Legrand Lighting Integrator Native BACnet Panel (LIB8, LIB24, LIB48) Installation guide

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Santa Clara, CA 95050
©2012 WattStopper
Lighting Integrator
Native BACnet
Models: LIB8, LIB24, LIB48
Installation Instructions
SPECIFICATIONS
Supply Voltages ...........................................................................................per selected power supply
P115/277 Power Supply ............................................................................................. 120 or 277VAC
P240 Power Supply ................................................................................................................240VAC
P115/347 Power Supply ............................................................................................. 120 or 347VAC
Accessory Power Output ..............................................................................800mA@24VDC/VAC/ACR
Relay Load Ratings .................................................. @120VAC @277VAC @347VAC
Ballast ................................................................... N/A 20 Amp 20 Amp
Tungsten ................................................................ 20 Amp N/A N/A
Resistive ................................................................ N/A 20 Amp 20 Amp
Motor ..................................................................... 1
1
/
2
HP N/A N/A
Duplex Receptacle................................................ 20 Amp N/A N/A
Environmental
Maximum Ambient Temperature .............................................................................................. 60°C
Maximum Humidity ....................................................................... 5% to 90% RH, non-condensing
UL & CUL Listed
Call 800.879.8585 for Technical Support
Page 2
LIST OF FIGURES
Figure 1: Interiors and enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Figure 2: Component locations inside the LI panel enclosure . . . . . . . . . . . . . . . . . . . . . . . 4
Figure 3: Enclosure dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Figure 4: P115/277 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Figure 5: P115/347 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Figure 6: P240 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Figure 7: Relay Schedule form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Figure 8: Relay Control Button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
Figure 9
: Manual relay channel setup for the Group Switching Card . . . . . . . . . . . . . . . . . .8
Figure 10: Group Switching card connections and components . . . . . . . . . . . . . . . . . . . . . 8
CONTENTS
SPECIFICATIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
INTRODUCTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
COMPONENT LOCATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
I. INSTALATION AND SETUP. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
A. Mount the LI Enclosure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
B. Install the LI Interior. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
C. Connect the AC Power SUpply to Power Source. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
D. Connect Load and Line Voltage to Relays. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
E. Low Voltage (Class 2) Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
F. Optional Group Switching and Smartwire Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
II. LI BACnet QUICK SETUP REFERENCE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
III. NATIVE BACnet OPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
IV. TESTING AND TROUBLESHOOTING. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Basic power-up testing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
WARRANTY INFORMATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
www.wattstopper.com
Page 3
INTRODUCTION
As a minimum, each panel will require an interior assembly
and an enclosure. These components may have shipped
separately.
The panel interior assembly provides isolation between the
line- and low-voltage sections of the panel, as well as the
mounting frame for relays, the power supply and the circuit
board assemblies.
Inside the low voltage area are LEDs for visual indication of
relay status, plus manual push-buttons to turn individual
relays on or off, and to perform smartwiring.
Smartwiring is a WattStopper innovation that enables easy
push-button relay grouping for convenient group control.
Smartwiring offers flexible grouping of lighting loads for
control of individual relays, groups of relays, or channels.
After installation and set up, a secure outer cover, when
closed, offers protection from the high voltage area.
The following page shows a photograph of a fully
assembled 24 relay Lighting Integrator panel that shows
installed components for reference. The illustrations show
component locations for 8 relay and 48 relay LI panels. Note
that not all of the components shown may be fitted in every
Lighting Integrator panel depending on the application.
WARNING
IMPROPER INSTALLATION OR
CONNECTION OF THIS PANEL MAY
RESULT IN SERIOUS PERSONAL INJURY
AND/OR DAMAGE TO THE PANEL AND
OTHER DEVICES.
INTERIORS
CAUTION
RISK OF ELECTRIC SHOCK
ENCLOSURES
Important Installation Notices
• Allpowermustbeturnedoffpriortowiring,
installation or service.
• Morethanonedisconnectmayberequiredtode-
energize power to the LI.
• ExternalcircuitprotectiontotheLIisrequired(e.g.,
circuit breaker).
• Installationshallbeinaccordancewithall 
applicable regulations, wiring practices, and codes.
• Careshouldbetakentoseparatehighvoltage
power from low voltage (Class 2) control wiring.
• Donotenergizewiringuntiltheunitisfully
assembled and connected circuits have been
tested and found to be free of electrical shorts.
Figure 1: Interiors and enclosures
Before installing the LI, read the instructions
completely. If you have any questions, call our
Technical Support team at: 800.879.8585.
Call 800.879.8585 for Technical Support
Page 4
COMPONENT LOCATIONS
The illustration below shows a Lighting Integrator panel
installed inside an enclosure with the cover removed.
Note the location of components when the panel is fully
assembled.
Figure 2: Component locations inside the LI panel enclosure
Accessory module
DIN rail mounting
plate
Enclosure mounting holes (4x)
LI24 Interior assembly
Optional DIN rail
and contactors
(capacity: 6 contactors)
Low voltage power
supply for 24VAC/
VDC accessories
(occupancy sensors,
photocells, etc.)
AC power
transformer
assembly (HPSM)
Low voltage area for switch
and sensor connections
Relays
Relay Driver cards (each
card supports 4 relays)
NB card may be installed
in either of these locations
High voltage area
High Voltage Area
Group Switching
Card
Diagnostic LEDs
Blue Flashing
diagnostic LEDs in
several locations
Mechanical Relay
Override Switches -
Use screwdriver tip
to activate
RELAY
NUMBER
2
1
LI48
Group Switching
Card #1
Group Switching
Card #2
AC power
transformer
assembly
Low voltage
power supply
LI8
AC power
transformer
assembly
Group Switching
Card
Low voltage
power supply
Relays
Relays
Relay Driver
cards
Relay Driver
cards
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Page 5
I. INSTALLATION AND SETUP
A. Mount the LI Enclosure
1. Attach the enclosure to the wall. The enclosure should
be level, plumb and rigidly installed. Refer to the
instructions provided with the enclosure for flush or
surface mounting procedures.
2. Determine the appropriate wire entry locations. Make
sure that all line and low voltage wiring entry locations
are confined to the appropriate compartments as
shown in the figure below.
Do not run low voltage wiring with line voltage or
power wiring.
3. Drill or knock out openings to bring wiring conduit into
the enclosure.
CAUTION
OBSERVE LINE AND LOW VOLTAGE
SEPARATION WHEN ROUTING
CONDUIT AND WIRE
8.08"
23.34"
Low voltage
section
Line voltage section
Line voltage section
LENC24S
LENC24F
16"
14"
26"
4.94"
4.94"
8.08"
35.8"
40.5"
Low voltage
section
Line voltage section
Line voltage section
16"
LENC48S
LENC48F
14"
4.94"
4.94"
Low voltage
section
Line voltage section
14.5"
LENC8S
LENC8F
15.08"
13.58"
11.68"
4.82"
40.5"
Low voltage
section
Line voltage section
Line voltage section
16"
LENC24-48S
LENC24-48F
14"
4.94"
4.94"
23.34"
21.26"
15.08"
Line voltage section
LENC8-24S
LENC8-24F
16"
12.2"
11.68"
26"
11.3”
Low voltage
section
Figure 3: Enclosure dimensions
B. Install the LI Interior
Do not install the interior assembly until after the LI
enclosure has been securely mounted to the wall and
the conduit/wiring holes have been drilled or knocked
out.
Note: If this enclosure includes the optional DMP-1 Din
Rail Mounting Plate, place DMP Plate over lower studs
before installing the interior.
1. Place the interior in the enclosure and align the
interior with the studs provided in the enclosure.
2. Attach the interior assembly to the back of the
enclosure using the four sets of nuts and washers
provided.
3. After all wiring is completed, attach the cover
according to the instructions provided with the
enclosure.
Call 800.879.8585 for Technical Support
Page 6
C. Connect the AC Power Supply to
Power Source
The LI has several power supply options that allow it to
operate with 115VAC, 240VAC, 277VAC or 347VAC line
voltage. These power supplies function with either 50 or
60 Hz. They have internal overcurrent protection. The
transformer automatically turns off when overloaded
and resets when the fault is removed. The power supply
contains MOVs to protect all downstream electronics
from transient powerline voltage surges.
1. Read and remove the CAUTION label covering the
terminals.
2. Note that there are different terminals for supply
voltage input.
Wire to ONLY ONE of these terminals. Match your
input voltage to the correct terminal.
