Minilux Sensor PIR 360° Wireless 41-380
Contents
1. TIME LED1 Light Movement LED2 Movement LED3 RF Transmit Factory settings 24Vac DC G Nax LUX 15min eceiver l Visual contact 1min 30min TIME ON Factory settings OFF DIP1234 A LUX Test mode 8 ensor PIR 360 Effective wall DIP settings Un B PIR Test mode PONE thickness Effective wall thickness I ON position p L C LED1 2 ON A CC L L D Min sensitivity L OFF position D L D Low sensitivity L D D High sensitivity r p D Max sensitivity Minilux Sensor PIR 360 Wireless 41 380 Fitting and operating instructions General The Minilux Sensor PIR 360 41 380 is a movement sensor based on wireless technology that sends an RF telegram to a receiver module which switches the light on and off 1st priority Daylight 2nd priority Movement Areas of application Small offices Open plan offices divided into workgroups Premises with rest areas Shared activity rooms Changing rooms Large storage rooms Function The integrated light sensor measures the light level in the area continuously and compares it with the preset value specified via the LUX setting button If the light level falls below the preset value and the movement sensor detects activity in the coverage area the light is switched on The integrated cut out delay of 1 30 mins adjustable makes sure that RF switch on telegrams a2. activated or not and an RF telegram to be transmitted immediately to the receiver b Delivery of a time controlled process At an interval 1x per 1 sec T_wake up the internal microprocessor starts the status of the movement sensor is registered and if there is an activation an HF telegram is transmitted immediately If there is no change for every 100 event controlled processes an HF telegram will be transmitted Default setup of STM110 transmitter T wake up 1 T event 100 T send 1 wake up x 100 event 100 sec Description of the RF telegram EnOcean Profile Profile 06000111 Occupancy Sensor Type 0b0000001 Occupancy Sensor 1 Manufacturer ID 0600000000011 DATA BYTES DB 1 PIR off 0 127 PIR on 128 255 DB O BIT 3 Learn button 0 Teach in telegram 1 Data telegram For sensor using the previous EXMC coding please refer to Sensor type 41 301 10 Technical data Input Supply voltage 230Vac 10 50Hz Alternative supply 24Vac DC 10 Inherent consumption 230Vac 1 W or 24V 0 5VA Performance HF system transmitter EnOcean STM110 Transmitter frequency 868 MHz Transmitter output 10 mW Transmitter rate of recurrence On standby once per approx 100 sec Immediately when PIR activation timer set AP WANG ME 100 metres in open space free line of
3. achieving optimal transmission of the RF signal to the receiver the PIR Sensor should not be fitted to premises with metal screening which blocks signals between transmitter and receiver please see the section on RF wireless information 4 Installation a The ideal measurement of daylight is obtained by positioning the movement sensor with the light sensor facing the source of daylight b Ifthe movement sensor is fitted directly to the ceiling holes at intervals of 105 mm can be used Please note that the cable input is turned 45 in relation to the fixing holes c Ifthe movement sensor is fitted to a ceiling box the holes located for this purpose at intervals of 60 mm are used and the base opening is punched out d Neverfit the movement sensor to a metal panel as this reduces the RF signal dramatically 5 Connection a First read the WHOLE installation and user manual b Switch off all power during installation and setup c Note that the movement sensor can be connected to EITHER 230Vac OR 24Vac DC d All assembly cable laying must be undertaken correctly in accordance with the prevailing Installation Regulations e 230Vac is connected via the terminals labelled L N and the protective conductor to e f 24VDC or ac is connected via the terminals labelled 24V and 24V g Power up causes an HF switch on telegram to be sent The integrated indicator LED1 red or LED2 green will always be lit for 1 mi
4. min the lighting is switched off at a lower daylight level If the LUX setting is turned towards max the lighting is switched off at a higher daylight level Finish by setting the switches to DIP1 OFF and DIP2 OFF b PIR TEST mode Set the switches to DIP1 OFF and DIP2 ON In this position an RF switch on telegram is transmitted immediately upon PIR activation and an RF switch off telegram after 5 seconds if there is no new activation PIR activation is indicated via the integrated indicator LED1 red or LED2 green PS In this test the daylight blocking will not be working Finish by setting the switches to DIP1 OFF and DIP2 OFF c LED1 and 2 indication on Set the switches to DIP1 ON and DIP2 OFF In this position LED1 red will indicate PIR activity and that daylight blocking is selected the PIR timer setting is adjustable from 1 30 mins If daylight blocking is deselected LUX setting at off position LED2 green will indicate PIR activity the PIR timer setting is adjustable from 10 sec 30 mins We recommend that LED1 and 2 are switched off by setting DIP1 and 2 to OFF so that people do not feel that they are being watched d PIR sensitivity setting Switches DIP3 and DIP4 enable you to customise the sensor s sensitivity In the factory the product is set to high sensitivity The options are described in fig 7 LRN button If you press this button learn an RF status telegram will immediately be sent
