors.
BP4B5B - Bypass 4B5B Coders. Input, Pin 56.
When driven high during power-up or reset, the transmit 4B5B encoder and receiver 5B4B
decoder are bypassed. Five-bit code groups are output and input on pins RXD[4:0] and
TXD[4:0].
The 4B5B Coders may also be bypassed under software control through bit 14 of the
Loopback, Bypass, and Receiver Error Mask Register (address 18h).
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
11
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
At power-up or at reset, the value on this pin is latched into bit 14 of the Loopback, Bypass
and Receiver Error Mask Register (address 18h). This pin includes a weak internal pull-down
(> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
BPALIGN - Bypass Symbol Alignment. Input, Pin 52.
When driven high during power-up or reset, the following blocks are bypassed: 4B5B encoder,
5B4B decoder, scrambler and descrambler. Five-bit code groups are output and input on pins
RXD[4:0] and TXD[4:0]. The receiver will output five-bit data with no attempt to identify
code-group boundaries; therefore, the data in one RXD[4:0] word may contain data from two
code groups.
Symbol alignment may also be bypassed under software control through bit 12 of the
Loopback, Bypass, and Receiver Error Mask Register (address 18h).
At power-up or at reset, the value on this pin is latched into bit 12 of the Loopback, Bypass
and Receiver Error Mask Register (address 18h). This pin includes a weak internal pull-down
(> 20 KΩ), or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
ISODEF - Isolate Default. Input, Pin 63.
When asserted high during power-up or reset, the MII will power-up electrically isolated except
for the MDIO and MDC pins. When low, the part will exit reset fully electrically connected to
the MII.
The MII may also be isolated under software control through bit 10 of the Basic Mode Control
Register (address 00h).
At power-up or at reset, the value on this pin is latched into bit 10 of the Basic Mode Control
Register (address 00h). This pin includes a weak internal pull-down (> 20 KΩ), or the value
may be set by an external 4.7 KΩ pull-up or pull-down resistor.
LED1 - Transmit Active LED. Open Drain Output, Pin 69.
This active-low output indicates transmit activity. It contains a pulse stretcher to insure that the
transmit events are visible when the pin is used to drive an LED. The definition of this pin may
be modified to indicate Disconnect Detection (bit 5 of the Self Status Register (address 19h))
by setting bit 2 of the PCS Sub-layer Configuration Register (address 17h).
This pin can be simultaneously connected to an LED and to a TTL-compatible, CMOS input
pin.
LED2 - Receive Activity LED. Open Drain Output, Pin 70.
This active-low output indicates receive activity. It contains a pulse stretcher to insure that the
receive events are visible when the pin is used to drive an LED.
This pin can be simultaneously connected to an LED and to a TTL-compatible, CMOS input
pin.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
12
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
LED3 - Link Good LED. Open Drain Output, Pin 71.
This active-low output indicates the CS8952T has detected a valid link.
This pin can be simultaneously connected to an LED and to a TTL-compatible, CMOS input
pin.
LED4 - Polarity/Full Duplex LED. Open Drain Output, Pin 72.
This active-low output indicates:
1) for 100 Mb/s operation, the CS8952T is in full-duplex operation,
2) for 10 Mb/s operation, either good polarity exists or full duplex is selected (see bit 1 in the
PCS Sub-layer Configuration Register (address 17h)).
This pin can be simultaneously connected to an LED and to a TTL-compatible, CMOS input
pin.
LED5 - Collision/Descrambler Lock LED. Open Drain Output, Pin 73.
This active-low output is asserted when either the CS8952T detects a collision (bit 11 of the
PCS Sub-Layer Configuration Register (address 17h) is clear), or the 100BASE-TX
descrambler is synchronized (bit 11 of the PCS Sub-Layer Configuration Register (address 17h)
is set). It contains a pulse stretcher to insure that the collision events are visible when the pin
is used to drive an LED.
This pin can be simultaneously connected to an LED and to a TTL-compatible, CMOS input
pin.
LPBK - Loopback Enable. Input, Pin 51.
When this pin is asserted high and the CS8952T is operating in 100 Mb/s mode, the CS8952T
will perform a local loopback inside the PMD block. The loopback includes all CS8952T
100 Mb/s functionality except the MLT-3 coders and the analog line interface blocks.
When asserted high and the CS8952T is operating in 10 Mb/s mode, the CS8952T will perform
a local ENDEC loopback.
LPSTRT - Low Power Start. Input, Pin 50.
When this active-low input is asserted during power-up or reset, the CS8952T will exit reset in
a low power configuration, where the only circuitry enabled is that necessary to maintain the
media impedance. The CS8952T will remain in a low power state until RESET pin is asserted
or the MDC pin toggles.
This pin includes a weak internal pull-down (> 20 KΩ), or the value may be set by an external
4.7 KΩ pull-up or pull-down resistor.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
13
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PWRDN - Power Down. Input, Pin 64.
When this pin is asserted high, the CS8952T powers down all circuitry except that circuitry
needed to maintain the network line impedance. This is the lowest power mode possible. The
CS8952T will remain in low power mode until the PWRDN pin is deasserted.
A slightly higher power power-down mode may also be entered under software control through
bit 11 of the Basic Mode Control Register (address 00h).
REPEATER - REPEATER Mode Select. Input, Pin 16.
This pin controls the operation of the CRS (Carrier Sense) pin as shown below:
REPEATER pin
high
low
low
DUPLEX mode
don’t care
full duplex
half duplex
CRS Indicates
receive activity only
receive activity only
receive or transmit activity
At power-up or at reset, the value on this pin is latched into bit 12 of the PCS Sub-Layer
Configuration Register (address 17h). This pin includes a weak internal pull-down (> 20 KΩ),
or the value may be set by an external 4.7 KΩ pull-up or pull-down resistor.
SPD10 - 10 Mb/s Speed Indication. Output, Pin 68.
This pin is asserted high when the CS8952T is configured for 10 Mb/s operation. This pin can
be used to drive a low-current LED to indicate 10 Mb/s operation.
SPD100 - 100 Mb/s Speed Indication. Output, Pin 67.
This pin is asserted high when the CS8952T is configured for 100 Mb/s operation. This pin can
be used to drive a low-current LED to indicate 100 Mb/s operation.
TCM - Transmit Clock Mode Initialization. Input, Pin 59.
The logic value on this three-level pin during power-up or reset determines whether TX_CLK
is used as an input or an output, and whether an external 25 MHz clock reference is provided
on the CLK25 output pin.
TCM pin
high
floating
low
TX_CLK mode
TX_CLK is input
TX_CLK is input
TX_CLK is output
CLK25 status
CLK25 pin is an output
CLK25 is disabled
CLK25 is disabled
TEST[1:0] - Factory Test. Input, Pins 24 and 25.
These pins are for factory test only. They include weak internal pull-downs (> 20 KΩ), and
should be tied directly to VSS for normal operation.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
14
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
TXSLEW[1:0] - Transmit Slew Rate Control. Input, Pins 61 and 60.
These three-level pins allow adjustment to the rise and fall times of the 100BASE-TX
transmitter output waveform. The rise and fall times are symmetric.
TXSLEW0 pin
low
low
low
floating
floating
floating
high
high
high
TXSLEW1 mode
low
floating
high
low
floating
high
low
floating
high
Rise/Fall time
0.5 ns
1.0 ns
1.5 ns
2.0 ns
2.5 ns
3.0 ns
3.5 ns
4.0 ns
4.5 ns
Media Interface Pins
RX+, RX- - 10/100 Receive. Differential Input Pair, Pins 91 and 92.
Differential input pair receives 10 or 100 Mb/s data from the receive port of the transformer
primary.
TX+, TX- - 10/100 Transmit. Differential Output Pair, Pins 80 and 81.
Differential output pair drives 10 or 100 Mb/s data to the transmit port of the transformer
primary.
General Pins
CLK25 - 25 MHz Clock. Tristate Output, Pin 17.
A 25 MHz Clock is output on this pin when the CS8952T is configured to use an external
reference transmit clock in TX_CLK IN MASTER mode. See the pin description for the
Transmit Clock Mode Initialization pin (TCM) for more information on TX_CLK operating
modes.
CLK25 may also be enabled regardless of the TCM pin state by clearing bit 7 of the PCS Sublayer Configuration Register (address 17h).
RES - Reference Resistor. Input, Pin 86.
This input should be connected to ground with a 4.99 kΩ +/-1% series resistor. The resistor is
needed for the biasing of internal analog circuits.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
15
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
RESET - Reset. Input, Pin 15.
This active high input initializes the CS8952T, and causes the CS8952T to latch the input
signal on the following pins: COL/PHYAD0, CRS/PHYAD2, RX_ER/PHYAD4/RXD4,
10BT_SER, BP4B5B, BPALIGN, BPSCR, ISODEF, REPEATER, RXD1/PHYAD1, and
RXD3/PHYAD3.
XTAL_I - Crystal Input, Pin 96.
XTAL_O - Crystal Output, Pin 97.
A 25 MHz crystal should be connected across pins XTAL_I and XTAL_O. If a crystal is not
used, a 25 MHz CMOS level clock may be connected to XTAL_I and XTAL_O left open.
NOTE: The XTAL_I pin capacitive load may be as high as 35pF. Any external clock source connected to this pin
must be capable of driving larger capacitive loads.
RSVD - Reserved. Pins 74, 75, 76, 77, 84, 98, and 99.
These seven pins are reserved and should be tied to VSS.
VDD_MII - I/O Pad Power. Pins 21, 34, and 66.
These pins provide power to all CS8952T digital I/O pads. Typically VDD_MII will be either
+5V or +3.3V.
VDD - Core Power. Pins 2, 11, 19, 40, 54, 79, 82, 88, 89, 94, and 100.
These pins provide power to the CS8952T core. Typically, VDD should be +5V.
VSS - Pins 1, 3, 10, 12, 13, 18, 20, 22, 35, 39, 41, 53, 55, 62, 65, 78, 83, 85, 87, 90, 93, and 95.
These pins provide a ground reference for the CS8952T.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
16
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
FUNCTIONAL DESCRIPTION
Interface, most fundamental functions can be set at
power-up and reset time through external pins.
Digital System Interface
The primary digital interface to the CS8952T is an
enhanced IEEE 802.3 Media Independent Interface
(MII). The MII supports parallel data transfer, access to the CS8952T Control and Status registers,
and several status and control pins.
For 100BASE-X applications, the digital data interface can be either 4-bit parallel (nibbles) or 5-bit
parallel (symbols). For 10BASE-T applications,
the digital data format can be either 4-bit parallel
(nibbles) or one-bit serial.
While the CS8952T can be fully controlled through
configuration registers via the MII Management
Operating Mode
100BASE-TX Nibble
10BASE-T Nibble
100BASE-TX Symbol
10BASE-T Serial
Major Operating Modes
The following sections describe the four major operating modes of the CS8952T:
-
100BASE-TX Nibble Mode
-
100BASE-X Symbol Modes
-
10BASE-T Nibble Mode
-
10BASE-T Serial Mode
The digital interface mode (nibble, symbol, or serial) is selected through input pins 10BT_SER,
BPALIGN and BP4B5B as shown in Table 1.
10BT_SER
0
BPALIGN
0
BP4B5B
0
0
0
1
0
1
Don’t Care
1
Don’t Care
Don’t Care
Table 1. Operating Mode Selection
The choice of operating speed and duplex mode is
made using the auto-negotiation input pins (AN0,
AN1) and/or the auto-negotiation MII registers.
Both speed and duplex modes can either be forced
or negotiated with the link partner as shown in
Table 5 on page 23.
100BASE-TX Nibble Mode
In 100BASE-TX nibble mode, the CS8952T provides an IEEE 802.3-compliant MII interface. Data
is transferred across the MII in four-bit nibbles.
TX_CLK and RX_CLK are nominally 25 MHz.
Symbol Encoding and Decoding
Four-bit nibble transmit data is encoded into fivebit symbols for transmission onto the media as
shown in Tables 2 and 3. While this encoding causes the symbol rate transmitted across the wire (125
symbols/second) to be greater than the actual data
rate of the system (100 symbols/second), it is necessary to allow data and control symbols to be sent
consecutively along the same media transparent to
the MAC layer.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
17
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
DATA and CONTROL Codes (RX_ER = 0 or TX_ER = 0)
5-bit Symbol 4-bit Nibble
Comments
Name
DATA (Note 1)
0
11110
1
01001
2
10100
3
10101
4
01010
5
01011
6
01110
7
01111
8
10010
9
10011
A
10110
B
10111
C
11010
D
11011
E
11100
F
11101
CONTROL (Note 2)
I
11111
J
11000
K
10001
T
01101
R
00111
0000
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
1011
1100
1101
1110
1111
0101
0101
0101
0000
0000
IDLE (Note 3)
First Start of Stream Symbol
Second Start of Stream Symbol
First End of Stream Symbol
Second End of Stream Symbol
1. DATA code groups are indicated by RX_DV = 1
2. CONTROL code groups are inserted automatically during transmission in response to
TX_EN. They are not generated through any combination of TXD[3:0] or TX_ER.
3. IDLE is indicated by RX_DV = 0.
Table 2. 4B5B Symbol Encoding/Decoding
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
18
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Code Violations (RX_ER = 1 or TX_ER = 1)
Error Report
Mode 4-bit
Normal Mode 4-bit
Nibble
Nibble
Name
5-bit Symbol
CONTROL (Note 1)
I
11111
0000
J
11000
0000
K
10001
0000
T
01101
0000
R
00111
0000
CODE VIOLATIONS
H
00100
0000
V0
00000
0110 or 0101 (Note 2)
V1
00001
0110 or 0101 (Note 2)
V2
00010
0110 or 0101 (Note 2)
V3
00011
0110 or 0101 (Note 2)
V4
00101
0110 or 0101 (Note 2)
V5
00110
0110 or 0101 (Note 2)
V6
01000
0110 or 0101 (Note 2)
V7
01100
0110 or 0101 (Note 2)
V8
10000
0110 or 0101 (Note 2)
V9
11001
0110 or 0101 (Note 2)
0000
0000
0000
0000
0000
Comments
This portion of the table relates received
5-bit symbols to received 4-bit nibbles
only. The control code groups may not
be transmitted in the data portion of the
frame.
