Cooper Lighting Vacancy Ultrasonic MicroSet Ceiling Sensor Installation guide

Type
Installation guide

Cooper Lighting Vacancy Ultrasonic MicroSet Ceiling Sensor is a vacancy sensor designed to detect motion and maintain lights ON when occupancy is detected. The sensor uses ultrasonic waves to detect motion, and it can be used in a variety of applications, including offices, classrooms, and warehouses. The sensor has a coverage area of up to 2,000 square feet, and it can be mounted on a ceiling, wall, or junction box. The sensor also features self-adaptive technology that continually adjusts to conditions by adjusting sensitivity and time delay in real-time.

Cooper Lighting Vacancy Ultrasonic MicroSet Ceiling Sensor is a vacancy sensor designed to detect motion and maintain lights ON when occupancy is detected. The sensor uses ultrasonic waves to detect motion, and it can be used in a variety of applications, including offices, classrooms, and warehouses. The sensor has a coverage area of up to 2,000 square feet, and it can be mounted on a ceiling, wall, or junction box. The sensor also features self-adaptive technology that continually adjusts to conditions by adjusting sensitivity and time delay in real-time.

Installation Instructions
Eaton’s Cooper Controls Business
203 Cooper Circle
Peachtree City, Georgia 30269
www.coopercontrol.com
Coverage
Model # VAC-U-0501-R
Model # VAC-U-1000-R
Model # VAC-U-2000-R
• Readallinstructionsonbothsidesofthis
sheetrst
• InstallinaccordancewithALLlocalcodes
• Forindooruseonly
• ForUsewithGreengateSwitchpacks&
SystemsOnly
• DonotrunanyGreengateLowVoltageWiringin
thesameconduitaspowerconductors
General Information
Power Requirements:
Input:
• 0-30VDCfromGreengateSwitchpackor
Greengatesystem.Maximumcurrentneededis
25mApersensor
Output:
• Opencollectoroutputtoswitchuptoten
GreengateSwitchpacks
• BASwithIsolatedFormCRelay(-Rmodel)
• IsolatedFormCRelayRatings:1A30VDC/VAC
Operating Environment:
• Temperature:32°F–104°F(0°C–40°C)
• RelativeHumidity:upto90%non-condensing
Specifications
Description
Ultrasonic
Activated
TheVAC-UCeilingMountLowVoltageVacancySensorisanUltrasonic(US)motionsensinglightingcontrol,used
forenergysavingsandconvenience.Thesensorproducesalowintensity,inaudiblesoundtodetectoccupancy
inaroom.Changesinthesensor’sacousticwavecausedbymotion,suchaswalkingintheroom,reachingfora
telephoneorswivelinginachair,willmaintainthelightsON.Thesensordoesnotrespondtoaudiblesound.Whena
manualswitchisused,thebluewireiselectronicallyconnectedtotheredwire,energizingtherelayintheswitchpack
toturnontheload.Ifvacancyisdetected,thebluewireisdisconnectedfromthered,causingtherelaytoopen
turningOFFtheload.Theredleadis10-30VDCsupply,theblackleadiscommonandtheblueistherelaycontrol.
Thesensorincludesself-adaptivetechnologythatcontinuallyadjuststoconditionsbyadjustingsensitivityandtime
delayinreal-time.
Location
Themaximumcoverageareamayvarysomewhataccordingtoroomshapeandthepresenceofobstacles.Decrease
totalcoverageareaby15%for“soft”rooms(forexample,heavydraperiesorheavycarpeting).Thesensormusthavea
clearviewoftheareatobecontrolled.Thesensorwillnot“see”throughglass.Mountingheightshouldnotexceed12
feet.Optimummountingheightis8to10feet.Mountthesensorsothegrillesfacetheopenportionoftheroomandare
notfacinganearbywall,door,windoworotherobstructingobject.Avoidpointingintohallways.Mountingatxtureheight
ismosteffective.*Topreventfalseactivation,thesensorshouldbemountedawayfromtheairsupplyductaminimumof
4to6feet.
Installation
TheVAC-Usensorcanbemountedtotheceiling,junctionbox,orroundxturewithraceway.
