NCD ZigBee ZSCAN16 MIRROR User manual
ZigBee Mirror Module
Generation 2
contact closure input transceiver module for use with Series 1 ZigBee Relay Controllers
ZSCAN16_MIRROR 16‐Channel Contact Closure Input ZigBee Mirror Module
ZSCAN32_MIRROR 32‐Channel Contact Closure Input ZigBee Mirror Module
ZSCAN48_MIRROR 48‐Channel Contact Closure Input ZigBee Mirror Module
ZigBee Mirror Modules allow you to remotely control wireless relays without the use of a computer and without the need for any program‐
ming skills. 2‐Way communication allows you to review the status of multiple remote relays. Targeting allows a single ZigBee Mirror Mod‐
ule to talk to 24 Different Remote Relay Controllers. The next page will provide you with a complete and detailed introduction to our Zig‐
Bee Mirror Modules.
National Control Devices, LLC
PO Box 455
Osceola, MO 64776
Phone: (417) 646‐5644 FAX: (866) 562‐0406
www.IORelay.com
Introduction
Our 2nd generation Wireless ZigBee Mirror Modules were built
upon customer feedback of our original Mirror Module de‐
vices. ZigBee Mirror Modules offer all the features our cus‐
tomer have requested, including support for 2‐way communi‐
cation with feedback display and full support for targeting mul‐
tiple wireless relay controllers.
ZigBee Mirror Modules transmit wireless contact closures to
remote relay controllers. This allows you to activate wireless
relays in a remote location by simply connecting a switch to
the ZigBee Mirror Module. For example, let’s say you have a
light in another building that you want to control from your
house. You don’t want a computer to activate the lights, you
just want to control the light remotely from a switch. Rather
than running wires, you can simply wire a switch to a ZigBee
Mirror Module. Every time you turn the switch on or off, the
Mirror Module will send a signal to the remote ZigBee relay
controller to turn the light on or off.
ZigBee is simply a form of wireless communications. We sup‐
port ONLY Digi Series 1 communications, meaning the current
line of ZigBee Mirror Modules will ONLY communicate to NCD
devices that utilize the ZigBee Series 1 communications mod‐
ule. A complete list of compatible controllers is available by
clicking here. At this time, we do not plan to support Series 2
Mesh Networking communications.
You may also see references throughout this manual to contact
closure inputs. For instance, a ZSCAN16_MIRROR controller
has 16 contact closure inputs. This means you can connect 16
switches directly to the ZSCAN16_MIRROR. These switches can
control up to 16 remote relays.
There are 3 versions of the ZigBee Wireless Mirror Module. All
three versions are based on the ZSCAN series circuit board, but
the firmware has been completely redesigned for the purposes
of stand‐alone operation for direct communications to any
ZigBee Series 1 relay controller. Mirror Module firmware is
indicated by the use of _MIRROR in the device part number.
The ZSCAN16_MIRROR is based on the ZSCAN16 Circuit board
running MIRROR firmware, offering 16 contact closure inputs.
The ZSCAN32_MIRROR is based on the ZSCAN32 Circuit board
running MIRROR firmware, offering 32 contact closure inputs.
The ZSCAN48_MIRROR is based on the ZSCAN48 Circuit board
running MIRROR firmware, offering 48 contact closure inputs.
ZigBee Mirror Modules like to have direct control over a re‐
mote relay controller. Behavior may be unpredictable if you
attempt to control a remote relay controller with a computer
and a ZigBee Mirror Module at the same time. For best results,
you should choose weather you need computer controlled
relays or Mirror Module controlled relays.
Targeting
ZigBee Mirror Modules support targeting. Targeting allows a
single ZigBee Mirror Module to talk to 24 remote ZigBee Relay
Controllers. You can target many different types of devices,
such as 1‐channel relay controllers, 2‐channel relay controllers,
or our complete line of 2/4/8/16/24/32 ProXR Series relay con‐
trollers. You can mix controller types in any combination. For
instance, a ZSCAN16_MIRROR with 16 contact closure inputs
can be used to target two 8‐Channel ProXR series ZigBee relay
controllers. Or it can be configured to control one 8‐Channel
ZigBee relay controller, four 2‐channel ZigBee relay controllers,
and four 1‐channel relay controllers, all in separate locations.
Expandability
ZigBee Mirror Modules are expandable to 256 contact closure
inputs. They are compatible with any of our Contact Closure
Input Expansion Devices. As your application grows, your Zig‐
Bee Mirror Module is ready to grow with your needs.
