MAXinBOX 66
Contents
1. Cyclical Monitoring Period sets every how much time at most the alarm object should be updated from the bus after an initial reception has already taken place If exceeded and for safety reasons the alarm action will be triggered as well If this parameter is set to zero default option the cyclical monitoring function will remain disabled Permitted values are 5 to 600 tenths of a second 1 to 3600 seconds 1 to 1440 minutes and 1 to 24 hours http www zennio com Technical Support http zennioenglish zendesk com 30 Zennio MAXinBOX 66 d Action No Change default Off On or Flashing Selecting the latter brings some more parameters gt ON Duration OFF Duration and Number of Repetitions all of them are analogous to those in the Flashing function within Timers see preceding parameters d Deactivation Mode Normal default or Frozen Acknowledgement Needed The second option enables a new 1 bit object Ox Unfreeze Alarm which should be used for externally unfreezing the alarm once Ox Alarm has received the no alarm value i e the inverse of the trigger value Note the acknowledgement should be sent necessarily after Ox Alarm has acquired the no alarm value Sending it while the trigger value is still active will have no effect d Deactivation Action sets the state the output should acquire once the alar2. Zennio MAXinBOX 66 Disabled output under the Test On mode short and long presses will cause the same effect for disabled outputs as for individual outputs e the relay will switch its state The lock timer alarm and scene functions will not work while the device is under the Test On mode Status objects will not be sent to the bus either Important the device is factory delivered with all the output channels configured as shutters without slats and with both manual modes Test Off and Test On enabled ETS PARAMETERISATION The Manual Control is configured from the Configuration tab itself under Outputs GENERAL wr nba Channel A Disabled e 4 OUTPUTS e A CONFIGURATION Channel E Disabled Channel Disabled arial Conta AAA re n Lock Manual Control Figure 24 Manual Control The only two parameters are e 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 both modes Note that as stated before using the Test Off mode does not require any special action while switching to the Test On mode does require long pressing the Prog Test button d Lock Manual Control unless the above parameter has been Disabled the Lock Manual Control parameter provides an optional
3. Zennio Passion for KNX innovation ha Aa Es TEE SES x a Y At ee ceceeeGe INPU ba e ALTAS Tw wm l A ms SH E 3 X 3 TE 1e Seet J J Zza Ch ASS co ER Xi Son lt PROG TEST 33 ge vi Ai Je ki e o J mi a a 39 e I Bi B sl Na Y pe EN y MAXinBOX 66 Multifunction Actuator with 6 Outputs and 6 Inputs ZN110 MB66 Application program version 1 1 User manual edition 1 1 _a lt gt zZ sl CC LU Ga D www zennio com Zennio MAXinBOX 66 CONTENTS COMO 2 t_ Id teeter seen rennet en et er ee eee 4 LL MAXDBOX Ocampo aaa 4 i dll 5 LS StortUpandPower LOS Sion 6 NS ale ee 7 2 1 General 7 ETS Palaver Salon ae asia 7 2 MP 8 ES Parameter iSatlon seso 8 2AL PP e 9 ETS Parameterisation a 12 222 Temperature Probe na 18 ES Para meters ao e ninni 18 Z 2 5 ege CC EE 21 SS O E EE 22 ES Para need ici 22 Za IRAN DUDES sa 23 ETS ParameterS e e EE 26 2 3 2 Shutter ena a gc ene o 32 JA nn eee 34 23 3 Manual CONGCON aaa 42 http www zennio com Technical Support http zennioenglish zendesk com 2 Zennio MAXinBOX 66 ES ParametenS O Miura 44 2 4 LOBIC ue de Saa 46 25 Ce e Saca 47 2 MIL 48 ETS aS OU NS cA ON oo 48 ANNE le Ola Vile atl 0 CCS spas 51 http www zennio com Technical Support http zennioenglish zendesk com 3 Zennio MAXinBOX 66 1 INTRODUCTION 1 1 MAXINBOX 66 MAXinBOX 66 from Zennio is a versatil
4. Moreover periodically re sending the last value is possible by configuring the desired period Security checks can optionally be performed for inputs of the Switch Sensor type as long as an end of line resistor has been connected to the switch sensor The value of such resistor needs to be configured by parameter the available values are 2 2 kQ 2 7 kQ 3 3 KQ 4 7 KQ and 10 kQ as well as whether it has been connected in parallel or serially which depends on the switch sensor type normally open or normally closed gt lf normally open the line will remain at a low voltage level in the absence of the undesired condition The occurrence of that situation however will cause a rising edge the switch sensor gets closed This type of sensor requires connecting the end of line resistor in parallel gt On the other hand if normally closed the line remains at a high voltage level until the occurrence of the undesired situation which will cause a falling edge the switch sensor will open This requires connecting the end of line resistor in series By means of this resistor it will be possible to distinguish not only the two states of the switch sensor but also additional unexpected voltage levels e g short circuits and open circuits due to a breakdown or a sabotage which will be reported to the bus through alarm objects Figure 4 Left normally open Sensor parallel resistor Right Normally Closed Sensor serial
5. 0 1 DEI Functionx Resutt 1bit Boolean A 5 CIR qm A i A Function x Result EE AOS E ESE Y a O j A I I O A I I http www zennio com Technical Support http zennioenglish zendesk com 60 Zennlo Passion for KNX 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 og KNX CE RoHS
6. 23 Zennio MAXinBOX 66 e With Multiplication o Ifthe On delay count is already running and the value 1 is received several times through the OX Timer object then LE ven A7 the effective delay time will be n times the parameterised time being n the number of times the value 1 is received five times at most further receptions will be ignored until the next trigger of the simple timer function o While the On Duration time is counting after the switch on of the output if one 1 is received several times then the effective duration will be n times the parameterised time being n the number of times the value is received as above five at most o If the Off delay count is already running and the value 0 is received several times then the effective delay time will be n times the parameterised time being n the number of times the value 0 is received as above five at most Note the Multiplication option is useful under parameterisations with no ON OFF delays Nevertheless as already explained and as the following example shows these delay times do also admit multiplication The example shows how the multiplication works assuming On and Off delays of 3 seconds and an On duration of 5 seconds 0 and 1 represent the arrivals of the values 0 and 1 through OX Timer Figure 8 No multiplication left
7. PI Control Continuous 29 59 89 DPT_Switch loa ITX Control Variable Cool http www zennio com Technical Support http zennioenglish zendesk com 52 Zennio MAXinBOX 66 tig 1Bt S CTR DPT Switch ot rxI Control Variable Cool 30 60 90 DPT_Switch i o1 TX Control Variable Heat 2 Point Control le DPT_Switch___ ____o1_ ET Control Variable Heat PI Control PWM 32 62 92 DE Eri 33 63 93 SH PI signal 0 1 PI signal greater EI e F Ee Ee 34 64 94 o PI signal 0 1 PI signal greate 125 129 139 137 2 Bytes CTR DPT_Value_Temp 273 00 670760 00 Ix Current Temperature Temperature sensor value 141 145 126 130 134 138 1 Bit S CTR DPT_Alarm 0 1 Ix Overcooling O No Alarm 1 Alarm 142 146 ren E ab 155 1359 1 Bit S CTR DPT_Alarm 0 1 Ix Overheating O No Alarm 1 Alarm 143 147 128 132 136 140 1 Bit S CTR DPT_Alarm 0 1 Ix Probe Error O No Alarm 1 Alarm 144 148 1 Byte E C W DPT_SceneControl 0 63 128 191 Motion Sensor Scene Input Scene Value 1 Byte CT DPT Scenecontrol 0 63 128 191 MotionSensor Scene Output ISA 199 223 1 Byte S CTR DPT_Scaling 0 100 Ix Luminosity 0 100 247 271 152 176 200 224 1 Bit S CTR DPT_Alarm 0 1 Ix Open Circuit Error O No Error 1 Open Circuit Error 248 272 153 177 201 225 1 Bit S CTR DPT_Alarm Ix
8. Short Circuit Error O No Error 1 Short Circuit Error 249 273 154 178 250 274 155 179 ns 203 227 1Byte S CTR DPT_HVACMode y 251 275 Economy ae i 4 Building Protection http www zennio com Technical Support http zennioenglish zendesk com 53 Ix Presence State HVAC Auto Comfort Standby Economy Building Protection Zennio MAXinBOX 66 156 180 eat see Ct a Ts Tia A 7 204 228 252 278 AE DPT DPT Trigger a Presence Slave Output 1 Motion Detected 157 181 205 229 1 Bit DPT_Trigger Ix Presence Trigger Binary Value to Trigger the Presence Detection 253 279 158 182 a 206 230 1 Bit DPT_Trigger Ix Presence Slave Input p Nothing 1 Detection from slave evice 254 280 159 183 3 207 231 1 Bit DPT oer taser Ix External Motion Detection Nothing d Motion detected Dyan 255 281 ead sensor 160 165 170 184 189 194 208 213 218 232 1 Byte S CTR DPT_Scaling 0 100 Ix Cy Detection State Scaling 0 100 237 242 256 261 266 280 285 290 161 166 171 185 209 214 E Aut Comfort Standb E f Standby uto omfort andby conomy a A 1Byte S CTR DPT_HVACMode 3 Economy Ix Cy Detection State HVAC Building Protection AS A 4 Building Protection 267 281 286 291 167 186 196 215 220 234 1 Bit S CTR DPT_Switch Ix Cy Detection State Binary Binary Value 239 244 258 263 268 282 287
