EP2C8Q208C6 Datasheet, PDF(38/168 Page) Altera Corporation – Section I. Cyclone II Device Family Data Sheet

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EP2C8Q208C6 Datasheet, PDF (38/168 Pages) Altera Corporation – Section I. Cyclone II Device Family Data Sheet

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Global Clock Network & Phase-Locked Loops

Table 2â4 describes the PLL features in Cyclone II devices.

Table 2â4. Cyclone II PLL Features

Feature

Clock multiplication and division

Phase shift

Programmable duty cycle

Number of internal clock outputs

Number of external clock outputs

Manual clock switchover

Gated lock signal

Clock feedback modes

Control signals

Description

m / (n Ã post-scale counter)

m and post-scale counter values (C0 to C2) range from 1 to 32. n ranges

from 1 to 4.

Cyclone II PLLs have an advanced clock shift capability that enables

programmable phase shifts in increments of at least 45Â°. The finest

resolution of phase shifting is determined by the voltage control oscillator

(VCO) period divided by 8 (for example, 1/1000 MHz/8 = down to 125-ps

increments).

The programmable duty cycle allows PLLs to generate clock outputs with

a variable duty cycle. This feature is supported on each PLL post-scale

counter (C0-C2).

The Cyclone II PLL has three outputs which can drive the global clock

network. One of these outputs (C2) can also drive a dedicated

PLL<#>_OUT pin (single ended or differential).

The C2 output drives a dedicated PLL<#>_OUT pin. If the C2 output is not

used to drive an external clock output, it can be used to drive the internal

global clock network. The C2 output can concurrently drive the external

clock output and internal global clock network.

The Cyclone II PLLs support manual switchover of the reference clock

through internal logic. This enables you to switch between two reference

input clocks during user mode for applications that may require clock

redundancy or support for clocks with two different frequencies.

The lock output indicates that there is a stable clock output signal in phase

with the reference clock. Cyclone II PLLs include a programmable counter

that holds the lock signal low for a user-selected number of input clock

transitions, allowing the PLL to lock before enabling the locked signal.

Either a gated locked signal or an ungated locked signal from the locked

port can drive internal logic or an output pin.

In zero delay buffer mode, the external clock output pin is phase-aligned

with the clock input pin for zero delay.

In normal mode, the PLL compensates for the internal global clock network

delay from the input clock pin to the clock port of the IOE output registers

or registers in the logic array.

In no compensation mode, the PLL does not compensate for any clock

networks.

The pllenable signal enables and disables the PLLs.

The areset signal resets/resynchronizes the inputs for each PLL.

The pfdena signal controls the phase frequency detector (PFD) output

with a programmable gate.

2â26

Cyclone II Device Handbook, Volume 1

Altera Corporation

February 2007

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