Feedback
In some applications, you may want to know if the remote re‐
lay controller received your signals. ZigBee Mirror Modules
support FULL 2‐way communications. Data regarding the
status of the remote relay is sent to the XR expansion port on
the ZigBee Mirror module. If you only want to display the
status of the remote relay, you can use the following device.
However, you can also turn on a local relay that can be used
for other applications by plugging in any XR Expansion Relay
controller.
Configuration and Requirements
ZigBee Mirror Modules must be configured to control remote
relays. The ZigBee Mirror Module must know the serial num‐
bers of all of your remote relay controllers. These serial num‐
bers are permanently stored in the ZigBee Mirror Module de‐
vice, but may be changed at any time as your configuration
changes. Configuration is accomplished by using our ZigBee
Mirror software. This software is used to tell the Mirror Mod‐
ule the type of remote relay controllers you plan to communi‐
cate with, its serial number, and a few other configuration set‐
tings. A ZigBee Mirror Module is configured wirelessly. As
such, a ZigBee Modem is required to configure the ZigBee Mir‐
ror Module.
At this time, an enclosure is not available specifically for our
ZigBee Mirror Modules; however, many universal electronics
enclosures are available directly from www.digikey.com and
www.mouser.com.
Getting Started….QUICKLY!
The best way to get stared using ZigBee Mirror Modules is to
dive in and go through the entire process of setting up your
controller for the first time...step by step. Before we get
started, here is a shopping list of devices you need:
Required Hardware:
Any ZigBee Mirror Module (click on this link to see all available)
Any ZigBee Modem (click on this link to see all available)
Any ZigBee Relay Controller (click on this link to see all available)
PWR12 Power Supplies (One Needed for Each Device, click here)
Optional Hardware: (Display Status of Remote Relays)
XR16OCLP (Lowest Cost Display Option)
Required Computer:
Any Windows XP/XP Pro running Service Pack 3 with .NET
Framework 3.5 (or later) Installed. Windows Vista should also
work well, though it has not been tested.
Required Software:
ZigBee Mirror software (click on this link to download)
USB Driver Software (click here to get the latest version)
USB Driver Software (Alternate Link if Above Link is Not Working)
Step 1:
Do NOT Plug the USB Modem into your Computer Until In‐
structed to do so. The first thing we need to do is get your
ZigBee modem working. The ZigBee modem will be used to
configure the ZigBee Mirror Module. Start by downloading and
installing the USB Driver Software. This USB driver software
allows your modem to be used as a COM port on your com‐
puter.
Step 2:
Now the driver software is installed, we need to open the de‐
vice manager to see what COM port is assigned to the modem.
If you are using Windows XP/Pro, Click on the “Start Menu”
and select “Control Panels”. Next, double‐click on the
“System” icon. Click on the “Hardware” tab. Click on the but‐
ton that says “Device Manager”. Next, click on the “+” next to
“Ports (COM & LPT)”. Here you will see a list similar to what is
shown on the right. Review this list carefully.
Step 3:
Plug in the USB Modem. After a few moments, a new item will
appear in the list that says USB Serial Port. In our example,
COM3 was assigned. The list changes to “USB Serial Port
(COM3). Take note of what appears on your computer.
On your computer, it may be different. We need to know for
sure what COM port is assigned to the modem. Please note
that if you unplug the modem and plug it into a different USB
port on your computer, a different COM port will likely be as‐
signed. If you experience any problems during configuration, it
will be necessary to review these settings to make sure you are
using the correct COM port.
The Device Manager is useful for displaying many details
about your system. For the purposes of setting up the Mirror
Module, we need to know EXACTLY which COM port is as‐
signed to the modem. You will need to install the drivers
prior to plugging the modem into your computer. Once in‐
stalled, the Device Manager should be able to detect the mo‐
dem and assign it a COM port. Please make sure you install
the drivers BEFORE you plug the modem into your computer.
Getting Started….QUICKLY!
By this point, you should know the COM port that was as‐
signed to your modem. Your ZigBee Modem should be
plugged in and the USB LED lit. Please do not proceed until
you have determined the correct COM port.
Step 4:
The next thing we need to do is locate the PGM/RUN jumper
and set this jumper to “PGM”. This jumper sets the controller
to PROGRAM mode. Use PROGRAM mode anytime you want
to change the controllers settings. RUN mode is for normal
daily use. RUN mode protects the memory from accidental
changes. It is not possible to make changes to the settings of
this controller if the jumper is set to RUN mode.
