User Manual
Contents
1. TCM 330 provides two outputs for relay control m Primary Relay Control This output signal is set to active high if the output of TCM 330 is ON output level gt OV otherwise it is inactive low m Relay Overdrive This output signal is set to active high for a period of 110 ms during the transition from relay OFF to ON state Use of this signal in a relay driver is optional The use of both Primary Relay Control and Relay Overdrive signals enables power efficient relay driver designs In such designs high current is provided during the mechanical transition from relay OFF to ON state based on the Relay Overdrive signal Once the relay has reached ON state a lower current for maintaining ON state is provided based on the Primary Relay Control signal 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 14 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 4 Zero cross detection TCM 330 provides the option to synchronize relay switching with the zero crossing of the sinusoidal input line voltage in order to minimize electrical stress on the relay contacts TCM 330 relies on the application circuit for providing a digital input signal falling edge which identifies the moment of zero crossing TCM 330 then measures the period between consecutive zero crossings in order to deter mine the AC line frequency 60 Hz or 50 Hz and calculates the timing of subsequent zero crossings ba2. USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED Controller Module September 1 2015 Observe precautions Electrostatic sensitive devices Patent protected WO98 36395 DE 100 25 561 DE 101 50 128 WO 2004 051591 DE 103 01 678 A1 DE 10309334 WO 04 109236 WO 05 096482 WO 02 095707 US 6 747 573 US 7 019 241 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 1 62 USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE REVISION HISTORY The following major modifications and improvements have been made to this document Version Author Date Major Changes 1 00 MKA 01 09 2015 Initial Release Published by EnOcean GmbH Kolpingring 18a 82041 Oberhaching Germany WWW enocean com info enocean com phone 49 89 6734 6890 EnOcean GmbH All Rights Reserved Important This information describes the type of component and shall not be considered as assured characteristics No responsibility is assumed for possible omissions or inaccuracies Circuitry and specifications are subject to change without notice For the latest product specifica tions refer to the EnOcean website http www enocean com As far as patents or other rights of third parties are concerned liability is only assumed for modules not for the described applications processes and circuits EnOcean does not assume responsibility fo
3. errem khu hn ENA anaa PENA KNEE ARAR RR ea ins tue 35 4 6 1 1 1 Dimming curve adjustment sisi 36 4 6 1 2 Two level dimmlirng xir ter terrre x EROR attenant EM EK RR RR A ad 37 4 6 2 Functionality depending on system configuration cessere 38 4 6 2 1 Light Level Sensor in Stand alone Mode 38 4 6 2 2 Light Level Sensor and Switches 39 4 6 2 3 Light Level Sensor and Occupancy Sensors sssssssssssrrsserrsrerrsrnrerresrrrns 40 4 6 2 4 Light Level Sensor with Occupancy Sensors and Wireless Switches 41 Central controllers iioii eroe Cintedvensspuaeeien seine nee ub Hber EUR oE ER LAETI 42 4 7 1 Functional behaviour of central controllers 8 42 Demand response controllers sisi 42 4 8 1 Functional behaviour of central controllers esee 42 SYSTEM CONFIGURATION iii eese en ementi sese ener 43 Local Configuration interface iare ta inn n aT Ra eee sdb teen nat a EA RE 43 5 1 1 EDIDI EE EIMUTETTIMTMSEUETT 43 5 1 2 Device reset nn eee PE Rx drame bI EE 43 5 1 3 Setting the minimum output voltage cece eee cere eee eee mme 44 5 1 4 Em 44 5 1 4 1 Linking to transmitters transmit only s s sssssssssssssrrssrrnssrrnnerrnsrrrnsrrnns 45 5 1 4 2 Linking to transceivers transmit amp receive sssssssrsssrrssrrrrerrrsrrresrrrs 46 Factory configurable parameters issus 47 Remote COMMISSIONING 2 2 erri xe ea kra ur dense I E reader eben ea FER ERES 48
4. 5 3 1 Navigan Wireless Commissioner NWC 3000 48 5 3 2 Configurable Parameters esee esee 49 APPLICATION INFORMATION sisi ennemis ene esent 51 Transmission FANGS erue dared anne a nero ne eee debi Treo net uumens 51 Recommendations for laying a whip antenna ssseessseenn mee 52 Layout recommendations sandrine ten Ear EY PERDE Fase NNN 53 6 3 1 Recommended foot pattern iie e ax a Xa na X RR RR a n OUR ne 54 6 3 2 Soldering information sisi 56 6 3 3 Tape amp Reel specification TCM 330 57 REGULATORY INFORMATION isinsi eonen x ERR RR RR RR REA OX RAI ERE ER DECRE ERR in 58 FCC United States Certification 44e 58 7 1 1 FCC Regulatory Statements ii siiiisissiseeren 60 IC Industry Canada Certification issus 61 7 2 1 Industry Canada Regulatory Statements 62 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 4 62 USER MANUAL V1 0 Green Smart Wireless enocean 1 MODULE VARIANTS AND RELATED DOCUMENTS This document describes operation of TCM 330 modules available in variations for following frequencies TCM 330 868 300 MHz m TCM 330U 902 875 MHz In side this manual the terms TCM 330 is used to describe both TCM 330 and TCM 330U For system development we recommend following our application notes in particular m AN101 Power Supply Layout Layout considerations for Line Power
5. 7 Central controllers Central controllers can provide different functions in conjunction with LED zone controllers m Remote control of the light level m Remote monitoring of system parameters light level occupancy etc m Gateway to building automation systems such as BACnet m Demand response functionality 4 7 1 Functional behaviour of central controllers LED zone controllers can be connected to a central controller based on EnOcean Equipment Profile EEP A5 38 08 They support the dimming command 0x02 of this EEP 4 8 Demand response controllers Demand response controllers allow lowering the output light level of LED zone controllers in order to conserve power in case of power shortage 4 8 1 Functional behaviour of central controllers LED zone controllers can be connected to a demand response controller based on EnOcean Equipment Profile EEP A5 37 01 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 42 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 SYSTEM CONFIGURATION 5 1 Local configuration interface LED zone controller based on TCM 330 can provide a simple local configuration interface based on two buttons LRN and DIM and two LED red and green Their functions are de scribed in the subsequent chapters If the LED is not in a specific mode as described here then its output state will indicate the relay output state The green LED output will blink if the rela
6. below shows an example of each design Additional product information for these energy harvesting switches can be found here https www enocean com en enocean modules 902mhz wireless switch esrp edrp oem LED zone controller based on TCM 330 can accept input from up to 20 wireless switches using EnOcean End Equipment Profile EEP F6 02 02 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 27 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 4 1 Functional behaviour of wireless switches Wireless switches are used to manually set the desired light level EnOcean LED zone controllers can receive input from up to 20 wireless switches using EnOcean Equipment Profile F6 02 02 The following actions are supported for wireless switches m Short click lt 0 7s on I button Light comes ON and brightens from MinVoltageLevel default 1 0V to the most recent dimming value At first usage or after a reset the output will be switched to MinVoltageLevel The rate of brightening is defined by RockerSwitchOnSpeed default 20 per second m Double click 0 7s on I button Light is switched ON at MaxVoltageLevel default 10 0V The rate of brightening is defined by RockerSwitchOnSpeed default 20 per second m Short click 0 7s or double click 0 7s on 0 button The current light level is stored the light is dimmed down to MinVoltageLevel and then switched OFF The
7. c and is limited to OEM installation The module is optimized to operate using small amounts of energy and may be powered by a battery The module transmits short radio packets comprised of control signals in some cases the control signal may be accompanied with data such as those used with alarm systems door openers remote switches and the like The module does not support continuous streaming of voice video or any other forms of streaming data it sends only short packets contain ing control signals and possibly data The module is designed to comply with has been tested according to 15 231 a c and has been found to comply with each requirement Thus a finished device containing the TCM 330U radio module can be operated in the Unit ed States without additional Part 15 FCC approval approval s for unintentional radiators may be required for the OEM s finished product under EnOcean s FCC ID number This greatly simplifies and shortens the design cycle and development costs for OEM inte grators The module can be triggered manually or automatically which cases are described below Manual Activation The radio module can be configured to transmit a short packetized control signal if trig gered manually The module can be triggered by pressing a switch for example The packet contains one or more control signals that is are intended to control something at the receiving end The packet may also contain data Depending on h
8. input from linked occupancy sensors is discarded during this period This can be useful in a situation where Auto ON functionality is enabled and the user manually switches the light OFF e g during a presentation If light has been switched OFF due to Occupancy Auto OFF function then light will be auto matically turned back ON at the last state if occupancy is reported within a period set by VacancyGraceTimer period default 45s even when Auto ON functionality is disabled If OccAutoOffLevel is set to a value different from OFF 0 e g to 10 then the Auto OFF function of the occupancy sensor will set the light to that level Light can then be switched fully OFF by single or double click on the 0 button of a linked wireless switch 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 32 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 Wireless light level sensors Energy harvesting wireless light level sensors in conjunction with LED zone controllers help reduce energy cost by automatically adjusting the light level according to the amount of incoming light typically daylight This process of adjusting the required illumination by considering the external light is sometimes referred to as Daylight Harvesting Implementing Daylight Harvesting is specified as part of Title 24 regulation Energy harvesting light level sensors are usually either ceiling mounted in close pr