9. alarm orders during the lock state will not d Lock Action permits switching the output to a particular state ON OFF No Change upon the reception of the value 1 through a specific lock object one per output d Shutdown Action brings the option to set the output to a particular state ON OFF No Change during the switch off of the actuator e g on a bus power loss d Start up configuration brings the option to set the output to a particular state at the start up of the actuator gt Default configuration off after an ETS download and unchanged after a bus power failure gt Custom configuration Off On Last after either an ETS download or a http www zennio com Technical Support http zennioenglish zendesk com 25 Zennio MAXinBOX 66 bus power failure last will be off on the very first start up The status object can also be sent to the bus with a customisable delay ETS PARAMETERISATION Channel A Individual Outputs e Output 1 E Output 2 E Figure 9 Enabling each Output Separately When a channel has been configured as Individual Outputs two checkboxes will be unhidden for enabling or disabling independently the two relay outputs that constitute the channel GENERAL gt Typ Normally Open e 4 OUTPUTS Normally Open e CONFIGURATION im P GE Scenes E Configuration Alarms O Lock Action No Change Shutdown Action No Change Start U
10. and Multiplication right http www zennio com Technical Support http zennioenglish zendesk com 24 Zennio MAXinBOX 66 d Scenes allows running a switch on or a switch off of the output on the reception of a scene object d Alarms allows changing the state of the output on the reception of an alarm trigger from the KNX bus It is possible to configure the state the output will be switched to both on the alarm activation and on the alarm deactivation Cyclically monitoring the alarm trigger is also possible by defining a certain time period The actuator will check that the alarm or no alarm state is received at least once before the period expires note this check doesn t take place unless the object has been received at least once In case the object stops being refreshed i e the actuator does not receive an updated value anymore the alarm action will be performed as well for safety reasons Regarding the deactivation of the alarm it is also possible to configure a simple deactivation or an acknowledgement demanding deactivation The first case triggers the deactivation action as soon as the alarm object recovers its normal value The second one on the other hand requires that an external acknowledgement through another object is received after the alarm object has recovered its normal value Note alarms always prevail over any other function e g lock orders during the alarm state will be ignored
11. 1 Ox Warning Time Status O Normal 1 Warning 381 389 390 396 402 408 1 Bit DPT_Switch Ix Input Lock 1 Locked 0 Unlocked 414 420 p ipit CT petswith oan w px fShortPressJo______________ SendingofO a ae eso anni p ipit e CT W DPT Swith ot w w i Short Press 0 1 Switching Switching o t dos ago tBit et DPT uppown on w w Ui short Press Move Up Shutter___ Sending of Up 415 421 1Bit CT DPTUPDown__ O t w W iP Short Press Move Down Shutter Sending of 1 Down LIDL crT DPT uppown Ion w w tx Short Press Move Up Down Shutter Switching 0 1 Up Down ibit Iert DPTStp o1 w w ix Short Press Stop Step Up Shutter_ Sending of 0 Stop Step up Bit cT DPTStp on w w vi short Press Stop Step Down Sending of 1 Stop Step down http www zennio com Technical Support http zennioenglish zendesk com 56 Zennio MAXinBOX 66 Shutter 0x0 Stop 0x1 Dec by 100 0x2 Dec by 50 0x3 Dec by 25 0x4 Dec by 12 0x5 Dec by 6 0x6 Dec by 3 O 4 Bit CT DPI Control Dimming 2 Si Ix Short Press Brighter Increase Brightness 0x9 Inc by 100 OxA Inc by 50 OxB Inc by 25 OxC Inc by 12 OxD Inc by 6 OxE Inc by 3 OxF Inc by 1 0x0 Stop 0x1 Dec by 100 O 4 Bit CT DPT_Control_Dimming RE o Ix
12. 100 wo w a Short Press Dimming Status input 0 100 a EEN DPT_Switch 201 W w tx Long Press 0 Sending of 0 pit Let DPT_Switch oa w w tx Long Press 1 Sending of 1 1Bit E CT W DPT_Switch 01 w W tx Long Press 0 1 Switching Switching 0 1 1 Bit Tess 1 Bit mE 4 Bit C 3937599 405 411 417 423 4 Bit O O I I I I I I I I I http www zennio com p ipit et DPTUpDow oi w w i Long Press Move Up Shutter sendingofo u _iBit Iert DPTUPDow ____01 w w Ui Long Press Move Down Shutter _ Sending of 1 Down iBit cT DPTUPDow o1 w w ix Long Press Move Up Down Shutter Switching 0 1 Up Down _tBit_ et DPT Step 1 w w i Long Press Stop Step Up Shutter__ Sending of 0 Stop Step up DPT_Step DI w Iw n Long Press Stop Step Down Shutter Sending of 1 Stop Step down see CT EE DPT_Control_Dimming DPT_Control_Dimming 0x0 Stop Ox1 Dec by 100 0x2 Dec by 50 0x3 Dec by 25 0x4 Dec by 12 0x5 Dec by 6 0x6 Dec by 3 0x7 Dec by 1 0x8 Stop 0x9 Inc by 100 OxA Inc by 50 OxB Inc by 25 OxC Inc by 12 OxD Inc by 6 OxE Inc by 3 OxF Inc by 1 0x0 Stop 0x1 Dec by 100 0x7 Dec by 1 0x8 Stop 0x9 Inc by 100 ui Press Stop Step Shutters witching Osea dam Ix Long P
13. 102 E El E E Le 13 43 73 BR ve e PERSCH e 2 Standby 3 Economy LEI LEI Tx Special Mode economy Nothing 1 Trigger Ae Trigger Tx Window Status input O Closed 1 Open Tx Comfort Prolongation O Nothing 1 Timed Comfort EW c W C W EW C W DPT_Switch 1 Comfort Tx Special Mode Status 15 At 79 4 Byte CTR DPT_HVACMode 4 Building Protection 16 46 76 2 Bytes E CW DPT_Value_Temp 273 00 670760 00 Lo Tx Setpoint Thermostat Setpoint Input 106 2 Bytes E C W DPT_Value_Temp 273 00 670760 00 Tx Basic Setpoint Reference Setpoint 18 48 78 670760 00 2 Bytes le fo w DPT_Value_Tempd 670760 00 ENER Tx Setpoint Offset Float Offset Value 12 SC Teh 2 Bytes DPT_Value_Temp 273 00 670760 00 aM ul Tx Setpoint Status Current Setpoint 20 50 80 110 2 Bytes S CTR DPT_Value_Temp 273 00 670760 00 d Tx Basic Setpoint Status Current Basic Setpoint 21 51 81 S 670760 00 2 Bytes DPT_Value_Tempd 670760 00 ew fvw Tx Setpoint Offset Status Current Setpoint Offset 22 52 82 i pi Ele owl oT Reset ul 1 eo setpoint Reset ResstSetpomioDelt 112 rane SS ee 26 56 86 Tre 116 1Bit S CTR DPT_Switch 0 1 v vV Tx On Off Status 0 Off 1 On 27 97 87 i 1 Byte DPT_Scaling 0 100 GG Tx Control Variable Cool PI Control Continuous SC Sp 55 Byte DPT_Scaling 0 100 Oo Tx Control Variable Heat
14. 292 163 168 E DPT_Switch Ix Cy Channel Lock According to parameters 173 187 192 197 1 Bit http www zennio com Technical Support http zennioenglish zendesk com 54 211 216 221 235 Zennio MAXinBOX 66 164 169 174 188 193 198 212 217 222 236 1 Bit DPT_Switch Ix Cy Force State O No Detection 1 Detection 241 246 260 265 270 284 289 294 Le DEI 240 245 259 264 269 283 288 293 ses 1 Byte DPT_ DPT_SceneControl 0 63 128 191 63 128 191 Shutter Scenes E See ee ate eee eee ee 297 312 CERTE DPT_Step gt ca Stop Step En t Stop StepDown 1 Stop StepDown 327 C W DPT Trigger Co Stop O Stop 1 Stop OC on E NT Gent 299 314 na 1 Byte DPT_Scaling 0 100 w v w vic Shutter Position Status 0 Top 100 Botton Ee ai 1 Byte e DPT_Scaling 0 100 wo y w v ea Slats Position Status 0 0pen 100 Closed SS n tinni 0 0 331 1 Byte DPT_Scaling 0 100 Ca Shutter Positioning 0 Top 100 Bottom 302 317 KH 1 Byte DESCH DPT_Scaling 0 100 NO Slats Positioning 0 0pen 100 Closed 303 318 ABE ELE A f cajAlam____________ 0 NOAlarm t Alarm____ 333 1st e c w braam ov 1 ical Alarm Alarm ich Alarm o 304 319 i Pi EJE Aam E Li i licstammo _ o nomammicilam __ 334 EGF S rr Heem _ A 306 321 1 Bi E h pai h 336 it E DPT_UpDown 0 1 Ca Move R
