Legrand Photocontroller and Photocells (HPC) Installation guide

Type
Installation guide
Installation Instructions
Santa Clara, CA 95050 © 2001 The Watt Stopper,
®
Inc.
HPCU
Photocell Controller Unit
Installation and Setup
The HPCU is the control/calibration module for a
daylighting controller.
A complete assembly would consist of the control
module and one of the following remotely mounted
photodiode daylight sensors:
Indoor Sensor (HPCSIN)
Outdoor Sensor (HPCSOT)
Atrium Sensor (HPCSAT)
Skylight Sensor (HPCSKY)
For normal installations, the sensor is wired to the
control module with 4-conductor 20 AWG HOSW4
sensor wire.
Features
Control module/sensor combinations designed for
the specific daylighting application
For each combination, calibration setpoints read out
directly in footcandles
Adjustable footcandle setpoints for both high- and
low-trip to create a dead band
Switch-enabled time-delay of 3 minutes
Lockout switch for disabling the sensor
Three separate relay outputs, each capable of
driving up to three relays, or triggering the input to
an intelligent device such as the HBIC12BC
Local override of each output at relay panel
Master control of all three outputs at controller
Before proceeding, read the installation instructions
inside. If you have questions, call our Service
Team at: 888-852-2778.
2
HPCU Photocell Controller Unit — Installation and Setup
Figure 1 – HPCU Photocell Controller Unit
CAUTION: Power should always be off
when wiring the panel. Before powering
up to test the unit, take care to protect
yourself from contact with wiring in
the line-voltage section of the panel.
Mount the HPCU
The HPCU attaches to the mounting
plate in an HINxxyxxBC interior or in the
low-voltage section of a standard
HSMC2 panel.
Connect Low-Voltage Wiring
Wire to the 24 VAC power supply and
connect Red (ON) and Black (OFF)
outputs to the corresponding inputs on
the relays to be controlled.
Connect Photosensor
Connect the Red/Black/White/Blue wires
from the photocell sensor to the corre-
sponding HPCU photocell terminations.
Connect the optional shield when
installing the sensor in locations subject
to heavy EMI or RF interference.
Power Up and Calibrate
See the instruction on the next page.
Connect Optional Overrides
Connect a 3-wire momentary or 2-wire
maintained switch to the Master Switch
inputs. Connect a 2-wire, single pole,
isolated contact switch to the Photocell
Enable inputs.
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
1
2
3
4
5
67
8
9
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
24 VAC POWER SUPPLY
YELLOWRED BLACK WHITE
1
RELAY (TYPICAL OF THREE)
TO PHOTOCELL SENSOR
OPTIONAL
SHIELD
SPST MAINTAINED SWITCH (OPTIONAL)
LINE
LOAD
SPDT MOM.
MASTER SWITCH
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SPST MAINT.
MASTER SWITCH
OR …
1 24 VAC Power Supply Terminals
2 Delay Enable Switch (ON = Enable)
3 Range Selector Switch (1-10 / 10-100 / 100-1K / 1K-10K FC)
4 High Level Adjustment and LED
5 Low Level Sdjustment and LED
6 Photocell Sensor Input Terminals
7 Photcell Sensor Enable Switch Input Terminals
8 Master Switch Input Terminals
9 Relay Output Terminals (3 sets)
Figure 2 – HPCU Photocell Controller Unit Wiring Diagram
3
Calibration
HIGH level at 6. (The HIGH level is
normally set at least two ticks higher
than the LOW level). The adjustment
can be optimized upon installation.
Method B: When the desired sensor
light level not known …
This method can be used for all
sensors, but it is typical for HPCSAT
and HPCSKY sensors.
This approach requires that you wait
until the time of day when you want
the lights to turn ON:
1.Start with the lights OFF, and the
LOW setpoint at 0, the HIGH at 10.
2.Raise the LOW setpoint until its LED
turns ON.
3.Turn ON the lights (use the Master
Switch input to turn OFF the relays).
4.Decrease the HIGH setpoint until
the HIGH LED comes ON, then
raise it to the next tick now the
HIGH LED turns OFF. There should
always be at least 2 ticks between
the HIGH and LOW setpoints.
Step 4
Move the DELAY ENABLE switch to
the ON position
HPCSIN: When switching lighting in an
office or classroom, you should err on
the side of providing too much light.
There are three factors to consider in
calculating the minimum setting:
1.Target footcandle level the
minimum lighting level when the
shed lights are OFF. Example: 60 fc
at the task in an office or classroom.
