LAN9311-NZW Standard Microsystems (SMSC), LAN9311-NZW Datasheet - Page 274

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LAN9311-NZW

Manufacturer Part Number
LAN9311-NZW
Description
Manufacturer
Standard Microsystems (SMSC)
Datasheet

Specifications of LAN9311-NZW

Number Of Primary Switch Ports
2
Internal Memory Buffer Size
32
Operating Supply Voltage (typ)
3.3V
Fiber Support
No
Integrated Led Drivers
Yes
Phy/transceiver Interface
MII
Power Supply Type
Analog
Data Rate (typ)
10/100Mbps
Vlan Support
Yes
Operating Temperature (max)
70C
Operating Temperature (min)
0C
Pin Count
128
Mounting
Surface Mount
Jtag Support
No
Operating Supply Voltage (max)
3.6V
Operating Supply Voltage (min)
3V
Operating Temperature Classification
Commercial
Data Rate
100Mbps
Lead Free Status / RoHS Status
Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LAN9311-NZW
Manufacturer:
Standard
Quantity:
2
Part Number:
LAN9311-NZW
Manufacturer:
Microchip Technology
Quantity:
10 000
Revision 1.7 (06-29-10)
BITS
7:6
1:0
5
4
3
2
BackOff Limit (BOLMT)
The BOLMT bits allow the user to set the back-off limit in a relaxed or
aggressive mode. According to IEEE 802.3, the Host MAC has to wait for a
random number [r] of slot-times(see note) after it detects a collision, where:
(eq.1)0 < r <
The exponent K is dependent on how many times the current frame to be
transmitted has been retried, as follows:
(eq.2)K = min (n, 10) where n is the current number of retries.
If a frame has been retried three times, then K = 3 and r= 8 slot-times
maximum. If it has been retried 12 times, then K = 10, and r = 1024 slot-
times maximum.
An LFSR (linear feedback shift register) 20-bit counter emulates a 20 bit
random number generator, from which r is obtained. Once a collision is
detected, the number of the current retry of the current frame is used to
obtain K (eq.2). This value of K translates into the number of bits to use from
the LFSR counter. If the value of K is 3, the Host MAC takes the value in
the first three bits of the LFSR counter and uses it to count down to zero on
every slot-time. This effectively causes the Host MAC to wait eight slot-
times. To give the user more flexibility, the BOLMT value forces the number
of bits to be used from the LFSR counter to a predetermined value as in the
table below.
Thus, if the value of K = 10, the Host MAC will look at the BOLMT if it is 00b,
then use the lower ten bits of the LFSR counter for the wait countdown. If the BOLMT
is 10b, then it will only use the value in the first four bits for the wait countdown,
etc.
Note:
Deferral Check (DFCHK)
When set, enables the deferral check in the Host MAC. The Host MAC will
abort the transmission attempt if it has deferred for more than 24,288 bit
times. Deferral starts when the transmitter is ready to transmit, but is
prevented from doing so because the CRS is active. Deferral time is not
cumulative. If the transmitter defers for 10,000 bit times, then transmits,
collides, backs off, and then has to defer again after completion of back-off,
the deferral timer resets to 0 and restarts. When this bit is cleared, the
deferral check is disabled in the Host MAC and the Host MAC defers
indefinitely.
RESERVED
Transmitter enable (TXEN)
When set, the Host MAC’s transmitter is enabled and it will transmit frames
from the buffer.
When cleared, the Host MAC’s transmitter is disabled and will not transmit
any frames.
Receiver Enable (RXEN)
When set, the Host MAC’s receiver is enabled and will receive frames.
When cleared, the MAC’s receiver is disabled and will not receive any
frames.
RESERVED
Slot-time = 512 bit times. (See IEEE 802.3 Spec., sections 4.2.3.25
and 4.4.2.1)
2
K
BOLMT Value
00b
01b
10b
11b
DESCRIPTION
DATASHEET
# Bits Used from LFSR Counter
274
Two Port 10/100 Managed Ethernet Switch with 16-Bit Non-PCI CPU Interface
10
8
4
1
TYPE
R/W
R/W
R/W
R/W
SMSC LAN9311/LAN9311i
RO
RO
DEFAULT
Datasheet
0b
0b
0b
0b
-
-

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