Manual MAXinBOX FC 0-10V FAN v1.2 Ed.a
Contents
1. Off Off Fan Speed status Speed 0 Status 0 Valve Control Valve Control Close Close Fan Speed 0 On On status status Figure 13 On Off 2 pipes any mode initial value 0 Off 9 FC MODULE Off Cooling mode On Fan On Speed gt 0 Valve Control Valve Control Cooling Open Cooling Open 1 cooling t deactivation Off Fan status Fan Speed gt 0 7 Speed 0 Valve Control t oe cooling Cooling Close Valve Control Heating Close Figure 14 On Off 4 pipes initial value gt 0 http www zennio com Technical Support http zennioenglish zendesk com 28 Zennio SS MAXinBOXFCO0 10V FAN Mode orders Control Variable heating FC MODULE On Cooling mode a Speed 0 Valve Control Valve Control Close Open t change mode heating Fan Speed V gt 0 t on Cooling heating t activation t que deactivation status Valve Control Close Figure 15 Change mode when Fan Coil is On 2 pipes Both lchange ldeactivation Fan Speed Vp when valve closes Fan Speed Vp Control Variable cooling No further actions V gt Offset because Control Variable heating 0 FC MODULE On Heating mode heating Fan Speed Vp change mode a at cooling cooling Fan Speed 0 deactivation Cooling status Valve C2. Close Valve ps 39 Oet o crR bPrswten oy FCd Valve Contro O Close Valve 1 Open Valve l1Bit O CTR DPT_Switch 0 1 ies Valve Control Cooling O Open Valve 1 Close Valve 1Bit O CTR DPT Switch l FCX Valve Control Cooling 0 Close Valve 1 Open Valve 329 340 1Bit O CTR DPT_Switch 1 FCX Valve Control Heating 0 Open Valve 1 Close Valve i 1Bit O CTR DPT_Switch 01 FCX Valve Control Heating O Close Valve 1 Open Valve 330 341 B t i DPT_Enable 9i rod Forced Position O Disable 1 Enable 331 342 hsye 1 DPT Scaling 096 10096 FCx Control Variable Cooling O 100 96 332 343 hsye 1 OG DPT Scaling 096 10096 FCx Control Variable Heating O 100 96 333 344 1 Byte O CTR DPT Scaling 096 10096 FCx Fan Speed 0 100 96 334 345 hsye 1 DPT Scaling 0 100 en Ape IEA voler 55 1007 http www zennio com Technical Support http zennioenglish zendesk com Zennio Passion for KMX innovation Join and send us your inquiries about Zennio devices http zennioenglish zendesk com Zennio Avance y Tecnolog a S L C R o Jarama 132 Nave P 8 11 45007 Toledo Spain Tel 34 925 232 002 Fax 34 925 337 310 www zennio com info zennio com C RoHS
3. Zennio Passion for KNX innovation 42 3 428 F F2 G G G G x 08 O INPUTS i 10V 0 10V mE fe 5 F1 E INPUTS SIDE on x s e o ONLY FOR DRY CO lt Zennio A o KNX k D ya o rs A A mM 33 QF QF a OS F Lu i 3 PROG TEST o 0 A ree E il o wo 2 T SES S E SEE Q2 3 coo wa YN SA wee y MAXinBOX FC 0 10V FAN 2x Two Four Pipe Fan Coil Controller with 0 10 VDC Fan Control Signal ZCL FCO10F Application Program Version 1 1 User Manual Version 1 1 _a t 2 z t oc LLI Y www zennio com CONTENTS OT SS o 2 Document updates D T 3 BIG NIST NG E O o o oT 4 1 1 MAXinBOX FC 0 10V FAN cccccccessssseeccccccsseeesseecccceessaeesseeeceesessueeseeeceseesseeusseeeseeeesaaas 4 A E Tm 5 LS Stat up and Power LOS rte 6 2 CONSI OM id E 7 DM CRC A O 7 M PPP e O sept caubaneuesutacsanuneeetesieeents 8 Za PO Red e 9 2 4 0 10V Analogue Outputs ccooocccncnncccncnnncnncnnnconnnnnncnnnnononononaronnononnnnnnnnrnnnonancnnonanonnnnnncnnnnnos 10 A o 13 ZB AU COUN pasa a bccn A aass 13 25 011 GenBraboossssdeerses air Nadia MMA Edid Ip NE 13 45 L2 o a A A 16 26 LOBlO CUNCUION cT 20 LI E RU UTE ETERE 21 Za Manu CON O rta PE 22 Annex I Independence of the modules cccccsssececeesecceeensccceaesececeeeceeeeuecceesuneceeeeeceeeeneeeeeas 26 Annex I
4. means of the above analogue and binary outputs 2 4 multi purpose inputs each of them configurable as Temperature probe gt Binary input i e pushbuttons switches sensors Motion detector 2 10 customisable multi operation logic functions 9 2 independent thermostats 2 Manual operation supervision of the relay outputs and the 0 10 VDC signals through the on board pushbuttons and LEDs The MAXinBOX FC 0 10V FAN application program focuses on the control of fan coil drives that consist of two or four pipes each with its own open close valve and a fan http www zennio com Technical Support http zennioenglish zendesk com 4 eno MAX BOX FC 0 10V FAN system whose speed is controlled through a O to 10 VDC analogue signal more voltage means more speed 1 2 INSTALLATION MAXinBOX FC 0 10V FAN connects to the KNX bus through the on board KNX connector Once the device is provided with power from the KNX bus both the individual address and the associated application program may be downloaded This device does not need any additional external power since it is entirely powered through the KNX bus Multi Purpose Inputs 0 10 VDC Outputs Output Status LED Indicator Output Control Button Prog Test LED Binary Outputs KNX Bus Connector Prog Test button Se XP ou 9 fh A Figure 1 MAXinBOX FC 0 10V http www zennio com Technical Support http zennioenglish zendesk com 5
5. 1 gj O 10 Hi eo i Fr m UJ lt cr D 284 299 2 Byte http www zennio com Technical Support http zennioenglish zendesk com Zennio MAXinBOX FC 0 10V FAN oo pj DPT Value Temp 273 00 670760 00 2147483648 300 307 Asye 1 c W DPT Value 4 Count 2147483647 LF 4 bytes DataEntry X 4 bytes Data Entry 1Bit O CTR DPT Bool ol LE Function X Result 1 bit Boolean 11 Byte O CTR DPT_Value_1_Ucount O 255 LF Function X Result 1 byte Unsigned 2 Byte O CTR DPT Value 2 Ucount 0 65535 LF Function X Result 2 bytes Unsigned 308 317 4 Byte O CTR DPT Value 4 Count O A Function X Result 4 bytes Signed 1Byte O CTR DPT_Scaling 0 100 LF Function X Result 1 byte Percentage 2 Byte O CTR DPT Value 2 Count 32768 32767 LF Function X Result 2 bytes Signed 2 Byte O CTR DPT Value Temp 273 00 670760 00 LF Function X Result 2 bytes Float 318 321 hsye 1 DPT Scaling 0 100 AOx Output Value Control 0 100 319 322 1Byte O CTR DPT_Scaling 0 100 AOx Output Value Status 0 100 mem ue Sy emcee on TE EE 325 336 1Bit O CTR DPT_Switch 0 1 FCx On Off Status 0 Off 1 On 326 337 fist 1 oer Heat_cot 0 1 FOd Mode 0 Cool 1 Heat 327 338 1Bit O CTR DPT Heat Cool 0 FCX Mode Status O Cool 1 Heat asi o ctR DPT swith 01 lFCx Valve Contro 0 Open Valve 1