THIS DEVICE ONLY READS JUMPER SETTINGS WHEN POWER IS
FIRST APPLIED TO THE CONTROLLER. JUMPER CHANGES HAVE
NO EFFECT AFTER POWER UP. BE SURE TO POWER‐CYCLE THE
CONTROLLER EVERY TIME YOU CHANGE THE JUMPER SETTING.
Step 5:
The ZigBee Mirror Module requires a regulated 12V DC Power
Supply. The ZigBee Mirror Module is equipped with a 2.1mm
Center Positive Barrel Connector, used to supply power to the
device. If you do not have a compatible power supply avail‐
able, a PWR12 power supply is available from our web site. It
is safe to use the ZigBee Mirror Module in automotive power
systems. Connect the power supply at this time.
Step 6:
Every ZigBee relay controller has a serial number printed on
the back of each ZigBee module. Carefully remove each ZigBee
Module, Record the type of Controller and the Last 8 Digits of
the Serial Number. DO NOT MIX UP THE ZIGBEE MODULES.
Reinstall the ZigBee module on the controller it came from,
making sure all pins are properly inserted into the socket. Your
log may look something like this:
Part: Serial Number:
ZR25 40018E66 (shown at right)
ZR25 40328E7F
ZR15 40321BFF
ZR85ProXR 40329F3E
ZR45ProXR 40328EF1
Every ZigBee Module will have a unique serial number. No two
controllers are ever alike. Please do NOT proceed until you
have logged the serial numbers of ALL controllers you plan to
associate with the ZigBee Mirror Module. You do NOT need to
log the Serial Number of the ZigBee Mirror Module. DO NOT
POWER THE RELAY CONTROLLERS AT THIS TIME.
Step 7:
Install and Run the ZigBee Mirror software.
Step 8:
Choose the correct COM port for your system and Click the
“OK” button. (see previous page for complete instructions to
determine the correct COM port for your system).
Step 4: Set the PGM/RUN Jumper to
PGM. Use this setting ONLY when set‐
ting up your ZigBee Mirror Module.
Step 5: Connect PWR12 Power Supply at this location.
Step 8: Choose the COM Port for your system. Every system may
be different, so please follow the directions on the previous page.
Step 6: Remove the ZigBee Module
from each relay controller The com‐
plete serial number is shown at left
with a red Box around it. You only
need the LAST 8 DIGITS of the serial
number. In the case of the module
shown, you will need 40018E66.
Logging your serial numbers will be
critical to proper configuration.
ZigBee Module Shown Removed
from the Relay Controller
Getting Started….QUICKLY!
It is now time to configure the Mirror Module for use in your
application. The process is pretty easy. You will need to con‐
figure the Mirror Module so that it knows how many control‐
lers you want to talk to, the model of the relay controller, and
a few other simple parameters. Follow these simple steps...
Step 9:
After a few moments, the following screen (shown below) will
appear. The settings shown represent part of our initial test‐
ing. Every user will have to create custom settings based on
the devices they are using. In this section we will identify all of
the elements of the configuration screen and provide you with
a brief overview of their function. Many of the default settings
do not need to be changed. The number of devices you are
controlling and the serial numbers will be different for every
user.
This setting tells the ZigBee Mirror Module how many devices you want to
communicate with. Most users will probably only use the ZigBee Mirror
Module with ONE remote device. However, as your application grows, Zig‐
Bee Mirror Modules are capable of talking to 24 different remote relay con‐
trollers. Make sure this setting matches the number of remote relay control‐
lers EXACTLY.
Step 9: You may see a few failed attempts during initial communications.
This is normal. However, you should verify the PGM/RUN Jumper is set to
PGM on the ZigBee Mirror Module. Once the jumper is set, make sure
power is applied and the READY light is lit. Make sure the controller is
powered down when changing the jumper, the Microprocessor on the
ZigBee Mirror Module reads the jumper setting on Power‐Up ONLY.
Serial numbers are a very important part of using ZigBee Mirror Modules.
You may notice we do not require you to enter the entire serial number. The
“base” serial number is the first part of the serial number, and is shared by
all devices. You should never change the “base” serial number unless you
want to broadcast Mirror data to ALL devices. For most applications, leave
this setting as it is.
2‐Way Communication vs. 2‐Wau XR Port Confirmation is a very impor‐
tant topic that will be discussed in depth in Step 10 on the next page.
The Debounce Setting controls the
Reaction Time between an input
change and a “Trigger” to activate
a remote relay. Lower settings
make the ZigBee Mirror Module
more Sensitive while larger set‐
tings offer better noise immunity.