D. Connect Load and Line Voltage to
Relays
Before making any connections to the relays, make sure
that none of the load circuits are shorted. Route conductors
from the circuit breaker through each relay’s SPST output
terminals, and from there to the loads. Confirm that each
circuit is wired to the relay specified in the electrical
construction drawings and relay schedule forms provided
with the panel.
Power Up and Test Relays
1. Apply power to the LI power supply ONLY.
Do NOT apply power to the controlled circuit loads.
2. As shown in the illustration below, locate the relay
control buttons on the Relay Driver card next to each
relay’s 5-wire plug-in termination. Press the relay
control button to toggle it ON/OFF. The relay clicks, the
relay’s mechanical override switch moves and the LED
status indicator changes.
3. Confirm the operation by measuring the continuity at
the line voltage terminations of each relay.
4. Apply power to the relays.
5. Being careful not to touch any line voltage wiring, toggle
each relay ON/OFF again and confirm that each relay
controls the appropriate load.
CAUTION
VERIFY WHETHER YOUR SUPPLY LINE
VOLTAGE IS 115VAC, 240VAC, 277VAC, OR
347VAC AND THAT THE POWER SUPPLY
IN THIS PANEL MATCHES THAT LINE
VOLTAGE. WIRING TO THE INCORRECT
VOLTAGE TERMINAL MAY RESULT IN
DAMAGE TO THE POWER SUPPLY
AND/OR THE PANEL, AND WILL VOID
THE PRODUCT WARRANTY.
277
115
NEU
GND
115VAC Supply
277
115
NEU
GND
277VAC Supply
347
115
NEU
GND
115VAC Supply
347
115
NEU
GND
347VAC Supply
240
NEU
GND
240VAC Supply
Figure 7: Relay Schedule form
RELAY
CONTROL
BUTTON
LED
TO RELAY
R B Y W
Figure 8: Relay Control Button
Figure 4: P115/277 wiring
Figure 5: P115/347 wiring
Figure 6: P240 wiring
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Page 7
Occupancy Sensor — LI switch inputs are designed to
automatically sense the connection of a WattStopper
occupancy sensor. The operation of the input will
configure for proper operation as soon as the sensor
activates the input for the first time. Operation of the relay
will be determined by motion detection in the space and
the scheduled occupancy state of the relay or channel
its is controlling. During scheduled occupied periods the
sensor will turn lighting ON when motion is detected but
will not turn the lighting OFF. During unoccupied periods,
the sensor will turn the lighting ON and OFF based only on
motion being detected.
Manual ON/OFF with Occupancy Sensor — Allows a two-
wire momentary switch to have manual ON/OFF control of
the lighting in conjunction with occupancy sensor control.
Unlike the occupancy sensor this switch will turn the
lighting ON or OFF regardless of the status of the sensor
or scheduled occupancy status relay or channel it is
controlling.
R B Y W
COMBINATION OF
2-WIRE MOMENTARY
PUSH BUTTON
WITH OCCUPANCY SENSOR
BLACK
BLUE
RED
Blue
Black
Red
24VDC
24VDC
24VDC
24VDC
COMMON
CONTROL
24VDC
BLACK
WHITE
Black
White
Switches with Pilot Lights
The “Y” (yellow) terminal on the Switch Input Terminal
Blocks supplies 24V rectified for use with pilot light
switches.
To power a pilot light from the “Y” (yellow) terminal of
a Group Switching (GS) card, install a jumper wire from
24VR to Yelcom on the GS card.
Voltage is present when the associated relay is ON.
Contact the Factory for configuring the panel for use with
switch pilots requiring other voltages.
Hardwire Low Voltage Switch Wiring
Two-wire momentary — Operates as push ON/push OFF
in an alternate action. This type of control is recommended
for applications where the user can clearly see the lighting
being controlled. This switch can not be hardwired to
multiple inputs. If multiple relays need to be controlled by
this type of switch, use a Group Switch card input.
Two-wire maintained — Operates as a standard ON/
OFF toggle switch. This type of control should not be used
where the lighting is being controlled by scheduled or other
automatic means. If the lighting is turned off by automatic
means, the switch will need to be moved through the OFF
position before it will once again synchronize with the status
of the lighting.
Three-wire momentary — Operates in a dual momentary
action mode with an independent contact for the ON and
OFF signals. This operation can be provided by a SPDT
momentary toggle switch or a variety of WattStopper low
voltage switch options. This is the most common type of
direct wired switch option used with LI relay panels.
B -to- W JUMPER
2-WIRE MOMENTARY
PUSH BUTTON
BLACK
RED
R B Y W
2-WIRE MAINTAINED
ISOLATED CONTACT
R -to- B JUMPER
R B Y W
BLACK
WHITE
E. Low Voltage (Class 2) Wiring
The low voltage (Class 2) section of the panel provides
terminal connections for a variety of optional switches and
other devices. See Figure 3 for location of the low voltage
section. All wire entering this section must be Class 2 only.
Do not allow line voltage conductors to pass through the
Class 2 section for any reason.
An individual relay can be controlled from a switch or
sensor by hardwiring it to the corresponding connector
on the Relay Driver card (see Figure 2 for locations).
Alternatively, several relays can be grouped together so that
they can be controlled from a single switch or sensor that is
hardwired to the Group Switching card (see Optional Group
Switching Card and Smartwire Procedure section). A group
of relays is assigned to a group channel via smartwiring. Up
to 8 groups labeled A through H are available with a single
Group Switching card (refer to Figure 10). A 48 relay panel
can support two Group Switching cards, for up to 16 group
channels.
R B Y W
OCCUPANCY SENSOR
BLACK
BLUE
RED
Blue
Black
Red
24VDC
24VDC
24VDC
24VDC
COMMON
CONTROL
24VDC
STANDARD 3-WIRE
MOMENTARY
BLACK
WHITE
RED
R B Y W
Call 800.879.8585 for Technical Support
Page 8
1. On the Group Switching card, press and hold the Group
channel push button for several seconds. Release the
button when the red channel LED and the LEDs for
relays currently controlled by that input begin to flash.
2. On each Relay card, select the relays to be controlled.
If a relay was previously “smartwired” to the channel
input selected, the LED will be flashing, otherwise the
LED will be off. Press the associated Relay Control
Button to add/delete that relay to/from the group.
The LED for each relay included in the group will be
flashing.
3. On the Group Switching card, press the Group Channel
Push-button again for several seconds. Release the
button when all LEDs stop flashing. The input switch
will now control the relays selected.
F. Optional group switching and
smartwire procedure
A Group Switching card (Figure 10) provides eight
channels that may be smartwired to relays within the
panel. Channels are used to group relays for common
control
If automation is to be provided by an interface to
another system, or by using manual switches only, the
channels may be used simply for grouping relays. See
instructions 1, 2 and 3.
Figure 10: Group Switching card connections and components
Test Smartwired Relay Group Channels
1. Press the Group channel Push-button ON/OFF/ON
to toggle the group ON/OFF/ON.
2. The Group channel LED tracks the last action. With
all relays in the group ON the Group channel LED is
Red.
3. Turn OFF each relay in the group using the individual
Relay Control Buttons. The Group channel LED turns
Green to indicate that the relays assigned to that
channel are in mixed states some are OFF, some
are ON.
4. When the last relay is turned OFF, the Group
Channel LED should also go OFF.
Group channel push-buttons (8x)
Group channel LEDs (8x)
Pattern push-button
Pattern LED
ABCD EFGH
24VDC
24VDC
24VDC
24VDC
YELCOM
24VR
24VAC
WHITE
Power connectors
(power to accessories or sensors)
Group channel connectors (8x)
(connect to switch or sensor
contacts, or analog photocells)
GROUP CHANNEL
LEDs:
Green = assigned
relays in mixed
state (some OFF,
some ON)
Red = all assigned
relays are ON
Off = all assigned
relays are OFF
Step 1. GROUP SWITCHING CARD
(2) LED starts flashing
TO SWITCH
(1) Press and Hold Group
Channel Push-button
(1) Press Relay
Control Button
on each relay
to be controlled
(2) LED starts flashing
Step 2. RELAY DRIVER CARD
TO RELAY
LED
R B Y W
Step 3. GROUP SWITCHING CARD
(2) LED stops flashing
TO SWITCH
(1) Press Group Channel
Push-button again
Figure 9: Manual relay channel setup for the Group Switching Card
www.wattstopper.com
Page 9
II. LI BACnet QUICK SETUP REFERENCE
Add 1 to MAC
Add 2 to MAC
Add 4 to MAC
Add 8 to MAC
Add 16 to MAC
Add 32 to MAC
Add 64 to MAC
Switch 3 Switch 4 Baud Rate
Right Right 9600
Left Right 38400
Right Left 76800
Left Left 19200
SWT5
SWT4
Note: The panel must be power cycled before the above settings take affect.