Wiring
CAUTION: Before installing or performing any service on a Greengate system, the power MUST be turned
OFF at the branch circuit breaker. According to NEC 240-83(d), if the branch circuit breaker is used as the
main switch for a fluorescent lighting circuit, the circuit breaker should be marked “SWD”. All installations
should be in compliance with the National Electric Code and all state and local codes.
NOTE REGARDING COMPACT FLUORESCENT LAMPS: The life of some compact fluorescent lamps (CFLs) is
shortened by frequent automatic or manual switching. Check with CFL and ballast manufacturer to determine the
effects of cycling.
1.Makesurepoweristurnedoffatthebranchcircuitbreaker.
2.Wireunitsasshowninwiringdiagramsperapplicablevoltagerequirements.(Usetwist-onwireconnectorsfor
allconnections)CAPALLUNUSEDWIRELEADS.
3.Mountunittoceiling,junctionbox,orroundxturewithraceway.
4.Turnpowerbackonatthebranchcircuitbreakerandwait2minutesfortheunittostabilize.
5.Makenecessaryadjustments.(SeeCheckoutandAdjustmentssection)
OAC-STEM Threaded Rod
(sold separately)
Minor Motion, Ultrasonic
Major Motion, Ultrasonic
Maximum coverage area may
vary somewhat according to room
shape and the presence of obstacles.
The NEMA WD 7 Guide and robotic
method were utilized to verify
coverage patterns.
DT1k
9 ft
(2.74 m)
0
12 ft
(3.65 m)
20 ft
(6.096m)
9 ft
(2.74 m)
12 ft
(3.65 m)
20 ft
(6.096m)
17 ft
(5.18 m)
10 ft
(3 m)
5 ft
(1.5 m)
0
5 ft
(1.5 m)
10 ft
(3 m)
17 ft
(5.18 m)
23 ft
(7.01 m)
23 ft
(7.01 m)
15 ft
(4.57 m)
15 ft
(4.57 m)
VAC-U-1000-R Coverage Diagram
Minor Motion, Ultrasonic
Major Motion, Ultrasonic
Maximum coverage area may
vary somewhat according to room
shape and the presence of obstacles.
The NEMA WD 7 Guide and robotic
method were utilized to verify
coverage patterns.
0
12 ft
(3.65 m)
16 ft
(4.87 m)
12 ft
(3.65 m)
16 ft
(4.87 m)
20 ft
(6.096m)
20 ft
(6.096m)
23 ft
(7.01 m)
5 ft
(1.52 m)
5 ft
(1.52 m)
32 ft
(9.75 m)
32 ft
(9.75 m)
15 ft
(4.57 m)
23 ft
(7.01 m)
15 ft
(4.57 m)
10 ft
(3 m)
10 ft
(3 m)
0
VAC-U-2000-R Coverage Diagram
Load 1
Blue
Neutral
Hot
**Use black lead for 120 VAC
Use orange lead for 277 VAC
Cap unused lead.
Line
**Hot
White
Blue
SWITCH-
PACK
Black
Blue
Brown
Yellow
Purple
Gray
Orange
Red
White/Brown
Load 2
Blue
Neutral
Hot
**Use black lead for 120 VAC
Use orange lead for 277 VAC
Cap unused lead.
Line
**Hot
White
Blue
SWITCH-
PACK
Black (Common)
Blue (Control)
Red (15 VDC)
Black (Common)
Blue (Control)
Red (15 VDC)
Model GMDS - Load 2
(Normally Open
Momentary Switch)
Model GMDS - Load 1
(Normally Open
Momentary Switch)
Manual Mode Operation:
Switches ar
e required to
tur
n corresponding loads ON.
Lights tur
n OFF when sensor
times out or with the
switch.
If daylight sensor is
enabled and light level is
above setpoint, switchpack
connected to yellow lead
will not tur
n ON.
Recommended Wir
e:
18-3 A
WG Stranded Wire
non/shielded.
Manual ON Control of
Two Standard Switchpacks
Black
Blue
Brown
Yellow
Purple
Gray
Orange
Red
White/Brown
Load 1
Blue
Neutral
Hot
**Use black lead for 120 VAC
Use orange lead for 277 VAC
Cap unused lead.
Line
**Hot
White
Blue
SWITCH-
PACK
Black (Common)
Blue (Control)
Red (15 VDC)
Model GMDS - Load 1
(Normally Open
Momentary Switch)
Manual Mode Operation:
Switches are required to
turn corresponding loads ON.