Most users will want to use a
value of 0.
Advanced Features will be discussed
in a later portion of the manual.
These features are not required for
most applications.
Configure the Refresh Setting to 1
for most applications. Other set‐
tings will be discussed later in the
manual.
You can suspend communications
to any remote device by making it
inactive. By default, all should be
active (“Yes” in every row).
Enter the Lat 8 Digits of the Serial
Number of EACH remote Relay
Controller in this field. To use this
field, click on the serial number. A
Box will appear that allows you to
make changes. Make necessary
changes for your relay controllers.
Move your mouse to exit and save
your edited changes. If the box
turns RED after editing, there is an
error in the data you have en‐
tered. Please verify the serial
number and try again. Only 8
digits are allowed, each Digit is
character from 0‐9 and A‐F.
You MUST tell the Mirror Module the type of controller
you are using by clicking on the Arrow buttons on each
side. This controls the command set the Mirror Module
sends to the remote relay controller. These settings must
be 100% accurate for correct communications.
These Settings Cannot be Changed.
Input Assignment will be discussed in
Step 11 on the next page.
This help box will provide you with
useful hints as you move your mouse to
different elements of the user interface.
Use this button if you would like for
us to manufacture many ZigBee
Mirror Modules with the exact same
settings.
Read the Current Settings stored in
the ZigBee Mirror Module.
Store the Current Settings in the
ZigBee Mirror Module.
Getting Started….QUICKLY!
2‐Way Communications is an important topic with regard to
ZigBee Mirror Modules. This topic will be discussed at length
on this page. It is a vital part of understanding how the con‐
troller functions.
Step 10: Understanding 2‐Way Communications
ZigBee Mirror Modules work by sending a relay control com‐
mand to a remote relay controller. In this mode, the ZigBee
Mirror Module then waits for a confirmation byte from the
relay controller. If a confirmation byte is not received, the Zig‐
Bee Mirror Module will change the READY LED to BUSY. Every
time an error in communication occurs, the READY/BUSY LED
will flash. THIS DOES NOT MEAN THE RELAY DID NOT ACTI‐
VATE. THIS SIMPLY MEANS DATA DID NOT PROPERLY COM‐
MUICATE BOTH DIRECTIONS. IT IS NORMAL FOR THIS LED TO
FLASH OCCAISIONALLY UNDER NORMAL OPERATION. IN SOME
CASES, IT MAY FLASH COSTANTLY AND STILL BE FUNCTIONING
PROPERLY.
Understanding 2‐Way XR Port Confirmation
When the 2‐Way XR Port Confirmation mode is selected, the
ZigBee Mirror module sends a command to activate a remote
relay, and then waits for a confirmation byte from the remote
relay controller. Next, the ZigBee Mirror Module will ask the
remote relay controller the status of the remote relay. Status
data is then sent directly to the XR Relay Expansion port. By
connecting the XR16OCLP controller (shown at right) to the XR
Expansion Port of the ZigBee Mirror Module, the LEDs will indi‐
cate the status of the remote relay.
In the event power is lost at a remote relay controller, the
XR16OCLP may still indicate the relay is On. Triggering any
Contact Closure input will Refresh the display to the current
status of the remote device. Some users may want to connect
a push button to any available input to manually trigger a
“Refresh” condition.
When power returns to the remote relay controller, the relay
will automatically update to the current state of the corre‐
sponding ZigBee Mirror Module inputs. Some user settings
may prevent automatic relay refresh from occurring.
Plug the XR16OCLP into the
ZigBee Mirror Module XR
Expansion Port and Enable
2‐Way XR Port Confirma‐
tion to see the status of
remote relays. LEDs may
flash if a communication
error is detected. A connec‐
tion cable is included with
XR16OCLP. This device will
require a separate power
supply such as the PWR12.
Helpful Hint:
The XR Expansion Port is compatible with ANY XR Relay Expansion controller
we offer. The XR16OCLP is a great way to display the status of remote re‐
lays. User may want to activate a local relay using other expansion devices.
XR Cable Included with XR16OCLP. Flashing LEDs indicate com‐
munication errors.
Understanding LED Status Lights
A ZigBee Mirror Module is equipped with 2 LEDs that help you identify communication errors. Under the best of conditions, the READY
LED will always be ON and you will never see the BUSY LED flash. This indicates perfect communications. In reality, this is rarely the
case. ZigBee Mirror Modules expect to hear back from remote devices within a very short time frame. If they do not respond quick
enough, the ZigBee Mirror Module will flash the BUSY LED. THIS DOES NOT MEAN MIRRORING WAS NOT SUCCESSFUL. It simply
means the remote relay controller did not respond within the allotted time frame. The controller will constantly try to Mirror data
from the Inputs of ZigBee Mirror Module to the Remote Relay. The Busy LED may flash for long periods of time and still work properly.