15. 412 1 Bit 418 424 E W W Y O d ct let ct 395 401 1Byte E C W DPT_Scaling 0 100 50 W Ww Ix Long Press Dimming Status input 0 100 ge ES 1 Byt E c w DPT_Scaling 0 100 50 W w fa Long Press Shutter Status input 0 Top 100 Bottom 426 1Bit E C W DPT_Trigger aa ML Trigger Trigger the Master Light Function 1Bit E C w DPT_Switch ot MH Status Object 1 Binary Status 428 1Bit Ejc w DPT_Switch ot ut Status Object 2 Binary Status 429 1Bit E c w DPT_Switch aa mustatusobject3 Binary Status 430 ist E c w DPT_Switch 01 muy Status Object 4 Binary Status 431 1Bit E c w DPT_Switch DI mustatusobject5 Binary Status L 432 ist E c w DPT_Switch 001 MH Status Object 6 Binary Status 433 1Bit E C W DPT_Switch DI ut Status Object 7 Binary Status 434 ibt E c w DPT_Switch 01 mt Status Object 8 Binary Status 435 1Bit Ejc w DPT_Switch ot f muyStatusobjectg Binary Status http www zennio com Technical Support http zennioenglish zendesk com p 59 LF Function x Result 2 bytes Unsigned 2 Bytes DPT_Value_2_Ucount 0 65535 2147483648 519 528 4 Bytes DPT_Value_4 Count 2147483647 1Byte S DPT_Scaling 0 100 2 Bytes DPT_Value_2_Count 32768 32767 2 Bytes DPT_Value_Temp 273 00 670760 00 LF Funct
16. Short Press Darker Decrease Brightness 0x9 Inc by 100 OxF Inc by 1 0x0 Stop 0x1 Dec by 100 o 4 Bit CT DPT_Control_Dimming REN 19 Ix Short Press Brighter Darker Switch Bright Dark 0x9 Inc by 100 OxF Inc by 1 Lt CT DPT_Switch pt w w x Short Press Dimmer ON Sending of 1 ON ist cT ppriswitch o1 w w n Short Press Dimmer OFF Sending of 0 OFF DPT_Switch ot w w iD Short Press Dimmer ON OFF Switching 0 1 1 Byte ETs DPT_SceneControl 0 63 128 191 w w lx Short Press Run Scene Sending of 0 63 1 SIAE cT DPT_SceneControl 0 63 T 191 AA EE E Ix Short Press Save Scene Sending of 128 191 LB E S C TRW DPT_Switch w wf i Ix Switch Sensor Edge Sending of 0 or 1 1 Byte CT DPT Value 1 Ucount 0 255 Pe obore Pressi Constant Valeo sgp Integer http www zennio com Technical Support http zennioenglish zendesk com 57 Zennio MAXinBOX 66 2 Bytes ME DPT_Value_2 Ucount O 65535 pew w Her Pressi Constant Vady 5535 1 Byte Orea DPT_Scaling 0 100 Lix ER Pressi Constant Seegen Percentage 671088 64 2Bytes et s onoo Ix Short Press Constant Value float Float value 392 296 1 En DES DPT_Scaling 0 100 w w i Ix Short Press Shutter Status input 0 Top 100 Bottom 404 410 416 422 1 1 Byte D DPT_Scaling 0
17. alarm has been triggered the no alarm will not be sent until the current temperature is lower than that T minus the hysteresis After that if the current temperature reaches T again the alarm will be re sent gt Overcooling overcooling protection is required Two extra parameters analogous to the above two will come up e Overcooling Temp minimum temperature permitted in the range 30 to 125 C Temperature readings lower than this will be considered overcool and therefore a 1 will be periodically sent through object lx Overcool After the overcool is over a 0 will be sent once e Hysteresis dead band or threshold in the range 1 to 200 tenths of a degree the default is 20 tenths of a degree around the overcooling temperature As for the overheat once the alarm has been triggered the no alarm will not be sent until the current temperature is greater http www zennio com Technical Support http zennioenglish zendesk com 19 Zennio MAXinBOX 66 than T plus the hysteresis After that if the current temperature reaches T again the alarm will be re sent gt Overheating and Overcooling both overheating and overcooling protection are required The following three parameters will come up e Overheating Temp e Overcooling Temp e Hysteresis The three of them are analogous to those already explained separately Technical Support http zennioenglish zendesk com http www zenn
18. procedure for locking the manual control in runtime When this checkbox is enabled object Manual Control Lock turns visible as well as two more parameters http www zennio com Technical Support http zennioenglish zendesk com 44 Zennio MAXinBOX 66 gt Value defines whether the manual control lock unlock 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 Last Value default on the very first start up this will be Unlocked http www zennio com Technical Support http zennioenglish zendesk com 45 Zennio MAXinBOX 66 2 4 LOGIC FUNCTIONS This module makes it possible to perform numeric and binary operations to incoming values received from the KNX bus and to send the results through other communication objects specifically enabled for this purpose MAXinBOX 66 can implement up to 10 different and independent functions each of them entirely customisable and consisting in up to 5 consecutive operations each The execution of each function can depend on a configurable condition which will be evaluated every time the function is triggered through specific parameterisable communication objects The result after executing the operations of the func
19. resistor http www zennio com Technical Support http zennioenglish zendesk com 10 Zennio MAXinBOX 66 2 2 1 3 LOCKING A BINARY INPUT It is possible to lock unlock each input independently by writing to the proper objects While an input remains locked the application will ignore further switches that may take place on the line however the periodical sending of values if parameterised will not be interrupted the last value will still be re sent even if the input switches the state On the other hand when the unlock event occurs d Push Button a fresh evaluation of the current state high low of the line will be performed as well as the corresponding action d Switch Sensor if specifically enabled in ETS the current state of the line will be compared to that prior to the lock event If they are different it can be assumed that an edge rising or falling has taken place while the input remained locked and therefore the associated action will be triggered 2 2 1 4 INITIAL STATES Finally regarding the initial states it is important to keep in mind the following d The lock state is maintained after a bus power failure However a download from ETS sets every input to unlocked e On switches sensors with security checks the alarm conditions are evaluated at the start up of the device and the alarm objects updated when required d The periodical sending of values if configured in ETS wil
20. 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 depending on whether the output is configured as an individual output or as a shutter channel Individual output a simple press short or long will make the output switch its on off state which will be reported to the KNX bus through the http www zennio com Technical Support http zennioenglish zendesk com 42 Zennio MAXinBOX 66 corresponding status object if enabled d Shutter Channel when the button is pressed the device will act over the output according to the length of the button press and to the current state gt A long press makes the shutter start moving upwards or downwards depending on the button being pressed The LED will light in green until the end of the motion If the button gets pressed being the shutter already at the top or bottom positions nothing will happen the LED will not light gt A short press will make the shutter drive stop if in motion as it normally does when a step stop order is received from the KNX bus In case
21. to be considered as long These actions can consist in sending the KNX bus a binary value 0 1 or an alternating value a shutter control order a dimmer control order a scene run save order or a constant numeric value a 1 byte integer a percentage value a 2 byte integer or a 2 byte floating point A certain delay before sending the value to the bus can be configured in some cases In the case of the binary values a periodical re sending can be also configured which may be useful if intending to link such value to an alarm monitor or similar 2 2 1 2 SWITCH SENSOR Binary values configurable will be sent to the bus whenever rising or falling edges are detected in the input line In this case it is the fact of switching from one state to the other one what matters and not whether it is for a longer or shorter time A simple example would be a sensor that commutes between two states depending on certain physical conditions light floods weight being one of which undesired The usual http www zennio com Technical Support http zennioenglish zendesk com 9 Zennio MAXinBOX 66 behaviour is that a certain binary value is sent to the KNX bus whenever the switch sensor commutes from one state to the other one It is possible to introduce a certain delay prior to sending these values to the KNX bus a delay for the 0 and a delay for the 1 no matter which one is sent after which edge rising falling
