Datasheet
789
SAM9263 [DATASHEET]
Atmel-6249N-ATARM-SAM9263-Datasheet_14-Mar-16
The receive block signals the register block to increment the alignment error, the CRC (FCS) error, the short
frame, long frame, jabber error, the receive symbol error statistics and the length field mismatch statistics.
The enable bit for jumbo frames in the network configuration register allows the EMAC to receive jumbo frames of
up to 10240 bytes in size. This operation does not form part of the IEEE802.3 specification and is disabled by
default. When jumbo frames are enabled, frames received with a frame size greater than 10240 bytes are
discarded.
40.4.5 Address Checking Block
The address checking (or filter) block indicates to the DMA block which receive frames should be copied to
memory. Whether a frame is copied depends on what is enabled in the network configuration register, the state of
the external match pin, the contents of the specific address and hash registers and the frame’s destination
address. In this implementation of the EMAC, the frame’s source address is not checked. Provided that bit 18 of
the Network Configuration register is not set, a frame is not copied to memory if the EMAC is transmitting in half
duplex mode at the time a destination address is received. If bit 18 of the Network Configuration register is set,
frames can be received while transmitting in half-duplex mode.
Ethernet frames are transmitted a byte at a time, least significant bit first. The first six bytes (48 bits) of an Ethernet
frame make up the destination address. The first bit of the destination address, the LSB of the first byte of the
frame, is the group/individual bit: this is One for multicast addresses and Zero for unicast. The All Ones address is
the broadcast address, and a special case of multicast.
The EMAC supports recognition of four specific addresses. Each specific address requires two registers, specific
address register bottom and specific address register top. Specific address register bottom stores the first four
bytes of the destination address and specific address register top contains the last two bytes. The addresses
stored can be specific, group, local or universal.
The destination address of received frames is compared against the data stored in the specific address registers
once they have been activated. The addresses are deactivated at reset or when their corresponding specific
address register bottom is written. They are activated when specific address register top is written. If a receive
frame address matches an active address, the frame is copied to memory.
The following example illustrates the use of the address match registers for a MAC address of 21:43:65:87:A9:CB.
Preamble 55
SFD D5
DA (Octet0 - LSB) 21
DA(Octet 1) 43
DA(Octet 2) 65
DA(Octet 3) 87
DA(Octet 4) A9
DA (Octet5 - MSB) CB
SA (LSB) 00
SA 00
SA 00
SA 00
SA 00
SA (MSB) 43
SA (LSB) 21