9. insulating wool on metal foil False ceilings with panels of metal or carbon fibre Lead glass or glass with metal coating steel furniture The distance between EnOcean receivers and other transmitting devices such as comput ers audio and video equipment that also emit high frequency signals should be at least 0 5 m 1 5 ft An application note to determine the transmission range within buildings is available as download from www enocean com 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 51 62 USER MANUAL V1 0 Green Smart Wireless enocean 6 2 Recommendations for laying a whip antenna v Antenna too close to GND area Antenna end led back to foot point Antenna too close to GND area 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 52 62 USER MANUAL V1 0 Green Smart Wireless enocean 6 3 Layout recommendations A A A The length of lines connected to I O pins should not exceed 5 cm 2 It is recommended to have a complete GND layer in the application PCB at least in the area below the module and directly connected components e g mid layer of your application PCB Due to non isolated test points there are live signals accessible on the bottom side of the module Please follow the following advices to prevent interference with your application circuit m We suggest avoiding any copper structu
10. m AN102 Antenna Basics Basic Antenna Design Considerations for EnOcean based Products 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 5 62 USER MANUAL V1 0 Green Smart Wireless enocean 2 GENERAL DESCRIPTION 2 1 Basic functionality The LED Controller TCM 330 enables implementation of LED Zone Controllers with or with out relay functionality Such controllers use wireless technology to communicate with other self powered EnOcean based products to provide simple yet powerful solutions for dimming control of LED lighting TCM 330 can control the dim level of connected LED light sources based on input from the following devices m Wireless Switches m Occupancy Sensors m Light Level Sensor m Central Controller m Demand Response Controller It enables advance lighting control compliant with California Title 24 daylight harvesting scenarios TCM 330 enables both simple configuration via a local 2 button interface and advanced over the air parameterization using the EnOcean Remote Commissioning standard and the Navigan NWC 300 installation tool Built in operating modes m Switch ON OFF and Dim UP DOWN based on input from wireless switches m Occupancy controlled lighting based on input from wireless occupancy sensors m Daylight controlled lighting based on input from a Light Level Sensor Central control based on input from a gateway or controller m Demand response bas
11. or dimmed up to any output level gt 0 by a linked wireless switch If light has been switched OFF by a linked wireless switch then it will remain in OFF state irrespective of light level sensor input until it is switched ON again by a linked wireless switch If the user short clicks the I button once switch ON light to current output level and the current dim level according to the defined dimming curve would be 0 OFF due to suffi cient natural light then light will be initially brightened to MinVoltageLevel If the light level sensor is active then LisAdjustmentDelay can be used to ensure that the light level set by the user via a linked wireless switch and switch ON or dim UP DOWN actions is maintained for a certain period irrespective of the currently available natural light Setting L sAdjustmentDelay to 0 will cause the output light level to be adjusted according to reported illumination as soon as a light level sensor telegram is received Note that this can lead to a case where the user switches the light ON during bright day light but the light will be regulated back immediately to 0 OFF level due to input from the Light Level Sensor 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 39 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 2 3 Light Level Sensor and Occupancy Sensors If the light level sensor is used in conjunction with occupancy sensors then
12. sardines decors sets 9 Pin descriptione tar Re Rx EXER RERRXEEERNERARKERERKRRKERRERER MR ANE ERE AR ARE ARKLAEENE 10 Absolute maximum ratings non operating 11 Maximum ratings operating em meme 11 System deslgDis iiie ee x kh vi sins er NANA AANA EE ES E ANANE ATAA AENA ENNEN 12 3 5 1 Power SUPPIV sn n pax aia ua RUE FREE KEIRA MARRE RE NERMKEREARNNRERNARAK EAE re 12 3 5 2 O 1OV output GIVER csc ivr annees er tO S YR RE EK REOR RR P E n 13 3 5 3 Relay OULDUE 5 55 roce tiene cine e Rei ea Donde be pe ers den E iaa Dex dae LOT 14 3 5 4 Zero cross detection ra ER XR XR ERR ARR AANA ANAKA EAN EARN rANME 15 3 5 5 EEPROM nto Re net ao Een i ae et eii oce e oa P a re Mele p TR te 16 3 5 6 huiusce ETT 17 3 5 6 1 lau vA 17 3 5 6 2 Whip antenla cec exer nnn rx Fe HERR XE CR ERE dard R H TEE Ku ne xU at nd 18 3 5 6 3 Helix antenna rin naa in a ai oia E Na A REE Aa 18 3 5 6 4 Chip antenna Mitsubishi Material Type AM11DG ST01 19 3 5 7 Local interface tete eee ten RAE RIA n e RR EORR IC UK a BU RR a GERD RR 20 3 5 7 1 Pushbutton interface eese eee en eene renes nena e aae nr nea e RR a 20 3 5 7 2 LED INt ntaC tT 20 3 5 8 Programming and configuration interface 21 3 5 8 1 Reset and programming input protection ceeeeeeee eee e eee teeta eee ees 22 FUNCTIONAL INFORMATION sss eme emen eminens mese ensem nnn 23 General description 8 us eco ave eee cer wa e
13. the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired opera tion Any changes or modifications not expressly approved by manufacturer could void the user s authority to operate the equipment IMPORTANT Any changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate this equipment NOTE This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to cor rect the interference by one or more of the following measures Reorient or relocate the receiving antenna Increase the separation between the equipment and receiver Connect the equipment into an outlet on a circuit different from that to whic
14. M 330 TCM 330U LED CONTROLLER MODULE 5 3 2 Configurable Parameters The table below summarizes the parameters which can be configured via remote commis sioning Parameter Rocker Switch Parameters Description Default Value Comment 4 0 No ramp o RockerSwitchOnSpeed Ramp up speed when rocker input request light switch ON 20 s nadia RockerSwitchOffSpeed Ramp down speed when rocker input request light switch OFF 20 s PE NEED p p P P q g 5 immediate 0 No ramp o RockerDimUpSpeed Ramp up speed when rocker input request light dim UP 20 s ee 5 0 No ramp RockerDimDownSpeed Ramp down speed when rocker input request light dim DOWN 20 s immediate RockerSwitchAutoOffTimer Es after last switch action before light is switched OFF automati 0 disabled RockerDimEnable Enables or disables dimming via rocker switch ON enabled Occupancy Sensor Parameters CAS te FALSE if at least one Defines if a signal from an occupancy sensor automatically switches p 3 OccAutoOn ON lights True False switch is linked g otherwise TRUE OccAutoOnlevel Dimming value at which light is switched on in case of Auto ON 1 event from occupancy sensor Time before the occupancy sensor can switch the light back ON in CERN Auto ON Mode after the user switched it OFF mn re Time after which lights will be switched to OccAutoOffLevel in case 15 min vedie of no motion OccAutoOffLevel Dimming value to which lights w
15. M 330U pads on bottom side of PCB PCB dimensions Weight 2 4 Environmental conditions Operating temperature Storage temperature Storage temperature in tape amp reel package Humidity 2 5 Ordering information Type Ordering Code Unless otherwise specified all dimensions are in mm Tolerances PCB outline dimensions 0 7 mm All other tolerances 0 1 mm 22x 19 x 3 1 mm 1 9g 25 C 85 C 40 C 85 C 20 C 50 C 0 93 r H non condensing Frequency TCM 330 S3003 K330 868 300 MHz TCM 330U S3053 K330 902 875 MHz 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 8 62 USER MANUAL V1 0 TCM 330 TCM 330U LED CONTROLLER MODULE 3 HARDWARE DESIGN DESCRIPTION 3 1 GND VDD nc RF_WHIP GND RF_50 GND RVDD Pin out TCM 330 TCM 330U Top View Green Smart Wireless enocean DVDD GND IOVDD RSDADIO3 WSDADIO2 SCLKDIO1 SCSEDIOO PROG EN The figure above shows the pin out of the TCM 330 TCM 330U LED Controller module 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 9 62 USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE 3 2 Pin description HW Symbol TCM 330 Function Comments pin 17 24 vo 28 31 MoD Internal regulator Unused leave open lt a 2 Reset input Connect on board to 10 kQ pull down par also Progr
16. Max Units VDD Supply voltage at VDD 3 0 33 V IOVDD Must be same as VDD 3 0 3 3 V GND Ground connection 0 0 V VINA Voltage at every analog input pin 0 2 0 V VIND1 Voltage at RESET and every digital input pin except 0 3 3 V WXIDIO WXODIO Voltage at WXIDIO WXODIO input pin 0 2 0 V INDE LRN DIM button VDDR Max ripple at VDD 50 mVpp 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 11 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 System design In order to ensure reliable operation it is recommended to follow the external circuitry rec ommendations given in this chapter The high level system design is shown below EN PR PWM to 0 10V SA M Output Driver J EEPROM Driver Regulator 12V if needed Local User Interface DC Input TCM 330 Regulator j 12V or similar 3 3V TCM 330 VS V V Either AC or DC Input Y Y AC Input H Transformer AC Zero Cross T Line Power Rectifier us Detection 3 Relay Relay Driver Optional optional Overdrive Programming Interface 3 5 1 Power supply TCM 330 can be used in two system configurations m DC typically 12V supplied system The supply voltage is typically provided by an auxiliary power output of the LED driver Internal regulation for TCM 330 supply voltage 3 0V 3 3V and potentially the 0 10V driver typ
17. Moisture Sensitivity Level MSL4 which means a floor time of 72 h TCM 330 may be soldered only once since one time is already consumed at production of the module itself Once the dry pack bag is opened the desired quantity of units should be removed and the bag resealed within two hours If the bag is left open longer than 30 minutes the desiccant should be replaced with dry desiccant If devices have exceeded the specified floor life time of 72 h they may be baked according IPC JEDEC J STD 033B at max 90 C for less than 60 h Devices packaged in moisture proof packaging should be stored in ambient conditions not exceeding temperatures of 40 C or humidity levels of 90 r H TCM 330 modules have to be soldered within 6 months after delivery 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 56 62 USER MANUAL V1 0 6 3 3 Tape amp Reel specification TCM 330 0 88 cavity dimensions Tape running direction 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 57 62 Green Smart Wireless enocean EL USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE 7 REGULATORY INFORMATION 7 1 FCC United States Certification TCM 330U LIMITED MODULAR APPROVAL This is an RF module approved for Limited Modular use operating as an intentional trans mitting device with respect to 47 CFR 15 231 a
