DP83849CVS/NOPB National Semiconductor, DP83849CVS/NOPB Datasheet - Page 40

DP83849CVS/NOPB

Manufacturer Part Number

DP83849CVS/NOPB

Description

IC TXRX ETHERNET PHY DUAL 80TQFP

Manufacturer

National Semiconductor

Type

Transceiverr

Datasheets

1.DP83849CVSNOPB.pdf (98 pages)

2.DP83849IVSNOPB.pdf (106 pages)

Specifications of DP83849CVS/NOPB

Number Of Drivers/receivers

2/2

Protocol

Ethernet

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Package / Case

80-TQFP, 80-VQFP

Data Rate

100Mbps

Supply Voltage Range

3V To 3.6V

Logic Case Style

TQFP

No. Of Pins

Operating Temperature Range

0Â°C To +70Â°C

Msl

MSL 3 - 168 Hours

Filter Terminals

SMD

Rohs Compliant

Yes

Data Rate Max

10Mbps

For Use With

DP83849CVS-EVK - BOARD EVALUATION DP83849CVS

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

*DP83849CVS
*DP83849CVS/NOPB
DP83849CVS

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5.7.3 TDR Cable Diagnostics

The DP83849C implements a Time Domain Reflectometry

(TDR) method of cable length measurement and evalua-

tion which can be used to evaluate a connected twisted

pair cable. The TDR implementation involves sending a

pulse out on either the Transmit or Receive conductor pair

and observing the results on either pair. By observing the

types and strength of reflections on each pair, software can

determine the following:

— Cable short

— Cable open

— Distance to fault

— Identify which pair has a fault

— Pair skew

The TDR cable diagnostics works best in certain condi-

tions.

good reflection for measuring cable length, while a cable

with an ideal termination to an unpowered partner may pro-

vide no reflection at all.

5.7.3.1 TDR Pulse Generator

The TDR implementation can send two types of TDR

pulses.

pulses from the 10Mb Common Driver. The second option

is to send pulses from the 100Mb Common Driver in 8ns

increments up to 56ns in width. The 100Mb pulses will

alternate between positive and negative pulses.

shorter pulses provide better ability to measure short cable

lengths, especially since they will limit overlap between the

transmitted pulse and a reflected pulse. The longer pulses

may provide better measurements of long cable lengths.

In addition, if the pulse width is programmed to 0, no pulse

will be sent, but monitor circuit will still be activated. This

allows sampling of background data to provide a baseline

for analysis.

5.7.3.2 TDR Pulse Monitor

The TDR function monitors data from the Analog to Digital

Converter (ADC) to detect both peak values and values

above a programmable threshold. It can be programmed

to detect maximum or minimum values.

DEQ C1

DAGC

DBLW

Freq Offset

Freq Control

Parameter

For example, an unterminated cable provides a

The first option is to send 50ns or 100ns link

Minimum Value

-128

Table 17. Link Quality Monitor Parameter Ranges

In addition, it

Maximum Value

The

+127

+255

+127

records the time, in 8ns intervals, at which the peak or

threshold value first occurs.

The TDR monitor implements a timer that starts when the

pulse is transmitted. A window may be enabled to qualify

incoming data to look for response only in a desired range.

This is especially useful for eliminating the transmitted

pulse, but also may be used to look for multiple reflections.

5.7.3.3 TDR Control Interface

The TDR Control interface is implemented in the Link Diag-

nostics Registers - Page 2 through TDR Control

(TDR_CTRL), address 16h and TDR Window (TDR_WIN),

address 17h. The following basic controls are:

— TDR Enable: Enable bit 15 of TDR_CTRL (16h) to allow

— TDR Send Pulse: Enable bit 11 of TDR_CTRL (16h) to

The following Transmit mode controls are available:

— Transmit Mode: Enables use of 10Mb Link pulses from

— Transmit Pulse Width: Bits [10:8] of TDR_CTRL (16h)

— Transmit Channel Select: The transmitter can send

The following Receive mode controls are available:

— Min/Max Mode Select: Bit 7 of TDR_CTRL (16h) con-

— Receive Channel Select: The receiver can monitor ei-

the TDR function. This bypasses normal operation and

gives control of the CD10 and CD100 block to the TDR

function.

send the TDR pulse and starts the TDR Monitor.

the 10Mb Common Driver or data pulses from the 100Mb

Common Driver by enabling TDR 100Mb, bit 14 of

TDR_CRTL (16h).

allows sending of 0 to 7 clock width pulses. Actual puls-

es are dependent on the transmit mode. If Pulse Width

is set to 0, then no pulse will be sent.

pulses down either the transmit pair or the receive pair

by enabling bit 13 of TDR_CTRL (16h). Default value is

to select the transmit pair.

trols the TDR Monitor operation. In default mode, the

monitor will detect maximum (positive) values. In Min

mode, the monitor will detect minimum (negative) val-

ues.

ther the transmit pair or the receive pair by enabling bit

12 of TDR_CTRL (16h). Default value is to select the

transmit pair.

Min (2-s comp)

0x80

0x00

0x80

Max (2-s comp)

0xFF

0x7F

DP83849CVS/NOPB National Semiconductor, DP83849CVS/NOPB Datasheet - Page 40

DP83849CVS/NOPB

Specifications of DP83849CVS/NOPB

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