Niles Audio ZR-4630s User Manual

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Page 1

INSTALLATION & OPERATION GUIDE

ZR-4630

MultiZone Receiver

Four-Source, Six-Zone, 30W Per Channel

AM/FM Receiver

B LENDING T ECHNOLOGY AND A RCHITECTURE

™

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Congratulations!

Thank you for purchasing the Niles ZR-4630 MultiZone Receiver, one of the most flexible and convenient audio components ever offered. The ZR-4630, like all Niles products, is built to the highest standards of quality and reliability. With proper installation and operation, you'll enjoy years of trouble-free use.

Niles manufactures the industry’s most complete line of custom installation components and accessories for audio/video systems. To see the complete Niles product assortment, visit us on the Internet at:

www.nilesaudio.com

TABLE OF CONTENTS

INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6

FEATURES AND BENEFITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7–8

PARTS GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9–10

R-4 REMOTE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11

SOLO™MASTER KEYPAD MODULE AND THE NUMERIC™ACCESSORY KEYPAD MODULE . . . . . . . . . . . . . . . . . .12

SYSTEM CONFIGURATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13

CONFIGURATION 1 - SIX ZONES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13-14

CONFIGURATION 2 - ADDING ZONES USING MULTIPLE ZR-4630’S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15

CONFIGURATION 3 - DISTRIBUTING SOURCE-COMPONENT AUDIO SIGNALS . . . . . . . . . . . . . . . . . . . . . . . .16-17

CONFIGURATION 4 - INTEGRATING AN IR-CONTROLLED HOME THEATER . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

CONFIGURATION 5 - INTEGRATING A HOME THEATER USING AN INTELLICONTROL . . . . . . . . . . . . . . . . . . . .19

CONFIGURATION 6 - MULTIPLE SOLO™MASTER KEYPAD MODULES IN A ZONE . . . . . . . . . . . . . . . . . . . . . . . . .20

CONFIGURATION 7 - MULTIPLE LISTENING AREAS IN A ZONE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21

CONFIGURATION 8 - EXTERNAL AMPLIFIER IN A ZONE FOR MORE POWER . . . . . . . . . . . . . . . . . . . . . . . . . . . .22

CONFIGURATION 9 - EXTERNAL AMPLIFIER IN A ZONE FOR MULTIPLE LISTENING AREAS . . . . . . . . . . . . . . . . .23

CONFIGURA

CONFIGURATION 11 - SYSTEM PAGING WITH AN EXTERNAL TELEPHONE SYSTEM . . . . . . . . . . . . . . . . . . . . . . .25

CONFIGURATION 12 - IR REPEATING FOR CONTROL OF LOCAL COMPONENTS . . . . . . . . . . . . . . . . . . . . . . . .26

COMPONENT COMP

TION

- EXTERN

ATIBILITY

AMPLIFIER IN A ZONE FOR MULTIPLE ROOMS . . . . . . . . . . . . . . . . . . . . . . . .24

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Infrared Command Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

Testing for a Possible IR Command Conflict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

Solving the IR Command Conflict if Present

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

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TABLE OF CONTENTS

OURCE POWER SYNCHRONIZATION.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28

CHOOSING A SYNCHRONIZATION METHOD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29

Video Sync . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29

Voltage Sync . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30

Current Sensing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30

Light Sensing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31

SOURCE AND HOME THEATER SYNC STATUS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31

OPERATIONAL OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32

MASTER KEYS/SOURCE BUTTONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32

Master Key/Source Button Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33

Master Key/Source Button Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34

Single Zone Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34

System Wide Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34

Zone Linked Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34

OFF KEY/OFF BUTTON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34

OFF Key Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35

OFF Key/Button Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35

Single Zone OFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35

ide OFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35

System

Zone Linked OFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35

VOLUME KEYS/VOLUME BUTTONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36

olume K

MUTE KEY/MUTE BUTTON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37

Mute Key/Mute Button Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37

FUNCTION KEYS/BUTT

Function Key/Button Operation for Connected Source Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38

olume Buttons Oper

eys/V

ONS

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36

ation

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Function Key/Button Operation for the Built-in Tuner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39

TUNER OPERATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40

ANEL

FRONT

IDENTICAL SOURCE COMPONENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41

SHARED SOURCE COMPONENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41

-P

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TABLE OF CONTENTS

OPERATING A SYSTEM WITH MULTIPLE ZR-4630’s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41

OPERATION A SYSTEM INTEGRATED WITH A HOME THEATER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42

OPERATION FROM THE HOME THEATER ZONE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42

1. Integrated Home Theater using 12V Home Theater Sync and IR Repeating . . . . . . . . . . . . . . . . . . . . . . . .42

2. Integrated Home Theater using 12V Home Theater Sync and Niles R-4 Commands . . . . . . . . . . . . . . . .42

3. Integrated Home Theater without Home Theater Sync and using Niles R-4 Commands . . . . . . . . . . . . . .43

SYSTEM-BUSY INDICATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43

PAGING INDICATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43

INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44

PLACEMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44

CONNECTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44

Connecting Speaker Wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44

Terminating Four-Pair Twisted Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45

Connecting the Solo™ Master Keypads to the Home Run of Four-pair Twisted Cable . . . . . . . . . . . . . . . . . . . . . . .45

Connecting Numeric™ Keypads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45

Connecting IR Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46

Source-Component Power and Home Theater Synchronization Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47

Keypad Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47

System Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

IR Flashers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

heater Control System

Home

2V Control Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

AM/FM Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

ce-Component A

Sour

elephone Paging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

Preamplifier Zone Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

udio Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Speakers

AC Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48

Connecting an IR Sensor for Local System Control

Connecting an

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Amplifier Switc

A/B

h for Local System Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50

Page 5

TABLE OF CONTENTS

PROGRAMMING OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51

Installer Programming Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51

Programming Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51

ZR-4630 Programming Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52

ZR-4630 Source-Component Programming Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53

Function Keys/Buttons Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54

Sequence Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54

Programming a Learning Remote for Zone Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55

Programming a Home Theater Remote Control to Operate Source Components Shared with a ZR-4630 . . . . . . . .55

Method 1–Controlling Shared-Source Compnts. w/IR Repeating & 12V Home Theater Status . . . . . . . . . . . . . .56

Method 2–Controlling Shared-Source Compnts. w/Niles R-4 Commands & 12V Home Theater Status . . . . . . . . .56

Method 3– Controlling Shared-Source Compnts. w/Niles R-4 Commands & w/out 12V Home Theater Status . . . . . . .57

INSTALLATION SETTINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

All ON/PAGE Dip Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

Fixed/Variable Preamplifier Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

Programming Master/Slave Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

Installing Zone Labels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

Programming Zone Linking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59

Volume Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60

Changing Volume Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60

SYSTEM PROGRAMMING STEPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PROGRAM EDITING STEPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Source-Power Editing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67

IR-Command Editing

Sequence Editing

Storing Tuner Presets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .68

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .68

61-66

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

asing

am Er

Progr

ACCESSORIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69

TIONS

TING

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

TROUBLESHOO

SPECIFIC

Page 6

INTRODUCTION

Niles Audio has recognized the need for a simple to use, cost-effective multi-zone system that can provide years of listening pleasure to music-lovers. Our engineering and product development departments have joined forces to produce an innovative multi-zone receiver that incorporates six separate zones of amplifier power, a built-in AM/FM tuner, and connections for three additional audio-source components.

The ZR-4630 MultiZone Receiver is the multi-zone solution for which you have been asking. It allows you to combine keypad modules with infrared sensors and hand-held remotes for total control of your home entertainment system, providing "one-touch" system-wide control.

Now everyone in the household can be happy: One person can listen to the CD player in a bedroom, while another simultaneously listens to the radio by the pool. At the same time a third person can listen to DSS music in the den. In addition, the ZR-4630's source-component IR control is custom-programmable to provide intuitive operation for a wide range of source components.

ZR-4630 MultiZone Receiver

Page 7

FEATURES AND BENEFITS

Multi-zone/Multi-source

The ZR-4630 MultiZone Receiver incorporates matrix preamplifier technology to provide as many as three source components and the built-in tuner to six listening zones simultaneously. Finally, Dad can relax to the sound of his favorite music in the den while the kids are listening to their favorite music by the pool.

12-Channel 30W Amplifier for Six Zones of Stereo Sound

The ZR-4630 MultiZone Receiver is an integrated solution for multi-zone applications. Six built-in 30W stereo amplifiers provide clear and dynamic sound for six zoned areas.

Built-in AM/FM Tuner

The ZR-4630 includes a built-in AM/FM tuner that is available to all zones as one of four source-component selections. This high-quality tuner is programmable with 10 preset AM and 10 preset FM stations, and includes direct station access.

Central Intelligence

The design approach of the ZR-4630 MultiZone Receiver is a radical departure from that of traditional programmable keypad-controlled multi-zone systems. Instead of redundantly programming each of the individual keypads with IR commands, all IR commands are programmed and stored in the ZR-4630. The Solo

™

Keypad Module, Numeric

Accessory Keypad Module, and Niles IR Sensors connect to the receiver for com-

plete system control.

™

Master

Total system cost is now dramatically reduced due to shorter programming time and the low cost of the modular keypads located in each zone.

Quick and Easy Progr

amming with PC Archiving

Manual programming is made fast and easy via push buttons and LED visual prompts that lead you step-by-step through the programming process. Additionally, all system programming can be archived on your PC for back-up and for use with pre-designed systems with Niles ZR-4630 Archiving software.

ouch Operation with Source Component Power Synchronization

One-T

One touc

h of a Master Key or Source Button initiates the ZR-4630 MultiZone Receiver to perform a sequence

of IR commands for complete automation of your distributed A/V system.

ower com-

Sync Inputs pro

vided b

y the ZR-4630 sense if the connected sour

ce components are ON or OFF

. P mands for these source components are issued only if the source components are actually OFF, turning them on correctly, every time. The proper input for the source component is then selected and a programmed sequence of IR commands are issued (i.e., play or favorite station).

A complex mix of various brand audio/video components can be operated with ease and simplicity when using the ZR-4630.

Elegant and Intuitive User Interfaces

™

The Solo

Master Keypad Module - The Solo™Master Keypad Module is an elegant, single gang, complete con-

trol solution for the ZR-4630. Custom labeled Master Keys provide complete system activation and source selection, w

hile a complete set of cursor keys provides basic source transport and menu control.

The Numeric™Accessory Keypad Module - The Numeric™Accessory Keypad Module can be included along

™

with the Solo

acks, stations, and channels when operating DSS receivers, CD/DVD changers, and the built-in AM/FM tuner.

Master Keypad Module in any or all zones. This combination provides direct access to discs,

Page 8

FEATURES AND BENEFITS

The R-4 Remote - The R-4 Remote provides system control via an ergonomic hand-held IR remote control.

Zones that have been installed with Niles IR Sensors can take advantage of the R-4 Remote, providing system control from anywhere in the room.

System-Wide Operation

The ZR-4630 MultiZone Receiver incorporates system-wide control to activate all zones to a particular source component. An ALL OFF command is also included for complete system shutdown from any zone in the system.

Zone Linking

The ZR-4630 MultiZone Receiver incorporates Zone-Linking to allow a grouping of zones to be controlled as a single zone. Turn-On, Source selection, Paging and Turn-Off all work in unison, yet each zone has independent Volume adjustment and Muting.

Paging Input for Telephone Systems

A paging input is provided for telephone systems equipped with a paging output. Audio sensing is utilized to detect the paging signal. Source components currently playing in the various zones are interrupted, enabling the paging signal to play through. If a zone is off during a page, it turns on, enabling the paging signal to play through. Front-panel switches are provided to disable this paging feature in any zones where it is not required.

12V Contr

A control output connector pro signal can be interfaced to Voltage Triggered AC Power Strips (i.e., Niles AC-3) for the automation of source components that can only be activated via switched AC outlets.

Expandable for Larger MultiZone Systems

Up to three ZR-4630’s can be combined in a single system, providing 18 zones. Source components are connected to all recei

Program Memory Protection

The ZR-4630 MultiZone Receiver utilizes non-volatile memory for storage of its programming. This safeguards against accidental loss of the progr

ol Output

vides a constant 12V DC trigger signal the moment any zone is activated. This

vers, splitting their audio signals utilizing RCA Y-adapters or Niles

amming for the entire life of the product.

AVDA-3 Distribution Amplifiers.

Page 9

PARTS GUIDE (ZR-4630)

LED Zone ON/OFF Indicator Zone Label Slots Tuner Controls

ync

Inputs

Main P

Audio

Inputs

ower Switch

aging

Input

Sensor for Capturing

IR Commands

Keypad Inputs

emovable Programming Cover

Programming Controls

and Indicat

Flasher Outputs

Expansion

Input

Zone All On/Page

Enable Switches

ors

ontr

2V C

Output

uner Display

DB-9 Computer

uner

Inputs

Interface

enna

Ant

Individual Zone

Preamplifier Output

Gold plat

ed, dual banana plug

spaced, five-way speaker

binding posts

Figure 1

ixed/Variable Preamplifier

Adjustment Switch

emovable

Power Cord Socket

Page 10

PARTS GUIDE (ZR-4630)

LED Zone ON/OFF Indicators

Provides individual ON/OFF indication for each zone.

Zone Label Slots

Coined slot for placing included zone labels for easy identification.

Tuner Controls

Radio station up/down, radio station preset, and AM/FM band shift buttons for tuner control.

Tuner Display

Displays the currently selected radio station and reception mode (stereo vs. mono).

Removable Programming Cover

Conceals installer only programming controls during normal operation.

Main Power Switch

Turns the main power to the receiver ON and OFF. Note: Equipment is not completely disconnected from the main power source when power switch is in the OFF position.

Sensor for IR Capture

IR sensor for capturing IR commands for control of the connected source components.

Programming Controls and Indicators

Push buttons and LED prompts for system and IR pro-

amming.

Zone ALL ON/PAGE Enable Switches

Individual DIP switches enable or disable System Wide All ON commands and the paging feature.

DB-9 Computer Interface

Laptop connection enabling program configuration backup/downloading using ZR-4630 archiving software.

Keypad Inputs

Six female RJ-45 jacks for the connection of the IntelliPad Ci

Master Keypad Modules.

System Expansion

Two female RJ-45 jacks for connecting multiple receivers together in larger multi-zone systems.

Flasher Outputs

Three 3.5mm jacks provide an output connection for IRC-2P MicroFlashers

™

, one for each connected source component. A fourth is designed for the IRC-1P FloodFlasher

™

IR Input

A single 3.5mm jack provides an input connection for IR commands sent from a Home Theater. These IR commands are used for control of sour

ce components

shared with a ZR-4630.

12V Control Output

A single 3.5mm jac

k provides a 12V DC trigger signal for use with voltage-triggered AC power strips (i.e., Niles AC-3) to control source components requiring activation via a switched AC outlet.

Tuner Antenna Inputs

A female coaxial F-connector and two spring-loaded bare-wire jac

ks provide connection to the included

FM and AM antennas.

Audio Inputs

hree pairs of stereo RC

A jac

vide input connec-

ks pro

tions for source components.

vidual Zone Pr

Indi

eamplifier Outputs

Six pairs of stereo RCA jacks provide output connections for external amplifiers used instead of, or in conjunction with, the ZR-4630 built-in amplifiers.