0000
0001
0111
1000
1001
1010
1011
1100
1101
1110
1111
1. CONTROL code groups become violations when found in the data portion of the frame.
2. Invalid code groups are mapped to 5h unless the Code Error Report select bit in the Loopback,
Bypass, and Receiver Error Mask Register (address 18h) is set, in which case invalid code groups are
mapped to 6h.
Table 3. 4B5B Code Violation Decoding
Carrier Sense Operation
The CRS pin (Carrier Sense) is asserted when either the transmitter is active or the receiver detects
at least two non-contiguous ZEROS within any 10
bits in the received data stream. Once asserted, it
will remain asserted until the transmitter has gone
idle or the receiver detects 10 consecutive ONES.
CRS is not synchronous to RX_CLK. It may transition at any time.
Link Integrity Monitor
valid signal levels for at least 1 ms. If the signal
levels fall below the minimum for more than
350 us, the Link Status bit in the Basic Mode Status
Register (address 01h) is cleared, the Link Status
Change bit in the Interrupt Status Register (address
11h) is set, and the Disconnect Count Register (address 12h) is incremented.
When auto-negotiation is enabled, the link will be
further qualified by the detection 100BASE-X
mode and 12 consecutive IDLE code groups.
Collision Detection
The link integrity monitor determines whether the
underlying receive channel is providing reliable
data.
For half duplex, a collision is detected when the receiver and transmitter are active simultaneously.
Collisions are reported by asserting the COL pin.
When auto-negotiation is disabled, the link is considered to be stable when the receiver has detected
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
19
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
COL is not synchronous to RX_CLK. It may transition at any time.
False Carrier Detection
A false carrier condition is detected when the receiver has asserted CRS but a valid /J/K code group
sequence is not received.
When this condition is detected, the CS8952T will
assert RX_ER and place 1110 on the RXD[3:0]
pins until either the receiver detects at least two
consecutive IDLE code groups. In addition, the
False Carrier Count Register (address 13h) will be
incremented.
100 Mb/s Loopback
The CS8952T includes two 100 Mb/s loopback
modes.
Local loopback redirects the TXD[3:0] input data
to RXD[3:0] data outputs through the 4B5B coders
and scramblers. Local loopback is selected by asserting pin LPBK, by setting the LPBK bit (bit 14)
in the Basic Mode Control Register (address 00h)
or by setting bits 8 and 11 in the Loopback, Bypass,
and Receiver Error Mask Register (address 18h) as
shown in Table 4.
Remote loopback redirects the analog line interface
inputs to the analog line driver outputs. Remote
loopback is selected by setting bit 9 in the Loopback, Bypass, and Receiver Error Mask Register
(address 18h) as shown in Table 4.
Remote
PMD
Loopback Loopback
(bit 9)
(bit 8)
Function
0
0
No Loopback
0
1
Local Loopback (toward MII)
1
0
Remote Loopback (toward
line)
1
1
Operation is undefined
Table 4. Loopback Mode Selection
When changing between local and non-loopback
modes, the data on RXD[3:0] will be undefined for
approximately 330 µs.
100BASE-X Symbol Modes
The CS8952T provides two low latency modes for
100BASE-X repeater applications. These are selected by asserting either pin BPALIGN or
BP4B5B. Both pins have the effect of bypassing
the 4B5B encoder and decoder. Bypassing the coders decreases latency, and uses a 5-bit wide parallel
code group interface on pins RXD[4:0] and
TXD[4:0] instead of the 4-bit wide MII nibble interface on pins RXD[3:0] and TXD[3:0]. In repeater mode, pin RX_ER is redefined as the fifth
receive data bit (RXD4), and pin TX_ER is redefined as the fifth transmit data bit (TXD4).
BPALIGN can also be selected by setting bit 12 in
Loopback, Bypass, and Receiver Error Mask Register (address 18h). BP4B5B can be selected by setting bit 14 of the same register.
Pin BPALIGN causes more of the CS8952T to be
bypassed than the BP4B5B pin. BPALIGN also
bypasses the scrambler/descrambler (see Figure 1).
Asserting the REPEATER pin or setting bit 12 in
the PCS Sublayer Configuration Register (address
17h) redefines the function of the CRS (carrier
sense) pin to be asserted only on receive activity.
The REPEATER pin is also used to enable the Carrier Integrity Monitor feature by default.
For repeater applications, the RX_EN pin can be
used to gate the receive data pins (RXD[4:0],
RX_CLK, RX_DV, COL, and CRS) onto a shared,
external repeater system bus.
Carrier Integrity Monitor
The Carrier Integrity Monitor function allows a repeater to protect the attached network from some
transient fault conditions that would disrupt network communications. The CS8952T contains a
self-interrupt capability to prevent a segment’s
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
20
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
spurious carrier activity from propagating through
the repeater to other attached segments.
The false carrier detection logic described earlier is
used to increment a false carrier counter. When two
consecutive false carrier events are detected, the
CS8952T will deassert the Link OK bit in the Self
Status Register (address 19h), set the Link Status
Change bit in the Interrupt Status Register (address
11h), increment the Disconnect Count Register
(address 12h), stop propagating received data to the
MII, and ignore any transmit data from the MII.
The receiver will continue to monitor the received
data stream for valid IDLE symbols. Once disabled, the receiver and transmitter will remain disabled until the Link Integrity Monitor has
determined the link has again stabilized.
The Carrier Integrity Monitor may be disabled
through the CIM Disable bit in the PCS Sub-Layer
Configuration Register (address 17h). It is enabled
by default when the REPEATER pin is asserted on
reset or power-up.
10BASE-T MII Application
The digital interface used in this mode is the same
as that used in the 100BASE-X nibble modes except that TX_CLK and RX_CLK are nominally
2.5 MHz.
The CS8952T includes a full-featured 10BASE-T
interface, as described in the following sections.
Duplex operation
The CS8952T supports both 10BASE-T full and
half duplex operation as determined by pins
AN[1:0] and/or the corresponding MII register bits.
(See Table 5 on page 23).
Carrier Detection
The carrier detect circuit informs the MAC that
valid receive data is present by asserting the Carrier
Sense signal (CRS) as soon it detects a valid bit
pattern (1010b or 0101b for 10BASE-T). During
normal packet reception, CRS remains asserted
while the frame is being received, and is de-asserted within 2.3 bit times after the last low-to-high
transition of the End-of-Frame (EOF) sequence.
Whenever the receiver is idle (no receive activity),
CRS is de-asserted.
Collision Detection
If half duplex operation is selected, the CS8952T
detects a 10BASE-T collision whenever the receiver and transmitter are active simultaneously. When
a collision is present, the collision is reported on
pin COL.
Collision detection is undefined for full-duplex operation.
Jabber
The jabber timer monitors the transmitter and disables the transmission if the transmitter is active for
greater than approximately 105 ms. The transmitter stays disabled until approximately 406 ms after
the internal transmit request is no longer enabled.
Link Test Pulses
To prevent disruption of network operation due to
a faulty link segment, the CS8952T continually
monitors the 10BASE-T receive pair (RXD+ and
RXD-) for packets and link pulses. After each
packet or link pulse is received, an internal LinkLoss timer is started. As long as a packet or link
pulse is received before the Link-Loss timer finishes (between 50 and 100 ms), the CS8952T maintains normal operation. If no receive activity is
detected, the CS8952T disables packet transmission to prevent “blind” transmissions onto the network (link pulses are still sent while packet
transmission is disabled). To reactivate transmission, the receiver must detect a single packet (the
packet itself is ignored), or two normal link pulses
separated by more than 6 ms and no more than
50 ms.
In the absence of transmit packets, the transmitter
generates link pulses in accordance with
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
21
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Section 14.2.1.1 of the Ethernet standard. Transmitted link pulses are positive pulses, one bit time
wide, typically generated at a rate of one every
16 ms. The 16 ms timer also starts whenever the
transmitter completes an End-of-Frame (EOF) sequence. Thus, a link pulse will be generated 16 ms
after an EOF unless there is another transmitted
packet.
Link Polarity Detection
The CS8952T automatically checks the polarity of
the receive half of the twisted pair cable. To detect
a reversed pair, the receiver examines received link
pulses and the End-of-Frame (EOF) sequence of
incoming packets. If it detects at least one reversed
link pulse and at least four frames in a row with
negative polarity after the EOF, the receive pair is
considered reversed.
If the polarity is reversed and the Polarity Disable
bit of the 10BASE-T Configuration Register (address 1Ch) is clear, the CS8952T automatically
corrects a reversal.
SQE (Heartbeat) Test Function
When SQE is enabled, the CS8952T will assert the
COL pin for approximately 10 bit times within 1 µs
after the transmission of each packet.
The SQE function is disabled by default when the
REPEATER pin is deasserted on reset or powerup. It may be enabled through the SQE Enable bit
in the 10BASE-T Configuration Register (address
1Ch).
Receiver Squelch
The 10BASE-T squelch circuit determines when
valid data is present on the RXD+/RXD- pair. Incoming signals passing through the receive filter
are tested by the squelch circuit. Any signal with
amplitude less than the squelch threshold (either
positive or negative, depending on polarity) is rejected.
10BASE-T Loopback
When Loopback is selected, the TXD[3:0] pins are
looped back into the RXD[3:0] pins through the
Manchester Encoder and Decoder. Selection is
made via:
-
setting bit 14 in the Basic Mode Control
Register (address 00h) or
-
setting bits 8 and 11 in the Loopback, Bypass, and Receiver Error Mask Register
(address 18h) or
-
asserting the LPBK pin.
10BASE-T Serial Application
This mode is selected when pin 10BT_SER is asserted during power-up or reset, and operates similar to the 10BASE_T MII mode except that data is
transferred serially on pins RXD0 and TXD0 using
a 10 MHz RX_CLK and TX_CLK. Receive data is
framed by CRS rather than RX_DV.
Auto-Negotiation
The CS8952T supports auto-negotiation, which is
the mechanism that allows the two devices on either end of an Ethernet link segment to share information and automatically configure both devices
for maximum performance. When configured for
auto-negotiation, the CS8952T will detect and automatically operate full-duplex at 100 Mb/s if the
device on the other end of the link segment also
supports full-duplex, 100 Mb/s operation, and
auto-negotiation. The CS8952T auto-negotiation
capability is fully compliant with the relevant portions of section 28 of the IEEE 802.3u standard.
The CS8952T can auto-negotiate both operating
speed (10 versus 100 Mb/s), duplex mode (half duplex versus full duplex), and flow control (pause
frames), or alternatively can be set not to negotiate.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
22
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Auto-Negotiation Configuration
At power-up and reset times, the auto-negotiation
mode is selected via the auto-negotiation input pins
(AN[1:0]). These three-level input pins are sampled during power-up or reset. If either of these
pins is left unconnected, internal logic pulls its signal to a mid-range value, designated as 'M' in the
following table. Either pin may also be connected
to a 5 to 25 MHz TTL-level clock source, designated as ‘C’ in the following table. A minimum of 8
rising edges of the clock are required while RESET
is asserted for the AN[1:0] input logic to interpret
the input as ‘C’.
Auto-Negotiation may also be enabled and the advertised capabilities modified under software control through bit 8 of the Basic Mode Control
Register (address 00h), and bits 5, 6, 7, 8, and 10 of
AN1 pin
0
1
M
M
C
M
C
M
0
0
1
1
C
C
1
0
AN0 pin
M
M
0
1
M
C
C
M
0
1
0
1
1
0
C
C
the Auto-Negotiation Advertisement Register (address 04h).
Auto-Negotiation Operation
Auto-Negotiation encapsulates information within
a burst of closely spaced Link Integrity Test Pulses,
referred to as a Fast Link Pulse (FLP) Burst. The
FLP Burst consists of a series of Link Integrity
Pulses which form an alternating clock / data sequence. Extraction of the data bits from the FLP
Burst yields a Link Code Word which identifies the
capability of the remote device.
In order to support legacy 10 and 100 Mb/s devices, the CS8952T also supports parallel detection. In
parallel detection, the CS8952T monitors activity
on the media to determine the capability of the link
partner even without auto-negotiation having occurred.
Forced/Auto
Forced
Forced
Forced
Forced
Forced
Forced
Forced
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Auto-Neg
Speed
10 Mb/s
10 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100 Mb/s
100/10 Mb/s
10 Mb/s
10 Mb/s
100 Mb/s
100 Mb/s
100/10 Mb/s
100/10 Mb/s
100 Mb/s
10 Mb/s
Full/Half Duplex
Half
Full
Half
Full
Full (Note 1)
Full (Note 2)
Half (Note 3)
Full/Half
Half
Full
Half
Full
Full
Half
Full/Half
Full/Half
Table 5. Auto-negotiation Mode Selection
1. The Auto-Negotiation Advertisement Register will be modified to advertise 100 Mb/s
Full/Half.
2. The Auto-Negotiation Advertisement Register will be modified to advertise
100/10 Mb/s Full.
3. The Auto-Negotiation Advertisement Register will be modified to advertise
100/10 Mb/s Half.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
23
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Reset Operation
Reset occurs in response to six different conditions:
1) There is a chip-wide reset whenever the RESET pin is high for at least 200 ns. During a
chip-wide reset, all circuitry and registers in the
CS8952T are reset.
2) When power is applied, the CS8952T maintains reset until the voltage at the VDD supply
pins reaches approximately 3.6 V. The
CS8952T comes out of reset once VDD is
greater than approximately 3.6 V and the crystal oscillator has stabilized.
3) There is a chip-wide reset whenever the RESET bit (bit 15 of the Basic Mode Control Register (address 00h)) is set.
4) Digital circuitry is reset whenever bit 0 of the
PCS Sub-Layer Configuration Register (address 17h) is set. Analog circuitry is unaffected.
5) Analog circuitry is reset and recalibrated whenever the CS8952T enters or exits the powerdown state, as requested by pin PWRDN.
6) Analog circuitry is reset and recalibrated whenever the CS8952T changes between 10 Mb/s
and 100 Mb/s modes.