DEVICE INSTANCE DEVICE ID
Set the Device Instance (Device ID) for the panel using the three
rotary switches SWT1, SWT2, and SWT3. Valid settings are 000
- 999. An alternate range of settings are available at 86000 -
86999. See SWT5 on page 2 of the installation instructions. The
example shows an ID of 123.
MS/TP MAC ADDRESS
Set the MS/TP MAC address for the panel in the range of 0 - 127
using the dip switches SWT4. This setting must be unique on this
network segment.
BAUD RATE
Set the baud rate for the MS/TP using the dip switches SWT5.
This setting must match the setting used for other devices on
this network segment.
Call 800.879.8585 for Technical Support
Page 10
III. NATIVE BACnet OPTION
The Native BACnet Option enables native level integration
of lighting control between a Lighting Integrator (LI) Panel
and any building automation system that supports the ANSI/
ASHRAE BACnet communication protocol.
The LI BACnet Option allows the BAS to schedule, monitor
status, and override lighting freely without the need to
support lighting-specific functions (i.e., blink warning, local
override switches, and delay timers).
FEATURES
• Integral automation enables BAS to easily provide code
compliant lighting control
• Distributedprocessingensuresoperationofprimarylight-
ing control functions
• CompatiblewithWattStopperOccupancySensors
• SupportsAutoON,orenergysavingmanualONfunction
for lighting in areas scheduled as occupied
• OptionalPhotocellchoicesforexteriorandinteriorlighting
SPECIFICATIONS
• MS/TP communications port with onboard termination
jumper
• 9600/19200/38400/76800baudrates,selectable
• MS/TPMACaddressselectable,0-127
• DeviceIDselectable,0-999
• Compatiblewithdirectwiredlowvoltageswitchesforrelay
override; not compatible with dataline switches
• Descriptionpropertywritableforallobjects
OPERATION
With the LI Native BACnet option, panel relays and channels
are automatically exposed to the BAS (Building Automation
System) as standard BACnet objects. Relays can be individually
commanded and monitored as a group. This permits a building to
be conveniently divided into lighting control zones, greatly reducing
the number of individual objects a BAS must administer. LI panels
perform all typical lighting control sequence of operations without
continuous supervision by the BAS.
APPLICATIONS
In most applications, a BAS sets lighting zones to occupied/
unoccupied status through a schedule or a workstation command.
The LI panel then coordinates local switch overrides, time delays
and blink warnings based on this status.
LIGHTING CONTROL SPECIFIC FUNCTIONS
The LI Native BACnet option provides integral automation
capabilities that enable lighting control that is compliant with state
energy codes based on ASHRAE 90.1 and IECC. Its distributed
processing also ensures operation of primary lighting control
functions, such as wall switch overrides, blink warnings, and after-
hours time out of overrides.
Before proceeding, read the instructions on the following pages.
For an overview of the entire system and the documentation forms,
refer to the other sections of the Lighting Integrator Installation
and Operation Manual.
If you have any questions, call Technical Support at: 800-879-8585.
(e) SWT1, SWT2, SWT3
BACnet Device ID
(c) SWT4 MS/TP MAC
address
(d) SWT5 MS/TP baud
rate
(a) MS/TP
connector
(b) J3 EOL resistor
jumper
(g) Reference
jumper
(f) LED
indicators
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Page 11
HARDWARE SETUP
The Lighting Integrator native BACnet option is provided via a
factory installed option card. Designated NB, this card is installed
into one of the two option card positions of the mother board within
the panel interior assembly. The NB card may be installed in either
card position. However, it is not designed to operate with any
other option card and therefore should be the only card installed
in these two positions. The LI BACnet option is designed for use
with a BACnet compliant BAS and requires the use of a BACnet
enabled workstation for set-up and commissioning of the lighting
control and automation features. Prior to BACnet commissioning,
the relays may be controlled via the on board override pushbuttons
or by switches connected to the inputs on the relay driver cards.
Group control of relays is also possible via the group switching
card and Smartwired pushbutton programming as described in the
Lighting Integrator Installation Instructions.
Note: All notations to items (a) through (g) mentioned below should
be referenced visually on the Physical Location Reference diagram
on the following page
Connect the MS/TP bus to the NB card using the removable quick
connector at the lower right hand corner of the card (a). Observe
the polarity for the twisted pair as silk screened on the face of
the NB card. The NB provides a jumper for insertion of a 108
Ohm resistor across the pair for end of line termination. This is
the bottom most pair of header pins on J3 (b) which is located
to the left of the network connector. WARNING: the end of line
termination jumper should be installed only if this panel is the last
device at the end of the MS/TP bus.
Note: Some MS/TP implementations use a three-wire connection
where the third wire is a reference. In this case, the reference
wire should be connected to the “S” terminal on the network
connector. IMPORTANT: Install a jumper across pins 7 and 8
which are the fourth pair down from the top (g) on connector J3
(g). This will provide the proper reference connection for the MS/
TP bus.
Set the MS/TP MAC address for the panel using the dip switches
SWT4 (c). Note that the least significant digit is at the top and the
set position for the switches is to the left such that all switches set
to the right is MAC 0 and all switches set to the left is MAC 127.
Each panel connected to the MS/TP segment must have a unique
MAC address.
Set the baud rate for the MS/TP network using switches 3 and 4 on
SWT5 (d) which is located just above the network connector. SWT5
Switch 3 Switch 4 Baud Rate
Right Right 9600
Left Right 38400
Right Left 76800
Left Left 19200
Note that switches 1 and 2 are always set to the left. Switches
5–7 are for future use. Switch 8 is discussed in the following
paragraph.
The BACnet Device ID for the panel is set using the three
rotary switches SWT1, SWT2, and SWT3 (e) located at the
upper right of the card. The most significant digit is set
with SWT1 and the least significant digit is set with SWT3.
The Device ID for each panel must be unique among
all devices throughout the entire network, not just this
segment. An alternate range of device IDs may be selected
using switch 8 on SWT5. With switch 8 set to the right,
86,000 will be added to the ID set with the three rotary
switches allowing a range of 86,000 – 86,999.
The device object’s “description” property is writable and
may be used to provide a meaningful name for the panel.
The device object’s “name” property is not writeable and
will automatically provide a unique identification of the
panel based on the Device ID set for the panel. A panel
with Device ID set to #86 will display as “WS00086”. See
Hardware Setup above for setting the Device ID of the
panel.
Note: The panel must be power cycled before changes
to either the Device ID or MS/TP MAC address will take
affect. With power on and the MS/TP network connected
to a communicating device such as a router or controller,
bi-color LED indicator DS1 marked MS/TP (f) should be
randomly flashing green . The lighting control panel can
now be discovered using the BACnet workstation.
THEORY OF OPERATION
The lighting control panel has the ability to perform a
number of typical lighting control automation features on
it’s own without full time supervision from the BAS. These
include occupant initiated overrides, after hour time out of
overrides, blink warn for an impending OFF and selection
of Auto ON or Manual ON for lighting in occupied zones.
The above automation features of the panel are selectively
set for each of the eight channels (A – H). Relays assigned
to follow these channels will assume the features selected
for the respective channel. The channels can assume
either of two possible states, occupied or unoccupied.
The behavior of the relays assigned to the channel will
be determined by a combination of the feature set for
the channel and the occupied/unoccupied status of the
channel. It is highly recommended that the channels (BV
1 - BV 8) be the primary means of controlling the relays.
This will take full advantage of the features provided in the
panel. A description of each feature behavior follows this
section.
IMPORTANT: while the panel supports BACnet priority
arrays, it must be noted that by design, the panel assigns
ultimate priority for controlling the lighting to the human
operator or occupant of the controlled space. Wall
switches and override push buttons within the panel will
take precedence over the DDC and will always control the
lighting (relays) regardless of the priority arrays. In order
to reconcile this functionality with the DDC, operation of
a wall switch or override push button will first NULL the
entire priority array of the affected relays (BO) and then
command the relay(s) at priority level 16.
IMPORTANT: WattStopper highly recommends that relays
be controlled in groups through association with the 8
automation channels (BV1 - BV8). Using the panel in this
fashion will allow you to take full advantage of the special
lighting control features of the panel.
Call 800.879.8585 for Technical Support
Page 12
ASSIGNING RELAYS TO CHANNELS
Relays can be assigned to follow channels in either of two ways.
This can be done manually at the panel using the Smartwired
pushbutton programming feature of the group switch card.
Refer to the section F above for information on Smartwiring.