22. Figure 14 Individual outputs Scenes Up to five scenes can be configured The number of scenes must be entered into Number of Active Scenes CU by default http www zennio com Technical Support http zennioenglish zendesk com 29 Zennio MAXinBOX 66 Note after typing the value it is necessary to move the user focus to another part of the window in order to have it refreshed with the required parameters Depending on the above number the following two parameters will be shown multiple times one per scene d Scene Number sets the desired scene number so that when that value is received decreased by one according to the KNX standard through Outputs Scenes the action configured below will be triggered d Action Off default or On depending on the state the output should acquire when the scene is triggered Alarms Tab GENERAL 4 OUTPUTS ES gl GEN Cyclical Monitoring Period 0 So oani 0 Disabled Configuration Alarm min F Action No Change DEACTIVATION Mode Normal e Action No Change Figure 15 Individual Outputs Alarms The specific Alarm configuration screen contains the following parameters d Trigger sets the value 0 default or 1 that when received from the KNX bus through object Ox Alarm will be interpreted by the actuator as an alarm trigger and will therefore initiate the action configured below
23. S Ge CONFIGURATION d Shutter Channel A Configuration SHUTTER CONTROL Functions uta E Raise Time 150 de Lower Time 150 ds Reversion Pause Time 5 x100 ms Additional Time 0 ds Figure 18 Shutter Channel Configuration This screen contains the following parameters e Target to Control defines the shutter channel as Shutter No Slats Awning default or Blinds With Slats d Raise Time total time the shutter needs to move to the top position 0 from the bottom position 100 The allowed range is 5 to 30 000 seconds d Lower Time total time the shutter needs for the inverse journey 0 to 100 The allowed range is 5 to 30 000 seconds d Reversion Pause Time sets the time 5 to 255 hundred milliseconds the actuator will wait if it was already in motion and an order to switch the direction arrives d Additional Time sets an end of stroke time 0 to 255 tenths of a second by default 0 in order to guarantee the shutter gets to the top or to the bottom In case of configuring the shutter as Blinds With Slats other parameters show up d Spin Around Time total time the slats take for the entire travel between totally open 0 with the light passing through and totally closed 100 Valid values are 1 to 255 tenths of a second Step Time length of the pulse to be sent to the drive when an up down step order is received Valid values are 1 to 255 h
24. ailable d Long Press Time sets the minimum time 1 to 50 tenths of a second the user press should last before it is considered a long press e Short Press Action defines the action to be triggered when a short press is detected The available actions are gt Nothing gt Sending of 0 1 e Response sets whether to send through object Ix Short Press B a value B which can be 0 1 or an alternation of 1 and 0 e Delay sets a delay between the detection of the button press and the http www zennio com Technical Support http zennioenglish zendesk com 12 Zennio MAXinBOX 66 actual sending of the response The delay must be set in seconds 0 255 minutes 0 255 or hours 0 18 Periodical Response Sending sets whether to re send the response values periodically or not The options are Always Only for 0 Only for 1 and No default The cycle time must be set in seconds 0 255 minutes 0 255 or hours 0 18 gt Shutter Control Response sets the particular order to be sent to the shutter actuator The options are o Up one 0 will be sent through In Short Press Move Up Shutter o Down one 1 will be sent through In Short Press Move Down Shutter o Up Down switched values 1 and O will be sent alternatively through lIxX Short Press Move Up Down Shutter In th
25. ate position The latter permits independently configuring a position for the shutter itself for the slats or for both Alarms activates or deactivates the Alarms function which should be configured from a specific parameter screen GENERAL ALARM 1 OUTPUTS _ a Shutter Channel A Trigger 1 lo Configuration GC Fintan Cyclical Monitoring Period 0 0 Disabled Alarms min e Action Stop ALARM 2 El DEACTIVATION Mode Normal e Action Current Position Figure 21 Shutter Channel Alarms While the parameters of alarm no 1 are shown by default those of alarm no 2 are only shown after marking the corresponding checkbox gt Trigger sets the value 1 default or 0 that when received from the KNX bus through object Cx Alarm or Cx Alarm 2 for alarm no 2 will be interpreted by the actuator as an alarm trigger and will therefore initiate the action configured below gt Cyclical Monitoring Period sets every how much time at most the alarm object should be updated from the bus after an initial reception has already taken place if exceeded and for safety reasons the alarm action will be triggered as well If this parameter is set to zero default option the cyclical monitoring function will remain disabled Permitted values are 5 to 600 tenths of a second 1 to 3600 seconds 1 to 1440 minutes and 1 to 24 hours http www zenni
26. crease the light level by a certain percentage which needs to be configured through parameter Dimming Step On the other hand on every odd press an order to stop the dimming will be sent The sequence is therefore Brighter gt Stop gt Brighter gt Stop gt etc o Darker analogous to the previous one but for decreasing the light level o Brighter Darker switched analogous to the above two although the dimming orders will be in this case increase decrease orders alternatively The sequence will be therefore Brighter gt Stop gt Darker gt Stop gt Brighter gt etc These orders will be sent through object lx Short Press Brighter Darker In this case there will be an additional writable object Ix Short Press Dimming Status input that may be linked to the dimming status object from the dimmer in order to receive feedback about the current light level This will avoid increase orders if the current level is 100 or decrease orders if it is already 0 Delay similar as for Sending of 0 1 gt Sending of a Scene http www zennio com Response sets the particular order to be sent to the bus The options are Run Scene an order to run a specific scene will be sent through Til Short Press Run Scene and Save Scene an order to save the current state as a specific scene will be sent through lx Short Press Save Scene Technical Support http
27. ct Positioning function which should be configured from a specific parameter screen ii POSITIONING 1 4 OUTPUTS CONFIGURATION Shutter Position 0 4 Shutter Channel A Configuration Slats Position 0 Ki Functions Direct Positioning POSITIONING 2 Save New Positions No m Figure 22 Shutter Channel Direct Positioning http www zennio com Technical Support http zennioenglish zendesk com 39 Zennio MAXinBOX 66 While the parameters of direct positioning no 1 are shown by default those of no 2 are only shown after marking the corresponding checkbox These parameters are gt Shutter Position sets the position in terms of percentage the shutter will move to when one 1 is received through Cx Direct Positioning or through Cx Direct Positioning 2 for no 2 gt Slats Position only for shutter channels with slats analogous to the above parameter but for the slats With independence of the number of direct positioning functions enabled one or two the following parameter will also be shown gt Save New Positions if enabled one new 1 bit object or two if Direct Positioning no 2 is also enabled will be added to the project topology Cx Direct Positioning Save and Cx Direct Positioning 2 Save for no 2 When it receives one 1 from the KNX bus the associated direct position will be overwritten with the current position of
28. cts enables or disables two 1 byte objects Cx Shutter Positioning and Cx Slats Positioning that will accept precise position orders in terms of percentage from the KNX bus for the shutter and the slats respectively d Scenes activates or deactivates the Scenes function which should be configured from a specific parameter screen GENERAL OUTPUTS Number of Active Scenes 1 re d Shutter Channel A Configuration eee Scene Number 0 Scenes 0 Disabled Action Up 8 Figure 20 Shutter Channel Scenes Up to five scenes can be configured The number of scenes must be entered into Number of Active Scenes 0 by default Note after typing the value it is necessary to move the user focus to another part of the window in order to have it refreshed with the required parameters Depending on the above number the following two parameters may become visible multiple times one per scene gt Scene Number sets the desired scene number so that when that value is received decreased by one according to the KNX standard through Shutter Scenes the action configured below will be triggered http www zennio com Technical Support http zennioenglish zendesk com 37 Zennio MAXinBOX 66 gt Action Up default Down or Specific Position respectively depending on whether the shutter should move to the top position to the bottom position or to an intermedi