After a reset, the CS8952T latches the signals on
various input pins in order to initialize key registers
and goes through a self configuration. This includes calibrating on-chip analog circuitry. Time
required for the reset calibration is typically 40 ms.
External circuitry may access registers internal to
the CS8952T during this time. Reset and calibration complete is indicated when bit 15 of the Basic
Mode Control Register (address 00h) is clear.
LED Indicators
The LEDx, SPD100, and SPD10 output pins provide status information that can be used to drive
LEDs or can be used as inputs to external control
circuitry. Indication options include: receive activity, transmit activity, collision, carrier sense, polarity OK, descrambler synchronization status, autonegotiation status, speed (10 vs. 100), and duplex
mode.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
24
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
MEDIA INDEPENDENT INTERFACE
The Media Independent Interface (MII) provides a
simple interconnect to an external Media Access
Controller (MAC). This connection may be chip to
chip, motherboard to daughterboard, or a connection between two assemblies attached by a limited
length of shielded cable and an appropriate connector.
The CS8952T's MII interface is enhanced beyond
IEEE requirements by register extensions and the
addition of pins for MII_IRQ, RX_EN, and ISODEF signals. The MII_IRQ pin provides an interrupt signal to the controller when a change of state
has occurred in the CS8952T, eliminating the need
for the system to poll the CS8952T for state changes. The RX_EN signal allows the receiver outputs
to be electrically isolated. The ISODEF pin controls the value of register bit ISOLATE in the Basic
Mode Control Register (address 00h) which in turn
electrically isolates the CS8952T's MII data path.
The MII interface uses the following pins:
STATUS Pins
-
COL - Collision indication, valid only for
half duplex modes.
-
CRS - Carrier Sense indication
SERIAL MANAGEMENT Pins
-
MDIO - a bi-directional serial data path
-
MDC - clock for MDIO (16.7 MHz max)
-
MII_IRQ - Interrupt indicating change in
the Interrupt Status Register (address 11h)
RECEIVE DATA Pins
-
RX_EN - Can be used to tri-state receiver
output pins
TRANSMIT DATA Pins
-
TXD[3:0] - Parallel data input path
-
TX_CLK - Transmit clock
-
TX_EN - Indicates when transmit data is
present and valid
-
TX_ER - Request to transmit a 100BASET HALT symbol, ignored for 10BASE-T
operation.
The interface uses TTL signal levels, which are
compatible with devices operating at a nominal
supply voltage of either 5.0 or 3.3 volts. It is capable of supporting either 10 Mb/s or 100 Mb/s data
rates transparently. That is, all signaling remains
identical at either data rate; only the nominal clock
frequency is changed.
MII Frame Structure
Data frames transmitted through the MII have the
following format:
Preamble
(7 Bytes)
Start of
Frame
Delimiter
(1 Byte)
Data
End of
Frame
Delimiter
Each frame is preceded by an inter-frame gap. The
inter-frame gap is an unspecified time during
which no data activity occurs on the media as indicated by the de-assertion of CRS for the receive
path and TX_EN for the transmit path.
The Preamble consists of seven bytes of 10101010.
-
RXD[3:0] - Parallel data output path
The Start of Frame Delimiter consists of a single
byte of 10101011.
-
RX_CLK - Recovered clock output
Data may be any number of bytes.
-
RX_DV - Indicates when receive data is
present and valid
-
RX_ER - Indicates presence of error in received data
The End of Frame Delimiter is conveyed by the deassertion of RX_DV and TX_EN for receive and
transmit paths, respectively.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
25
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Transmission and/or reception of each byte of data
is done one nibble at a time in the following order:
MAC’s Serial Bit Stream
First Bit
LSB D0 D1 D2 D3 D4 D5 D6 D7 MSB
First
Nibble
LSB
MII
Nibble
Stream
MSB
Second
Nibble
D0
D1
D2
D3
Receive errors are indicated during frame reception
by the assertion of RX_ER. It indicates that an error was detected somewhere in the frame currently
being transferred across the MII. RX_ER will transition synchronously with respect to the RX_CLK,
and will be held high for one cycle for each error
received. It is up to the MAC to ensure that a CRC
error is detected in that frame by the Logical Link
Control. Figure 2 illustrates reception without errors, and Figure 3 illustrates reception with errors.
MII Transmit Data
MII Receive Data
The presence of recovered data on the RXD[3:0]
bus is indicated by the assertion of RX_DV.
RX_DV will remain asserted from the beginning of
the preamble (or Start of Frame Delimiter if preamble is not used) to the End of Frame Delimiter.
Once RX_DV is asserted, valid data will be driven
onto RXD[3:0] synchronously with respect to
RX_CLK.
TX_EN is used by the MAC to signal to the
CS8952T that valid nibbles of data are being presented across the MII via TXD[3:0]. TX_EN must
be asserted synchronously with the first nibble of
preamble, and must remain asserted as long as valid data is being presented to the MII.
TX_EN must be de-asserted within one TX_CLK
cycle after the last nibble of data (CRC) has been
presented to the CS8952T. When TX_EN is not asserted, data on TXD[3:0] is ignored.
RX_CLK
RX_DV
RXD[3:0]
Preamble
SFD
SFD
Data
Data
Data
Data
Data
CRC
RX_ER
Figure 2. Reception without errors
RX_CLK
RX_DV
RXD[3:0]
Preamble
SFD
SFD
Data
Data
Data
Error
XX
XX
XX
RX_ER
Figure 3. Reception with errors
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
26
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
TX_CLK
TX_EN
TXD[3:0]
Preamble
Data
Data
Data
Data
Data
Data
Data
CRC
TX_ER
Figure 4. Transmission without errors
TX_CLK
TX_EN
TXD[3:0]
Preamble
Data
Data
Data
Data
XX
TX_ER
Figure 5. Transmission with errors
Transmit errors should be signaled by the MAC by
asserting TX_ER for one or more TX_CLK cycles.
TX_ER must be synchronous with TX_CLK. This
will cause the CS8952T to replace the nibble with
a HALT symbol in the frame being transmitted.
This invalid data will be detected by the receiving
PHY and flagged as a bad frame. Figure 4 illustrates transmission without errors, and Figure 5 illustrates transmission with errors.
MII Management Interface
The CS8952T provides an enhanced IEEE 802.3
MII Management Interface. The interface consists
of three signals: a bi-directional serial data line
(MDIO), a data clock (MDC), and an optional interrupt signal (MII_IRQ). The Management Interface can be used to access status and control
registers internal to the CS8952T. The CS8952T
implements an extended set of 16-bit MII registers.
Eight of the registers are defined by the IEEE 802.3
specification, while the remaining registers provide
enhanced monitoring and control capabilities.
As many as 31 devices may share a single Management Interface. A unique five-bit PHY address is
associated with each device, with all devices responding to PHY address 00000. The CS8952T determines its PHY address at power-up or reset
through the PHYAD[4:0] pins.
MII Management Frame Structure
Frames transmitted through the MII Management
Interface have the format shown in Table 6 on
page 28.
When the management interface is idle, the MDIO
signal will be tri-stated, and the MAC is required to
keep MDIO pulled to a logic ONE.
At the beginning of each transaction, the MAC will
typically send a sequence of 32 contiguous logic
ONE bits on MDIO with 32 corresponding clock
cycles on MDC to provide the CS8952T with a pattern that it can use to establish synchronization.
Optionally, the CS8952T may be configured to op-
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
27
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
erate without the preamble through bit 9 of the PCS
Sub-Layer Configuration Register (address 17h).
Preamble
(32 bits)
Start of
Frame
(2 bits)
Opcode
(2 bits)
PHY
Address
(5 bits)
Register
Address
(5 bits)
Turnaround
(2 bits)
Data
(16 bits)
Idle
Table 6. MII Management Interface Frame Format
The Start of Frame is indicated by a 01 bit pattern.
A read transaction is indicated by an Opcode of 10
and a write by 01.
The PHY Address is five bits, with the most significant bit sent first. If the PHY address included in
the frame is not 00000 or does not match the PHYAD field of the Self Status Register (address 19h),
the rest of the frame is ignored.
The register address is five bits, with the most significant bit sent first, and indicates the CS8952T
register to be written to/read from.
The Turnaround time is a two bit time spacing between when the MAC drives the last register ad-
dress bit onto MDIO and the data field of a
management frame in order to avoid contention
during a read transaction. For a read transaction,
the MAC should tri-state the MDIO pin beginning
on the first bit time, and the CS8952T will begin
driving the MDIO signal to a logic ZERO during
the second bit time. During write transactions,
since the MDIO direction does not need to be reversed, the MAC will drive the MDIO to a logic
ONE for the first bit time and a logic ZERO for the
second.
The data field is always 16 bits in length, with the
most significant bit sent first.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
28
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
CONFIGURATION
Configuration Via Control Pins
The CS8952T can be configured in a variety of
ways. All control and status information can be accessed via the MII Serial Management Interface.
Additionally, many configuration options can be
set at power-up or reset times via individual control
lines. Some configuration capabilities are available
at any time via individual control lines.
The following pins are for dedicated control signals
and can be used at any time to configure the
CS8952T.
Configuration At Power-up/Reset Time
At power-up and reset time, the following pins are
used to configure the CS8952T.
Pin Name
10BT_SER
AN[1:0]
BP4B5B
BPALIGN
ISODEF
LPSTRT
PHYAD[4:0]
REPEATER
Function
Select 10BASE-T serial mode
Select auto-negotiation mode
Bypass 4B5B coders
Bypass 4B5B coders and scramblers
Electrically isolate MII after reset
Start in low power mode
Set MII PHY address
Control definition of CRS pin, enable
carrier integrity monitor and SQE function
MII_DRV
Set MII driver strength
TCM
Set TX_CLK mode
TXSLEW[1:0] Set 100BASE-TX transmitter output
slew rate
Pin Name
LPBK
PWRDN
RESET
Function
Enter loopback mode
Enter power-down mode
Reset
Table 8. Dedicated Control Pins
Configuration via the MII
The CS8952T supports configuration by software
control through the use of 16-bit configuration and
status registers accessed via the MDIO/MDC pins
(MII Management Interface). The first seven registers are defined by the IEEE 802.3 specification.
Additional registers extend the register set to provide enhanced monitoring and control capabilities.
Table 7. Reset Configuration Pins
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
29
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
CS8952T REGISTERS
The CS8952T register set is comprised of the 16bit status and control registers described below. A
detailed description each register follows.
Register Address
0h
1h
2h
3h
4h
5h
6h
7h
8h through Fh
10h
11h
12h
13h
14h
15h
16h
17h
18h
19h
1Ah
1Bh
1Ch
1Dh through 1Fh
Description
Basic Mode Control Register
Basic Mode Status Register
PHY Identifier #1
PHY Identifier #2
Auto-Negotiation Advertisement Register
Auto-Negotiation Link Partner Ability Register
Auto-Negotiation Expansion Register
Auto-Negotiation Next Page Transmit Register
Reserved by IEEE 802.3 Working Group
Interrupt Mask Register
Interrupt Status Register
Disconnect Count Register
False Carrier Count Register
Scrambler Key Initialization Register
Receive Error Count Register
Descrambler Key Initialization Register
PCS Sub-Layer Configuration Register
Loopback, Bypass and Receiver Error Mask Register
Self-Status Register
Reserved
10BASE-T Status Register
10BASE-T Configuration Register
Reserved
Type
Read/Write
Read-Only
Read-Only
Read-Only
Read/Write
Read-Only
Read-Only
Read/Write
Read/Write
Read-Only
Read-Only
Read-Only
Read/Write
Read-Only
Read/Write
Read/Write
Read/Write
Read/Write
Read-Only
Read/Write
-
Table 9. CS8952T Register Set
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
30
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Basic Mode Control Register - Address 00h
15
Software
Reset
14
Loopback
7
Collision Test
6
BIT
NAME
15
Software Reset
14
Loopback
13
Speed Selection
12
Auto-Neg Enable
11
Power Down
10
Isolate
13
Speed
Selection
12
Auto-Neg
Enable
5
4
TYPE
Read/Set
RESET
0
Read/Write 0
11
10
Power Down
Isolate
3
Reserved
2
9
Restart
Auto-Neg
1
8
Duplex Mode
0
DESCRIPTION
Setting this bit performs a chip-wide reset. All status
and control registers are set to their default states,
and the analog circuitry is re-calibrated. This bit is an
Act-Once bit which is cleared once the reset and recalibration have completed.
This bit will also be set automatically while the analog
circuitry is reset and re-calibrated during mode
changes.
When set, the CS8952T is placed in a loop back
mode. Any data sent on the transmit data path is
returned on the receive data path. Loopback mode is
entered regardless of whether 10 Mb/s or 100 Mb/s
operation has been configured.
This bit will be set upon the assertion of the LPBK
pin, and will be automatically cleared upon its deassertion.
Read/Write If auto-negotiation When bit 12 is clear, setting this bit configures the
is enabled via the CS8952T for 100 Mb/s operation. Clearing this bit
AN[1:0] pins, reset sets the configuration at 10 Mb/s. When bit 12 is set,
this bit is ignored.
to 1; otherwise,
reset to 0
Read/Write If auto-negotiation Setting this bit enables the auto-negotiation process.
is enabled via the When this bit is set, bits 13 and 8 have no affect on
AN[1:0] pins, reset the link configuration. The link configuration is determined by the auto-negotiation process. Clearing this
to 1; otherwise,
bit disables auto-negotiation.
reset to 0
Read/Write 0
When this bit is set, the CS8952T enters a low power
consumption state. Clearing this bit allows normal
operation.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
Read/Write If PHYAD = 00000, Setting this bit causes the MII data path to be electrireset to 1; other- cally isolated by tri-stating all data outputs (i.e.
wise reset to the TX_CLK, RX_CLK, RX_DV, RX_ER, RXD[3:0], COL,
value on the ISO- and CRS). In addition the CS8952T will not respond
to the TXD[3:0], TX_EN, and TX_ER inputs. It will,
DEF pin
however, respond to MDIO and MDC. Clearing this
bit allows normal operation.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
31
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Basic Mode Control Register - Address 00h (Cont.)