18. OFF functionality should be avoided if only occupancy sensors are linked 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 31 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 5 2 2 Occupancy sensor and switches If wireless occupancy sensors are used in conjunction with wireless switches then by de fault Occupancy Auto OFF functionality is enabled and Auto ON functionality is disabled I e the default behaviour in this setup is that occupancy sensor input will only be used to switch the light OFF in order to conserve energy Timer based Auto OFF as defined by RockerAutoOffTimer is always disabled if at least one occupancy sensor is linked Occupancy based Auto ON function can be enabled by setting OccAutoOn ON In this case light is also switched ON automatically if a linked occupancy sensor reports motion In that case if the current light level is OFF 096 and a linked occupancy sensor reports motion then the output light level is set to OccAutoOnLevel If the current light level is ON any level gt 0 then the current light level is not changed if a linked occupancy sensor reports motion If a user has switched the light OFF via linked wireless switch then LED controller can be prevented from switching the light back ON based on input from linked occupancy sensors if Auto ON functionality is enabled for a period defined by OccAutoOnDelay default 15 minutes In that case
19. alue Use the following steps to configure this minimum dimming value 1 Press and hold the DIM button The load will start dimming up and down 2 Release the button when the desired minimum output voltage dimming value is reached 3 Shortly press DIM and LRN button simultaneously to store this value 5 1 4 Linking Linking is the process by which different components are configured to work with each oth er in a system Sometimes this process is also called Teach in or Learn in Linking can be executed in two ways Local linking by user action using the LRN button of local control interface described in chapter m Remote linking over the air using remote commissioning with Navigan NWC 300 de scribed in chapter 5 3 LED zone controller based on TCM 330 can link to two types of components m Transmitters switches and sensors can provide input data to TCM 330 m Transceivers Gateways or controllers can exchange data and commands with TCM 330 These two component types are described in more detail now 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 44 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 1 4 1 Linking to transmitters transmit only Transmitters are typically energy harvesting components that send RF messages to com municate a condition level or state The following transmitter types can be linked to TCM 330 m Wireless Switches m Wireless Occup
20. amming I F allel to 10nF capacitor Output for whip antenna 50 Ohm output for external antenna Apoa lis PuMouput eonnect to 0 10V driver stage see 352 MF er to Reley if present see 3 5 3 HIGH if external relay is closed LOW otherwise HIGH for 110 ms during Sek closinc MEE see 3 5 4 Connect to DIM LRN button if present WXODIO asl LRN Button Input see 3 5 7 1 WSDADIO2 21 RED LED Connect to RED GREEN LED RSDADIO3 22 GREEN LED Maximum current 2 mA see 3 5 7 2 2 5 Not connected Do not connect 32 33 34 Programming Interface DD GND Ground RESET 27 Programming 1 F Active HIGH PROG EN 18 Programming I F Programming interface HIGH Programming Mode If applicable see 3 5 8 LOW Functional Mode RSDADIO3 D2 Programming I F 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 10 62 USER MANUAL V1 0 Green Smart Wireless TCM 330 TCM 330U LED CONTROLLER MODULE 3 3 Absolute maximum ratings non operating Symbol Parameter Min Max Units VDD Supply voltage at VDD WS SE V IOVDD Must be same as VDD 0 5 3 6 V GND Ground connection 0 0 V VINA Voltage at every analog input pin 0 5 2 V VIND1 Voltage at RESET and every digital input pin except 0 5 3 6 V WXIDIO WXODIO Voltage at WXIDIO WXODIO input pin 0 5 2 V VINPZ LRN DIM button 3 4 Maximum ratings operating Symbol Parameter Min
21. ancy Sensors m Wireless Light Level Sensor Transmitters can only be linked to transceivers not to other transmitters To link TCM 330 with a transmitter the LED controller must be powered and within wireless range of the transmitter it is to be linked to Please follow these steps to link a transmitter with TCM 330 using the local control interface 1 Shortly press the LRN button to enter linking unlinking mode The LRN LED starts toggling red green indicating that linking unlinking mode is active In addition the output level will toggle between 1 V and 9 V Once activated this mode stays temporary active to provide time to link unlink multiple devices The mode will stop after 30 seconds if no LRN telegram is received 2 For the transmitter to be linked do one of the following according to the type of de vice Sensor click the designated link button Rocker Pad click the I button top button marked on the switch plastic or I symbol on the back of the switch 3 times quickly 3 If the device has been linked successfully the LRN LED will display solid green for 4 seconds The LED controller is now ready to accept new links NOTE After a device is linked additional learn telegrams received in operating mode not in linking unlinking mode from that device will cause the connected light to toggle three times between OFF 0 V and maximum output level default 10 V if the EnableLinkCheck er parameter is s
22. based TCM 330 In addition all configuration parameters of LED zone controllers based TCM 330 can be set wirelessly over the air using such tool 5 3 1 Navigan Wireless Commissioner NWC 300U Navigan Wireless Commissioner NWC 300U consists of two main components m NWC 300U USB transceiver with EnOcean Remote Commissioning RECOM support m Navigan User Interface The illustration below shows NWC 300U on the left and the Navigan User Interface on the right Controller Workspace Settings for Inline Relay Z ConfRoom R 2 Discover controllers and ad target controllers to the workspace in order to modify their links cv parameters Last updated 5 22 2015 10 26 51 AM Security Code Default Discover Controllers Links Configuration Security Name Type Secure Link or unlink sensors and switches with controllers OJ ail ZConfRoomRi Locate Inline Relay Mg Update Pll ZConfRoom R2 Locate Inline Relay Gy Update inked Devices CEs sll ZConRoomR3 glacte InineReay y Update pes 3 cm Dall Z ContRoom RA Locate Inline Rely p Update i alll Add name here O1BEBOB7 Occ Sensor Da add name nere 00282425 Single Rocker UN 24 name here 00282A2A Dual Rocker Left Current Number of Links 4 uem Selecta Remove All For more information please see www enocean com nwc 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 48 62 USER MANUAL V1 0 Green Smart Wireless enocean TC
23. de HERR Ya EY SR VAR ORE CE PEUX EETARUD e rrrUUPE RETE Late 23 System components eser ek xxr ane e RRRRERRERRERMRRRRRRRRRNRRATRTATRRAEEREFRERTRERTA 23 LED ZomeCONtKFON GM signee veceare ER 24 4 3 1 PWM output functionality 4 848 ee eee teeta eae 25 4 3 2 Status message functionality ss 25 4 3 3 Repeater functionality rtr erster tore banker tuts worded phe xw Fe Pop ERE ERR RR 26 Wireless SWITCHES i i erect ece reco tir erede va eee bd re yere hr o ENEILUR a DUUPERR YE tant 27 4 4 1 Functional behaviour of wireless switches esses 28 Wireless OCCUPANCY Sensors cecinere ete xeu exce x e exea a lens E CAE NEIN rau urnes 29 4 5 1 Functional behaviour of wireless occupancy sensors 30 4 5 2 Functionality depending on system configuration 31 4 5 2 1 Occupancy sensor in stand alone mode seseeeeeeennen nns 31 4 5 2 2 Occupancy sensor and switches ccceee cece eee eee eee eee teeta e eee eee tees 32 4 6 Wireless light level sensors sis 33 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 3 62 USER MANUAL V1 0 4 7 4 8 5 2 5 3 6 1 6 2 6 3 7 2 Green Smart Wireless enocean 4 6 1 Functional behaviour of wireless light level sensors 34 4 6 1 1 Five point dimming
24. ded In case a 120 um solder mask is used it is recommended to enlarge the solder print The pads on the solder print should then be 0 1 mm larger than the pad dimensions of the module as specified in chapter 1 not relative to the above drawing An application and production specific test regarding the amount of soldering paste should always be performed to find optimum parameters 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 55 62 USER MANUAL V1 0 Green Smart Wireless enocean 6 3 2 Soldering information TCM 330 has to be soldered according to IPC JEDEC J STD 020C standard Profile Feature Pb Free Assembly Average Ramp Up Rate 7 TSmax to Tp 3 C second max Preheat Temperature Min TSmin 150 C Temperature Max TSmax Time tss to tSmax Time maintained above Temperature T 217 C Time t 60 150 seconds Peak Classification Temperature Tp 260 C Time within 5 C of actual Peak Temperature tp 20 40 seconds Ramp Down Rate 6 C second max Time 25 C to Peak Temperature 8 minutes max 200 C 60 180 seconds Note 1 All temperatures refer to topside of the package measured on the package body surface 4 me Critical Zone T to Tp Temperature _ Ramp down Preheat 1 1 i i 1 i 1 1 t 25 C to Peak Time gt IPC 020c 5 1 TCM 330 shall be handled according to
25. dulaire avec EnOcean Please contact EnOcean if you intend to use EnOcean s IC ID number 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 61 62 USER MANUAL V1 0 Green Smart Wireless enocean 7 2 1 Industry Canada Regulatory Statements This device complies with Industry Canada licence exempt RSS standard s Operation is subject to the following two conditions 1 this device may not cause interference and 2 this device must accept any interference including interference that may cause undesired operation of the device Le pr sent appareil est conforme aux CNR d Industrie Canada applicables aux appareils radio exempts de licence L exploitation est autoris e aux deux conditions suivantes 1 l appareil ne doit pas produire de brouillage et 2 l utilisateur de l appareil doit accepter tout brouillage radio lectrique subi meme si le brouillage est susceptible d en compromet tre le fonctionnement IMPORTANT Tous les changements ou modifications pas express ment approuv s par la partie responsable de la conformit ont pu vider l autorit de l utilisateur pour actioner cet quipment This Class B digital apparatus complies with Canadian ICES 003 Cet appareil num rique de la classe B est conforme la norme NMB 003 du Canada 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 62 62
