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M1XRF2G  Installation Manual

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Devices that communicate on the RS-485 4-wire data bus must each have a valid address setting (from 1 to 15) within
their device type.  Keypads are TYPE 1, Hardwire and Wireless Input expanders are TYPE 2, Output expanders TYPE 3,
Serial expanders TYPE 4.  The device types allow address numbers to be re-used in each different device type.  There are
4 address switches, each with an OFF or ON position (binary value 0 or 1) and decimal equiv. value of (1, 2, 4, or 8).  The
total decimal value of the "ON" switches determines the data bus address.  Set the switches to the desired data bus
address by referring to Tables 1-1 and 1-2.  A small screwdriver may be helpful.  See important information before
proceeding to "Data Bus Enrollment".

VERY IMPORTANT!   PLEASE READ!

Due to Hardwire and Wireless expanders sharing the same device type and same bus address range,
unintentional data bus "Conflicts" are possible with M1XRF Wireless Receiver(s) and M1XIN Hardwired
Expander(s) installed on the same control.  These conflicts can be avoided with proper understanding of
the issues and careful planning and execution during installation.  The important point to remember is
that M1XRF Wireless Receivers and M1XIN Zone Expanders share the same data bus addresses.  Below
are some issues and recommendations to avoid addressing conflicts:

M1XIN Expanders

:  A single ELK-M1XIN Hardwired Zone Expander (M1XIN) provides 16 hardwired zones.  The data bus

address SETS THE ID OF THE STARTING ZONE of each 16 zone group.  See Table 1-1.  If additional M1XINs are installed,
each must have a different address (usually the next available) to set the starting zone of the next 16 zone group.  I.E., Each data
bus address equates to a specific group of 16 zone IDs.  Everything works fine as long as there are NO DUPLICATE addresses.

M1XRF Receivers

:  The main differences between a Wireless Receiver and a ELK-M1XIN Zone Expander are:

1) Using only a single (1) Wireless Receiver it is possible to add up to 144 wireless zones to the control in groups of 16 at

a time.  However, in order to have 144 total wireless zones the first group of 16 must begin at zone 17 and the rest of the
wireless zones must be sequential through zone 160.  Caution!  If any hardwired zone expanders are enrolled in the
range of zones 17 through 160 then 16 wireless zones will be lost for every hardwired (16 zone) expander.

2) It is possible to have multiple M1XRF Wireless Receivers installed for added range and coverage redundancy.  The

"redundant" receivers can be assigned to any unused data bus address.  For this reason the data bus address of an
Wireless Receiver does not actually determine the starting wireless zone number.  Even so, for the sake of simplicity,
installers are encouraged to set the data bus address of the first M1XRF Receiver (if there are multiple Receivers) to the
starting zone ID as depicted in Tables 1-1 and 1-2.

NOTE: ELK strongly recommends that the starting wireless zone number conforms to the numbering scheme shown
in Tables 1-1 and 1-2, even though the actual data bus address of the M1XRF could be address 10 while the first
group of 16 wireless zones could be programmed as 17-32.  Although there may be some benefits to being able to
program the starting zone without regard to the data bus address, the disadvantages are potential zone numbering
conflicts when M1XIN Hardwired Zones Expanders exist.  

For the sake of simplicity, installers are encouraged to

set the starting zone ID and the M1XRF data bus address to conform to the conventional settings used by the
hardwired zone expanders.  Refer to Tables 1-1 and 1-2 on opposite page.

Other important considerations when installing an M1XRF:

a) From a system standpoint wireless zones should be considered to be minimum blocks of 16 zones, even though all of

the 16 zones do not necessarily need to be utilized.

b) Care must be taken to ensure that wireless zones NEVER spill over into data bus addresses that are already assigned

to or in use by a M1XIN Hardwired Zone Expander and vs. versa,

c) Regardless of where the wireless zones start we strongly suggest that all additional wireless zones be contiguous and

that no M1XIN Hardwired Zone Expanders be installed at data bus addresses associated with those wireless zone
numbers.  Data Bus Addresses whose zone IDs are effectively "overlapped" by wireless zones are considered
"reserved" for wireless use and should not be used by a hardwired zone expander.  See Appendix C.

d) The last wireless zone number cannot be above 160.  Basically, zones 161 through 208 cannot be wireless zones.
e) The maximum number of wireless zones is 144, therefore the last wireless zone number cannot be greater than 160.

Example:  

Let's say the starting wireless zone ID is set to "17" (associated with data bus address 2) and you decide to

create 64 contiguous zones starting from 17.  That means that zones 17 to 31, 32 to 48, 49 to 64, and 65 to 80 are going to be
wireless zones.  Based on Tables 1-1 and 1-2 it is easy to see that zones 17 to 31 are associated with data bus address 2
and zones 32 to 48, 49 to 64, and 65 to 80 are associated with data bus addresses 3, 4, and 5 respectively.  Based on this,
addresses 3,4, and 5 are NOT AVAILABLE for use by M1XIN Expanders because the wireless zones are overlapping these
addresses.

NOTE: Consider whether the system may ever required more wireless or hardwired zones.  If the answer is yes it
would be good to plan the data bus address assignments in such a way that future growth is possible without having
to default the control or totally re-arrange the addresses at a future date.

Setting the M1XRF Data Bus Address and the Starting Wireless Zone ID

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Summary of Contents for ELK-M1XRF2G

Page 1: ... Programming Software version 1 6 16 or higher is required for programming the M1XRF Do Not update controls that are connected to GE NX wireless receivers to 5 x x firmware Continue to use 4 x x firmware with GE receivers Firmware 5 x x is ONLY for use with the ELK M1XRF receiver ELK M1XRF2G Wireless Receiver and Input Expander Compatible with specific models of GE Wireless Sensors Refer to page 7...

Page 2: ...e or more of the following measures If using an indoor antenna have a quality outdoor antenna installed Reorient the receiving antenna until interference is induced or eliminated Move the receiver away from the security control Move the antenna leads away from any wire runs to the security control Have the device or controller plugged into a different outlet so that it and the receiver are on diff...

Page 3: ...m Regardless of which receiver picks up the Keyfob transmission the data will be sent back to the panel for processing The ELK M1Gold or M1EZ8 MUST be operating firmware 5 0 12 or higher ElkRP Programming Software version 1 6 16 or higher is required for programming NOTE The 2G suffix on the M1XRF part number refers to 2 antenna GE compatibility The M1XRF2G is ONLY compatible with specific models ...

Page 4: ...t proper connections of data bus devices with multiple homerun cables 3 Antenna Installation M1XRF2G is supplied with four 4 antennas Two 2 of these antennas installed into the top locations marked Antenna1 Antenna 2 will be more than adequate for proper receiver performance The dual antennas ensure signal diversity which helps eliminate RF dead spots The two 2 extra antennas are called Ground Pla...

Page 5: ...the data bus address of the first M1XRF Receiver if there are multiple Receivers to the starting zone ID as depicted in Tables 1 1 and 1 2 NOTE ELK strongly recommends that the starting wireless zone number conforms to the numbering scheme shown in Tables 1 1 and 1 2 even though the actual data bus address of the M1XRF could be address 10 while the first group of 16 wireless zones could be program...

Page 6: ... up to display 9 Installation Programming Press the RIGHT arrow key to select this menu The Installer Program Code PIN must be entered to access this menu 2 Enter the Installer Program Code The default code is 172839 3 The first Installer Programming menu displayed will be Bus Module Enrollment 4 Press the RIGHT arrow key to select this menu Enrolling Bus Modules will display 5 The control will tr...

Page 7: ...t to YES to use a N C Switch on External Contacts NO to use a N O Switch Enroll Process Twist end cap using a coin or screwdriver 1 8 CCW A Door And Window Transmitter GE part 60 688 95 or equivalent OPTIONS WZnxxx 03 Option 1 set to YES to disable internal Reed Switch NO leaves the internal switch active OPTIONS WZnxxx 04 Option 2 set to YES to use a N C Switch on External Contacts NO to use a N ...

Page 8: ...ammed using either the M1 Keypad Installer Programming or the ElkRP Remote Programming software The following pages document the options and steps for programming from the keypad Transmitter RF Level Checking Signal Strength Wireless transmitters send multiple repeats or rounds of their data transmission packets to compensate for interfer ence weak signal etc In the case of GE Transmitters Intrusi...

Page 9: ... key to select 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345...

Page 10: ...34567890123456789012345678901212345 1234567890123456789012345678901212345 3 Learn Selb Prgr WirelessTransmtr 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 123456789012345678901234567890121234 12345678901234567890123456789012...

Page 11: ...ddr 4 Zn 49 64 M1XRF Cells marked indicate a Reserved Address which can only be used for wireless zones Cells marked RRF indicate bus addresses where ONLY a redundant M1XRF Receiver can be installed Cells marked H or RRF indicate bus addresses where either a M1XIN Hardwired Expander OR a redundant M1XRF Receiver can be installed These charts are intended to help visualize how the Wireless Zones an...

Page 12: ...Data Bus Addr 2 Zn 17 32 Data Bus Addr 3 Zn 33 48 Data Bus Addr 4 Zn 49 64 Data Bus Addr 5 Zn 65 80 Data Bus Addr 6 Zn 81 96 Data Bus Addr 7 Zn 97 112 Data Bus Addr 8 Zn 113 128 Data Bus Addr 9 Zn 129 144 Starting Zn ID 145 Data Bus Addr 10 Zn 145 160 H or RRF Total Wireless Zones max 16 H or RRF H or RRF H or RRF H or RRF H or RRF H or RRF H or RRF H or RRF H or RRF H or RRF Data Bus Addr 12 Zn 1...

Page 13: ...ones 145 160 Zones 161 176 Zones 177 192 Zones 193 208 Bus Addr x Bus Addr 2 Bus Addr 3 Bus Addr 4 Bus Addr 5 Bus Addr 6 Bus Addr 7 Bus Addr 8 Bus Addr 9 Bus Addr 10 M1XIN or Keypad Zones Bus Addr 13 M1XRF M1XIN or Redundant M1XRF NO M1XIN Expanders on these addresses Zones 1 16 Inputs on Main Panel Zones 17 32 Zones 33 48 Zones 49 64 Zones 65 80 Zones 81 96 Zones 97 112 Zones 113 128 Zones 129 14...

Page 14: ...edundant Receivers In theory it is possible to install up to 11 total M1XRF2G Receivers onto a single M1 or M1EZ8 control but only if there were NO M1XIN Expandersinstalled For large installations or added coverage in areas with poor wireless conditions additional M1XRF Redundant Receivers can be connected to the data bus Redundant receivers must be addressed and enrolled for proper supervision Lo...

Page 15: ... connection Again use the appropriate Direct using Com_ OR Network options 4 Click on Update Verify Firmware from the Send Rcv menu icon 5 On the Update Verify screen select the device to be updated In this case it is a Input Expander Then also select the Update to new firmware option Then click Continue 6 The Update Firmware screen displays the device name the current Firmware Hardware and Bootwa...

Page 16: ...Page 16 M1XRF2G Installation Manual All manuals and user guides at all guides com a l l g u i d e s c o m ...

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