9
BIT
NAME
Restart Auto-Neg
TYPE
Read/Set
8
Duplex Mode
R/W
7
Collision Test
R/W
6:0
Reserved
Read Only
RESET
DESCRIPTION
Setting this bit causes auto-negotiation to be
restarted. It is an Act-Once bit which is cleared once
auto-negotiation has begun. Clearing this bit has no
effect on the auto-negotiation process.
If auto-negotiation When bit 12 is clear, this bit controls the Fullis enabled via the Duplex/Half-Duplex operation of the part. When set,
AN[1:0] pins, reset the part is configured for Full-Duplex operation, and
when clear the part is configured for Half Duplex
to 0; otherwise,
operation. The setting of this bit is superseded by
reset to 1
auto-negotiation, and thus has no effect if bit 12 is
set.
0
When set, the COL pin will be asserted within 10 bit
times in response to the assertion of TX_EN. Upon
the deassertion of TX_EN, COL will be deasserted
within 4 bit times. When Collision Test is clear, COL
functions normally.
000 0000
0
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
32
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Basic Mode Status Register - Address 01h
15
14
13
100BASE-TX/ 100BASE-TX/
100BASE-T4
Full Duplex
Half Duplex
7
Reserved
6
MF Preamble
Suppression
5
Auto-Neg
Complete
12
10BASE-T/
Full Duplex
11
10BASE-T/
Half Duplex
10
4
3
Auto-Neg
Ability
2
1
Link Status
Jabber Detect
Remote Fault
BIT
NAME
15
100BASE-T4
TYPE
Read Only
0
14
100BASE-TX/Full
Duplex
Read Only
1
13
100BASE-TX/Half
Duplex
Read Only
1
12
10BASE-T/Full
Duplex
Read Only
1
11
10BASE-T/Half
Duplex
Read Only
1
10:7
6
Reserved
Read Only
MF Preamble Sup- Read Only
pression
0000
1
5
Auto-Neg Complete Read Only
0
4
Remote Fault
0
Read Only
RESET
9
8
Reserved
0
Extended
Capability
DESCRIPTION
The CS8952T does not support 100BASE-T4 operation, so this bit will always read 0.
When this bit is set, it indicates that the CS8952T is
capable of 100BASE-TX Full-Duplex operation. This
bit reflects the status of the 100BASE-TX/Full-Duplex
bit in the Auto-Negotiation Advertisement Register
(address 04h).
When this bit is set, it indicates that the CS8952T is
capable of 100BASE-TX Half-Duplex operation. This
bit reflects the status of the 100BASE-TX/Half Duplex
bit in the Auto-Negotiation Advertisement Register
(address 04h).
When this bit is set, it indicates that the CS8952T is
capable of 10BASE-T Full-Duplex operation. This bit
reflects the status of the 10BASE-T/Full Duplex bit in
the Auto-Negotiation Advertisement Register
(address 04h).
When this bit is set, it indicates that the CS8952T is
capable of 10BASE-T Half-Duplex operation. This bit
reflects the status of the 10BASE-T/Half Duplex bit in
the Auto-Negotiation Advertisement Register
(address 04h).
When set, this bit indicates that the CS8952T is capable of accepting management frames regardless of
whether they are preceded by the preamble pattern.
When clear, it indicates that the management frame
must be preceded by the preamble pattern to be considered valid. This bit reflects the status of the MR
Preamble Enable bit in the PCS Sub-Layer Configuration Register (address 17h).
This bit is set to a 1 when the auto-negotiation process has completed. This is an indication that data is
valid in the Auto-Negotiation Advertisement Register
(address 04h), the Auto-Negotiation Link Partner
Ability Register (address 05h), and the Auto-Negotiation Expansion Register (address 06h).
When auto-negotiation is enabled, this bit is set if the
Remote Fault bit is set in the Auto-Negotiation Link
Partner Ability Register (address 05h). When autonegotiation is disabled, this bit will be set when a FarEnd Fault Indication for 100BASE-TX is detected.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
33
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Basic Mode Status Register - Address 01h (Cont.)
3
BIT
NAME
Auto-Neg Ability
TYPE
Read Only
1
RESET
2
Link Status
Read Only
0
1
Jabber Detect
Read Only
0
DESCRIPTION
This bit indicates that the CS8952T has auto-negotiation capability. It will always read back a value of 1.
When set, this bit indicates that a valid link has been
established. Upon a link failure, this bit is cleared and
latched. It will remain cleared until this register is
read.
In 10BASE-T mode, if the last transmission is longer
than 105 ms, then the packet output is terminated by
the jabber logic and this bit is set. If JabberiE (Interrupt Mask Register (address 10h), bit 3) is set, an MII
Interrupt will be generated.
This bit is implemented with a latching function so
that the occurrence of a jabber condition causes it to
become set until it is cleared by a read to this register,
a read to the Interrupt Status Register (address 11h),
or a reset.
0
Extended Capability Read Only
1
No jabber detect function has been defined for
100BASE-TX.
This bit indicates that an extended register set may
be accessed (registers beyond address 01h). This bit
always reads back a value of 1.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
34
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PHY Identifier Register, Part 1 - Address 02h
15
14
13
12
11
10
Organizationally Unique Identifier: Bits[3:10]
9
8
7
6
5
4
3
2
Organizationally Unique Identifier: Bits[11:18]
1
0
BIT
NAME
15:0 Organizationally
Unique Identifier
(bits 3:18)
TYPE
RESET
Read/Write 001Ah
DESCRIPTION
This identifier is assigned to PHY manufacturers by
the IEEE. Its intention is to provide sufficient information to support 10/100 Management as defined in
Clause 30.1.2 of the IEEE 802.3 specification.
This register contains bits [3:18] of the OUI. Bit 3 of
the OUI is located in bit 15 of the PHY Identifier, bit 4
of the OUI is in bit 14, and so on.
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
35
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PHY Identifier Register, Part 2 - Address 03h
15
14
13
12
11
Organizationally Unique Identifier - Bits[19:24]
10
6
2
1
Revision Number
7
5
4
TYPE
RESET
Read/Write 00 1000
8
Part Number
3
Part Number
BIT
NAME
15:10 Organizationally
Unique Identifier
(bits 19:24)
9
0
DESCRIPTION
This identifier is assigned to PHY manufacturers by
the IEEE. Its intention is to provide sufficient information to support 10/100 Management as defined in
Clause 30.1.2 of the IEEE 802.3 specification.
This register contains bits [19:24] of the OUI. Bit 19 of
the OUI is located in bit 15 of this register, bit 20 of
the OUI is in bit 14, and so on.
9:4
3:0
Part Number
Revision Number
Read/Write 10 0000
Read/Write Revision x
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
These bits indicate the CS8952T part number. It has
been set to a value of 100000.
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
These bits indicate the CS8952T part revision.
Rev. A
Rev. B
etc.
0000
0001
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
36
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Auto-Negotiation Advertisement Register - Address 04h
15
Next Page
7
14
Acknowledge
13
Remote Fault
6
Technology Ability Field
BIT
NAME
15
Next Page
14
Acknowledge
13
Remote Fault
12:5
Technology Ability
Field
5
TYPE
Read/Write 0
12
11
10
Technology Ability Field
9
8
4
3
2
Protocol Selector Field
1
0
RESET
DESCRIPTION
When set, this bit enables the ability to exchange
Next-Pages with the link partner. This bit should be
cleared if it is not desired to engage in Next Page
exchange.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
Read Only 0
When set, this bit indicates consistent reception of
the link partner’s data.
Read/Write 0
This bit may be used to indicate a fault condition to
the link partner. Setting this bit will signal to the link
partner that a fault condition has occurred.
This field determines the advertised capabilities of
Read/Write Reset value is
dependent on the the CS8952T as shown below. When the bit is set,
the corresponding technology will be advertised durstatus of the
AN[1:0] pins (See ing auto-negotiation.
Table 5).
BIT Capability
12
4:0
Protocol Selector
Field
Read/Write 0 0001
Reserved
11
Reserved
10
PAUSE operation for full duplex links.
9
8
100BASE-T4 (Note: this technology is not supported and can not be set.)
100BASE-TX Full Duplex
7
100BASE-TX Half Duplex
6
10BASE-T Full Duplex
5
10BASE-T Half Duplex
This field is used to identify the type of message
being sent by auto-negotiation. This field defaults to a
value of “00001” for IEEE 802.3 messages.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
37
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Auto-Negotiation Link Partner Ability Register - Address 05h
15
Next Page
7
14
Acknowledge
13
Remote Fault
6
Technology Ability Field
5
12
11
10
Technology Ability Field
9
8
4
3
2
Protocol Selector Field
1
0
BIT
NAME
15
Next Page
TYPE
Read Only
0
14
Acknowledge
Read Only
0
13
Remote Fault
Read Only
0
12:5
Technology Ability
Field
Read Only
0000 0000
4:0
Protocol Selector
Field
Read Only
RESET
0 0000
DESCRIPTION
When set, this bit indicates that the link partner is
capable of participating in the Next Page exchange.
When set, this bit indicates that the link partner has
received consistent data from the CS8952T.
This bit indicates that a fault condition occurred on
the far end. When this bit is set and auto-negotiation
is enabled, the Remote Fault bit in the Basic Mode
Status Register (address 01h) will also be set.
This field indicates the advertised capabilities of the
link partner as shown below. When the bit is set, the
corresponding technology has been advertised during auto-negotiation.
BIT Capability
12
Reserved
11
Reserved
10
PAUSE operation for full duplex links.
9
100BASE-T4
8
100BASE-TX Full Duplex
7
100BASE-TX Half Duplex
6
10BASE-T Full Duplex
5
10BASE-T Half Duplex
This field is used to identify the type of message
being received during auto-negotiation.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
38
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Auto-Negotiation Expansion Register - Address 06h
15
14
13
12
11
10
9
8
3
Link Partner
Next Page
Able
2
1
0
Next Page
Able
Page
Received
Link Partner
Auto-Neg Able
Reserved
7
6
5
4
Parallel
Detection
Fault
Reserved
BIT
NAME
15:5 Reserved
4
Parallel Detection
Fault
TYPE
Read Only
Read Only
RESET
000 0000 0000
0
3
Read Only
0
2
Link Partner Next
Page Able
Next Page Able
Read Only
1
1
Page Received
Read Only
0
0
Link Partner AutoNeg Able
Read Only
0
DESCRIPTION
When set, this bit indicates an error condition in
which both the 10BASE-T and 100BASE-TX links
came up valid, or that one of the technologies established a link but was unable to maintain the link. This
bit is self-clearing.
When set, this bit indicates that the link partner is
capable of Next Page exchange.
This bit is a status bit which indicates to the Management Layer that the CS8952T supports Next Page
capability.
When set, this bit indicates that a valid word of autonegotiation data has been received and its integrity
verified. The first page of data will consist of the Base
Page, and all successive pages will consist of Next
Page data. This bit is self-clearing.
When set, this bit indicates that the link partner has
auto-negotiation capability.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
39
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Auto-Negotiation Next-Page Transmit Register - Address 07h
15
14
Next Page
Acknowledge
7
6
BIT
NAME
15
Next Page
13
Message
Page
5
12
Acknowledge
2
TYPE
Read/Write 0
Acknowledge
Read Only
13
Message Page
Read/Write 1
Acknowledge 2
RESET
0
Read/Write 0
Read Only
Toggle
4
3
Message/Unformatted Code Field
14
12
11
11
Toggle
0
10:0
Message/Unformat- Read/Write 000 0000 0001
ted Code Field
10
9
8
Message/Unformatted Code Field
2
1
0
DESCRIPTION
When set, this bit indicates that more Next Pages follow. When clear, the current page is the last page of
data to be sent.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
This bit is used for Link Code Word verification. When
set, it indicates that consistent data has been successfully read from the link partner.
When set, this bit indicates that the data in the Message/Unformatted Code Field is one of the predefined message pages. When low, the data is unformatted data.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, this bit indicates to the link partner that the
CS8952T can comply with the last received message.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
This bit is used to maintain synchronization with the
link partner during Next Page exchange.
This field contains the 11 bit data for the Message or
Unformatted Page. It defaults to the Null Message.
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
40
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Mask Register - Address 10h
15
14
13
12
11
10
9
8
Remote
Loopback
Fault
CIM Link
Unstable
Link Status
Change
Descrambler
Lock Change
Premature
End Error
DCR
Rollover
FCCR
Rollover
RECR
Rollover
7
6
5
3
2
1
0
Reset
Complete
Jabber
Detect
Auto-Neg
Complete
4
Parallel
Detection
Fault
Parallel
Fail
Remote
Fault
Page
Received
Reserved
This register indicates which events will cause an interrupt event on the MII_IRQ pin. Each bit acts as an enable to the interrupt.
Thus, when set, the event will cause the MII_IRQ pin to be asserted. When clear, the event will not affect the MII_IRQ pin, but
the status will still be reported via the Interrupt Status Register (address 11h).
BIT
NAME
15
CIM Link Unstable
14
13
12
TYPE
Read/Write 0
Link Status Change Read/Write 1
Descrambler Lock
Change
Premature End
Error
Read/Write 0
Read/Write 0
RESET
DESCRIPTION
When set, an interrupt will be generated if an unstable link condition is detected by the Carrier Integrity
Monitor function.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated each time
the CS8952T detects a change in the link status.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated each time
the 100BASE-TX receive descrambler loses or
regains synchronization with the far-end.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated when two
consecutive IDLES are detected in a 100BASE-TX
frame without the End-of-Stream-Delimiter sequence.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
41
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Mask Register - Address 10h (Cont.)
BIT
NAME
11
DCR Rollover
10
9
8
7
6
FCCR Rollover
RECR Rollover
Remote Loopback
Fault
Reset Complete
Jabber Detect
TYPE
Read/Write 0
Read/Write 0
Read/Write 0
Read/Write 0
Read/Write 1
Read/Write 0
RESET
DESCRIPTION
When set, an interrupt will be generated if the MSB in
the DCR counter becomes set.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated if the MSB in
the FCCR counter becomes set.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated if the MSB in
the RECR counter becomes set.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated if the elastic
buffer in the PMA is under-run or over-run during
Remote Loopback. This should not occur for normal
length 802.3 frames.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated once the digital and analog sections have been reset, and a calibration cycle has been performed.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated when a Jabber condition is detected by the 10BASE-T MAU.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
42
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Mask Register - Address 10h (Cont.)