6. Mode switch orders are not executed until the forced position mode is left although they are responded by sending the mode status object e If the fan coil module is off forced position orders are ignored ETS PARAMETERISATION After enabling Advanced Settings in the Configuration screen of the fan coil function a new tab will be incorporated into the tree on the left GENERAL 7 FAN COILS Fan Coil always On No 4 Fan Coil 1 Configuration Advanced Settings Maximum Fan Speed Enable Forced Position Object E Keep Fan Activated in Cooling Mode when Valve Closes Figure 11 Fan Coil X Advanced Settings The following parameters can be configured Fan Coil always On sets whether the fan coil will always be on or not f this option is set to No by default the fan coil turns on off when receiving a 1 or 0 through the object FCx On Off respectively The state of the fan coil can be obtained by reading the FCx On Off Status communication object any time http www zennio com Technical Support http zennioenglish zendesk com 18 eno MAXI BOX FC 0 10V FAN gt If this option is set to Yes the Fan Coil remains always on waiting for regulation orders The objects FCx On Off and FCx On Off Status are not available Please refer to section Annex Il Operation Examples for some operation examples where these objects are recei
7. 10V FAN incorporates four binary outputs each of which can be enabled and configured in parameters independently Although in this device they are offered with the aim of controlling the gate valves of the fan coil tubes up to four their parameterisation is similar to that of the individual relay outputs of any other MAXinBOX actuators Note that they all work independently although it is possible to group them as required for example to pen a gate valve when another one closes through joint group addresses and to configure each of them as normally open or normally closed to open close its gate valve on the reception of a 0 or of a 1 Practical usage examples of the different outputs and modules all together are offered in Annex I Independence of the modules of this user manual Please refer to the specific manual Binary Outputs in MAXinBOX FC 0 10V FAN available at the Zennio homepage www zennio com for detailed information http www zennio com Technical Support http zennioenglish zendesk com 9 eno MAX BOX FC 0 10V FAN 2 4 0 10V ANALOGUE OUTPUTS MAXinBOX FC 0 10V FAN incorporates two analogue voltage outputs that provide a voltage signal in the range O to 10 VDC This voltage will be in accordance to the percentage values that are received through a specific communication object Each analogue output can be enabled or disabled in parameters and is intended to control the fan speed of one fan co
8. 191 Ix Long Press Run Scene Sending of O 63 CT DPT_SceneControl 0 63 128 191 1x Long Press Save Scene Sending of 128 191 1 DPT Alarm 1 Ix Switch Sensor Alarm Breakdown Alarme NS Alarm or sabotage O 0 1 1 4 Bit CT DPT Control Dimming Ix Long Press Darker Long Pr gt Darker Release gt Stop 4 Bit C DPT Control Dimming Ix Long Press Brighter Darker Long Pr gt Brighter Darker Release gt Stop E 671088 64 670760 96 1x Long Press Constant Value float Swi 0 B 0 _ F CT DPT Value 2 Ucount 0 65535 LOL Od Pross Constanti Vaud a555 acis Integer DPT Scaling 0 100 Ix Long Press Constant Valuelooy 100 Percentage T DPT Value 1 Ucount O 255 DU Long Press Constant Malleco 255 A Integer DPT_Trigger 91 tt Long Press Release Stop Shutter Release gt Stop Shutter E 0 216 222 228 234 217 223 229 1 Byt 235 1 236 267 268 283 D 0 100 Ix Long Press Dimming Status input Ix Long Press Shutter Status input pT Bool 01 LFI bit Data Entry x JBimaryDataEnty 0 1 LF 1 byte Data Entry X 1 byte Data Entry 0 255 DPT Value 2 Ucount DPT Woe con Pu re LF 2 bytes Data Entry X 2 bytes Data Entry o L UJ lt cr D E UJ m m N N Rie wo wo o lol lolo 2 DE ZEE ENSE IE D D o lol t lolo O10 A n O ala m z I JJ do i
9. 2 Byte O CTR DPT Value Temp 273 00 670760 00 Tx Effective Temperature Effective Control Temperature 1 Comfort 2 Standby 8 38 1 Byte DPT HVACMode 3 Economy Tx Special Mode 4 Building Protection 9 39 1 Bit 1 c w DPT_ Trigger ovl EX Special Mode comfort 0 Nothing 1 Trigger 1Bit C W l DPT_Switch l MX Special Mode comfort 0 Off 1 On 10 40 1 Bit 1 C w DPT_Trigger 01 RX Special Mode standby 0 Nothing 1 Trigger 1Bt c w DPT swith o Tx Special Mode standby 0 Off 1 On ML zm 1 Bit 1 c w DPT_ Trigger ovl EX Special Mode economy 0 Nothing 1 Trigger Ae c W DPT Switch oa TX Special Mode economy 0 Off 1 On 12 42 1Bit C W DPT Trigger l Rx Special Mode protection 0 Nothing 1 Trigger 1 Bit 1 c w DPT Switch l Rx Special Mode protection 0 Off 1 On 13 43 iBt C W DPT window Door 0 1 Tx Window Status input O Closed 1 Open 14 44 1 Bit 1 c Ww DPT_ Trigger 01 RMX Comfort Prolongation 0 Nothing 1 Timed Comfort 1 Comfort 2 Standby 15 45 1 Byte CTR DPT HVACMode 3 Economy Tx Special Mode Status 4 Building Protection 16 46 2 Byte c w DPT_Value_Temp 273 00 670760 00 Tx Setpoint Thermostat Setpoint Input 2 Byte 1 c Ww DPT_Value_Temp 273 00 670760 00 Tx Basic Setpoint Reference Setpoint http www zennio com Technical Support http zennioenglish zendesk com Zemi
