Texas Instruments specifications Mbit/s Interface Connections, TNETX3270 TNETE2008 Terminal

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TNETX3270

ThunderSWITCH 24/3 ETHERNET SWITCH

WITH 24 10-MBIT/S PORTS AND 3 10-/100-MBIT/S PORTS

SPWS043B ± NOVEMBER 1997 ± REVISED APRIL 1999

Table 11. 10-Mbit/s Interface Connections

TNETX3270					TNETE2008
	TERMINAL				TERMINAL

	THxCLK		←		IFCLK

	THxSYNC		←		IFSYNC

	THxCOL		←		IFCOL

	THxCRS		←		IFCRS

	THxLINK		←		IFLINK

	THxRXD3		←		IFRXD3

	THxRXD2		←		IFRXD2

	THxRXD1		←		IFRXD1

	THxRXD0		←		IFRXD0

	THxRXDV		←		IFRXDV

	THxTXD3		→		IFTXD3

	THxTXD2		→		IFTXD2

	THxTXD1		→		IFTXD1

	THxTXD0		→		IFTXD0

	THxTXEN		→		IFTXEN

			→
	THxRENEG		→		IFFORCEHD

Where x = 0, 1, or 2

The time multiplexing of this interface is shown in Figure 6. The interface runs synchronous to the PHY-generated 20-MHz clock IFCLK. The MAC-to-PHY information for the first port in each group of eight (i.e., port 00, port 08, or port 16) is presented on the interface when the THxSYNC terminal is high. The next clock cycle that the interface carries is the information for the second port. This process continues for all eight ports, each using the interface for one cycle. When all ports have been processed in this manner, the sequence resumes with the first port and again when the THxSYNC signal is asserted.

To improve latency-related issues, the PHY-to-MAC data are skewed by two slots, allowing the MAC to respond to the input signals from the PHY in the same 400-ns cycle, rather than waiting for the next 400-ns cycle (which would be the case if the signals were not skewed).

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Contents With 24 10-MBIT/S Ports and 3 10-/100-MBIT/S Ports TNETX3270 ThunderSWITCH 24/3 ETHERNET SwitchDescription With 24 10-MBIT/S Ports and 3 10-/100-MBIT/S PortsContents ThunderSWITCH 24/3 ETHERNETPGV Package TOP View  24/3 ThunderSWITCHTerminal Internal Description Name RESISTOR³ Terminal Internal Description Name Resistor 10-/100-Mbit/s MAC interface ports 24±26³10-/100-Mbit/s MAC interface ports 24±26 ² Terminal FunctionsDras Sdram interfaceDras Dcas DclkHost DIO interface Eeprom interface Serial MII management PHY interfaceJtag interface Summary of signal terminals by signal group function Power interfaceMiscellaneous Internal Register and Statistics Memory Map DIO register groupsVlan Byte DIO Address Detailed DIO Register MapSIO VLAN7QID VLAN6QID VLAN1QID VLAN0QIDVLAN3QID VLAN2QID VLAN5QID VLAN4QIDVLAN23QID VLAN22QID VLAN17QID VLAN16QIDVLAN19QID VLAN18QID VLAN21QID VLAN20QIDFindcontrol Findnode7±0 Findnode15±8 IntenableTNETX3270 reset reinitializes the TNETX3270 0x40000x5FFF Findnode23±16 Findnode31±24 Findnode39±32 Findnode47±40Interface description State of DIO signals during hardware resetReceiving/transmitting management frames Network management port Frame format on the NM port CRC Vlan IDFCS Tpid TCIShort frames MII serial management interface PHY managementMbit/s and 10-/100-Mbit/s MAC interface receive control Giant long framesAdaptive performance optimization APO transmit pacing Receive filtering of framesData transmission Transmit controlUplink pretagging Receive versus transmit prioritySource Port Source-Port Pretag EncodingTAG Received Pretag Port AssignmentsPort 27 NM Edio TNETX3270 Eclk SCL SDA Eeprom interfaceGND Summary of Eeprom Load Outcomes Outcome Stop Load Initd ² Fault LED EclkInteraction of Eeprom load with the SIO register Summary of Eeprom load outcomesLED interface Jtag interfaceJtag Instruction Opcodes Highz instructionMulti-LED display Hardware configurationsLED Status Bit Definitions and Shift Order Lamp testTNETX3270 TNETE2008 Terminal Mbit/s Interface ConnectionsM03COL Port CLK Sync TXD3M03TXD M04TXD M06TXDConnecting to TNETE2008 PHY² 100-Mbit/s Interface Connections 10-/100-Mbit/s port configurationSwitch TNETE2101 Terminal 10-/100-Mbit/s MAC interfaces ports 24±26Duplex Configuration ± MxxFORCEHD Speed Configuration ± MxxFORCE1010-/100-Mbit/s port configuration in a nonmanaged switch 10-/100-Mbit/s port configuration in a managed switch Held Sdram Terminal Terminal Function Sdram interface TNETX3270 Terminal Interface to SDRAMsSdram Terminals Not Driven by the TNETX3270 Terminals Sdram Terminal Function TNETX3270Refresh TNETX3270 State Terminal During ResetSDRAM-type and quantity indication InitializationVlan support Frame routingIale Ieee Std 802.1Q headers ± reception Address maintenanceIeee Std 802.1Q headers ± transmission Aging algorithms Spanning-tree supportFrame-routing determination Frame-Routing Algorithm SPWS043B ± November 1997 ± Revised April CDE Port mirroringFlow control Port trunking/load sharingIeee Std 802.3 flow control Collision-based flow controlPause frame reception Internal wrap test PHY TNETX3270 Duplex wrap testCopy to uplink MIN NOM MAX Unit Recommended operating conditionsParameter Test Conditions MIN TYP MAX Unit Test measurement Parameter MIN MAX Unit MIN MAX UnitTiming requirements see Note 7 and Figure 10-/100-Mbit/s MAC interface10-/100-Mbit/sreceive ports 24, 25 10-/100-Mbit/stransmit ports 24, 25, Timing requirements see FigureSdram command to command see Figure Dras Dcas TdDA Delay time, from Dclk ↑ to DA InvalidSdram subcycle DclkDIO/DMA write cycle DIO/DMA interfaceSDATA7± Z SDATA0 DIO/DMA read cycle Serial MII Management Read/Write Cycle Parameter TNETX3150 TNETX3150A Unit MIN MAX Eeprom² During hard reset, Ledclk runs continuously TdLEDDATA Delay time, from LEDCLK↑ to 1st LED invalidTtOSCIN Transition time, Oscin rise and fall Power-up Oscin and Reset Timing requirements see FigureTsuRESET Setup time Low before Oscin ↑ ThRESET Hold time Low after Oscin ↑Mechanical Data Important Notice