Sync Inputs

Video and voltage sensing RCA Sync Inputs 2, 3, and 4 are for detecting when a source component is on/off for

ation. The HT mini plug Sync Input

reliable system acti

v senses voltage for determining the on/off status of a Home Theater sharing source components with the ZR-4630.

aging Input

A mono RCA input for a paging signal from a telephone system.

Fixed/Variable Preamplifier Output Adjustment Switch

Two-position switches, included for zones 4, 5, and 6, provide the ability to change the individual preamplifier outputs to either a v

ariable or a fixed signal.

Speaker Connector

Gold plated, dual banana plug spaced, fi speaker binding posts pro

vide connection to speakers

in the listening zones.

e-way

Page 11

PARTS GUIDE (R-4 REMOTE) I

Zone Volume Buttons

NCLUDED

Zone OFF Button

Function Buttons

Zone Mute Button

Figure 2

Removable Power Cord

An IEC remo

vable power cord provides for easy handling

during installation.

ce Buttons

Sour

A quick tap of any of these buttons causes the zone to turn on and a sour

ce component to be selected. Pressing and holding these buttons for longer than three seconds causes all enabled zones to turn on. Also, all zones are selected to the same source component.

Zone OFF Button

A quick tap of this button turns your specific zone off. Pressing and holding this button for longer than three seconds causes all zones to turn off.

Source Buttons

Zone Volume Buttons

A continuous press of these buttons r

aises or lowers the volume in your specific zone. Pressing these buttons also restores sound in a zone that is currently muted.

Zone Mute Button

A quic

k tap of this button mutes the sound in a zone. A quick tap of this button restores sound in a zone that is currently muted.

Function Buttons

Pressing these buttons issues the individual IR commands programmed for control of the connected source components.

Page 12

PARTS GUIDE (SOLO

Master Keys

™

MASTER & NUMERIC™ACCESSORY KEYPAD MODULES) S

OLD SEPARATELY

Function Keys

Zone Off Key

Mute Key

Zone Volume Key

elliPad Ci

Int

Solo™

Master Keypad Module

Figure 3

Master Keys

A quic

k tap of an

y of these keys causes the zone to turn on and a source component to be selected. Pressing and holding these keys for longer than three seconds causes all enabled zones to turn on. Also, all zones are selected to the same source-component.

Zone OFF Key

A quick tap of this key turns your specific zone off. Pressing and holding this button for longer than three seconds causes all zones to turn off.

Function Keys

elliPad Ci

Int

Numer

ic™

Accessory Keypad Module

Zone Mute Key

A quic

k tap of this key mutes the sound in a zone. quick tap of this key restores sound in a zone that is currently muted.

Function Keys

Pressing these keys issues the indi

vidual IR com mands programmed for control of the connected source components.

Volume Keys

A continuous press of these keys raises or lowers the volume in your specific zone. Pressing these keys also restores sound in a zone that is currently muted.

Page 13

SYSTEM CONFIGURATIONS

CONFIGURATION 1 - SIX ZONES

Figure 4

This is the simplest of the ZR-4630 configurations (see Figure 4). It depicts one Niles ZR-4630 MultiZone Receiver installed to provide sound to six listening zones.

Each zone consists of one room with one pair of speakers. One Solo for user control. Numeric

™

Accessory Keypad Modules and an IR Sensor are added to specific zones as an option.

™

Master Keypad Module is included in each zone

Source Components

The ZR-4630 has RCA audio inputs for connecting three external source components. In addition to the builtin AM/FM Tuner, three source components can be selected by each of the six zones.

With this configuration, a user in one zone can listen to one source component while another user in a different zone listens to a different source component (i.e. the CD can be selected in Zone 1 while the tuner is selected in Zone 2). Additionally, each of the six zones can be set to an individual volume level. If more than one zone chooses the same source component, IR control of that source component is shared between the zones.

Page 14

SYSTEM CONFIGURATIONS

Keypads and IR Sensors

Keypads and IR sensors enable the user to control the Niles ZR-4630 MultiZone Receiver and its connected source components. Source component IR commands are programmed into the Niles ZR-4630 MultiZone Receiver. These commands are then triggered when the user presses a keypad button or issues a Niles IR command to an IR sensor.

Each zone on the ZR-4630 has a corresponding RJ-45 keypad connector that is used to connect one Solo Keypad Module. Each Solo Module using an included jumper cable (see Connections, Figure 33). The Solo

™

Master Keypad Module can be mated with one optional Numeric™Accessory Keypad

™

Master Keypad Module connects

to the ZR-4630 with a “home run” of four-pair twisted cable, terminated with RJ-45 connectors. An IR Sensor can be included in any zone and connects directly to the Solo

™

Master Keypad Module (see the Installation section of this manual for more details). A three-wire to RJ-45 adapter is available from Niles (see Accessories) for IR Sensors installed with two-conductor shielded cable rather than four-pair twisted cable.

Adding an IR Sensor enables the Niles R-4 Remote to control the ZR-4630 and the connected source components. In addition, a source component’s actual IR commands (i.e., provided by the component’s original remote control or a learning remote control progr sensor to control the sour

ce components.

ammed with these IR commands) can be used with the IR

™

Master

Important Note: The ZR-4630 does not pro

vide individual operation of identical sour

ce components when using a source component’s factory remote through an IR Sensor (see Identical Source Components on page 41 for more details).

Source-Component Automation

There are two methods of controlling the power ON/OFF of the source components.

Synchronized IR - In Figure 4, the DSS receiver’s power ON/OFF is synchronized via a video signal connected to the ZR-4630. When the Master Key/Source Button for the DSS is pressed, the ZR-4630 checks for a video signal at the Sync Input corresponding to the DSS.

The ZR-4630 issues the power command to turn

the DSS ON only when there is no video signal present and the DSS is OFF.

When the Off Key/Button is pressed in a zone, the ZR-4630 checks to see if any other zones are ON (includ-

ing the Home Theater Zone sharing sources). The power command for turning the DSS OFF is issued only if that zone is the last zone turning OFF in entire system and there is a video signal present at the Sync Input corresponding to the DSS.

Important Note: RCA Sync Inputs also can detect 12V for use with Niles external sensing devices, (i.e. the LS-1 Light Sensor and the

Latc

hing P

APC-2 Current Sensing Device). See Connections on page 44 for more information.

- In F

igure 4,

C po

wer to the D

VD and CD changer is turned on and off via the switched AC outlets of a Niles AC-3. The AC-3 is activated by the 12V Control Output from the ZR-4630 when any one of the six zones is ON (including the Home Theater Zone sharing sources). The built-in AM/FM tuner is also turned ON when one of the six zones is ON.

Each Master Key on the Solo

™

Master Keypad Module and its respective source component are programmable with a sequence of IR commands. Commands included in the sequence are typically the Play or Channel commands to start a source playing or to select a particular music or radio station after the source has been selected.

Flasher Outputs

Niles MF1 MicroFlashers™connect to the numbered flasher outputs on the rear panel of the Niles ZR-4630 MultiZone Receiver.

Flashers send IR commands to the individual source components for control. A IRB-1 High-

Output IR Flasher can be connected to the Flasher output labeled ALL to control more than one source component.

Speakers

Each zone has “home run” speaker cables from the location of the speakers for connection to the built-in zone amplifier. Connections are made to the ZR-4630’s speaker output terminals utilizing gold plated, dual banana plug spaced, fiveway speaker binding posts.

Page 15

SYSTEM CONFIGURATIONS

CONFIGURATION 2 – ADDING ZONES USING MULTIPLE ZR-4630’S

More than one ZR-4630 can be used if the system requires more than six zones. A maximum of three ZR-4630’s, providing up to 18 zones, can be combined to create a larger multi-zone/multi-source system. One ZR-4630 is designated as the Master and the others as Slaves (see Installation Settings on page 58 for more details).

Designated

as the Master

Designated

as Slave #1

igure 5

As shown in Figure 5, a four-pair twisted cable connecting the expansion ports of the two ZR-4630’s facilitates communication between them.

his communication enables all zones pro

vided b

y both ZR-4630’

s to obtain control of the shared-source components (which are always connected to the Master). Also, system-wide commands can be issued from any zone (i.e. All Zones ON/OFF).

Sharing Source Components with Two ZR-4630’s

The Niles ZR-4630 MultiZone Receivers (Figure 5) share the audio signal from the source components via RCA Y-adapters. Audio signals are connected to both ZR-4630’s.

Note: When sharing source components with a third ZR-4630 (for an 18-zone system) or with a Home Theater system, refer to Configuration 3.

ce-component control (F

Sour

igure 6) is accomplished via the progr

amming in the master ZR-4630.

All Slav

e ZR-4630’s in the system must be left unprogrammed except for tuner preset stations. All Flasher and Sync Input connections for the shared source components are made to the Master ZR-4630. Keypad/Source Button commands and zone On/Off status are communicated to the Master ZR-4630 using the System Expansion In/Out connections, providing coordinated control of all source-components.

Page 16

SYSTEM CONFIGURATIONS

CONFIGURATION 3 – DISTRIBUTING SOURCE-COMPONENT AUDIO SIGNALS

When sharing source components with three ZR-4630’s (see Figure 6) or two ZR-4630’s and a Home Theater system (see Figure 7), a Niles AVDA-3 Audio/Video Distribution Amplifier is required for each source.

Figure 6

Designated

as the Master

Designated

as Slave #1

Designated

as Slave #2

Page 17

SYSTEM CONFIGURATIONS

CONFIGURATION 3 – DISTRIBUTING SOURCE-COMPONENT AUDIO SIGNALS

Designated

as the Master

Designated

as Slav

Figure 7

e #1

If you are installing three ZR-4630’s with an integrated Home Theater Zone (refer to Figure 8), the cascade output on each AVDA-3 may be connected to the third ZR-4630.

Important Note: An AVDA-3 is required whenever you are sharing source components with a Home Theater receiver that shorts its audio inputs. (Some Home Theater receivers short their audio inputs when their power is off or the input is not currently selected.)

Page 18

SYSTEM CONFIGURATIONS

SU250

Niles MF1 M

icroFlasher

iles MF1

icroFlashers

WS100

CONFIGURATION 4 – INTEGRATING AN IR-CONTROLLED HOME THEATER

An IR-controlled Home Theater surround-sound receiver can be integrated to share source components in a system with the ZR-4630.

Figure 8

Distributing Audio Signals

udio signals for the shared sour

ce components are connected to both the ZR-4630 and the Home Theater

receiver using RCA Y-adapters (Figure 8). Important Note: If the Home Theater Receiver has shorting audio inputs, a Niles AVDA-3 Distribution Amplifier

must be used in place of the RCA Y-adapters (refer to Figure 7).

Shar

ed Sour

ce Component Control

The Flasher output from the Home Theater IR repeater (Figure 8) is connected to the IR Input of the ZR-4630.

heater IR remote control is no

he Home

A 12V Sync signal is pro

vided from the Home Theater to the Home Theater Sync Input to provide the ZR-4630

w able to control the shared source components.

with the On/Off status of the Home Theater. This status enables the ZR-4630 to provide coordinated control of the shared sour

ce component's po

wer

Important Note: When issuing the sour

ON/OFF

ce component’s actual IR commands from the Home Theater remote

control, all IR commands are passed through to all source-component flasher outputs. Identical brand and model sour

ce components cannot be oper

ated indi

vidually using these commands. (For more information on

controlling identical brand and model source components, refer to the Operation Overview on page 32.)

Page 19

SYSTEM CONFIGURATIONS

CONFIGURATION 5 – INTEGRATING A HOME THEATER USING AN INTELLICONTROL

A Home Theater system controlled by a Niles IntelliControl can be integrated to share source components in a system with the ZR-4630.

Figure 9

Audio Signals

udio signals for the shared sour

A receiver using RCA Y-adapters (Figure 9).

Important Note: If the Home Theater receiver has shorting audio inputs, a Niles AVDA-3 Distribution Amplifier must be used in place of the RCA Y-adapters (for more information see configuration 3).

ed Sour

Shar

The Flasher output from the IntelliControl®(Figure 9) is connected to the IR Input of the ZR-4630. The IntelliControl, progr source-components. Niles R-4 IR commands are taught to the IntelliControl using the R-4 Remote itself (see Programming Overview for more details).

2V Sync signal is pro

A with the ON/OFF status of the Home Theater. This status enables the ZR-4630 to provide coordinated control of the source component's power ON/OFF.

Important Note: When issuing the sour Control, all IR commands are passed through to all source-component flasher outputs. Identical brand and model source components cannot be operated individually using these commands. (For more information on controlling identical br

ce-Component Control

ammed with Niles R-4 Remote IR commands, no

vided from the IntelliControl to the Home

and and model sour

ce components are connected to both the ZR-4630 and the Home Theater

w can automate and control the shared

Theater Sync Input to provide the ZR-4630

ce component’

ce components, refer to the Oper

s actual IR commands from the Home

ation Ov

erview on page 32.)

Theater Remote

Page 20

SYSTEM CONFIGURATIONS

CONFIGURATION 6 – MULTIPLE SOLO™MASTER KEYPAD MODULES IN A ZONE

The single zone of a Niles ZR-4630 MultiZone Receiver can be expanded to contain multiple Solo™Master Keypad Modules providing control from many locations within the zone. A Niles IntelliPad required to connect multiple keypads in a single zone. A maximum of five Solo

™

Master Keypad Modules can be

included in a single zone using two Expanders.

Ci Expander™is

Figure 10

In Figure 10, two Solo

™

Master Keypad Modules are installed on either side of a bed. When connected, all keypads in a zone work in tandem (i.e., all control the same zone and display the same Zone ON/OFF, Mute, and Input Select Status.)

Page 21

SYSTEM CONFIGURATIONS

CONFIGURATION 7 – MULTIPLE LISTENING AREAS IN A ZONE

A single zone of the ZR-4630 can be set up to contain more than one listening area (i.e., an adjacent living room and dining room). This configuration is chosen when the speakers in the zone are not required to be played at separate volume levels or to be on/off separately.

Figure 11

1, speaker cable is connected to the speaker outputs of Zone 3 and then par

igure

In F speakers in both the living room and the dining room. A Solo

A Niles IntelliPad When connected, all keypads in a zone w display the same Zone ON/OFF

Ci Expander™is required to connect the two Solo™Master Keypad Modules in a single zone.

ork in tandem with one another (i.e., all control the same zone and

, Mute, and Input Select Status).

™

Master Keypad Module is located in each area.

allel connected to the

A maximum of two pairs of 8 ohm speakers can be added to a zone in this manner. An external amplifier is required for zones with more than tw

o pairs of speakers.

Page 22

SYSTEM CONFIGURATIONS

ZONE 3

Keypad

Speakers

RCA Audio Cables

Four-Pair Twisted Cable

Two-Conductor

Speaker Cable

Niles SI-245

CONFIGURATION 8 – EXTERNAL AMPLIFIER IN A ZONE FOR MORE POWER

Each zone of the ZR-4630 provides RCA preamplifier output connections for the connection of external amplifiers. External amplifiers can be used to provide more power in a zone.

In Figure 12, an external amplifier has been connected to zone 3. Using an amplifier with more than the 30W per channel provides the zone with more volume for listening in large rooms and outdoors.

Important Note: When using preamplifier outputs for zones 4, 5, and 6, the fixed/variable switch must be in the variable position for this configuration.

