DS92LV1212AMSA Datasheet, PDF(12/17 Page) Texas Instruments – DS92LV1212A 16-40 MHz 10-Bit Bus LVDS Random Lock Deserializer with Embedded Clock Recovery

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DS92LV1212AMSA Datasheet, PDF (12/17 Pages) Texas Instruments – DS92LV1212A 16-40 MHz 10-Bit Bus LVDS Random Lock Deserializer with Embedded Clock Recovery

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Application Information (Continued)

the receiver end. Please note that in point-to-point configu-

ration, the potential of offsetting the ground levels of the

Serializer vs. the Deserializer must be considered. Also, Bus

LVDS provides a +/â 1.2V common mode range at the

receiver inputs.

Failsafe Biasing for the DS92LV1212A

The DS92LV1212A has an improved input threshold sensi-

tivity of +/â 50mV versus +/â 100mV for the DS92LV1210 or

DS92LV1212. This allows for greater differential noise mar-

gin in the DS92LV1212A. However, in cases where the

receiver input is not being actively driven, the increased

sensitivity of the DS92LV1212A can pickup noise as a signal

and cause unintentional locking . For example, this can

occur when the input cable is disconnected.

External resistors can be added to the receiver circuit board

to prevent noise pick-up. Typically, the non-inverting receiver

input is pulled up and the inverting receiver input is pulled

down by high value resistors. the pull-up and pull-down

resistors (R1 and R2) provide a current path through the

termination resistor (RL) which biases the receiver inputs

when they are not connected to an active driver. The value of

the pull-up and pull-down resistors should be chosen so that

enough current is drawn to provide a +15mV drop across the

termination resistor. Please see Figure 11 for the Failsafe

Biasing Setup.

Using tDJIT and tRNM to Validate Signal Quality

The parameters tDJIT and tRNM can be used to generate an

eye pattern mask to validate signal quality in an actual

application or in simulation.

The parameter tDJIT measures the transmitterâs ability to

place data bits in the ideal position to be sampled by the

receiver. The typical tDJIT parameter of â80pS indicates that

the crossing point of the Tx data is 80pS ahead of the ideal

crossing point. The tDJIT(min) and tDJIT(max) parameters

specify the earliest and latest, repectively, time that a cross-

ing will occur relative to the ideal position.

The parameter tRNM is calculated by first measuring how

much of the ideal bit the receiver needs to ensure correct

sampling. After determining this amount, what remains of the

ideal bit that is available for external sources of noise is

called tRNM. It is the offset from tDJIT(min or max) for the test

mask within the eye opening.

The vertical limits of the mask are determined by the

DS92LV1212A receiver input threshold of +/â 50mV.

Please refer to the eye mask pattern of Figure 12 for a

graphic representation of tDJIT and tRNM.

DS101387-26

The DS92LV1212A can be âHot Insertedâ into operating serial busses without interrupting bus communication. The random lock feature allows the

DS92LV1212A to synchronize to the bus traffic and receive data.

FIGURE 10. Random Lock Allows Hot Insertion into Serial Busses

DS101387-27

FIGURE 11. Failsafe Biasing Setup

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