29. e KNX actuator featuring a wide variety of functions 6 relay outputs configurable as gt Up to 3 independent shutter channels with or without slats gt Up to 6 individual ON OFF outputs gt Acombination of the above 6 multi purpose inputs configurable as gt Temperature probes gt Binary inputs i e pushbuttons switches sensors gt Motion detectors 10 customisable multi operation logic functions 4 independent thermostats Master light control for an easy out of the box control of a set of luminaires or functionally equivalent devices one of which acts as a general lamp and the others as secondary lamps d Manual operation supervision of the 6 relay outputs through the on board pushbuttons and LEDs http www zennio com Technical Support http zennioenglish zendesk com 4 Zennio MAXinBOX 66 1 2 INSTALLATION MAXinBOX 66 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 Analogue Digital Inputs Upper Outputs Output LED Indicator Manual Control Pushbutton Test Prog LED Lower Outputs KNX Bus Connector Test Prog Pushbutton eS Ae ee Se N A Figure 1 MAXinBOX 66 Elements The main eleme
30. ending of 1 analogous to the above one but for the value 1 Delay gt Sending of 0 sets a certain delay 0 to 255 seconds 0 to 255 minutes or 0 to 18 hours before sending the value 0 once the corresponding edge has been detected For an immediate sending just leave this at 0 gt Sending of 1 analogous to the above one but for the value 1 d Evaluate the Input State after Unlock or Reset sets whether the state of the input line should be evaluated or not whenever it gets unlocked through object lx Input Lock or when the device recovers from a power loss so this new http www zennio com Technical Support http zennioenglish zendesk com 16 Zennio MAXinBOX 66 state can be compared to the last known making the device trigger the proper response in case the two are different d Sending Status 0 and 1 on Bus Voltage Recovery sets if the status of the line e the corresponding action should always be sent to the bus when the device recovers from a power loss even if the status is the same as before the power loss http www zennio com Technical Support http zennioenglish zendesk com 17 Zennio MAXinBOX 66 2 2 2 TEMPERATURE PROBE Connecting a temperature probe such as models ZN1AC NTC68 S E F from Zennio to one of the inputs will make it possible to take temperature measurements and monitor them in MAXinBOX 66 which will be able to send tho
31. eversed O Lower Shutter 1 Raise Shutter 307 322 CINE NE Sa 308 323 SEN 8 RENE Ga 338 1 Bit E DPT_Trigger 0 1 Ca Direct Positioning 2 O No Action 1 Go to Position http www zennio com Technical Support http zennioenglish zendesk com 55 Zennio MAXinBOX 66 ee sit e fc w DPT_Trigger a es ee fc Direct Positioning Save O No Action 1 Save Current Position 3107325 sii o 340 1 Bit E DPT_Trigger 0 1 Ca Direct Positioning 2 Save O No Action 1 Save Current Position NES 1 Byte le fo w DPT_SceneControl 0 63 128 191 E Scenes w a ie e 342 350 EOI DPT_BinaryValue loa omar Ox On Off N O Tree metere Open Relay 1 Close Relay 358 366 374 382 DPT DPT BinaryValue fox omot On Off N C N C 0 Close Relay 1 Open Relay Close Relay 1 Open Relay 343 351 359 367 1 Bit CTR DPT_BinaryValue V Ox On Off Status O Output Off 1 Output On 375 383 344 352 360 368 1 Bit E DPT_Enable 0 1 Ox Lock O Unlock 1 Lock 376 384 345 353 361 369 1 Bit E DPT_Start 0 1 Ox Timer 0 Switch Off 1 Switch On 377 385 346 354 362 370 1 Bit DPT_Start Ox Flashing O Stop 1 Start 378 386 347 355 sc aa DPT_Alarm eee Ox Alarm Ee 1 Alarm 363 371 379 387 DPT DO DPT Alarm RA Alarm 0 O Alarm 1 Normal 1 Normal 348 356 364 372 1 Bit DPT_Trigger Ox Unfreeze Alarm Alarm 0 Unfreeze 1 gt End Alarm 380 388 349 357 365 373 1 Bit S CTR DPT_Trigger 0
32. igger oi Tom ow 2 18t et DPT Trigger oi 1w iw gt La e c w DPT swith ovi E RES _tBit E c w DPT swith ovi III WEE 5 35 65 95 2 Bytes E C W DPT Value Temp 273 00 670760 00 25 00 E WE Name Function ResetO Voltage Recovery gt Sending of 0 P W Jess VoltageRecovery gt Sendingof1_ Manual Control Lock o tLock 1 Unlock Manual Control Lock O Unlock 1 Lock 4 tByte E c w DPT_SceneControl_ 0 63 128 191 _ Thermostat Scene Input Beene Vale _ Tx Temperature Source 1_________ External Sensor Temperature 6 36 66 96 2 Bytes E C W DPT Value Temp _ 273 00 670760 00 25 00 _ mx Temperature Source 3 External Sensor Temperature 7 37 67 97 2 Bytes S CTR DPT Value Temp 273 00 670760 00 K 1 Comfort 8 38 68 98 1Byte E DPT_HVACMode 2 Standby a 3 Economy 4 Building Protection o 39 60 ol LBE E Cc w DPT Trigger o1 VI Tx Special Mode comfort Nothing 1 Trigger ae ise Elc w DPT switch ot v mxSpecialMode comfort Of A On 10 40 70 1Bit E c w DPT Trigger ot _ vl Special Mode standby Nothing 1 Trigger Tx Effective Temperature Effective Control Temperature Tx Special Mode http www zennio com Technical Support http zennioenglish zendesk com 51 Zennio MAXinBOX 66 E 11 41 71 E 101 E A A ie
33. imer enables or disables the simple timer function i e the execution of a timed switch on or switch off after the reception of one 1 or one 0 through Ox Simple Timer according to the following parameters SIMPLE TIMER d ON Delay 0 0 No Delay s F OFF Delay 0 0 No Delay EA E a ON Duration 0 0 Endless _ Warning Time 0 0 Disabled E d Multiplication P Figure 12 Individual Output Simple Timer gt ON Delay sets whether the on action should be executed immediately 0 default option after receiving one 1 through object Ox Timer or if it should be delayed by a certain time 0 to 600 tenths of a second 0 to 3600 seconds 0 to 1440 minutes 0 to 24 hours gt OFF Delay analogous to the above one but referred only to the switch off order performed when one 0 arrives through Ox Timer gt ON Duration sets how much time the output will remain on once the ON delay time count ends and the output gets actually switched on 0 to 600 tenths of a second 0 to 3600 seconds 0 to 1440 minutes 0 to 24 hours If set to zero the output will not switch off after a certain time gt Warning Time sets an anticipation time 0 to 600 tenths of a second 0 to 3600 seconds O to 1440 minutes O to 24 hours prior to the switch off action so that the output starts intermitting two seconds time to notify that the timer action i
34. io com 20 Zennio MAXinBOX 66 2 2 3 MOTION DETECTOR It is possible to connect motion detectors to the input ports of MAXinBOX 66 This brings the actuator the possibility of monitoring motion and presence in the room as well as the light level Depending on the detection different response actions can be parameterised Please bear in mind that the functionality and configuration of the motion detection function may differ slightly depending on each Zennio device so please refer to the Zennio Motion Detector for MAXinBOX 66 specific user manual available at the Zennio homepage www zennio com for detailed information On the other hand please note that only detectors with references ZN110 DETEC P and ZN110 DETEC X are compatible with MAXinBOX 66 as long as the corresponding micro switch is set to the Type B mode Reading the datasheet of the specific model of the motion detector being connected is highly advisable Note detectors with references ZN1IO DETEC and ZN1IO DETEC N are Type A and therefore may report inexact measurements if connected to MAXinBOX 66 http www zennio com Technical Support http zennioenglish zendesk com 21 Zennio MAXinBOX 66 2 3 OUTPUTS MAXinBOX 66 incorporates 6 relay outputs that allow an independent control of up to 6 different loads or up to 3 shutter drives or equivalent window door automated systems named A B and C Each output can be enabled or disabled by pa
35. ion x Result 4 bytes Signed LF Function x Result 1 byte Percentage LF Function x Result 2 bytes Signed LF Function x Result 2 bytes Float Zennio MAXinBOX 66 436 1Bit E c w DPT Switch 0 1 JMO Status Object 10 Binary Status 437 iBit E c w bptswith 0 1 Vu Status Objectit Binary Status 48 1Bit e c w DPT Switch ot Uu Status opieg 13 fBinaryStatus ____ 439 1Bit CT DPT Switch or JMO General Switch Off Binary Object OffSending 440 1Byte CT DPTScaling 0 100 ML General Switch Off Scaling 0 100 SI 291 i Byte CT DPT Scenecontro 0 63 128 191 ML General Switch Off Scene Scene Sending 1 Comfort M Lion or ne EE ID ee Hvac mode ie Confer Standby Economy 4 Building Protection TENA ib Iert 0 1 Mt Courtesy Switch On Binary Object 444 1Byte CT DPTScaling 0 100 Tu Courtesy Switch On Scaling 445 iByte CT DPT Scenecontrol 0 63 128 191 ML Courtesy Switch On Scene Scene Sending 1 Comfort 3 Economy Building Protection 4 Building Protection 447 478_ 1Bit E c w DPT Bool oy etc bit Data Entry x Binary Data Entry 0 1 479 494 1Byte E C W DPT_Value_1 Ucount 0 255 UW byte Data Entry x 495 510 Gone e c w arras ico ano 2 o 2 bytes Data Entry x 2 bytes Data Entry per Boo