Lights turn OFF when sensor
times out or with the
switch.
If daylight sensor is
enabled and light level is
above setpoint, switchpack
connected to yellow lead
will not turn ON.
Recommended Wire:
18-3 AWG Stranded Wire
non/shielded.
One Sensor, One Switchpack
SENSOR WIRE LEAD LEGEND
Black (Common)
Red (10-30 VDC)
Blue (Control - Occupancy)
Yellow (Control - Occupancy and Daylight)
Brown (Switch-Blue Lead Control)
Brown/White (Switch-Yellow Lead Control)
Sensor's Isolated Relay
Orange (Normally Open)
Gray (Common)
Purple (Normally Closed)
30 ft
9.14 m
30 ft
9.14 m
VAC-U-1000 & OAC-U-2000
VAC-U-0501-R Coverage Diagram
Minor Motion, Ultrasonic
Major Motion, Ultrasonic
Maximum coverage area may
vary somewhat according to room
shape and the presence of obstacles.
The NEMA WD 7 Guide and robotic
method were utilized to verify
coverage patterns.
9 ft
(2.74 m)
9 ft
(2.74 m)
0
12 ft
(3.65 m)
12 ft
(3.65 m)
20 ft
(6.096m)
20 ft
(6.096m)
5 ft
(1.52 m)
10 ft
(3.05 m)
15 ft
(4.57 m)
23 ft
(7.01 m)
15 ft
4.57 m
15 ft
4.57 m
VAC-U-0501
Ultrasonic Ceiling Mounted Low
Voltage Vacancy Sensor
P/N 9850-000198-01
Eaton’s Cooper Controls Business
203 Cooper Circle
Peachtree City, Georgia 30269
www.coopercontrol.com
Printed in Malaysia
Warranties and Limitation of Liability
DIP Switch Settings Troubleshooting
Pleaserefertowww.coopercontrol.comundertheLegalsectionforourtermsandconditions.
Issue Possible Causes Suggestions
Lights
Will Not
Turn ON
manually
DaylightingFeatureEnabled
IfalllightsarerequiredadjustDIPSwitch10
and/ordaylightpotentiometer
Powerinterruption Checkincomingvoltageand/orwiring
If lights will still not turn ON, set sensor to override mode and call Technical Services at 1-800-553-3879
Lights
Will Not
Turn OFF
automatically
Override
MakesuresensorisnotinOverrideMode
(DIPSwitch8up)
Sensorinstalledclosetoanairvent
Sensorsshouldbeinstalledminimum4-6feetaway
fromanyairventandoutofpathofheavyairow
Sensorinstalledclosetoindirectlighting Sensorsshouldbemountedawayfromindirectlighting
Self-adjust
Itmaybepossiblefortheunittohaveself-adjusted
thetimedelaytoa30minutedelay.Ifthelightsdo
notturnOFFafter30minutesfollownextstep.
30MinuteDelay
Maximumtimedelayis30Minutes.CheckDIP
SwitchestoverifyDIPSwitchsettings.Iflightsdo
notturnOFFatthesettimedelay,checknextstep.
Bypass
Checkwiringtomakesuresensor
orswitchpackarenotbypassed
Lights Will Not
Turn OFF
manually
Override
MakesuresensorisnotinOverrideMode
(DIPSwitch8up)
If lights will still not turn OFF, call Technical Services at 1-800-553-3879
AdjustmentsshouldbemadewiththeHVACsystemON.Useonlyinsulatedtoolstomakeadjustments.
Self-Adjust
SensorisshippedintheSelf-AdjustMode.Thisappliestotimedelayand
USsensitivity.InpreparationfortheInstallerTest,the
timedelayissetto15seconds,afterthesensorisinstalled,poweredONandhasstabilized,theunitwilltime-out15secondsafter
thelastmotiondetected.CoverageandsensitivitycanbeconrmedbywatchingtheGreen(US)indicatorLEDsonthefrontofthe
sensor,whilemovingaroundtheroom.
