xr215a Exar Corporation, xr215a Datasheet - Page 16

xr215a

Manufacturer Part Number

xr215a

Description

Monolithic Phase-locked Loop

Manufacturer

Exar Corporation

Datasheet

1.XR215A.pdf (32 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

xr215aCD

Manufacturer:

Quantity:

20 000

Company:

H&T Electronics

Part Number:

xr215aCP

Quantity:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

xr215aCP-F

Manufacturer:

NIPPON

Quantity:

4 700

Current page: 16 of 32
Download datasheet (319Kb)

Amplifier Output (Pin 8)

This pin is used as the output terminal for FM or FSK

demodulation. The amplifier gain is determined by the

external feedback resistor, R

and 8. Frequency response characteristics of the

amplifier section are shown in Figure 11.

Amplifier Compensation (Pin 7)

The operational amplifier can be compensated for unity

gain by a single 300pF capacitor from pin 7 to ground.

(See Figure 11. )

BASIC PHASE-LOCKED LOOP OPERATION

Principle of Operation

The phase-locked loop (PLL) is a unique and versatile

circuit technique which provides frequency selective

tuning and filtering without the need for coils or inductors.

As shown in Figure 13 , the PLL is a feedback system

comprised of three basic functional blocks: phase

comparator, low-pass filter and voltage-controlled

oscillator (VCO). The basic principle of operation of a PLL

can be briefly explained as follows: with no input signal

applied to the system, the error voltage V

zero. The VCO operates at a set frequency, f

known as the “free-running” frequency. If an input signal is

applied to the system, the phase comparator compares

the phase and frequency of the input signal with the VCO

frequency and generates an error voltage, V

related to the phase and frequency difference between

the two signals. This error voltage is then filtered and

XR-215A

Rev. 1.01

Signal

, connected between pins 1

Input

Figure 13. Block Diagram of a Phase-Locked Loop

(t)

Comparator

, is equal to

Phase

(t), that is

, which is

(t)

VCO

(t)

applied to the control terminal of the VCO. If the input

frequency, fs, is sufficiently close to f

nature of the PLL causes the VCO to synchronize or “lock”

with the incoming signal. Once in lock, the VCO frequency

is identical to the input signal, except for a finite phase

difference.

A Linearized Model for PLL

When the PLL is in lock, it can be approximated by the

linear feedback system shown in Figure 14.

the respective phase angles associated with the input

signal and the VCO output, F(s) is the low-pass filter

response in frequency domain, and K

conversion gains associated with the phase comparator

and VCO sections of the PLL.

DEFINITION OF XR-215A PARAMETERS USED FOR

PLL APPLICATIONS DESIGN

VCO Free-Running Frequency, f

The VCO frequency with no input signal is determined by

selection of C

increased by connecting an external resistor R

pins 9 and 10. It can be approximated as:

where C

Lowpass

Filter

is in F and R

(t)

across pins 13 and 14 and can be

220

is in k . (See Figure 8. )

(t)

0.6

, the feedback

and K

and

between

are the

are

xr215a Exar Corporation, xr215a Datasheet - Page 16

xr215a

Available stocks

Related parts for xr215a