5. to the receiver indicated via LEDS yellow Must be used for system recognition of the receiver PS The receiver must also be set to Learn mode please refer to the receiver s description of the learning method The PIR Sensor is preset in the factory as follows e Sensor on automatic with daylight blocking e LED1 and 2 switched off High sensitivity Deselection of daylight blocking If the LUX setting is turned towards max to the OFF position the PIR Sensor will operate without daylight blocking In this position the PIR timer setting can be adjusted to 10 sec 30 mins 8 Assembling the sensor a Press the sensor part up into the terminal array in the base and fit the Pozidrive PZ O Philips PH locking screw b Set and test the sensor as described in fig 7 c Reduce the coverage area as described in fig 2 d Fit the Sensor s cover 5 10 Operation amp maintenance Make sure that the lens is kept clean and dry The lens can be cleaned with a slightly damp cloth In the event of faults or operational disruption beyond the normal user settings LUX TIME LRN SENSITIVITY contact an authorised electrician 9 RF wireless information The movement sensor has an integrated RF transmitter model STM110 EnOcean The RF transmitter signal has a frequency of 868 MHz with a transmission rate of recurrence of 1x per 100 seconds and a transmission output of less than 10 mW This guarantees an RF envir
6. vision approx 30 metres in buildings see RF wireless information LUX range ERRORI EE 10 1000 Lux L x range OM sceau tenasodpsbesi gen LUX is turned towards max to position off no daylight blocking Hysteresis NENNT gt 41096 Cut out delay e stdegtegagespeage 1 30 mins with daylight blocking 10 sec 30 mins no daylight blocking SONS soman Selected manually Activation indicator on off Selected manually Test lee Selected manually Protection class eessen IP 20 Ambient temp 5 C 50 C Gable DUSH eegene gegen ani caua ba 2 x O12 mm Approval GE according to EE EN 60669 2 1 Note The Sensor is marked with the EnOcean ID 6 10
7. LLZLHOM9LLOG0 OH CO O8EALY SERVODAN Minilux Sensor PIR 360 Wireless 41 380 enocean Advarsel Indbygning og montering af elektriske apparater m kun foretages af aut elinstallat r Ved fejl eller driftforstyrelser kontakt den aut elinstallator Ret til aendringer forbeholdes Warning Installation and assembly of electrical equipment must be carried out by qualified electricians Contact a qualified electrician in the event of fault or breakdown Reserving the right to make changes Achtung Einbau und Montage elektrischer Ger te d rfen nur durch Elektrofachkr fte erfolgen Wenden Sie sich bei St rungen bzw Ausfall an einen Elektrofachkraft Anderungen vorbehalten Avertissement L installation et le montage d appareils lectriques doivent exclusivement tre ex cut s par un lectricien agr En cas de d faut ou de perturbation du fonctionnement contacter un installateur lectricien agr Sous r serve de modifications Servodan A S DK 6400 S nderborg Tel 45 7442 4726 Fax 45 7442 4035 www servodan dk E mail info servodan dk Top view Side view Pozidriv PZ 0 Phillips PH 1 a fel fol fel Tel fo O O O O s efe O E LRN LED3
8. nute stabilisation time 6 Connection chart A 230Vac or a 24Vac DC power supply is one option This means that both may not be connected 7 Setting up testing The movement sensor is supplied with two test mode functions one for a LUX test a and for a PIR test b The chosen function is indicated with 2 LEDs LED1 red for 1st priority daylight or LED2 green to indicate PIR activity as the only priority LED1 and 2 indication c PIR sensitivity setting d can be set in 4 different sensitivity positions LRN button is a wireless system coding for the receiver LEDS yellow indicates RF signal By the means of the LUX setting daylight blocking can be deselected LED1 red indicates 1st priority daylight and PIR activation Light Movement LED2 green indicates the only priority is movement and PIR activation Movement LEDS yellow indicates that the RF signal is being transmitted to the receiver a LUX TEST mode Set the switches to DIP1 ON and DIP2 ON In this position an RF switch off telegram is transmitted to the receiver module Turn the LUX setting slowly from min towards max until the integrated indicator LED1 red lights up At this point the LUX setting is identical to the daylight level measured by the sensor If the daylight level in the room is sufficient turn the LUX setting towards minimum until the LED is switched off and leave the LUX setting at this level If the LUX setting is turned towards
