LAN9311I-NZW Standard Microsystems (SMSC), LAN9311I-NZW Datasheet - Page 144

LAN9311I-NZW

Manufacturer Part Number

LAN9311I-NZW

Description

Manufacturer

Standard Microsystems (SMSC)

Datasheet

1.LAN9311I-NZW.pdf (460 pages)

Specifications of LAN9311I-NZW

Number Of Primary Switch Ports

Internal Memory Buffer Size

Operating Supply Voltage (typ)

3.3V

Fiber Support

Integrated Led Drivers

Yes

Phy/transceiver Interface

MII

Power Supply Type

Analog

Data Rate (typ)

10/100Mbps

Vlan Support

Yes

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Pin Count

128

Mounting

Surface Mount

Jtag Support

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Operating Temperature Classification

Industrial

Data Rate

100Mbps

Lead Free Status / RoHS Status

Compliant

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Part Number

Manufacturer

Quantity

Price

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Part Number:

LAN9311I-NZW

Manufacturer:

Standard

Quantity:

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Company:

BOSTOCK HK LIMITED

Part Number:

LAN9311I-NZW

Manufacturer:

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Revision 1.7 (06-29-10)

10.2.2.5

Data Byte

Data Cycle

Sequential reads are used by the EEPROM Loader. Refer to

additional information.

For a register level description of a read operation, refer to

Operation," on page

Following the device addressing, a data byte may be written to the EEPROM by outputting the data

after receiving the acknowledge from the EEPROM. The data byte is acknowledged by the EEPROM

slave and the I

send an acknowledge, then the sequence is aborted and the EPC_TIMEOUT bit in the

Command Register (E2P_CMD)

Following the data byte write cycle, the I

write is finished. A start condition is sent followed by a control byte with a control code of 1010b,

chip/block select bits low, and the R/~W bit low. If the EEPROM is finished with the byte write, it will

respond with an acknowledge. Otherwise, it will respond with a no-acknowledge and the I

will repeat the poll. If the acknowledge does not occur within 30mS, a time-out occurs. Once the I

master receives the acknowledge, it concludes by sending a start condition, followed by a stop

condition, which will place the EEPROM into standby.

Figure 10.4

For a register level description of a write operation, refer to

Operation," on page

C EEPROM Byte Writes

illustrates typical I

S 1 0 1 0

C master finishes the write cycle with a stop condition. If the EEPROM slave fails to

139.

Control Byte

Poll Cycle

Chip / Block

Select Bits

Figure 10.6 I

0 0 0

C EEPROM byte write.

is set.

DATASHEET

R/~W

C EEPROM Byte Write

S 1 0 1 0

C master will poll the EEPROM to determine when the byte

144

Two Port 10/100 Managed Ethernet Switch with 16-Bit Non-PCI CPU Interface

Control Byte

Poll Cycle

Chip / Block

Select Bits

0 0 0

R/~W

Section 10.2.4, "EEPROM Loader"

Section 10.2.1, "EEPROM Controller

...

S 1 0 1 0

Control Byte

Poll Cycle

SMSC LAN9311/LAN9311i

Chip / Block

Select Bits

0 0 0

Conclude

R/~W

EEPROM

Datasheet

C master

S P

for

LAN9311I-NZW Standard Microsystems (SMSC), LAN9311I-NZW Datasheet - Page 144

LAN9311I-NZW

Specifications of LAN9311I-NZW

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