Pll lock, Operation modes, Output clocks – Altera I/O Phase-Locked Loop (Altera IOPLL) IP Core User Manual

The following terms are commonly used to describe the behavior of a PLL:
• PLL lock time—also known as the PLL acquisition time. PLL lock time is the time for the PLL to attain

the target frequency and phase relationship after power-up, after a programmed output frequency

change, or after a PLL reset.
Note: Simulation software does not model a realistic PLL lock time. Simulation shows an unrealisti‐

cally fast lock time. For the actual lock time specification, refer to the device datasheet.

• PLL resolution—the minimum frequency increment value of a PLL VCO. The number of bits in the

M

and

N

counters determine the PLL resolution value.

• PLL sample rate—the F

REF

sampling frequency required to perform the phase and frequency

correction in the PLL. The PLL sample rate is f

REF

/

N

.

PLL Lock

The PLL lock is dependent on the two input signals in the phase frequency detector. The lock signal is an

asynchronous output of the PLLs.
The number of cycles required to gate the lock signal depends on the PLL input clock which clocks the

gated-lock circuitry. Divide the maximum lock time of the PLL by the period of the PLL input clock to

calculate the number of clock cycles required to gate the lock signal.

Operation Modes

The Altera IOPLL IP core supports six different clock feedback modes. Each mode allows clock multipli‐

cation and division, phase shifting, and duty-cycle programming.
The following list describes the operation modes for the Altera IOPLL IP core:
• Direct mode—the PLL minimizes the feedback path length to produce the smallest possible jitter at the

PLL output. In this mode, the PLL does not compensate for any clock networks.

• Normal mode—the PLL feedback path source is a global or regional clock network, minimizing clock

delay from the input clock pin to the core registers through global or regional clock network.

• Source-Synchronous mode—the data and clock signals arrive at the input pins at the same time. In this

mode, the signals have the same phase relationship at the clock and data ports of any Input Output

Enable register.

• External Feedback mode—the PLL compensates for the

fbclk

feedback input to the PLL, thus

minimizing the delay between the input clock pin and the feedback clock pin.

• Zero-Delay Buffer mode—the PLL feedback path is confined to the dedicated PLL external output pin.

The clock port driven off-chip is phase aligned with the clock input for a minimal delay between the

clock input and the external clock output.

• LVDS mode— maintains the same data and clock timing relationship of the pins at the internal

SERDES capture register. This mode compensates for the LVDS clock network delay, plus any delay

difference between the data pin and clock input pin to the SERDES capture register paths. The

compensation mimic path mimics the clock and data delay of the receiver side.

Output Clocks

The Altera IOPLL IP core can generate up to nine clock output signals. The generated clock output signals

clock the core or the external blocks outside the core.
You can use the

reset

signal to reset the output clock value to 0 and disable the PLL output clocks.

8

PLL Lock

UG-01155

2015.05.04

Altera Corporation

Altera I/O Phase-Locked Loop (Altera IOPLL) IP Core User Guide

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