BIT
5
4
3
2
1
NAME
TYPE
Auto-Neg Complete Read/Write 0
Parallel Detection
Fault
Parallel Fail
Remote Fault
Page Received
Read/Write 0
Read/Write 0
Read/Write 0
Read/Write 0
RESET
DESCRIPTION
When set, an interrupt will be generated once autonegotiation has completed successfully.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated if auto-negotiation determines that unstable legacy link signaling
was received.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated when parallel detection has occurred for a technology that is not
currently advertised by the local device.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt will be generated if a remote
fault condition is detected either by auto-negotiation
or by the Far-End Fault Detect state machine.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, an interrupt is generated each time a page
is received during auto-negotiation.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
0
Reserved
Read Only
0
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
43
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Status Register - Address 11h
15
14
13
12
11
10
9
8
Remote
Loopback
Fault
CIM Link
Unstable
Link Status
Change
Descrambler
Lock Change
Premature
End Error
DCR
Rollover
FCCR
Rollover
RECR
Rollover
7
6
5
3
2
1
0
Reset
Complete
Jabber
Detect
Auto-Neg
Complete
4
Parallel
Detection
Fault
Parallel
Fail
Remote
Fault
Page
Received
Reserved
This register indicates which event(s) caused an interrupt event on the MII_IRQ pin. All bits are self-clearing, and will thus be
cleared upon readout.
BIT
NAME
15
CIM Link Unstable
TYPE
Read Only
0
RESET
14
Link Status Change Read Only
0
13
Descrambler Lock
Change
Read Only
0
12
Premature End
Error
Read Only
0
11
DCR Rollover
Read Only
0
10
FCCR Rollover
Read Only
0
9
RECR Rollover
Read Only
0
DESCRIPTION
When set, this bit indicates that an unstable link condition was detected by the Carrier Integrity Monitor
function.
When set, this bit indicates that a change has
occurred to the status of the link. The Self Status
Register (address 19h) may be read to determine the
current status of the link.
When set, this bit indicates that a change has
occurred in the status of the descrambler. The Self
Status Register (address 19h) may be read to determine the current status of the scrambler lock.
This bit is set when a premature end of frame is
detected for 100 Mb/s operation. A premature end is
defined as two consecutive IDLE patterns detected in
a frame prior to the End of Stream Delimiter.
This bit is set when the MSB of the Disconnect Count
Register (address 12h) becomes set. This should
provide ample warning to the management layer so
that the DCR may be read before rolling over.
This bit is set when the MSB of the False Carrier
Count Register (address 13h) becomes set. This
should provide ample warning to the management
layer so that the FCCR may be read before saturating.
This bit is set when the MSB of the Receive Error
Count Register (address 15h) becomes set. This
should provide ample warning to the management
layer so that the RECR may be read before rolling
over.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
44
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Status Register - Address 11h (Cont.)
BIT
8
NAME
Remote Loopback
Fault
TYPE
Read Only
RESET
0
7
Reset Complete
Read Only
0
6
Jabber Detect
Read Only
0
DESCRIPTION
When set, this bit indicates that the Elastic Buffer has
detected an over-run or an under-run condition. In
any case, the frame generating this fault will be terminated.
This should never happen since the depth of the elastic buffer (10 bits) is greater than twice the maximum
number of bit times the receive and transmit clocks
may slip during a maximum length packet assuming
clock frequency tolerances of 100 ppm or less.
When set, this bit indicates that the internal analog
calibration cycle has completed, and all analog and
digital circuitry is ready for normal operation.
In 10BASE-T mode, if the last transmission is longer
than 105 ms, then the packet output is terminated by
the jabber logic and this bit is set.
This bit is implemented with a latching function so
that the occurrence of a jabber condition causes it to
become set until it is cleared by a read to this register,
a read to the Basic Mode Status Register (address
01h), or a reset.
No jabber detect function has been defined for
100BASE-TX.
5
4
3
Auto-Neg Complete Read Only
Parallel Detection
Fault
Parallel Fail
Read Only
Read Only
0
0
0
This bit is the same as in the Basic Mode Status Register (address 01h).
This bit is set when the auto-negotiation process has
completed. This is an indication that the Auto-Negotiation Advertisement Register (address 04h), the
Auto-Negotiation Link Partner Ability Register
(address 05h), and the Auto-Negotiation Expansion
Register (address 06h) are valid.
This bit is the same as in the Basic Mode Status Register (address 01h).
When set, this bit indicates an error condition in
which auto-negotiation has detected that unstable
10BASE-T or 100BASE-TX link signalling was
received. This bit is self-clearing.
This bit is the same as in the Auto-Negotiation
Expansion Register (address 06h)
When set, this bit indicates that a parallel detection
has occurred for a technology that is not currently
advertised by the local device.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
45
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Interrupt Status Register - Address 11h (Cont.)
2
BIT
NAME
Remote Fault
TYPE
Read Only
0
RESET
1
Page Received
Read Only
0
DESCRIPTION
When auto-negotiation is enabled, this bit is set if the
Remote Fault bit is set in the Auto-Negotiation Link
Partner Ability Register (address 05h). When autonegotiation is disabled, this bit will be set when the
Far-End Fault Indication for 100BASE-TX is detected.
When set, this bit indicates that a valid word of autonegotiation data has been received and its integrity
verified. The first page of data will consist of the Base
Page, and all successive pages will consist of Next
Page data. This bit is self-clearing.
This bit is the same as in the Auto-Negotiation
Expansion Register (address 06h).
0
Reserved
Read Only
0
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
46
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Disconnect Count Register - Address 12h
15
14
13
12
11
Disconnect Counter
10
9
8
7
6
5
4
3
Disconnect Counter
2
1
0
BIT
NAME
TYPE
RESET
15:0 Disconnect Counter Read/Write 0000h
DESCRIPTION
This field contains a count of the number of times the
CS8952T has lost a Link OK condition. This counter
is cleared upon readout and will roll-over to 0000h.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
47
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
False Carrier Count Register - Address 13h
15
14
13
12
11
False Carrier Counter
10
9
8
7
6
5
4
3
False Carrier Counter
2
1
0
BIT
NAME
15:0 False Carrier
Counter
TYPE
Read Only
RESET
0000h
DESCRIPTION
This field contains a count of the number of times the
CS8952T has detected a false-carrier -- that is, the
reception of a poorly formed Start-of-Stream Delimiter
(SSD). The counter is incremented at the end of such
events to prevent multiple increments. This counter is
cleared upon readout and will saturate at FFFFh.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
48
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Scrambler Key Initialization Register - Address 14h
15
Load
14
7
6
13
12
11
10
Reserved
BIT
NAME
15
Load
5
TYPE
Read/Set
4
3
Scrambler Initialization Key
9
8
Scrambler Initialization Key
2
1
0
RESET
DESCRIPTION
When this bit is set, the scrambler will be loaded with
the value in the Scrambler Initialization Key field.
When the load is complete, this bit will clear automatically.
14:11 Reserved
Read Only 0000
These bits should be read as don’t cares and, when
written, should be written to 0.
This field allows the Scrambler to be loaded with a
10:0 Scrambler Initializa- Read/Write Reset value is
tion Key
dependent on the user-definable key sequence. A value of 000h has
PHY Address field the effect of bypassing the scrambler function.
of the Self Status
Register (address This is valuable for testing purposes to allow a deterministic response to test stimulus without a synchro19h).
nization delay.
0
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
49
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Receive Error Count Register - Address 15h
15
14
13
12
11
Receive Error Counter
10
9
8
7
6
5
4
3
Receive Error Counter
2
1
0
BIT
NAME
15:0 Receive Error
Counter
TYPE
Read Only
RESET
0000h
DESCRIPTION
This counter increments for each packet in which one
or more receive errors is detected that is not due to a
collision event. This counter is cleared upon readout
and will roll-over to 0000h.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
50
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Descrambler Key Initialization Register - Address 16h
15
Load
14
7
6
13
12
11
Reserved
BIT
NAME
15
Load
5
TYPE
Read/Set
4
3
Descrambler Initialization Key
10
9
8
Descrambler Initialization Key
2
1
0
RESET
DESCRIPTION
When this bit is set, the descrambler will be loaded
with the value in the Descrambler Initialization Key
field. When the load is complete, this bit will clear
automatically.
14:11 Reserved
Read Only 0000
These bits should be read as don’t cares and, when
written, should be written to 0.
This register allows the Descrambler to be loaded
10:0 Descrambler Initial- Read/Write Reset value is
ization Key
dependent on the with a user-definable key sequence. A value of 000h
PHY Address field has the effect of bypassing the descrambler function.
of the Self Status
Register (address This is valuable for testing purposes to allow a deterministic response to test stimulus without a synchro19h).
nization delay.
0
Note: This field is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
51
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PCS Sub-Layer Configuration Register - Address 17h
15
Reserved
7
CLK25 Disable
14
Time-Out
Select
13
Time-Out
Disable
12
Repeater
Mode
6
5
Enable LT/100
CIM Disable
BIT
NAME
15
Reserved
14
Time-Out Select
13
Time-Out Disable
12
Repeater Mode
11
LED5 Mode
10
Unlock Regs
TYPE
Read/Write 1
Read/Write 0
11
10
9
MR Preamble
Enable
8
LED5 Mode
Unlock Regs
4
3
2
1
0
Tx Disable
Rx Disable
LED1 Mode
LED4 Mode
Digital Reset
Fast Test
DESCRIPTION
This bit is reserved and should be cleared to 0.
When this bit is set, the time-out counter in the
receive descrambler is set to time-out after 2 ms without IDLES. When clear the counter is set to time-out
after 722 ms without IDLES.
Read/Write 0
When this bit is set, the time-out counter in the
receive descrambler is disabled. When this bit is
clear, the time-out counter is enabled.
Read/Write Reset to the value This bit defines the mode of the Carrier Sense (CRS)
on the REPEATER signal. When this bit is set, CRS is asserted due to
pin.
receive activity only. When this bit is clear, CRS is
asserted due to either transmit or receive activity.
Read/Write 0
This bit defines the mode of Pin LED5. When this bit
is set, pin LED5 indicates the synchronization status
of the 100BASE-TX descrambler. When this bit is
clear, LED5 indicates a collision.
Read/Write 0
RESET
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, this bit unlocks certain read only control
registers for factory testing. Leave clear for proper
operation.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
52
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PCS Sub-Layer Configuration Register - Address 17h (Cont.)
BIT
9
8
NAME
MF Preamble
Enable
Fast Test
TYPE
Read/Write 0
Read/Write 0
7
CLK25 Disable
Read/Write
6
Enable LT/100
Read/Write
5
CIM Disable
Read/Write
4
Tx Disable
Read/Write
RESET
DESCRIPTION
When set, this bit will force all management frames
(via MDIO, MDC) to be preceded by a 32 bit preamble pattern of contiguous ones to be considered valid.
When cleared, it allows management frames with or
without the preamble pattern. The status of this register is (inversely) reflected in the MF Preamble bit in
the Basic Mode Status Register (address 01h).
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When set, internal timers are sped up significantly in
order to facilitate production test. Leave clear for
proper operation.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
When TCM pin is Setting this bit will disable (tri-state) the CLK25 output
low, reset to 1; oth- pin, reducing digital noise and power consumption.
erwise, reset to 0
1
When set, normal link status checking is enabled.
When clear, this bit forces the link status to Link OK
(at 100 Mb/s), and will assert the LINK_OK LED.
Reset to the logic When set, this bit forces the Carrier Integrity Monitor
function to be disabled. When low, the Carrier Integinverse of the
rity Monitor function is enabled, and detection of an
value on the
REPEATER pin. unstable link will disable the receive and transmit
functions.
0
When set, this bit forces the 10 Mb/s and 100 Mb/s
outputs to be inactive. When clear, normal transmission is enabled.
If Tx Disable is set while a packet is being transmitted, transmission is completed and no subsequent
packets are transmitted until Tx Disable is cleared
again. Also, if Tx Disable is cleared while TX_EN is
high, the transmitter will remain disabled until TX_EN
is deasserted. This prevents fragments from being
transmitted onto the network.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
53
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
PCS Sub-Layer Configuration Register - Address 17h (Cont.)
BIT
3
NAME
Rx Disable
TYPE
Read/Write 0
RESET
DESCRIPTION
When set, the receiver is disabled and no incoming
packets pass through the receiver. The link will
remain established and, if operating at 100 Mb/s, the
descrambler will remain locked. When clear, the
receiver is enabled.
If Rx Disable is set while a packet is being received,
reception is completed and no subsequent receive
packets are allowed until Rx Disable is cleared again.
Also, if Rx Disable is cleared while a packet is being
received, the receiver will remain disabled until the
end of the incoming packet. This prevents fragments
from being sent to the MAC.
2
LED1 Mode
Read/Write 0
1
LED4 Mode
Read/Write 0
0
Digital Reset
Read/Write 0
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
This bit defines the mode of Pin LED1. When this bit
is set, pin LED1 indicates Carrier Integrity Monitor
status as determined by the CIM Status bit in the Self
Status Register (address 19h). When this bit is clear,
LED1 indicates 10 Mb/s or 100 Mb/s transmission
activity.