10. Manual Control Both Test Mode Off and On CONFIGURATION Lock Manual Control er Value o TE Initialization Last value Figure 12 Manual Control The only two parameters are 2 Manual Control options are Disabled Only Test Mode Off Only Test Mode On and Both Test Mode Off and On default Depending on the selection the device will permit using the manual control under the Test Off the Test On or either of the two modes Note that as stated before using the http www zennio com Technical Support http zennioenglish zendesk com 24 eno MAXI BOX FC 0 10V FAN Test Off mode does not require any special action while switching to the Test On mode does require long pressing the Prog Test button e Lock Manual Control unless the above parameter has been Disabled enabling the Lock Manual Control parameter will provide a runtime procedure for locking the manual control When this checkbox is enabled object Manual Control Lock turns visible as well as two more parameters gt Value defines whether the lock unlock of the manual control should take place respectively upon the reception through the aforementioned object of values 0 and 1 or the opposite gt Initialization sets how the manual control should remain after the device start up after an ETS download or a bus power failure Unlocked Locked or by default Last Value on the very first
11. com Technical Support http zennioenglish zendesk com 26 respective communication objects or not This makes the device more versatile and capable of controlling fan coils systems with their own valve fan actuators by linking the objects of the fan coil module to the objects of the external actuators The same applies to the built in thermostat module which can be optionally linked to the other internal modules and commanded from an external touchscreen or room controller as the following example shows Temperature Probe Thermostat Ty On Off n T Setpoint Ty Mode pt AO Output Value Status Analogue Output y Fed ono FG Fan Speed 0 10 VDC Oe FG On Off im FG Control variable Cooling Fan Coil preci Module FG Valve Contro 07 On Off Status NEN M Heating C Binary IC Control Variable Heating x uzg A zl im amp O4 on oft a le On Off IFC Mode gt 4 FC Valve Control y 07 On Off Status a Cooling Binary lO JOn off Output z2 y IS On Off http www zennio com Technical Support http zennioenglish zendesk com 27 eno MAX BOX FC 0 10V FAN ANNEX Il OPERATION EXAMPLES The device operation varies notoriously depending on the current state and the parameterisation The following diagrams show the expected behaviour in different situations On Off Orders Off Off FC MODULE Off Heating mode Control 0
12. eno MAXI BOX FC 0 10V FAN The main elements of the device are described next Test Prog pushbutton 8 a short press on this button sets the device into the programming mode making the associated LED 5 light in red Note f this button is held while plugging the device into the KNX bus the device will enter into safe mode In such case the LED will blink in red every 0 5 seconds 2 Outputs 2 and 6 output ports for the insertion of the stripped cables of the systems being controlled by the actuator see sections 2 3 and 2 4 Please secure the connection by means of the on board screws For detailed information about the technical features of the device and for safety instructions and on the installation process please refer to the Datasheet bundled with the original packaging of the device and also available at www zennio com 1 3 START UP AND POWER LOSS During the start up of the device the Test Prog LED will blink in blue colour for a few seconds before MAXinBOX FC 0 10V FAN is ready External orders will not be executed during this time but afterwards Depending on the configuration some specific actions will also be performed during the start up For example the integrator can set whether the outputs should switch to a particular state and whether the device should send certain objects to the bus after the power recovery Please consult the next sections of this document for further details On the other
13. m UJ lt cr D C W DPT_SceneControl 0 63 128 191 Outputs Scenes eee tee Ue il UE C W DPT BinaryValue 01 Ox On Off N O O Open Relay 1 Close Relay C W DPT BinaryValue 01 IOx On Off N C O Close Relay 12 Open Relay 1 Bit E UJ ze oO 1 Bit DPT_BinaryValue oi pou On Off Status O Output Off 1 Output On 1 Bit C W DPT Start wi pou Timer O Switch Off 1 Switch On http www zennio com Technical Support http zennioenglish zendesk com Zennio MAXinBOX FC 0 10V FAN DPT Start o fox Flashing O Stop 1 Start C W DPT_Alarm 01 ox Alarm O Normal 1 Alarm C W DPT_Alarm 01 i Alarm O Alarm 1 Normal W W 1 e w DPT_ Trigger wi pou Unfreeze Alarm Alarm 0 Unfreeze 1 gt End Alarm DPT_Trigger o fo Warning Time Status O Normal 12Warning DPT Switch ol x Short Press 0 Sending of 0 DPT Switch vl x Short Press 1 Sending of 1 DPT Switch on Short Press 0 1 Switching Switching 0 1 DPT_Step DA fe mess A Sending of 1 Stop Step down DPT_Step ea fi LESS EOD USD Shutters witching of 0 1 Stop Step up down EA EE EN E EE m EN 0x0 Stop Ox1 Dec by 100 213 219 225 Lag 184 192 200 208 185 193 201 209 186 194 202 210 187 195 203 211 212 218 224 230 231 0x7 Dec by 1 0x8 Stop 0x9 Inc by 100 OxF Inc by 196 0x0 Stop 0x1 Dec by 100 DPT Control Dimming 1x Short Pre
14. objects depending on the Type and Mode Note the values received through FCx Control Variable Cooling will only have effect if Cooling is the current mode while the values received through IFCx Control Variable Heating will not be applied although the will be taken into account when the mode changes to Heating The same happens for the opposite case Please refer to Annex ll Operation Examples for some operation examples where these objects are received in different scenarios 9 Value Sent to Open Close Valve sets the values required to open and close the valve The options are O Close Valve 1 Open Valve by default and 0 Open Valve 1 Close Valve The following parameters define two offset values applied to fan speed control 2 Minimum Control Variable Value that Activates the Fan from 0 to 100 10 by default http www zennio com Technical Support http zennioenglish zendesk com 15 Zennio ss MAXinBOXFC0 10V FAN 2 Minimum Fan Speed from 0 to 100 20 by default This value must be higher or equal than the Minimum Control Note both offsets must be lower than the Maximum Fan Speed parameter see 2 5 1 2 Depending on the mode the following delays must be configured 9 Delay for Fan Activation when Valve Opens time to wait since the valve opens until the fan can be turned on This delay must be configured for both Cooling and Heating The allowe