36. is case an additional writable object Ix Short Press Shutter Status input will be available it may be linked to the shutter status object from the shutter actuator to receive feedback about the current state of the shutter This will avoid sending move up orders if the shutter is already at 0 or move down orders if it is already at 100 o Stop Step Up one 0 will be sent through lx Short Press Stop Step Up Shutter o Stop Step Down one 1 will be sent through lx Short Press Stop Step Down Shutter o Stop Switched Step values 1 and 0 will be sent alternatively with every press through lx Short Press Stop Step Shutter switched Delay similar as for Sending of 0 1 gt Dimmer Control http www zennio com Response sets the particular order to be sent to the light dimmer Technical Support http zennioenglish zendesk com 13 Zennio MAXinBOX 66 o Light ON one 1 will be sent through the Ix Short Press Dimmer ON binary object o Light OFF one 0 will be sent through the lx Short Press Dimmer OFF binary object o Light ON OFF switched values 1 and O will be sent alternatively through the Ix Short Press Dimmer ON OFF binary object o Brighter on every even press one 4 bit order will be sent through lx Short Press Brighter to in
37. l be resumed after a power loss e When the device recovers from a power loss the new state of the push buttons will always be re evaluated while that of the switches sensors will be compared the previous one only if configured by parameter similar behaviour as for the lock function d Toggle binary objects 0 1 0 1 are always sent with value 1 on the very first time after a download from ETS This applies to switches sensors configured with action Switching 0 1 http www zennio com Technical Support http zennioenglish zendesk com 11 Zennio MAXinBOX 66 ETS PARAMETERISATION GENERAL d INPUTS CONFIGURATION d Input 1 Binary Input Push button Switch Sensor Configuration Long Press Time 5 E x O15 Hu SHORT PRESS Action No Action e LONG PRESS Action No Action e Figure 5 Binary Input Configuration When an input has been configured as Binary Input the object Ti Input Lock turns visible when it receives a 1 the input will become locked while a 0 will unlock it Apart from that a specific entry will become visible in the menu on the left of the parameters window This entry will itself comprise a tab called Configuration containing the following parameter d Type sets whether the input is a Push button default or a Switch sensor Push Button When Type is set to Push button the following parameters are av
38. l object reacts to a 1 and a 0 respectively raising and lowering the shutter a specific object will be enabled to control it the other way round 1 for lowering and 0 for raising d Direct Positioning permits moving the shutter and the slats if existing to a pre set specific position by means of a 1 bit communication object Two Direct Positioning functions are implemented per shutter channel each with the option of learning new target positions in runtime i e overwriting the one defined by parameter by simply sending one 1 to the specific save object d Start up Configuration brings the option to set the shutter to a particular position during the start up of the actuator gt Default configuration this will leave the shutter as is Please note that on the very first start up after an ETS download the actuator will assume the shutter is fully raised at 0 gt Custom configuration Current Position Up Down Specific Position both after an ETS download and a bus power failure Optionally the status objects can be sent to the bus during after a customisable delay ETS PARAMETERISATION Channel A Shutter Channel e Figure 17 Enabling a Shutter Channel http www zennio com Technical Support http zennioenglish zendesk com 34 Zennio MAXinBOX 66 Configuration tab GENERAL In Se Target to Control Shutter No Slats Awning e 4 OUTPUT
39. lication program itself d ist boot shows the cases where an object is assigned a certain value by the application program after a device download or a full reset In case the value of such assignment can be parameterised V is shown in column P Objects showing a hyphen are not assigned a particular value and therefore can be assumed to be initialised with the value 0 or with the corresponding updated value in case they depend on an external element Sensors etc Moreover if the object is sent or is there an option to send it to the bus write or read requests after a download or a device reset from ETS the marks W or R will be shown respectively for transmissions or read requests Reboot shows the cases where an object is assigned a certain value by the application program after a bus power failure In case the value of such assignment can be parameterised V is shown in column P Objects showing a hyphen are not assigned a particular value and therefore can be assumed to maintain their previous value after the failure or with the corresponding updated value in case they depend on external elements Moreover if the object is sent or is there an option to send it to the bus write or read requests after a bus failure the marks W or R will be shown respectively for transmissions or read requests Number Size Ziel Flags Data type DPT Functional Range 1 Boot P Reboot 1 18t er DPT tr
40. m has been deactivated and acknowledged if required It may be No Change default Off On or Last Before Alarm Start Up Tab GENERAL d OUTPUTS CONFIGURATION Send Initial State d Qutputl Configuration Start Up Initial State Last Before Restart 7 Figure 16 Individual Outputs Start Up Contains the following parameters e Initial State sets the state the output should acquire at the start up of the actuator It can be Last Before Restart default during the very first start up the output will remain off Off or On d Send Initial State sets whether the status object of the output should be sent to the KNX bus in order to update other KNX devices after the start up of the actuator It is possible to impose a delay 0 to 600 tenths of a second 0 to 3600 seconds 0 to 1440 minutes 0 to 24 hours to ensure that this value is sent once the other devices are ready to receive it http www zennio com Technical Support http zennioenglish zendesk com 31 Zennio MAXinBOX 66 2 3 2 SHUTTER CHANNELS Every shutter channel is capable of controlling the motion of one blind in the domotic system by means of two complementary functionalities Basic control simple up down orders Precise position control of the shutter and of the slats if any Each shutter channel A B etc consists of two consecutive relay outputs Le channel A is formed by
41. nt will reset the step time counter e Cx Lock 1 bit object for externally locking 1 or unlocking 0 the shutter When the lock trigger is received the actuator will interrupt any action being performed and will ignore further orders received from the bus until the unlock trigger is received Note lock orders are ignored if the shutter alarm is active although the alarm State itself also implies that the shutter does not respond to external orders Functions tab GENERAL I Show Status Objects OUTPUTS ie A Shutter Chennal A Precise Control Objects Configuration Scenes Functions Alarms Reverse Movement Direct Positioning Start Up Default Figure 19 Shutter Channel Functions http www zennio com Technical Support http zennioenglish zendesk com 36 Zennio MAXinBOX 66 This screen lets the integrator enable disable a variety of additional functions related to the shutter channel control d Show Status Objects enables or disables two 1 byte objects Cx Shutter Position Status and Cx Slats Position Status that will reflect respectively the instant position of the shutter and of the slats if available in terms of percentage gt Periodic Notification While Moving 1s sets whether the status objects should be sent updated every one second while the shutter or the slats are moving or just at the end of the motion d Precise Control Obje