26. ean com TCM 330 User Manual v1 0 September 2015 Page 30 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 5 2 Functionality depending on system configuration Wireless occupancy sensors can be used in two different system configurations m Stand alone Wireless occupancy sensors can be used without additional input devices such as wire less switches This can be useful to automatically control lighting in places where light switches are not commonly used or easily available In combination with wireless switches The more common application is to have both wireless switches and occupancy sensors working together in a system This is especially useful in meeting rooms or other places where light should be automatically switched OFF if they are unoccupied 4 5 2 1 Occupancy sensor in stand alone mode If wireless occupancy sensors are used stand alone without switches and light level sen sor then Auto ON functionality is always enabled because there is no other way to switch the light ON Light is switched ON Auto ON function immediately to OccAutoOnLevel default 100 in this configuration if motion is reported OccAutoOnDelay see below is not used Auto OFF functionality is set according to the value defined by OccAutoOffTimer Light is switched OFF to OccAutoOffLevel default 0 if no motion has been reported for the pe riod defined by OccAutoOffTimer Setting OccAutoOffTimer to 0 which disables Auto
27. ed on input from a demand response controller 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 6 62 USER MANUAL V1 0 Green Smart Wireless enocean 2 2 Technical data TCM 330 TCM 330U Antenna whip or 50 Q antenna mountable Frequency 868 300 MHz 902 875MHz Radio standard Modulation ASK FSK Data rate 125 kbps Receiver sensitivit at 25 C 2 typ 96 dBm 98 dBm Conducted output power 050 Q typ 5 7 dBm 1 dBm Power supply 3 0 V 3 3V Current Consumption typ Receive mode 33 mA Start up time lt 500 ms Control outputs Relay control and PWM User interface 2 digital inputs LRN DIM 2 digital outputs for LEDs Supported EEPs Occupancy sensors A5 07 01 A5 07 02 A5 07 03 Light sensors A5 06 02 A5 06 03 Rocker switch F6 02 02 Central controller A5 38 08 Demand response A5 37 01 Status message D2 40 00 Operating temperature 25 C to 85 C 10 F 180 F Dimensions of PCB 22 mm x 19 mm x3 mm 0 87 x 0 75 x 0 12 Weight 1 9 g Radio Regulations R amp TTE FCC IC 1 according to ISO IEC 14543 3 10 2 according to ISO IEC 14543 3 11 3 0 1 telegram error rate based on 3 transmitted sub telegrams 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 7 62 USER MANUAL V1 0 Green Smart Wireless enocean 2 3 Physical dimensions TCM 330 TCM 330U TCM 330 TC
28. el dimming can be enabled by setting DaylightingMode accordingly Both modes are described in more detail now 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 34 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 1 1 Five point dimming Five point dimming is implemented based on a continuous user defined dimming curve which specifies the relationship between reported natural light level and requested output artificial light level The general principle is that more reported natural light input should lead to less request ed artificial light output therefore the dimming curve should be falling The dimming curve is defined based on five points Each of these points is defined by the correspondence between a reported natural light level LEV1 LEV5 and a requested out put light level OUT1 OUT5 The dimming curve must be defined monotonous i e LEV1 LEV2 LEV3 LEV4 LEV5 In most circumstances the requested output light level will also be monotonous i e OUT1 gt OUT2 gt OUT3 gt OUT4 gt OUTS This is however not a requirement from a technical point of view The default dimming curve is shown below 100 Lux 200 Lux 300 Lux 400 Lux 500 Lux 600 Lux 700 Lux 800 Lux 900 Lux 1000 Lux Reported Input Level Natural Light Note that for reported natural illumination levels smaller than the one defined by point 1 the output illumination level defi
29. ence and ii this device must accept any interference received including interference that may cause un desired operation When the device is so small or for such use that it is not practicable to place the statement above on it the information required by this paragraph shall be placed in a prominent loca tion in the instruction manual or pamphlet supplied to the user or alternatively shall be placed on the container in which the device is marketed However the FCC identifier or the unique identifier as appropriate must be displayed on the device The user manual for the end product must also contain the text given above 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 59 62 USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE m Changes or modifications not expressly approved by EnOcean could void the user s au thority to operate the equipment m The module must be used with only the following approved antenna s Part Number Type Gain Wire Monopole 1 0 dBi ANT 300 1 0 dBi AM11DG STO1 1 0 dBi m The OEM must ensure that timing requirements according to 47 CFR 15 231 a c are met m The OEM must sign the OEM Limited Modular Approval Agreement with EnOcean Please contact EnOcean if you intend to use EnOcean s FCC ID number 7 1 1 FCC Regulatory Statements This device complies with part 15 of the FCC rules Operation is subject to
30. ensors in conjunction with EnOcean LED zone con trollers increase user convenience and help reduce energy cost This is achieved by auto matically switching the lights off and optionally also on according to the presence of per sons within the detecting range Implementing occupancy based light control is specified as part of Title 24 regulation Energy harvesting occupancy sensors are usually either wall mounted or ceiling mounted depending on the specific application needs The picture below shows an example of each design wall mounted on the left ceiling mounted on the right i Additional product information for these energy harvesting occupancy sensors can be found here https www enocean com en enocean modules 902mhz ceiling mounted occupancy sensor eosc oem https www enocean com en enocean modules 902mhz wall mounted occupancy sensor eosw oem Functionality of occupancy sensors is typically such that they immediately report motion if it is detected for the first time after a period without motion This enables LED zone control lers to immediately switch ON the light upon motion detection Subsequently detected motion is reported via periodical status update telegrams e g eve ry 2 minutes These telegrams will cause the light to remain ON If no telegram indicating detected motion has been received for a certain period of time e g 15 minutes then the room is considered unoccupied Light is sw
31. et to ON This allows quickly checking the connection between this device and the LED Controller To exit linking unlinking mode and return to normal operation wait 30s without sending new LRN telegrams or shortly press the LRN button again For a linked transmitter to be unlinked please use the same actions as described above If the device has been unlinked successfully then the LRN LED will display solid red for 4 seconds and the output voltage will be set to a level of 1 V for 4 seconds 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 45 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 1 4 2 Linking to transceivers transmit amp receive TCM 330 is a transceiver Transceivers are controlling devices that send as well as receive RF messages They also process relevant control logic and actuate the appropriate outputs switching a light ON or OFF for example LED zone controller based on TCM 330 can be linked to other transceivers if desired The following other transceiver types are supported m Central Controller m Demand Response Controller To link TCM 330 to another transceiver gateway or central controller please follow these steps 1 Setthe other device into linking mode 2 Shortly press the LRN button The LRN LED starts toggling indicating that linking unlinking mode is active The output level will toggle between 1V and 9V 3 Shortly press the DIM but
32. h the receiver is connected Consult the dealer or an experienced radio TV technician for help 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 60 62 U SER MANUAL V1 0 Green Smart Wireless enocean 7 2 IC Industry Canada Certification In order to use EnOcean s IC number the OEM must ensure that the following conditions a re met Labeling requirements for Industry Canada are similar to those required by the FCC The Original Equipment Manufacturer OEM must ensure that IC labeling requirements are met A clearly visible label on the outside of a non removable part of the final prod uct must include the following text TCM 330U Contains IC 5713A STM300U Contient le module d mission IC 5713A STM300U m The OEM must sign the OEM Limited Modular Approval Agreement with EnOcean P our utiliser le num ro IC EnOcean le OEM doit s assurer que les conditions suivantes sont remplies m Les exigences d tiquetage pour Industrie Canada sont similaires ceux exig s par la FCC Le fabricant d quipement d origine OEM doit s assurer que les exigences en mati re d tiquetage IC sont r unies Une tiquette clairement visible l ext rieur d une partie non amovible du produit final doit contenir le texte suivant TCM 330U Contains IC 5713A STM300U Contient le module d mission IC 5713A STM300U m L OEM doit signer l accord OEM limit e Approbation mo
33. hed ON by a linked occupancy sensor Occupancy Auto ON function or by a linked wireless switch If light is switched ON by a linked occupancy sensor Occupancy Auto ON function then output light level is then set immediately according to the most recent light level sensor data and the selected dimming parameters 2 level or 5 point dimming as described in the previous chapter If light is switched ON or dimmed UP DOWN by a linked wireless switch then L sAdjust mentDelay can be used to ensure that light level selected by the user is maintained for a certain period irrespective of the currently available natural light as described before If the user short clicks the I button once switch ON light to current output level and the current dim level according to the defined dimming curve would be 0 OFF due to suffi cient natural light then light will be brightened to MinVoltageLevel as described before If light has been switched OFF because no occupancy telegram has been received from a linked occupancy sensor for a period defined by OccAutoOffTimer then light will remain at OccAutoOffLevel irrespective of light level sensor input Likewise if light has been switched OFF by a linked wireless switch then it will remain in OFF state irrespective of light level sensor input 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 41 62 USER MANUAL V1 0 Green Smart Wireless enocean 4