15. of 0 1 Bit o CT DPT_Switch 0 Long Press 1 Sending of 1 ISI Ss v DPT Switch pont Long Press 0 1 Switching Switching 0 1 1Bit CT DPT_UpDown 01 x Long Press Move Up Shutter Sending of O Up 1 Bit CT DPT UpDown Po ovl xX Long Press Move Down Shutter Sending of 1 Down 1Bit CT DPT UpDown Po ovl xX Long Press Move Up Down Shutter Switching 0 1 Up Down 215 221 227 1 Bit CT DPT Step ovl xX Long Press Stop Step Up Shutter Sending of O Stop Step up 233 1 Bit MS DPT_Step e he Riese A Sending of 1 Stop Step down 1 Bit CT DPT Step 0 1 xd Long Press Stop Step Shutter Switching of 0 1 Stop Step up down switched 0x0 Stop 0x1 Dec by 100 l T oJ l f 4 Bit CT DPT Control Dimming 0x7 Dec by 1 Ix Long Press Brighter Long Pr gt Brighter Release gt Stop 0x8 Stop 0x9 Inc by 10096 http www zennio com Technical Support http zennioenglish zendesk com Zemio MAXI BOX FC 0 10V FAN Lo eeu e o 0x0 Stop Ox1 Dec by 100 Ox7 Dec by 1 0x8 Stop 0x9 Inc by 10096 ee OxF Inc by 1 0x0 Stop Ox1 Dec by 100 0x7 Dec by 1 0x8 Stop 0x9 Inc by 10096 be OxF Inc by 196 C DPT Switch ovl ixl Long Press Dimmer ON Sending of 1 ON DPT Switch ovl ix Long Press Dimmer OFF Sending of 0 OFF i DPT Switch o fx Long Press Dimmer ON OFF Switching 0 1 CT DPT SceneControl 0 63 128
16. start up this will be Unlocked http www zennio com Technical Support http zennioenglish zendesk com 25 eno ss MAXinBOXFC0 10V FAN ANNEX I INDEPENDENCE OF THE MODULES The following figures illustrate how the communication objects and group addresses of the fan coil and the outputs modules should be linked depending on the system to control Two Pipe Fan Coil System f AO Output Value Control Analogue AO Output Value Status 7 Output y Foot rancon gt rest FC Control Variable Cooling Module gt FC On Off Status FC Control Variable Heating uyn Fod l FC Mode gt FC Valve Control O On Off Status Binary a ll Output z o On Off On Off Analogue AO Output Value Status a Output y FC On Off 0 10VDC FC Control Variable Cooling FC Control Variable Heating FC Mode Fel cor FC Valve Control HT O On Off Status A inary Module Heating on yy O On Off Output 21 Y 71 oe On Off FC Valve Control O On Off Status A Binary Cooling 8 O On Off Output z2 ees On Off It is worth emphasising that the two fan coil modules are completely independent of the analogue and binary outputs modules It is up to the integrator whether to control the fan coil module together with the built in outputs modules by grouping their http www zennio
17. I Operation Examples sse nennen nennen nennen nennen enne nnne 28 Annex Ilik Comtmibicgtion ODIBCES ssssoiepani dui tpIOe dpSo orlando ona 30 http www zennio com Technical Support http zennioenglish zendesk com 2 eno 3 MAXinBOX FC 0 10V FAN DOCUMENT UPDATES Version Changes Changes in the application program e Optimisation of the timed actions management in the logic functions module General revision of texts and styles NM http www zennio com Technical Support http zennioenglish zendesk com 3 eno ss 3 MAXinBOX FC 0 10V FAN 1 INTRODUCTION 1 1 MAXinBOX FC 0 10V FAN MAXinBOX FC 0 10V FAN from Zennio is a versatile KNX multi function actuator that aims at fulfilling the climate control needs of KNX environments with integrated fan coil units where the fan speed is controlled through an analogue 0 10 VDC signal while the gates of the water pipes need to be controlled through binary outputs relays The actuator provides two analogue outputs and four binary outputs all of which can be enabled and configured independently which lets the integrator combine them as desired to control up to 2 two pipe or four pipe fan coil units At a glance the most outstanding features of MAXinBOX FC 0 10V FAN are 9 2 independent analogue 0 10 VDC outputs 2 4 independent binary relay outputs 9 2 independent fan coil functions to control up to two fan coil units by
18. Open Close Valve Minimum Control Variable Value that Activates the Fan Minimum Fan Speed it must be higher or equal than the minimum control HEATING Delay for Fan Activation when Valve Opens 0 No Delay Delay for Fan Deactivation when Valve Closes 0 2 No Delay Advanced Settings Heating 2 pipes ki 0 Close Valve 1 Open Valve Offsets Applied to the Control set both to 0 to disable 2 10 25 EN 20 ama 28 0 al 0 El Figure 8 Fan Coil X Configuration http www zennio com Technical Support http zennioenglish zendesk com 14 eno MAX BOX FC 0 10V FAN 2 Type of Fan Coil sets the type of the fan coil The options are 2 pipes and 4 pipes Under 2 pipes it is necessary to set the operating Mode 9 Mode sets the operating mode of the fan coil system The options are Cooling Heating or Both This parameter is only available for two pipe fan coils in the case of four pipe fan coils both modes are always available Depending on the value of Type and Mode and according to Table 1 either one set of objects or another will be available 2 tubes 4 tubes Object od Mode an Mode Sat ff foe x FCx Control Variable Cooling x x x Gx oroi variable teng x x rovas x x x C Foavae Cont Cooin tron Vaie Control Heaing Table 1 Fan Coil communication