This bit defines the mode of Pin LED4. When this bit
is set, pin LED4 indicates full duplex mode for
10 Mb/s or 100 Mb/s. When this bit is clear, LED4
indicates Polarity in 10 Mb/s mode or full-duplex in
100 Mb/s mode.
When set, this bit will reset all digital logic and registers to their initial values. The analog circuitry will not
be affected.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
54
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Loopback, Bypass, and Receiver Error Mask Register - Address 18h
15
14
13
Bad SSD
Enable
Bypass 4B5B
Reserved
7
6
Strip Preamble
Alternate FDX
CRS
5
Loopback
Transmit
Disable
BIT
NAME
15
Bad SSD Enable
12
Bypass
Symbol
Alignment
Bypass 4B5B
Read/Write
13
12
Reserved
Bypass Symbol
Alignment
Read/Write
Read/Write
11
ENDEC Loopback
Read/Write
10
9
Reserved
Remote Loopback
Read/Write
Read/Write
10
9
8
ENDEC
Loopback
Reserved
Remote
Loopback
Reserved
4
3
2
1
0
Premature
Code Error
Link Error
Packet Error
Code Error
End Error
Report Select
Report Enable Report Enable Report Enable
Report Select
TYPE
Read/Write 1
14
11
RESET
DESCRIPTION
When set, this bit enables the reporting of a bad SSD
(False-Carrier event) on the MII. These events will be
reported by setting RX_ER=1, RX_DV=0, and
RXD[3:0]=1110.
If the 4B5B encoders are being bypassed, this event
will be reported by setting RX_DV=0 and
RXD[4:0]=11110. If symbol alignment is bypassed,
the CS8952T does not detect carrier, and thus will not
report bad SSD events.
Reset to the value When set, this bit causes the receive 5B4B decoder
on the BP4B5B
and the transmit 4B5B encoder to be bypassed.
pin.
Reset to 0.
Reserved bit, should remain at zero.
Reset to the value When set, this bit causes the following functions to be
on the BPALIGN bypassed: receiver descrambling, symbol alignment
and decoding, transmit symbol encoding, and transpin.
mit scrambling.
0
When set, the 10BASE-T internal Manchester
encoder output is connected to the decoder input.
When clear, the CS8952T is configured for normal
operation.
0
This bit is reserved.
0
When set, data received from the link is looped back
at the MII and sent back out to the link. Received data
will be presented on the MII pins. Transmit data at the
MII will be ignored.
Note: Setting Remote Loopback and PMD Loopback
simultaneously will cause neither loopback mode to
be entered, and should not be done.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
55
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Loopback, Bypass, and Receiver Error Mask Register - Address 18h (Cont.)
BIT
8
7
NAME
Reserved
Strip Preamble
TYPE
Read/Write 0
Read/Write 0
6
Alternate FDX CRS Read/Write 0
5
Loopback Transmit Read/Write 1
Disable
4
Code Error Report
Select
Read/Write 0
RESET
DESCRIPTION
This bit is reserved.
When set this bit causes the 7 bytes of MAC preamble to be stripped off of incoming 100 Mb/s frames.
The data received across the MII will begin with the 1
byte Start of Frame Delimiter (SFD).
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
This bit changes the behavior of the CRS pin only in
the full-duplex (FDX) mode of operation. When set,
CRS will be asserted for transmit data only. When
clear, CRS will be asserted only for receive data.
This bit controls whether loopback data is transmitted
onto the network. When set, any data transmitted
during PMD or ENDEC loopback mode will NOT be
transmitted onto the network. When clear, data will be
transmitted on the TX+/- pins as well as looped back
onto the MII pins.
When set, this bit causes code errors to be reported
by a value of 5h on RXD[3:0] and the assertion of
RX_ER.
When clear, this bit causes code errors to be reported
by a value of 6h on RXD[3:0] and the assertion of
RX_ER.
This bit is superseded by the Code Error Report
Enable bit.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
56
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Loopback, Bypass, and Receiver Error Mask Register - Address 18h (Cont.)
BIT
3
NAME
TYPE
Premature End
Read/Write 0
Error Report Select
RESET
DESCRIPTION
When set, this bit causes premature end errors to be
reported by a value of 4h on RXD[3:0] and the assertion of RX_ER.
When clear, this bit causes premature end errors to
be reported by a value of 6h on RXD[3:0] and the
assertion of RX_ER.
2
Link Error Report
Enable
Read/Write 0
1
Packet Error Report Read/Write 0
Enable
0
Code Error Report
Enable
Read/Write 0
A premature end error is caused by the detection of
two IDLE symbols in the 100 Mb/s receive data
stream prior to the End of Stream Delimiter.
When set, this bit causes link errors to be reported by
a value of 3h on RXD[3:0] and the assertion of
RX_ER. When clear, link errors are not reported
across the MII.
When set, this bit causes packet errors to be reported
by a value of 2h on RXD[3:0] and the assertion of
RX_ER. When clear, packet errors are not reported
across the MII.
When set, code errors are reported and transmitted
on RXD[3:0].
When clear, this bit enables the Code Error Report
values on RXD[3:0] as selected by the Code Error
Report Select bit and also causes the assertion of
TX_ER to transmit a HALT code group.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit of
the 10BASE-T Configuration Register (address 1Ch)
is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
57
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Self Status Register - Address 19h
15
Link OK
7
Full Duplex
14
Power
Down
13
Receiving
Data
12
Descrambler
Lock
11
Disable CRS
on Time-out
10
Auto-Neg
Enable Status
6
10BASE-T
Mode
5
4
3
2
CIM Status
9
8
PAUSE
FEFI Enable
1
0
PHY Address
BIT
NAME
15
Link OK
TYPE
Read Only
RESET
0
14
Power Down
Read Only
0
13
Receiving Data
Read Only
0
12
Descrambler Lock
Read Only
0
11
Disable CRS on
Time-out
Read/Write Reset to the logic
inverse of the
value on the
REPEATER pin.
10
Auto-Neg Enable
Status
Read Only
9
PAUSE
Read Only
8
FEFI Enable
Read/Write 0
7
Full Duplex
Read Only
6
10BASE-T Mode
Read Only
If auto-negotiation
is enabled via the
AN[1:0] pins, reset
to 1; otherwise,
reset to 0.
0
DESCRIPTION
When set, this bit indicates that a valid link connection has been detected. The type of link established
may be determined from bits 6, 7, and 9. When clear,
this bit indicates that a valid link connection does not
exist. This bit may be used to determine the current
status of the link.
When high, this bit indicates that the CS8952T is in a
low power state.
This bit is high whenever the CS8952T is receiving
valid data. It is a direct copy of the state of the
RX_DV pin accessible by software.
When high, this bit indicates that the descrambler has
successfully locked to the scrambler seed of the farend transmitter and is able to descramble received
data.
This bit controls the state of the CRS pin upon a
descrambler time-out. When set, CRS will be forced
low upon a descrambler time-out, and will not be
released until the descrambler has re-acquired synchronization.
This bit reflects the value of bit 12 in the Basic Mode
Control Register (address 00h). When set, it indicates
that auto-negotiation has been enabled. When clear,
this bit indicates that the mode of the CS8952T has
been forced to that indicated by bits 6, and 7.
When set, this bit indicates that the Flow-Control
PAUSE function has been negotiated. This indicates
that both the local device and the link partner have
advertised this capability.
This bit controls the Far-End Fault Generate and
Detect state machines. When this bit is set and autonegotiation is disabled (bit 10 is clear), both state
machines are enabled. When clear, this bit disables
both state machines.
When set, this bit indicates that the CS8952T has
been configured for Full-Duplex operation.
If a full duplex
mode is enabled
via the AN[1:0]
pins, reset to 1;
otherwise, reset to
0.
0
When set, this bit indicates that the CS8952T has
been configured for 10 Mb/s operation.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
58
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Self Status Register - Address 19h (Cont.)
BIT
5
4:0
NAME
CIM Status
TYPE
Read Only
RESET
DESCRIPTION
When clear, this bit indicates that a stable link connection has been detected. When an unstable link is
detected and the Carrier Integrity Monitor Disable bit
in the PCS Sub-Layer Configuration Register
(address 17h) is clear, this bit is set and latched. It will
remain set until this register is read.
PHY Address Field Read/Write Reset to the val- The value on pins PHYAD[4:0] are latched into this
ues on the
field at power-up or reset. These bits define the PHY
PHYAD[4:0] pins. address used by the management layer to address
the PHY. The external logic must know this address
in order to select this particular CS8952T’s registers
individually via the MDIO and MDC pins.
0
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
59
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
10BASE-T Status Register - Address 1Bh
15
14
13
12
11
Reserved
7
6
5
10
Polarity OK
4
3
2
9
10BASE-T
Serial
1
8
Reserved
0
Reserved
BIT
NAME
15:11 Reserved
10
Polarity OK
9
10BASE-T Serial
8:0
Reserved
TYPE
Read Only
Read Only
RESET
0 0000
0
DESCRIPTION
When high, the polarity of the receive signal (at the
RXD+/RXD- inputs) is correct. If clear, the polarity is
reversed. If the Polarity Disable bit of 10BASE-T Configuration Register (address 1Ch) is clear, then the
polarity is automatically corrected, if needed. The
Polarity OK status bit shows the true state of the
incoming polarity independent of the Polarity Disable
bit.
Read/Write Reset to the value When set, this bit selects 10BASE-T serial mode.
on the 10BT_SER When low, this bit selects 10BASE-T nibble mode.
pin.
This bit will only affect the CS8952T if it has been
configured for 10 Mb/s operation.
Read Only 0 0000 0000
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
60
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
10BASE-T Configuration Register - Address 1Ch
15
14
13
12
11
10
9
8
Reserved
7
National
Compatibility
Mode
6
5
4
3
2
1
0
LED3 Blink
Enable
Enable LT/10
SQE Enable
Reserved
Low Rx
Squelch
Polarity
Disable
Jabber Enable
BIT
NAME
TYPE
RESET
15:8 Reserved
Read Only 0000 0000
7
National Compatibil- Read/Write 1
ity Mode
6
5
LED3 Blink Enable Read/Write 0
Enable LT/10
4
SQE Enable
3
Reserved
2
Low Rx Squelch
1
Polarity Disable
Read/Write 1
DESCRIPTION
When set, registers and bits that are not compatible
with the National DP83840 are disabled and writes to
these registers are ignored.
When set, LED3 will blink during auto-negotiation and
will indicate Link Good status upon completion of
auto-negotiation. When clear, LED3 indicates Link
Good status only.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit (bit
7) is set.
When set, this bit enables the transmission of link
pulses.
When clear, link pulses are disabled and a good link
condition is forced. If link pulses are disabled during
100 Mb/s operation with auto-negotiation enabled,
the CS8952T will go into 10 Mb/s mode. If operating
in 100 Mb/s mode with no auto-negotiation, then
clearing this bit has no effect.
Read/Write Reset to the logic When set, and if the CS8952T is in half-duplex mode,
this bit enables the 10BASE-T SQE function. When
inverse of the
the part is in repeater mode, this bit is cleared and
value on the
REPEATER pin. may not be set.
Read Only 1
This bit should be read as a don’t care and, when
written, should be written to 1.
Read/Write 0
When clear, the 10BASE-T receiver squelch thresholds are set to levels defined by the ISO/IEC 8802-3
specification. When set, the thresholds are reduced
by approximately 6 dB. This is useful for operating
with “quiet” cables that are longer than 100 meters.
Read/Write 0
The 10BASE-T receiver automatically determines the
polarity of the received signal at the RXD+/RXDinput. When this bit is clear, the polarity is corrected, if
necessary. When set, no effort is made to correct the
polarity. Polarity correction will only be performed during 10BASE-T packet reception.
Note: This bit is disabled, and writes to this bit are
ignored when the National Compatibility Mode bit (bit
7) is set.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
61
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
10BASE-T Configuration Register - Address 1Ch (Cont.)
BIT
0
NAME
Jabber Enable
TYPE
Read/Write 1
RESET
DESCRIPTION
When set, the jabber function is enabled. When clear,
and if the CS8952T is in 10BASE-T full-duplex or
10BASE-T ENDEC loopback mode, the jabber function is disabled.
Note: When the National Compatibility Mode bit (bit
7) is set, the Jabber function may also be disabled for
10BASE-T half-duplex, although this is not recommended.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
62
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
DESIGN CONSIDERATIONS
Internal Voltage Reference
The CS8952T is a mixed-signal device containing
the high-speed digital and analog circuits required
to implement Fast Ethernet communication. It is
important the designer adhere to the following
guidelines and recommendations for proper and reliable operation of the CS8952T. These guidelines
will also benefit the design with good EMC performance.
A 4.99 kΩ 1% biasing resistor must be connected
between the CS8952T RES pin and ground. This
resistor biases the internal analog circuits of the
CS8952T and should be placed as close as possible
to RES pin. Connect the other end of this resistor
directly to the ground plane. Connect the adjacent
CS8952T ground pins (pins 85 and 87) to the
grounded end of the resistor forming a “shield”
around the RES connection.
Twisted Pair Interface
The recommended connection of the twisted-pair
interface is shown if Figure 6. The unused cable
pairs are terminated to increase the common-mode
performance. Common-mode performance is also
improved by connecting the center taps of the RX
and TX input circuits to the DC-isolated ground
plane. The 0.01 µF capacitor C1 must provide 2KV
(1,500 Vrms for 60 seconds) of isolation to meet
802.3 requirements. If a shielded RJ45 connector is
used (recommended), the shield should be connected to chassis ground.
CS8952
VSS
RES
VSS
87
86
85
4.99KΩ
1%
Via to
Ground
Plane
Figure 7. Biasing Resistor Connection and Layout
Clocking Schemes
.
The CS8952T may be clocked using one of three
possible schemes: using a 25 MHz crystal and the
T1
TG22-3506
CS8952
TX+
80
0.1µF
TXRX+
RX-
81
91
92
16
10
14
12
15
3
2
11
51Ω
4
6
51Ω
5
6
5
51Ω
7
7
51Ω
8
1
RJ-45
1
2
3
SHLD
SHLD
49.9Ω
1%
49.9Ω
1%
0.1µF
75Ω
75Ω
51Ω
51Ω
0.01µF
2KV
Figure 6. Recommended Connection of Twisted-Pair Ports (Network Interface Card)
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
63
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
internal oscillator, using an external oscillator supplied through the XTAL_I pin, or using an external
clock source supplied through the TX_CLK pin.
When a 25 MHz crystal is used, it should be placed
within one inch of the XTAL_I and XTAL_O pins
of the CS8952T. The crystal traces should be short,
have no vias, and run on the component side.
Table 10 lists examples of manufacturers of suitable crystals. The designer should evaluate their
crystal selection for suitability in their specific design.