Alternately, relays can be assigned to follow channels using
workstation commands. The AV objects 1 – 48 are used for
this purpose. These correspond to each of 48 possible relay
positions within the panel. Commanding present value equal to
the number of the channel (1 – 8 = A – H) for an AV will assign the
corresponding relay to that channel. Commanding 0 will remove
the relay from all channels. For example, writing an 8 to AV 24
will assign relay 24 to follow channel H. Note that when channels
are configured using smartwiring, the appropriate value is
automatically written to the AV object representing the channel.
COMMAND CHANNELS OCCUPIED/UNOCCUPIED
A key benefit of the panel is realized when the lighting is
scheduled through the channels rather than scheduling
individual relays. The panel has internal logic that will
automatically adjust the behavior of the lighting based on the
occupancy state of the channel. It is not necessary to repeat
occupancy commands to the channels. Repeating occupancy
commands periodically can produce undesirable results by
distorting the operation of the internal lighting logic functions.
This is not recommended practice.
The occupied/unoccupied mode for channels is determined
by the present value of the BV1 – BV8 objects. For example,
commanding 1 to BV8 will put channel H into the occupied
mode. Commanding 0 or NULL will put the channel into the
unoccupied mode. These actions will turn the associated relays
on and off if the channel is set to the Auto ON mode (this is the
factory default). See Auto ON - Manual ON below. Note that the
present value of the BV object will reflect the net result of the
commanded values in the BV priority array such that the highest
(lowest priority level number) wins. The relinquish default for the
BV priority arrays is unoccupied.
A common use for the channels will be scheduling the lighting
to follow the BAS. In order to allow flexible override of individual
relays, the panel applies the following rule to channel control of
relays: Commanding a BV on (occupied) will turn on the member
relays (assuming the channel is set to Auto On). The BO objects
for the member relays will be commanded on by the channel
at priority level16 and the remainder of the BO priority array
will be set to NULL. This is similar to the functionality of panel
overrides described for switch overrides. It should be noted that
the present value of the BV objects represents the occupied/
unoccupied status of the channel and not necessarily the status
of the relays controlled by the channel. A series of Multi-State
Value objects are provided for channel relay status. See Channel
Relay Status below. The “description” property of the BV and
MV objects is writable and may be used to provide a meaningful
name for the channels.
Channel Relay Status
The actual on/off status of relays assigned to channels can be
monitored using the Present Value property of the Multi-State
Value objects (MV1 – MV8) provided for this purpose. A group of
relays that is assigned to a channel can have four possible states:
All ON (all relays are on), Blink (the relays have blinked and are
currently running the blink warn timer before going off) , Mixed
(some relays are on and some are off) , and All Off (all relays are
off). The actual state of individual relays can also be monitored
via the BI objects. See Relay Control.
Auto ON - Manual ON
This feature can be used to maximize the energy savings by
not turning on the lighting until the first person arrives in the
area. To use the Manual ON setting requires that a wall switch
or occupancy sensor be installed in the area to provide the
arrival signal to the panel. The wall switch can be connected to
an individual relay input for localized control or connected to
the group switch card input as a channel master override. This
feature is set for channels A – H via the BV101 – BV108 objects.
Command 0 to set the channel to Auto ON (factory default).
Command 1 to set the channel to Manual ON.
Blink Warn
The blink warn feature provides a means to warn occupants
that their lights are going to be turned off. When enabled for a
channel, the relays associated with the channel will blink off and
on when the channel transitions from occupied to unoccupied.
The lighting will then turn off after five minutes unless an
occupant signals the panel by pressing a wall switch. This action
will cancel the impending off for the relay that is controlled by
the switch and will start the time delay count down for this relay.
Blink warn is set for channels A - H via the AV101 — AV108
objects. Command 5 to set the blink warn interval to five minutes.
Command 0 to set the channel to no blink warn. Note that the
current firmware version only supports a five minute interval.
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Page 13
The time delay feature insures that relays that are overridden on
by a wall switch will not remain on indefinitely during unoccupied
periods. When an occupant uses a wall switch to turn lighting on,
the time delay counter starts counting down. At the end of the
time delay period, the lights will either turn off (blink warn is not
set) or will blink warn. Pressing the wall switch during the warn
period will cancel the off and again start the time delay count
down. Note that the time delay feature is automatically disabled
during occupied periods.
The time delay feature has the added benefit of allowing the BAS
to provide just a one time unoccupied signal to an area rather
than “sweeping” the area off at intervals as would be required to
meet state energy codes. The time delay is set in the range of 0
– 240 minutes for channels A – H via the AV201 - AV 208 objects.
For example, writing the value 120 to AV208 will set a time delay
of two hours for channel H. Setting 0 for the time delay disables
the feature for this channel. The time delay is also used to set the
“sweep” interval when also using the Automatic Wall Switch (see
below).
Relay Control
Relays may be controlled and monitored individually and
independently from the channels. However, this behavior should
be limited to individual override of relays when required. It is
recommended that simultaneous control of multiple relays be
performed using the channel feature of the panel. Each relay
is represented as a binary output object (BO). The present value
property of the BO is used to control the relay and read the status
of the relay. The present value will reflect the net result of the
values written in the priority array such that the highest (lowest
priority level number) wins. The relinquish default for the priority
array is NULL or off. The “description” property of the BO objects
is writable and may be used to provide a meaningful name for the
relays. Note that a description written to a BO will automatically
be assigned to the corresponding BI object. The description
property of the BI is not writable.
Support for Automatic Wall Switch device
The panel is provided with integral support for the WattStopper
AS-100/AS-110 Automatic Wall Switch. This device can be
installed in place of a standard line voltage wall switch and
enable the BAS to provide automatic shut off of the lighting
while maintaining the ability for occupants of individual offices to
override their lighting on. This is done without the requirement
for low voltage control wiring.
This feature can be activated for each channel by assigning a
value of 250 to the Blink Warn property of the channel (AV101
– AV108). When set to this value, the channel will automatically
turn the relays off for a period of one second then back on
when the channel is commanded unoccupied. This brief power
interruption, signals the Automatic Wall Switch to start its 5
minute grace period timer. At the end of the grace period, the
lights will turn off unless the user cancels the off by activitating
the integral override switch on the AS-100. This process will
automatically repeat after the time interval is set in the “time
delay” (AV201 - AV208). See Time Delay above for additional
information. See the documentation for the AS-100 or AS-110 for
more information on the use of these switches.