19. Point Control 1Bit O CTR DPT Switch 1 ITX Control Variable Heat PI Control PW 1Bit O CTR DPTSwth 0 1 fTxAdditionalCoo___________ remp gt Setpoint Band gt 1 32 62 18it O CTR DPT Switch 0 1 ITX Additional Heat Temp lt Setpoint Band gt 1 i OZ 1 iik o ers ae eon m iua ds nia 1 07 1 EAE IU o ers e en m ella di o nre Pf 1 f sionat greater than 65 69 73 77 2 Byte O CTR DPT_Value Temp 273 00 670760 00 Ix Current Temperature Temperature sensor value 66 70 74 78 1Bit O CTR DPT Alarm 1 fix Overcooling JO No Alarms Alarm 67 71 75 79 1Bit O CTR DPT Alarm 0 1 lxlOverheaing jo NoAarmi Aarm 68 72 76 80 18it O CTR DPT Alarm 1 fix Probe Error JO NO Alarms Alarm 81 1Bytel C W DPT SceneContro 0 63 128 191 Motion Sensor Scene Input SceneValue 000 82 jiByt CT DPT_SceneControl 0 63 128 191 MotionSensor SceneOutput Scene Value 000 EE o e wa IEA IA A EE ipe wo AA AAA EE Oe mm a Beber AAA Eee o form orcas ox 200m el presence tame Sealng pon DX lIi 35 11 Byte O CTR DPT HVACMode 1 Comfort ix Presence State HVAC Auto Comfort Standby Economy Building http www zennio com Technical Support http ze
20. Reset 0 and Reset 1 which will be sent to the KNX bus with values 0 and 1 respectively whenever the device begins operation for example after a bus power failure It is possible to parameterise a certain delay for this sending 0 to 255 seconds http www zennio com Technical Support http zennioenglish zendesk com 7 eno MAX BOX FC 0 10V FAN 2 2 INPUTS MAXinBOX FC 0 10V FAN provides four analogue digital inputs each configurable as a 9 Binary Input for the connection of a pushbutton or a switch sensor e Temperature Probe to connect a temperature sensor model ZN1AC NTC68 S E F from Zennio Motion Detector to connect a motion detector models ZN1IO DETEC P and ZN110 DETEC X from Zennio Important older models of the Zennio motion detector e g ZN1IO DETEC and ZN 110 DETEC N will not work properly with MAXinBOX FC 0 10V FAN For detailed information about the functionality and the configuration of the parameters involved please refer to the following specific manuals available under the MAXinBOX FC 0 10V FAN product section at the Zennio homepage www zennio com 2 Binary Inputs in MAXinBOX FC 0 10V FAN 9 Temperature Sensor in MAXinBOX FC 0 10V FAN 9 Motion Detector in MAXinBOX FC 0 10V FAN http www zennio com Technical Support http zennioenglish zendesk com 8 eno MAXinBOXFC0 10V FAN 2 3 BINARY OUTPUTS MAXinBOX FC 0
21. d values are 0 to 600 ds 0 to 3600 s O to 1440 min or O to 24 hours 9 Delay for Fan Deactivation when Valve Closes time to wait since the valve closes until the fan should be turned off This delay must be configured for both Cooling and Heating The allowed values are 0 to 600 ds 0 to 3600 s O to 1440 min or O to 24 hours 9 Minimum Delay for the mode change minimum time the device should wait between the order to close the valve under the old mode and the order to open the valve in the new mode The allowed values are O to 600 ds O to 3600 s 0 to 1440 min or O to 24 hours This parameter is only visible when the two modes are available i e with a two pipe fan coil with both modes or with a four pipe fan coil 2 5 1 2 ADVANCED SETTINGS Among other options the advanced settings permit the definition of a maximum fan speed level which is set in terms of percentage If set any fan regulation order greater than this value will lead the output to the maximum as shown in Figure 9 One more advanced feature is the option to keep the fan in motion after the valve is closed i e when the setpoint is under the minimum value that activates the fan or Offset 1 This requires setting in parameters the desired constant speed for the fan when this occurs this fan speed can be changed at runtime when required Figure 10 illustrates this behaviour http www zennio com Technical Support http zennioenglish zendesk c
22. eneral parameters and optionally some advanced parameters All of them are described next 2 5 1 1 GENERAL Among other options regarding the fan coil operation modes and the values and delays involved in the opening and closing of the valves the general parameters bring the option to set two offsets 2 The minimum value of the control variable that should activate the fan i e the minimum percentage value that will be required to make the actuator actually operate the fan values under that minimum will be ignored by the actuator This is called Offset 1 in Figure 7 9 The minimum fan speed i e the minimum voltage in percentage that permits appreciating motion in the fan This parameter is useful when the fan is not able to effectively start motion with voltage values lower than a certain percentage This is called Offset 2 in Figure 7 http www zennio com Technical Support http zennioenglish zendesk com 13 Zennio Outpu 100 1 Close valve Offset 2 Offset 1 Offset 2 Open valve MAXinBOX FC 0 10V FAN l 100 Input Figure 7 Output percentage value depending on the input setpoint and the offsets ETS PARAMETERISATION The Configuration screen see Figure 8 is accessible by default after enabling the Fan Coil function It contains the following parameters GENERAL 4 FAN COILS CONFIGURATION 4 Fan Coil 1 Configuration Type of Fan Coil Mode Value Sent to
23. hand when a bus power failure takes place MAXinBOX FC 0 10V FAN will interrupt any pending actions and will save its state so it can be recovered once the power supply is restored http www zennio com Technical Support http zennioenglish zendesk com 6 eno MAXI BOX FC 0 10V FAN 2 CONFIGURATION 2 1 GENERAL ETS PARAMETERISATION GENERAL Inputs a MANUAL CONTROL Binary Outputs E 0 10V Analog Outputs El Fan Coils El Logical Functions E Thermostats El Manual Control ri Fi Sending of Indication Objects 0 and 1 on El bus voltage recovery Figure 2 General screen After importing the corresponding database in ETS and adding the device into the topology of the desired project the configuration process begins by right clicking into the device and selecting Edit parameters This will bring the window shown in Figure 2 From this screen it is possible to activate deactivate all the required functionality through the corresponding checkboxes e Once activated Inputs Binary Outputs 0 10V Analog Outputs Fan Coils Logical Functions Thermostats and Manual Control enabled by default bring additional tabs to the menu on the left These functions and their parameters will be explained in later sections of this document 9 Sending of Indication Objects 0 and 1 on Bus Voltage Recovery this parameter lets the integrator activate two new communication objects