Figure 12

Page 23

SYSTEM CONFIGURATIONS

Two-Conductor

Speaker Cable

ZONE 3

(Living / Dining Room)

Living Room

Keypads

Speakers

Dining Room

Four-Pair

wisted Cable

nswitched

C Outlet

our-Pair

Twisted Cable

Niles

i Expander

ower

Supply

RCA Audio Cables

Niles SI-245

CONFIGURATION 9 – EXTERNAL AMPLIFIER IN A ZONE FOR MULTIPLE LISTENING AREAS

A zone of the ZR-4630 can be set up to contain more than one listening area by adding an external amplifier (i.e., an adjacent living room and dining room area). This configuration is chosen when the speakers included in the zone are not required to be played at separate volume levels or to be ON/OFF separately.

Figure 13

In Figure 13, an external amplifier has been connected to Zone 3. This enables the zone to have an additional listening area with its own dedicated amplifier. Now, with the ZR-4630’s internal amplifier dedicated to one listening area and the external amplifier to the other

, greater po

wer is pro

vided to the speakers in both areas.

Important Note: When using preamplifier outputs for zones 4, 5, and 6, the fixed/variable switch must be in the variable position for this configuration.

Page 24

SYSTEM CONFIGURATIONS

Master Bedroom Master Bathroom Walk-In Closet Terrace

ZONE 6

Niles SI-245

RCA Audio Cables

Keypad Connections

Speaker Cable

Preamplier set to Fixed Mode

Variable Speaker Output

Wired in

Parallel

CONFIGURATION 10 – EXTERNAL AMPLIFIER IN A ZONE FOR MULTIPLE ROOMS

The preamplifier output connectors on the ZR-4630 for zones 4, 5 and 6 have a fixed/variable setting. Using the fixed setting with an external amplifier enables a zone to be divided up into individual rooms using conventional Niles Impedance Matching Volume Controls.

Figure 14

In Figure 14, Zone 6 has been expanded into four rooms. Each room can be On/Off individually and be set at different v

olume levels.

The speakers for the master bedroom are connected to the ZR-4630’s internal zone amplifier. A Solo Keypad Module is placed in the master bedroom for control of ON/OFF, source selection, and source operation for the entire zone. Ho

wever, the volume and mute buttons on the Solo

™

Master K

eypad Module affect the

speakers in the master bedroom only.

™

Master

Impedance-magnifying volume controls enable individual control of the speakers connected to the external zone amplifier in the master bathroom, the walk-in closet, and the terrace.

Page 25

SYSTEM CONFIGURATIONS

PAGE OUTPUT

Telephone

ontrol Unit

System

elephones

PAGE OUTPUT

Telephone

Control Unit

System

Telephones

Niles AVDA-3

Distribution Amplier

CONFIGURATION 11 – SYSTEM PAGING AND EXTERNAL TELEPHONE SYSTEM

A Paging Input connection on the rear panel of the ZR-4630 provides a connection for the paging output signal of popular telephone systems for voice paging through the speakers in the listening zones (see Figure 15). Paging volume level can be adjusted by the ZR-4630 (see Installation Settings on page 59 for more information).

Figure 15

A Niles AVDA-3 (see Figure 16) is required when connecting a telephone system to more than one ZR-4630 in larger systems.

Figure 16

Page 26

SYSTEM CONFIGURATIONS

3-30V AC/DC STATUS

MSU-250

1= STAT US

4= 12V DC

2= DATA 3 = GROUND

CONFIGURATION 12 – IR REPEATING FOR CONTROL OF LOCAL COMPONENTS

An IR Repeating System can be integrated into a room connected to the Niles ZR-4630 (see Figure 17). This enables a single IR Sensor (installed in that room) to control local components with a hand-held IR remote control.

In Figure 17, a Niles IR Sensor is connected to a Niles MSU250 for control of local components and to a Niles ZR-4630 for control of distributed components. A Niles SPK-1 Automated Speaker Level A-B Switcher switches the front speakers in the Master Bedroom from the ZR-4630 distributed sound system to the local surround-sound receiver system when the local system is activated.

Figure 17

Important Note: Use of an identical brand and type component in both the local and the distributed system (i.e., a Son

y CD play

er in both systems) is not supported b

components may not be possible. IR blockers included with Niles MicroFlashers

y this configuration. Individual operation of identical

™

may be required to prevent

IR feedback when using this configuration.

Page 27

COMPONENT COMPATIBILITY

Infrared Command Compatibility

IR control testing was conducted on many equipment brands to determine their compatibility with the ZR-4630. Typical A/V source components (i.e., CD, DVD, DSS, Cable Boxes, etc.) from each brand were chosen for the test. All brands listed below passed the test.

Adcom APEX B&K Denon Echo Star Escient Go Video Harman Kardon Hitachi Hughes

JVC Kenwood Krell Lexicon Lightolier Magnavox Marantz McIntosh Meridian Mitsubishi

Motorola NAD Electronics Nakamichi Niles Onkyo Panasonic Parasound Philips Pioneer RCA

Rotel Samsung Scientific Atlanta Sharp Sherwood Sony Technics Toshiba Yamaha Zenith

Important Note: Use this list only as a starting point. All the components for every brand listed were not available at the time of testing.

To avoid unforeseen incompatibilities, Niles recommends always testing components

you have not yet used with a ZR-4630 prior to specifying them in your installation.

Testing for a Possible IR Command Conflict

When using a Niles IRB-1 High Output Flasher, there are rare instances when the same IR command will operate more than one sour

ce component. This prevents the proper operation of another IR-controlled component when the two are installed in the same system because the press of a single remote button causes both compo nents to respond. Rare as this situation is, when working with unfamiliar equipment or two products that you have never combined in the same system, it is advisable to first test how these components interact with each other.

To test for this type of conflict, take all the remotes in the system (following the example above with six components, you would need to test all six remotes) and issue every command you will be programming in the keypads. Expose all components to each command, and make sure that only the appropriate component responds.

Solving the IR Command Conflict if Pr

esent

Remember that conflicts of this nature are rare. However, if you find yourself in this situation, contact the manufacturer to ask if they are aware of the problem and if they have a solution. Perhaps they now have a different remote, or there may be a chip upgrade for the product.

If the manufacturers do not have a solution, the problem may be resolved by using a Niles MicroFlasher instead of IRB-1 High Output Flasher. In cases where neither solution works, advise the client of the situation and explain that it is necessary to substitute the component.

™

Page 28

SOURCE POWER SYNCHRONIZATION

WHAT IS SOURCE-POWER SYNCHRONIZATION?

The ZR-4630 has been designed to keep track of the ON/OFF condition of the three source components connected to the system. This enables source components that utilize the same IR command for ON and OFF to be automated.

For this feature to function as designed, you need “synchronization (sync)” between the ZR-4630 and source components that utilize the same IR command for ON and OFF. This assures the users of the system that the ZR-4630 will always issue Power commands correctly when they press a Master Key or the Off Key.

Source Power Sync makes it possible for the user to always have a source component turn ON when they need it on and to always have all the components turn OFF when they turn the System off.

Source Components that require Power Synchronization

Source components that utilize the same IR command for ON and OFF need to be synchronized. The power button for these source components sends the same IR command to turn the source components ON if they are OFF, and to turn them OFF if they are ON. It is necessary to “synchronize” these source components with the ZR-4630 so it knows not to send an ON command if the source components are already ON (if it did, the source components would turn OFF, which is not the desired result). Conversely, synchronization keeps the ZR-4630 from issuing a “power” command when the OFF Key is pressed, if the source components are already OFF.

The ZR-4630 has three Sync Inputs for each of the source components. It allows synchronization via voltage and video signals. (see Choosing a Synchronization Method on page 29 for more information on how to synchronize components).

ce Components that do not require Synchronization

Sour

Two types of components do not require sync those with “latching power.”

ce Components with separate ON/OFF IR commands

Sour

There are source components that are included with and respond to separate ON and OFF IR commands. Synchronization is not required for them. When power commands are programmed as separate ON and OFF, the ZR-4630 will issue ON commands only if Sync is not present. Separ nents are always issued when the last zone turns OFF regardless of sync status.

Source Components with “Latching Power”

Some source components, like CD players and tape decks, are usually plugged into the switched AC outlet of

er that they are installed with. These components simply turn ON when the system’s

the preamplifier/recei

er/preamplifier turns

recei mand to turn ON or OFF.

Because they turn ON as soon as there is po these components will be turned on as well.

Since the ZR-4630 does not provide a switched AC outlet, the 12V Control Output connected to a Voltage

riggered AC Power Strip (i.e., Niles AC-3) provides perfect control of latching source components (see C

T onfigur

ation 1 in the Systems Configur

ON, meaning that they “latch” into an ON or OFF state and do not need an IR com-

ations section of this manual for more information).

hronization: those with separate ON and OFF IR commands, and

ate OFF commands for source compo

wer on their AC cord, once the preamplifier/receiver is turned on,

hey do not need individual synchronization.

Page 29

SOURCE POWER SYNCHRONIZATION

AUDIO VIDEO

DSS

PHONE

IGITAL

RCA Y-Adapter

Splitting Video Output

Video Input

CHOOSING A SYNCHRONIZATION METHOD

Once you establish that all source components in the system have compatible IR commands, the next step is to choose the appropriate Sync Method for each component.

There are two ways to detect when a component is ON or OFF: Video or Voltage Sync.

Figure 18

Video Sync

Video Sync is the easiest and most reliable method of synchronization. Most video sources have a video output active only when the device is ON. This type of video output provides an excellent method for component

hronization.

sync

The ZR-4630 has three source-synchronization connections that can accept either 12V or video input. In Figure

8, the video output of a DSS is connected to both a

TV and the corresponding Sync Input for the DSS using an

RCA Y-adapter. Picture quality will be unaffected due to the high impedance of the Sync Input. If the source component has two video outputs, the need for an RCA Y-adapter is eliminated. Simply connect

the first video output to its normal system destination, and the second video output will be dedicated for the Sync Input.

Page 30

SOURCE POWER SYNCHRONIZATION

CD CHANGER

Niles APC-2

UDIO

DIGITAL

Back

Front

Voltage Sync

Voltage Sync is also a reliable method of synchronization if chosen and implemented correctly. The Sync Inputs can detect the control out voltage from a Niles Signal Sensing product interfaced to the source component.

Obtaining Voltage Sync

Current Sensing Current Sensing synchronizes a component by detecting the changes in the AC power draw that occurs with a component when it turns ON and OFF.

Figure 19

In Figure 19, a Niles APC-2 Current Sensing Switch senses the change in power consumption of a CD changer when it is turned ON. When it senses that change, it outputs a 12V DC signal. The synchronized CD chang-

s AC power plug is connected to the current sensing outlet on the APC-2. The APC-2’s 12V DC output is

er’ connected to the ZR-4630’s Sync Input dedicated to the CD changer using a Niles 10’ accessory cable with

ccessories for more details).

bare wire to mini-plug (FG00724, see When using a Niles

APC-2, a minimum change of 30W is required for reliable current sensing. If the com-

ponent does not have a 30W change in current draw when turning ON (i.e., DSS receivers and most VCRs and CD play

ers), consider the last method, Light Sensing.

Page 31

SOURCE POWER SYNCHRONIZATION

Unswitched

AC Outlet

Power Supply

Niles LS-1

DSS

Light Sensing Probe

placed over an LED

Audio Out

Light Sensing Using a light sensor (LS-1) to synchronize your components is usually your last choice, simply because the other choices are more reliable. The Niles LS-1 Light Sensor can synchronize a component by sensing changes in light. The 12V output of the LS-1 is then connected to the ZR-4630’s Sync Input dedicated for that component, a miniplug to RCA adapter is required for this connection (see Connections for more information).

In Figure 20, a Niles LS-1 Light Sensor senses changes in brightness of a DSS’s front panel LED and outputs a

Figure 20

12V DC signal when the LED is brightest. A blocking cover is used to prevent ambient light from falsely triggering the LS-1.

An unused optical digital output located on the rear panel of a digital source component can also provide a light source for Sync using the LS-1.

SOURCE AND HOME THEATER SYNC STATUS

Sync status (the presence or absence of a valid sync signal) of source components and the Home Theater associated with the Master ZR-4630 are displayed on the LEDs located in the hidden programming panel. These LEDs illuminate only w

hile a valid sync signal is being received by the ZR-4630 during normal operation mode. Source 2, Source 3, and Source 4 LEDs represent Source 2, Source 3, and Source 4 respectively. The Tuner LED represents the Home

. These status LEDs are used during system troubleshooting. Manually turning

heater ON/OFF synchronized source components and the integrated Home Theater will turn ON/OFF the respective component’s status LED if synchronized correctly.

Page 32

OPERATIONAL OVERVIEW

MASTER KEYS/SOURCE BUTTONS

The Master Keys available on the Solo™Master Keypad Module and the Source Buttons on the hand-held R-4 Remote (Figure 21) provide “one-touch activation” of the ZR-4630 and source components.

The Master Keys on the Solo ON/OFF, Zone Mute, and Zone Input Selection status.

The Source Buttons on the R-4 Remote correspond to the Master Keys on the Solo (Master Key 1 = Tuner, Master Key 2 = Source Button 2, Master Key 3 = Source Button 3, and Master Key 4 = Source Button 4).

™

Master Keypad Module are equipped with back lighting LEDs for indicating Zone

™

Master Keypad Module

Master Keys on the Solo™

Master Keypad Module

Source Buttons on the hand-held R-4 Remote

igur

Master Key #1

Master Key #3

e 21

Master Key #2

Master Key #4

The four available Master Keys and their corresponding Source Buttons are individually programmable. Once programmed, they operate the system identically in each zone. Master Keys on the Solo Module should be labeled the same in eac

h zone.

™

Master Keypad

Page 33

OPERATIONAL OVERVIEW

Master Key/Source Button Events

When you press a Master Key on a Solo™Master Keypad Module or a Source Button on the hand held R-4 Remote, as many as four events occur.

The first event is factory programmed and activates the zone which you are located. The second event is factory programmed and selects the proper source input corresponding to the Master Key or Source Button pressed (1 = Tuner, 2 = Input 2, 3 = Input 3, 4 = Input 4).

There are two installer programmable events available for Master Keys and Source Buttons 2, 3, and 4: Event 3

- the Source ON Event, and Event 4 - the Sequence Event. Because there is no power command required for the ZR-4630’s internal tuner, Master Key 1 and the Tuner

Source Button are programmable only with the Sequence Event.

Master Key/

Source Button

Master Key 1 or

Tuner Source Button

Master Key 2 or

ce Button 2

Sour

Master Key 3 or

Source Button 3

Master Key 4 or

Source Button 4

Event 1

(Zone ON)

Turns Zone On

(Factory

Programmed)

Turns Zone On

(Factory

Programmed)

Turns Zone On

(Factory

Programmed)

Turns Zone On

(Factory

Programmed)

Event 1

y or a

ns a ZONE ON when a Mast

ent tur

This e Source Button is pressed. Pressing and holding a Master Key/Source Button turns all zones on to that source (the

ust be enabled via a DIP switch, see Installation

one m

z Settings for more details). When a zone is on, the selected Master Key on the Solo™ illuminates green.

er Ke

Event 2

This event selects the proper input for the Master

ey/Source Button pressed. The source selected for

K Master Key 1 on the Solo™ Master Keypad Module, and the Tuner Source Button on the R-4 Remote, is the internal Tuner. Master Keys/ Source Buttons 2, 3, and 4 are for the external audio inputs respectively. These inputs are selected every time a Master Key or a Source Button is

essed or pressed and held.