2.Fraction of lighting shed the
fraction of the lamps or fixtures
turned off by the HPCU. Example:
Half of the lamps within the daylight
zone (controlled zone).
3.Reflectance of task surface the
fraction of light which will be seen by
the ceiling mounted sensor com-
pared to that measured at the
workplane. (This is typically between
20% for dark furnishing and 50% for
light furnishings.) Example: Class-
room with 40% floor cavity reflec-
tance.
Use this formula to calculate the
minimum setting:
(target footcandles) x ( 1 + fraction of
lamps to be shed) x (reflectance)
Example: 60 footcandles x 1.5 x 0.4 =
36 footcandles. Using the 10-100
RANGE on the HPCU, we would then
set the LOW level scale at 4 and the
SENSOR TYPE USE SELECTION RANGE
HPCSIN Indoor office or classroom Range: 10-100
Scale setting of 1 = 10 fc
10 = 100 fc (each tick = 10 fc)
HPCSOT Parking lot and security lighting Range: 1-10
Scale setting of: 1 = 1 fc
10 = 10 fc (each tick = 1 fc)
Alternate: Canopy lights and signage Alternate range: 100-1000
Scale setting of: 1 = 25 fc
10 = 250 fc (each tick = 25 fc)
HPCSAT Indoor, atrium Range: 100-1000
Scale setting of: 1 = 100 fc
10 = 1000 fc (each tick = 100 fc)
HPCSKY Indoor, skylight Range: 1000-10,000
Scale setting of: 1 = 1000 fc
10 = 10,000 fc (each tick = 1000 fc)
HPCU Photocell Controller Unit Installation and Setup
Step 1
Move the DELAY ENABLE slide switch
to the OFF position
This will cause the control module to
respond immediately to changes in
setting levels or to changes in the lighting
level as seen by the sensor.
Step 2
Set the RANGE SELECTOR switch
Set the switch to the appropriate range
according to the table at the bottom of
this page.
Step 3
Set the HIGH and LOW setpoints
If you know the target light level at the
sensor, use Method A; if not, use Method B.
Method A: When the desired sensor
light level known …
HPCSOT, HPCSAT and HPCSKY: If
you know the target light level for the
sensor listed above, set the HIGH
level at 1 tick higher than the target
and the LOW level at 1 tick less than
the target. For example, if you wanted
to set an atrium sensor at 400
footcandles, the RANGE would be
100-1000, the HIGH setting = 5, the
LOW setting = 3. This would turn the
lights ON at 300 footcandles and OFF
at 500 footcandles.
Panel Division 888-852-2778 INHPCU 061501
not change state until you leave the dead
band on the high side. At that point, both
LEDs will go off and the relays will be
turned off.
Coming back down the curve at the end
of the day, the high level LED will come
on as we enter the dead band, but no
relay actions occur. Only when we leave
the dead band on the low side will both
LEDs come on and the relays be turned on.
To summarize the HPCU output actions:
Both LEDs on HPCU turns on relays
Both LEDs off HPCU turns off relays
One LED on no action (light level is
in dead band)
Automatic Response… Delay Enabled
This is the normal operating mode for a
HPCU. The actions are the same as
outlined above except that when the
delay is enabled, the unit will wait three
minutes after both LEDs come on (or go
off) to change the state of the relay. This
reduces the possibility of short duration
fluctuations in light level (such as a cars
headlights hitting an outdoor parking lot
sensor) causing nuisance switching of
the lighting circuits.
Operation
Manual Override … Individual Output
Each of the three output channels is
isolated allowing you to directly override
the associated relay with a local low
voltage switch (see the instructions
provided with your relay panel).
Note, however, that this override is not
permanent. For example, if an individual
uses his local switch to turn a light back
on which the daylight sensor has turned
off, the next time the sensor turns off its
output channels in response to increasing
light levels, it will also turn that relay off.
Manual Override … All Outputs
The Master Switch turns all three channels
on and off. As with the individual output
override, this override is not permanent.
Automatic Response Disabled
Closing the Photocell Enable contacts
disconnects the sensor from the HPCU
and the unit will no longer respond to
changes in the sensed light level. The
Manual Override functions will still
operate. This function is normally used to
keep the unit from controlling the lights
during unoccupied periods.
Automatic Daylighting Response
The HPCU automatically pulses up to
three lighting circuits in response to
changes in natural daylight. The pulse is
a 0.5 second dry contact closure
compatible with Watt Stopper latching
style relays or intelligent inputs.