24. hbuttons will respond to user presses from the start 2 On the contrary switching to the Test On mode unless disabled by parameter needs to be done by long pressing the Prog Test button for at least three seconds until the LED is no longer red and turns yellow From that moment once the button is released the LED light will remain green to confirm that the device has switched from the Test Off mode to the Test On mode After that an additional press will turn the LED yellow and then off once the button is released This way the device leaves the Test On mode Note that it will also leave this mode if a bus power failure takes place Test Off Mode Under the Test Off Mode the outputs can be controlled through both their communication objects and the actual pushbuttons located on the top of the device When one of these buttons is pressed the output will behave as if an order had been received through the corresponding communication object so it has no effect if the output is locked or under alarm status The status objects of the different functions will still be sent in the usual way http www zennio com Technical Support http zennioenglish zendesk com 22 eno ss MAXinBOXFC0 10V FAN The action performed depends on the output type and in the case of 0 10V analogue outputs on the press type For both outputs types the presses have no effect if the output is disabled in parameters 9 Binary output a sim
25. il unit One on board LED indicator is offered per output to show the status it will remain off while the output signal is OV and on while it is 10V Under intermediate values it will blink with variable rates according to the voltage ETS PARAMETERISATION After enabling 0 10V Analog Outputs in the General screen see section 2 1 a new tab will be incorporated into the tree on the left GENERAL 4 0 10V ANALOG OUTPUTS CONFIGURATION 0 10V Analog Output 1 D 10V Analog Output 2 Figure 3 0 10V Analog Outputs Configuration The two analogue outputs can be activated independently by marking the checkboxes This also brings new tabs to the tree GENERA Enable Lock by Object E 4 0 10V ANALOG OUTPUTS CONFIGURATION 4 0 10V Analog Output 1 Initialization Default Configuration A n Ts n ndo Figure 4 0 10V Analog Output X Configuration After enabling any of them two objects are included by default 9 AOx Output Value Control this object is supposed to receive percentage values from the KNX bus making the device generate a voltage output between 0 V and 10 V proportional to the percentage value http www zennio com Technical Support http zennioenglish zendesk com 10 eno MAX BOX FC 0 10V FAN 2 AOx Output Value Status status object that shows in terms of percentage the current value of the analogue output signal This object is au
26. n about the functionality and the configuration of the related parameters http www zennio com Technical Support http zennioenglish zendesk com 20 eno MAXI BOX FC 0 10V FAN 2 7 THERMOSTATS MAXinBOX FC 0 10V FAN implements two Zennio thermostats which can be independently enabled and fully customised Please refer to the specific manual Zennio Thermostat for MAXinBOX FC 0 10V FAN available at the Zennio homepage www zennio com for detailed information about the functionality and the configuration of the related parameters http www zennio com Technical Support http zennioenglish zendesk com 21 eno MAX BOX FC 0 10V FAN 2 8 MANUAL CONTROL MAXinBOX FC 0 10V FAN allows manually switching the state of its binary and 0 10V analogue outputs through the respective pushbuttons on the top of the device A specific pushbutton is therefore available per output Manual operation can be done in two different ways named as Test On Mode for testing purposes during the configuration of the device and Test Off Mode for a normal use anytime Whether both only one or none of these modes should be accessible can be parameterised in ETS Moreover it is possible to enable a specific binary object for locking and unlocking the manual control in runtime Note 9 The Test Off mode will be active unless it has been disabled by parameter after a download or a reset with no need of a specific activation the pus
27. nnioenglish zendesk com Zennio EH 88 112 136 160 39 113 137 161 90 114 138 162 SII To 39 163 92 97 102 116 121 126 140 145 150 164 169 174 93 98 103 117 122 127 141 146 151 165 170 175 94 99 104 118 123 128 142 147 152 166 171 176 95 100 105 119 124 129 143 148 153 167 172 177 96 101 106 120 125 130 144 149 154 168 173 178 180 188 196 204 181 189 197 205 182 190 198 206 183 191 199 207 MAXinBOX FC 0 10V FAN 2 Standby Protection 3 Economy 4 Building Protection DPT_Occupancy 01 x Presence State Binary Binary Value 1 Motion Detected 1 Bit 1 Bit DPT_Trigger 01 x Presence Slave Output m Binary Value to Trigger the Presence l Bit C W DPT Trigger on Presence Trigger Detection C W DPT_Trigger ow fx Presence Slave Input O Nothing 1 Detection from slave device l C W DPT Trigger 0 Ix External Motion Detection p Mou 2 MONO detecte Dy a external sensor DPT Scaling 096 10096 Ix Cy Detection State Scaling 0 100 1 Byte 1 Comfort 2 Standby Auto Comfort Standby Economy Building 1 Byte CTR DPT HVACMode 3 Economy Ix Cy Detection State HVAC Protection 4 Building Protection DPT Switch oom ders Detection State Binary Binary Value DPT Switch om eem Channel Lock According to parameters DPT Switch oom ders Force State O No Detection 1 Detection