Event 2

(Input)

Selects Tuner

(Factory

Programmed)

Selects Input 2

(Factory

Programmed)

Selects Input 3

(Factory

Programmed)

Selects Input 4

(Factory

Programmed)

Event 3

(Source ON)

Not Available

Installer

Programmed

Installer

Programmed

Installer

Programmed

Event 4

(Sequence)

Installer

Programmed

Installer

Programmed

Installer

Programmed

Installer

Programmed

Event 3

ns ON IR-activ

ent tur

This e DSS, VCR) when a Master Key/Source Button is pressed. The Source ON event occurs only for Master Keys/Source

ons 2, 3, and 4.

But

Key/Source Button are programmed individually and occur conditionally, synchronized via the correspond-

ync Inputs.

ing S

ated source components (i.e.,

wer commands for each Master

Event 4

vent issues IR commands and programmed time

This e delays. It is executed last and occurs every time a Master Key/Source Button is pressed. Play, group, file, or channel commands for an associated source component typically are included in the sequence. The sequence for Master Keys/Source Buttons 2, 3, and 4 can be pro-

rammed with the IR commands taught to their respective

g function keys along with programmed time delays. The sequence for the Tuner Source Key can be programmed with the tuner’s direct access or preset access commands.

Page 34

OPERATIONAL OVERVIEW

MASTER KEY/SOURCE BUTTON OPERATION

The Master Key/Source Buttons have three methods for operating the system.

Single Zone Operation

The first method, a quick tap of a Master Key/Source Button in a zone (holding the Key/Button for less than three seconds), causes only that zone to turn ON. The Master Key quickly tapped illuminates GREEN after the zone turns ON. A zone turns ON to its last volume setting. A maximum turn ON volume can be programmed into the ZR-4630 (see Installation Settings for more information).

System Wide Operation

The second method, a press and hold of a Master Key/Source Button in any zone (holding the Key/Button for more than three seconds), turns all zones ON that are set to ALL ON/Page enabled (this setting is made via front panel programming DIP switches, set individually for each zone). All zones enabled for ALL ON/PAGE, select the source associated with the Master Key/Source Button pressed and held, and that same Master Key LED illuminates GREEN. The ALL ON volume can be adjusted with the ZR-4630 (see Installation Settings for more information).

Note: When the Tuner Master Key (master #1) is pressed and held, the radio station currently selected in that zone will be selected by all zones when using multiple ZR-4630's in a system.

Zone linked Operation

The third Method, a press of a Master Key/Source Button that is part of a Zone-Linked group of zones, causes the linked Zones/Rooms to turn ON to the selected Source. Each Zone/Room turns ON to its individual programmed Turn On Volume level. Each Zone/Rom has independent Volume control. Changing a Source in any of the linked Zones/Rooms c

hanges the Source in all the linked Zone/Rooms.

Inportant Note: Only one group of Zones/Rooms can be linked together in a chassis.

OFF KEY/OFF BUTTON

The OFF Key/Button included on both the Solo™Master Keypad Module and the hand-held R-4 Remote provide “one-touc Button deacti

h” system deactivation. When you are finished listening in a zone, a single press of the OFF Key/

vates the zone.

Off Button on the hand-held R-4 Remote

Off Key on the Solo™

ypad Module

er K

Mast

Figure 22

Page 35

OPERATIONAL OVERVIEW

OFF Key Events

When you press the OFF Key/Button, as many as two events occur. The first event is factory programmed and is responsible for turning the zone or all zones OFF every time the OFF Key/Button is pressed.

The second event is responsible for turning OFF the source components and only occurs if the zone turning OFF was the last zone ON in the system (including the Home Theater Zone sharing source components). There is no programming required for this event. The programming that was accomplished for the Master Key Source ON events is reversed to deactivate the source components.

The Zone OFF Event is factory programmed and the Source OFF Event is automatically programmed to reverse the programming of the Master Key/Source Buttons that turn the source components ON. IR commands

are issued conditionally based on System and Component power synchronization and the on/off status of other zones in the system and the Home Theater.

OFF KEY/BUTT

ON OPERATION

The OFF Key/Button has tw

Master Key/

Source Button

OFF Key

o methods of operation.

Event 1

(Zone OFF)

Factory

Programmed

Event 2

(Source OFF)

Programmed Automatically

Single Zone OFF

The first method, a quick tap of the OFF Key/Button in a zone that is currently ON (holding the OFF Key/Button for less than three seconds), causes the zone to turn OFF. The Master Key LED that was illuminated turns OFF.

System

Wide OFF

The second method, a press and hold of the OFF Key/Button, turns all zones OFF (holding the OFF Key/Button for more than three seconds). All Master Key LEDs in all zones turn OFF.

Zone Linking OFF

he third method, a press of the OFF Key/Button in any of the linked Zones/Rooms, causes the entire group of

T linked Zones/Rooms to turn OFF

Page 36

OPERATIONAL OVERVIEW

VOLUME KEYS/VOLUME BUTTONS

The Volume Keys on the Solo™Master Keypad Module and the Volume Buttons on the hand-held R-4 Remote provide control of volume for individual zones.

Volume Buttons on the hand-held R-4 Remote

Volume Keys on the Solo™

Master Keypad Module

Figure 23

olume K

eys/Volume Buttons Operation

Pressing the Volume + or the Volume - Keys/Buttons raises and lowers the speaker output and the preamplifier output for the zone in w

ou are located. (Zones that hav

h y

hic

e their preamplifier outputs set to the fixed mode

are not affected by the volume keys/buttons, see Installation Settings.)

Page 37

OPERATIONAL OVERVIEW

MUTE KEY/MUTE BUTTON

The Mute Key/Button provides a method of turning the sound ON/OFF for a brief moment in an individual zone without turning the zone OFF (this also prevents the source component from being turned OFF).

Mute Key on the Solo™

Mute Button on on the hand-held R-4 Remote

Master Keypad Module

Figure 24

Mute Key/Mute Button Operation

In a zone using the speaker output or the preamplifier output set to v

ariable, pressing the Mute K

ey/Button mutes and unmutes the sound for that zone only. The ZR-4630 still considers the zone to be ON while the zone is MUTED

he Master K

ey for the selected sour

ce lights GREEN while the zone is ON and unmuted, and RED while the zone ON and MUTED. If a zone has more than one Master Keypad Module installed using an Expander, all Master Keypads in that zone indicate identical system status (i.e., Zone ON/OFF, Zone Mute and Zone Input Selection status), and operate the zone in tandem with one another.

Important Note: A preamplifier output for a zone that is set to fixed output is unaffected by the mute command and always outputs sound while the zone is on (zones 4, 5, and 6 can be set to fixed mode).

Page 38

OPERATIONAL OVERVIEW

FUNCTION KEYS/BUTTONS

The Solo™Master Keypad Module, the Numeric™Accessory Keypad Module, and the hand-held R-4 Remote include various function keys for control of the built-in tuner and the connected source components. Figure 26 illustrates the available function keys for all of the control devices.

Function Keys on the Solo™ Master Keypad

Module, the Numeric™ Accessory Module and

the hand-held R-4 R

emot

igur

e 25

Function Key/Button Operation for Connected Source Components

After the Master Key/Source Button for a source component has been pressed, the ZR-4630 activates a zone and selects that sour mands that hav

ce component. The individual function keys/buttons in that zone will now issue the IR com-

e been progr

ammed for the source component you selected.

Page 39

OPERATIONAL OVERVIEW

Function Key/Button Operation for the Built-in Tuner

The commands for operation of the built-in tuner from the function keys/Buttons are pre-programmed. Figure 27 depicts the available commands for the tuner, their function key/button location, and a description of their action on the tuner.

Pre-Programmed Tuner Commands

Key Command

* AM/FM

Arrow Up Next Preset

Arrow Down Last Preset

Arrow Right Seek Up

Arrow Left Seek Down

Surf + Next Preset

Surf - Last Preset

AM AM

FM FM

11 22 3 3 4 4 5 5 66 7 7 88 9 9 0 0

- Last Preset + Next Preset av

Preset Call

Figure 26

Shifts tuning band between AM and FM

Scrolls the 20 preset stations, 10 AM and 10 FM

Next tunable station is selected in the currently chosen tuning band, AM or FM

Scrolls the 20 preset stations, 10 AM and 10 FM

Direct access to AM and FM

Number commands for accessing stations directly or by preset number

Scrolls the 20 preset stations, 10 AM and 10 FM

Enables number commands to call preset stations

After the

uner Master K

ey/Sour

ce button has been selected in a zone, the pre-progr

ammed tuner commands become available from their designated function keys/buttons. Radio stations can be accessed from preset memory, or directly.

Page 40

OPERATIONAL OVERVIEW

FRONT PANEL TUNER OPERATION

Preset Buttons Station Scan Buttons

Band

Shift Button

Band IndicatorFrequency Indicator

Stereo Indicator

Figure 27

Band-Shift Button

The Band Shift Button toggles the selected tuning band between AM and FM.

Station Scan Buttons

A quick tap of the Station Scan Buttons increments the tuner one frequency step. Pressing and holding the Station Scan Buttons searches the currently selected band for the next tunable station ( quency, – searches downward in frequency).

Preset Buttons

uttons have two functions. The first is to call up memorized preset stations with a quick tap (supports

he Preset

T 10 presets for the AM band and for 10 for the FM band). The second is to store preset stations in the memory. Refer to Tuner Preset Programming Steps for more details.

Indicators

he F

T radio station is received. The Band Indicator displays the currently selected tuning band (AM or FM).

requenc

y Indicator displays the currently selected station.

he Stereo Indicator appears w

+ searches upward in fre-

hen a stereo

Page 41

OPERATIONAL OVERVIEW

IDENTICAL SOURCE COMPONENTS

The ZR-4630 routes the individual source component IR commands with which it has been programmed to specific Flasher Outputs. This provides individual control of identical source components (i.e., two DSS receivers of the same brand and model). These programmed IR commands are routed to the individual Flasher Outputs based on the source components for which they were programmed. The table below designates where IR commands are routed when a zone is selected to one of the three source components.

FLASHER OUTPUTS

Selected Source Flasher ALL Flasher 2 Flasher 3 Flasher 4

Source 2

Source 3

Source 4

Important Note: Operation of an identical source component is not possible using its actual IR commands in a zone installed with an IR Sensor. (i.e., using the source component’s original remote control or a learning remote control programmed with these IR commands). Identical source components can be operated from a zone with an IR Sensor using Niles hand-held R-4 Remote IR commands (see Programming Ov more information).

SHARED SOURCE COMPONENTS

Source components (i.e., DVD player, CD changer, DSS receiver) used with a ZR-4630, can be “Shared” with multiple ZR-4630’s and/or a Home details). The ZR-4630 has been designed to pro from all zones, of all ZR-4630’s and the Home Theater.

A Source Component in a ZR-4630 Multi-Zone System is considered “shared” when its audio signal is connected to more than one ZR-4630 or if it is connected to a ZR-4630 and a Home Theater system (refer to System Configuration 2 and System Configuration 3 for more details).

OPERATING A SYSTEM WITH MULTIPLE ZR-4630’S

ating a system with multiple ZR-4630’

Oper Master Keypad Modules in each zone independently operate the zone to which they are dedicated to (i.e., zone ON/OFF, Volume Up/Down, Mute). When a user in a zone from any ZR-4630, presses a key/button, the IR commands required for the shared source components (i.e., Power ON/OFF, Play, Stop, and Channel Up), are issued by the ZR-4630 that has been programmed. See the Programming Section of this manual for specific details on programming.

X X

erview for

Theater system (refer to System Configurations 2, 3, 4, and 5 for more

vide coordinated control of these “shared” sour

s is the same as oper

ating a system with only one ZR-4630. Solo

ce components

™

Important Note: The built-in AM/FM tuners in each of the ZR-4630’s, are not “sharable” between each other or with the Home Theater. The six zones provided by each of the ZR-4630’s listen to and control their own built-in AM/FM tuner (refer to the Programming section of this manual for more details on tuner programming).

Page 42

OPERATIONAL OVERVIEW

OPERATING A SYSTEM INTEGRATED WITH A HOME THEATER

Operation from the Stereo Zones Provided by the ZR-4630

User operation from the zones provided by ZR-4630’s, are not affected when integrating a Home Theater to share source components (see System Configurations 4 & 5). Solo independently operate the zone to which they are dedicated (i.e., Zone ON/OFF, Volume Up/Down, Mute). When a user in a zone from any ZR-4630, presses a Key/Button, the IR commands required for the shared source components (i.e., power ON/OFF, Play, Stop, and Channel Up), are issued by the ZR-4630 that has been programmed. See the Programming Section of this manual for specific details on programming.

Operation from the Home Theater Zone

A Home Theater can be integrated to share source components with a ZR-4630 using one of three methods. How the Home Theater will operate depends on which method is chosen. The three methods of integration are listed below, along with a description of the Home Theater operation they provide.

Method 1. Integrated Home Theater using 12V Home Theater Sync and IR Repeating

The Home Theater IR Remote (programmed with the actual IR commands of the shared source components) sends IR commands to the shared source components via the IR Input located on the rear panel of the ZR-4630. This enables control of the shared sour

ce components for users in the Home Theater. All IR commands for shared source components are passed through to all four of the Flasher Outputs on the rear panel of the ZR-4630. Only discrete power ON and transport commands for the shared source components should be issued.

™

Master Keypad Modules in each zone

Important Note: Because all of the actual IR commands for shared components are passed through to all the Flashers Outputs simultaneously, identical source components cannot be operated individually with this method. Also, when using this method, reliable activation of Shared Source Components that use a single IR command for power ON/OFF is not possible. (Refer to Method 2 for operating identical shared source components and Components with a single IR command for power ON/OFF.)

When the Home Theater turns ON, it provides a 12V Status signal that is connected to the Home Theater Sync Input on the rear panel of the ZR-4630. This provides the ON/OFF status of the Home Theater to the ZR-4630.

he moment a v

alid Home Theater Sync signal is present at the ZR-4630, the ZR-4630’s 12V Control Output sends a turn-on trigger for a Voltage-Triggered AC Power Strip (i.e., Niles AC-3), activating latching sour

ce components.

When the Home Theater is turned OFF, the ZR-4630 checks itself and any other ZR-4630’s in the system to see if an the latc

hing sour

y zones are still ON. If all zones are OFF, the 12V Control Output shuts OFF, turning OFF

ce components. Power OFF IR commands for turning OFF the IR controlled shared

source components are also issued.

Method 2. Integrated Home Theater using 12V Home Theater Sync and Niles R-4 Commands

The Home Theater IR Remote (programmed with the Niles R-4 IR commands) sends IR commands to the ZR-4630 via the IR Input located on the rear panel.

his enables control of the shared sour

ce components

for users in the Home Theater. All the actual IR commands for shared source components are programmed into the ZR-4630. When a Niles

IR command is recei

ed, the corresponding progr

ammed-sour

ce IR commands are sent to the Flasher Output dedicated to the shared source component that is selected (i.e., Source 2 = Flasher 2, Source 3 = Flasher 3, Source 4 = Flasher 4). Identical source components can be individually operated with this method.

Important Note: shared sour

ce components that are unique in the system can hav

e their actual IR com

mands programmed into the Home Theater remote and issued for simple IR repeating with this method.

