CS2300-OTP Datasheet, PDF(13/28 Page) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

CS2300-OTP Datasheet, PDF (13/28 Pages) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

◁

CS2300-OTP

signal in order to maintain phase alignment. For these applications, it is advised to experiment with the

loop bandwidth settings and choose the lowest bandwidth setting that does not produce system timing

errors due to wandering between the clocks and data synchronous to the CLK_IN domain and those syn-

chronous to the PLL_OUT domain.

Wander < 128 Hz

CLK_IN

Jitter

PLL

PLL_OUT

BW = 128 Hz

Jitter > 128 Hz Rejected

Wander < 128 Hz Passed to Output

MCLK

LRCK

SCLK

Subclocks and data re-used

from previous clock domain.

LRCK

SCLK

SDATA

Figure 9. High bandwidth with CLK_IN domain re-use

While acquiring lock, the digital loop bandwidth is automatically set to a large value. Once lock is

achieved, the digital loop bandwidth will settle to the minimum value selected by the ClkIn_BW[2:0] pa-

rameter.

Referenced Control

Parameter Definition

ClkIn_BW[2:0] .......................âClock Input Bandwidth (ClkIn_BW[2:0])â on page 23

5.4 Output to Input Frequency Ratio Configuration

5.4.1

User Defined Ratio (RUD)

The User Defined Ratio, RUD, is a 32-bit un-signed fixed-point number which determines the basis for the

desired input to output clock ratio. Up to four different ratios, Ratio0-3, can be stored in the CS2300âs one

time programmable memory. Selection between the four ratios is achieved by the M[1:0] mode select

pins. The 32-bit RUD can be expressed in either a high resolution (12.20) or high multiplication (20.12)

format selectable by the LFRatioCfg global parameter.

The RUD for high resolution (12.20) format is encoded with 12 MSBs representing the integer binary por-

tion with the remaining 20 LSBs representing the fractional binary portion. The maximum multiplication

factor is approximately 4096 with a resolution of 0.954 PPM in this configuration. See âCalculating the

User Defined Ratioâ on page 24 for more information.

The RUD for high multiplication (20.12) format is encoded with 20 MSBs representing the integer binary

portion with the remaining 12 LSBs representing the fractional binary portion. In this configuration, the

maximum multiplication factor is approximately 1,048,575 with a resolution of 244 PPM. It is recommend-

ed that the 12.20 High-Resolution format be utilized whenever the desired ratio is less than 4096 since

the output frequency accuracy of the PLL is directly proportional to the accuracy of the timing reference

clock and the resolution of the RUD.

Referenced Control

Parameter Definition

Ratio 0-3................................âRatio 0 - 3â on page 21

LFRatioCfg ............................âLow-Frequency Ratio Configuration (LFRatioCfg)â on page 22

M[1:0] ....................................âM1 and M0 Mode Pin Functionalityâ on page 17

DS844PP1

▷