42. nts 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 if 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 d Outputs 2 and 6 output ports for the insertion of the stripped cables of the systems being controlled by the actuator see section 2 3 Please secure the connection by means of the on board screws http www zennio com Technical Support http zennioenglish zendesk com 5 Zennio MAXinBOX 66 d Inputs 1 input ports for the insertion of the stripped cables of external elements such as switches motion detectors temperature probes etc One of the two cables of each element needs to be connected to one of the slots labelled 1 to 6 while the other cable should be connected to the slot labelled as C Note that all the external input devices share the C slot for one of the two cables Please secure the connection by means of the on board screws To get detailed information about the technical features of this device as well as on the installation and security procedures please refer to the corresponding Datasheet bundled with the original package of the device and also available at www zennio com 1 3 START UP AND POWER LOSS During the s
43. o com Technical Support http zennioenglish zendesk com 38 Zennio MAXinBOX 66 7 Di gt Action Stop default Up Down or Specific Position Selecting the latter brings one or two more parameters e Shutter Position and if applicable Slats Position they define in terms of percentage the specific position the shutter and the slats will move to when the alarm is triggered gt Deactivation Mode Normal default or Frozen Acknowledgement Needed The second option enables a new 1 bit object Ox Unfreeze Alarm which should be used for externally unfreezing the alarm once Ox Alarm has received the no alarm value i e the inverse of the trigger value 7 Note the acknowledgement should be sent necessarily after Ox Alarm has acquired the no alarm value Sending it while the trigger value is still active will have no effect gt Deactivation Action sets the state the output should acquire once the alarm has been deactivated and acknowledged if required It may be No Change default Off On or Last Before Alarm d Reverse Movement enables or disables the Cx Move Reserved communication object which is equivalent to Cx Move except for the fact that one 0 will move the shutter down and one 1 will move it up d Direct Positioning activates or deactivates the Dire
44. o ensure they are sent once the other devices are ready to receive them http www zennio com Technical Support http zennioenglish zendesk com 41 Zennio MAXinBOX 66 2 3 3 MANUAL CONTROL MAXinBOX 66 allows manually switching the state of its output relays 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 needs to be parameterised in ETS Moreover it is possible to enable a specific binary object for locking and unlocking the manual control in runtime Note 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 pushbuttons will respond to user presses from the start d 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
45. oenglish zendesk com 48 Zennio MAXinBOX 66 Trigger Value sets the value 0 1 or 0 1 being the latter the default option that will trigger when received through ML Trigger the master action the general switch off or the courtesy switch on d General Switch Off gt Delay defines a certain delay once the trigger has been received before the execution of the general switch off The allowed range is O to 255 seconds gt Binary Value if checked object ML General Switch off Binary Object will be enabled which will send one 0 whenever the general switch off takes off gt Scaling if checked object ML General Switch off Scaling will be enabled which will send a percentage value configurable in Value whenever the general switch off takes off gt Scene if checked object ML General Switch off Scene will be enabled which will send a scene run save order configurable in Action and Scene Number whenever the general switch off takes off gt HVAC if checked object ML General Switch off HVAC mode will be enabled which will send an HVAC thermostat mode value configurable in Value being the options Auto Comfort Standby Economy and Building Protection whenever the general switch off takes off Note the above options are not mutually exclusive it is possible to send value
46. of not being the shutter in motion pressing the button does not cause any action unless slats lamellas have been parameterized in such case a step movement up down depending on the button pressed will take place The status objects will be sent to the bus when corresponding Disabled output outputs disabled by parameter 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 from 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 channel or the output they are addressed to Depending on whether the output has been parameterised as an individual output or as part of a shutter channel the reactions to the button presses will differ d Individual output short or long pressing the button will commute the on off state of the relay d Shutter channel pressing the button will make the shutter drive move upward or downward depending on the button until the button is released again thus ignoring the position of the shutter and the parameterised times http www zennio com Technical Support http zennioenglish zendesk com 43
47. of the up to twelve status objects is found to be on A courtesy switch on order if none of the up to twelve status objects is found to be on Note that the above switch off and switch on orders are not necessarily a binary value being sent to the bus it is up to the integrator the decision of what to send to the KNX bus in both cases a shutter order a thermostat setpoint or mode switch order a constant value a scene Only the trigger object and the twelve status objects are required to be binary on off The most typical scenario for this Master Light control would be a hotel room with a master pushbutton next to the door When leaving the room the guest will have the possibility of pressing on the master pushbutton and make all the lamps turn off together Afterwards back on the room and with all the lamps off pressing on the same master pushbutton will only make a particular lamp turn on e g the closest lamp to the door this is the courtesy switch on ETS PARAMETERISATION Once the Master Light function has been enabled a specific tab will be included in the menu on the left This new parameter screen Figure 25 contains the following options d Number of State Objects defines the number of 1 bit status objects required The minimum and default value is 1 and the maximum is 12 These objects are called ML Status Object n http www zennio com Technical Support http zenni
48. onality GENERAL Inputs Outputs Logical Functions Thermostats Master Light sending of Indication Objects 0 and 1 on BUS voltage recovery Figure 2 General screen El El El E El m d Once activated Inputs Outputs Logical Functions Thermostats and Master Light bring additional tabs to the menu on the left These functions and their parameters will be explained in later sections of this document Sending of Indication Objects 0 and 1 on Bus Voltage Recovery this parameter lets the integrator activate two new communication objects 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 to this sending 0 to 255 seconds http www zennio com Technical Support http zennioenglish zendesk com gt Zennio MAXinBOX 66 2 2 INPUTS MAXinBOX 66 incorporates 6 analogue digital inputs each configurable as a d Binary Input for the connection of a pushbutton or a switch sensor d Temperature Probe to connect a temperature sensor model ZN1AC NTC68 S E F from Zennio Motion Detector to connect a motion detector models ZN110 DETEC P and ZN110 DETEC X from Zennio Important older models of the Zennio motion detector e g ZN1IO DETEC and ZN1IO DETEC N will not w
49. ork properly with MAXinBOX 66 ETS PARAMETERISATION When Inputs has been activated in the General parameters screen the following drop lists will be available for the selection of the specific functions required GENERAL Input 1 a INPUTS Gs a al CONFIGURATION col tc ni Input 2 Binary Input Temperature Probe Input 3 Motion Detector Input 4 Disabled e Input 5 Disabled Input 6 Disabled Figure 3 Inputs Configuration All inputs are disabled by default Depending on the function selected for each input additional tabs will be included in the menu on the left http www zennio com Technical Support http zennioenglish zendesk com Zennio MAXinBOX 66 2 2 1 BINARY INPUT The following tasks are performed for binary inputs d Retrieving the state 1 0 of the input line and detecting changes e button presses sensor changes etc Reporting the KNX bus about the above states changes and triggering the corresponding actions depending on the case d Detecting sabotage e unexpected voltage levels on the line on inputs configured as switch sensor Every binary input needs itself to be configured as one of these two types push button and switch sensor 2 2 1 1 PUSH BUTTON The actions to be triggered on both short and long presses and even on the release of the push button are independent and parameterisable lt is even possible to set how long a press must be