Page 43

OPERATIONAL OVERVIEW

When the Home Theater turns ON, it provides a 12V Status signal that is connected to the Home Theater Sync Input on the rear panel of the ZR-4630. This 12V Status signal provides the ON/OFF status of the Home Theater to the ZR-4630.

The moment a valid Home Theater Sync signal is present at the ZR-4630, the ZR-4630’s 12V Control Output sends a turn-on trigger for a Voltage-Triggered AC Power Strip (i.e., Niles AC-3), activating latching source components.

When the Home Theater is turned OFF, the ZR-4630 checks itself and any other ZR-4630’s in the system to see if any zones are still ON. If all zones are OFF the 12V Control Output shuts OFF, turning OFF the latching source components. Power OFF IR commands for turning OFF the IR controlled shared source components are also issued.

Method 3. Integrated Home Theater without 12V Home Theater Sync and using Niles R-4 Commands

The Home Theater IR Remote (programmed with the Niles R-4 IR commands) sends IR commands to the ZR-4630 via the IR Input located on the rear panel. This enables control of the shared source components for users in the Home Theater.

All the actual IR commands for shared source components are programmed into the ZR-4630. When a Niles IR command is received, the corresponding programmed source IR commands are sent to the Flasher Output dedicated to the shared source component that is selected (i.e., Source 2 = Flasher 2, Source 3 = Flasher 3, Source 4 = Flasher 4). Identical source components can be individually operated with this method.

Important Note: shared source components that are unique in the system may have their actual IR commands programmed into the Home Theater remote and issued for simple IR repeating using this method.

When the Home Theater is turned OFF, the Home Theater Remote sends a Niles OFF command to the

ZR-4630.

The ZR-4630 then checks all zones, for all ZR-4630’

s in the system. If all zones are OFF

, the 12V Control Output shuts OFF, turning OFF the latching source components. Power OFF IR commands for the IR controlled shared source components, programmed into the ZR-4630 are also issued conditionally, based on the Source Sync status of the shared source components.

SYSTEM BUSY INDICATION

he ZR-4630 has a built-in System Busy Indication mode that is display

ed on the Master Key LEDs of the Solo Master Keypad Module. If the ZR-4630 receives simultaneous commands from two different users and each user is located in a separ

ate zone, the user w

ho does not get the expected response will be alerted b

y the Master Key. That Master Key LED will quickly blink RED three times. The user who received the RED flashing Master Key simply issues their command again.

eys also cause the system to indi

Important Note: IR commands and delays included in the sequence for Master

cate busy while they are being executed.

TION

GING INDIC

The ZR-4630 has a built-in Paging Indication mode that is displayed on a Master Key LED of the Solo™Master Keypad Module. If the ZR-4630 sends a page to a zone, the user is alerted by the Master Key. That Master Key LED will blink slowly GREEN. The Master Key LED resumes its last state (ON or OFF) when the page is completed.

™

Important Note: P

aging takes priority o

er all system functions until the page has ended.

Page 44

INSTALLATION

PLACEMENT

Place the ZR-4630 on a flat, level surface such as a table or shelf, with its weight equally distributed on each of its four feet. Placing the weight of the amplifier on the rear or front panel for even an instant will result in damage to the amplifier's connectors and controls.

Like any high-fidelity component, the ZR-4630 will last much longer if it is given adequate ventilation for proper cooling. When installing the ZR-4630 in a cabinet, be sure that the cabinet’s rear is open to receive fresh air in order to provide proper cooling (see Figure 28). If the cabinet’s design does not accommodate an open rear, install two small “boxer fans” to provide continuous airflow into and out of the cabinet (see Figure 29). Place the ZR-4630 so it has at least seven inches of free air space above it. If the amplifier is located on a carpeted surface, place a board under the amplifier’s feet. Do not block the ventilation holes on the top and bottom of the ZR-4630.

Figure 28

oxer Fan (55 CFM)

irectly centered 7” on

op of the ZR-4630.

oxer Fan (55 CFM)

irectly centered 2”

behind the ZR-4630.

Make sure that there is a minimum of 7” of free air space above the amplifier and 3” on each side for proper ventilation.

Allow a minimum of 2” of depth behind unit t and connectors.

o accommodate cables

CAUTION! impedance speaker loads (less than 8 ohms Nominal) refer to Figure 29 for proper placement.

When using low-

CONNECTIONS

Speaker Wire Connections

CAUTION! All speaker wire connections must be made with the amplifier OFF.

Figure 29

If the cabinet rear is not open to fresh air or if you’re using

w-impedance loads

lo continuous air flow into and out of the cabinet.

Banana Plugs

There are many types of banana plugs available. Some are crimped onto the speaker wire and some are soldered.Niles offers banana plugs that

e a quic

hav speaker wire included within the banana plug itself. After the wire is attached, the banana plug is simply inserted into the hole at the end of the amplifier's speak the binding posts.

er binding post.

all two “boxer fans” to provide

, inst

k-connect binding s

ual banana plugs will fit

stem for the

Bare Wire

lack plas-

ed or b

w the r

Unscr tic knobs and insert the bare wire through the hole in the post. Tighten the knob until the

y clamped.

e is secur

wir

igur

e 30

Page 45

CONNECTIONS

1234

Pair 2

Pair 1

T568A

Pair 3 Pair 4

5678

Solo

™

Master

Keypad Module

Numeric

™

Accessory

Keypad Module

RJ-45 Connector for connection to Master Keypad Module

RJ-45 Connector for connection to Numeric Accessory Keypad Module

RJ-45 Connector for connection to IR Sensors

RJ-45 Connector for

connection to

the ZR-4630

Included

Jumper Cable

IR SENSOR

INPUT

OUTPUT

SYSTEM

ACCESSORY

KEYPADS

TERMINATING FOUR-PAIR TWISTED CABLE

The Solo™Master Keypad Modules, the Expander, and the ZR-4630’s System Expansion connections require a four-pair twisted cable with a one-to-one wiring configuration. To maintain consistency throughout all Intellipad Ci installations, we recommend the color-coding pattern described in Figure 31. However, you may follow the color-coding pattern of your choice, as long as it is used consistently throughout the system.

1 = Green/White 2 = Green 3 = Orange/White 4 = Blue 5 = Blue/White 6 = Orange 7 = Brown/White 8 = Brown

CONNECTING NUMERIC

Each Solo™Master Keypad Module can be mated with one optional Numeric using an included jumper cable (see Figure 33).

Figure 32

™

KEYPADS

™

Accessory Keypad Module

Figure 31

CONNECTING THE SOLO™MASTER KEYPADS TO THE HOME RUN OF FOUR-PAIR TWISTED CABLE

The home run of four-pair twisted cable is terminated with a male RJ-45 connector and plugged into the rear panel jac on the Solo

™

Master K

eypad Module (see Figure 32).

Figure 33

k labeled SYSTEM

Page 46

CONNECTIONS

T568A

1 = Blue/White - 12V 2 = Green - DATA 3 = Orange/White - GROUND 4 = Green/White - EMPTY 5 = Blue/White - STATUS 6 = Orange - EMPTY 7 = Brown/White - EMPTY 8 = Brown - EMPTY

EYPAD

CCESORY

IR SENSOR SYSTEM

AT 5 Cable

WS-100 Solo Master

CONNECTING IR SENSORS

An IR sensor can be connected to a Solo™Master Keypad Module with a CAT 5 cable. See Figure 34 for wiring instructions employing T568A architecture.

onnecting IR Receivers

Figure 34

Page 47

CONNECTIONS

2 34 56789

14 1513 16 17

2 34 56789

SOURCE-COMPONENT POWER AND HOME THEATER SYNCHRONIZATION SIGNALS

1. Video Synchronization from a Source Component

to a ZR-4630 Sync Input

An RCA Y-adapter is used to split the video output of a source component for connection to one of the three

ce Sync Inputs of the ZR-4630 (2, 3, or 4). One side

Sour of the RCA Y-adapter connects to the appropriate Source Sync Input and the other side connects to the intended destination for the video signal (i.e., the video input of a TV, receiver or RF modulator).

The need for an RCA Y-adapter can be avoided if your

video source has two video outputs. One video output connects to a Source Sync Input and the other to the intended destination of the video signal.

Important Note: Source Sync Inputs are designed with high-input impedances so as not to affect the quality of the video signal w

hen using an RCA Y-adapter.

2. Voltage Sync from a Source Component to a ZR-4630 Sync Input

When obtaining a 12V sync signal from a source compo-

nent (refer to the Source Po this manual for more information), a Niles Accessory Cable (FG00724) connected to a Radio Shack 274-326 mini-plug to male RCA adapter provides proper connection to any of the three Source Sync Inputs.

12V Home

he 12V Home

Theater Sync to Home Theater Sync Input

plug to the Home Theater Sync Input.

KEYPAD MODULES

4. Keypads to Keypad Inputs for Zones 1-6

-pair twisted cable, terminated with male RJ-45

our

F plugs, connects the keypads to the zoned Keypad Inputs (for more information on Terminating Four-Pair Twisted Cable, refer to page 44).

Figure 37

wer Synchronization section of

heater sync signal connects with a mini-

Page 48

CONNECTIONS

2 3

456789

14 1513 16 17

SYSTEM EXPANSION

5. System Expansion Input to System Expansion Output

Four-pair twisted cable, terminated with male RJ-45 plugs, connects multiple ZR-4630's using the System Expansion Input and Output terminals. Connections are made from the Input of one of the ZR-4630's to the Output of another, and so on (for more information on Terminating Four-Pair Twisted Cable, refer to page 44).

1. AM Loop Antenna

The included AM Loop Antenna connects with its bare-

wire ends to the spring-loaded terminals labeled AM and GND. The antenna is then positioned and mounted for proper reception.

SOURCE-COMPONENT AUDIO SIGNALS

1. Audio Output of Source Components to the ZR-4630

Male-to-male RCA Audio Cables connect the three exter-

IR FLASHERS

6. Low-Output Flasher to the Flasher Outputs

The mini-plug end of a Niles Low Output MicroFlasher™,

Model MF-1 (FG01019), connects into the Flasher Outputs 2-4. The Micro-Flasher portion is placed directly over the IR sensor of the corresponding source component (Source 2 for Flasher 2, Source 3 for Flasher,

nal audio sources.

TELEPHONE PAGING

1. Paging Output of Telephone System to ZR-4630

age Input

A male-to-male RCA Audio Cable connects the paging

output of a telephone system to the ZR-4630. Source 4 for Flasher 4) and adheres with the included peel-back tape.

7. High-Output Flasher to the Flasher Outputs

The mini-plug end of a Niles High Output Flasher, Model

IRB-1 (FG01023), connects to the Flasher Output labeled ALL. The IRB-1 is strategically positioned to provide IR transmission to all source components and adheres with its included Velcro mounting system.

HOME THEATER CONTROL SYSTEM

8. IR Output of a Home Theater Control System to the IR In

PREAMPLIFIER ZONE OUTPUTS

1. Zones 1-6 (4-6 set to Variable Mode)

Male-to-male RCA Audio Cables connect Zone Outputs

1-6 to an external amplifier for more power in a zone

(refer to System Configurations 8 & 9 for more details).

1. Zones 4-6 Set to Fixed Mode

Male-to-male RCA Audio Cables connect Zone Outputs

4-6 (set to fixed output mode) to an external amplifier for

more rooms in a zone (refer to Configuration 10 for more

details).

The mini-plug end of a Niles Accessory Cable (FG00724)

connects a Home Theater Control System to the IR Input.

12V CONTROL SIGNALS

9. 12V Control Output to a Voltage Triggered Device

he mini-plug end of a Niles Accessory Cable (FG00724)

connects the 12V Control Output to the Trigger Input of a voltage-activated device (i.e., Niles AC-3).

AM/FM ANTENNAS

1. FM Dipole Antenna

The included FM Dipole Antenna connects to the female

SPEAKERS

1. Zones 1-6

Connects speaker wires from the speakers placed in the

listening zones.

AC POWER

1. Removable AC Power Cord

C power cord (included with the ZR-4630)

able A

he remo

v connects to the removable power-cord socket and to an AC power outlet.

75-Ohm coaxial connector labeled FM on the chassis. The antenna is then positioned and mounted for proper reception.

Page 49

CONNECTIONS

Four Pair Twisted Cable

AUDIO VIDEO

DSS

PHONE

DIGITAL

UDIO VIDEO

DVD

DIGITAL

RECEIVER

UDIO

DVD

ideo 3

ideo 2

ideo 1

IDEO

FRONT

L R

IGITAL

1 2

ENTER

REAR

L R

Distributed Equipment Location

IRSENSOR SYSTEM

CCESSORY

KEYPADS

3-30V AC/DC STATUS

1 = STATUS

4 = 12V DC

= DATA 3 = GROUND

Niles MSU250

(provided for IR control

of local equipment)

Zone 6 – Master Bedroom

Niles

WS100R

Solo

™

Master

Keypad Module

RJ-45 Connector for connection to IR Sensors

Two Conductor Shielded Cable (connect DATA and GND only)

RJ-45 Connector for

connection to

the ZR-4630

CONNECTING AN IR SENSOR FOR LOCAL SYSTEM CONTROL

IR Sensors installed in zones for hand-held IR remote control of the ZR-4630 and its source components can also be used to control local components (i.e., a TV, DSS, DVD, and a surround-sound system located in the master bedroom zone as shown in figure 38).

The IR Sensor connects normally to the Solo components. In addition, the IR Sensor connects to a local IR repeating system (DATA and GND connections only), to provide control of local components.

™

Master Keypad to control the ZR-4630 and its connected source

Figure 38

Page 50

CONNECTIONS

CONNECTING AN A/B AMPLIFIER SWITCH FOR LOCAL SYSTEM SELECTION

A Niles SPK-1 Voltage Activated Speaker Level A/B Switcher connects to both the ZR-4630 and a local system to provide sound from each system to the same speakers located in a single zone. The local system only connects to the speakers when the local system is turned on. The Niles ZR-4630 connects to the speakers by default when the local system is off.

In Figure 39, the Zoned Speaker Output of the ZR-4630 connects to the "A" side of the SPK-1. The Main Speaker Output of the local system connects to the "B" side of the SPK-1. In addition, a 12V DC power adapter (Niles FG00665) is plugged into a switched AC outlet of the local system to activate the SPK-1.

Figure 39

Page 51

PROGRAMMING OVERVIEW

INSTALLER PROGRAMMING PANEL

IR commands needed for control of connected external source-components are programmed into the ZR-4630’s program memory using the hidden programming controls on the front panel (see figure 42).

Hidden Installer

Programming Panel

Figure 42

Source Components

IR Remote Control

Niles hand-held

R-4 Remote Control

(supplied with the ZR-4630)

amming is accomplished using the hidden panels push buttons and LED prompts along with sending IR

Progr

(supplied by manufacturer)

commands with both the Niles remote and the remotes supplied with the source components. For complete information on the ZR-4630’s step-by-step programming procedure, refer to the Programming Steps section of this manual.

PROGRAMMING DOCUMENTATION

Documenting the ZR-4630’s programming is critical prior to executing the programming procedure. Program documentation enables y

ou to accomplish programming quickly and accurately, and provides a record of the

configuration for future reference. Programming Worksheets are provided in this manual (see the Programming

orksheet section) to document all system configur

W Note: Use a pencil w

hen documenting. If you need additional sheets, make photocopies.

ation progr

amming, including IR commands and sequences.