Use 2‐Way XR Port Confirmation if you need to know the status of remote relays at the location of the ZigBee Mirror Module.
Getting Started….QUICKLY!
Input Assignment is another important topic when using Zig‐
Bee Mirror Modules. This Page will explain how inputs are
mapped to Remote Relay controllers.
Step 11: Managing Automatic Input Assignments
The ZigBee Mirror software in combination with your settings
will determine how inputs on the ZigBee Mirror Module will be
mapped to remote relay controllers. As a general rule, it is
better to group smaller controllers together so the Input As‐
signments will make more efficient use of your inputs. In the
example above, we have assigned two 8‐channel relay control‐
lers on input Banks 1 and 2 of the ZigBee Mirror Mod‐
ule. We have grouped smaller controllers together so
we can use Input Bank 3 to control 6 remote relays
using 4 different controllers:
Helpful Hint:
Devices are Mapped in Groups of Eight. Group Smaller Controllers Together
when Assigning Devices and Serial Numbers to the Configuration Software.
This will Make the Most Efficient Use of your Inputs.
All 8 Inputs
talk to Device
Number 1
Device Number 1 (top of page) is a
ProXR 8‐Channel Relay Controller
with the Serial Number 3F1F.
All 8 Inputs
talk to Device
Number 2 Device Number 2 (top of page) is a
ProXR 8‐Channel Relay Controller
with the Serial Number 3F05.
Input Assignment Determines How Inputs
are Mapped to Remote Relay Controllers.
Group Smaller Controllers Together for
most efficient mapping of inputs. Inputs
are mapped in groups of Eight.
Unused.
These Inputs are not mapped to any
device in the above configuration.
Device 3
Device 4
Device 6
Device 5
Device 7
ZR1x Serial Number 3F3F.
ZR2x Serial Number 3F11.
ZR1x Serial Number 3F4F.
ZR2x Serial Number 3F1B.
ZR2x Serial 3F42 DEVICE NOT ACTIVE*.
DEVICE NOT ACTIVE:
The Mirror Module Stores Data About Inactive Devices, but Does NOT At‐
tempt to Communicate with Inactive Devices. To Make a Device Active/
Inactive, Use the Second Column (“Active” Column) of the Interface shown at
the Top of this Page.
Getting Started….QUICKLY!
Now that you have had an overview of configuration, it is
time to apply your settings to the controller. Follow these
steps to complete your configuration and begin testing your
ZigBee Mirror Module for the first time.
Step 12: Configure Number of Devices
Use the information shown in the previous pages to configure
your ZigBee Mirror Module for the number of Relay Controllers
you will be using.
Step 13: Configure Serial Numbers
Use the information shown in the previous pages to configure
your ZigBee Mirror Module to store the serial numbers of each
remote device.
Step 15: Configure Device types
Use the information shown in the previous pages to configure
your ZigBee Mirror Module for the different types of devices
you may be using, making sure each device type matches the
serial number you have chosen.
Step 16: Store Your Settings
It is now time to store your settings into the ZigBee Mirror
Module. Use the button in the lower right corner that says
“Store These Settings Into Controller”.
Step 17: Power Down the ZigBee Mirror Module
Step 18: Set the PGM/RUN Jumper on the ZigBee Mirror
Module to the RUN Position
Step 19: Power Up All Remote Relay Controllers
Step 20: Power Up the ZigBee Mirror Module
Step 21: Test the ZigBee Mirror Module
The best way to test the ZigBee Mirror Module is to connect
input pairs together using a wire. You can connect the wire to
any ground on the ZigBee Mirror Module. More details regard‐
ing electrical connections can be found on the next page.
Troubleshooting:
We have extensively tested our ZigBee Mirror Module devices.
These devices have been tested with many types of controllers.
We do not know of any bugs in the firmware of this device at
this time. Testing of this device was a very important part of
the development of this ZigBee Mirror Module. Most tests
included a ZigBee 32‐Channel Relay Controller, 24‐Channel
Relay Controller, 4‐Channel Relay controller, and Several 1 and
2‐Channel Relay controllers. We created a list of serial num‐
bers and device types. We mixed input settings to test map‐
ping and we have extensively tested the API communications
layer as well as all relay control protocol layers and relay feed‐
back status layers. The internal architecture of the CPU that
powers the ZigBee Mirror Module is highly modular. Should
you discover any problems, we highly recommend reviewing
your settings and this manual very carefully. Most problems
can be corrected by reviewing your settings.