COMPLETE LIST OF OBJECTS
Object Instance # Object Name Present Value
(read only)
BO 1 RELAY 01 1 = ON, 0 = OFF
BO 2 RELAY 02 1 = ON, 0 = OFF
BO 3 RELAY 03 1 = ON, 0 = OFF
BO 4 RELAY 04 1 = ON, 0 = OFF
BO 5 RELAY 05 1 = ON, 0 = OFF
BO 6 RELAY 06 1 = ON, 0 = OFF
BO 7 RELAY 07 1 = ON, 0 = OFF
BO 8 RELAY 08 1 = ON, 0 = OFF
BO 9 RELAY 09 1 = ON, 0 = OFF
BO 10 RELAY 10 1 = ON, 0 = OFF
BO 11 RELAY 11 1 = ON, 0 = OFF
BO 12 RELAY 12 1 = ON, 0 = OFF
BO 13 RELAY 13 1 = ON, 0 = OFF
BO 14 RELAY 14 1 = ON, 0 = OFF
BO 15 RELAY 15 1 = ON, 0 = OFF
BO 16 RELAY 16 1 = ON, 0 = OFF
BO 17 RELAY 17 1 = ON, 0 = OFF
BO 18 RELAY 18 1 = ON, 0 = OFF
BO 19 RELAY 19 1 = ON, 0 = OFF
BO 20 RELAY 20 1 = ON, 0 = OFF
BO 21 RELAY 21 1 = ON, 0 = OFF
BO 22 RELAY 22 1 = ON, 0 = OFF
BO 23 RELAY 23 1 = ON, 0 = OFF
BO 24 RELAY 24 1 = ON, 0 = OFF
BO 25 RELAY 25 1 = ON, 0 = OFF
BO 26 RELAY 26 1 = ON, 0 = OFF
BO 27 RELAY 27 1 = ON, 0 = OFF
BO 28 RELAY 28 1 = ON, 0 = OFF
BO 29 RELAY 29 1 = ON, 0 = OFF
BO 30 RELAY 30 1 = ON, 0 = OFF
BO 31 RELAY 31 1 = ON, 0 = OFF
BO 32 RELAY 32 1 = ON, 0 = OFF
BO 33 RELAY 33 1 = ON, 0 = OFF
BO 34 RELAY 34 1 = ON, 0 = OFF
BO 35 RELAY 35 1 = ON, 0 = OFF
BO 36 RELAY 36 1 = ON, 0 = OFF
BO 37 RELAY 37 1 = ON, 0 = OFF
BO 38 RELAY 38 1 = ON, 0 = OFF
BO 39 RELAY 39 1 = ON, 0 = OFF
BO 40 RELAY 40 1 = ON, 0 = OFF
BO 41 RELAY 41 1 = ON, 0 = OFF
BO 42 RELAY 42 1 = ON, 0 = OFF
BO 43 RELAY 43 1 = ON, 0 = OFF
BO 44 RELAY 44 1 = ON, 0 = OFF
BO 45 RELAY 45 1 = ON, 0 = OFF
BO 46 RELAY 46 1 = ON, 0 = OFF
BO 47 RELAY 47 1 = ON, 0 = OFF
BO 48 RELAY 48 1 = ON, 0 = OFF
BI 1 RELAY 01 STATUS 1 = ON, 0 = OFF
BI 2 RELAY 02 STATUS 1 = ON, 0 = OFF
BI 3 RELAY 03 STATUS 1 = ON, 0 = OFF
BI 4 RELAY 04 STATUS 1 = ON, 0 = OFF
BI 5 RELAY 05 STATUS 1 = ON, 0 = OFF
BI 6 RELAY 06 STATUS 1 = ON, 0 = OFF
BI 7 RELAY 07 STATUS 1 = ON, 0 = OFF
BI 8 RELAY 08 STATUS 1 = ON, 0 = OFF
BI 9 RELAY 09 STATUS 1 = ON, 0 = OFF
BI 10 RELAY 10 STATUS 1 = ON, 0 = OFF
BI 11 RELAY 11 STATUS 1 = ON, 0 = OFF
BI 12 RELAY 12 STATUS 1 = ON, 0 = OFF
Call 800.879.8585 for Technical Support
Page 14
BI 13 RELAY 13 STATUS 1 = ON, 0 = OFF
BI 14 RELAY 14 STATUS 1 = ON, 0 = OFF
BI 15 RELAY 15 STATUS 1 = ON, 0 = OFF
BI 16 RELAY 16 STATUS 1 = ON, 0 = OFF
BI 17 RELAY 17 STATUS 1 = ON, 0 = OFF
BI 18 RELAY 18 STATUS 1 = ON, 0 = OFF
BI 19 RELAY 19 STATUS 1 = ON, 0 = OFF
BI 20 RELAY 20 STATUS 1 = ON, 0 = OFF
BI 21 RELAY 21 STATUS 1 = ON, 0 = OFF
BI 22 RELAY 22 STATUS 1 = ON, 0 = OFF
BI 23 RELAY 23 STATUS 1 = ON, 0 = OFF
BI 24 RELAY 24 STATUS 1 = ON, 0 = OFF
BI 25 RELAY 25 STATUS 1 = ON, 0 = OFF
BI 26 RELAY 26 STATUS 1 = ON, 0 = OFF
BI 27 RELAY 27 STATUS 1 = ON, 0 = OFF
BI 28 RELAY 28 STATUS 1 = ON, 0 = OFF
BI 29 RELAY 29 STATUS 1 = ON, 0 = OFF
BI 30 RELAY 30 STATUS 1 = ON, 0 = OFF
BI 31 RELAY 31 STATUS 1 = ON, 0 = OFF
BI 32 RELAY 32 STATUS 1 = ON, 0 = OFF
BI 33 RELAY 33 STATUS 1 = ON, 0 = OFF
BI 34 RELAY 34 STATUS 1 = ON, 0 = OFF
BI 35 RELAY 35 STATUS 1 = ON, 0 = OFF
BI 36 RELAY 36 STATUS 1 = ON, 0 = OFF
BI 37 RELAY 37 STATUS 1 = ON, 0 = OFF
BI 38 RELAY 38 STATUS 1 = ON, 0 = OFF
BI 39 RELAY 39 STATUS 1 = ON, 0 = OFF
BI 40 RELAY 40 STATUS 1 = ON, 0 = OFF
BI 41 RELAY 41 STATUS 1 = ON, 0 = OFF
BI 42 RELAY 42 STATUS 1 = ON, 0 = OFF
BI 43 RELAY 43 STATUS 1 = ON, 0 = OFF
BI 44 RELAY 44 STATUS 1 = ON, 0 = OFF
BI 45 RELAY 45 STATUS 1 = ON, 0 = OFF
BI 46 RELAY 46 STATUS 1 = ON, 0 = OFF
BI 47 RELAY 47 STATUS 1 = ON, 0 = OFF
BI 48 RELAY 48 STATUS 1 = ON, 0 = OFF
AV 1 RELAY CHANNEL 01 assign relay 1 to channel # (1-8)
AV 2 RELAY CHANNEL 02 assign relay 2 to channel # (1-8)
AV 3 RELAY CHANNEL 03 assign relay 3 to channel # (1-8)
AV 4 RELAY CHANNEL 04 assign relay 4 to channel # (1-8)
AV 5 RELAY CHANNEL 05 assign relay 5 to channel # (1-8)
AV 6 RELAY CHANNEL 06 assign relay 6 to channel # (1-8)
AV 7 RELAY CHANNEL 07 assign relay 7 to channel # (1-8)
AV 8 RELAY CHANNEL 08 assign relay 8 to channel # (1-8)
AV 9 RELAY CHANNEL 09 assign relay 9 to channel # (1-8)
AV 10 RELAY CHANNEL 10 assign relay 10 to channel # (1-8)
AV 11 RELAY CHANNEL 11 assign relay 11 to channel # (1-8)
AV 12 RELAY CHANNEL 12 assign relay 12 to channel # (1-8)
AV 13 RELAY CHANNEL 13 assign relay 13 to channel # (1-8)
AV 14 RELAY CHANNEL 14 assign relay 14 to channel # (1-8)
AV 15 RELAY CHANNEL 15 assign relay 15 to channel # (1-8)
AV 16 RELAY CHANNEL 16 assign relay 16 to channel # (1-8)
AV 17 RELAY CHANNEL 17 assign relay 17 to channel # (1-8)
AV 18 RELAY CHANNEL 18 assign relay 18 to channel # (1-8)
AV 19 RELAY CHANNEL 19 assign relay 19 to channel # (1-8)
AV 20 RELAY CHANNEL 20 assign relay 20 to channel # (1-8)
AV 21 RELAY CHANNEL 21 assign relay 21 to channel # (1-8)
AV 22 RELAY CHANNEL 22 assign relay 22 to channel # (1-8)
AV 23 RELAY CHANNEL 23 assign relay 23 to channel # (1-8)
AV 24 RELAY CHANNEL 24 assign relay 24 to channel # (1-8)
AV 25 RELAY CHANNEL 25 assign relay 25 to channel # (1-8)
AV 26 RELAY CHANNEL 26 assign relay 26 to channel # (1-8)
Object Instance # Object Name Present Value
AV 27 RELAY CHANNEL 27 assign relay 27 to channel # (1-8)
AV 28 RELAY CHANNEL 28 assign relay 28 to channel # (1-8)
AV 29 RELAY CHANNEL 29 assign relay 29 to channel # (1-8)
AV 30 RELAY CHANNEL 30 assign relay 30 to channel # (1-8)
AV 31 RELAY CHANNEL 31 assign relay 31 to channel # (1-8)
AV 32 RELAY CHANNEL 32 assign relay 32 to channel # (1-8)
AV 33 RELAY CHANNEL 33 assign relay 33 to channel # (1-8)
AV 34 RELAY CHANNEL 34 assign relay 34 to channel # (1-8)
AV 35 RELAY CHANNEL 35 assign relay 35 to channel # (1-8)
AV 36 RELAY CHANNEL 36 assign relay 36 to channel # (1-8)
AV 37 RELAY CHANNEL 37 assign relay 37 to channel # (1-8)
AV 38 RELAY CHANNEL 38 assign relay 38 to channel # (1-8)
AV 39 RELAY CHANNEL 39 assign relay 39 to channel # (1-8)
AV 40 RELAY CHANNEL 40 assign relay 40 to channel # (1-8)
AV 41 RELAY CHANNEL 41 assign relay 41 to channel # (1-8)
AV 42 RELAY CHANNEL 42 assign relay 42 to channel # (1-8)
AV 43 RELAY CHANNEL 43 assign relay 43 to channel # (1-8)
AV 44 RELAY CHANNEL 44 assign relay 44 to channel # (1-8)
AV 45 RELAY CHANNEL 45 assign relay 45 to channel # (1-8)
AV 46 RELAY CHANNEL 46 assign relay 46 to channel # (1-8)
AV 47 RELAY CHANNEL 47 assign relay 47 to channel # (1-8)
AV 48 RELAY CHANNEL 48 assign relay 48 to channel # (1-8)
BV 1 CHANNEL A 1 = Occupied, 0 = Unoccupied.