Page 52

PROGRAMMING OVERVIEW

ZR-4630 Programming Worksheet

A completed Tuner and Zone Label Programming Worksheet is required for each ZR-4630 installed in a system. The programming information that should be included is detailed in figure 43.

Mr. Smith Joe Installer

Document the customer’s name. Document the system designer’s name.

Document the Master, Slave 1, or Slave 2 setting. Document the Labels used for the Zone Label slots.

Kitchen

620 830

910 1010 1050

Document the AM and FM Presets stored in the Tuner Memory.

Patio Jacuzzi Exercise Bedroom Terrace

1070 1090 1110 1140 1160

93.9

94.9

96.5

100.7

102.3

103.5

104.7

105.1

106.5

107.9

FM Fav

Document the Tuner Sequence.

There are DIP switches on the fr determine which zones will be enabled to the ALL tures.

Check the ones that have been enabled to the ALL-ON/PAGE feature.

ont panel t

-ON and P

AGE fea-

Document the numeric value

or each v

igur

olume set

e 43

ting

Document the amplifier to which the preamp outputs ar (i.e., fixed or variable for zones 4, 5, and 6).

e connect

ed, and the mode select

Page 53

PROGRAMMING OVERVIEW

ZR-4630 Source-Component Programming Worksheet

A completed source-component Programming Worksheet is required for each source-component included in the system. The programming information that should be included is detailed in figures 44, 45, and 46.

Mr. Smith Joe Installer

Document the customer’s name.

Document the system designer’s name.

2DVD

Document the number of the Master Key Document the label used for the Master Key

(i.e., source component, music category, or

DSS/Radio Station, etc.)

Document the brand and model number of the source component that is associated with the Master Key

DVD-2800

Denon

Document if the source-component is connected to a

sync input. If yes, document the sync type

Document the type of activation

the source component requires

Figure 44

Page 54

PROGRAMMING OVERVIEW

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND FUNCTION KEY/BUTTON SOURCE IR COMMAND

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND FUNCTION KEY/BUTTON SOURCE IR COMMAND

Function Keys/Buttons Programming

Figure 45 depicts the section of the Programming Worksheet that corresponds to the source-component function key/button programming. Each programmed source component has one worksheet filled out specifying what particular IR commands have been programmed and to which function key/button they have been assigned.

Play

Stop

Pause

Rewind

Fast Forward

Pause

Next Chapter Last Chapter

1 2 3 4 5 6 7 8 9 0

Random

Document the IR commands in their function key/button locations

amming

Sequence Pr

ogr

Next Chapter Last Chapter

Figure 45

Figure 46 depicts the section of the Programming Worksheet that corresponds to the Sequence programming.

h progr

Eac delays have been programmed to the Master Keys Sequence.

ammed source component has one worksheet filled out specifying what particular IR commands and

Play Play

Document the IR C

ommands and Delay

s included in the Sequence

igure 46

Page 55

PROGRAMMING OVERVIEW

PROGRAMMING A LEARNING REMOTE FOR ZONE OPERATION

Learning remote controls can be taught the IR commands of the Niles R-4 Remote to provide individual zone operation. These IR commands operate the ZR-4630 and its associated source components from any zone equipped with an IR Sensor.

Important Note: IR Sensors cannot operate a zone when used alone. They must be installed and connected to a Solo

™

Master Keypad Module.

The commands you will teach from the Niles R-4 Remote to the learning remote are stored in the following buttons:

1. Source buttons Tuner, 2, 3, and 4. These acti-

vate the system, turn the zones on, and select the desired source. The Tuner button always selects the built-in tuner.

2. Function buttons to issue the IR commands

for each of the individual source components.

3. Volume and mute buttons to control the vol-

ume in a zone.

4. The Off button to turn off the zones. To teach these commands, simply take the learn-

ing remote that you will be using in the zone, set it to the learning mode, choose the appropriate key on the learning remote, and then issue the appropriate command from the Niles R-4 Remote. Repeat these steps for the remaining commands y

ou wish to use.

Learning

Remote Control

Niles hand-held

R-4 Remote

o test the commands, set the Niles remote aside,

T take your learning remote, and try the commands.

If they were captured correctly

ou will be oper

, y

Figure 47

ing the system and all the source components identically to the Niles R-4 Remote.

PROGRAMMING A HOME THEATER REMOTE CONTROL TO OPERATE SOURCE COMPONENTS SHARED WITH A ZR-4630

A learning remote control operating a home theater system can be programmed to operate source components shared with the ZR-4630 (refer to System Configurations 4 and 5).

The learning remote control may be programmed with the source component's factory IR commands using the ZR-4630's IR Repeating feature (see Method 1), or it can be programmed with the Niles R-4 Remote Control IR commands (see Methods 2 & 3).

Page 56

PROGRAMMING OVERVIEW

Method #1– Controlling Shared Source Components with IR Repeating and 12V Home Theater Status

When using IR Repeating, IR programming for the source components can be accomplished by programming the actual IR commands from the source component’s included remote control into the Home Theater learning remote control. An IR output of the IR repeating or control system for the Home Theater is connected to the IR Input of the Master ZR-4630. All the IR commands sent from the Home Theater are then passed through to all IR Flashers connected to the ZR4630 for control of source components.

Important Note: If you have source components that require an IR command to be turned on and they are not provided with a separate ON and a separate OFF IR command from their included remote controls, or if you have two or more shared source components that are an identical br

All the IR command programming of the Home Theater learning remote control is done in the standard way using the actual remote controls for the shared source components, with for the shared source components is not taught to the learning remote oper ON IR commands are taught for the shared source components turned ON and OFF via IR commands. IR commands for the shared sour programmed into the ZR-4630, which is responsible for turning these components OFF when all ZR-4630 zones and the home theater are OFF.

Method #1 requires a 12V DC system status signal

vided from the Home Theater system to the Home

pro

heater Sync Input of the Master ZR-4630.

T the ZR-4630 to “know” whether the Home Theater is actually ON or OFF and pro nents’ OFF commands at the appropriate time.

The IR programming for the actual Home Theater

er/processor is not affected w

recei components using this method and is done in conjunction with programming described.

Method #2 – Controlling Shared Source Components with Niles R-4 Commands and 12V Home Theater Status

A second method of programming a Home Theater remote control is av components are identical and/or they have a single

wer ON/OFF IR command.

and and model, refer to Method #2.

one exception. The OFF IR command

ating the home theater. Only the

The OFF

ce components are

This allows

vide the sour

hen sharing sour

ailable when the shared source

ith this method, you

ce compo

teach the Niles R-4 Remote Control IR commands to the Home Theater learning remote, rather than the IR commands from the remote controls included with the shared source components.

You teach the Home Theater learning remote control the R-4 IR commands issued from Source Buttons 2, 3, 4, and all other commands (excluding Tuner, Volume +, Volume –, Mute, and OFF). Sending a Niles Source Button IR command from the Home Theater tells the ZR-4630 receiver the Home Theater is turning on and which source it is selecting. Synchronized source components corresponding to the source button pressed are then turned ON, if not already ON.

inally, the ZR-4630 issues the sequence that is pro-

F grammed for that source component.

After the Master ZR-4630 receives a Source Button IR command and it knows whic will then issue the programmed IR commands for that source component when function-key IR commands are received from the Home Theater.

Identical shared sour individually using this method via the IR routing feature of the ZR-4630 (refer to Identical Source Components in the Operational Overview Section).

Method #2 requires a 12V DC system status signal provided from the Home Theater system to the Home Theater Sync Input of the Master ZR-4630. This allows the ZR-4630 to “kno actually ON or OFF and pro nents’ OFF commands at the appropriate time.

The IR programming for the actual Home Theater

er/processor is not affected w

recei components with this method and is done in conjunction with the programming described.

Important Note: T OFF command to the Home Theater learning remote control when using Method #2. As in Method #1, when

heater turns off, the

ome

the from the ZR-4630 Receiver and it now “knows” that the Home Theater turned off. It will then check if there are any other zones on the ZR-4630 active before it turns off the shared sour

ce components are operated

w” whether the home theater is

here is no need to teac

ce components.

h source is selected, it

vide the sour

hen sharing sour

2V signal is remo

ce compo-

h the Niles

Page 57

PROGRAMMING OVERVIEW

Method #3 – Controlling Shared Source Components with Niles R-4 Commands and without 12V Home Theater Status

A third method of programming is available in situations where a 12V DC status signal is not available from the Home Theater. With this method, you must teach some of the Niles R-4 Remote Control IR commands to the Home Theater learning remote.

The minimum requirement is to program the learning remote with Niles commands from Source Buttons 2, 3, or 4, and the OFF Button IR commands. Whenever the Master ZR-4630 receives a source-button IR command from the Home Theater, it will turn on the source component, if needed, and it will also kno Theater Zone is turning on and what source component is selected. Whenever the Master ZR-4630 receives an OFF Button IR command from the Home Theater, it will

w that the Home Theater is turning OFF.

kno To operate the Shared Source Components follow the

criteria specified in Method #1 and Method #2, to select the most appropriate way to operate for your system. You can program the Home Theater's learning remote with either the components' IR commands or with Niles function button commands w method.

w that the Home

hen using this

Important Note: You must teach the Niles OFF IR command to the trol and issue it every time you turn the Home Theater off when using Method #3. When the OFF IR command is received by the ZR-4630 Receiver, it “knows” that the Home Theater turned off. It will then check for

y active zones on the ZR-4630 before it turns off the

an shared sour

Home

ce components.

Theater learning remote con-

Page 58

PROGRAMMING WORKSHEET

JOB TITLE

UNIT MODE AND ZONE LABELS (CHOOSE ONLY ONE: A, B OR C)

o (A) MASTER

1 62 3 4 5

o (B) SLAVE 1

7 128 9 10 11

o (C) SLA

TUNER PRESETS

VE 2

13 1814 15 16 17

1 _______________ 2 _______________ 3 _______________

6 _______________ 7 _______________ 8 _______________

SYSTEM DESIGNER

1 _______________ 2 _______________ 3 _______________

6 _______________ 7 _______________

8 _______________ 4 _______________ 5 _______________

TUNER SEQUENCE

STEP TUNER COMMAND STEP TUNER COMMAND

1 2

3 4 5

ON/PAGE

ALL

ZONE ALL ON / P

1 2

3 4 5 6

o o o o o o

AGE

9 _______________

10 _______________

VOLUME

MAX VOLUME ________

PAGE VOLUME ________

Note: Volume Settings affect

SETTINGS

ON VOLUME ________

all Zones.

4 _______________ 5 _______________

6 7

8 9

PREAMP OUTPUTS *Zones 1-3 are variable only.

AMP FIXED/VARIABLE

1 2

3 4

5 6

9 _______________

10 _______________

* * *

/ / /

Page 59

PROGRAMMING WORKSHEET

JOB TITLE

UNIT MODE AND ZONE LABELS (CHOOSE ONLY ONE: A, B OR C)

o (A) MASTER

1 62 3 4 5

o (B) SLAVE 1

7 128 9 10 11

o (C) SLA

TUNER PRESETS

VE 2

13 1814 15 16 17

1 _______________ 2 _______________ 3 _______________

6 _______________ 7 _______________ 8 _______________

SYSTEM DESIGNER

1 _______________ 2 _______________ 3 _______________

6 _______________

7 _______________

8 _______________ 4 _______________ 5 _______________

TUNER SEQUENCE

STEP TUNER COMMAND STEP TUNER COMMAND

1 2

3 4 5

ON/PAGE

ALL

ZONE ALL ON / P

1 2

3 4 5 6

o o o o o o

AGE

9 _______________

10 _______________

VOLUME

MAX VOLUME ________

PAGE VOLUME ________

Note: Volume Settings affect

SETTINGS

ON VOLUME ________

all Zones.

4 _______________ 5 _______________

6 7

8 9

PREAMP OUTPUTS *Zones 1-3 are variable only.

AMP FIXED/VARIABLE

1 2 3 4 5 6

9 _______________

10 _______________

* * *

/ / /

Page 60

PROGRAMMING WORKSHEET

JOB TITLE

UNIT MODE AND ZONE LABELS (CHOOSE ONLY ONE: A, B OR C)

o (A) MASTER

1 62 3 4 5

o (B) SLAVE 1

7 128 9 10 11

o (C) SLA

TUNER PRESETS

VE 2

13 1814 15 16 17

1 _______________ 2 _______________ 3 _______________

6 _______________ 7 _______________ 8 _______________

SYSTEM DESIGNER

1 _______________ 2 _______________ 3 _______________

6 _______________

7 _______________

8 _______________ 4 _______________ 5 _______________

TUNER SEQUENCE

STEP TUNER COMMAND STEP TUNER COMMAND

1 2

3 4 5

ON/PAGE

ALL

ZONE ALL ON / P

1 2

3 4 5 6

o o o o o o

AGE

9 _______________

10 _______________

VOLUME

MAX VOLUME ________

PAGE VOLUME ________

Note: Volume Settings affect

SETTINGS

ON VOLUME ________

all Zones.

4 _______________ 5 _______________

6 7

8 9

PREAMP OUTPUTS *Zones 1-3 are variable only.

AMP FIXED/VARIABLE

1 2 3 4 5 6

9 _______________

10 _______________

* * *

/ / /

Page 61

PROGRAMMING WORKSHEET

JOB TITLE

UNIT MODE AND ZONE LABELS (CHOOSE ONLY ONE: A, B OR C)

o (A) MASTER

1 62 3 4 5

o (B) SLAVE 1

7 128 9 10 11

o (C) SLAVE 2

13 1814 15 16 17

TUNER PRESETS

1 _______________ 2 _______________ 3 _______________

6 _______________ 7 _______________ 8 _______________

SYSTEM DESIGNER

1 _______________ 2 _______________ 3 _______________

6 _______________

7 _______________

8 _______________ 4 _______________ 5 _______________

TUNER SEQUENCE

STEP TUNER COMMAND S

1 2

3 4 5

ALL ON/PAGE

ZONE ALL ON / PAGE

1 2

3 4 5 6

o o o o o o

9 _______________

10 _______________

VOLUME SETTINGS

ON VOLUME ________

MAX VOLUME ________

PAGE VOLUME ________

Note: Volume Settings affect

all Zones.

4 _______________ 5 _______________

TEP TUNER COMMAND

6 7

8 9

PREAMP OUTPUTS *Zones 1-3 are variable only.