1. WalkaroundtheroomandmonitorLEDs.LEDsshouldonlyturnONfor¼secondwitheachmotion.(IfLEDsdonotturnON,
gotoInstallerAdjustments–SensitivityAdjustmentsSection)
2. Standstillsixtoeightfeetawayfromthesensorforveseconds.LEDsshouldnotturnON.(IfanyLEDturnsON,noteLED
andgotoInstallerAdjustments–SensitivityAdjustmentsection)
3. Walkoutsidetheroomandwait15secondsforthelightstoturnOFF.(IflightsdonotturnOFFgotoInstaller
AdjustmentsSection)
4. Re-entertheroomtoactivatesensor.(IflightsdonotturnONgotoTroubleshootingSection)
5. TheunitwillremaininTestModefor10minutesthenautomaticallyexitTestModeandgofor10min.TimeDelayUser
Modesetting.
Note:
ToplaceintoTestMode,toggleDIPSwitch10outofitscurrentposition,wait3seconds,andthenbackintoitsoriginalposition.Toforce
into10minUserModemoveDipSwitches1and2down.(IfDIPSwitches1and2arealreadydown,toggleDIPSwitch1outofitscurrentposition,
wait3seconds,andthenbacktoitsoriginalposition)WhileinTestMode,theLEDswillashonceper1/4second.
Installer Adjustments
SweepOverride
LEDs
(-R model only)
(-R model only)
Full/Half Logic HVAC/Tracking
Zero Time Delay
Not UsedNot Used Not Used
12345678910
11 12
ON
Daylight Sensor Adjustment
Ultrasonic Sensitivity Adjustment
Sensitivity Adjustments
Ultrasonic Sensitivity (GreenLED)–Usingasmallatheadscrewdriverturnthegreenpotentiometersothatthearrowpointsup.
1. Standindifferentareasoftheroomandwaveyourhands.
2. IftheGreenLEDdoesnotturnON,increasetheUSsensitivitybyturningthegreenpotentiometerclockwiseinsmall
increments.RepeatStep1.
3. Standstillsixtoeightfeetawayfromsensorforveseconds.LEDshouldnotturnON.
4. IfGreenLEDturnsONwithoutmotionorisconstantlyONdecreasetheUSsensitivitybyturningthegreenpotentiometer
counter-clock-wiseinsmalldecrements.RepeatStep3.
Field-of-view outside the space
1. AdjustUltrasonicsensitivity.
Daylight Adjustments (-R Model Only 0 to 300 foot-candles)
Ifthisfeatureisnotneeded,leavethelightlevelatmaximum(fullyclockwise).
TheDaylightingfeaturepreventsthelightsfromturningONwhentheroomisadequatelyilluminatedbynaturallight.Ifthereis
enoughlightintheroomregardlessofoccupancy,thesensorwillholdthelightsOFF.Ifthereisnotenoughlightintheroom,thesensor
willallowthelightstoturnONwhenoccupied.
Full and Half Logic Modes (SeeDIPSwitchlegend):
InbothFullandHalfLogicmodes,lightsconnectedtotheyellowcontrolleadwillnotturnONuponoccupancyactivation,should
theambientlight
levelexceedthepresetfoot-candlelevel.
After activation:
FullLogicMode–shouldtheambientlightlevelexceedthepresetfoot-candlelevel,thelightsconnectedtotheyellowcontrol
leadwillturnOFF.ThelightswillremainOFF,untiltheambientlightlevelfallsbelowthesetpoint.
HalfLogicMode–theoutputstateoftheyellowcontrolleadwillnotchangewithambientlightchanges,afteroccupancy
activation.Iftheamountofnaturallightavailablerisesabovethesetpoint,thedaylightsensorwillnotturnthelightsOFFwhile
occupancyisbeingdetected.
Note: Setthelightlevelwhentheambientlightisatthelevelwherenoarticiallightisneeded.Inorderforthisfeaturetofunction,
theyellowcontrolleadmustbewired.
1. WiththeloadON,putthesensorintoTestMode.ToplaceintoTestMode,toggleDIPSwitch10outofitscurrentposition,wait3
secondsandthenbackintoitsoriginalposition.
