CS2300-OTP Datasheet, PDF(10/28 Page) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

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CS2300-OTP Datasheet, PDF (10/28 Pages) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

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5. APPLICATIONS

CS2300-OTP

5.1 One Time Programmability

The one time programmable (OTP) circuitry in the CS2300-OTP allows for pre-configuration of the device

prior to use in a system. There are two types of parameters that are used for device pre-configuration: modal

and global. The modal parameters are features which, when grouped together, create a modal configuration

set (see Figure 14 on page 20). Up to four modal configuration sets can be permanently stored and then

dynamically selected using the M[1:0] mode select pins (see Table 1). The global parameters are the re-

maining configuration settings which do not change with the mode select pins. The modal and global pa-

rameters can be pre-set at the factory or user programmed using the customer development kit, CDK2000;

Please see âProgramming Informationâ on page 25 for more details.

Parameter Type

Modal

Global

M[1:0] pins = 00

Configuration Set 0

Ratio 0

M[1:0] pins = 01 M[1:0] pins = 10

Configuration Set 1

Ratio 1

Configuration Set 2

Ratio 2

Configuration settings set once for all modes.

M[1:0] pins = 11

Configuration Set 3

Ratio 3

Table 1. Modal and Global Configuration

5.2 Timing Reference Clock

The internal LC oscillator is used to generate the timing reference clock. A single 0.1 ÂµF cap must be con-

nected between the FILTP and FILTN pins and FILTN must be connected to ground as shown in Figure 4.

FILTN

FILTP

0.1 ÂµF

Figure 4. External Component Requirements for LCO

5.3 Frequency Reference Clock Input, CLK_IN

The frequency reference clock input (CLK_IN) is used by the Digital PLL and Fractional-N Logic block to

dynamically generate a fractional-N value for the Frequency Synthesizer (see âHybrid Analog-Digital PLLâ

on page 9). The Digital PLL first compares the CLK_IN frequency to the PLL output. The Fractional-N logic

block then translates the desired ratio based off of CLK_IN to one based off of the internal LCO. This allows

the low-jitter internal LCO to be used as the clock which the Frequency Synthesizer multiplies while main-

taining synchronicity with the frequency reference clock through the Digital PLL. The allowable frequency

range for CLK_IN is found in the âAC Electrical Characteristicsâ on page 7.

5.3.1

CLK_IN Skipping Mode

CLK_IN skipping mode allows the PLL to maintain lock even when the CLK_IN signal has missing pulses

for up to 20 ms (tCS) at a time (see âAC Electrical Characteristicsâ on page 7 for specifications). CLK_IN

skipping mode can only be used when the CLK_IN frequency is below 80 kHz. The ClkSkipEn global pa-

rameter enables this function.

DS844PP1

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