Like all wireless devices, communication distance will be deter‐
mined by your installation. Unfortunately, it is not possible for
us to ever predict the range you will experience in your appli‐
cation. The best distance is always achieved when antennas
can see each other. We realize this is not always possible.
ZigBee Mirror Modules will try relentlessly to communicate
your relay control data to a remote device. You do not need to
make any special configuration changes to help improve dis‐
tance.
ZigBee Mirror Modules have also been tested extensively for
false triggers. While we have never seen a relay activate or
deactivate on its own, there is always this possibility. There‐
fore, we NEVER recommend the use of ZigBee Mirror Modules
in any applications that may endanger human life. ZigBee Mir‐
ror Modules should only be used in applications where the
failure of a relay will not harm or threaten any person or prop‐
erty.
If you experience problems, please review the Induction Sup‐
pression portion of our web site. If problems persist, please
contact us for potential solutions.
Advanced Features
Advanced Features. There are a few settings that most users
will never need, but it is worthy of mention in this section.
Configure Refresh Setting
ZigBee Mirror Modules should normally be configured to have
a Refresh setting of 1 to 5. However, other refresh settings
may be desirable for some applications. The Refresh setting
determines the speed of communications between the ZigBee
Mirror Module and the Remote Relay Controller (or control‐
lers). A Refresh setting of 0 instructs the ZigBee Mirror Module
to communicate to the remote relay controller as quickly as
possible. You should be very cautious about choosing this
value. This data rate generates an enormous amount of radio
traffic. If you attempt to use other devices with computers or
other ZigBee Mirror Modules, you might find there is few com‐
munications gaps available for reliable communication. A
value of 255 instructs the ZigBee Mirror Module to ONLY com‐
municate data to remote devices when a change is detected.
Again, good refresh values of 1 to 5 are strongly recom‐
mended.
Calculated Mapping Bytes
By Default, the ZigBee Mirror software will calculate the “MAP”
Byte, which determines the starting input location for every
controller. Most users will want to keep the default mapping
byte values. However, you may choose to Remap the inputs
manually. You may experiment with this as much as you want,
you cannot damage the controller. However, it should be
stated that modifying the mapping byte can cause undesirable
operation.
Remap to Custom Settings
Choosing the Remap to Custom Settings option allows you to
modify the MAP Bytes. The best use for MAP bytes is to copy a
value from one location to the other. For instance, if you copy
the 9 (shown above) to the position of the 17 (shown above),
the controller will remap inputs 1‐8 to talk to the first 2 ProXR
controllers. Some experimentation is in order if you want to
change the way inputs are mapped to controllers. Again, you
cannot damage the controller in any way.
Restore to Factory Default Settings
Clicking this button will return the controller to the same set‐
tings that it had when you first received the controller. These
settings are ideal for helping you understand how to use the
controller, as these settings will match the information con‐
tained in this manual.
Mirror Module Hardware
Cable Included with USCS16. Expansion Input
Boards do NOT Require a Power Supply.
Flashing LEDs indicate
communication errors.
Other Contact Closure Input Expansions are Available Here. ZigBee Mirror Modules are Expandable up to 256 Inputs.
Power Connector: 2.1mm Center Positive Power Connection
for use with Optional PWR12 12VDC Regulated Power Supply.
ZigBee Series 1 Module in API Mode set to 115.2K Baud. There are many ver‐
sions of this module available as product options. We do NOT plan to make a
ZB Mesh Version of this device anytime soon.
PGM/RUN Jumper. Set to PGM when Configuring
this Device. Set to RUN when using it in daily ser‐
vice. Jumper settings are read only when the device
is first powered up. Changing the jumper with
power applied will have no effect.
Bank 1 Input 8 Ground
Bank 1 Input 8 Contact Closure Input
Bank 1 Input 7 Ground
Bank 1 Input 7 Contact Closure Input
Bank 1 Input 6 Ground
Bank 1 Input 6 Contact Closure Input
Bank 1 Input 5 Ground
Bank 1 Input 5 Contact Closure Input
Bank 1 Input 4 Ground
Bank 1 Input 4 Contact Closure Input
Bank 1 Input 3 Ground
Bank 1 Input 3 Contact Closure Input
Bank 1 Input 2 Ground
Bank 1 Input 2 Contact Closure Input
Bank 1 Input 1 Ground
Bank 1 Input 1 Contact Closure Input
XR Expansion Port Allows you to See the Status of Remote
Relays by Plugging ANY XR Expansion Controller Into this
Port (cable included with Expansion Controller).