BV 2 CHANNEL B 1 = Occupied, 0 = Unoccupied
BV 3 CHANNEL C 1 = Occupied, 0 = Unoccupied
BV 4 CHANNEL D 1 = Occupied, 0 = Unoccupied
BV 5 CHANNEL E 1 = Occupied, 0 = Unoccupied
BV 6 CHANNEL F 1 = Occupied, 0 = Unoccupied
BV 7 CHANNEL G 1 = Occupied, 0 = Unoccupied
BV 8 CHANNEL H 1 = Occupied, 0 = Unoccupied
MV 1 CHANNEL A STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 2 CHANNEL B STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 3 CHANNEL C STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 4 CHANNEL D STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 5 CHANNEL E STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 6 CHANNEL F STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 7 CHANNEL G STATUS ON (4), Mixed (3), OFF (1), Blink (2)
MV 8 CHANNEL H STATUS ON (4), Mixed (3), OFF (1), Blink (2)
BV 101 MANUAL/AUTO 1 0 = Auto ON, 1 = Manual ON
BV 102 MANUAL/AUTO 2 0 = Auto ON, 1 = Manual ON
BV 103 MANUAL/AUTO 3 0 = Auto ON, 1 = Manual ON
BV 104 MANUAL/AUTO 4 0 = Auto ON, 1 = Manual ON
BV 105 MANUAL/AUTO 5 0 = Auto ON, 1 = Manual ON
BV 106 MANUAL/AUTO 6 0 = Auto ON, 1 = Manual ON
BV 107 MANUAL/AUTO 7 0 = Auto ON, 1 = Manual ON
BV 108 MANUAL/AUTO 8 0 = Auto ON, 1 = Manual ON
AV 101 BLINK WARN 1 5 = Five Min., 0 = No Blink
AV 102 BLINK WARN 2 5 = Five Min., 0 = No Blink
AV 103 BLINK WARN 3 5 = Five Min., 0 = No Blink
AV 104 BLINK WARN 4 5 = Five Min., 0 = No Blink
AV 105 BLINK WARN 5 5 = Five Min., 0 = No Blink
AV 106 BLINK WARN 6 5 = Five Min., 0 = No Blink
AV 107 BLINK WARN 7 5 = Five Min., 0 = No Blink
AV 108 BLINK WARN 8 5 = Five Min. 0 = No Blink
AV 201 TIME DELAY 1 1 - 240 Min., 0 = No Time Delay
AV 202 TIME DELAY 2 1 - 240 Min., 0 = No Time Delay
AV 203 TIME DELAY 3 1 - 240 Min., 0 = No Time Delay
AV 204 TIME DELAY 4 1 - 240 Min., 0 = No Time Delay
AV 205 TIME DELAY 5 1 - 240 Min. 0 = No Time Delay
AV 206 TIME DELAY 6 1 - 240 Min., 0 = No Time Delay
AV 207 TIME DELAY 7 1 - 240 Min., 0 = No Time Delay
AV 208 TIME DELAY 8 1 - 240 Min., 0 = No Time Delay
Object Instance # Object Name Present Value
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Page 15
Notes to the System Integrator
1. The WattStopper Native BACnet panel will handle the tasks unique to lighting control - Multiple Off sweeps, After hours Time
Delays, etc. It is highly recommended that you take advantage of these features rather than implementing logic on the control side.
2. Each BACnet Panel supports 8 channels (functional groups). Decide which relays will go into each channel (relays can only be
assigned to one channel). Control these 8 channels, not the individual relays, by the schedules. You can either “smartwire” the relays
to the channels, or use AV # object to assign relays to channels at the workstation.
When the Channel is set to “Occupied”
3. Some spaces should have lights go ON automatically in the morning, but in others people should manually turn on the lights - use
BV-10# object to define which scenario should happen when you turn the channel to “occupied”. In either case, time delays will be
disabled.
When the Channel is set to “Unoccupied”
4. Most people appreciate a warning before lights go off, but there are ome lights and hardware that should not be “blinked” - HID
lights for example. Set the AV-10# object to “5” and when the channel goes unoccupied the lightw will “blink” and 5 minutes later
they will go off, unless an occupant overrides the sweep by pressing a local low voltage switchyy during the 5 minute grace period.
5. WattStopper’s AS-100 switches wire to the line voltage circuit and need to be pulsed Off for 2 seconds to go into their unoccupied
mode. By setting a 250 value to the AV-10# object the panel will automatically take care of this pulsing behavior. Note that AS-100
swithces will not go ON automatically in the morning, and that since these relays are now basically Normally Closed contacts, their
state will almost alwayus be ON regardless of whether their channel is an occupied or unoccupied state.
6. Most states have an energy code, and lighting overrides should last no more than 2 or 4 hours. Instead of sending out multiple OFF
sweeps, use the AV-20# object to set a channel time delay. Note that this delay will only occur during the unoccupied times, and is
disabled automatically when the channel is occupied.
7. Direct wired low voltge switchs always control the relay. Wheterh the relay stays on based on its channel’s time delay or until the
occupancy state is changed will be handled by the panel automatically.
Sample Time of Day Schedule
Day Time Object-
Instance
Channel Channel Type Write Present
Value
Channel Status
M-F, S,S
M-F, S,S
M-F, S,S
M-F, S,S
M-F, S,S
M-F, S,S
7:00
17:00
17:00
19:00
7:00
7:00
BV-1
BV-2
BV-3
BV-1
BV-2
BV-3
A
B
C
A
B
C
Interior AS-100
Exterior B
Exterior C
Interior AS-100
Exterior B
Exterior C
1
1
1
0
0
0
Occupied
Occupied
Occupied
Unoccupied
Unoccupied
Unoccupied
NOTE: Afterhour OFF sweeps and blink warnings will be handled by the panel based on the BV-10#, AV-10#, and AV-20# settings
Helpful Hints
1. Make sure communication speed is set properly via SWT-5, using dip switches 3 and 4
2. Use schedlued events that control relay panel channels via BV-1 through BV-8
3. Send one “Occupied” command and one “Unoccupied” command per channel as required by schedules. Reinforcement of the
channel state by repeated writes is not necessary.
4. Dip switch settings are only read during initial panel startup - if they need to be changed, make sure power to the panel is cycled so
the new settings are read.
5. Direct wired Low Voltage switches WILL ALWAYS cnotrol relays ON or OFF regardless of the priority array. Array values will then all
be set to null except for 16, which will be set to 1 for ON or 0 for OFF.