Alternately, an external CMOS clock source may
be connected to the XTAL_I pin, with XTAL_O
left open. The input capacitance of the XTAL_I pin
is larger than the other inputs (a maximum of
35pF), since it includes the additional load capacitance of the crystal oscillator. Care should be taken
to assure any external clock source attached to
XTAL_I is capable of driving higher capacitive
loads. The clock signal should be 25 MHz ±0.01%
with a duty cycle between 45% and 55%.
The third alternative is to supply a TTL-level clock
to both a MAC and the CS8952T’s TX_CLK pin.
In this case the XTAL_I pin should be left unconnected, and the TCM pin should be left unconnected or pulled high. The clock skew between the
TX_CLK input and the TXD[4:0] pins is tightly
controlled, assuring data is latched correctly.
Recommended Magnetics
The CS8952T requires an isolation transformer
with a 1:1 turns ratio for both the transmit and receive signals. Table 10 lists examples of manufacturers with transformers meeting these
requirements. However, the designer should evaluate the magnetics for suitability in their specific design.
Power Supply and Decoupling
The CS8952T supports connection to either a 3.3 V
or 5.0 V MII. When connected to a +5.0 V MII, all
power pins should be provided +5.0 V +/- 5%, and
all digital signal inputs should be referenced to
+5.0V. When interfaced with a 3.3 V MII,
VDD_MII power pins should be provided +3.3 V
+/- 5%, VDD power pins should be provided
+5.0 V +/- 5%, and all signal inputs, with the exception of XTAL_I, should be referenced to
+3.3 V.
Component
Manufacturer
Raltron Electronics Corp.
Crystal
Part Number
AS-25.000-15-FEXT-SMD-TRCIR
10651 NW 19th St.
Miami, FL 33172
(305) 593-6033
www.raltron.com
TG22-3506ND
Transformer Halo Electronics, Inc.
P.O. Box 5826
Redwood City, CA 94063
USA
(650) 568-5800
www.haloelectronics.com
Bel Fuse, Inc.
S5558-5999-46
198 Van Vorst Street
Jersey City, NJ 07302 USA
(201) 432-0463
www.belfuse.com
Pulse Engineering
PE-68515
12220 World Trade Drive
San Diego, CA 92128 USA
(619) 674-8100
www.pulseeng.com
Table 10. Support Component Manufacturers
Each CS8952T power pin should be connected to a
0.1 µF bypass capacitor and then to the power
plane. The bypass capacitors should be located as
close to its corresponding power pin as possible.
Connect ground pins directly to the ground plane.
General Layout Recommendations
The following PCB layout recommendations will
help ensure reliable operation of the CS8952T and
good EMC performance.
•
Use a multilayer Printed Circuit Board with at
least one ground and one power plane. A typical +5V MII application would be as follows:
Layer 1: (top) Components and first choice signal routing
Layer 2: Ground
Layer 3: Power (+5V)
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
64
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
•
•
•
•
•
Layer 4: (bottom) Second choice signal routing, bypass components
Place transformer T1 as close to the RJ45 connector as possible with the secondary (network) side
facing the RJ45 and the primary (chip) side facing
the analog side (pins 76-100) of CS8952T. Place
the CS8952T in turn as close to T1 as possible.
Use the bottom layer for signal routing as a second choice. You may place all components on
the top layer. However, bypass capacitors are
optimally placed as close to the chip as possible
and may be best located underneath the
CS8952T on the bottom layer. Termination
components at the RJ-45 and fiber transceiver
may also be optimally placed on the bottom
layer.
•
Avoid routing traces other than the TX and RX
signals under transformer T1 and the RJ45 connector. Signals may run on the bottom side underneath the CS8952T as long as they stay
away from critical analog traces.
•
Connect all CS8952T ground and power pins
directly to the ground and power planes, respectively. Note: The VDD_MII power pins
may need their own power plane or plane segment in +3.3 V MII applications.
•
Depending on the orientation and location of
the transformer, the CS8952T, and the RJ-45,
and on whether the application is for a NIC or a
switch, the RX and TX pairs may need to cross.
This should be done by changing layers on a
pair by pair basis only, using the minimum
number of vias, and making sure that each trace
within a pair “sees” the same path as its peer.
Connect a 0.1 µF bypass capacitor to each
CS8952T VDD and VDD_MII pin. Place it as
close to its corresponding power pin as possible
and connect the other lead directly to the
ground plane.
The 4.99K reference resistor should be placed
as close to the RES pin as possible. Connect the
other end of this resistor to the ground plane using a via. Connect the adjacent VSS pins (pins
85 and 87) to the grounded end of the resistor
forming a shield as illustrated in Figure 7.
Controlled impedance is necessary for critical
signals TX+/- and RX+/-. These should be run
as microstrip transmission lines (100 Ω differential, 50 Ω single-ended). The MII signals
should be 68 Ω microstrip transmission lines.
(For short MII signal paths one may standardize on a given trace width for all traces without
significant degradation in signal integrity.)
Figure 6 shows the CS8952T in a NIC or adapter configuration. It may be configured for a hub
or repeater application by changing the wiring
to the RJ-45 as shown in Table 11.
•
Differential pair transmission lines should be
routed close together (one trace width spacing
edge-to-edge) and kept at least two trace widths
away from other traces, components, etc. TX
and RX pairs should be routed away from each
other and may use opposite sides of the PCB as
necessary, Each member of the differential pair
should “see” the same PCB terrain as its peer.
•
Unused spaces on the signal layers should be
filled with ground fill (pour). Vias should connect the ground patches to the ground plane.
This is especially recommended (symmetrical-
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
65
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
ly) on both sides of the TX+/- traces.
CS8952T Pin
Assignment
91 (RX+)
92 (RX-)
81 (TX-)
80 (TX+)
T1 Primary Pin T1 Secondary
Assignment
Pin Assignment
1 (RX+)
7 (RX+)
2 (RX-)
6 (RX-)
16 (TX-)
10 (TX-)
15 (TX+)
11 (TX+)
RJ-45 Pin Assignment
Adapter/NIC
Hub/Repeater
Configuration
Configuration
3 (RD+)
1 (RD+)
6 (RD-)
2 (RD-)
2 (TD-)
6 (TD-)
1 (TD+)
3 (TD+)
Table 11. RJ-45 Wiring
•
•
No signal current carrying planes, i.e. no
ground or power plane, should be present underneath the region between the transformer
secondary (network) side and the RJ-45. However, a chassis plane may be added in this region to pick up the metal tabs of a shielded RJ45. This chassis plane should be separated from
the ground and power planes by at least
50 mils. That is, all other ground and power
planes should be “cookie cuttered” so they are
voided in the area of the chassis plane. Generally speaking, parts should not cross the moat
except for the transformer.
Proper termination practices must be used with
all transmission lines, especially if sending/receiving high speed signals. Series terminations
must be kept close to the source and load termi-
nations close to the load.
•
Locate the crystal as close to the CS8952T as
possible, running short traces on the component side in order to reduce parasitic load capacitance.
•
Add bulk capacitance at each connector where
power may be supplied. For example, MII power may be provided at the MII connector and at
a separate connector for test purposes. If so,
and the two connectors are not adjacent, then
the bulk capacitors should be duplicated in each
locations.
•
Use wide traces to connect the unused pairs termination resistors at T1 and the RJ-45 to the
2 KV capacitor or capacitors in order to minimize their lead inductance.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
66
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SPECIFICATIONS AND CHARACTERISTICS
ABSOLUTE MAXIMUM RATINGS
(AVSS, DVSS = 0 V, all voltages with respect to 0 V.)
Parameter
Power Supply
Core
MII
Input Current
Input Voltage
Symbol
VDD
VDD_MII
Except Supply Pins
Output Voltage
Max
6.0
6.0
Unit
V
-0.3
+/-10.0
VDD_MII +
0.3
VDD_MII +
0.3
+125
+150
mA
V
-0.3
Ambient Temperature
Storage Temperature
WARNING:
Min
-0.3
-0.3
Power Applied
-55
-65
V
°C
°C
Operation at or beyond these limits may result in permanent damage to the device.
Normal operation is not guaranteed at these extremes.
RECOMMENDED OPERATING CONDITIONS
(AVSS, DVSS = 0 V, all voltages with respect to 0 V.)
Parameter
Power Supply
Core
MII
Operating Ambient Temperature
Symbol
VDD
VDD_MII
Min
4.75
3.0
Max
5.25
5.25
Unit
V
V
TA
0
70
°C
Typ
25.0
15
0.021
-
Max
+50
+40
18
7
Unit
MHz
ppm
ppm
pF
pF
Ω
pF
QUARTZ CRYSTAL REQUIREMENTS
(If a 25 MHz quartz crystal is used, it must meet the following specifications.)
Parameter
Parallel Resonant Frequency
Resonant Frequency Error (CL = 15 pF)
Resonant Frequency Change Over Operating Temperature
Crystal Load Capacitance
Motional Crystal Capacitance
Series Resistance
Shunt Capacitance
Min
-50
-40
-
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
67
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
DC CHARACTERISTICS
(Over recommended operating conditions)
Parameter
Power Supply
Power Supply Current
100BASE-TX (Note 1)
10BASE-T (Note 1)
Hardware Power-Down
(Note 1)
Symbol
Min
Typ
Max
Unit
IDD
135
80
900
145
-
mA
IDDHPDN
-
Software Power-Down
(Note 1)
IDDSPDN
-
20
-
mA
Low Power Power-Up
(Note 1)
IDDSLPUP
-
900
-
µA
Oscillator
XTAL_I Input Low Voltage
VIXH
-0.3
-
0.2
V
XTAL_I Input High Voltage
VIXH
3.0
-
VDD + 0.3
V
XTAL_I Input Low Current
IIXL
-40
-
-
µA
XTAL_I Input High Current
IIXH
-
-
40
µA
XTAL_I Input Capacitance
CL
35
-
pF
XTAL_I Input Cycle Time
tIXC
39.996
-
40.004
ns
XTAL_I Input Low Time
tIXL
18
-
22
ns
XTAL_I Input High Time
tXH
18
-
22
ns
IOL = 4.0mA
-
-
0.4
IOL = 10.0mA
-
-
0.4
Digital I/O
Output Low Voltage
CLK25, MII_IRQ, SPD10, SPD100
LED[4:0]
V
VOL
Output Low Voltage (MII_DRV = 1)
COL, CRS, MDIO, RXD[3:0],
RX_CLK, RX_DV, RX_ER,
TX_CLK
IOL = 4.0mA
VDD_MII = 5V; IOL = 43.0mA
VDD_MII = 3.3V, IOL = 26.0mA
VOL
Output Low Voltage (MII_DRV = 0)
COL, CRS, MDIO, RXD[3:0],
RX_CLK, RX_DV, RX_ER,
TX_CLK
VOL
V
-
IOL = 4.0mA
µA
-
0.4
3.05
2.1
V
-
-
0.4
1. With digital outputs connected to CMOS loads.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
68
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
DC CHARACTERISTICS (CONT.)
Parameter
Digital I/O (cont.)