AMP FIXE

_________________

9 _______________

10 _______________

VARIABLE

* * *

/ /

Page 62

SOURCE COMPONENT PROGRAMMING WORKSHEET

JOB TITLE

CHOOSE MASTER KEY

MASTER KEY NUMBER (2, 3, 4): ___________

PROGRAM SOURCE COMPONENT POWER

SYSTEM DESIGNER

MASTER KEY LABEL: ____________________

COMPONENT

BRAND: __________________________________ MODEL: ____________________________

COMPONENT SYNC

o Yes o No

If Yes, SYNC TYPE: o Video o 12 V

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND

Play Stop

Pause

Rewind <<

FF>>

Arrow Up

Arrow Down

Arrow Right

Arrow Left

M G

P Surf + Surf –

WER PROGRAMMING

o Single “Power” IR Command o Two Separate ON and OFF IR Commands o Latching Power

FUNCTION KEY/BUTTON SOURCE IR COMMAND

1 2 3 4 5 6 7 8 9 0 – +

andom

oup

Disc

Fav

PROGRAM SEQUENCE

TEP

SOURCE IR COMMAND

1 2 3 4 5

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

TEP

6 7 8 9

SOURCE IR COMMAND

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

Page 63

SOURCE COMPONENT PROGRAMMING WORKSHEET

JOB TITLE

CHOOSE MASTER KEY

MASTER KEY NUMBER (2, 3, 4): ___________

PROGRAM SOURCE COMPONENT POWER

SYSTEM DESIGNER

MASTER KEY LABEL: ____________________

COMPONENT

BRAND: __________________________________ MODEL: ___________________________

COMPONENT SYNC

o Yes o No

If Yes, SYNC TYPE: o Video o 12 V

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND

Play Stop

Pause

Rewind <<

FF>>

Arrow Up

Arrow Down

Arrow Right

Arrow Left

M G

P Surf + Surf –

WER PROGRAMMING

o Single “Power” IR Command o Two Separate ON and OFF IR Commands o Latching Power

FUNCTION KEY/BUTTON SOURCE IR COMMAND

1 2 3 4 5 6 7 8 9 0 – +

andom

oup

Disc

Fav

PROGRAM SEQUENCE

TEP

SOURCE IR COMMAND

1 2 3 4 5

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

TEP

6 7 8 9

SOURCE IR COMMAND

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

Page 64

SOURCE COMPONENT PROGRAMMING WORKSHEET

JOB TITLE

CHOOSE MASTER KEY

MASTER KEY NUMBER (2, 3, 4): ___________

PROGRAM SOURCE COMPONENT POWER

SYSTEM DESIGNER

MASTER KEY LABEL: ____________________

COMPONENT

BRAND: __________________________________ MODEL: ___________________________

COMPONENT SYNC

o Yes o No

If Yes, SYNC TYPE: o Video o 12 V

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND

Play Stop

Pause

Rewind <<

FF>>

Arrow Up

Arrow Down

Arrow Right

Arrow Left

M G

P Surf + Surf –

WER PROGRAMMING

o Single “Power” IR Command o Two Separate ON and OFF IR Commands o Latching Power

FUNCTION KEY/BUTTON SOURCE IR COMMAND

1 2 3 4 5 6 7 8 9 0 – +

andom

oup

Disc

Fav

PROGRAM SEQUENCE

TEP

SOURCE IR COMMAND

1 2 3 4 5

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

TEP

6 7 8 9

SOURCE IR COMMAND

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

Page 65

SOURCE COMPONENT PROGRAMMING WORKSHEET

JOB TITLE

CHOOSE MASTER KEY

MASTER KEY NUMBER (2, 3, 4): ___________

SYSTEM DESIGNER

MASTER KEY LABEL:

____________________

PROGRAM SOURCE COMPONENT POWER

COMPONENT

BRAND: __________________________________ MODEL: __________________________

COMPONENT SYNC

o Yes o No

If Yes, SYNC TYPE: o Video o 12 V

PROGRAM FUNCTION KEY IR COMMANDS

FUNCTION KEY/BUTTON SOURCE IR COMMAND

Play Stop

Pause

Rewind <<

FF>>

Arrow Up

Arrow Down

Arrow Right

Arrow Left

M G

P Surf + Surf –

WER PROGRAMMING

o Single “Power” IR Command o Two Separate ON and OFF IR Commands o Latching Power

FUNCTION KEY/BUTTON SOURCE IR COMMAND

1 2 3 4 5 6 7 8 9 0 – +

andom

oup

Disc

Fav

PROGRAM SEQUENCE

TEP

SOURCE IR COMMAND

1 2 3 4 5

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

TEP

6 7 8 9

SOURCE IR COMMAND

DELAY

FUNCTION KEY/BUTTON or

DELAY TIME

Page 66

INSTALLATION SETTINGS

123456

Down

ALL ON/PAGE DIP SWITCH SETTINGS

There are six All ON/PAGE switches located on the hidden programming panel of the ZR-4630. Each of the ZR-4630's zones has a corresponding numbered switch (see Figure 40). The switches enable (Up) or disable (Down) the individual zones from responding to ALL ON commands and incoming audio pages.

Note: A page will not play through a Zone that has been disabled if the zone is OFF. A page will play through any Zone that is turned ON, even if the Dip Switch is set to the disabled position.

FIXED/VARIABLE PREAMPLIFIER SWITCH

Zones 4, 5, and 6 include a Fixed/Variable preamplifier switch (see Figure 41) located on the rear panel of the ZR-4630. The switch for these zones is set to either Variable or Fixed depending on the configuration of the speakers in the zone (see Configurations 8, 9, and 10 for more details).

PROGRAMMING MASTER/SLA

The factory default mode of the ZR-4630 MultiZone Receiver is "Master," but it can also be programmed to function as "Slave 1" or "Slave 2" in expanded systems (refer to System Configuration 2). To change the mode of any unit, follow the steps below:

1. Turn the ZR-4630 OFF.

2. Depress the PROGRAM button.

3. Turn the ZR-4630 ON and keep the PROGRAM button depressed.

4. The ZR-4630 then displays a message on the LCD Display Panel for 2 seconds, identifying its version ("Ver X.XX").

5. The ZR-4630 then displays a new mode, either "Master," Slave 1," or Slave 2.” Which mode is selected

depends on the last setting (i.e., if the last mode w "Slave 1,” it will display "Slave 2.” And if the last mode was "Slave 2," it will display "Master").

6. Release the PROGRAM button. Unit is no

7. Repeat Steps 1 through 6 until the ZR-4630 is in the desired mode.

VE MODE

as of "Master

w set to a new mode.

," it will display "Slave 1.” If last the mode was

Figure 41

ALLING ZONE LABELS

INST

Each ZR-4630 is included with pre-printed Zone/Room Labels that are designed to be placed in the Zone Label Slots (see Figure 42) to identify the names of each of six zones. To install these labels follow the steps below:

e the label c

1. Remo

2. Affix the label in Zone Label Slot #1.

3. Repeat steps 1 and 2 for Zones 2 through 6.

Room/Zone Labels.

hosen for Zone 1 from the included

BEDROOM

Figure 42

Page 67

INSTALLATION SETTINGS

PROGRAMMING ZONE LINKING

The ZR-4630 has a feature called Zone Linking. Zone Linking allows the Installer to permanently link several Zones/Rooms into one group. To Link together a group of Zones/Rooms, follow the steps below:

1. Press and Hold the PROGRAM button for two seconds.

The Enter IR LED lights RED, the Program LED lights RED, the Source 2 LED lights RED and the Power/ON LED blinks RED. The LCD display shows “PGM SRC2”.

2. Press the AM/FM button 6 times until “ZL” appears on the LCD display.

3. The Numeric Buttons on the front panel represent the zones you just labeled with the Zone/ Room Labels. “The number 1 button” represents labeled Zone 1; “The number 2 button” represents Zone 2, etc…

Press the Numeric Buttons corresponding to the Zones/Rooms you want to link together. Zone numbers appear on LCD to show inclusion in the group.

4. To remove a Zone/Room from the group, simply press the Numeric Button again.

Important Note: You can link together one group of Zones/Rooms per chassis. You cannot link together

Zones/Rooms in different chassis.

KITCHEN

Figure 43

See Figure 43 Zone 1, 2 and 6 are now linked together as a group.

ZL12 6

Page 68

INSTALLATION SETTINGS

VOLUME SETTINGS

The ZR-4630 has three useful volume features with customizable settings. The following is a list of the three volume features along with their default values and a description of their purpose.

Maximum Turn ON and Source Change Volume Level

Maximum Turn ON and Source Change Volume prevents a zone from playing too loudly when it is first turned on or if the zone changes the currently selected source.

When a zone is turned ON individually, it will always turn ON to its last volume setting unless the zone's last volume setting is greater than the Maximum Turn ON and Source Change Volume Setting. When greater, the zone will turn ON to the Maximum Turn ON and Source Change Volume level set in the ZR-4630's memory.

When a zone selects a new source, the volume setting does not change unless the zone’s current volume setting is greater than the Maximum Turn ON and Source Change Volume Setting. When greater, the zone will change to the Maximum Turn ON and Source Change Volume level set in the ZR-4630's memory.

The factory default level for Maximum Turn ON and Source Change Volume is 45. It can be adjusted up or down using the steps belo

ALL ON Volume Level

When a System Wide ON command is issued, zones that are turned OFF turn ON to the ALL ON Volume Level set in the ZR-4630's memory (volume levels in zones that are already turned ON do not change during a System Wide On command). The factory default level for ALL ON Volume level is 22. It can be adjusted up or

wn using the steps below.

Page Volume Level

When a Page occurs, all zones produce the page at the Page Volume Level set in the ZR-4630's memory. The factory default value for PAGE Volume Level is 35. It can be adjusted up or down using the steps below.

Changing Step 1.

Step 2. Press the

Step 3. Press the Tune + button to increase MxVol or press the Tune - to decrease MxVol.

Step 4. Press the AM/FM button or NEXT button to advance to the next volume-setting feature (shown in the

Step 5. Press the PROGRAM button twice to exit progr

Volume Settings

Press and Hold the PROGRAM button for two seconds.

The Program LED lights RED, the Source 2 LED lights RED, Power/On LED Blinks RED, and the Enter IR

lights RED. The LCD display shows "PGM MODE"

AM/FM button.

The LCD display shows "MxVol 45"

"MxVol" is the Maximum Turn ON and Source Change Volume Level.

LCD Display) and repeat steps 3 and 4 for eac

amming.

Page 69

SYSTEM PROGRAMMING STEPS

PROGRAMMING THE SOURCE COMPONENTS

Step 1 - Press and hold the PROGRAM button

for two seconds.

Step 2 - If Source Two is turned ON/OFF with IR commands, go directly to If Source Two is not turned ON/OFF via IR Commands, press the twice and move ahead to Step 8.

Step 3 - Teach the POWER OR DISCRETE “ON” IR command from Sour control into the IR Sensor

NEXT button

Step 3.

wo’s factory remote

indow.

Three LEDs illuminate: ENTER IR, PROGRAM, and SOURCE 2.

Two LEDs illuminate: PROGRAM and SOURCE 2.

ENTER IR LED blinks once after the IR command

is received and remains illuminated.

The POWER OR DISCRETE “ON” LED blinks.

The IR COMMANDS LED blinks.

he POWER OR DISCRETE

T “ON” LED blinks.

Three LEDs are illuminated: ENTER IR, PROGRAM, and SOURCE 2.

Page 70

SYSTEM PROGRAMMING STEPS

Step 4 - You can test the IR command by pressing the TEST IR button. The source will operate if the command has

been taught correctly. If it does not, reteach the IR command until the source operates.

epositioning the remote control while reteaching can help to capture the command accurately.

Pressing the TEST IR button issues the last IR command taught.

Step 5 - Press the NEXT button once.

Three LEDs are illuminated:

ENTER IR, PROGRAM, and SOURCE 2.

Step 6 - If provided, teach the DISCRETE “OFF” IR com-

mand from Source Two’s factory remote control and test it as described in Step 4. If Source Two does not have a DISCRETE “OFF” IR command, go directly to Step 7.

The ENTER IR LED blinks once after the IR command is received and remains illuminated.

The

DISCRETE OFF LED blinks.

Three LEDs are illuminated: ENTER IR, PROGRAM, and SOURCE 2.

The DISCRETE OFF LED blinks.

Page 71

SYSTEM PROGRAMMING STEPS

tep 7 - Press the NEXTbutton once.

Step 8 - Issue a Niles Function Key/Button IR

command that will correspond to a Source IR command into the IR Sensor Window.

Two LEDs illuminate: PROGRAM and SOURCE 2.

The ENTER IR LED illuminates after the Niles Function Key/Button command is received.

Two LEDs are illuminated: PROGRAM and SOURCE 2.

The IR COMMANDS LED blinks.

Step 9 - Teach the corresponding IR command from Source Two’s factory remote control and test it as described in

until all IR commands for Sour

been taught.

Step 4. Repeat Steps 8 &

o have

The ENTER IR LED turns off after the command is received.

The IR COMMANDS LED blinks.

o LEDs are illuminated:

T PROGRAM and SOURCE 2.

Page 72

SYSTEM PROGRAMMING STEPS

tep 10 - Press the NEXTbutton once.

Step 11 - Press each Function Key/Button

that corresponds to each step of the Sequence you wish to program for Source Two in the same order they will occur.

Note: To insert delays, use the Volume – or + buttons. (Vol – = .5 sec., Vol + = 1 sec.)

Sequences can have up to 64 steps (commands and/or delays).

Three LEDs illuminate: ENTER IR, PROGRAM and SOURCE 2.

The ENTER IR LED blinks once when the Function Key/Button command is received.

Three LEDs illuminate: ENTER IR, PROGRAM and SOURCE 2.

The SEQUENCE LED blinks.

Step 12 - You have now completed the programming for Source Two. Press the NEXT button once.

hree LEDs illuminate:

T ENTER IR, PROGRAM, and SOURCE 3.

he POWER

“ON”

LED blinks.

DISCRETE

Page 73

SYSTEM PROGRAMMING STEPS

tep 13 - Repeat Steps 2-11to complete

he IR programming for Source Three.

Step 14 - You have now completed the IR

amming for Source Three. Press the

progr

NEXT button once.

Step 15 - Repeat Steps 2-11 to complete

the IR programming for Source Four.

Three LEDs illuminate: ENTER IR, PROGRAM, and SOURCE 3.

Three LEDs illuminate:

ENTER IR, PROGRAM, and SOURCE

The POWER OR DISCRETE

LED blinks.

“ON”

The POWER OR DISCRETE “ON” LED blinks.

Three LEDs illuminate: ENTER IR, PROGRAM, and SOURCE 4.

The POWER OR DISCRETE

“ON” LED blinks.

Page 74

SYSTEM PROGRAMMING STEPS

tep 16 - Press the NEXTbutton once.

Step 17 - Press each Function Key/Button

that corresponds to each step of the Sequence you wish to program for the Tuner in the same order they will occur.

Note: To insert delays, use the Volume – or + buttons. (Vol – = .5 sec., Vol + = 1 sec.)

Sequences can have up to 64 steps (commands and/or delays).

Three LEDs illuminate: ENTER IR, PROGRAM, and TUNER.

The ENTER IR LED blinks once when the Function Key/Button command is received.

Three LEDs illuminate: ENTER IR, PROGRAM, and TUNER.

The SEQUENCE LED blinks.

Step 18 - Press the PROGRAM button once to exit programming mode.

All LEDs illuminate and then they all turn off. (Some sour Home Theater are on after exiting the programming mode).

ce lights may remain on if a sour

ce component or the

Page 75

PROGRAM EDITING STEPS

SOURCE-POWER EDITING

These are the steps for editing the power ON/OFF commands for the source components.

Step 1. Press and Hold the Program button. The Program LED lights RED, the Source 2 LED lights

RED, Power/On LED Blinks RED, and the Enter IR lights RED.

Edit Power for Source 2: Continue editing from Step 2. Edit Power for Source 3: Tap the NEXT button until

the Source 3 LED lights RED, the Power/On LED Blinks RED, and the Enter IR lights RED. Continue editing from Step 2.

Edit Power for Source 4: Tap the NEXT button until the Source 4 LED lights RED, the Power/On LED Blinks RED, and the Enter IR lights RED

amming from Step 2.

gr Step 2. If the component has a single power IR command

for both ON and OFF pressing the power button on the component's factory remote.