6. AS-100s are unique line voltage switches made by WattStopper. For more info see: http://www.wattstopper.com.
Call 800.879.8585 for Technical Support
Page 16
Watt Stopper MS/TP BACnet Native Panel Documentation Form
BACnet Card Setting Channel Setup
Device ID (Rotary Switches): 010 Object- Options Panel
Firmware Version (Label): Channel Instance Feature (Present Value) Setting
J3 EOL 120 Ohm Jumper: BV-101 Auto or Manual On 0=Auto (default), 1=Manual 0
A
V-101 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100 5
A
V-201 Time Delay 0=None, 1-240 = Time Delay (minutes) 120
BV-102 Auto or Manual On 0=Auto (default), 1=Manual 0
A
V-102 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100 250
A
V-202 Time Delay 0=None, 1-240 = Time Delay (minutes) 120
ADD null BV-103 Auto or Manual On 0=Auto (default), 1=Manual 0
* Rela
y
Channel
A
BCDE FGH Of
f
On
A
V-10
3
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100 0
Rela
y
Object-Instanc
e
LV Switch Object-Instanc
e
Feature Dip (Left) (Rt)
A
V-20
3
Time Delay 0=None, 1-240 = Time Delay (minutes) 0
# (1=On, 0=Off) Circuit Description or Sensor ( Values ==>) 12345678
dd 1 to MA
1 On BV-104
A
uto or Manual On 0=Auto (default), 1=Manual 0
1 BO-1 LC-1 LOGO Front Pole Lights AV-1 3
A
dd 2 to MA
C
2 Of
f
A
V-10
4
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100 0
2 BO-2 LC-3 Desk Area AS-100 AV-2 2
A
dd 4 to MA
C
3 On
A
V-20
4
Time Delay 0=None, 1-240 = Time Delay (minutes) 0
3 BO-3 LC-5 Lobby Area LV Swt 1 AV-
3
1
A
dd 8 to MA
C
4 Of
f
BV-105 Auto or Manual On 0=Auto (default), 1=Manual
4 BO-4 LC-7 Lobby Area LV Swt 2 AV-
4
1
A
dd 16 to MA
C
5 On
A
V-10
5
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
5 BO-5 LC-9 Lobby Area LV Swt 3 AV-
5
1
A
dd 32 to MA
C
6 On
A
V-20
5
Time Delay 0=None, 1-240 = Time Delay (minutes)
6 BO-6 LC-11 Open Office 1237 AS-100 AV-6 2 Add 64 to MA
C
7 On BV-106 Auto or Manual On 0=Auto (default), 1=Manual
7 BO-7 LC-13 Open Office 1028 AS-100 AV-
7
2 na (always set Off) 8 Of
f
A
V-10
6
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
8 BO-8 LC-15 Open Office Daylight AS-100 AV-
8
2 Calculated MAC Address
:
A
V-20
6
Time Delay 0=None, 1-240 = Time Delay (minutes)
9 BO-9 LC-17 Open Office 1028 AS-100 AV-
9
2 BV-107 Auto or Manual On 0=Auto (default), 1=Manual
10 BO-10 LC-19 Pendant Fixtures AS-100 AV-10 2
A
V-10
7
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
11 BO-11 LC-21 Storage 1221 AS-100 AV-11 2
A
V-20
7
Time Delay 0=None, 1-240 = Time Delay (minutes)
12 BO-12 LC-2 Wall Lights South AV-12 4 Of
f
On BV-108 Auto or Manual On 0=Auto (default), 1=Manual
13 BO-13 LC-4 Open Office 1223 AS-100 AV-1
3
2 Feature Dip (Left) (Rt)
A
V-10
8
Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
14 BO-14 LC-6 Hallway North LV Swt 4 AV-1
4
1 na (always set Off) 1 Of
f
A
V-20
8
Time Delay 0=None, 1-240 = Time Delay (minutes)
15 BO-15 LC-8 Open Office 1223 AS-100 AV-1
5
2 na (always set Off) 2 Of
f
16 BO-16 LC-10 Open Office 1251 AS-100 AV-1
6
2 MS/TP baud rate 3 Of
f
17 BO-17 LC-12 Pendant Fixtures AS-100 AV-1
7
2 MS/TP baud rate 4 On
18 BO-18 LC-14 Open Office 1251 AS-100 AV-1
8
2 na (always set Off) 5 Of
f
Object
-
Options
19 BO-19 LC-16 Hallway South LV Swt 5 AV-1
9
1 na (always set Off) 6 Of
f
Channel Instance Feature (Present Value)
20 BO-20 LC-18 Open Office Daylight Area AS-100 AV-20 2 na (always set Off) 7 Off
A BV-1 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
21 BO-21 LC-20 Design GI 1206 AS-100 AV-21 2 On=Device ID+86000 8 Off
B BV-2 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
22 BO-22 LC-22 Pendant Fixtures AS-100 AV-22 2
C BV-3 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
23 BO-23 LC-24 Front Lights AV-23 4 NOTE:
Dip Dip D BV-4 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
24 BO-24 SPARE AV-24 Swt 5 Baud Values 34
E BV-5 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
25 BO-25 Space AV-25 9600 On On
F BV-6 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
26 BO-26 Space AV-26 38400 Off On
G BV-7 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
27 BO-27 Space AV-27 76800 On Off
H BV-8 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
28 BO-28 Space AV-2
8
19200 Of
f
Of
f
29 BO-29 Space AV-2
9
30 BO-30 Space AV-30
31 BO-31 Space AV-31 Object
-
Options
32 BO-32 Space AV-32 Channel Instance Feature (Present Value)
33 BO-33 Space AV-33
A MV-1 Status 1=Off, 2=Blink, 3=Mixed, 4=On
34 BO-34 Space AV-34
B MV-2 Status 1=Off, 2=Blink, 3=Mixed, 4=On
35 BO-35 Space AV-35
C MV-3 Status 1=Off, 2=Blink, 3=Mixed, 4=On
36 BO-36 Space AV-36
D MV-4 Status 1=Off, 2=Blink, 3=Mixed, 4=On
37 BO-37 Space AV-37
E MV-5 Status 1=Off, 2=Blink, 3=Mixed, 4=On
38 BO-38 Space AV-38
F MV-6 Status 1=Off, 2=Blink, 3=Mixed, 4=On
39 BO-39 Space AV-39
G MV-7 Status 1=Off, 2=Blink, 3=Mixed, 4=On
40 BO-40 Space AV-40
H MV-8 Status 1=Off, 2=Blink, 3=Mixed, 4=On
41 BO-41 Space AV-41
42 BO-42 Space AV-42
43 BO-43 Space AV-4
3
44 BO-44 Space AV-4
4
45 BO-45 Space AV-4
5
46 BO-46 Space AV-4
6
47 BO-47 Space AV-4
7
48 BO-48 Space AV-4
8
* Proper operation REQUIRES scheduling using Channel Commands, not via individual BO-# Object Instance
s
Technical Assistance is available from Watt Stopper at (888) 852-2778
Rev: 4/8/2009
Channel Occupancy Command Write/Read
Channel Relay Status Read
Surface
AV-# Object Present Value
Interior
Interior - AS-100
Ext. Dusk-Dawn
Ext. Dusk-11:00pm
E
NB_59112
C
A
B
Automation Channel
Site Name @ 2800 De La Cruz
WS00010
10
LC-42
F
G
H
SWT 4 - MS/TP MAC
D
North Electrical Room
SWT 5 - Baud Rate
10
Lighting Control Relay Panel Schedule
Group Descriptions
LCP-1 Removed
NOTE: Only install J3 Jumper
on extreme ends of local MS/TP
network segment.
BACnet Device ID (1 - 999):
Site Name:
Flush or Surface Cover:
Location:
Device Name:
Panel Power Circuit:
LCP Description:
Sample Panel Panel Schedule LI-B ver5.xls
4/8/2009
www.wattstopper.com
Page 17
Watt Stopper MS/TP BACnet Native Panel Documentation Form
* Relay Channel
A
BCDEFGH
Rela
y
Object-Instance LV Switch Object-Instance
# (1=On, 0=Off) Circuit Description or Sensor ( Values ==>) 12345678
1 BO-1 AV-1
2 BO-2 AV-2
3 BO-3 AV-3
4 BO-4 AV-4
5 BO-5 AV-5
6 BO-6 AV-6
7 BO-7 AV-7
8 BO-8 AV-8
9 BO-9 AV-9
10 BO-10 AV-10
11 BO-11 AV-11
12 BO-12 AV-12
13 BO-13 AV-13
14 BO-14 AV-14
15 BO-15 AV-15
16 BO-16 AV-16
17 BO-17 AV-17
18 BO-18 AV-18
19 BO-19 AV-19
20 BO-20 AV-20
21 BO-21 AV-21
22 BO-22 AV-22
23 BO-23 AV-23
24 BO-24 AV-24
25 BO-25 AV-25
26 BO-26 AV-26
27 BO-27 AV-27
28 BO-28 AV-28
29 BO-29 AV-29
30 BO-30 AV-30
31 BO-31 AV-31
32 BO-32
AV-32
33 BO-33 AV-33
34 BO-34 AV-34
35 BO-35 AV-35
36 BO-36 AV-36
37 BO-37 AV-37
38 BO-38 AV-38
39 BO-39 AV-39
40 BO-40 AV-40
41 BO-41 AV-41
42 BO-42 AV-42
43 BO-43 AV-43
44 BO-44 AV-44
45 BO-45 AV-45
46 BO-46 AV-46
47 BO-47 AV-47
48 BO-48
A
V-48
* Proper operation REQUIRES scheduling using Channel Commands, not via individual BO-# Object Instances
Lighting Control Relay Panel Schedule
Group Descriptions
Flush or Surface Cover:
LCP Description:
Panel Power Circuit:
Site Name:
BACnet Device ID (1 - 999):
Device Name:
Location:
Automation Channel
AV-# Object Present Value
Call 800.879.8585 for Technical Support
Page 18
Watt Stopper MS/TP BACnet Native Panel Documentation Form
BACnet Card Setting Channel Setup
Device ID (Rotary Switches): Object- Options Panel
Firmware Version (Label): Channel Instance Feature (Present Value) Setting
J3 EOL 120 Ohm Jumper: BV-101 Auto or Manual On 0=Auto (default), 1=Manual
AV-101 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
AV-201 Time Delay 0=None, 1-240 = Time Delay (minutes)
BV-102 Auto or Manual On 0=Auto (default), 1=Manual
AV-102 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
A
V-202 Time Delay 0=None, 1-240 = Time Delay (minutes)
ADD null BV-103 Auto or Manual On 0=Auto (default), 1=Manual
Of
f
On
A
V-103 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
Feature
Dip (Left) (Rt)
A
V-203 Time Delay 0=None, 1-240 = Time Delay (minutes)