The HPCU has two setpoints a high
level and a low level. These dictate the
ON/OFF operation of the relay outputs in
response to changing light levels (see
Figure 3).
The region between the high and low
setting is referred to as a dead band
because no relay actions will take place
when the light level is in this region. (The
dead band eliminates the possibility of
the controller going into an oscillating
mode: the sensor sheds the lamps
based on adequate lighting, whereupon
the new light level is so low that the
sensor activates the lamps on again.)
With the light level below the dead band,
both LEDs will be on and the relays will
be on. As the light levels increase and
you enter the dead band, the low level
LED will go off; however, the relays will
MAXIMUM
DAYLIGHT
LEVEL
HIGH
SETPOINT
LOW
SETPOINT
BOTH LEDs OFF
RELAYS OFF
DEAD BAND
TIME
BOTH LEDs ON
RELAYS ON
HIGH LED OFF
…RELAYS TURNED OFF
HIGH LED ON
…NO RELAY ACTION
LOW LED OFF
…NO RELAY ACTION
LOW LED ON
…RELAYS TURNED ON
Figure 3 – Daylighting Controller Operation
HPCU Photocell Controller Unit Installation and Setup
Installation Instructions
Santa Clara, CA 95050 © 2001 The Watt Stopper,
®
Inc.
HPCSAT
Atrium Photocell Sensor
Installation and Setup
The HPCSAT is an indoor photodiode light level
sensor for a daylighting contoller.
A complete assembly consists of the sensor and a
remotely mounted HPCU photocell controller unit. For
normal installations, the sensor is wired to the controller
with 4-conductor 20 AWG (Red/Black/White/Blue)
HOSW4 low-voltage sensor wire.
Most applications do not require that the sensor be
shielded. However, the optional shield should be used
when the sensor is installed in industrial locations or
those subject to heavy electromagnetic (EMI) or radio
frequency (RF) interference.
The HPCSAT and HPCU are designed as a matched
set to provide direct light level readouts over a range
of 100-1000 footcandles — the range normally
encountered in most atrium daylighting applications.
Features
Translucent dome with a 180° field of view provides
integrated brightness measurement
Incorporates photodiode technology to allow linear
response over a 100-1000 fc range with direct
readout of the measured light levels
Mounts to standard
1
2
"
conduit or knockout
Class 2, DC low-voltage wiring
Before proceeding, read the installation instructions
on the reverse side. If you have questions, call our
Service Team at: 888-852-2778.
Panel Division 888-852-2778 INHPCSAT 061501
Installation
Locate the Sensor
The sensor should be located where it
has a clear view of the sky as seen from
the atrium space. In perimeter window
walls, the unit should be mounted
looking out of the window. (The object is
to provide an indication of the level of
daylight entering the space not to
measure the light levels in the occupied
areas. Mount to
1
2
"
conduit. In atriums,
the unit is mounted vertically with the
dome facing up. In window wall applica-
tions, it is mounted horizontally looking
out of the window.
Wire from Sensor to HPCU
See the typical wiring diagram below.
Conform to National, State and Local
codes.
Figure 2 – HPCSAT Sensor Wiring
Figure 1 – HPCSAT Sensor Location
D
D
Atrium Application
ALL ATRIUM LIGHTS PLUS “SHEDABLE” LAMPS
WITHIN “D” TO PARTITIONS OR 15 FEET.
SEE
DIAGRAM
BELOW
Windowed Wall
Application
D
4"
6" MIN.
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
UNILET CONDUIT OUTLET
SPLICE
OPTIONAL
SHIELD
HPCU
HPCSAT
FOR DISTANCES UP TO 250 FT.
USE 4-CONDUCTOR 20 AWG HOSW4
FOR DISTANCES 250 1000 FT.
USE 4-CONDUCTOR 18 AWG
FOR INDUSTRIAL ENVIRONMENTS
OR LOCATIONS WITH HIGH EMI
USE SHIELDED 4-CONDUCTOR 20 OR 18 AWG
CATALOG NUMBER Lighting Control Panel Product Installation and Setup
Installation Instructions
Santa Clara, CA 95050 © 2001 The Watt Stopper,
®
Inc.
HPCSIN
Indoor Photocell Sensor
Installation and Setup
The HPCSIN is an indoor photodiode light level
sensor for a daylighting contoller.
A complete assembly consists of the sensor and a
remotely mounted HPCU photocell controller unit. For
normal installations, the sensor is wired to the controller
with 4-conductor 20 AWG (Red/Black/White/Blue)
HOSW4 low-voltage sensor wire.