34. his interface consists of two pushbuttons called LRN and DIM and two LED red and green either as two separate LED or as an integrated bi color solution 3 5 7 1 Pushbutton interface The two pushbuttons have to be connected as follows m LRN button to WXODIO input of TCM 330 pin 30 m DIM button to WXIDIO input of TCM 330 pin 29 Both inputs are active low Proper debouncing circuitry should be included 3 5 7 2 LED interface The two LED s have to be connected as follows m Green LED to RSDADIO3 output of TCM 330 pin 22 m Red LED to WSDADIO2 output of TCM 330 pin 21 Both outputs are active high Output current should be limited via 560 Ohm series resis tors One possible implementation of the pushbutton and LED interface is shown below LRN iN i K WXODIO Pin 30 GND WXIDIO Pin 29 KS 51 H gt g cx GND gt gt SH GND 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 20 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 8 Programming and configuration interface The programming and configuration interface is optional and enables three functions Configuration of relay switching parameters Relay Switch On Relay Switch Off and Relay Overdrive Time m Firmware updates An example header with the required programming interface signals and supporting circuit ry is shown below CON2 P ADAPT WLP P
35. ically 12V depending on input voltage and output driver design is required m AC line power supplied system Line power is used as supply voltage Use of transformer rectifier Driver regulator and TCM 330 regulator is required Line power supply to the LED driver can be controlled by a relay in order to save power when the LED driver is in OFF state TCM330 requires a single supply voltage between 3 0V and 3 3V This supply voltage is used both to supply the internal core functions and the IO cells The ripple should be under 10mVpp for optimal RF performance Care should be taken to avoid emitted and conducted emissions and attention must be paid to the power supply and a correct layout and shielding to achieve best RF performance Refer to app note Power Supply Layout AN101 for recommendations In noisy environments it is recommended to place a 22 uF ceramic capacitor between VDD and GND close to the module material X5R X7R min 6 3 V to avoid derating effects In addition an HF SMD EMI Suppression Ferrite Bead such as the W rth WE CBF HF SMD EMI Suppression Ferrite Bead Wurth order number 742863160 can be inserted into the power supply line 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 12 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 2 O 10V output driver TCM 330 provides a PWM output with a frequency of 80 kHz The PWM output is configured to be active h
36. igh i e a duty cycle of 100 will result in the output being permanently set to high Conversion of the PWM output signal to a 0 10V driver signal is typically done by using a low pass filter followed by a non inverting amplifier The gain of the amplifier must be chosen according to the IO voltage of TCM 330 such that 100 duty cycle at the TCM 330 PWM output will result in 10V output voltage at the driv er The output of the 0 10V driver should be properly ESD protected if it is exposed to user contact The illustration below shows an example of such 0 10V output driver MCP6HO1T E E g ST 10K0 ESD12VD3 TPMSTR GND GND GND JP4 Both a minimum and a maximum output voltage level can be configured in TCM 330 by means of setting a minimum and maximum duty cycle accordingly This feature prevents flickering at very low output voltage levels and can conserve energy in systems where the maximum available LED brightness is not required 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 13 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 3 Relay output TCM 330 provides the option to control a relay in order to cut the supply voltage to external components if the LED controller output is set to OFF The typical application for this functionality is to control the power voltage supply of the LED driver connected to the output of the LED controller
37. ill be dimmed after an occupancy 0 sensor Auto OFF timer event If occupancy is detected within the VacancyGraceTimer period after Vase GEB an occupancy Auto OFF event lights are turned back ON 23 Light Level Sensor Parameters DaylightingMode 2 level or 5 point continuous daylight dimming 5 point In case of 2 level mode light is switched to MaxVoltageLevel Photecninres if light level is below PhotoOnThres our In case of 2 level mode light is switched to MinVoltageLevel Ehoteotihres if light level is above PhotoOffThres Se LEVIS Defines 5 input light levels for open loop dimming curve 100 200 400 600 li LEV1 lt LEV2 lt lt LEV5 800 lux OUTL 5 Defines the LED controller output values for the corresponding 100 100 60 zy input light levels 20 0 RAMP12 23 34 45 Ramp speeds between light levels 1 and 2 2 and 3 3and4 4and5 196 s Lise stunt Time before the light level sensor can adjust the output light level de LlsEnableCurveAdjustment 2015 EnOcean www enocean com after it was set by the user Enables or disables user adjustment of the 5 point dimming curve using triple click on the I button TCM 330 User Manual v1 0 September 2015 Page 49 62 ON enabled USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE Parameter Description Default Value Comment Generic Sensor Parameters Occupancy and Light Level Ramp up speed when change is triggered by an occu
38. ill blink three times ON OFF to indicate successful adjustment Doing so for different illuminations allows redefining the whole curve This feature can be disabled by setting LisEnableCurveAdjustment to OFF 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 36 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 1 2 Two level dimming Two level ON OFF dimming is implemented based on user defined thresholds for switch ing the light ON PhotoOnThres and OFF PhotoOffThres If the available natural light is below PhotoOnThres then the output will be set to 100 maximum illumination level If the available natural light is above PhotoOffThres then the output will be set to 0 OFF The transition rate from 0 to 100 and from 100 to 0 output level is defined by Sen sorRampUpSpeed and SensorRampDownSpeed respectively Typically there should be a hysteresis between the two switching points i e PhotoOnThres should be smaller than PhotoOffThres This avoids the case where the output light level alternates between OFF and 100 if the reported natural light is around the switching threshold The default value of PhotoOnThres 200 lux is while the default value of PhotoOffThres is 400 lux The resulting default dimming curve is shown below 100 90 80 70 60 50 40 30 20 10 100 Lux 200 Lux 300 Lux 400 Lux 500 Lux 600 Lux 700 Lux 800 Lux 900 Lux 1000 Lux Repor
39. ion via a user interface TCM 330 can transmit a status message based on EnOcean Equipment Profile EEP D2 40 00 after each change of its output state event based messages or periodically with a random delay after the StatusMessageTimer has elapsed Status messages can be switched off completely by setting StatusMessageTimer to 0 Setting StatusMessageTimer to OxFFFF will cause only event based messages to be sent The following parameters are reported as part of the status message m Output state OFF ON 0x0 Output state OFF Ox1 Output state ON m Output dim level 0x00 0 OxC8 100 m Cause for transmitting the status message 0x0 Event 0x1 Heartbeat m Occupancy state 0x0 not occupied OccAutoOffTimer has timed out Ox1 occupied 0x2 unknown No occupancy information available m Daylight harvesting mode 0x0 Daylight harvesting not active no light level sensor is linked Ox1 Daylight harvesting active light level sensor is linked m Demand response mode 0x0 Demand response mode is not active Ox1 Demand response mode is active 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 25 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 3 3 Repeater functionality LED zone controller based on TCM 330 can provide repeater functionality Repeaters are used to extend radio range as they retransmit received telegrams after a random delay TCM 330 suppor
40. itched OFF after such period has elapsed without reported motion No dedicated unoccupied telegram has to be sent 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 29 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 5 1 Functional behaviour of wireless occupancy sensors Wireless occupancy sensors are used to switch OFF and optionally switch ON the light based on occupancy in a room EnOcean LED zone controllers can receive input from up to 10 wireless occupancy sensors using EnOcean Equipment Profiles EEP A5 07 01 A5 07 02 or A5 07 03 The following actions are supported for wireless occupancy sensors m Occupancy based Auto OFF If none of the linked wireless occupancy sensors reports motion for a period defined by OccAutoOffTimer default 15min then light is set to OccAutoOffLevel default 0 This feature can be disabled by setting OccAutoOffTimer to 0 Note that OccAutoOffTimer should not be set to a period shorter than the normal motion reporting interval typically around 2 minutes as otherwise the light would be switched OFF even though the room is still occupied Ramp down speed is configurable via SensorRampDownSpeed default 20 per sec ond m Occupancy based Auto ON If at least one sensor reports motion then light is set to OccAutoOnLevel default 100 Ramp up speed is configurable via SensorRampUpSpeed default 2096 per second 2015 EnOcean www enoc
41. m Minimum distance space 10 mm Ansicht A 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 18 62 USER MANUAL V1 0 Green Smart Wireless ocean TCM 330 TCM 330U LED CONTROLLER MODULE 3 5 6 4 Chip antenna Mitsubishi Material Type AM11DG STO1 902 875 MHz Please refer to PCB drawing below for design instructions h cA 5mm f mm st be matched The following conditions apply for use of the EnOcean FCC IC limited modular approval Dimensions may not be shortened Matching circuit is part of the limited modular approval and may not be changed Minimum top and bottom side ground plane required as shown below Connect ground planes using multiple via as shown Connect matching circuit to RF_50 Use High Q wire wound inductors e g 0603 Murata LQW18A series Use the following matching circuit values L1 3 9 nH L2 33 nH L3 12 nH Please contact EnOcean if you intend to use this design with EnOcean FCC IC limited modular approval For additional information or chip antenna quotes please refer to Mitsubishi Materials web site at www mmea com or email to electroniccomponents mmus com 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 19 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 7 Local interface TCM 330 provides the option to use a local interface for simple configuration and status display tasks T