If the component has a discrete ON and OFF command, teach the discrete ON command by pressing the ON button on the sour

, teach the power IR command by

ce component's remote control.

. Continue pro-

The Enter IR light blinks. Step 3. To test the command, press the TEST button. If

it does not operate the component as expected, teach and test the command again until it does.

Note: Repositioning the remote control when teaching the command can assist in capturing commands accurately.

Step 4. Tap the NEXT Button. The Power/ON LED turns OFF and the OFF LED Blinks RED.

Step 5. If the component has a single power command for both ON and OFF, press the NEXT button again and continue y

If the component has a discrete ON and OFF command, teach the discrete OFF command.

The Enter IR light blinks. Step 6. To test the command, tap the TEST button. If it

does not oper and test the command again until it does.

Note: Repositioning the remote control when teaching the command can assist in capturing commands accurately.

Step 7. Tap the program button to exit programming.

our programming of the system.

ate the component as expected, teach

IR COMMAND EDITING

These are the steps for editing the individual IR commands for control of the source components.

Step 1. Press and Hold the PROGRAM button. The Program LED lights RED, the Source 2 LED lights

wer/On LED Blinks RED, and the Enter IR

, the P

RED lights RED.

Edit IR Commands for Source 2: Tap the NEXT button until the Sour LED Blinks RED. Continue editing from Step 2.

Edit IR Commands for Source 3: Tap the NEXT button until the Sour LED Blinks RED. Continue editing from Step 2.

Edit IR Commands for Sour

until the Sour LED Blinks RED. Continue editing from Step 2.

ce 2 LED lights RED

ce 3 LED lights RED

ce 4 LED lights RED

, and the IR Commands

ce 4: Tap the NEXT button

, and the IR Commands

Step 2. Press a function button on the Niles hand held remote control that corresponds to the source-component IR command you wish to teach.

The Enter IR lights RED. Step 3. Using the source component's factory remote,

h the IR command.

teac The Enter IR LED turns OFF. Step 4. To test the command, press the TEST button. If

it does not operate the component as expected, repeat steps 2, 3 and 4 until it does.

Note: Repositioning the remote control when teaching the command can assist in capturing commands accurately.

Step 5. Repeat all steps until all the source-component IR commands hav

Step 6. T

ap the

e been taught.

PROGRAM

button to exit progr

amming.

Page 76

PROGRAM EDITING STEPS

SEQUENCE EDITING

These are the steps for programming the Sequences for control of the source components.

Step 1. Press and Hold the PROGRAM button. The Program LED lights RED, the Source 2 LED lights

RED, the Power/On LED Blinks RED, and the Enter IR lights RED.

Edit a Sequence for Source 2: Tap the NEXT button until the Source 2 LED lights RED, and the Sequence LED Blinks RED. Continue editing from Step 2.

Edit a Sequence for Source 3: Tap the NEXT button until the Source 3 LED lights RED, and the Sequence LED Blinks RED. Continue editing from Step 2.

STORING TUNER PRESETS Step 1.

Band Shift Button. Step 2. Locate the desired station for preset, using the

Station Scan Buttons.

Select the desired AM or FM band with the

Edit a Sequence for Source 4: Tap the NEXT button until the Source 4 LED lights RED, and the Sequence LED Blinks RED. Continue editing from Step 2.

Step 2. Press the keys on the Niles hand-held remote that correspond to the commands you wish to include in the sequence.

Note: Enter commands and delays in the order you wish them to occur, using the Volume – or + keys to include delays (Vol – = .5 sec, Vol + = 1 sec). As many as 64 commands and/or delays may be included. The Enter IR LED blinks when it receives a command.

Step 3. Press the PROGRAM button to exit programming.

Step 3. Press and hold the Preset Button (for more than

three seconds) where you wish to store the currently tuned station.

The station display blinks when the station is stored to the Preset Button.

PROGRAM ERASING Erasing Individual IR Commands Step 1.

gramming of the IR command you wish to erase. Step 2. When the Enter IR LED lights (prompting you to

teach an IR command), tap the ERASE button instead of teaching a new IR command. The command that was previously stored is now erased.

Step 3. Continue erasing or press the PROGRAM button to exit programming.

Erasing Individual Sequences Step 1.

gramming of the sequence you wish to erase. Step 2. When the Enter IR LED lights (prompting you

to enter the IR commands and/or delays for the sequence), press the ERASE button instead of building a new sequence. stored is now erased.

Step 3. Continue programming or press the PROGRAM button to exit progr

Follow the same steps you would for the pro-

ollow the same steps you would for the pro-

The sequence that was previously

amming.

asing all IR Commands and Sequence Programming

Er for Only One Source Step 1.

The Progr RED, the Power/On LED Blinks RED, and the Enter IR lights RED.

Er Sour Erase all IR command and sequence programming for Source 3:

Source 3 LED lights RED, and the Power/On LED Blinks RED. Continue programming from Step 2.

Erase all IR command and sequence programming for Source 4: Quickly tap the NEXT button until the

Source 4 LED lights RED, and the Power/On LED Blinks RED

Step 2. While the source you wish to erase is lit (2, 3, 4, or TUNER), press and hold the PROGRAM and ERASE buttons until the Power/ON, the IR Commands, and the Sequence LEDs are all blinking.

Step 3. Release the PROGRAM and ERASE buttons, and all programming for the selected source is erased.

Press and Hold the PROGRAM button.

am LED lights RED, the Source 2 LED lights

ase all IR command and sequence programming for

ce 2:

Continue progr

Quickly tap the NEXT button until the

. Continue programming from Step 2.

amming from Step 2.

Step 4. Continue programming, or press the PROGRAM button to exit programming.

Page 77

PROGRAM EDITING STEPS

UTPUT

POWER

NPUTS

Erasing All Programming Step 1.

Press and Hold the PROGRAM button.

The Program LED lights RED, the Source 2 LED lights RED, the Power/On LED Blinks RED, and the Enter IR lights RED.

Step 2. Press and hold the PROGRAM, the NEXT, and

ZR-4630 SYSTEM ACCESSORIES

Solo™Master Keypad Module

STOCK #

FG00807

Provides system activation, source selection, source control, and volume adjustment.

Numeric™Accessory Keypad Module

STOCK #

FG00809

Provides direct channel access for DSS receivers and direct track/disc access for CD and DVD changers.

the ERASE buttons until the Program, Power/ON, the IR Commands, and the Sequence LEDs are all blinking.

Step 3. Release the PROGRAM, the NEXT, and the ERASE buttons, and all programming for the entire system is erased.

Step 4. Continue programming, or press and hold the PROGRAM button to exit programming.

IRB1 FloodFlasher

TOCK #

G01023

MF1 MicroFlasher

STOCK #

FG01019

™

IR FloodFlasher™. Connects with a 3.5mm mono mini-plug; 10’ cable. Includes Velcro mounting system.

™

IR MicroFlasher™. Connects with a 3.5mm mono mini-plug; 10’ cable. Includes light blocker.

Expander™Master Keypad Connection Accessory

STOCK #

FG00853

Increases the number of Solo™Master Keypad Modules that can be connected to a single zone of the ZR-4630.

VDA-3 Audio/Video Distribution Amplifier

STOCK #

FG00814

el audio and base-band video distribution

ce-lev

Sour amplifier. Includes a stereo audio and video input, distributed to three audio/video outputs.

R-4 Accessory Remote

OCK #

FG00895

Additional remote control for operation from zones installed with Niles IR Sensors.

Zone/Room Labels

STOCK #

LA01021A

Zone/Room identification labels to place in the label slots for each zone of the ZR-4630.

IntelliPad®Ci Master Keypad Labels

STOCK #

LA00978A

Additional Master Keypad identification labels to customize a Solo

™

Master K

eypad Module.

Page 78

SENSITIVITY

ADJUST

12V CONTROL

OUTPUT

SENSOR

S-1 Light Sensor

AXMIN

12V DC

P O

E R

ZR-4630 SYSTEM ACCESSORIES continued

ET-2D Computer Network Convenience Outlets

olorStock#

lmond FG00858

one FG00840

B White FG00842

Two eight-wire (RJ-45) modular jacks for computer network or IntelliPad Ci Master Keypad connections. Decora-style faceplate.

ET-2S Computer Network Convenience Outlets

olorStock#

lmond FG00859

one FG00843

B White FG00844

Two eight-wire (RJ-45) modular jacks for computer network or IntelliPad Ci Master Keypad connections. standard-style faceplate.

Special Note: RJ-45 jacks and the faceplates that make up with the network convenience outlets are available separately in our Jobsite

System.

SYNC ACCESSORIES

Many of the components in your system should have their power status “synced” to the ZR-4630. The following accessories either sense that a component is on/off or actually turn the component(s) on/off.

LS-1 Light Sensor

STOCK #

FG00728

Senses the brightness of a component’s front panel display and outputs a 12V DC sync signal when the display is brightest.

IPC-6 Programmable AC Power Controller

STOCK #

FG00272

Six-outlet microprocessor-controlled power-management System with on/off sequencing.

*Rack Mount Panel available. Stock#FG00669

APC-2 Current-Sensing Outlet Switcher

STOCK #

FG00254

Current-sensing outlet. Provides 12V DC sync connection via an accessory cable to the ZR-4630.

I-512 Opto-Isolated Voltage Trigger

STOCK #

FG00319

Converts any voltage between 3V and 30V (AC or DC) to 12V DC sync. Useful in combination with an accessory cable with Proceed™, F Synthesis™preamps.

AC-3 Voltage-Triggered AC Power Strip

STOCK #

FG00242

AC power strip with two voltage-triggered AC outlets and one unswitched AC Outlet.

osgate

™

, Citation™&

10’ Bare-Wire to Mini-Plug Accessory Cable

STOCK #

FG00724

Used to send sync signals to the 12V sync inputs of the ZR-4630. Connects with a 3.5mm mono mini-plug and flying leads.

10’ Mini-plug to Mini-Plug Accessory Cable

STOCK #

FG00933

Used to send sync signals to the 12V sync inputs of the ZR-4630. Connects with a 3.5mm mono miniplug on each end.

12V DC/200mA Wall Adapter

STOCK #

FG00665

Provides a 12V DC sync signal to the ZR-4630 when plugged into a component’s switched outlet.

Page 79

TROUBLESHOOTING

TROUBLESHOOTING THE ZR-4630

Problem

The receiver has no lights on. Inspect the AC power cord. Be sure it is inserted firmly into the power-cord

The LCD Display shows error E1, E2, E3, E4, E5, E6.

The LCD Display shows error E7.

The LCD Display shows error E8.

Troubleshooting

socket of the receiver. Check the AC power outlet. Verify that the outlet is providing power (i.e., a

switched AC outlet).

Ensure that the ZR-4630 is always plugged into an unswitched AC outlet. If you've checked the cord and the outlet, and you still have no lights, call Niles for service.

Errors E1 through E6 mean that an internal problem exists and the ZR-4630 requires service.

Error E7 means one or more of the front-panel control or programming buttons is stuck in the depressed position.

Check each of the buttons by pressing and releasing them.

One or more of the ZR-4630’s in an expanded system are not set to the proper Master/Slave mode.

Refer to the Installation Settings of this manual for proper setup.

SYSTEM INSTALLATION TROUBLESHOOTING

Problem Troubleshooting

The keypad is connected, but no lights come on.

e is no IR contr

Ther source components.

Some IR commands work for a

ce and some don't.

sour

ol of the

Test the keypad cable with an appropriate cable tester.

The Sensor

hen using the Niles IRR-4D+ W

W Sensors, the Status LED should be illuminating green when the zone is on. The Status LED should be off when the zone is off, and it should be red when it is receiving a command.

When using the Niles MS-1, MS-2 IR Sensors, the Status LED should be off when the zone is ON. It should only illuminate green when receiving an actual IR command.

If the LEDs stay constantly red (or green when using MS-1 or MS-2), that is a sign of interference. Identify the source of interference and remove it, or move the sensor to a place where it doesn't hav may include dimmer switches, fan motor switches, televisions (especially plasma televisions), and sunlight.

You may have captured some IR commands incorrectly. Testing all IR

commands as y

s may be r

ou captur

eceiving some interference. Check the status LED.

all Mount or the Niles TIR-1+ Tabletop IR

ence. Sources of interference

erf

e int

e them with the IR test feature will avoid this.

Page 80

SPECIFICATIONS

ZR-4630 MultiZone Receiver

AMPLIFIER SECTION

Continuous Average Power Output (FTC) All Channels: 30W per channel min. RMS at 8 ohms, any two channels driven

from 20 Hz to 20 kHz with no more than .08% THD. 37W per channel min. RMS at 4 ohms, any two channels driven

from 20 Hz to 20 kHz with no more than .8% THD. Frequency Response: 5 Hz to 50 KHz +/- 3dB Input Sensitivity: 160 mv for 1W output , 890 mv for full output (30W)

olume control set to maximum.

with v Input Impedance: 20 k ohms Signal Noise Ratio: >= 85 dB

TUNER SECTION FM

Frequency Range: IHF Sensitivity: IF Rejection: >= 55dB Image Rejection: >= 30dB Selectivity: >= 55dB (+/- 400kHz) Usable Sensitivity: <= 24dBu (S/N = 50dB) S/N Ratio: >= 62dB Separation: AM Rejection:

87.5 – 108 mHz 15dBu (19KHz LPF ON THD = 3%)

>= 25dB >= 50dB

Frequency Range: 530 – 1710 kHz IF Rejection: >= 40dB Image Rejection: >= 30dB Selectivity: >= 20dB (+/- 20kHz) Usable Sensiti S/N Ratio: >= 42dB

GENERAL

Power Supply: AC 120V, 60 Hz Power Consumption: 600W Maximum Dimensions: 17" wide x 5" high (including feet) x 15" deep Weight: 28 lbs

REMOTE CONTROL

Transmitter: Infrared Signal Range: Approx. 9m, 30’

ower Supply: Two "AA" batteries (1.5V x 2)

vity:

<= 63dBu (S/N = 20dB)

Page 81

NOTES

Page 82

Niles Audio Corporation

12331 S.W. 130 Street, Miami, FL 33186

Mailing Address: P.O. Box 160818 Miami, FL 33116

Customer Service: 1-800-BUY-HIFI (1-800-289-4434)

Phone: 305-238-4373 • Fax: 305-238-0185

Visit us on the web at www.nilesaudio.com

© 2005 Niles Audio Corporation. All rights reserved. Niles, the Niles logo, Blending Technology and Architecture, IntelliControl, IntelliPad, Jobsite, and Systems Integration Amplifier are registered trademarks of Niles Audio Corporation. Expander, FloodFlasher, MicroFlasher, MicroSensor, Numeric, Select, and Solo are trademarks of Niles Audio Corporation. Decora is a registered trademark of Leviton Manufacturing. All other trademarks are the property of their respective owners. Some of Niles products (or components ther to improve our products, Niles reserves the right to change product specifications, descriptions, and prices without notice.The technical and other specifications of informa-

ained herein is not intended to set forth all technical and other specifications of Niles products. Additional information can be obtained at

tion cont

.nilesaudio

www

eof) ar

.com or b

e man

y calling Niles at 1

ed under one or mor

actur

-800-289-4434. Printed in Malaysia. DS00287CMY

. Patents, foreign equivalents and/or pending patents (see product for details). Because we constantly strive

e U

Niles Audio ZR-4630s User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual