legrand LMJA-8125-SM Network Controller with Segment Manager Station Installation Guide
- October 30, 2023
- Legrand
Table of Contents
LMJA-8125-SM Network Controller with Segment Manager Station
DLM LMJA-8xxx-SM Network Controller with Segment Manager
Station
Overview
The DLM LMJA-8xxx-SM Network Controller with Segment Manager
Station is a device used for controlling and managing segments of a
network. It comes with a microSD flash memory card that contains
the unique Niagara identity for the unit, set at the factory. The
device is sensitive to static discharge and requires careful
handling during installation, servicing, or operation.
Preparation
Before using the LMJA-8xxx-SM controller, follow the below
preparation steps:
-
Unpack the controller and power module and inspect the package
contents for damaged or missing components. If damaged, notify the
appropriate carrier at once and return any damaged components for
immediate repair or replacement. -
Review the safety precautions and warnings provided in the user
manual to prevent personal injury or equipment damage.
Safety Precautions
The following are general warnings related to the installation
and start-up of the LMJA-8xxx-SM controller:
-
Be cautious when handling the controller to prevent personal
injury or equipment damage. -
Do not use the controller for any other purpose than its
intended use.
Static Discharge Precautions
The microprocessors and associated circuitry within a Segment
Manager are sensitive to static discharge. Follow these precautions
when installing, servicing, or operating the system:
- Use a wrist strap when handling PCBs. The wrist strap clamp
must be secured to earth ground.
Product Usage Instructions
Inserting or Removing the Micro SD Card Installation
To insert or remove the microSD card, follow the below
steps:
-
Before mounting a new controller, remove ALL power to the
controller. If the unit is currently running, initiate a controller
shutdown. -
Carefully slide the plastic microSD card shutter open. The
shutter should remain captive in the base, revealing the microSD
card socket. -
To insert the microSD card, slide it into the card carrier,
label side up, until the spring catch engages. If properly
inserted, the card is behind the shutter track. -
To remove the microSD card, push it in, until the spring
release pushes it partially out of the card carrier. Grasp the
card, pull it completely out of the unit and store it in a
static-free protective case. -
Carefully slide the card shutter back over the card carrier
opening, until it clicks into place. When properly closed, the
shutter should not protrude behind the mounting base.
Note: Data on the microSD card is encrypted. If you swap in a
card from a previously configured unit, you must change the
LMJA-8xxx-SM system passphrase on the platform to match the
passphrase on the new microSD card. Typically, the microSD card
never needs removal. However, in the case where a controller has
been electrically damaged or found faulty, you can remove the card
and install it in another like unit, so it can become a functional
replacement.
Mounting
Mount the LMJA-8xxx-SM controller in a location that allows
clearance for wiring, servicing, and module removal. Note the
following requirements for the LMJA-8xxx-SM controller mounting
location:
-
Do not mount the device in an area where excessive moisture,
corrosive fumes, or explosive vapors are present. -
Avoid mounting the device in a location subject to vibration or
shock. -
Avoid mounting the device in a location subject to electrical
noise, including the proximity of large electrical conductors,
electrical machinery, welding.
Following these instructions will ensure the proper
installation, use, and maintenance of the DLM LMJA-8xxx-SM Network
Controller with Segment Manager Station.
No: 28957 04/22 rev. 5
Wattstopper ®
DLM LMJA-8xxx-SM Network Controller with Segment Manager Station
Installation Instructions · Instructions d’Installation · Instrucciones de
Instalación
Catalog Numbers · Les Numéros de Catalogue · Los Números de Catálogo:
LMJA-8125-SM, LMJA-8300-SM
Country of Origin: Made in China · Pays d’origine: Fabriqué en Chine · País de
origen: Hecho en China
OVERVIEW
Wattstopper offers two network controllers that provide advanced building
management and automation features for customers using Digital Lighting
Management (DLM) BACnet-based networks and devices–the LMJA-8125-SM and
LMJA-8300-SM. These units (referred to as LMJA-8xxx-SM) use the same hardware
and are powered by the Tridium N4 Niagara platform, the only difference being
the number of control points they are licensed for. The controllers also
include the Segment Manager (or Segman) Station – an easy-to-use interface for
DLM product configuration. When used with a DLM wired or wireless network
segments the LMJA-8xxx-SM series network controllers provide global control,
monitoring, adjustment, scheduling, and support for custom graphics. Larger
buildings and campus deployments with multiple network controllers can also
communicate to a “Supervisor” software package for a single point of BACnet
management and monitoring. The LMJA-8xxx-SM series can be configured to work
with just the DLM platform or can be integrated into an existing 3rd party
Building Management System (BMS).
PREPARATION
Unpack the LMJA-8125-SM/8300-SM controller and power module and inspect the package contents for damaged or missing components. If damaged, notify the appropriate carrier at once and return any damaged components for immediate repair or replacement.
Included in this Package Included in this package you should find the
following items:
· (1) DLM LMJA-8xxx-SM controller unit with micro SD card · (1) Controller
power supply receptacle power supply (Cat # NB-PS1) · (1) Wattstopper DLM
quick reference guide · (1) Wattstopper installation sheet (28957) · (1)
Accessory wiring and connector accessory pack
Safety Precautions
The following items are warnings of a general nature relating to the
installation and start-up of the sure to heed these warnings to prevent
personal injury or equipment damage.
CAUTION
LMJA-8xxx-SM. Be
WARNING
· Disconnect power before installation or servicing to prevent electrical
shock or equipment damage. · Make all connections in accordance with national
and local electrical codes. Use copper conductors only. · To reduce the risk
of fire or electrical shock, install in a controlled environment relatively
free of contaminants. · This device is only intended for use as a monitoring
and control device. To prevent data loss or equipment damage, do not use it
for any other purpose.
Static Discharge Precautions
Static charges produce voltages high enough to damage electronic components.
The microprocessors and associated circuitry within a Segment Manager are
sensitive to static discharge. Follow these precautions when installing,
servicing, or operating the system:
CAUTION
· Work in a static-free area. · Discharge any static electricity you may have
accumulated. Discharge static electricity by touching a securely grounded
object. · Do not handle the printed circuit board (PCB) without proper
protection against static discharge. Use a wrist strap when handling
PCBs. The wrist strap clamp must be secured to earth ground.
1
Inserting or Removing the Micro SD Card Installation
Before mounting a new controller, you must insert the included microSD flash
memory card. Note the card has the unique Niagara identity (host ID) for the
unit, set at the factory. ALL power to the controller must be removed. If the
unit is currently running, initiate a controller shutdown.
2
1. Access shutter for microSD card (slide down/up to open/close)
2. Card carrier inside controller
3. MicroSD card to insert or remove from card carrier
1
3
Carefully slide the plastic microSD card shutter open. The shutter should
remain captive in the base, revealing the microSD card socket.
To insert the microSD card, slide it into the card carrier, label side up,
until the spring catch engages. If properly inserted, the card is behind the
shutter track.
To remove the microSD card, push it in, until the spring release pushes it
partially out of the card carrier. Grasp the card, pull it completely out of
the unit and store it in a static-free protective case.
Carefully slide the card shutter back over the card carrier opening, until it
clicks into place. When properly closed, the shutter should not protrude
behind the mounting base.
NOTE: Data on the microSD card is encrypted. If you swap in a card from a
previously configured unit, you must change the LMJA-8xxx-SM system passphrase
on the platform to match the passphrase on the new microSD card. Typically,
the microSD card never needs removal. However, in the case where a controller
has been electrically damaged or found faulty, you can remove the card and
install it in another like unit, so it can become a functional replacement.
MATERIAL AND TOOLS REQUIRED
· One of the following: UL Listed, Class 2, 24VAC transformer, rated at
minimum of 24VA. A dedicated transformer is required (cannot power additional
equipment), -OR 24VDC power supply, capable of supplying at least 1A (24W),
-OR NB-PS1 wall-mount AC power adapter with barrel connector plug (included
with unit)
· DIN rail, type NS35/7.5 (35mm x 7.5mm_ and DIN rail end-clips (stop clips),
recommended for any installation with option modules. Controller is also panel
mountable.
· Suitable tools, fasteners, and accessories for mounting
MOUNTING
Mount the LMJA-8xxx-SM controller in a location that allows clearance for
wiring, servicing, and module removal. Environmental Requirements Note the
following requirements for the LMJA-8xxx-SM controller mounting location:
· This product is intended for indoor use only. Altitude to 6,562 ft (2,000m).
· Ambient conditions must be within the range of: Operating Temperature: -4°F
to 140°F (-20°C to 60°C), Storage Temperature: -40°F
to 185°F (-40°C to 85°C) · Relative Humidity: 5% to 95% non-condensing,
Pollution Degree 3 · Supply (mains) voltage requirements: Allowable voltage
fluctuation +/- 10% · Do not expose the unit to ambient conditions outside of
the range of 0ºC (32º F) to 50ºC (122º F) and relative humidity outside the
range 5% to 95% non-condensing. · If mounting inside an enclosure, that
enclosure should be designed to keep the unit within its required operating
range considering
a 24-watt dissipation by the controller, plus dissipation from any other
devices installed in the same enclosure. This is especially important if the
controller is mounted inside an enclosure with other heat producing equipment.
· Do not mount the unit:
In an area where excessive moisture, corrosive fumes, or explosive vapors are
present Where vibration or shock is likely to occur In a location subject to
electrical noise, including the proximity of large electrical conductors,
electrical machinery, welding
equipment, spark igniters, and variable frequency drives, etc.
2
Physical Mounting
The following information applies to physically mounting the unit.
· You can mount the LMJA-8xxx-SM in any orientation. Horizontal mounting (as
shown) is strongly recommended to achieve maximum heat dissipation and meet
the operating temperature upper limit. Any other mounting orientation reduces
this upper limit.
· Mounting on a 35mm wide DIN rail is recommended. The LMJA-8xxx-SM unit base
has a molded DIN rail slot and locking clip. DIN rail mounting ensure
alignment of the connectors between all devices.
· If DIN rail mounting is impractical, you can use screws in mounting tabs on
the controller (see next page) · The LMNC-ENC1 is an optional DIN rail
equipped enclosure. The LMNC-ENC1 provides an integral 120VAC receptacle,
conduit
connection points and protection for the LMJA-8xxx-SM. It is designed for
applications where code or the local AHJ requires that low voltage wiring such
as control and communication wiring be run inside conduit, or where needed for
customer specifications. See the instructions provided with the LMNC-ENC1 for
more information. · The LMJA-8xxx-SM controller can also be mounted in a
larger LMNC-MT or other enclosure, where multiple NB-Routers and an NB-Switch
are used.
2
3 1
NOTE: To remove a unit from the DIN rail, pull down its locking clip, then swing the bottom out and lift the unity away from the DIN rail.
4
To mount on third-party DIN rail The following procedure provides step-by-step
DIN rail mounting instructions for the LMJA-8xxx-SM. It is recommended to
leave 2 inches of clearance above and below the unit.
1. Pull the controller’s locking clip down. 2. Tilt the controller to hook
over the DIN rail. 3. Push down and in on the unit, fastening to the rail. 4.
Push the locking clip up to secure. 5. Mount any option module (RS-485 Module)
onto the DIN rail in the same way. 6. Carefully secure both ends of the final
assembly with DIN rail end-clips provided by the DIN rail vendor.
5
6
6
3
DIN Rail Mounting Dimensions
This diagram shows mounting dimensions of controller and option modules.
Electronic and printed versions of this guide may not show the dimensions to
scale. Verify all measurements before drilling.
2.17″ (55mm) 4.33″ (110mm)
7.05″ (179mm) 6.38″ (162mm)
2.26″ (57.5mm)
2.13″ (54mm)
9.53″ (242mm)
Tab Mounting Dimensions Measurements shown below are in inches and (mm). NOTE: DIN rail mounting is recommended over tab mounting.
2
.34″ (9mm)
0.165″ Diam. (4mm)
1
6.74″ (171mm)
3
3.31″ (84mm)
4.33″ (110mm)
2.31″ (54mm)
6.74″ (171mm)
2.07″ (52.5mm) 2.41″ (61mm)
6.38″ (162mm) 7.05″ (179mm)
1. The LMJA-8xxx-SM controller. With no option modules added, allow at least
1.5″ (38mm) clearance around all sides. 2. Optional expansion module. Up to
one (1) may be used. 3. Distances between center of tabs from one unit to
another unit.
WIRING DETAILS
Make connections to the controller in the following order: 1. Connect supplied
earth grounding wires (with spade connector) from the earth ground lug on the
controller to a nearby earth grounding point. See “Wiring: Earth Ground and
Power” for details. 2. Prepare power wiring, but leave the unit powered off;
do not plug in the power connector from the Power Module until all other
mounting and wiring is complete. See “Wiring: Earth Ground and Power” for
details. 3. Connect communications cables. See pages 11 for ports available on
the LMJA-8xxx-SM.
Grounding An earth ground spade lug (0.187″) is provided on the base of the
LMJA-8xxx-SM for connection to earth ground. For maximum protection from
electrostatic discharge or other forms of EMI, connect the supplied earth
grounding wire to this lug and a nearby earth ground (see page 8). Keep this
wire as short as possible.
4
Power Wiring The LMJA-8xxx-SM must be powered by an approved 24VDC power
source. This can be either an external wall mount AC adapter (NBPS1), or other
source of 24 volts DC.
The LMJA-8xxx-SM does not have an on/off switch. To apply power, plug in to
either the Barrel power connector (1) or 2 position plug (2).
12
CAUTION
Do not plug the power supply connector into the LMJA-8xxx-SM controller until all other mounting and wiring is completed.
Communications Wiring Before connecting cables, provide strain relief for them
to prevent damage to the LMJA-8xxx-SM. Connect communications wiring to the
LMJA-8xxx-SM (see page 11), which include:
· RJ-45 Ethernet for PC or LAN connection · RS-485 (2-position) for LMJA-8xxx-
SM (BACnet MS/TP) connections. THIS MUST BE WATTSTOPPER LM-MSPT-xxxx – No
other
version can be used!
Wiring an LMJA-8xxx-SM
Connect an RJ-45 Ethernet cable from a PC (or a network the PC is connected
to) to the LMJA-8xxx-SM. See the “Ethernet” section on the next page for
details.
For each segment you are connecting to the LMJA-8xxx-SM (up to 2), attach one
end of the LM-MSTP cable to a terminal block, as shown on page 9 including
RS-485 Bias switches settings for termination.
Connect the shield conductors from all network segments to earth ground at the
Segment Manager. The LMNC-ENC1 enclosure provides a ground lug for this
purpose and is recommended. Do not connect the shield conductor(s) at any
other device.
-OR-
Connect to a switch and to multiple routers, These components are usually
housed inside an LMNC DLM Network Component Enclosure. In this case, the LMJA-
8xxx-SM connects to the switch using Ethernet cable, and each router connects
to a segment using LM-MSTP cable. The rules regarding termination and
grounding still apply when connecting the cable to the router. See the wiring
examples.
WIRING: EARTH GROUND AND POWER
Earth Ground and Power Earth grounding provides protection from electrostatic discharge or
1
2
other forms of EMI.
Depending on power sourced used:
· 2.1 (AC): Dedicated 24V transformer required, with neither side of the
transformer secondary tied to ground
· 2.2 (DC): Polarity is unimportant (uses on board diode bridge), with neither
leg tied to ground
· 2.3 (Wall-mount AC adapter, NB-PS1) instead of wiring 24V to 2-position
connector
PREREQUISITE: A nearby earth ground point is needed. Before making power
terminations, de-energize the 24V power source. Do not restore power until
completing all other mounting and wiring.
1. Install the included earth ground wire to the controller’s earth ground
spade lug and terminate the other end to a nearby earth ground.
2. Unplug the controller’s 2-position power connector plug and terminate the
24V supply source (AC or DC) to the connector. Leave connector unplugged for
now.
5
COMMUNICATIONS WIRING
Ports for field communications are shown on controller.
1. RS485 ports and bias switches
2. Ethernet ports, 10/100-Mbit, RJ-45
3. Earth ground and 24V power input
4. WLAN is NOT enabled
3
Ethernet
Two female 10/100-Mbit Ethernet connections are provided on the LMJA-8xxx-SM. These are RJ-45 connectors labeled SEC and PRI. Use a standard Ethernet patch cable for connecting to an Ethernet switch. An activity LED for each Ethernet port is visible and they are labeled “SEC” (for LAN2) and “PRI” (for LAN1) on the cover.
The factory-default IP address for LAN1 on a LMJA-8xxxSM is 192.168.1.140. This address can be changed. See the Segment Manager 2.4 Operation Manual for details.
The subnet mask is 255.255.255.0.
The factory-default IP address for LAN2 on a LMJA-8xxx-SM is 192.168.5.140.
END BIA MID AA+ S BB+ S END BIA MID
(RS485-A (RS485-B COM 1) COM 2)
1
Serial Port LEDs See page 6.
Connecting the LMJA-8xxx-SM to an MS/TP Network
The LMJA-8xxx-SM should always be placed at one end of
an MS/TP segment. There is a maximum of 40 LMBC-300s
or panels (with a maximum of 340 total DLM devices) per segment network.
4
SEC PRI
2
ACC OFF
LT
NOTE: Because panels are a much larger collection of objects, they count as multiple rooms and devices. See the table in the next section.
(dm1 or (dm0 or LAN1) LAN0)
NOTE: Wattstopper recommends not fully loading a segment to maximum capacity, to allow for future changes or additions to the segment.
WIRING: RS485
On the controller’s top side, two RS485 ports operate as COM1 and COM2. Each
port is capable of up to 115,200 baud, and uses a 3-position, screw terminal
connector.
1. RS485 port A (COM1) is often used to support a LMJA-IO-R-34 module. NOTE:
Do not mix LMJA-IO-R-34 modules with other types of RS485 devices on the same
RS485 trunk.
2. RS485 port B (COM2) supporting a network of other field devices using
RS485 communications.
3. RS485 devices on the same network should use the same protocol and baud
rate. Up to 32 or more devices may be supported, depending on device
specifications.
Use Wattstopper LM-MSTP-xxx cabling to wire in a continuous multi-drop fashion
to other RS485 devices: “minus to minus,” “plus to plus,” and “shield to
shield.” Connect the shield wire to earth ground at one end only, for example
at the controller.
WARNING: You must use LM-MSTP-xxx cables. Do not use other shielded, twisted
pair cables.
Attaching Ferrules to LM-MSTP Wires
Wattstopper recommends attaching ferrules to the LM-MSTP wires to help
maintain signal integrity. Wires should be stripped as shown in the diagram
below. Insert the wire into a ferrule and crimp the end, using a crimping tool
designed to work with ferrules. Then insert the end of the ferrule into the
appropriate slot in the terminal block.
0.50″ 1.25″
Ferrule
Jacket
Bare Wire
Insulation
LM-MSTP wire Crimp
Insulation Strip Guide *Legrand recommends using Ferrules, but if not using, wire should be stripped to .25″ only
Attaching a Ferrule
6
1
(R)
RS485-A
(R)
LMJA-IO-R-34
S (Shield) + S (R)
(R)
LMJA-IO-R-34
NOTE: R = S Terminals on Tridium hardware for Wattstopper wiring. Wattstopper
uses a 3-wire conductor plus shield (LM-MSTP) for all installations.
The shield is terminated to ground typically at the network controller.
LMJA-8xxx-SM
OUT TO SEGMENT NETWORK
SH
2
RS485-A
(Shield) (R)
A-RS485-B TX RX TX RX PWR
RS485-B
(R)
RS485-B
(R)
(R)
NOTE: For additional information on LM-MSTP Wiring, see installation instructions for LMBC-300
MID BIA END
SH
LMJA-NPB-2X-485
LMJA-IO-R-34
NOTE: The power for the LMJA-IO-R-34 could be sourced from the LMJA-8xxx-SM if adequate current is available -ORa dedicated Class 2, 24V transformer, or to a 24VDC power source. The LMJA-IO-R-34 can share transformer power with an LMJA- 8xxx-SM. If powering from a 24V transformer, do not also power equipment (other than an LMJA-8xxx-SM) with the same transformer. Otherwise, conducted noise problems may result. Also, DO NOT ground either side of the transformer’s 24V secondary.
RS485 Bias Switches Each RS485 port has an adjacent 3-position biasing switch
with these settings:
BIA – (Default, middle) RS485 biasing and termination: 2.7K Ohm bias resistors
with no termination resistor END – RS485 biasing and a termination: 562 Ohm
bias resistors and 150 Ohm termination resistor MID – RS485 biasing or
termination: 47.5K bias resistors with no termination resistor
Often, adding RS-485 biasing can improve communications by eliminating
indeterminate idle states. BIA – (Default, middle) Often best if the RS485
trunk needs biasing, but when the controller is not installed at the end of
the trunk. END – Often best if the controller is installed at the end of an
RS485 trunk of devices that is not already biased MID -Often best if the
controller is put in the middle of an already-biased RS485 trunk
If desired, you can change the position of an RS485 port’s bias switch while
the controller is running. Each RS485 port has two LEDs.
7
POWER UP AND INITIAL CHECKOUT
Ensure power wiring to the LMJA-8xxx-SM is ready–see the “Wiring: Earth Ground
and Power” section. Refer to page 10 for the locations of the power
connections. After mounting and wiring, perform the following:
Step 1 Apply Power · Apply power to the LMJA-8xxx-SM by plugging the power
into one of the power connections on the LMJA-8xxx-SM. Refer to page 8 for
location of the power connector.
Step 2 Check the Status LEDs · When power is applied, the “STATUS” LED is
located to the right of the heartbeat (“BEAT”) LED, and is green. This LED
provides a CPU machine status check, and should be lit when the LMJA-8xxx-SM
is powered. If the STATUS LED is not lit while power is applied, contact
Wattstopper technical support. · Once the LMJA-8xxx-SM boots, the yellow
“BEAT” (heartbeat) LED begins blinking. The “BEAT” LED is located to the right
of the Ethernet LEDs, and is yellow. Under normal operation, this LED should
blink about once per second. If the heartbeat LED stays on constantly, does
not light, or blinks very fast (more than once per second), contact technical
support. · If after applying power, the STATUS LED goes out, or if the BEAT
LED comes on (steady) and stays lit longer than two minutes, contact
WattStopper Technical Support. See also the “Using Status LEDs” section.
STATUS LEDS
The controller provides a number of status LEDs, with all but one visible with the front access door closed.
1
23
45
678
1. WiFi (green) This option is not used 2. RS485 “A” (COM1) Transmit (TX,
Yellow) and Receive (RX, Green) 3. RS485 “B” (COM2) Trams,to (TX) and
Receive (RX) 4. STAT (Green) Remains lit 5. BEAT (Yellow) “Heartbeat” LED
that blinks at 1Hz during normal operation 6. Secondary Ethernet, SEC (LAN2)
“link” (Green) and “Activity” (Yellow) 7. Primary Ethernet, PRI (LAN1) “Link”
(Green), “Activity” (Yellow) 8. BACKUP (Behind door) Green, typically Off
unless a USB drive is inserted, or a backup, restore, or factory recovery
image install
is in progress.
USING STATUS LEDS
The LMJA-8xxx-SM includes several LEDs that can help you determine the status
of the unit. They are located in two places as shown in the Status LEDs
diagram above: the top of the LMJA-8xxx-SM (visible through the cover), and
for serial ports, on the bottom board (visible only with cover removed). From
left to right these LEDs include:
· Status (STATUS) · Heartbeat (BEAT) · Serial Ports (see USB Ports section on
page 10 for explanation) · Ethernet Ports (SEC, PRI)
8
Ethernet Ports Each Ethernet port (“SEC” for LAN2, “PRI” for LAN1) has one
green LED, visible on the top cover. The LED indicates activity on the
associated port as follows:
· Off No Ethernet link is made. · On Ethernet link is present, but no
activity on the LAN. · Blinking Ethernet link is present with data activity
on the LAN.
Heartbeat The “BEAT” LED is located to the right of the Ethernet LEDs, and is
yellow. Under normal operation, this LED should blink about once per second.
If the heartbeat LED stays on constantly, does not light, or blinks very fast
(more than once per second), contact technical support.
Status When power is applied, the “STATUS” LED is located to the right of the
heartbeat (“BEAT”) LED, and is green. This LED provides a CPU machine status
check, and should be lit when the LMJA-8xxx-SM is powered. If the STATUS LED
is not lit while power is applied, contact Wattstopper Technical Support.
RS485 LEDs RS485 port A (Com1) and RS495 port B (COM2) each have two LEDs
reflecting port activity as follows:
· Yellow (TX) Indicates the controller is transmitting data on the RS485
port · Green (RX) Indicates the controller is receiving data from an RS485
device connected to this port These LEDs use a fixed “on time” when a message
is detected on the port. If a receive LED is on constantly, this can indicate
a wiring problem, such as a shorted wire or reversed wiring.
STAT (Status) LED The green “STAT” LED provides a CPU machine status check,
and should remain lit whenever the controller is powered. If the status LED
does not light while power is applied contact tech support.
BEAT (Heartbeat) LED In normal operation, the yellow heartbeat (BEAT) LED
blinks at 1 Hz, at 50% on/off duty cycle. During controller boot up, this LED
may blink at 1 Hz with a 90%/10% on/off cycle, or in some other irregular
pattern. When boot up completes, the platform daemon is started, and the
normal 1 Hz flash at 50%/50% on/off duty cycle returns.
CAUTION The 1 Hz, 90%/10% on/off “BEAT” flash at boot up also occurs during
other critical operations, such as a firmware upgrade to the controller and/or
any attached modules. To be safe, do not remove power from the controller
while its “BEAT” LED flashes with a 90%/10% on/off duty cycle. Wait for the
normal (50%/50%) flash to return before removing power. If the “BEAT” LED
stays on constantly, does not light, or blinks very fast, contact technical
support.
PRI, SEC (Ethernet) LEDs Two LEDs for each of the two LAN ports indicate as
follows:
· Green (left side) “Link” LED operates as follows: Off No Ethernet link is
made On Ethernet link is made
· Yellow (right side) “Activity” LED operates as follows: Off No Ethernet
activity On Blinking indicates activity (typical if Link is On)
BACKUP LED
Warning Do not remove power while a recovery image install or backup restore
is in progress, meaning the BACKUP LED is flashing in “working mode” pattern
(1s On/1s Off, or slow blink). Otherwise, the controller will be inoperable
(“bricked”), and must be returned to a service center for repair. A green
“BACKUP” LED is behind the front access door, and is visible only if the door
is open (see diagram, next page). Typically, this LED remains off. Possible
“BACKUP” LED states are:
· On Solid USB backup media detected. Occurs when you insert a USB flash
drive to signal a backup is possible · Alert Mode 100ms On/100ms Off
repeating (fast blink). Occurs for several seconds in the following scenarios:
When USB media was detected, after the controller’s BACKUP button is pressed
(backup mode) When the controller is power cycled while holding in the BACKUP
button (recovery/restore mode) Working Mode 1s On/1s Off repeating (slow
blink. Never remove power in this mode (See following warning) Error Mode
Two quick 200ms flashes On, 3 seconds Off, repeating
9
Some scenarios where the BACKUP LED is used include: USB Drive Inserted: A USB
flash drive is inserted in the USB 2.0 port, to either backup a commissioned
unit to the USB drive, or to restore an existing backup from the drive. The
BACKUP LED lights when the USB drive is mounted. Backup: A backup is initiated
by pressing the BACKUP button from 1 to 5 seconds before releasing, where the
LED starts blinking in “alert mode” for 5 seconds. Another button press in
this period starts the backup, where the LED blinks in the “working mode”
pattern. When the backup completes, the LED turns Off, and the USB drive can
be removed. Boot to Recover Or Restore Image: The unit is powered up while
holding in the BACKUP button, for either:
· (No USB media detected) A “factory defaults” recovery from an onboard
partition with default image · (If USB media is detected) For the restore of a
backup image on the USB flash drive. Note: This also requires a serial shell
connection to the controller’s Debug port. In either case, the BACKUP LED
starts blinking in “alert mode” pattern. If you release the BACKUP button
during this period (within 5 seconds), initiation begins for either:
· If no USB media is detected, the “factory defaults’ recovery image
installation · If USB media is detected, the system enters “restore mode.” In
this mode, after login with serial shell, a menu lists the available
backup images on the USB flash drive. You can select one (and enter the unique
security key to initiate its installation, or alternatively select to install
the “factory defaults” recovery image. During a recovery or restore image
installation, the LED blinks in the “working mode” pattern. When the image
installation completes, the BACKUP LED turns Off. A controller reboot is then
required.
USB PORTS AND PUSHBUTTON SWITCHES
Behind the controller’s front access door are two USB ports, two pushbutton
switches, and an associated LED.
1
2
3
4
5
1. PROG USB 2.0 for usage with USB flash drive 2. DEBUG Micro-A USB for
serial debug communications 3. BACKUP Pushbutton switch to start a USB
backup, or if held in during power up/boot up, a factory recovery image 4.
SHT/DWN Recessed switch for controlled shutdown 5. BACKUP LED to indicate
USB media present, or a backup, restore, or factory recovery image in progress
The DEBUG port is a standard Micro-A type USB port for serial debug
communications to the controller. You can use a serial terminal program (for
example: PuTTY) to access the controller’s “system shell” menu. This provides
access to a few basic platform settings. Default DEBUG port settings are:
115200, 8, N, 1 (baud rate, data bits, parity, stop bits). NOTE: Login
requires admin-level platform credentials. The SHT/DWN pushbutton initiates a
“controlled shutdown” of the controller, ensuring that all station data is
preserved. This provides an alternative to the platform “stop station”
command, while connected online with controller.
10
INITIAL LOGIN AND SET UP
Make sure that you have followed all installation instructions and that the
controller is properly powered and connected to the segment network(s).
1. Connect a PC to the LAN 1 connection on the LMJA-8xxx-SM using a standard
Ethernet cable (not supplied). Note that some older PCs require the use of a
crossover cable for this connection.
2. Confirm that the LED labeled PRI is lit on the top of the LMJA-8xxx-SM
housing. This indicates that an Ethernet connection is present. Confirm that
the link indicator on the PC’s NIC is also lit. If both are not lit, try using
another cable or try using a crossover cable.
3. Set the network adapter in your PC to use a static IP address in the same
range as the LMJA-8xxx-SM. Set the PC to 192.168.1.xxx (where xxx is any
number between 001 and 255 and is not the same as the Segment Manager). Set
the subnet mask to 255.255.255.0. If you need assistance with this step, see
the Static IP Address Setup on pages 6-7.
4. Open a browser on the PC and enter the following in the address field:
http://192.168.1.140.
5. When the Login window appears, enter the factory default login: Username:
admin Password: Serial number of the LMJA-8xxx-SM + Ws (at the end of the
serial #, i.e.: 1234567Ws) Note that both the user name and password are case
sensitive. Click Login. Logins with individual permissions can be customized
for different users. You will be required to change the password after the
initial login.
6. The Segment Manager 2.4 Home window screen opens in the browser. Refer to
the LMJA-8xxx-SM User Manual for further set up and operation.
INITIATING A CONTROLLER SHUTDOWN
When locally servicing an installed and configured (commissioned) unit, use
this feature before removing power. NOTE: Do not initiate a shutdown or remove
power if:
· BACKUP LED is blinking in “working mode”, – or · Beat LED is flashing at a
90%/10% on/off rate. Instead, wait for the BACKUP LED to be in another state
(typically Off), and the BEAT LED to flashing at the normal 50%/50% on/off
duty cycle rate before initiating a shutdown.
Prerequisite: Controller has been commissioned (Niagara 4 installed, platform
configured, a station installed) and the unit is running the station.
1. Press and hold the recessed SHT/DOWN button just until the “BACKUP” LED
begins flashing in “alert mode” pattern: 100ms On/100ms Off repeating (fast
blink)
2. Release the SHUT/DOWN button during this alert mode. This starts the
shutdown process, where the station and software is put into a safe state.
During this shutdown, the “BACKUP” LED blinks in “working mode.”
3. When shutdown is done, the “BACKUP” LED turns off. You can safely remove
24V power from the unit NOTE: In the case where the system cannot be put into
a safe state, the “BACKUP” LED blinks in “error mode” – two quick 200ms
flashes On, 3 seconds Off, repeating.
END USER LICENSE AGREEMENT
“In order to enhance the security of our products, Legrand ships its products
with all insecure ports closed and insecure protocols disabled. You are free
to configure your device as needed, but in doing so note that you may be
decreasing the security of your device and any information contained in the
device. As you modify the device’s default settings, keep in mind how this may
impact the security of the device and your network. In addition, you should
use caution in connecting your device to the Internet, especially if you have
altered the default security settings. If you have any questions or concerns
about how your modifications of the device may affect its security, please
contact the Legrand customer service team at 1-800-879-8585 /
https://www.legrand.us/support/wattstopper.aspx”
11
STATIC IP ADDRESS SETUP
These instructions apply to Windows® 7, 8, or 10. Consult the appropriate
documentation for other operating systems. To set up the computer for direct
connection to the Segment Manager, proceed as follows: Click on the Start menu
and type: network sharing center. Then Click on “Network and Sharing Center”
in results.
1. Click Local Area Connection to open the Local Area Connection Status
window.
2. Click Properties. In the Local Area Connection Properties window, select
Internet Protocol Version 4 (TCP/IPv4).
12
3. Click Properties.
4. Select Use the following IP address. 5. Enter the IP address and Subnet
mask. Set the PC to 192.168.1.xxx (where xxx is any number between 001 and 255
and is not
the same as the Segment Manager). Set the subnet mask to 255.255.255.0. 6.
Click OK then close all remaining windows.
WIRING EXAMPLES
The following pages display some examples of various connection scenarios.
LMJA-8xxx-SM The LMJA-8xxx-SM can connect to up to two separate segments, and
is used for buildings in which there is no more than 120 rooms (controlled by
the LMBC-300 bridge) or common areas (controlled by a panel or zone
controller). EXAMPLE: A Single network segment with 40 or fewer rooms/common
spaces NOTE: Follow wiring details in Wattstopper Submittal regarding
reference wire, shield ground, and terminating resistors.
Ethernet cable to LAN, PC or BAS
40 – ROOM DLM Local
Network
LMJA-8xxx-SM
Segment Network
1 – ROOM DLM Local
Network
LMBC-300
4 – PUBLIC SPACE
LMBC-300
Linear Topology (daisy-chain)
LM-MSTP Wire
LMCP PANEL
13
2 – ROOM DLM Local
Network
LMBC-300 #3 – ROOM
DLM Local Network
LMBC-300
EXAMPLE: Three story building with no more than 40 rooms/common spaces per floor NOTE: Follow wiring details in Wattstopper Submittal regarding reference wire, shield ground, and terminating resistors.
Segment Networks 1, 2, and 3
Ethernet cable to LAN, PC or BAS
LMJA-8xxx-SM
3rd Floor
LMBC-300
LMBC-300
LMBC-300
Daisy-chain to LMBC/LMCP/LMZCs NO MORE THAN 40 TOTAL
2nd Floor LMBC-300
LMBC-300
LMBC-300
Daisy-chain to LMBC/LMCP/LMZCs NO MORE THAN 40 TOTAL
1st Floor
LMBC-300
LMJA-NPB-2X-485 option adds two additional MS/TP segment network connections
LMBC-300
LMBC-300
Daisy-chain to LMBC/LMCP/LMZCs NO MORE THAN 40 TOTAL
NOTE: Wattstopper recommends 32 rooms per MS/TP Segment instead of the maximum of 40, to allow for future changes or additions to the segment. For panels, see LMJA-8xxx-SM installation instructions for equivalency details.
EXAMPLE: Four story building with some floors having more than 40 rooms/common
spaces NOTE: Follow wiring details in Wattstopper Submittal regarding
reference wire, shield ground, and terminating resistors.
The LMJA-8xxx-SM can be used in conjunction with multiple NB-Routers and an
NB-Switch. These components are usually housed inside an LMNC DLM Network
Component Enclosure. Each router communicates with one segment. There is a
maximum of 300 rooms or common spaces controlled by a single LMJA-8xxx-SM, and
the maximum of 40 per segment still applies. Therefore a typical application
with close to 300 rooms/spaces (and up to 2000 DLM devices) might use between
seven and nine routers, depending on how many devices are connected in each
segment. (As mentioned previously, Wattstopper recommends not fully loading a
controller to maximum capacity, to allow for future changes or additions to
the segment.)
Ethernet
LMNC
Power Supply
NB-Switch
LMJA-8xxx-SM
LMBC-300, LMCP, or LMZC-301
Segment Networks 1 through 6
NB-Routers
4th Floor Rooms 401-440 3rd Floor Rooms 301-340 2nd Floor Rooms 241-280 2nd Floor Rooms 201-240 1st Floor Rooms 141-180 1st Floor Rooms 101-140
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
NOTE: Wattstopper recommends 32 rooms per MS/TP Segment instead of the maximum of 40, to allow for future changes or additions to the segment. For panels, see LMJA-8xxx-SM installation instructions for equivalency details.
14
EXAMPLE: Two LMJA-8xxxs – Example of a 10 story building with no more than 40
rooms/common spaces per floor In larger buildings with more floors and/or more
than 300 rooms/spaces, multiple segment managers are used and connected via
Ethernet.
NOTE: Follow wiring details in Wattstopper Submittal regarding reference wire,
shield ground, and terminating resistors.
Ethernet
LMNC-5 (With 5 routers and a 16 port switch) Located on 6th floor
LMBC-300, LMCP, or LMZC-301
Power Supply NB-Switch
Segment Networks 7 through 12
LMLJMAJ-A8-x8xxxx-xSM
NB-Routers
CABINET B
8th Floor Rooms 801-840
Daisy Chain NO MORE THAN 40 TOTAL
7thFloor Rooms 701-740
Daisy Chain NO MORE THAN 40 TOTAL
6th Floor Rooms 641-680
Daisy Chain NO MORE THAN 40 TOTAL
6th Floor Rooms 601-640
Daisy Chain NO MORE THAN 40 TOTAL
5th Floor Rooms 541-580
Daisy Chain NO MORE THAN 40 TOTAL
5th Floor Rooms 501-540
Daisy Chain NO MORE THAN 40 TOTAL
NOTE: Wattstopper recommends 32 rooms per MS/TP Segment instead of the maximum of 40, to allow for future changes or additions to the segment. For panels, see LMJA-8xxx-SM installation instructions for equivalency details.
Ethernet
LMNC-5 (With 5 routers and a 16 port switch) Located on1st floor
LMBC-300, LMCP, or LMZC-301
Power Supply NB-Switch
Segment Networks 1 through 6
LMJA-8xxx-SM
NB-Routers
CABINET A
4th Floor Rooms 401-440
Daisy Chain NO MORE THAN 40 TOTAL
3rd Floor Rooms 301-340
Daisy Chain NO MORE THAN 40 TOTAL
2nd Floor Rooms 241-280
Daisy Chain NO MORE THAN 40 TOTAL
2nd Floor Rooms 201-240
Daisy Chain NO MORE THAN 40 TOTAL
1st Floor Rooms 141-180
Daisy Chain NO MORE THAN 40 TOTAL
1st Floor Rooms 101-140
Daisy Chain NO MORE THAN 40 TOTAL
NOTE: Wattstopper recommends 32 rooms per MS/TP Segment instead of the maximum of 40, to allow for future changes or additions to the segment. For panels, see LMJA-8xxx-SM installation instructions for equivalency details.
15
WIRING EXAMPLE – WIRELESS
Example of a wireless 4 story building with no more than 40 rooms/common
spaces per floor In larger buildings with more floors and/or more than 300
rooms/spaces, multiple segment managers are used and connected via Ethernet.
Ethernet
LMNC
Primary LMBR-650
Power Supply
Secondary LMBR-650 (Up to 10)
Wireless room controller or
LMBC-650
NB-Switch LMJA-8xxx-SM
Wattstopper recommends a maximum of 50 wireless
powered devices and 250 total devices per Secondary LMBR-650
16
WIRING EXAMPLES – HYBRID
Example of a hybrid 4 story building with no more than 40 rooms/common spaces
per floor In larger buildings with more floors and/or more than 300
rooms/spaces, multiple segment managers are used and connected via Ethernet.
NOTE: Follow wiring details in Wattstopper Submittal regarding reference wire,
shield ground, and terminating resistors.
Ethernet
LMNC
Primary LMBR-650
Power Supply
NOTE: Wattstopper recommends 32 rooms per MS/TP Segment instead of the maximum
of 40, to allow for future changes or additions to the segment. For panels,
see LMJA-8xxx-SM installation instructions for equivalency details.
LMBC-300, LMCP, or LMZC-301
Segment Networks 1 through 3
4th Floor Rooms 401-440
3rd Floor Rooms 341-380
3rd Floor Rooms 301-340
Secondary LMBR-650
Wireless room controller or LMBC-650
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
Daisy Chain NO MORE THAN 40 TOTAL
NB-Routers 2nd Floor Rooms 241-280 2nd Floor Rooms 201-240
LMJA-8xxx-SM
1st Floor Rooms 101-140
Wattstopper recommends a maximum of 50 wireless powered devices and
250 total devices per Secondary LMBR-650
PANEL/ROOM EQUIVALENCY
Relay panel products/zone controllers supported by the LMJA-8xxx-SM must be treated as large DLM rooms when calculating the segment network device count, as shown in the equivalency chart below. Note that because LMCP relay panels create data objects for connected in-room products, a count of connected products (sensors, switches, etc.) must be added to the device equivalency number to establish the total data footprint for the panel/zone controller.
Panel
Room equivalency
Device equivalency
LMCP8
3
20
LMCP24 5
30
LMCP48 7
40
LILM8*
3
20
LILM24* 5
30
LILM48* 7
40
- Not recommended for new DLM projects
Connected devices
Count connected devices Count connected devices Count connected devices Do not
count connected devices Do not count connected devices Do not count connected
devices
LMZC-301 Zone Controller
With 0 LMFC-011s or LMRCs (used for scheduling functions) With 1-24 LMFC-011s
or LMRCs connected With 25-48 LMFC-011s or LMRCs connected With 49-64 LMFC-
011s or LMRCs connected
Room equivalency 1
3
5
7
Device equivalency 10
20
30
40
Connected devices Count connected devices Count connected devices Count connected devices Count connected devices
17
DEVICE POINTS AND LIMITS
DEVICE POINTS / LIMITS
Maximum # of Room/Bridges Maximum Total # of Devices per LMJA-8xxx Maximum #
of Wired MS/TP Segments With LMJA-NPB-2X-485, the wired MS/TP Segments are
expandable to: Maximum # of LMBC-300 per Segment Recommended # of IP Segments
Using NB-ROUTER Maximum # of Wireless IP LMBR’s Segments Maximum # of Devices
per Segment Maximum # of BACnet Points Average # of BACnet Points per Room
LMJA-8125-SM / LMJA-8125-SM 125 2000 2 4
40 6 10 340 6250 50
CERTIFICATIONS
LMJA-8300-SM / LMJA-8300-SM 300 2000 2 4
40 6 10 340 15000 50
Federal Communications Commission (FCC)
This device complies with Part 15 of the FCC Rules. Operation is subject to
the following two conditions:
- This device may not cause harmful interference, and 2) This device must
accept any interference received, including interference that may cause
undesired operation
Changes or modifications not expressly approved by the part responsible for compliance could void the user’s authority to operate the equipment.
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:
· Reorient or relocate the receiving antenna · Increase the separation between the equipment and receiver · Connect the equipment into an outlet on a circuit different from that to which the receiver is connected · Consult the dealer or an experienced radio/TV technician for help
Agency Listings and Certifications The LMJA-8xxx-SM controller has the following agency listings, compliances, and certifications:
· UL-916, Energy Management Equipment, – Edition 4 · FCC Part 15, Class B – Federal Communications Commission, with FCC Part 15, Subpart C – WiFi · ICES-003, Class B – Industry Canada Interference – Causing Equipment Standard · RoHS 2 (Restriction of Hazardous Substances), Directive 2011/65/EU · CE Declaration of Conformity (Council Directive 004-108-EC)
Canadian Department of Communications (DOC)
This Device complies with Industry Canada License-exempt RSS Standard(s). Operation is subject to the following two conditions: 1) this device may not cause interference, and 2) this device must accept any interference, including interference that may cause undesired operation of the device.
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
The device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems.
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations.
Cet appareil numerique de la classe A respecte toutes les exigencies du Reglement sur le material broilleur du Canada.
Approved Antenna Listing
· ANT-DB1-RAF-RPS
Transmitter Module Listing
· Contains Transmitter Module FCC ID: W98-12977 · Contains Transmitter Module IC: 8339A-12977
18
EMC Standards Applied
Standard EN 61000-6-4 EN 61000-6-2 and EN 61000-6-1 EN50081-2 CISPR 11
IEC 61000-4-2 IEC 61000-4-3 IEC 61000-4-4
IEC 61000-4-5 IEC 61000-4-6 EN 61000-3-2 EN 61000-3-3 IEC 61000-4-11
IEC 61010-10-1: 90 +A1:92 + A2:95
Description Electro-Magnetic Compatibility Emissions Generic Electro-Magnetic
Compatibility Immunity
Generic Emission Standard for residential, commercial, and light industrial
environment Limits of Radio Disturbance – Radiated Emissions Limits of Radio
Disturbance – Conducted Emissions E.S.D Radiated Field Immunity Electrical
Fast Transient Immunity (Signal Ports) Electrical Fast Transient Immunity (AC
Power) Surge Immunity Conducted Immunity Harmonic Quasi-Stationary Harmonics
Test, Voltage Fluctuation and Flicker Voltage Dips Voltage Interrupts Safety
requirement for electrical equipment for measurement, control and laboratory
use
Criteria Met Complies Complies
PASS Class A PASS Class A PASS Criteria A PASS Criteria A PASS Criteria A PASS
Criteria A PASS Criteria A PASS Criteria A Current PASS PASS PASS Criteria A
PASS Criteria A PASS
MULTI-LINE DRAWINGS AND DIMENSIONS
6.375″ (162mm)
2.26″ (57.5mm)
2.13″ (54mm)
LEFT SIDE
TOP FRONT
4.375″ (101.6mm)
RIGHT SIDE
BACK
BOTTOM
19
WARRANTY INFORMATION
INFORMATIONS RELATIVES À LA GARANTIE
INFORMACIÓN DE LA GARANTÍA
Wattstopper warranties its products to be free of defects in materials and workmanship for a period of one (1) years. There are no obligations or liabilities on the part of Wattstopper for consequential damages arising out of, or in connection with, the use or performance of this product or other indirect damages with respect to loss of property, revenue or profit, or cost of removal, installation or reinstallation.
Wattstopper garantit que ses produits sont exempts de défauts de matériaux et de fabrication pour une période de un (1) ans. Wattstopper ne peut être tenu responsable de tout dommage consécutif causé par ou lié à l’utilisation ou à la performance de ce produit ou tout autre dommage indirect lié à la perte de propriété, de revenus, ou de profits, ou aux coûts d’enlèvement, d’installation ou de réinstallation.
Wattstopper garantiza que sus productos están libres de defectos en materiales y mano de obra por un período de uno (1) años. No existen obligaciones ni responsabilidades por parte de Wattstopper por daños consecuentes que se deriven o estén relacionados con el uso o el rendimiento de este producto u otros daños indirectos con respecto a la pérdida de propiedad, renta o ganancias, o al costo de extracción, instalación o reinstalación.
No. 28957 04/22 rev. 5
© Copyright 2022 Legrand All Rights Reserved. © Copyright 2022 Tous droits
réservés Legrand. © Copyright 2022 Legrand Todos los derechos reservados.
800.879.8585 www.legrand.us/wattstopper
References
Read User Manual Online (PDF format)
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