Most applications do not require that the sensor be
shielded. However, the optional shield should be used
when the sensor is installed in industrial locations or
those subject to heavy electromagnetic (EMI) or radio
frequency (RF) interference.
The HPCSIN and HPCU are designed as a matched
set to provide direct light level readouts over a range
of 10-100 footcandles — the range normally encoun-
tered in most office and classroom applications.
Features
Fresnel lens with a 60° cone of response, which
reduces false triggering caused by daylight reflected
from the floor
Incorporates photodiode technology to allow linear
response over a 10-100 fc range with direct readout
of the measured light levels
Simple ceiling mount requires only a
3
8
"
penetration
hole in ceiling
Class 2, DC low-voltage wiring
Before proceeding, read the installation instructions
on the reverse side. If you have questions, call our
Service Team at: 888-852-2778.
Panel Division 888-852-2778 INHPCSIN 061501
HPCSIN Indoor Photocell Sensor Installation and Setup
Installation
Locate the Sensor
The sensor should be located near the
center of the daylit zone to be controlled.
However, it must also be mounted so
that a window is not within its viewing
angle. The diagram to the right shows
minimum distances. The sensor sees a
circle on the oor with a diameter
approximately equal to the height of the
ceiling. Thus, with a ceiling height of 10
feet, the sensor should be mounted ve
feet from the window.
Wire from Sensor to HPCU
See the typical wiring diagram below.
Conform to National, State and Local
codes.
Figure 2 – HPCSIN Sensor Wiring
HEIGHT
WINDOW
1
2
HEIGHT
SEE DIAGRAM BELOW
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
0.375" DIAMETER
THROUGH HOLE
HPCU
FOR DISTANCES UP TO 250 FT.
USE #20/4 HOSW4
FOR DISTANCES 2501000 FT.
USE #18/4
FOR INDUSTRIAL ENVIRONMENTS
WITH HIGH EMI
USE SHIELDED #20/4 OR #18/4
HPCSIN
CEILING
OPTIONAL
SHIELD
Figure 1 – HPCSIN Sensor Location
Installation Instructions
Santa Clara, CA 95050 © 2001 The Watt Stopper,
®
Inc.
HPCSKY
Skylight Photocell Sensor
Installation and Setup
The HPCSKY is an indoor photodiode light level
sensor for a daylighting contoller.
A complete assembly consists of the sensor and a
remotely mounted HPCU photocell controller unit. For
normal installations, the sensor is wired to the controller
with 4-conductor 20 AWG (Red/Black/White/Blue)
HOSW4 low-voltage sensor wire.
Most applications do not require that the sensor be
shielded. However, the optional shield should be used
when the sensor is installed in industrial locations or
those subject to heavy electromagnetic (EMI) or radio
frequency (RF) interference.
The HPCSKY and HPCU are designed as a matched
set to provide direct light level readouts over a range
of 1,000-10,000 footcandles — the range normally
encountered in skylight applications.
Features
Translucent dome with a 180° field of view provides
integrated brightness measurement
Incorporates photodiode technology to allow linear
response over a 1,000-10,000 fc range with direct
readout of the measured light levels
Mounts to standard
1
2
"
conduit or knockout
Class 2, 24 DC low-voltage wiring
Before proceeding, read the installation instructions
on the reverse side. If you have questions, call our
Service Team at: 888-852-2778.
Panel Division 888-852-2778 INHPCSKY 061501
HPCSKY Skylight Photocell Sensor Installation and Setup
D
D
Atrium Application
ALL ATRIUM LIGHTS PLUS “SHEDABLE” LAMPS
WITHIN “D” TO PARTITIONS OR 15 FEET.
SEE
DIAGRAM
BELOW
Windowed Wal
l
Application
D
4
Installation
Locate the Sensor
The sensor should be located in the
center of the skylight at least 12 inches
away from the sidewall. Mount to to
1
2
"
conduit. The unit is mounted vertically
with the dome facing up.
Wire from Sensor to HPCU
See the typical wiring diagram above.
Conform to National, State and Local
codes.
Figure 2 – HPCSKY Sensor Wiring
Figure 1 – HPCSKY Sensor Location
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
UNILET CONDUIT OUTLET
SPLICE
HPCU
HPCSKY
OPTIONAL
SHIELD
FOR DISTANCES UP TO 250 FT.
