TLK3134_1 Datasheet, PDF(104/150 Page) Texas Instruments

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TLK3134_1 Datasheet, PDF (104/150 Pages) Texas Instruments – 4-Channel Multi-Rate Transceiver

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TLK3134

4-Channel Multi-Rate Transceiver

SLLS838D â MAY 2007 â REVISED JULY 2008

3.5 Signal Pin Description

www.ti.com

SIGNAL

RST_N

ENABLE

SPEED[1:0]

PLOOP

SLOOP

PRBS_EN

LOCATION

R16

N14

N16

R17

VOLTAGE

VDDO

Table 3-1. Global Signals

TYPE

2.5 V LVCMOS

Input

2.5 V LVCMOS

Input

DESCRIPTION

Chip Reset (Active Low) When asserted (low logic level), this signal

reinitializes the entire device. Must be held asserted (low logic level) for at

least 10 ÂµS after device power up.

Device Enable.

When this pin is held low, the device is in a low power state.

When high the device operates normally.

A hard or soft reset must be applied after a change of state occurs on this

input signal.

Speed Selection pins. These pins put all four channels of TLK3134 into

one of the three supported (full/half/quarter) channel operation speeds.

00 â All Four Channels in Full Rate mode

01 â All Four Channels in Half Rate mode

10 â All Four Channels in Quarter rate mode

11 â Software Selectable Rate

2.5 V LVCMOS

Input

In the software selectable rate mode, the rate for each channel may be

configured independently by the MDIO interface.

The SPEED[1:0] inputs control both RX and TX directions for all four

channels (Including XAUI and 10GFC modes).

See Appendix A for further information on speed selection

(full/half/quarter) for proper settings as a function of the application mode

and reference clock frequency.

2.5 V LVCMOS

Input

2.5 V LVCMOS

Input

2.5 V LVCMOS

Input

Note that if these pins are not configured on the application board to select

âSoftware Selectable Rateâ, then the internal speed register bits cannot be

used to control the rate settings, and the full/half/quarter rate selection is

fixed.

Parallel Loop Enable. When high, the serial output for each channel is

internally looped back to its serial input so that the transmit parallel

interface input data is output onto the receive parallel interface.

Serial Loop Enable. When high, the serial input from each channel is

internally looped back to that channelâs serial output, making that channel

a serial repeater. In device configurations where clock tolerance

compensation is not performed in the transmit direction, there are two

options for error free serial loopback operation:

1. Frequency lock (0 ppm) the incoming serial data rate to the local

reference clock device input.

2. Provision the TX SERDES REFCLK to run from a jitter cleaned

version of the RX SERDES RXBCLK (Receive Byte Clock).

PRBS Enable. When this pin is asserted high, the internal PRBS

generator and comparator circuits are enabled on the transmit and receive

data paths of all channels. The PRBS results for each channel can be

read through MDIO counters. Primary chip output signals

GPO3/GPO2/GPO1/GPO0 remain low during PRBS testing when the

input serial stream PRBS pattern is correct, and pulse high when PRBS

errors are detected on the input serial stream on a per channel basis.

GPO3 contains the Channel 3 PRBS currently passing (when low)

indication.

GPO2 contains the Channel 2 PRBS currently passing (when low)

indication.

GPO1 contains the Channel 1 PRBS currently passing (when low)

indication.

GPO0 contains the Channel 0 PRBS currently passing (when low)

indication.

An external loopback connection (via external cables) is required during

PRBS testing.

ST=0:

PRBS 223-1 is transmitted on each transmit channel serial output, and

compared on each receive channel serial input.

ST=1:

PRBS 27-1 is transmitted on each transmit serial output, and compared on

each receive serial input.

104 Device Reset Requirements/Procedure

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