Rane Wireless Control-4, Wireless Control-3, Wireless Control-2, Wireless Control-1 User Manual

RaneNote

WIRELESS CONTROL

Wireless Control of
RPM Series Drag Net™
Multiprocessors

• Wi-Fi Control

• IEEE 802.11a

• IEEE 802.11b

• IEEE 802.11g

• WLANs

• PC Laptop Setup

Introduction

Convenient wireless control is pervasive in today’s
world and showing up more frequently in the world
of pro audio. e application and benefits of wireless
control of sound systems are many.

Obvious choices are the ability to tweak a sound sys­tem while sitting in the middle of, or wandering about
a church, theater, or auditorium without wire tethers.

Another is the value and convenience of setting
the loudness and EQ while standing in each zone of a
multi-zone system.

Or for live sound applications being able to setup
stage monitors while standing next to the musician.

Since Rane’s RPM series of programmable proces­sors use Ethernet to communicate with laptops and
tablet PCs, all it takes to cut the cables is low-cost, off
the shelf wireless adaptors and Access Points.

If you already have a laptop or tablet PC it’s a small
step to go wireless. Simply pop a wireless adaptor in
your laptop (if it doesn’t have one built-in) and toss
a wireless Access Point into your tool box and you’re
ready to go. It’s just that easy.

Dean Standing
Greg Duckett
Dennis Bohn
Rane Corporation

RaneNote 156
© 2005 Rane Corporation

Drag Net is a trademark of Rane Corporation

Wireless Control-1

61

INPUT

1 2 3 4 5 6 7 8

OUTPUT

1 2 3 4 5 6 7 8

PRESET

RPM 88

A B

A B

Peak dBFS

-4

-12

-48

-4

-12

-48

-4

-12

-48

-4

-12

-48

AES3

AES3

LOCK

PROGRAMMABLE
MULTIPROCESSOR

VIP/VOPRW 485

ETHERNET

STATUSPOWER

Figure 1. Simple wired LAN with one computer and one RPM 88. Figure 2. Wired LAN with one computer, an Ethernet switch and

61

INPUT

1 2 3 4 5 6 7 8

OUTPUT

1 2 3 4 5 6 7 8

PRESET

RPM 88

A B

A B

Peak dBFS

-4

-12

-48

-4

-12

-48

-4

-12

-48

-4

-12

-48

AES3

AES3

LOCK

PROGRAMMABLE

MULTIPROCESSOR

VIP/VOPRW 485

ETHERNET

STATUSPOWER

INPUT AES3 OUTPUT

1 2 A B

1 432 65

LOCK

VIP POWER

ETHERNETSTATUS

RPM 26z

PROGRAMMABLE
MULTIPROCESSOR

PRESET

21

PROGRAMMABLE

MULTIPROCESSOR

INPUT OUTPUT

1 2

1 2

AES3

A B

VIP POWER

ETHERNETSTATUS

RPM 2m

PRESET

11

61

INPUT

1 2 3 4 5 6 7 8

OUTPUT

1 2 3 4 5 6 7 8

PRESET

RPM 88

A B

A B

Peak dBFS

-4

-12

-48

-4

-12

-48

-4

-12

-48

-4

-12

-48

AES3

AES3

LOCK

PROGRAMMABLE
MULTIPROCESSOR

VIP/VOPRW 485

ETHERNET

STATUSPOWER

61

INPUT

1 2 3 4 5 6 7 8

OUTPUT

1 2 3 4 5 6 7 8

PRESET

RPM 88

A B

A B

Peak dBFS

-4

-12

-48

-4

-12

-48

-4

-12

-48

-4

-12

-48

AES3

AES3

LOCK

PROGRAMMABLE

MULTIPROCESSOR

VIP/VOPRW 485

ETHERNET

STATUSPOWER

INPUT AES3 OUTPUT

1 2 A B

1 432 65

LOCK

VIP POWER

ETHERNETSTATUS

RPM 26z

PROGRAMMABLE
MULTIPROCESSOR

PRESET

21

PROGRAMMABLE
MULTIPROCESSOR

INPUT OUTPUT

1 2

1 2

AES3

A B

VIP POWER

ETHERNETSTATUS

RPM 2m

PRESET

11

several RPMs.

