Applications, 1 one time programmability, Table 1. modal and global configuration – Cirrus Logic CS2200-OTP User Manual

CS2200-OTP

DS842F2

9

5. APPLICATIONS

5.1

One Time Programmability

The one time programmable (OTP) circuitry in the CS2200-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 10 on page 17

). 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

“Programming Information” on page 21

for more details.

Table 1. Modal and Global Configuration

5.2

Timing Reference Clock Input

The low jitter timing reference clock (RefClk) can be provided by either an external reference clock or an
external crystal in conjunction with the internal oscillator. In order to maintain a stable and low-jitter PLL out-
put the timing reference clock must also be stable and low-jitter; the quality of the timing reference clock
directly affects the performance of the PLL and hence the quality of the PLL output.

5.2.1

Internal Timing Reference Clock Divider

The Internal Timing Reference Clock (SysClk) is limited to a lower maximum frequency than that allowed
on the XTI/REF_CLK pin. The CS2200-OTP supports the wider external frequency range by offering an
internal divider for RefClk. The RefClkDiv[1:0] global parameter should be configured such that SysClk,
the divided RefClk, then falls within the valid range as indicated in

“AC Electrical Characteristics” on

page 7

.

It should be noted that the maximum allowable input frequency of the XTI/REF_CLK pin is dependent
upon its configuration as either a crystal connection or external clock input. See the

“AC Electrical Char-

acteristics” on page 7

for more details.

For the lowest possible output jitter, attention should be paid to the absolute frequency of the Timing Ref-
erence Clock relative to the PLL Output frequency (CLK_OUT). To minimize output jitter, the Timing Ref-
erence Clock frequency should be chosen such that f

RefClk

is at least +/-15 kHz from f

CLK_OUT

*N/32

where N is an integer.

Figure 4

shows the effect of varying the RefClk frequency around f

CLK_OUT

*N/32.

It should be noted that there will be a jitter null at the zero point when N = 32 (not shown in

Figure 4

). An

Parameter Type

M[1:0] pins = 00

M[1:0] pins = 01

M[1:0] pins = 10

M[1:0] pins = 11

Modal

Configuration Set 0

Ratio 0

Configuration Set 1

Ratio 1

Configuration Set 2

Ratio 2

Configuration Set 3

Ratio 3

Global

Configuration settings set once for all modes.

Figure 3. Internal Timing Reference Clock Divider

N

Internal Timing

Reference Clock

PLL Output

Fractional-N

Frequency

Synthesizer

Timing Reference

Clock Divider

ч

1

ч

2

ч

4

XTI/REF_CLK

RefClkDiv[1:0]

8 MHz < SysClk < 14 MHz

8 MHz < RefClk <

Timing Reference Clock

50 MHz (XTI)
58 MHz (REF_CLK)