Add 1 to MA
C
1 On BV-104 Auto or Manual On 0=Auto (default), 1=Manual
Add 2 to MAC 2 Off AV-104 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
Add 4 to MAC 3 On AV-204 Time Delay 0=None, 1-240 = Time Delay (minutes)
Add 8 to MAC 4 Off BV-105 Auto or Manual On 0=Auto (default), 1=Manual
Add 16 to MAC 5 On AV-105 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
Add 32 to MAC 6 On AV-205 Time Delay 0=None, 1-240 = Time Delay (minutes)
Add 64 to MAC 7 On BV-106 Auto or Manual On 0=Auto (default), 1=Manual
na (always set Off) 8 Off AV-106 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
Calculated MAC Address: AV-206 Time Delay 0=None, 1-240 = Time Delay (minutes)
BV-107 Auto or Manual On 0=Auto (default), 1=Manual
AV-107 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
AV-207 Time Delay 0=None, 1-240 = Time Delay (minutes)
Off On BV-108 Auto or Manual On 0=Auto (default), 1=Manual
Feature
Dip (Left) (Rt) AV-108 Blink / No Blink / AS-100 0=No, 5=yes (5 min grace), 250=AS-100
na (always set Off) 1 Off AV-208 Time Delay 0=None, 1-240 = Time Delay (minutes)
na (always set Off) 2 Off
MS/TP baud rate 3 Off
MS/TP baud rate 4 On
na (always set Off) 5 Off Object- Options
na (always set Off) 6 Off Channel Instance Feature (Present Value)
na (always set Off) 7 Off
A BV-1 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
On=Device ID+86000 8 Off
B BV-2 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
C BV-3 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
NOTE:
Dip Dip D BV-4 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
Swt 5 Baud Values 34
E BV-5 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
9600 On On
F BV-6 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
38400 Off On
G BV-7 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
76800 On Off
H BV-8 Channel Occupancy 0 or Null =Unoccupied, 1=Occupied
19200 Off Off
Object- Options
Channel Instance Feature (Present Value)
A MV-1 Status 1=Off, 2=Blink, 3=Mixed, 4=On
B MV-2 Status 1=Off, 2=Blink, 3=Mixed, 4=On
C MV-3 Status 1=Off, 2=Blink, 3=Mixed, 4=On
D MV-4 Status 1=Off, 2=Blink, 3=Mixed, 4=On
E MV-5 Status 1=Off, 2=Blink, 3=Mixed, 4=On
F MV-6 Status 1=Off, 2=Blink, 3=Mixed, 4=On
G MV-7 Status 1=Off, 2=Blink, 3=Mixed, 4=On
H MV-8 Status 1=Off, 2=Blink, 3=Mixed, 4=On
NOTE: Only install J3 Jumper
on extreme ends of local MS/TP
network segment.
C
10
G
SWT 5 - Baud Rate
SWT 4 - MS/TP MAC
A
B
Installed-Removed
H
Channel Occupancy Command Write/Read
Channel Relay Status Read
D
E
F
www.wattstopper.com
Page 19
Basic power-up testing
IV. TESTING AND TROUBLESHOOTING
Test Response
What next?
If the panel continues to fail a test, call Technical Support
Observe Blue LEDS on
the C8 or C24 board
Blue LED blinks at a regular tempo. Go to next Test.
Blue LED off or continuously lit. Reset panel power. Check LED again.
Observe Blue LEDs (at
DS6) on RD boards (and
on GS card if installed)
Blue LED flashes at regular intervals
on both boards.
Go to next Test.
Blue LED off or continuously lit. Reset panel power. Check LED again.
Observe the Green Status
LEDs on the C8 or C24
board
All 6 Green Status LEDs are
continuously lit.
Go to next Test.
Any Green Status LED is off. Reset panel power. Check LEDs again.
Observe the two green
Power LEDs at DS1 &
DS2 on the PS board
Both green Power LEDs are
continuously lit.
Go to next Test.
Either Green Power LED is off.
Turn off power to panel and check red and black wire
connections to the J2 terminal block on the PS board.
Reset panel power. Check LEDs again.
Look for any lit Amber
LEDs on the RD (and GS if
installed).
No Amber LEDs observed. Go to next Test.
An Amber LED is lit or blinking. Reset panel power. Check for Amber LEDs again.
Relay Operation: Press
each Relay control push-
button
Red LED for each relay lights and
relay clicks. Press button again, relay
clicks and Red LED goes off.
Ok to wire low voltage devices to relay card terminals.
Red LED doesn’t light and/or relay
doesn’t click.
Make sure a jumper is installed on PS board between
YELCOM and 24VR terminals.
NB (BACnet card)
verification: Press one
of the relay control
pushbuttons to toggle the
relay state
Green LED labeled PANEL on the NB
(BACnet) card lights momentarily.
Go to next Test.
Green LED on NB card does not light
momentarily.
Replace the NB card
MS/TP Communication:
Connect a known good
MS/TP segment to the
NB card
Green LED labeled MS/TP should
begin to blink in a random pattern.
Test complete, BACnet interface is good.
Green LED labeled MS/TP does not
begin to blink.
Check that the baud rate is set correctly, check for
duplicate MAC or Device ID address, check polarity of
the network wire connection, make sure that switches
#1 and #2 on SWT5 are both set to the left (off),
check for a jumper across the bottom two pins on J3
(termination jumper should be in place only if this is
the last device on the network segment).
Call 800.879.8585 for Technical Support
Page 20
WARRANTY INFORMATION
WattStopper warranties its products to be free of defects in materials and workmanship for a period of one (1) year. 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.
2800 De La Cruz Boulevard
Santa Clara, CA 95050
www.wattstopper.com
12343r1 10/2012
Please
Recycle
Troubleshooting
Problem Test Steps Next
1 The LV switch
does not control
the relay or
group.
Are the wires routed and terminated
correctly in the panel? See pages 5 & 7.
No – Correct terminations
Yes – Go to next step
Is the 12VDC indicating LED on the C8 or
C24 motherboard solid Green?
No – Cycle power to panel; recheck
Yes – Go to next step
Does the board mounted override
pushbutton control the relay or group?
No – Call tech support
Yes – Go to next step
Disconnect input terminals.
Does jumping the Red to White input
terminals turn the relay on and does Black
to White turn it off?
No – Call tech support
Yes - Verify the LV wiring is not shorted and that the switch is
operating correctly
If using a Group switch, have the relays
been assigned to the particular group using
the GS card?
No – Make the necessary assignments (refer to page 8)
Yes – Go to next step
2 When I try to
turn the relay
off it goes off for
a second then
comes back on.
Remove any LV switching that is landed at
the relay input and attempt to turn relay ON
using the board override buttons.
No change in status - Go to next step
Relay functions normally - Verify the LV wiring is not shorted and
that the switch is operating correctly
Move LV relay connection to a different
point on the RD board and attempt to
override the relay on.
No change in status - relay needs to be replaced - call tech support
Relay functions properly – circuit board needs to be replaced - call
tech support
3 When I try to
turn the relay
on it comes on
for a second
then goes off
again.
Remove any LV switching that is landed at
the relay input and attempt to turn relay ON
using the board override buttons.
No change in status - Go to next step
Relay functions normally – Verify the LV wiring is not shorted and
that the switch is operating correctly
Move LV relay connection to a different
point on the RD board and attempt to
override the relay on.
No change in status - relay needs to be replaced - call tech support
Relay functions properly – circuit board needs to be replaced - call
tech support
4 I need to
remove a
sensor from the
system.
Once a sensor has been connected to
a relay driver or group switch card low
voltage input, the input will remain in the
sensor mode even if the sensor is removed.
To restore normal operation:
1. Remove the sensor wiring from the
panel input.
2. Turn the associated relay or group
off using the red override button
corresponding to the input where the
sensor had been connected.
3. Momentarily jumper the white and red
terminals.
4. Does the relay/group turn on?
No – Call tech support
Yes – Normal operation is restored. The input is configured for
standard low voltage switches.
/