2. SetDIPSwitch10toFullorHalfLogicMode.
3. Setthelightleveltominimum(fullyCCW).
4. Leavetheroomandletthesensortime-outsolightsareOFF.EnterthespaceandlightsshouldremainOFF.
5. Makesure
nottoblockthesensorfromthedaylightsourceandadjustthelightlevelpotentiometerCWinsmallincrementsuntil
thelightsareON.(Pause5secondsbetweeneachadjustment)
6. OncethelightsareON,theloadconnectedtothesensorwillnotturnONiflightlevelsareabovethecurrentillumination.
Time Delay Adjustments
Peoplewhoremainverystillforlongperiodsoftimemayneedalongertimedelaythanthedefaultsettingof10minutes.Aslong
asAutoisenabled,thesensorwillrespondtoeachpairoffalse-OFFswithnonormalOFFinbetween,byalternatelymakingslight
adjustmentstoeithertimedelay(by2minuteincrements)orsensitivity,sothereshouldbenoneedformanualadjustment.Ifmanual
adjustmentisdesired,refertoTimeDelaysettingsinDIPSwitchlegend.
ResetsensortimedelaytofactorysettingsbymovingDIPSwitches1and2down.(IfDIPSwitches1and2arealreadydown,toggle
DIPSwitch10outofitscurrentposition,wait3seconds,andthenbacktoitsoriginalposition)
Manual Mode (-R Model Only)
InManualONMode,themomentarylowvoltageswitch(es)isrequiredtoturntheload(s)ON.Onceactivatedthesensorwillmaintain
thelightsONuntilmotionceasesandthetimedelayexpires.WhiletheroomisoccupiedtheBASrelayremainsactive.Afterthetime
delayexpires,theload(s)willautomaticallybeturnedOFFandtheswitch(es)mustbeusedtoturntheload(s)ONunlessthereismotion
detectedwithinthe10secondre-triggerperiod.
Lighting Sweep Option
Ifselected,thisDIPSwitchoptionforcesaninitial60seconddelayupon“power-up”topreventfalseactivationinbuildingswith
computercontrolsystems.
1. MoveDIPSwitch9up.Ifnotselected(DipSwitch9down),uponinitial“power-up”orrestorationofpowerthesensorwillforcethe
lightsONnomatterthestateofoccupancy.
HVAC/Tracking Mode (-R model only)
Ifselected,TrackingModeallowstheloadconnectiontotheFormCrelaytofollowthestateofthesensor’sbluelead.HVACMode
allowstheloadconnectedtotheFormCrelaytoremainONwhenthelightsareturnedOFFmanually.Applicationsmayincludekeeping
theroomatadesiredtemperaturewhilegivingapresentationandthelightsareOFF.
Zero Time Delay Mode
InZeroTimeDelayMode,theoutputisactuatedforonesecondtosignalanotherdevicethatthespacebeingmonitoredisoccupied.
Applicationsmayincludetheuse
ofalightingcontrolsystemtomanagethedelayofthelightingdeactivation.Pleaseseethewiring
diagramsectionforwiringdetails.
WheninZeroTimeDelayModeandTrackingModetheloadconnectedtotheFormCrelayshallfollowthestateofthesensor’sblue
lead(zeroTimeDelayfortheformCrelay).
WheninZeroTimeDelayModeandHVACMode,theloadconnectedtotheFormCrelayremainsONforthestandardTimeDelay.
Override
TheOverridesettingallowsthelightstoremainONintheunlikelyeventofsensorfailure.
1. MoveDIPSwitch8up.
WhileinOverrideMode,theoptionallowvoltagemomentaryswitch(es)willtogglethelightingload(s).
LED Indicators Functionality
During Installer/Test Mode While in User Mode
LED Flashing Speed
LEDswillashonceper¼second LEDswillashoncepersecond
Duration
10minutes 10to30minutes
Checkout and Adjustment
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Cooper Lighting Vacancy Ultrasonic MicroSet Ceiling Sensor Installation guide

Type
Installation guide

Cooper Lighting Vacancy Ultrasonic MicroSet Ceiling Sensor is a vacancy sensor designed to detect motion and maintain lights ON when occupancy is detected. The sensor uses ultrasonic waves to detect motion, and it can be used in a variety of applications, including offices, classrooms, and warehouses. The sensor has a coverage area of up to 2,000 square feet, and it can be mounted on a ceiling, wall, or junction box. The sensor also features self-adaptive technology that continually adjusts to conditions by adjusting sensitivity and time delay in real-time.

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