Output High Voltage
CLK25, SPD10, SPD100
IOH = -4.0mA
Output High Voltage (MII_DRV = 1)
COL, CRS, MDIO, RXD[3:0],
RX_CLK, RX_DV, RX_ER,
TX_CLK
IOH= -4.0mA
VDD_MII = 5V; IOH = -20.0mA
VDD_MII = 3.3V, IOH = -20.0mA
Symbol
Output High Voltage (MII_DRV = 0)
COL, CRS, MDIO, RXD[3:0],
RX_CLK, RX_DV, RX_ER,
TX_CLK
IOH = -4.0mA
Input Low Voltage
All Inputs Except AN[1:0], TCM, TXSLEW[1:0],
XTAL_I
Input High Voltage
All Inputs Except AN[1:0], TCM, TXSLEW[1:0],
XTAL_I
Tri-Level Input Voltages
AN[1:0], TCM, TXSLEW[1:0]
VOH
Input Low Current
MDC, TXD[3:0], TX_CLK, TX_EN,
TX_ER
MDIO
Input High Current
MDC, TXD[3:0], TX_CLK, TX_EN,
TX_ER
MDIO
Input Leakage Current
All Other Inputs
Min
Typ
Max
2.4
-
-
VOH
V
V
VOH
2.4
1.1
1.1
-
V
VIL
2.4
-
-
0.8
VIH
2.0
-
VDD_MII +
0.3
V
VIL
-
-
1/3 VDD_MII
- 20%
V
VIM
1/3 VDD_MII
+ 20%
-
2/3 VDD_MII
- 20%
VIH
2/3 VDD_MII
+ 20%
-
-
VI = 0.0V
VI = 0.0V
V
µA
IIL
-20
-
-
-3800
-
µA
IIH
VI = 5.0V
-
-
200
VI = 5.0V
-
-
20
-10
-
+10
µA
ILEAK
0<=V<=VDD
Unit
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
69
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS
Parameter
10BASE-T Interface
Transmitter Differential Output Voltage (Peak)
Symbol
Min
Typ
Max
Unit
VOD
2.2
-
2.8
V
Receiver Normal Squelch Level (Peak)
VISQ
300
-
525
mV
Receiver Low Squelch Level (LoRxSquelch bit
set)
100BASE-TX Interface
Transmitter Differential Output Voltage (Peak)
VSQL
125
-
290
mV
VOP
0.95
-
1.05
V
Transmitter Signal Amplitude Symmetry
VSYM
98
-
102
%
Transmitter Differential Output Impedance
ZOUT
-
100
-
ohms
Transmit Rise/Fall Time
tRF
3.0
-
5.0
ns
Transmit Rise/Fall Symmetry
tRFS
-
-
0.5
ns
Transmit Duty Cycle Distortion
tDCD
-
-
+/-0.5
ns
Transmit Overshoot/Undershoot
tOS
-
-
5
%
Transmit Jitter
tJT
-
400
1400
ps
-
-
1.0
Vp-p
0.2
-
-
Vp-p
-
-
1000
350
µs
µs
Receive Signal Detect Assert Threshold
Receive Signal Detect De-assert Threshold
Receive Signal Detect Assert Time
Receive Signal Detect De-assert Time
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
70
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T Serial Mode Transmit Timing
TX_CLK Period
Symbol
Min
Typ
Max
Unit
tTCP
-
100
-
ns
tTCH, tTCL
-
50
-
ns
Transmit Data Setup to TX_CLK
tTDS
10
-
-
ns
Transmit Data Hold from TX_CLK
tTDH
10
-
-
ns
Transmit Throughput Delay
tTPD
-
-
500
ns
TX+/- Pair Jitter into 100 Ω Load
tTXJ
-
-
8
ns
TX+/- Pair Positive Hold Time at End of Packet
tTXH
250
-
-
ns
TX+/- Pair Return to ≤ 50 mV after Last Positive
Transition
tTXOFF
-
-
4.5
µs
TX_CLK Pulse Width
tTCP
In/Out
TX_CLK
tTCH
tTCL
In
TX_EN
tTDH
tTDS
TXD0
In
tTPD
tTXH
Out
TX+/TXtTXJ
tTXOFF
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
71
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T Serial Mode Receive Timing
Allowable Received Jitter
Symbol
Min
Typ
Max
Unit
tRXJ
-
-
+/-13.5
ns
Carrier Sense Assertion Delay
tRCRSA
300
-
600
ns
Carrier Sense Deassertion Delay
tRCRSD
-
-
400
ns
Collision Assertion Delay
tRCOLA
300
-
600
ns
Collision Deassertion Delay
tRCOLD
-
-
400
ns
tRCP
-
100
-
ns
tRCH, tRCL
-
50
-
ns
Carrier Sense Hold from RX_CLK
tRCRSH
35
-
-
ns
RX_CLK Rising Edges After Carrier Sense Deasserted
Receive Data Throughput Delay
tRCYC
6
-
-
#
tRLAT
-
-
250
ns
Receive Data Setup to RX_CLK
tRDS
35
-
-
ns
Receive Data Hold from RX_CLK
tRDH
50
-
-
ns
RX_CLK Period
RX_CLK Pulse Width
RX+/RXtRCRSA
tRXJ
tRCRSD
CRS
tRCOLA
tRCOLD
COL
tRCP
tRCYC
tRCSRH
RX_CLK
tRLAT
tRDS
tRCH
tRCL
tRDH
RXD0
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
72
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10Base-T Jabber/Unjabber Timing
Maximum Transmit Time
Unjabber Time
Symbol
Min
Typ
Max
Unit
tJAB
-
105
-
ms
tUNJAB
-
406
-
ms
TX_EN
In
tJAB
TX+/TX-
Out
tUNJAB
COL
Out
Parameter
10Base-T SQE (Heartbeat) Timing
COL (SQE) Delay after TX_EN off
COL (SQE) Pulse Width
Symbol
Min
Typ
Max
Unit
tSQED
-
1.4
-
µs
tSQEP
-
1.3
-
µs
TX_CLK
In/Out
tTES
TX_EN
In
tSQED
tSQEP
COL
Out
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
73
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
Auto-negotiation and Fast Link Pulses
Clock/Data Pulse Width
Symbol
Min
Typ
Max
Unit
tLPW
80
100
130
ns
Clock Pulse to Data Pulse Time
tLCDW
55.5
64
69.5
µs
Clock Pulse to Clock Pulse Time
tLCCW
111
128
139
µs
Fast Link Pulse (FLP) Burst Width
tFLW
-
2
-
ms
FLP Burst to FLP Burst Time
tLPP
15
16
17
ms
17
-
33
Fast Link Pulses per Burst
10BASE-T Link Integrity
First Transmitted Link Pulse after Last Transmitted Packet
Minimum Received Link Pulses Separation
tLN1
15
16
17
ms
tLN4
-
-
7
ms
Maximum Received Link Pulse Separation
tLN5
50
-
-
ms
Last Receive Activity to Link Fail (Link Loss
Timer)
tLN6
50
52
150
ms
Clock
Pulse
Data
Pulse
Clock
Pulse
Fast Link Pulses
tLPW
tLCDW
tLCCW
FLP Bursts
tFLW
tLPP
Normal Link Pulses
tLPW
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
74
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
100BASE-X MII Receive Timing
“Start of Stream” to CRS asserted
Symbol
Min
Typ
Max
Unit
tRCRSA
-
10
11
BT
“End of Stream” to CRS de-asserted
tRCRSD
-
-
21
BT
“Start of Stream” to COL asserted
tRCOLA
-
-
11
BT
“End of Stream” to COL de-asserted
tRCOLD
-
-
21
BT
tRCP
-
40
-
ns
tRCL, tRCH
-
20
-
ns
tRLAT
15
-
19
9
-
BT
tRDS
12
5
10
tRDH
10
-
-
ns
tREN
-
-
60
ns
tRDIS
-
-
60
ns
RX_CLK Period
RX_CLK Pulse Width
"Start of Stream" to RXD latency
Aligned
Alignment Bypassed
RXD[3:0],RX_ER/RXD4,RX_DV setup to rising
edge of RX_CLK
RXD[3:0],RX_ER/RXD4,RX_DV hold from rising
edge of RX_CLK
RX_EN asserted to RX_DV, RX_ER, RXD[3:0]
valid
RX_EN de-asserted to RX_DV, RX_ER,
RXD[3:0], RX_ER/RXD4 tristated
RX+/RX-
ns
In
tRCRSD
tRCRSA
CRS
Out
tRCOLD
tRCOLA
COL
Out
tRCP
RX_CLK
Out
tRLAT
tRCL
tRCH
RX_DV
Out
tRDS
tRDH
RXD[4:0],
RX_ER
Out
RX_EN
In
tREN
RXD[4:0],
RX_DV,
RX_ER
tRDIS
Out
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
75
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
100BASE-X MII Transmit Timing
TX_CLK Period
Symbol
Min
Typ
Max
Unit
tTCP
-
40
-
ns
TX_CLK Pulse Width
tTCL, tTCH
-
20
-
ns
TXD[3:0], TX_ER, TX_EN Setup to TX_CLK High
tTDS
10
-
-
ns
TXD[3:0], TX_ER, TX_EN Hold after TX_CLK
High
TX_CLK to CRS asserted latency
tTDH
0
-
-
ns
tTCRSA
-
-
8
BT
TX_CLK to CRS de-asserted latency
tTCRSD
-
-
8
BT
tTPD
6
-
7
6
8
7
BT
TX_CLK to TX+/- output (TX Latency)
Aligned
Alignment Bypassed
tTCP
TX_CLK
In/Out
tTCL
tTCH
TX_EN
In
tTDS
tTDH
TXD[4:0],
TX_ER
In
tTCRSD
tTCRSA
CRS
Out
tTPD
Out
TX+/TX-
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
76
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T MII Receive Timing
RX+/- preamble to CRS asserted
Symbol
Min
Typ
Max
Unit
tRCRSA
-
5
7
BT
RX+/- end of packet to CRS de-asserted
tRCRSD
2.5
3
BT
RX+/- preamble to COL asserted
tRCOLA
0
-
7
BT
RX+/- end of packet to COL de-asserted
tRCOLD
-
-
3
BT
tRCP
-
400
-
ns
tRCL, tRCH
-
200
-
ns
"Start of Stream" to RXD latency
tRLAT
-
13
17
BT
RXD[3:0], RX_ER, RX_DV setup to rising edge of
RX_CLK
RXD[3:0], RX_ER, RX_DV hold from rising edge
of RX_CLK
RX_EN asserted to RX_DV, RXD[3:0], RX_ER
valid
RX_EN de-asserted to RX_DV, RXD[3:0]. RX_ER
in high impedance state
tRDS
30
-
-
ns
tRDH
30
-
-
ns
tREN
-
-
60
ns
tRDIS
-
-
60
ns
RX_CLK Period
RX_CLK Pulse Width
RX+/RX-
In
tRCRSD
tRCRSA
CRS
Out
tRCOLD
tRCOLA
COL
Out
tRCP
RX_CLK
Out
tRLAT
tRCL
tRCH
RX_DV
Out
tRDS
tRDH
RXD[3:0],
RX_ER
Out
RX_EN
In
tREN
RXD[4:0],
RX_DV,
RX_ER
tRDIS
Out
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
77
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T MII Transmit Timing
TX_CLK Period
Symbol
Min
Typ
Max
Unit
tTCP
-
400
-
ns
TX_CLK Pulse Width
tTCL, tTCH
-
200
-
ns
TXD[3:0], TX_EN, TX_ER Setup to TX_CLK High
tTDS
10
-
-
ns
TXD[3:0], TX_EN, TX_ER Hold after TX_CLK
High
TX_CLK to CRS asserted latency
tTDH
0
-
-
ns
tTCRSA
0
-
4
BT
TX_CLK to CRS de-asserted latency
tTCRSD
0
-
16
BT
TX_CLK to TX+/- output (TX Latency)
tTPD
6
-
14
BT
TX+/- hold at end of packet
tTXH
250
-
-
ns
tTXOFF
-
-
4.5
µs
TX+/- return to idle (<= 50 mV)
tTCP
TX_CLK
In/Out
tTCL
tTCH
TX_EN
In
tTDS
tTDH
TXD[3:0],
TX_ER
In
tTCRSA
tTCRSD
CRS
Out
tTPD
tTXH
Out
TX+/TXtTXOFF
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
78
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T Serial Receive Timing
Allowable receive jitter at bit cell center
Symbol
Min
Typ
Max
Unit
tRXJ
-
-
+/- 13.5
ns
RX+/- active to CRS active
tRCRSA
-
-
600
ns
CRS de-asserted after RX+/- inactive
tRCRSD
-
-
400
ns
RX+/- active to COL active
tRCOLA
-
-
600
ns
COL de-asserted after RX+/- inactive
tRCOLD
-
-
400
ns
tRCP
-
400
-
ns
tRCL, tRCH
-
200
-
ns
CSR hold from RX_CLK
tRCSRH
5
-
-
ns
RX_CLK hold after CRS off
tRCYC
5
-
-
cycles
RXD[0] throughput delay
tRLAT
-
-
1200
ns
RXD[0] setup from RX_CLK
tRDS
35
-
-
ns
RXD[0] hold from RX_CLK
tRDH
50
-
-
ns
RX_CLK Period
RX_CLK Pulse Width
RX+/RX-
In
tRCRSA
tRXJ
tRCRSD
CRS
Out
tRCOLA
tRCOLD
COL
Out
tRCP
tRCYC
tRCSRH
RX_CLK
Out
tRLAT
tRDS
tRCH
tRCL
tRDH
RXD0
Out
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
79
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
10BASE-T Serial Transmit Timing
TX_CLK Period
Symbol
Min
Typ
Max
Unit
tTCP
-
400
-
ns
TX_CLK Pulse Width
tTCL, tTCH
-
200
-
ns
TXD[0], TX_EN Setup from TX_CLK
tTDS
10
-
-
ns
TXD[0], TX_EN Hold after TX_CLK
tTDH
10
-
-
ns
Transmit throughput delay
tTPD
-
-
500
ns
TXD+/- jitter
tTPD
-
-
+/- 8
ns
TX+/- hold at end of packet
tTXH
250
-
-
ns
tTXOFF
-
-
4.5
µs
TX+/- return to idle (<= 50 mV)
tTCP
In/Out
TX_CLK
tTCH
tTCL
In
TX_EN
tTDH
tTDS
TXD0
In
tTPD
tTXH
Out
TX+/TXtTXJ
tTXOFF
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
80
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
SWITCHING CHARACTERISTICS (CONT.)
Parameter
Serial Management Interface
MDC Period
Symbol
Min
Typ
Max
Unit
tMDCP
60
-
-
ns
tMDCL,tMDCH
40
-
60
%
MDIO Setup to MDC (MDIO as input)
tMDIS
10
-
-
ns
MDIO Hold after MDC (MDIO as input)
tMDIH
10
-
-
ns
MDC to MDIO valid (MDIO as output)
tMDO
0
-
40
ns
MDC Pulse Width
tMDCP
In
MDC
tMDIS
MDIO (Input)
tMDIH
tMDCH
tMDCL
Valid Data
In
tMDO
MDIO (Output)
Valid Data
Out
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
81
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
MECHANICAL SPECIFICATIONS
Package Dimensions
E
E1
D D1
1
e
B
∝
A
A1
L
DIM
A
A1
B
D
D1
E
E1
e (Note 1)
L
µ
Min
0.05
0.17
15.70
13.90
15.70
13.90
0.40
0.45
0.00
Max
1.60
0.15
0.27
16.30
14.10
16.30
14.10
0.60
0.75
7.00
Unit
mm
mm
mm
mm
mm
mm
mm
mm
mm
degrees
1. Nominal pin pitch is 0.50 mm.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
82
DS206TPP2
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
Recommended PCB Footprint
C
E
D
G
Z
Y
X
DIM
C
D
E
G
X
Y
Z
Min
13.80
0.30
16.80
Typ
15.40
12.00
0.50
1.60
-
Max
14.00
0.40
17.00
Unit
mm
mm
mm
mm
mm
mm
mm
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
DS206TPP2
83
CS8952T
CrystalLAN™ 100BASE-X and 10BASE-T Transceiver
REVISION HISTORY
Revision
PP1
PP2
PP3
Changes
- Initial publication.
- Added electrical and timing specifications.
- Reformatted register information.
- Changed order of pin description and electrical specifications sections.
- Changed VDD_MII pin description to make it clear it powers all I/O pads except XTAL_I, not just
MII.
- Added VIH max specification in DC Characteristics section.
- Changed XTAL_I input capacitance specification from max to typ since it is not actually measured at test.
- Moved electrical specification and pin description sections back where they were in PP1.
- Added XTAL_I pin to VIL and VIH exception lists.
- Fixed pin diagram figure to reverse RX_NRZ+/- and TEST0/1.
- Added typical PCB footprint in mechanical section.
- Changed XTAL_I electrical specification to reflect the fact it is referenced to VDD instead of
VDD_MII.
- Added more verbiage to Functional Description.
CIRRUS LOGIC ADVANCED PRODUCT DATABOOK
84
DS206TPP2
• Notes •
Similar pages