DS125RT410 Datasheet, PDF(29/42 Page) Texas Instruments – DS125RT410 Low Power Multi-Rate Quad Channel Retimer

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DS125RT410 Datasheet, PDF (29/42 Pages) Texas Instruments – DS125RT410 Low Power Multi-Rate Quad Channel Retimer

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DS125RT410

www.ti.com

SNLS459 â APRIL 2011

The second step is to override the output multiplexer setting. This is accomplished by setting bit 5 of register

0x09, the output multiplexer override. Once this bit is set, the value of register 0x1e, bits 7:5 will control the

output of the channel. Note that if either retimed or raw data is selected, the output will just be noise. The device

output may saturate to a static 1 or 0.

If there is no signal, the VCO clock will be free-running. Its frequency will depend upon the divider and CAP DAC

settings and it will vary from part to part and over temperature.

If the PRBS generator is enabled, the PRBS generator output can be selected. This can either be at a data rate

determined by the free-running VCO or at a data rate determined by the input signal, if one is present. If a signal

is present at the input and the DS125RT410 can lock to it, the output of the PRBS generator will be synchronous

with the input signal, but the bit stream output will be determined by the PRBS generator selection.

The 10 MHz clock is always available at the output when the output multiplexer is overridden. The 10 MHz clock

is a free-running oscillator in the DS125RT410 and is not synchronous to the input or to anything else in the

system. The clock frequency will be approximately 10 MHz, but this will vary from part to part.

If there is a signal present at the input, it is not necessary to override the signal detect. Clearing bits 7 and 6 of

a signal at its input, it will output retimed data. However, if desired, the output multiplexer can be overridden in

this condition to output raw data. It can also be set to output any of the other signals shown in Table 9. If there is

an input signal, and if the DS125RT410 is locked to it, the VCO I-Clock, the VCO Q-Clock, and the output of the

PRBS generator, if it is enabled, will be synchronous to the input signal.

When a signal is present at the input, it might be desired to output the raw data in order to see the effects of the

CTLE without the CDR. It might also be desired to enable the PRBS generator and output this signal, replacing

the data content of the input signal with the internally-generated PRBS sequence.

Overriding the VCO Divider Selection

In normal operation, the DS125RT410 sets its VCO divider to the correct divide ratio, either 1, 2, 4, 8, or 16,

depending upon the bit rate of the signal at the channel input. It is possible to override the divider selection. This

might be desired if the VCO is set to free-run, for example, to output a signal at a sub-harmonic of the actual

VCO frequency.

In order to override the VCO divider settings, first set bit 2 of register 0x09. This is the VCO divider override

enable. Once this bit is set, the VCO divider setting is controlled by the value in register 0x18, bits 6:4. The valid

values for this three-bit field are 0x0 to 0x4. The mapping of the bit field values to the divider ratio is shown in

Table 10.

Bit Field Value

Table 10. Divider Ratio Mapping to Register 0x18, Bits 6:4

Divider Ratio

In normal operation, the DS125RT410 will determine the required VCO divider ratio automatically. The most

common application for overriding the divider ratio is when the VCO is set to free-run. Normally the divider ratio

should not be overridden except in this case.

Using the PRBS Generator

The DS125RT410 includes an internal PRBS generator which can generate standard PRBS-9 and PRBS-31 bit

sequences. The PRBS generator can produce a PRBS sequence that is synchronous to the incoming data

signal, or it can generate a PRBS sequence using the internal free-running VCO as a clock. Both modes of

operation are described in the paragraphs that follow.

Product Folder Links: DS125RT410

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