Bank 3 Input 8 Ground
Bank 3 Input 8 Contact Closure Input
Bank 3 Input 7 Ground
Bank 3 Input 7 Contact Closure Input
Bank 3 Input 6 Ground
Bank 3 Input 6 Contact Closure Input
Bank 3 Input 5 Ground
Bank 3 Input 5 Contact Closure Input
Bank 3 Input 4 Ground
Bank 3 Input 4 Contact Closure Input
Bank 3 Input 3 Ground
Bank 3 Input 3 Contact Closure Input
Bank 3 Input 2 Ground
Bank 3 Input 2 Contact Closure Input
Bank 3 Input 1 Ground
Bank 3 Input 1 Contact Closure Input
Bank 2 Input 8 Ground
Bank 2 Input 8 Contact Closure Input
Bank 2 Input 7 Ground
Bank 2 Input 7 Contact Closure Input
Bank 2 Input 6 Ground
Bank 2 Input 6 Contact Closure Input
Bank 2 Input 5 Ground
Bank 2 Input 5 Contact Closure Input
Bank 2 Input 4 Ground
Bank 2 Input 4 Contact Closure Input
Bank 2 Input 3 Ground
Bank 2 Input 3 Contact Closure Input
Bank 2 Input 2 Ground
Bank 2 Input 2 Contact Closure Input
Bank 2 Input 1 Ground
Bank 2 Input 1 Contact Closure Input
Bank 4 Input 8 Ground
Bank 4 Input 8 Contact Closure Input
Bank 4 Input 7 Ground
Bank 4 Input 7 Contact Closure Input
Bank 4 Input 6 Ground
Bank 4 Input 6 Contact Closure Input
Bank 4 Input 5 Ground
Bank 4 Input 5 Contact Closure Input
Bank 4 Input 4 Ground
Bank 4 Input 4 Contact Closure Input
Bank 4 Input 3 Ground
Bank 4 Input 3 Contact Closure Input
Bank 4 Input 2 Ground
Bank 4 Input 2 Contact Closure Input
Bank 4 Input 1 Ground
Bank 4 Input 1 Contact Closure Input
Bank 6 Input 8 Ground
Bank 6 Input 8 Contact Closure Input
Bank 6 Input 7 Ground
Bank 6 Input 7 Contact Closure Input
Bank 6 Input 6 Ground
Bank 6 Input 6 Contact Closure Input
Bank 6 Input 5 Ground
Bank 6 Input 5 Contact Closure Input
Bank 6 Input 4 Ground
Bank 6 Input 4 Contact Closure Input
Bank 6 Input 3 Ground
Bank 6 Input 3 Contact Closure Input
Bank 6 Input 2 Ground
Bank 6 Input 2 Contact Closure Input
Bank 6 Input 1 Ground
Bank 6 Input 1 Contact Closure Input
Bank 5 Input 8 Ground
Bank 5 Input 8 Contact Closure Input
Bank 5 Input 7 Ground
Bank 5 Input 7 Contact Closure Input
Bank 5 Input 6 Ground
Bank 5 Input 6 Contact Closure Input
Bank 5 Input 5 Ground
Bank 5 Input 5 Contact Closure Input
Bank 5 Input 4 Ground
Bank 5 Input 4 Contact Closure Input
Bank 5 Input 3 Ground
Bank 5 Input 3 Contact Closure Input
Bank 5 Input 2 Ground
Bank 5 Input 2 Contact Closure Input
Bank 5 Input 1 Ground
Bank 5 Input 1 Contact Closure Input
Connect Expansions to
See Status of Remote
Relays
XR Expansions Chain Together
So You Can Monitor the Status
of up to 256 Remote Relays.
Connect More Expansions Here,
Any XR Expansion May be Used. Connect More Contact Closure
Input Expansions, Up to 256 Total
Inputs Supported.
Device Characteristics
Voltage Requirements:
10‐15VDC Regulated or Automotive Supply Recommended
UNREGULATED WALL ADAPTERS SHOULD NOT BE USED WITH
THIS DEVICE.