28. o Xin BOX FC 0 10V FAN 1Bit c W DPT Step 0 1 18 48 2Byte C W DPT Value Tempd 670760 00 670760 00 Tx Setpoint Offset Float Offset Value 1949 2Byte O CTR DPI Value Temp 273 00 670760 00 Tx Setpoint Status Current Setpoint 20 50 2Byte O CTR DPT Value Temp 273 00 670760 00 Tx Basic Setpoint Status CurrentBasicSetpoint______ 2151 2Byte O CTR DPT Value Tempd 670760 00 670760 00 Tx Setpoint Offset Status Current Setpoint Offset 1Bit c W DPT Reset 0 1 Tx SetpointReset _________ fResetSetpointtoDefaut 1Bit c W DPTRect 0 1 ITX Offset Reset fesetofset 0 1Bit C W DPT Heat Col O T Mode 0 Cool1 Heat 1Bit O CTR DPT Heat Coo 0 1 Tx Mode Status Cool 1 Heat 1Bit c W DPTSwth 0 1 movof po ofti oOn 1Bit O CTR DPT Switch 0 1 TxJOnm OffStatus 0Off 1 0n______________ 27 57 1Byte O CTR DPT Scaling 0 100 Tx Control Variable Cool PI Control Continuous 28 58 1Byte O CTR DPT Scaling 0 100 Tx Control Variable Heat PI Control Continuous 1Bit O CTR DPT Switch Tx Control Variable Cool p PoitContol 1Bit O CTR DPTSwtch Tx Control Variable Cool PI Control PWM 1Bit O CTR DPT Switch 0 1 ITX Control Variable Heat 2
29. om 16 eno MAX BOX FC 0 10V FAN Output 10095 clus moll iiic c Open valve Close valve Offset 2 I o Figure 9 Output percentage depending on the input setpoint the two offsets and the maximum Output 100 q4 Open valve I gt I l Max 45 gt n N 2 QO Offset 2 Cooling minimum l Offset 1 Offset 2 Max 100 Input Figure 10 Output percentage depending on the input setpoint the two offsets and the fan speed with the valve closed It is also possible to define a forced position in parameters which allows setting on request through the corresponding object the fan speed to a pre set value with no action on the valves Under the forced position mode 2 The valves remain in the state they were before the forced position order 2 Any control order is ignored but taken into account after leaving this mode http www zennio com Technical Support http zennioenglish zendesk com 17 eno MAX BOX FC 0 10V FAN e The forced position resumes after a power failure An Off order will be performed as usual and leads to leaving the forced position mode e Upon the reception of On order the fan control order will be sent again as well as the On status but there will be no action on the valves 9 The pre set output value for this mode does not depend on the offsets being up to the integrator whether to set a value greater than Offset 1 e
30. ontrol Heating Close activation deactivation Fan Speed V gt 0 Valve Control Cooling Open Valve Control Cooling Open Figure 16 Change mode when Fan Coil is On 4 pipes lchange gt ldeactivation Fan Speed Vp when valve closes http www zennio com Technical Support http zennioenglish zendesk com 29 Zennio MAXinBOX FC 0 10V FAN ANNEX III COMMUNICATION OBJECTS Functional range shows the values that with independence of any other values permitted by the bus according to the object size may be of any use or have a particular meaning because of the specifications or restrictions from both the KNX standard or the application program itself Number Size 1 O Flags Data type DPT Functional Range Name Function Y ait CT DPT Trigger om Reseto Voltage Recovery gt Sending of 0 2 1Bt cT DPT Trigger 01 pesti _____________ VoltageRecovery gt Sending of 1 3 1 Bit 1 c w DPT_Switch 01 Manual Control Lock O Lock 1 Unlock 1 Bit 1 c w DPT_Switch 0 1 Manual Control Lock O Unlock 1 Lock 1 Byte 1 c w DPT_SceneControl 0 63 128 191 Thermostat Scene Input Scene Value 2 Byte 1 lc W DPT Value Temp 273 00 670760 00 Tx Temperature Source 1 External Sensor Temperature 2 Byte C W l DPT Value Temp 273 00 670760 00 Tx Temperature Source 2 External Sensor Temperature
31. ple press short or long will make the output switch its on off state with independence of the state of the other binary outputs This will be reported to the KNX bus through the corresponding status object if enabled 2 0 10V analogue output the action depends on the type of press gt Short press it is equivalent to a 0 or 100 regulation order through the AOx Output Value Control causing a OV or 10V output signal If the current state is greater than 0 the regulation order will be 0 OV while if the current state is 096 the regulation will be 10096 10V Long press if the button is long pressed the actuator will start increasing or decreasing the fan speed progressively as long as the button is being held The direction of the regulation with every new long press will be downwards i e a decrease of the fan speed unless the current state is 096 in such case the regulation will consist in an increase The updated state object will be sent once the button is released or when the maximum minimum value is reached The complete regulation cycle 096 to 10096 or vice versa takes 10 seconds e Disabled output outputs disabled in parameters will not react to button presses under the Test Off mode Regarding the lock timer alarm and scene functions the device will behave under the Test Off mode as usual Button presses during this mode are entirely analogous to the reception of the corresponding orders f
32. rom the KNX bus Test On Mode After entering the Test On mode it will only be possible to control the outputs through the on board pushbuttons Orders received through communication objects will be ignored with independence of the output they are addressed to http www zennio com Technical Support http zennioenglish zendesk com 23 eno MAXI BOX FC 0 10V FAN Depending on the type of output binary or analogue the reactions to the button presses will differ 9 Binary output short or long pressing the button will commute the on off state of the relay 9 0 10V analogue output the behaviour is the same as described for the Test Off Mode except that the fan status objects do not change they will be updated when leaving the Test On Mode Disabled output under the Test On mode disabled outputs will behave as if they were enabled thus as described above depending on whether they are binary or analogue outputs The lock timer alarm and scene functions will not work while the device is under the Test On mode but will be taken into account when leaving the Test On Mode Status objects will not be sent to the bus either Important the device is factory delivered with both manual modes Test Off and Test On enabled ETS PARAMETERISATION The Manual Control is configured from a specific tab which can be enabled from the General screen see section 2 1 GENERAL F CMM I HE 4 MANUAL CONTROL
