SMSC LAN8720, LAN8720i 4.6MAC Interface, 4.5.310M Receive Data Across the MII/RMII Interface, 4.5.4Jabber Detection, 4.6.1RMII, 4.6.1.1CRS_DV - Carrier Sense/Receive Data Valid

Small Footprint RMII 10/100 Ethernet Transceiver with HP Auto-MDIX Support

Datasheet

4.5.310M Receive Data Across the MII/RMII Interface

For MII, the 4 bit data nibbles are sent to the MII block. In MII mode, these data nibbles are valid on the rising edge of the 2.5 MHz RXCLK.

For RMII, the 2bit data nibbles are sent to the RMII block. In RMII mode, these data nibbles are valid on the rising edge of the RMII REF_CLK.

4.5.4Jabber Detection

Jabber is a condition in which a station transmits for a period of time longer than the maximum permissible packet length, usually due to a fault condition, that results in holding the TXEN input for a long period. Special logic is used to detect the jabber state and abort the transmission to the line, within 45ms. Once TXEN is deasserted, the logic resets the jabber condition.

As shown in Table 5.22, bit 1.1 indicates that a jabber condition was detected.

4.6MAC Interface

The RMII block is responsible for the communication with the controller.

4.6.1RMII

The SMSC LAN8720 supports the low pin count Reduced Media Independent Interface (RMII) intended for use between Ethernet transceivers and Switch ASICs. Under IEEE 802.3, an MII comprised of 16 pins for data and control is defined. In devices incorporating many MACs or transceiver interfaces such as switches, the number of pins can add significant cost as the port counts increase. The management interface (MDIO/MDC) is identical to MII. The RMII interface has the following characteristics:

„It is capable of supporting 10Mb/s and 100Mb/s data rates

„A single clock reference is used for both transmit and receive.

„It provides independent 2 bit wide (di-bit) transmit and receive data paths

„It uses LVCMOS signal levels, compatible with common digital CMOS ASIC processes

The RMII includes 6 interface signals with one of the signals being optional:

„transmit data - TXD[1:0]

„transmit strobe - TXEN

„receive data - RXD[1:0]

„receive error - RXER (Optional)

„carrier sense - CRS_DV

„Reference Clock - (RMII references usually define this signal as REF_CLK)

The CRS_DV is asserted by the LAN8720/LAN8720i when the receive medium is non-idle. CRS_DV is asserted asynchronously on detection of carrier due to the criteria relevant to the operating mode. That is, in 10BASE-T mode, when squelch is passed or in 100BASE-X mode when 2 non-contiguous zeroes in 10 bits are detected, carrier is said to be detected.

Loss of carrier shall result in the deassertion of CRS_DV synchronous to the cycle of REF_CLK which presents the first di-bit of a nibble onto RXD[1:0] (i.e. CRS_DV is deasserted only on nibble boundaries). If the LAN8720/LAN8720i has additional bits to be presented on RXD[1:0] following the initial deassertion of CRS_DV, then the LAN8720/LAN8720i shall assert CRS_DV on cycles of REF_CLK which present the second di-bit of each nibble and de-assert CRS_DV on cycles of REF_CLK which present the first di-bit of a nibble. The result is: Starting on nibble boundaries