42. mple solutions for dimming control of LED lighting They can be wirelessly linked to EnOcean based motion sensors rocker switches and a light level sensor Central control is possible by linking the LED zone controller to a central controller or via a gateway to building automation systems like BACnet LED zone controller based on TCM 330 can be wirelessly configured over the air using the EnOcean Remote Commissioning standard Configurable parameters are marked in Italics in the following chapters 4 2 System components Wireless lighting control systems based on LED zone controllers contain one or several of the following components LED zone controllers LED zone controllers receive input from linked devices and controls the LED light level using its 0 10V and relay outputs The LDE zone controller is connected to an LED driver which in turn supplies the LED string of the light source Wireless switches Wireless switches can be used to send switch on off and dim up down commands to the LEDR Wireless occupancy sensors Wireless occupancy sensors can be used to signal presence or absence of persons in their vicinity to the LEDR Wireless light level sensors Wireless light level sensors can be used to report the amount of external light typically daylight being present in their vicinity Central controller Central controller can be used to provide a centralized control and user interface to the lighting control system It can al
43. nd to ensure excellent EMI robustness VSWR s Sell Important for compatibility with EnOcean protocol Return Loss gt 6 dB Important for compatibility with EnOcean protocol Bandwidth lt 20 MHz Important if 10 V m EMI robustness required for device TCM330U 902 875 MHz is designed for use with the following antenna types m EnOcean defined whip antenna m EnOcean defined helix antenna m Chip antenna Mitsubishi Material Type AM11DG STO1 TCM 330U is FCC IC pre approved limited modular approval for these antennas Please contact EnOcean for details Note that a full FCC IC approval is needed if TCM 330U modules are used in US Canada with antennas other than these specified antennas 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 17 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 6 2 Whip antenna The whip antenna parameters are shown below 40 8 tinned m 902 875 MHz Antenna 64 mm wire connect to RF WHIP Minimum GND plane 50 mm x 50 mm Minimum distance space 10 mm bared twisted and tinned m 868 3 MHz Antenna 86 mm wire connect to RF WHIP Minimum GND plane 38 mm x 18 mm Minimum distance space 10 mm Cu wire LiY according to VDE 0812 or 0245 CI 5 or CI 6 Insulation PVC mixture TI2 according to VDE 0207 4 3 5 6 3 Helix antenna m 902 875 MHz Design according to drawing below Minimum GND plane 35 mm x 30 m
44. ne controller signals the required dim level to the LED driver using a standard 0 10V interface where OV means no illumination OFF while 10V means maximum illumi nation m Driver power supply Relay Output optional feature LED zone controller can control line power supply 120V to the LED Driver by means of an integrated relay In such setup power to the LED driver would be provided only if the light is commanded to be ON Based on these two signals the LED driver will then set the right supply voltage and supply current to the LED string in order to achieve the requested illumination level 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 24 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 3 1 PWM output functionality The minimum output voltage can be configured using MinVoltageLevel default 10 1 0V and the maximum output using MaxVoltageLevel default 100 10 0V Dimming below MinVoltageLevel or above MaxVoltageLevel is not possible Level and ramp percentage levels given throughout this document refer to the interval be tween MinVoltageLevel 1 and MaxVoltageLevel 100 An output level of 0 equals OFF state 4 3 2 Status message functionality LED zone controller based on TCM 330 can report their current status at random intervals to a central controller or gateway This functionality can be used both to enable system status control and to provide status visualizat
45. ned by point 1 will be used In many applications this illu mination level will be 100 Similarly for reported illumination levels greater than the one defined by point 5 the out put illumination level defined by point 5 will be used In many applications this illumination level will be O Linear interpolation between the two neighbouring supporting points will be used for re ported illumination levels between the five defined points The transition speed for each part of the curve is defined using RAMP12 RAMP23 RAMP34 and RAMP45 parameters and is applied based on the target light level I e if the target light level is between point 4 and 5 then the ramp speed RAMP45 is used irrespective of the current light level 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 35 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 1 1 1 Dimming curve adjustment If EnOcean LED zone controllers are operating in five point dimming mode and a wireless switch is linked then the dimming curve can be manually adjusted by the user This is achieved by setting a new dim level using Dim UP DOWN functionality of a linked wireless switch and then shortly triple clicking of the I button of it The LED zone controller will then replace the point closest to the reported natural light level with the current settings reported natural light level and user selected output light level The light w
46. on an external EEPROM for storage of frequently changing parameters such as configuration and status information as well as link tables The recommended EEPROM is Microchip 24AA08 An I2C interface to the EEPROM is implemented in TCM 330 providing SCL and SDA inter face signals External 1k pull up resistors to VDD positive supply voltage are required for correct operation The illustration below shows the recommended connection between TCM 330 and the ex ternal EEPROM AAR 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 16 62 USER MANUAL V1 0 Green Smart Wireless enocean TCM 330 TCM 330U LED CONTROLLER MODULE 3 5 6 Antenna 3 5 6 1 Overview Several antenna types have been investigated by EnOcean Please refer to our application notes AN102 and AN105 which give an overview on our recommendations TCM330 868 3 MHz has been approved with whip antenna Modules based on TCM 330 that are used in Europe do not need additional radio approval if the external antenna fulfils the following requirements Frequency 868 300 MHz Antenna must be suited for this band band ISM Antenna type Passive Mandatory for radio approval Impedance 50 Ohm Mandatory for radio approval Maximum gain lt 0 dBd Mandatory for radio approval In addition it is important to fulfill the following requirements in order to achieve compati bility with other EnOcean products a
47. ow much energy is available from the energy source subsequent manual triggers can initiate the transmission of additional control signals This may be necessary if prior packet s was were lost to fad ing or interference Subsequent triggers can also be initiated as a precaution if any doubt exists that the first packet didn t arrive at the receiver Each packet that is transmitted regardless of whether it was the first one or a subsequent one will only be transmitted if enough energy is avail able from the energy source Automatic Activation The radio module also can be configured to transmit a short packetized control signal if triggered automatically by a relevant change of its inputs or in response to receiving a signal from another transmitter for example Again the packet contains a control signal that is intended to control something at the re ceiving end and may also contain data As above it is possible for the packet to get lost and never reach the receiver However if enough energy is available from the energy source and the module has been configured to do so then another packet or packets con taining the control signal may be transmitted at a later time 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 58 62 USER MANUAL V1 0 Green Smart Wireless enocean The device is capable to operate as a repeater which can receive signals from the following list of FCC IC approved t
48. oximity to the window from where incoming light is expected It is important to set them up such that they only react to incoming i e external light and not to the internal lighting system The picture below shows an example of a ceiling mounted energy harvesting wireless light level sensor 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 33 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 1 Functional behaviour of wireless light level sensors Wireless level sensors are used to adjust the light level based on available natural light The fundamental idea is that less artificial lighting is required if sufficient natural light is available The concept of controlling the light level based on the amount of available natural light is called daylight harvesting and enables significant energy savings This approach is also referred to as Open Loop Dimming since it considers only the avail able natural light for regulation and does not measure the combines natural artificial light level In contrast Closed Loop Dimming sometimes also called Constant Light Dimming measures the total available light natural and artificial and tries to keep this level con stant Closed loop dimming is a much more complex approach and relies on the ability to exactly measure the combined light level at the place where it is needed e g office desk which is not trivial I