USE 4-CONDUCTOR 20 AWG HOSW4
FOR DISTANCES 250 1000 FT.
USE 4-CONDUCTOR 18 AWG
FOR INDUSTRIAL ENVIRONMENTS
OR LOCATIONS WITH HIGH EMI
USE SHIELDED 4-CONDUCTOR 20 OR 18 AWG
Installation Instructions
Santa Clara, CA 95050 © 2001 The Watt Stopper,
®
Inc.
HPCSOT
Outdoor Photocell Sensor
Installation and Setup
The HPCSOT is an outdoor photodiode light level
sensor for a daylighting contoller.
A complete assembly consists of the sensor and a
remotely mounted HPCU photcell controller unit. For
normal installations, the sensor is wired to the controller
with 4-conductor 20 AWG (Red/Black/White/Blue)
HOSW4 low-voltage sensor wire.
Most applications do not require that the sensor be
shielded. However, the optional shield should be used
when the sensor is installed in industrial locations or
those subject to heavy electromagnetic (EMI) or radio
frequency (RF) interference.
The HPCSOT and HPCU are designed as a matched
set to provide direct light level readouts over a range
of 1-10 footcandles — the range normally encoun-
tered in most parking lot and security lighting applica-
tions. An alternate setting provides a range of 25-250
footcandles, for controlling signage and canopy
lighting.
Features
Completely encased in optically-clear epoxy resin
for weather-tight operation
Hooded aperture for shielding from direct sunlight
Incorporates photodiode technology to allow linear
response over a 1-10 fc range with direct readout of
the measured light levels
Alternate setting with a linear response over a
25-250 fc range
Stable operation from -20° to 150°F
Mounts to standard
1
2
"
conduit or knockout
Class 2, DC low-voltage wiring
Before proceeding, read the installation instructions
on the reverse side. If you have questions, call our
Service Team at: 888-852-2778.
Panel Division 888-852-2778 INHPCSOT 061501
HPCSOT Outdoor Photocell Sensor Installation and Setup
SEE DIAGRAM BELOW
NOTE: INSTALL 12 INCHES ABOVE THE SNOW LINE
PARKING LOT LIGHTING
CANOPY LIGHTING
SIGNAGE
Installation
Locate the sensor
The sensor should be located on the
roof of the building, facing North. The
unit should have an unrestricted view of
the skyline and should not face any
nighttime light sources. Mount to a
1
2
"
weathertight junction box.
Wire from Sensor to HPCU
See the typical wiring diagram below.
Conform to National, State and Local
codes.
Note: The HPCSOT is typically used for
all exterior lighting applications parking
lot, security, signage and canopy/walkway
lighting. The table below summarizes the
recommended initial settings on the
HPCU for each of these applications.
Figure 2 – HPCSOT Sensor Wiring
Figure 1 – HPCSOT Sensor Location
HIGH
LOW
RED
BLACK
RED
BLACK
RED
BLACK
ON-RED
OFF-BLK
COMMON
MASTER
SWITCH
SENSOR
ENABLE
ON COMBLACK WHITE RED BLUE DRAIN
PHOTO-
CELL
DELAY ENABLE RANGE SELECTOR
24VAC COM
OFF ON
1
2
3
4
56
7
8
9
10
1
2
3
4
56
7
8
9
10
HPCU
FOR DISTANCES UP TO 250 FT.
USE 4-CONDUCTOR 20 AWG HOSW4
FOR DISTANCES 250 –1000 FT.
USE 4-CONDUCTOR 18 AWG
FOR INDUSTRIAL ENVIRONMENTS
OR LOCATIONS WITH HIGH EMI
USE SHIELDED 4-CONDUCTOR 20 OR 18 AWG
HPCSOT
WEATHERTIGHT
JUNCTION BOX
0.5" THREADED INLET
OPTIONAL
SHIELD
Typical HPCU Settings
LIGHTING TARGET RANGE LOW HIGH
APPLICATION LIGHT SELECTOR LEVEL LEVEL
LEVEL SWITCH ADJUST ADJUST
PARKING LOT 5 FC 1-10 4 6
CANOPY LIGHTS 50 FC 100-1000 1 3
SIGNAGE 200 FC 100-1000 7 9
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6
  • Page 7 7
  • Page 8 8
  • Page 9 9
  • Page 10 10
  • Page 11 11
  • Page 12 12

Legrand Photocontroller and Photocells (HPC) Installation guide

Type
Installation guide

Ask a question and I''ll find the answer in the document

Finding information in a document is now easier with AI