Wireless Ethernet = Wireless Drag Net

Wireless Ethernet is a huge subject with many branch­es involving different technologies. But for a simple
case of a single computer connecting to a simple Local
Area Network (LAN), it is quite easy. A LAN is formed
anytime a computer and one or more RPMs are con­nected together (see Figures 1 & 2). You can create a
simple Wireless LAN (WLAN) and control RPMs from
anywhere in a room, whether there is one RPM in the
system or a hundred.

Wi-Fi

e easiest to use and most prevalent wireless Ethernet
equipment is based on a standard called IEEE 802.11.
at isn’t very easy to say let alone remember, so sen­sible marketing folks stepped in and dubbed it Wi-Fi
(wireless-fidelity) (www.wi-fi.org).

ere are now three versions of Wi-Fi equipment:

802.11a, 802.11b, and 802.11g. For a single computer
connecting to a simple LAN, the differences between
the three standards are not important. However some
compatibility issues exist so the smartest method is to
buy equipment with the same suffix.

All Wi-Fi certified equipment that complies with the
same standard is supposed to work together no matter
who made it, but the best bet is to choose all equip­ment from one manufacturer. You’re less likely to run
into trouble.

WLANs

A WLAN consists of two equipment types: Access
Points and Clients:

Clients are attached to a single computer or other
equipment and provide a wireless connection to that
equipment only. is is the Wi-Fi card you purchase
and install (or it is already built into your laptop). For
example, a popular choice is the Linksys WPC54GS
(www.linksys.com).

Access Points (APs) are the base stations of the
system; they are the wireless equivalent of the Ethernet
hub or switch. An Access Point interconnects a wire­less network to a wired LAN. Wireless devices do not
communicate directly with each other in a managed
wireless network. ey communicate via the Access
Point. (See Figure 3.)

Figure 3. Laptop with Wi-Fi card (Client), WLAN with Access

Point, and one RPM.

Wireless Control-2

Figure 4. Laptop with Wi-Fi card (Client), WLAN with wireless

switch Access Point, and several RPMs.

Access Points manage connections to several Clients
at a time (for example, multiple laptop users controlling
or monitoring the same network), giving the Clients
access to each other and to the wired LAN.

In simplest form an Access Point has a Wi-Fi ra­dio and one Ethernet port; however, many products
combine other functions with an Access Point. Wire­less switches (an Access Point and Ethernet switch in
the same box), and wireless routers (an Access Point
and Ethernet router in the same box) are examples.
(See Figure 4.) Be careful with terminology though; a
“router” is not an Access Point unless it is wireless.

For reference, a leading Access Point product is the
Linksys WAP54G; a leading wireless router is the Link­sys WRT54GS (note that these are “g” devices match­ing the earlier “g” card). In addition to providing the
hub for the wireless devices, these convert wireless to
wire to connect to RPMs.

Ad Hoc (Peer-to-Peer) vs. Infrastructure
Networks

References to ad hoc or peer-to-peer (unmanaged)
mode versus infrastructure (managed or hosted) mode
appear in documentation for Clients and Access Points.

A wireless ad hoc mode network is a network with
no Access Point (i.e., no infrastructure). e ad hoc
advantage is that the wireless devices can talk directly
to each other.

RPM units do not support ad hoc networks.

is means that you cannot control RPMs directly
from a Wi-Fi laptop without adding an Access Point.

erefore after installing your Wi-Fi card configure
it for an infrastructure network. (Gateway is an inter­changeable term.)

SSID

e service set identifier (SSID) is similar to a user
name without a password. It is the name of the WLAN.
is user name or SSID is transmitted by the Access
Point for anyone to receive and connect to the network.
In search mode, a PC listens for all the SSIDs in the
immediate area, and lets you pick the one you want.
Connecting to any wireless network requires the SSID
so you must assign one to your WLAN.

Building a Simple WLAN for Drag Net

To setup a simple WLAN you need a computer with a
Wi-Fi card (Client), and an Access Point that connects
to the RPMs with CAT 5 cable.

Begin by configuring the Access Point while the
computer is connected to it with a cable. is is done
using the configuration program provided by the
manufacturer. Most equipment allows you to also
change settings through a Web interface. Using an
Internet browser of your choice (e.g., Internet Explorer,
Netscape, etc.) you type in the IP address of the Access
Point and up pops a web page that lets you set the Ac­cess Point’s parameters.