49. pancy or 0 No ramp o te aM ae light level sensor 2 point mode 20098 immediate Ramp down speed when change is triggered by an occupancy or 0 No ramp SensorRampDownSpeed 2 20 s light level sensor 2 point mode immediate System Parameters MinVoltageLevel Minimum 0 10V output voltage level when light is switched ON 1 0V MaxVoltageLevel Maximum 0 10V output voltage level when light is switched ON 10 0V x Delay between switching the relay on and starting to ramp up Applies only Or LOVRElayDelay the 0 10V output zome to LEDR ModeAfter PowerLoss ModeAfterPowerLoss ON OFF LAST STATE LAST STATE O OFF StatusMessageTimer Defines how often status messages are transmitted seconds OxFFFF OxFFFF only event based RepeaterFunction Defines the repeater level of the device OFF 1 Level 2 Level OFF disabled Configures the repeater to only repeat telegrams from devices linked to it EnableDebugMessages Enable or disable debug messages OFF disabled RepeatLinkedDevicesOnly ON enabled Enable or disable link checker EnableLinkChecker If a learn telegram from a linked device is received while in operating ON enabled mode the 0 10V output will toggle once between 10 and 90 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 50 62 USER MANUAL V1 0 Green Smart Wireless enocean 6 APPLICATION INFORMATION 6 1 Transmission range The main factors that influence the system transmission
50. r use of modules described and limits its liability to the replacement of modules determined to be defective due to workmanship Devices or systems containing RF components must meet the essential requirements of the local legal authorities The modules must not be used in any relation with equipment that supports directly or indirectly human health or life or with applications that can result in danger for people animals or real value Components of the modules are considered and should be disposed of as hazardous waste Local government regulations are to be observed Packing Please use the recycling operators known to you 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 2 62 USER MANUAL V1 0 Green Smart Wireless enocean TABLE OF CONTENT 2 1 2 2 2 3 2 4 2 5 3 1 3 2 3 3 3 4 3 5 4 1 4 2 4 3 4 4 4 5 MODULE VARIANTS AND RELATED DOCUMENTS 4444 5 GENERAL DESCRIPTION inerte v hg esu anus men X e daa 6 Basic functionality ci cer piena eoru rene tvs nn iON ADE EEE EDETEN TADO Eri Dira dens 6 Technical data TCM 330 TCM 330U ssssssse meme mene emen nena nna nn n 7 Physical dimensions TCM 330 TCM 330U 4er 8 Environmental conditions 444 meses menie mene nnne 8 Ordering information 44 meses meses meses esee enne 8 HARDWARE DESIGN DESCRIPTION eceeeee eee eee e eee e eee ee eee tees tees nae eea eterne 9 PIN OUt siirron biriani a nrene mener ieldues
51. range are type and location of the antennas of the receiver and the transmitter type of terrain and degree of obstruction of the link path sources of interference affecting the receiver and dead spots caused by signal reflections from nearby conductive objects Since the expected transmission range strongly depends on this system conditions range tests should categorically be performed before notification of a particular range that will be attainable by a certain application The following figures may be used as a rough guide only m Line of sight connections Typically 30 m 100 ft range in corridors up to 100 m 300 ft in halls m Plasterboard walls dry wood Typically 30 m 100 ft range through max 5 walls m Line of sight connections Typically 30 m 100 ft range in corridors up to 100 m 300 ft in halls m Ferro concrete walls ceilings Typically 10 m 30 ft range through max 1 ceiling m Fire safety walls elevator shafts staircases and supply areas should be considered as screening The angle at which the transmitted signal hits the wall is very important The effective wall thickness and with it the signal attenuation varies according to this angle Signals should be transmitted as directly as possible through the wall Wall niches should be avoid ed Other factors restricting transmission range Switch mounted on metal surfaces up to 30 loss of transmission range Hollow lightweight walls filled with
52. ransmitters and retransmit the signals TCM 330U m PTM 210U FCC ID SZV PTM210U IC 5713A PTM210U m PTM 330U FCC ID SZV PTM330U IC 5713A PTM330U STM 300U FCC ID SZV STM300U IC 5713A STM300U m STM 320U FCC ID SZV STM320U IC 5713A STM320U m STM 332U FCC ID SZV STM332U IC 5713A STM332U m TCM 300U FCC ID SZV STM300U IC 5713A STM300U m TCM 310U FCC ID SZV STM300U IC 5713A STM300U m TCM 320U FCC ID SZV TCM320U IC 5713A TCM320U m TCM 330U FCC ID SZV STM300U IC 5713A STM300U OEM Requirements In order to use EnOcean s FCC ID number the OEM must ensure that the following condi tions are met m End users of products which contain the module must not have the ability to alter the firmware that governs the operation of the module The agency grant is valid only when the module is incorporated into a final product by OEM integrators m The end user must not be provided with instructions to remove adjust or install the module m The Original Equipment Manufacturer OEM must ensure that FCC labeling requirements are met This includes a clearly visible label on the outside of the final product Attaching a label to a removable portion of the final product such as a battery cover is not per mitted The label must include the following text TCM 330U Contains FCC ID SZV STM300U The enclosed device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions i this device may not cause harmful interfer
53. rate of dimming down is defined by RockerSwitchOffSpeed default 20 per sec ond m Press and hold I button Light is brightened until button is released or MaxVoltageLevel is reached The rate of brightening is defined by RockerDimUpSpeed default 20 per second This function can be disabled by setting RockerDimEnable 0 If disabled then any press short long single double on the I button will set the light level to 100 9o MaxVoltageLevel immediately m Press and hold 0 button Light is dimmed until button is released or MinVoltageLevel is reached The rate of dimming is defined by RockerDimDownSpeed default 20 per second This function can be disabled by setting RockerDimEnable O If disabled then any press short long single double on the 0 button will set the light level to 0 OFF immediately m Timer based Auto OFF Light can be switched OFF automatically in absence of an occupancy sensor after time out of RockerSwitchAutoOffTimer This feature can be disabled by setting RockerSwitchAutoOffTimer 0 This feature is automatically disabled if an occupancy sensor is present In this case au tomatic switch OFF of the light will be performed based on the input from the occupancy sensor 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 28 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 5 Wireless occupancy sensors Energy harvesting wireless occupancy s
54. re in the area directly underneath the module top layer layout of your application PCB If this is not possible in your design please provide coating on top of your PCB to prevent short circuits to the module All bare metal surfaces including Vias have to be covered e g ad equate layout of solder resist m It is mandatory that the area marked by the circle in the drawings below is kept clear of any conductive structures in the top layer and 0 3mm below Otherwise RF performance will be degraded m Furthermore any distortive signals e g bus signals or power lines should not be routed underneath the module If such signals are present in your design we suggest separating them by using a ground plane between module and these signal lines 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 53 62 USER MANUAL V1 0 Green Smart Wireless enocean 6 3 1 Recommended foot pattern Top layer Solder resist top layer un 315 1895 B A 65 1 305 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 54 62 USER MANUAL V1 0 Green Smart Wireless enocean Solder paste top layer 1895 The data above is also available as EAGLE library In order to ensure good solder quality a solder mask thickness of 150 uim is recommen
55. rogramming header The selected programming interface connector needs to be connected to an EnOcean pro grammer board such as the EOP350 via a suitable adapter cable See EnOcean application note AN502 for details EnOcean can provide a spring loaded header cable based on 2mm contact spacing for pro gramming Please contact EnOcean for details 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 21 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 8 1 Reset and programming input protection In order to ensure reliable operation it is recommended to connect both the reset RESET and the programming PROG EN input of the programming interface with a 10 kQ resistor in parallel with a 10 nF capacitor to ground This avoids spurious signal detection in very noisy environments and in situations where an external programming header is provided The suggested circuit is shown below values may me differerent depending on the application same circuit recommended for PROG EN Input 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 22 62 USER MANUAL V1 0 4 Green Smart Wireless enocean FUNCTIONAL INFORMATION 4 1 General description TCM 330 allows implementation of LED zone controller using wireless technology to com municate with other self powered EnOcean based products LED zone controllers based on TCM 330 provide si
56. sed on that TCM 330 allows specifying timing offsets both for relay close and relay open actions to ac count for the timing difference between relay control signal change and relay contact state change m Relay Switch ON Time This parameter specifies the timing offset for the case of the relay closing when contact is made It defines how much time in advance of the zero crossing the relay driver out put must be set to active The default value is 4 0 ms it can be adjusted in 50us steps m Relay Switch OFF Time This parameter specifies the timing offset for the case of the relay opening when con tact is lost It defines how much time in advance of the zero crossing the relay driver output must be set to inactive The default value is 1 5 ms it can be adjusted in 50us steps This feature is especially important for the case of relay close make contact where the relay contacts have to mechanically travel a certain distance between their open state and the point where contact is made The operating time required for this mechanical travel is typically several milliseconds and must therefore be taken into consideration The release time from relay input going to inactive until contact is opened is typically less but should be considered as well 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 15 62 USER MANUAL V1 0 Green Smart Wireless enocean 3 5 5 EEPROM TCM330 relies
