am79c930 Advanced Micro Devices, am79c930 Datasheet - Page 120

am79c930

Manufacturer Part Number

am79c930

Description

Pcnet-mobile Single-chip Wireless Lan Media Access Controller

Manufacturer

Advanced Micro Devices

Datasheet

1.AM79C930.pdf (161 pages)

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TCR26: Reserved

This register is the TAI reserved location register.

CONFIGURATION REGISTER INDEX:

Bit

7–0

TCR27: TIP LED Scramble

This register is the Network Interface Polarity register.

This register is used to set the polarity of some of the

transceiver interface output pins.

CONFIGURATION REGISTER INDEX:

Bit

120

AMD

TXMODPOL

FDETPOL

TXPEPOL

Reserved

DISRNR

ACTDR

LNKDR

Name

Reset Value

–

P R E L I M I N A R Y

1Ah

Description

Reserved. Must be written as a 0. Reads of this bit produce

undefined data.

1Bh

Description

Disable RUNERR. When DISRNR is set to a 1, then the RUNERR

bit of TCR11 will always be held at a 0 value. When DISRNR is set

to a 0, then the RUNERR bit of TCR11 will function as described in

the TCR11 bit description.

Reserved. Must be written as a 0. Reads of these bits produce

undefined data.

Reserved. Must be written as a 0. Reads of these bits produce

undefined data.

LNK pin drive. When set to a 0, the drive of the LNK pin will be open

drain. When set to a 1, the drive of the LNK pin will be totem pole,

i.e., both high and low output values will be driven.

Complete control of the function of the LNK pin is described in the

Multi-Function Pin section.

ACT pin drive. When set to a 0, the drive of the ACT pin will be open

drain. When set to a 1, the drive of the ACT pin will be totem pole,

i.e., both high and low output values will be driven.

Complete control of the function of the ACT pin is described in the

Multi-Function Pin section.

FDET Polarity. When this bit is set to a 0, then the polarity of the

FDET output will be low assert, such that when the SFD pattern has

been recognized in the incoming receive data stream or the outgo-

ing transmit data stream, the FDET pin will be driven to a LOW logic

level. When this bit is set to a 1, then the polarity of the FDET output

will be high assert, such that when the SFD pattern has been recog-

nized in the incoming receive data stream or the outgoing transmit

data stream, the FDET pin will be driven to a HIGH logic level.

TXPE Polarity. When this bit is set to a 0, then the polarity of the

TXPE output will be low assert, such that when the TGAP1 counter

expires, the TXPE pin will be driven to a LOW logic level. When this

bit is set to a 1, then the polarity of the TXPE output will be high as-

sert, such that when the TGAP1 counter expires, the TXPE pin will

be driven to a HIGH logic level.

TXMOD Polarity. When this bit is set to a 0, then the polarity of the

TXMOD output will be low assert, such that when the TGAP2

counter expires, the TXMOD pin will be driven to a LOW logic level.

When this bit is set to a 1, then the polarity of the TXMOD output will

Am79C930

am79c930 Advanced Micro Devices, am79c930 Datasheet - Page 120

am79c930

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