2 enabling the receiver, Bits – Texas Instruments TMS320TCI648x User Manual

Page 30

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2.3.2.2

Enabling the Receiver

SRIO Functional Description

Table 6. Line Rate versus PLL Output Clock Frequency

Rate

Line Rate

PLL Output Frequency

RATESCALE

Full

x Gbps

0.5x GHz

0.5

Half

x Gbps

x GHz

1

Quarter

x Gbps

2x GHz

2

RIOCLK and RIOCLK

FREQ

=

LINERATE

×

RATESCALE

MPY

The rate is defined by the RATE bits of the SERDES_CFGRXn_CNTL register and the
SERDES_CFGTXn_CNTL register, respectively.

The primary operating frequency of the SERDES macro is determined by the reference clock frequency
and PLL multiplication factor. However, to support lower frequency applications, each receiver and
transmitter can also be configured to operate at a half or quarter of this rate via the RATE bits of the
SERDES_CFGRXn_CNTL and SERDES_CFGTXn_CNTL registers as described in

Table 7

.

Table 7. Effect of the RATE Bits

RATE

Description

00b

Full rate. Two data samples taken per PLL output clock cycle.

01b

Half rate. One data sample taken per PLL output clock cycle.

10b

Quarter rate. One data sample taken every two PLL output clock cycles.

11b

Reserved.

Table 8

shows the frequency range versus the multiplication factor (MPY).

Table 8. Frequency Range versus MPY Value

RIOCLK and RIOCLK

Line Rate Range (Gbps)

MPY

Range (MHz)

Full

Half

Quarter

4x

250 - 425

2 - 3.4

1 - 1.7

0.5 - 0.85

5x

200 - 425

2 - 4.25

1 - 2.125

0.5 - 1.0625

6x

167 - 354.167

2 - 4.25

1 - 2.125

0.5 - 1.0625

8x

125 - 265.625

2 - 4.25

1 - 2.125

0.5 - 1.0625

10x

100 - 212.5

2 - 4.25

1 - 2.125

0.5 - 1.0625

12x

83.33 - 177.08

2 - 4.25

1 - 2.125

0.5 - 1.0625

12.5x

80 - 170

2 - 4.25

1 - 2.125

0.5 - 1.0625

15x

66.67 - 141.67

2 - 4.25

1 - 2.125

0.5 - 1.0625

20x

50 - 106.25

2 - 4.25

1 - 2.125

0.5 - 1.0625

25x

40 - 85

2 - 4.25

1 - 2.125

0.5 - 1.0625

To enable a receiver for deserialization, the ENRX bit of the associated SERDES_CFGRXn_CNTL
registers (100h–10Ch) must be set high. The fields of SERDES_CFGRXn_CNTL are shown in

Figure 10

and described in

Table 9

.

When ENRX is low, all digital circuitry within the receiver will be disabled, and clocks will be gated off. All
current sources within the receiver will be fully powered down, with the exception of those associated with
the loss of signal detector and IEEE1149.6 boundary scan comparators. Loss of signal power down is
independently controlled via the LOS bits of SERDES_CFGRXn_CNTL. When enabled, the differential
signal amplitude of the received signal is monitored. Whenever loss of signal is detected, the clock
recovery algorithm is frozen to prevent the phase and frequency of the recovered clock from being
modified by low level signal noise.

30

Serial RapidIO (SRIO)

SPRUE13A – September 2006

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