57. so act as a gateway to a building automation system like BACnet Demand response controller Demand response controller can instruct LED zone controller based on TCM 330 to tem porarily reduce output setting to conserve energy during periods of energy shortage 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 23 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 3 LED zone controller LED zone controller based on TCM 330 acts as the central receiver and processor of input data commands or status messages from linked components Based on this input data it determines the appropriate lighting level and sets the output signals connected to the LED Driver accordingly The LED driver then adjusts LED supply voltage and supply current such that the com manded light level is achieved The typical system setup for a line powered LED zone controller is shown below 12v DC LED String AI 7p 7p P FF LED Driver EE pH SITES The LED zone controller receives wireless input in the form of EnOcean radio telegrams us ing its antenna Antenna Driver Su ON OFF Relay Driver Control DIM 0 10V LED Zone Controller Power is provided by means of an AC power supply input or alternatively a DC input as de scribed in chapter 3 5 1 LED zone controller controls the LED driver using two signals m Driver control signal 0 10V Output LED zo
58. t can also result in noticeable variations in the light level which is not desirable Open loop dimming has therefore been chosen for EnOcean LED zone controllers LED zone controllers receive information about the amount of available natural light from one linked light level sensor using EnOcean Equipment Profiles EEP A5 06 02 or A6 06 03 For correct operation it is essential that the light level sensor reports only natural light and is influenced as little as possible by artificial light The light level sensor should therefore be placed at a position facing the window or skylight where it is not or only minimally influ enced by light from the fixtures Two different dimming modes are possible based on light level sensor input m Five point continuous dimming In this mode the user or installer can define the relationship between output light level and available artificial light reported by the light level sensor based on a dimming curve with five supporting points This mode is commonly used for indoor lighting as it enables smooth dimming which is barely noticeable to the user m Two level ON OFF dimming The light level sensor can alternatively be used to activate an automatic switching mode between MaxVoltageLevel and MinVoltageLevel based on light intensity One typical application is a twilight switch where the light will automatically be turned ON during darkness The default operation mode is five point dimming Two lev
59. te that OccAutoOffLevel does not have to be 0 OFF 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 40 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 2 4 Light Level Sensor with Occupancy Sensors and Wireless Switches If the light level sensor is used in conjunction with both occupancy sensors and wireless switches then by default Occupancy Auto OFF functionality is enabled and Auto ON func tionality is disabled Le the default behaviour in this setup is that occupancy sensor input will only be used to switch the light OFF in order to conserve energy Occupancy based Auto ON function can be enabled by setting OccAutoOn ON Timer based Auto OFF as defined by RockerSwitchAutoOffTimer is always disabled if at least one occupancy sensor is linked If a user has switched the light OFF via a linked wireless switch then LED controller can be prevented from switching the light back ON based on input from linked occupancy sensors if their Auto ON functionality is enabled for a period defined by OccAutoOnDelay default 15 minutes as described before If light has been switched OFF due to Occupancy Auto OFF function then light will be auto matically turned back ON at the last state if occupancy is reported within a period set by VacancyGraceTimer period default 45s even when Auto ON functionality is disabled Input from the light level sensor is only considered if light has been switc
60. ted Input Level Natural Light 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 37 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 2 Functionality depending on system configuration The light level sensor can be used in three main system configurations m Stand alone m In combination with wireless switches m In combination with occupancy sensors m In combination with wireless switches and occupancy sensors 4 6 2 1 Light Level Sensor in Stand alone Mode Wireless light level sensor can be used without additional input devices such as wireless switches This can be useful to automatically switch ON and OFF lighting in places where light switches and occupancy sensors are not commonly used or easily available One typical application would be a twilight switch where lighting is automatically turned ON during darkness and OFF during daylight If the wireless light level sensor is used stand alone then its reported data will directly con trol the output light level Both two level ON OFF and five point continuous dimming can be used in this configu ration 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 38 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 6 2 2 Light Level Sensor and Switches If the light level sensor is used in conjunction with wireless switches then it is only active if light has been switched ON
61. the Auto ON function of linked occupancy sensors is always active as it is the only way to switch ON the light Input from the linked light level sensor is considered only if light has been switched ON by a linked occupancy sensor Occupancy Auto ON function Output light level is then set according to the most recent light level sensor data and the selected dimming parameters 2 level or 5 point dimming OccAutoOnLevel is not used if a light level sensor is linked This means that light will remain at OFF 0 level if occupancy is reported and the light level sensor reports sufficient natural illumination resulting in 0 output light level accord ing to the selected dimming parameters Any update from the linked light level sensor will immediately cause an adjustment of the output light level LisAdjustmentDelay as described above is not used it applies only to the case where the output light level is set using a linked wireless switch The rate of output change ramp speed is defined in five point mode by RAMP12 RAMP23 RAMP34 and RAMP45 parameters as described above Likewise in two level mode the ramp speed is defined by SensorRampUpSpeed for switch ON and SensorRampDownSpeed for switch OFF If light has been switched OFF because no occupancy telegram has been received from a linked occupancy sensor for a period defined by OccAutoOffTimer then light will remain at OccAutoOffLevel irrespective of light level sensor input No
62. ton This will cause the LED Controller to transmit a teach in message identifying the status message EEP used by it 4 Shortly press the LRN button again to return to normal operation 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 46 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 2 Factory configurable parameters Certain parameters that are critical for correct operation can only be modified during facto ry production using a dedicated programmer to access the configuration area of TCM 330 These parameters cannot be modified during normal operation using remote commissioning see chapter 5 3 or the local configuration interface see chapter 5 1 These parameters are listed in the table below Parameter Default Value Note Relay Utilized True Relay Switch On Time 4 6ms 50us steps Relay Switch Off Time 1 5ms 50us steps Relay Overdrive Active Time 110ms Active only on OFF to ON transition Please contact EnOcean for support if modification of these parameters is required 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 47 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 3 Remote commissioning Remote commissioning in conjunction with a suitable tool such as Navigan Wireless Commissioner NWC 300U can be used to wirelessly link transmitters and transceivers with LED zone controllers
63. ts both first level repeating repeating only original tele grams and second level repeating where telegrams from a first level repeater are repeat ed for a second time Repeating in general and second level repeating in particular should be used only if re quired based on careful planning as it significantly increases radio traffic and thereby the likelihood of radio telegram collisions TCM 330 provides the option for Link based Repeating where only such telegrams are re peated that originate from devices that TCM 330 is linked to This Link based Repeating option is enabled by default and should be disabled only if required 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 26 62 USER MANUAL V1 0 Green Smart Wireless enocean 4 4 Wireless switches Energy harvesting wireless switches provide the flexibility and ease of use provided by wireless solutions without the need for maintenance found in battery operated devices Energy harvesting wireless switches can be freely positioned anywhere within the radio range of LEDR Setup is very easy as no wiring is required Energy harvesting wireless switches can be used in conjunction with LEDR to dim adjust the illumination level up and down or to switch the light on either to maximum or to pre defined brightness and off Energy harvesting wireless switches can usually be either single rocker or dual rocker de signs The picture
64. y is in active state while the red LED output will blink if the relay is in inactive state output state OFF The blinking period is chosen to minimize energy consumption Note that all TCM 330 parameters can be configured using remote commissioning as dis cussed in chapter 5 3 Having a dedicated local configuration interface is therefore optional 5 1 1 Linking The LRN and DIM button of the local interface can be used for linking to transmitters or transceivers as outlined in chapter 5 1 4 5 1 2 Device reset The LRN button of the local interface can be used to reset all TCM 330 device parameters including PIN code to factory state similar to a factory reset This functionality can be particularly useful if remote configuration access to the device is secured with a custom PIN code and this PIN code is lost In order to reset TCM 330 to factory state press and hold the LRN button for 10 seconds After that the red LED output will be set to active for 10 seconds 2015 EnOcean www enocean com TCM 330 User Manual v1 0 September 2015 Page 43 62 USER MANUAL V1 0 Green Smart Wireless enocean 5 1 3 Setting the minimum output voltage The local interface can be used to configure the minimum output voltage MinVoltageLevel This level is typically set to avoid flickering and chosen to be the minimum level the load starts at when it is switched on It will not be possible to dim the output below this v
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