Amperage Requirements: 300MA Absolute MAX
Power Connector type: 2.1mm Center Positive
Power Supply: PWR12 (www.iorelay.com)
Power Cable: CP‐2185‐ND (www.digikey.com)
CP‐2189‐ND (www.digikey.com)
Power Connector: SC1052‐ND (www.digikey.com)
Input Ratings:
The inputs of the ZigBee Mirror Module were designed to ac‐
cept contact closures ONLY. Voltages should not be applied to
the inputs. All inputs are pulled up to 5VDC using a 1K Resis‐
tor. All inputs share a single common ground.
Input Compatibility:
Switches
Push Buttons
Magnetic Reed Switches
Mechanical Relays
Motion Detectors (if equipped with contact closure outputs)
Any other device that can connect 2 wires together
Transmission Range:
Up to 300 Feet using XBee Module.
Up to 1 Mile using XBee Pro module and Rooftop Antenna.
Communication range will vary greatly and is very difficult to
predict. For best results, choose a controller with an external
antenna. This allows for positioning the antenna for better
communication. The most popular ZigBee choice is the XBee
Pro Module with the External Antenna (this is the most expen‐
sive option when ordering). This device offers the best possi‐
ble range and flexibility if you determine an outdoor antenna
may be required.
Enclosures:
ZigBee Mirror Modules were not profiled for use with a specific
enclosure. Many enclosures are available from
www.digikey.com and www.mouser.com that could work with
some minor drilling. We do not recommend any particular
part number. Users should review enclosure types carefully.
Metal enclosures should not be used unless you have chosen
the External Antenna Option and you plan to mount the an‐
tenna outside the enclosure.
Operating/Storage Temperature:
‐40 to +125° C
Note: Temperature ratings are based on Ratings provided to us
by the manufacturer of the components used in our products.
This rating represents the most temperature sensitive compo‐
nent used. We do not do any form of environmental testing to
verify manufacturer ratings.
Country of Origin:
This device was designed and manufactured in the United
States of America using components from many countries.
FCC/UL Approvals:
NCD Implements communication technologies from
www.digi.com. ZigBee communication devices are UL/FCC
approved for use in the United States and Europe. Agency ap‐
provals may not be available in all countries. Details on agency
approvals are available from www.digi.com. It is the policy of
National Control Devices to assist customers in UL/FCC compli‐
ance in any way necessary, including design modifications, if
required, to meet UL/FCC compliance. NCD does not directly
obtain approval from these agencies as product volumes are
too low to be practical for all NCD devices. To date, many NCD
devices have met these approvals without design modifica‐
tions, when installed in a proper enclosure that meets certifica‐
tion requirements. Electrically, no design changes have ever
been required to meet these certifications.
Technical Support:
Please contact National Control Devices if you are seeking
technical support for this or other devices.
Warranty
Warranty
NCD Warrants its products against defects in materials and
workmanship for a period of 5 years. If you discover a defect,
NCD will, at its option, repair, replace, or refund the purchase
price. Simply return the product with a description of the prob-
lem and a copy of your invoice (if you do not have your invoice,
please include your name and telephone number). We will re-
turn your product, or its replacement via UPS Ground service
anywhere within the continental United States. Customers out-
side the continental US 48 States will be responsible for all ship-
ping charges.
This warranty does not apply if the product has been modified or
damaged by accident, abuse, or misuse.
30-Day Money-Back Guarantee
If, within 30 days of having received your product, you find that it
does not suit your needs, you may return it for a refund. NCD
will refund the purchase price of the product, excluding shipping/
handling costs. This guarantee does not apply if the product has
been altered or damaged.
Copyrights and Trademarks
Copyright 2009 by NCD. All rights reserved. Other brand and
product names are trademarks of registered trademarks of their
respective holders.
Disclaimer of Liability
NCD is not responsible for special, incidental, or consequential
damages resulting from any breach of warranty, or under any
legal theory, including lost profits, downtime, goodwill, damage
to or replacement of equipment or property, and any costs or
recovering, reprogramming, or reproducing any data stored in or
used with NCD products.
Technical Assistance
Technical questions should be directed to National Control De-
vices Technical Support Staff. For current contact information,
please visit www.iorelay.com and click “Contact Information” on
the left side. Technical questions submitted via e-mail are an-
swered frequently throughout the business day. Technical sup-
port is also available by calling (417) 646-5644.
NCD Contact Information
Mailing Address:
National Control Devices
P.O. Box 455
Osceola, MO 64776
Telephone:
(417) 646-5644
FAX:
(866) 562-0406
Internet:
www.controlanything.com
www.controleverything.com
www.iorelay.com
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