Datasheet
Table Of Contents
- 1 Introduction
- Table of Contents
- 2 Pin Descriptions
- 3 Configuration
- 4 Interfaces
- 5 Architecture
- 6 Reset and Power Down Operation
- 7 Design Guidelines
- 8 Register Block
- 8.1 Register Definition
- 8.1.1 Basic Mode Control Register (BMCR)
- 8.1.2 Basic Mode Status Register (BMSR)
- 8.1.3 PHY Identifier Register #1 (PHYIDR1)
- 8.1.4 PHY Identifier Register #2 (PHYIDR2)
- 8.1.5 Auto-Negotiation Advertisement Register (ANAR)
- 8.1.6 Auto-Negotiation Link Partner Ability Register (ANLPAR) (BASE Page)
- 8.1.7 Auto-Negotiate Expansion Register (ANER)
- 8.1.8 Auto-Negotiate Next Page Transmit Register (ANNPTR)
- 8.1.9 Auto-Negotiation Link Partner Ability Next Page Register (ANLNPTR)
- 8.2 Register Control Register (REGCR)
- 8.3 Address or Data Register (ADDAR)
- 8.4 Extended Registers
- 8.4.1 PHY Control Register (PHYCR)
- 8.4.2 PHY Status Register (PHYSR)
- 8.4.3 MII Interrupt Mask Register (MINTMR)
- 8.4.4 MII Interrupt Status Register (MINTSR)
- 8.4.5 MII Interrupt Control Register (MINTCR)
- 8.4.6 Receiver Error Counter Register (RECR)
- 8.4.7 BIST Control Register (BISCR)
- 8.4.8 BIST STATUS Register (BISSR)
- 8.4.9 BIST Byte Count Register (BISBCR)
- 8.4.10 BIST Error Count Register (BISECR)
- 8.4.11 BIST Packet Length Register (BISPLR)
- 8.4.12 BIST Inter Packet Gap Register (BISIPGR)
- 8.4.13 LED Direct Control Register (LEDCR)
- 8.4.14 Power Down Register (PDR)
- 8.4.15 False Carrier Sense Counter Register (FCSCR)
- 8.4.16 RX Channel Control Register (RXCCR)
- 8.5 Cable Diagnostic Registers
- 8.5.1 Cable Diagnostic Registers (CDCR)
- 8.5.2 Cable Diagnostic Status Register (CDSR)
- 8.5.3 Cable Diagnostic Results Register (CDRR)
- 8.5.4 TDR State Machine Enable (TDRSMR)
- 8.5.5 TDR Pattern Amplitude Register (TDRPAR)
- 8.5.6 TDR Manual Pulse Register (TDRMPR)
- 8.5.7 TDR Channel Silence Register (TDRCSR)
- 8.5.8 TDR Control Register (TDRCR)
- 8.5.9 TDR Clock Cycles Register (TDRLCR)
- 8.5.10 TDR Low Threshold Register (TDRLT1)
- 8.5.11 TDR Low Threshold Register (TDRLT2)
- 8.5.12 TDR Low Threshold Register (TDRLT3)
- 8.5.13 TDR Low Threshold Register (TDRLT4)
- 8.5.14 TDR High Threshold Register (TDRHT1)
- 8.5.15 TDR High Threshold Register (TDRHT2)
- 8.5.16 TDR High Threshold Register (TDRHT3)
- 8.5.17 TDR High Threshold Register (TDRHT4)
- 8.5.18 TDR Pattern Control Register 1 (TDRLCR1)
- 8.5.19 TDR Pattern Control Register 2 (TDRLCR2)
- 8.5.20 DSA Configuration Register 1 (DSACR1)
- 8.5.21 DSA Configuration Register 2 (DSACR2)
- 8.5.22 DSA Start Frequency (DSASFR)
- 8.5.23 DSA Frequency Control (DSAFCR)
- 8.5.24 DSA Output Control (DSAOCR)
- 8.5.25 RAM Control 1 (RAMCR1)
- 8.5.26 RAM Control 2 (RAMCR2)
- 8.5.27 RAM Data Out (RAMDR)
- 8.5.28 CD Pre Test Configuration Control 1 (CDPTC1R)
- 8.5.29 CD Pre Test Configuration Control 2 (CDPTC2R)
- 8.5.30 LPF Bypass (LPFBR)
- 8.1 Register Definition
- 9 Electrical Specifications
- 10 Appendix A: Digital Spectrum Analyzer (DSA) Output
- Revision History
TLK100
www.ti.com
SLLS931B–AUGUST 2009–REVISED DECEMBER 2009
After the T/R code-group pair, the code-group encoder continuously adds IDLEs into the transmit data
stream until the next transmit packet is detected.
Table 5-1. 4B/5B Code Table
4-Bit Code Symbol 5-Bit Code
0000 0 11110
0001 1 01001
0010 2 10100
0011 3 10101
0100 4 01010
0101 5 01011
0110 6 01110
0111 7 01111
1000 8 10010
1001 9 10011
1010 A 10110
1011 B 10111
1100 C 11010
1101 D 11011
1110 E 11100
1111 F 11101
IDLE AND CONTROL CODES
DESCRIPTION Symbol
(1)
5-Bit Code
Inter-Packet IDLE I 11111
First nibble of SSD J 11000
Second nibble of SSD K 10001
First nibble of ESD T 01101
Second nibble of ESD R 00111
Transmit Error Symbol H 00100
INVALID CODES
V 00000
V 00001
V 00010
V 00011
V 00101
V 00110
V 01000
V 01100
(1) Control code-groups I, J, K, T and R in data fields will be mapped as invalid codes, together with
RX_ER asserted.
5.1.2 Scrambler
The purpose of the scrambler is to flatten the power spectrum of the transmitted signal, thus reduce EMI.
The scrambler seed is generated with reference to the PHY address so that multiple PHYs that reside
within the system will not use the same scrambler sequence.
Copyright © 2009, Texas Instruments Incorporated Architecture 27
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