33. ss Brighter Increase Brightness m Ox7 Dec by 1 0x8 Stop 0x9 Inc by 10096 Ix Short Press Darker Decrease Brightness OxF Inc by 196 http www zennio com Technical Support http zennioenglish zendesk com Zemio MAXI BOX FC 0 10V FAN 0x7 Dec by 1 0x8 Stop 0x9 Inc by 100 od OxF Inc by 196 1 Bit CT DPT Switch ovl x Short Press Dimmer ON Sending of 1 ON 1Bit cT DPT_Switch ovl xX Short Press Dimmer OFF Sending of O OFF 1 Bit a s dis Lid DPT Switch on va Short Press Dimmer ON OFF Switching 0 1 1 Byte CT DPT_SceneControl 0 63 128 191 Ix Short Press Run Scene Sending of O 63 1 Byte CT DPT SceneControl 0 63 128 191 Ix Short Press Save Scene Sending of 128 191 1 Bit yo CTRW DPT Switch on Switch Sensor Edge Sending of 0 or 1 1 Byte CT DPT Value 1 Ucount 0 255 Hd Tonore HS GODOIIDD ae AD Integer 1 Byte CT DPT Scaling 096 10096 DX Onore Whee SSORSCOME Mate go 100 Percentage 2 Byte Jer DPT Value 2 Ucount 0 65535 een Pressi Constant Maltei cops 2 Byte CT 9xxx 671088 64 670760 96 1x Short Press Constant Value float 214 220 226 1 Byte C W DPT Scaling 096 10096 Ix Short Press Shutter Status input 096 Top 100 Bottom 232 1Byte C W DPT Scaling 0 100 1x Short Press Dimming Status input 0 100 1Bt cT DPT swith O01 iix ilong Press O Sending
34. st will be off on the very first start up When selecting On the desired Output Value needs to be configured in terms of percentage e Send Status when marked the status object will be sent to the bus with a customisable Delay from 0 to 600 ds 0 to 3600 s 0 to 1440 min or O to 24 hours 3 seconds by default Note the lock status is preserved after a bus failure In case of conflict between the state defined for the lock function and the state defined for the initialization the lock state prevails That is if a bus failure occurs with an output locked after the bus recovery the output will have the same value independently of the Initial status defined in the Initialization function http www zennio com Technical Support http zennioenglish zendesk com 12 Zennio ss MAXinBOXFC0 10V FAN 2 5 FAN COILS MAXinBOX FC 0 10V FAN incorporates two independent fan coil functions that implement all the logic involved in the control of up to two fan coil units ETS PARAMETERISATION After enabling Fan Coils in the General screen see section 2 1 a new tab will be incorporated into the tree on the left esi Fan Coil 1 F7 4 FANCOILS CONFIGURATION Fan Coil 2 E Figure 6 Fan Coils Configuration The two fan coil functions can be activated independently by marking their checkboxes This brings some more tabs to the tree 2 5 1 FAN COIL x Each fan coil function requires setting some g
35. tomatically sent to the bus after receiving a new voltage setpoint and when the output status changes due to a lock order The following parameters can be configured from the corresponding tab Enable Lock by Object Ei Lock Action On Output Value 100 Initialization Custom Initial Status On x Output Value 100 Send Status f Delay 0 No Delay 3 Figure 5 0 10V Analog Output X Configuration in detail 9 Enable Lock by Object when this checkbox is marked the one bit object AOx Lock turns visible as well as one more parameter gt Lock Action sets the particular state No Change On Off the output will adopt upon the reception of the value 1 through the AOx Lock object lf set to On the desired Output Value needs to be configured in terms of percentage Note while an output is locked further voltage setpoints are ignored the device will respond with the current status of the output e Initialization brings the option to set the output to a particular state at the start up of the actuator gt Default off after an ETS download and unchanged after a bus power failure gt Custom this option brings two new parameters http www zennio com Technical Support http zennioenglish zendesk com 11 eno MAX BOX FC 0 10V FAN e Initial Status Previous On Off after either an ETS download or a bus power failure la
36. ved in different scenarios 9 Maximum Fan Speed when enabled sets a maximum value for the fan speed through the following parameter gt Maximum from 0 to 100 by default 9 Enable Forced Position Object when enabled a new communication object FCx Forced Position becomes available When it receives the value 1 and the system is on the system enters the forced position mode and the fan speed is set to the value set by the following parameter gt Cooling Heating Fan Speed from 0 by default to 100 9 Keep Fan Activated in Cooling Mode when Valve Closes if enabled the fan speed will change to a certain parameterisable value whenever the control order received is under Offset 1 Minimum Control Variable Value that Activates the Fan instead of being set to 0 A new communication object is added to change this fan speed at runtime FCx Fan Speed when Valve Closed Cooling gt Fan Speed from 0 to 100 20 by default http www zennio com Technical Support http zennioenglish zendesk com 19 eno MAXinBOXFCO0 10V FAN 2 6 LOGIC FUNCTIONS MAXinBOX FC 0 10V FAN allows enabling and fully customising up to ten different logic functions with their corresponding input objects whose size can be 1 bit 1 byte 2 bytes or 4 bytes Please refer to the specific manual Logic Functions in MAXinBOX FC 0 10V FAN available at the Zennio homepage www zennio com for detailed informatio
Download Pdf Manuals
Related Search