Texas Instruments TNETX4090 Compatibility with future device revisions, Port LED States

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TNETX4090

ThunderSWITCH II 9-PORT 100-/1000-MBIT/S ETHERNET SWITCH

SPWS044E ± DECEMBER 1997 ± REVISED AUGUST 1999

compatibility with future device revisions

All EEPROM locations that correspond to reserved addresses in the memory map, register bits that are read only, and register bits that are marked as reserved should be set to 0 to ensure compatibility with future versions of the device. Failure to do so may result in the unintentional activation of features in future devices. All such bits are included in the CRC calculation.

LED interface

This interface allows a visual status for each port to be displayed. In addition, the state of the internal flow control and fault functions are displayed along with 12 software-controllable LEDs.

Each port has a single LED that can convey three states, as shown in Table 15.

Table 15. Port LED States

STATE	DISPLAY

No link	Off

Link, but no activity	On

Activity	Flashing at 8	Hz

Port 08 has an additional LED, C08, to indicate the occurrence of a collision when operating in PMA mode; this LED also has three states, as shown in Table 16.

Table 16. Collision LED States

STATE	DISPLAY

No collision (or non PMA mode)	Off

Occasional collision	On

Frequent collisions	Flashing at 8	Hz

The interface is intended for use in conjunction with external octal shift registers, clocked with LED_CLK. Every 1/16th of a second, the status bits are shifted out via LED_DATA.

The status bits are shifted out in one of two possible orders, as determined by slast in LEDControl, to ensure that systems that do not require all the LED status can be implemented with the minimum number of octal shift registers.

DIf slast = 0, the software-controlled status bits are shifted out before the port status bits.

DIf slast = 1, the software-controlled status bits are shifted out after the port status bits.

The fault status bit is shifted out last, enabling a minimal system that displays only the fault status to be implemented without any shift registers.

44	POST OFFICE BOX 655303 •DALLAS, TEXAS 75265

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Contents Description MII MAC MIIMAC Eeprom CPU I/F DMAPCS Duplex LED Rdram Interface Jtag Interface GGP Package Bottom View Signal-to-Ball Mapping Signal Names Sorted Alphabetically Signal Ball NameReset Sdma SAD0 Terminal Functions Jtag interfaceControl logic interface Terminal Internal Description Name RESISTOR²100-/1000-Mbit/s MAC interface Gmii mode M08TXD7 M08TXD6 M08TXD5Terminal Internal Description Name Resistor Port to not support pause frames 10-/100-Mbit/s MAC interface MII mode ports 0±7 PulldownM00RENEG M01RENEG ThunderSWITCH II 9-PORT 100-/1000-MBIT/S ETHERNET Switch M04TCLK M05TCLK M06TCLK M07TCLK AD4MII management interface Rdram interface DIO interface Eeprom interface100-/1000-Mbit/s port PCS LED interface Power supplyLED interface Byte DIO Address DIO interface descriptionDIO Internal Register Address Map ThunderSWITCH II 9-PORT 100-/1000-MBIT/S ETHERNET TNETX4090VLAN1QID VLAN0QID VLAN37QID VLAN36QID TNETX4090 PCS8Status PCS8Control 0x0700 DIO interface description Port no Head Statistic Even ODD Ports Port StatisticsTail Port no Head Statistic Tail 0x90ExDMA Interface Signals Signal DescriptionAddress-Lookup Statistics Receiving/transmitting management framesState of DIO signal terminals during hardware reset DIO Interface During Hardware ResetDIO Interface State During Hardware Reset Ieee Std 802.1Q Vlan tags on the NM portVlan ID FCSTpid TCI CRCTNETX4090 PHY management interface Full-duplex NM portNM bandwidth and priority Interrupt processingMAC interface Adaptive performance optimization APO Interframe gap enforcementBackoff Receive versus transmit priority10-/100-Mbit/s MII ports 0±7 Speed, duplex, and flow-control negotiation100-Mbit/s Port Negotiation With the TNETE2104 100-/1000-Mbit/s PHY interface port Port 8 Duplex Negotiation in MII Mode Port 8 Pause Negotiation in MII ModeFull-duplex hardware flow control OutcomeM08GTCLK M08TXEN Pretagging and extended port awarenessPretag on transmission Transmit Pretag Bit Definitions Pretag on receptionLearning Format Receive Pretag Bit Definitions BIT Name FunctionDirected Format Receive Pretag Bit Definitions Ring-cascade topologyRXD Flow COL TXD TNETX4090 RXD Flow COL TXDM08GTCLK M08TXEN M08RXDV Switch TerminalRing-Topology Connectivity GND SCL SDAEdio TNETX4090 Eclk Summary of Eeprom load outcomes Outcome Stop Load Initd ² Fault LED EclkInteraction of Eeprom load with the SIO register Compatibility with future device revisions Port LED StatesCollision LED States State DisplayPCS duplex LED LED Status Bit Definitions and Shift OrderLamp test Multi-LED displayBUS Enable GND BUS Ctrl Rdram SIN BUS Enable GND Rdram BUS Ctrl SINTNETX4090 VCC NC Txclk Vref Rxclk VDD Sout SCHAIN0 Txclk Vref Rxclk VDDJtag Instruction Opcodes Highz instructionRacbist instruction Jtag Bist StatusIale Frame routingVlan support Address maintenance Ieee Std 802.1Q tags ± receptionIeee Std 802.1Q header ± transmission Spanning-tree supportAging algorithms Frame-Routing Algorithm SPWS044E ± December 1997 ± Revised August Port routing code Port trunking/load sharing Removal of source portPort trunking example Trunk Group 0 Port Membership Trunk0Ports RegisterTrunk Group 1 Port Membership Trunk1Ports Register Extended port awarenessFlow control Other flow-control mechanisms Hardware flow controlMulticast limit System test capabilitiesReading Rdram Internal wrap testDuplex wrap test PHY TNETX4090Recommended operating conditions MIN NOM MAX UnitTiming requirements over recommended operating conditions Jtag interface Control signalsReset see Figure Physical medium attachment interface port Receive PMA receive see FigureTransmit PMA transmit see FigureGmii transmit see Figure Gmii portGmii receive see Figure PMA and Gmii clock see Figure Gmii ClockMII ports 0±8 MII receive see FigureMII transmit see Figure MII clock see FigureRdram interface Rdram see FigureDtxclk Drxclk Dbusctrl DbusenSCS Srnw SAD1±SAD0 Sdma SDATA7± SDATA0 Srdy Sint DIO interfaceDIO and DMA writes see Figure DIO and DMA reads see Figure SCS Srnw SAD1±SAD0 Sdma SDATA7± SDATA0 SrdyEeprom reads see Figure Eeprom interfaceEeprom writes see Figure Ledclk Leddata LED interfaceLED see Figure VOH VOLTTL Output Macro Propagation-Delay-Time Voltage Waveforms VOL VDD VDD VOH50% Lvcmos Mechanical Data TNETX4090GGP Obsolete BGA TBDImportant Notice