Recommended is to setup your small LAN with
static IP addresses so you can locate the Access Point
by its IP address. RPMs only support static addresses so
they are ready to go.

e Access Point may allow you to use DHCP (i.e.,
automatic IP address assignment), but if you do that,
you will have trouble locating the Access Point by IP
address and it will be difficult to use the Web pages to
set and adjust it, so we advise against it.

You should set the SSID to something that makes
sense to you. is will let you properly locate and
connect to this Access Point when other WLANs are
within range of your Client card.

You will have a choice to set passwords and security
settings for your Access Point (and later on, your Client
card). We recommend that you set the password (and
write it down where you can find it a year from now).

Initially leave the security turned off -- but only
while you are setting up the system. After it’s working,
always set the security to exclude other Clients from
the network. It is easy to do and will stop strangers
from messing with or inadvertently damaging/dis­abling your WLAN.

Once your Access Point is configured, disconnect
your computer and attach the Access Point to the
RPMs to form a LAN. With a single RPM, this would
be a minimal LAN with a single cable connecting it to
the Access Point. With more than one RPM, you need
an Ethernet switch to connect them together as shown
in Figure 4.

After installing the Wi-Fi card, open up the adapter’s
control panel software and you should see the Access
Point in the available wireless networks list. Go ahead
and connect to it. is is usually a matter of double
clicking on its entry in the WLAN list.

Wireless Control-3

Make sure that the IP address for the Client card connection is in the same subnet as the RPM that you

want Drag Net to communicate with. e procedure for doing this is the same as for a wired connection.

You now can send Ethernet messages between your laptop and an RPM. Start up Drag Net and poll for

devices exactly as if you were connected with a wire. (If this fails see sidebar for “pinging.”)

You can now move around and adjust parameters from anywhere in the room.

Summary

1. Configure the Access Point from your computer using a wired connection.

2. Connect the Access Point and the RPMs together with cable to form a LAN.

3. Install your Wi-Fi card (Client) and configure it according to the manufacturer’s instructions.

4. Open the Wi-Fi card’s control window. You should see the Access Point in the list of available WLANs.

5. Connect to the Access Point.

6. Open Drag Net and poll for devices.

You are now controlling the RPMs using wireless Ethernet.

More about IEEE 802.11a, 802.11b and 802.11g

ree 802.11 standards (suffixed “a,”

“b,” and “g”) are alternate answers

to the trade-off of cost vs. speed vs.

coverage. Standard “a” uses a different

part of the radio spectrum than “b” or

“g” and is more expensive. Standard

“b” provides up to 11 Mbps data rates,

while “a” and “g” increases this to 54

Mbps. Because “a” operates at a higher

radio frequency, it has a shorter range

and doesn’t penetrate walls or other

obstacles as well as “b” or “g.” Lots of

other subtleties exist in obtaining the
utmost performance in an installation
but these are the main considerations.

Remember to always match your Wi-

Fi card and Access Point standards.

How to “Ping” an Ethernet Device

Open a command Window (click on Start

Menu> Run, then type “cmd” [for Windows

XP, or “command” for Windows 98] and click

OK). When the command window is open,

type in “ping xxx.xxx.xxx.xxx <enter>”.

(xxx.xxx.xxx.xxx is the IP address of the RPM,

or other device, you’re checking). The ping

program will try to contact the device at that

IP address and send it a test message. Ping

will report back whether it got a response

and how long it took for the message to

get there and back. It will likely try this four

times. It is a quick way to nd out whether

your setup is working.

To be sure your networking service is operat-

ing on the Client, you can “ping yourself” us-

ing the command: “ping 127.0.0.1 <enter>”.

This IP address is known as the loopback

address.

If your wireless connection isn’t working,
consult the manual from the manufacturer of
your wireless equipment for troubleshooting

tips. To close the command window, type

“exit <enter>”.

©Rane Corporation 10802 47th Ave. W., Mukilteo WA 98275-5098 USA TEL 425-355-6000 FAX 425-347-7757 WEB www.rane.com

Wireless Control-4

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