HBLXT9785EHC.B2Q E000 Intel, HBLXT9785EHC.B2Q E000 Datasheet - Page 159

HBLXT9785EHC.B2Q E000

Manufacturer Part Number

HBLXT9785EHC.B2Q E000

Description

Manufacturer

Intel

Datasheet

1.HBLXT9785EHC.B2Q_E000.pdf (234 pages)

Specifications of HBLXT9785EHC.B2Q E000

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4.13

4.13.1

4.13.2

4.13.2.1

4.13.2.2

Datasheet

Document Number: 249241

Revision Number: 010

Revision Date: 30-May-2006

Cable Diagnostics Overview

Debugging cable problems increases the overall cost of owning and operating a local area network.

Cable Diagnostic tools were incorporated into the LXT9785 device to help customers debug

network cable problems. The Cable Diagnostic tools provide the ability to detect severe cable

problems, such as open and short circuits, and determine the distance to the discontinuity.

Features

The following are three cases to consider for Cable Diagnostics:

An improperly terminated cable will not meet IEEE 802.3 return loss requirements. Register 29 has

been added to control cable testing and report cable testing results.

Cable Diagnostics provides a method to determine the distance to opens and shorts when the link

partner is inactive on the twisted-pair under test. The cable tests produce undefined results if the

link partner is transmitting signals. Implementation methods may vary depending upon the system

use requirements of Cable Diagnostics.

Operation

Cable Diagnostics utilizes the PHY transmit drivers and receivers to test a single twisted-pair. A

transmit pulse is driven down the twisted-pair under test and the reflected signal is analyzed. Link

partners transmitting NLP, FLP, MLT3, or other TDR pulses may interfere with the ability of the

LXT9785 to properly analyze the reflected Cable Diagnostic pulse. Implementation algorithms

must take these potential situations into consideration.

Short and Long Cable Testing Requirements

Implementing Cable Diagnostic tests, by enabling short and long cable tests sequentially, allows

more accurate measurements to a detected fault. Both tests are necessary to reach full precision.

The short and long cable tests can be run by writing 0x7400h and 0x6C00h to Register 29,

respectively. See

Precision

Cable Diagnostics estimates the distance to a fault up to 150 m. Category 5 or better cable produces

the most accurate test results. Less than Category 5 cable may produce less accurate results on long

cable lengths. Cable Diagnostics returns the distance to the closest fault, if a fault is present.

Cable Diagnostic tests report the distance to a cable fault based on the velocity of signal

propagation, which is used to determine the electrical length to the fault. The electrical length may

vary slightly from the physical cable length. The measurement accuracy may vary by +/- 2 m.

The following basic equation is used to calculate the distance to a fault:

•

Distance to a short circuit between wires of a single twisted-pair

An open circuit

Detection of an improperly terminated cable by the link partner.

Distance_to_Fault = (Reg29[7:0] - 3.5) / 1.16

LXT9785 and LXT9785E Advanced 8-Port 10/100 Mbps PHY Transceivers

Section 4.13.4, “Basic Implementation” on page 160

for implementation details.

159

HBLXT9785EHC.B2Q E000 Intel, HBLXT9785EHC.B2Q E000 Datasheet - Page 159

HBLXT9785EHC.B2Q E000

Specifications of HBLXT9785EHC.B2Q E000

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