Digital clock manager (dcm) timing, Spread spectrum, Delay-locked loop (dll) – Xilinx DS610 User Manual

Spartan-3A DSP FPGA Family: DC and Switching Characteristics

DS610 (v3.0) October 4, 2010

www.xilinx.com

Product Specification

44

Digital Clock Manager (DCM) Timing

For specification purposes, the DCM consists of three key
components: the Delay-Locked Loop (DLL), the Digital
Frequency Synthesizer (DFS), and the Phase Shifter (PS).

Aspects of DLL operation play a role in all DCM
applications. All such applications inevitably use the CLKIN
and the CLKFB inputs connected to either the CLK0 or the
CLK2X feedback, respectively. Thus, specifications in the
DLL tables (

Table 36

and

Table 37

) apply to any application

that only employs the DLL component. When the DFS
and/or the PS components are used together with the DLL,
then the specifications listed in the DFS and PS tables
(

Table 38

through

Table 41

) supersede any corresponding

ones in the DLL tables. DLL specifications that do not
change with the addition of DFS or PS functions are
presented in

Table 36

and

Table 37

.

Period jitter and cycle-cycle jitter are two of many different
ways of specifying clock jitter. Both specifications describe
statistical variation from a mean value.

Period jitter is the worst-case deviation from the ideal clock
period over a collection of millions of samples. In a
histogram of period jitter, the mean value is the clock period.

Cycle-cycle jitter is the worst-case difference in clock period
between adjacent clock cycles in the collection of clock
periods sampled. In a histogram of cycle-cycle jitter, the
mean value is zero.

Spread Spectrum

DCMs accept typical spread spectrum clocks as long as
they meet the input requirements. The DLL will track the
frequency changes created by the spread spectrum clock to
drive the global clocks to the FPGA logic. See

XAPP469

:

Spread-Spectrum Clocking Reception for Displays for
details.

Delay-Locked Loop (DLL)

Table 36: Recommended Operating Conditions for the DLL

Symbol

Description

Speed Grade

Units

-5

-4

Min

Max

Min

Max

Input Frequency Ranges

F

CLKIN

CLKIN_FREQ_DLL

Frequency of the CLKIN clock input

5

(2)

280

(3)

5

(2)

250

(3)

MHz

Input Pulse Requirements

CLKIN_PULSE

CLKIN pulse width as a
percentage of the CLKIN
period

F

CLKIN

< 150 MHz

40%

60%

40%

60%

–

F

CLKIN

> 150 MHz

45%

55%

45%

55%

–

Input Clock Jitter Tolerance and Delay Path Variation

(4)

CLKIN_CYC_JITT_DLL_LF

Cycle-to-cycle jitter at the
CLKIN input

F

CLKIN

< 150 MHz

–

±300

–

±300

ps

CLKIN_CYC_JITT_DLL_HF

F

CLKIN

> 150 MHz

–

±150

–

±150

ps

CLKIN_PER_JITT_DLL

Period jitter at the CLKIN input

–

±1

–

±1

ns

CLKFB_DELAY_VAR_EXT

Allowable variation of off-chip feedback delay
from the DCM output to the CLKFB input

–

±1

–

±1

ns

Notes:

1.

DLL specifications apply when any of the DLL outputs (CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, or CLKDV) are in use.

2.

The DFS, when operating independently of the DLL, supports lower FCLKIN frequencies. See

Table 38

.

3.

To support double the maximum effective FCLKIN limit, set the CLKIN_DIVIDE_BY_2 attribute to TRUE. This attribute divides the incoming
clock frequency by two as it enters the DCM. The CLK2X output reproduces the clock frequency provided on the CLKIN input.

4.

CLKIN input jitter beyond these limits might cause the DCM to lose lock.

5.

The DCM specifications are guaranteed when both adjacent DCMs are locked.