9. onment that is typically 100 times less than conventional wireless systems RF transmitter distance As an HF signal involves electromagnetic oscillations waves of a certain field strength these are suppressed on the way to the receiver The RF signal s field strength weakens proportionally by the square of the distance between transmitter and receiver However this natural reduction of the field strength as a function of distance is not the only suppression that affects the distance Metal parts e g in connection with reinforcements to wall and ceiling elements metal foil in damp barriers or UV colour filters through metal foil will all reflect distort or suppress the RF signal on its way to the receiver Below is a list approximate of penetration rates for commonly used building materials The penetrative strength of RF signals Materials Penetration Wood plaster and glass without surface foil 90 100 Brick MDF and chipboard panels 65 95 Concrete reinforcement 10 80 Metal aluminium panels etc 0 10 In practice this means that the choice of materials in premises has a decisive influence on the distance between transmitter and receiver As a guideline the following distances can be used RF signal distance penetration Visible distance between transmitter and receiver Typically 30 m in walkways up to 100 m in large open r
10. ooms e g sports halls Plaster wooden walls Typically 30 m distance through max 5 walls Brick aerated concrete walls Typically 20 m distance through max 3 walls Steel reinforced walls ceilings floor structures Typically 10m distance through max 1 ceiling wall The angle at which the RF signal hits the wall has an ef fect on the field strength The ideal angle is a right angle See fig Qb Fire walls lift shafts and staircases Should be treated as areas that cannot be penetrated by the RF signal If there is any doubt check the distance in the premises before securing to the building Other sources of noise for wireless RF signal transmission Devices that also operate using high frequency signals such as computers audio video systems mobile phones electronic transformers connection units frequency converters and other RF transmitters receivers are all considered to be sources of noise for the wireless RF signal We therefore recommend a minimum distance to such devices of 0 5 metres RF transmitter rate of recurrence The movement sensor transmits an RF telegram as a function of an event controlled process but also ina fixed time controlled process Measurement principle and telegram delivery a Delivery of an event controlled process can take place by activating the button labelled LRN which causes the internal microprocessor to start the status of the movement sensor to be registered
11. re sent continuously approx once a minute to the receiver until the sensor does not register activity or the selected light level is reached 1 Coverage area The movement sensor is designed to be fitted to a ceiling At a height of 2 5 metres the sensor will cover a floor area with a diameter of 20 m and provide full 360 coverage for movement of people The sensor has a special lens area in the centre with a diameter of 5 metres with more than 618 fields guaranteeing optimal detection of even very slight movements The movement sensor is designed to be fitted to a ceiling at a standard height of 2 5 3 0 m and is positioned over a desk typically 1 m away from the seat The sensor has a specially developed optical function with two detection ranges a close range A B to detect small movements and a distant range C D to detect movement of people This combination provides excellent control of lighting while at the same time guaranteeing the best possible energy saving 2 Limiting the detection range If the coverage area is too large it can be limited by fitting the enclosed cover This enables the maximum range of 20 metres to be reduced to 12 metres 5 metres or 3 metres in radius and the angle of 360 can be reduced in increments of 45 3 AN Caution It is recommended that the PIR Sensor is not installed where it is exposed to direct sunlight air flows from air conditioning radiators etc With a view to
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