LAN9312-NZW SMSC, LAN9312-NZW Datasheet - Page 69
LAN9312-NZW
Manufacturer Part Number
LAN9312-NZW
Description
Ethernet ICs Hi Per 2 Port 10/100 Ethernet Switch
Manufacturer
SMSC
Type
Two Port Managed Ethernet Switchr
Datasheet
1.LAN9312-NZW.pdf
(458 pages)
Specifications of LAN9312-NZW
Ethernet Connection Type
10 Base-T, 100 Base-TX
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Product
Ethernet Switches
Number Of Transceivers
1
Standard Supported
802.3, 802.3u
Data Rate
10 Mbps, 100 Mbps
Supply Voltage (max)
3.3 V
Supply Voltage (min)
0 V
Supply Current (max)
186 mA, 295 mA
Maximum Operating Temperature
+ 70 C
Package / Case
TQFP-100
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Price
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High Performance Two Port 10/100 Managed Ethernet Switch with 32-Bit Non-PCI CPU Interface
Datasheet
SMSC LAN9312
6.4.3.1
6.4.3.2
6.4.3.3
6.4.3.4
Port Default Priority
As detailed in
value. The PVID table is read and written by using the
(SWE_VLAN_CMD),
Engine VLAN Read Data Register
Status Register
14.5.3.11, on page 378
IP Precedence Based Priority
The transmit priority queue can be chosen based on the Precedence bits of the IPv4 TOS octet. This
is supported for tagged and non-tagged packets for both type field and length field encapsulations. The
Precedence bits are the three most significant bits of the IPv4 TOS octet.
DIFFSERV Based Priority
The transmit priority queue can be chosen based on the DIFFSERV usage of the IPv4 TOS or IPv6
Traffic Class octet. This is supported for tagged and non-tagged packets for both type field and length
field encapsulations.
The DIFFSERV table is used to determine the packet priority from the 6-bit Differentiated Services (DS)
field. The DS field is defined as the six most significant bits of the IPv4 TOS octet or the IPv6 Traffic
Class octet and is used as an index into the DIFFSERV table. The output of the DIFFSERV table is
then used as the priority. This priority is then passed through the Traffic Class table to select the
transmit priority queue.
Note: The DIFFSERV table is not initialized upon reset or power-up. If DIFFSERV is enabled, then
The DIFFSERV table is read and written by using the
Register
(SWE_DIFFSERV_TBL_WR_DATA),
(SWE_DIFFSERV_TBL_RD_DATA), and
(SWE_DIFFSERV_TBL_CMD_STS). Refer to
14.5.3.15, on page 382
VLAN Priority
As detailed in
tag. The VLAN priority is sent through a per port Priority Regeneration table, which is used to map the
VLAN priority into a user defined priority.
The Priority Regeneration table is programmed by using the
Priority Regeneration Table Register
VLAN Priority Regeneration Table Register
2 Ingress VLAN Priority Regeneration Table Register
Section 14.5.3.33, on page 401
these registers.
the full table must be initialized by the host.
(SWE_DIFFSERV_TBL_CFG),
Figure
Figure
(SWE_VLAN_CMD_STS). Refer to
6.5, the transmit priority queue can be taken from the priority field of the VLAN
6.5, the default priority is based on the ingress ports priority bits in its port VID
Switch Engine VLAN Write Data Register
for detailed VLAN register descriptions.
for detailed DIFFSERV register descriptions.
through
DATASHEET
(SWE_INGRSS_REGEN_TBL_MII),
(SWE_VLAN_RD_DATA), and
Switch Engine DIFFSERV Table Read Data Register
Switch Engine DIFFSERV Table Command Status Register
Section 14.5.3.35, on page 403
69
(SWE_INGRSS_REGEN_TBL_1), and
Switch Engine DIFFSERV Table Write Data Register
Section 14.5.3.12, on page 379
Section 14.5.3.8, on page 375
Switch Engine DIFFSERV Table Command
(SWE_INGRSS_REGEN_TBL_2). Refer to
Switch Engine VLAN Command Register
Switch Engine Port 0 Ingress VLAN
(SWE_VLAN_WR_DATA),
Switch Engine VLAN Command
Switch Engine Port 1 Ingress
for detailed descriptions of
Revision 1.7 (06-29-10)
Switch Engine Port
through
through
Section
Section
Switch
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