COM20051 Datasheet, PDF(41/82 Page) List of Unclassifed Manufacturers – Integrated Microcontroller and ARCNET (ANSI 878.1) Interface

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COM20051 Datasheet, PDF (41/82 Pages) List of Unclassifed Manufacturers – Integrated Microcontroller and ARCNET (ANSI 878.1) Interface

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the receiving node to reply to the transmitting

node. The ARCNET core puts the local ID in this

location, therefore it is not necessary to write into

this location.

Please note that a short packet may contain

between 1 and 253 data bytes, while a long

packet may contain between 257 and 508 data

bytes. A minimum value of 257 exists on a long

packet so that the COUNT is expressable in

eight bits. This leaves three exception packet

lengths which do not fit into either a short or long

sequence. If a successful transmit sequence is

completed, the TMA bit and the TA bit are set to

logic "1". If the packet was not transmitted

successfully, TMA will not be set. A successful

transmission occurs when the receiving node

responds to the packet with an ACK. An

unsuccessful transmission occurs when the

receiving node does not respond to the packet.

The second possibility is if the destination node

responds to the Free Buffer Enquiry with a

Negative AcKnowledgement. A NAK occurs

packet; packet lengths of 254, 255, or 256 bytes.

If packets of these lengths must be sent, the user

must add dummy bytes to the packet in order to

make the packet fit into a long packet. Note that

only the number of bytes specified in the byte

count plus the three-byte header are transmitted.

For example, if the byte count is equal to 253,

only three bytes of data will be transmitted plus

the header (SID, DID, Byte Count) for a total of

six bytes.

Once the packet is written into the buffer, the

microcontroller awaits a logic "1" on the TA bit,

indicating that a previous transmit command has

concluded and another may be issued. Each

time the message is loaded and a transmit

command issued, it will take a variable amount of

time before the message is transmitted,

depending on the traffic on the network and the

location of the token at the time the transmit

command was issued. The conclusion of the

Transmit command will generate an interrupt if

the Interrupt Mask allows it. If the device is

configured for the Command Chaining operation,

please see the Command Chaining section for

further detail on the transmit sequence. Once

the TA bit becomes a logic "1", the

microcontroller may issue the "Enable Transmit

from Page fnn" command, which resets the TA

and TMA bits to logic "0". If the message is not a

BROADCAST, the ARCNET core automatically

sends a FREE BUFFER ENQUIRY to the

destination node in order to send the message.

when the RI bit of the destination node is a logic

"1". In this case, the token is passed on from the

transmitting node to the next node. The next

time the transmitter receives the token, it will

again transmit a FREE BUFFER ENQUIRY. If a

NAK is again received, the token is again passed

onto the next node. The Excessive NAK bit of

the Diagnostic Status Register is used to prevent

an endless sending of FBE's and NAK's. If no

limit of FBE-NAK sequences existed, the

transmitting node would continue issuing a Free

Buffer Enquiry, even though it would

continuously receive a NAK as a response. The

EXCNAK bit generates an interrupt (if enabled)

in order to tell the microcontroller to disable the

transmitter via the "Disable Transmitter"

command. This causes the transmission to be

abandoned and the TA bit to be set to a logic "1"

when the node next receives the token, while the

TMA bit remains at a logic "0". Please refer to

the Improved Diagnostics section for further

detail on the EXCNAK bit.

The third possibility which may occur after a

FREE BUFFER ENQUIRY is issued is if the

destination node does not respond at all. In this

case, the TA bit is set to a logic "1", while the

TMA bit remains at a logic "0". The user should

determine whether the node should try to reissue

the transmit command.

The fourth possibility is if a non-traditional

response is received (some pattern other than

ACK or NAK, such as noise). In this case, the

At this point, one of four possibilities may occur.

The first possibility is if a free buffer is available

at the destination node, in which case it

responds with an ACKnowledgement. At this

point, the ARCNET core fetches the data from

the Transmit Buffer and performs the transmit

token is not passed onto the next node, which

causes the Lost Token Timer of the next node to

time out, thus generating a network

reconfiguration.

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