50. outputs 1 and 2 channel B is formed by outputs 3 and 4 etc The first output of every channel will send electric pulses to raise the shutter whereas the second output will send pulses to lower the shutter The cables from the motor of the shutter drive should be connected to the actuator in accordance with the above Channel Outputs Action A Output 1 Move up Output 2 Move down Output 3 Move up Output 4 Move down Table 1 Shutter Channel Actions of the Outputs Each shutter channel can be configured as Shutter No Slats Awning or as Blinds With Slats Besides the shutter type it is possible to configure the following for the shutter channels Times times that define the motion of the shutter the length of the rising course the length of the lowering course and a safety reversion delay to prevent mechanical and electrical issues due to a sudden direction change when the shutter was already in motion Moreover it is possible to set an additional end of stroke time to be applied once the shutter gets to its limit top or bottom For blinds with slats a spin around time for the entire slat course and a step time for brief step movements need to be configured as well http www zennio com Technical Support http zennioenglish zendesk com 32 Zennio MAXinBOX 66 Regarding the slats it is possible to set whether the actuator should force the slats to maintain their position after the shut
51. p Default Figure 10 Individual Output Configuration A specific parameter screen per individual output will be included in the menu on the left after such output has been enabled This screen contains the following parameters d Type should be set to Normally Open default or Normally Closed depending on the natural state of the relay Timers activates or deactivates the Timers function which should be configured from a specific parameter screen see below Scenes activates or deactivates the Scenes function which should be configured from a specific parameter screen see below Alarms activates or deactivates the Alarm function which should be configured from a specific parameter screen see below http www zennio com Technical Support http zennioenglish zendesk com 26 Zennio MAXinBOX 66 e Lock Action sets whether to leave the relay as is No Change default option to switch it off Off or to switch it on On in the event of a lock order through object Ox Lock 1 lock O unlock d Shutdown Action sets whether to leave the relay as is No Change default option to switch it off Off or to switch it on On in the event of a shutdown of the device due for example to a bus power failure d Start Up sets whether to perform the default action Default or a custom action Custom over the outp
52. rameter and perform different functions MAXinBOX 66 also features a set of on board pushbuttons that bring the integrator the option to perform a manual control of the output channels for example for testing purposes How the outputs react to these buttons will depend on how the device has been parameterised as explained in the later sections ETS PARAMETERISATION When Outputs has been activated in the General parameter screen the following screen will be available for the selection of the specific function required for each output channel GENERAL 4 OUTPUTS CONFIGURATION Channel A Channel B Individual Qutputs shutter Channel _ Channel Disabled Manual Control Both Test Mode Off and On Lock Manual Control E Figure 7 Outputs Configuration All outputs are disabled by default Depending on the function selected for each output some additional tabs will be included in the menu on the left http www zennio com Technical Support http zennioenglish zendesk com 22 Zennio MAXinBOX 66 2 3 1 INDIVIDUAL OUTPUTS Every individual output can be configured as normally open i e switching the output on makes the relay close or normally closed i e the switching the output on makes the relay open Besides the output type the following options can be configured for each individual output Timers permits performing timed actions over the outputs On the first hand the Flashing f
53. ress Brighter Long Pr gt Brighter Release gt Stop Ix Long Press Darker Long Pr gt Darker Release gt Stop Technical Support http zennioenglish zendesk com 58 Zennio MAXinBOX 66 or inc by 1 E ITT 0x0 Stop 0x1 Dec by 100 O j DPT_Control_Dimming DEEN f Ix Long Press Brighter Darker gt Brighter Darker Release gt 0x9 Inc by 100 OxF Inc by 1 pCT DPTSwiteh 0 1 w w i Long Press Dimmer ON Sendingof1 ou CT DPT Switch 01 w W i Long Press Dimmer OFF Sending of ore E CT W DPT Swith nr w w rr fiong Press Dimmer ON OFF___ Switehingo t CT DPT SceneControi 0 63 128 191 w w iPd Long Press Run Scene________ SendingofO 63 _ _ _ 0 63 128 191 1 Bit 1 Byte 1 Byte Ix Long Press Save Scene Sending of 128 191 1 1 Bit Ix Switch Sensor Alarm Breakdown gt Alarms O NS Alar or sabotage i 671088 64 fer as 670760 96 a Long Press Constant Value float Float value 2 Byte CT DPT_Value_2 Ucount 0 65535 ER Pressi EECH Soldo prese Integer 1 Byte Cao DPT_Scaling 0 100 Pe Llong aPless Constant Male 100 Percentage 2 Bytes 1 Byte CT DPT_Value_ 1 Ucount 0 255 Loe Long Pressi Constant Vate pag Integer DPT_Trigger an fow fw poa Long Press Release Stop Shutter Release gt Stop Shutter 394 400 406
54. s about to end Moreover the Ox Warning Time Status object will acquire the value 1 while this intermittence is running http www zennio com Technical Support http zennioenglish zendesk com 28 Zennio MAXinBOX 66 and 0 at any other time If set to zero no warning intermittence will take place Note that this time needs to be lower than the ON Duration time gt Multiplication enables or disables the multiplication function Flashing when enabled object Ox Flashing will show up in the project One 1 through this object triggers the intermittence of the output while one 0 will stop it This intermittence will be subject to the following parameters gt ON Duration length of each on stage 5 to 600 tenths of a second 1 to 3600 seconds 1 to 1440 minutes 1 to 24 hours gt OFF Duration length of each off stage 5 to 600 tenths of a second 1 to 3600 seconds 1 to 1440 minutes 1 to 24 hours gt Repetitions number of times 0 255 the on off sequence will take place If set to 0 the intermittence will only stop when one O is received through Ox Flashing FLASHING Ei ON Duration 1 z OFF Duration 1 d Repetitions O 0 Endless Figure 13 Individual Output Flashing Scenes Tab GENERAL d OUTPUTS CONFIGURATION 4 Qutput 1 HO Number of Active Scenes 0 Configuration Scenes
55. s of different nature together d Courtesy Switch On The parameters available here are entirely analogous to those already mentioned for General Switch Off However in this case the names of the objects start with ML Courtesy Switch On On the other hand sending scene save orders is not possible for the courtesy switch on only orders to play scenes are allowed Note object ML Courtesy Switch On Binary Object sends the value 1 when the courtesy switch on takes place in contrast to object ML http www zennio com Technical Support http zennioenglish zendesk com 49 Zennio MAXinBOX 66 General Switch Off Binary Object which sends the value 0 during the general switch off as explained above GENERAL http www zennio com Number of State Objects Trigger Value General Switch Off Delay Binary Value Scaling Scene HWAC Courtesy Switch On Delay Binary Value Scaling Scene HVAC 1 z 3 0 xis E E E 0 Iris EJ E E Figure 25 Master Light Technical Support http zennioenglish zendesk com 90 Zennio MAXinBOX 66 ANNEX I 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 app
56. se values to the bus as well as to report events of high low temperature detection ETS PARAMETERISATION GENERAL A INPUTS Temperature sensor CALIBRATION O xO1 C emia Temperature sending PERIOD 0 ate x10s 4 Input 1 Temperature Probe 0 PES 9 Lama Configuration Ss Send with a Temperature Change 0 xO C 0 Disabled Temperature Protection Overheating Overcoolimg Overheating and Overcoolinia Figure 6 Temperature Probe Configuration When an input has been configured as Temperature Probe objects Ix Current Temperature 2 bytes and lx Probe Error 1 bit become visible The former will report the current value of the temperature periodically or after a certain increment decrement according to the parameter configuration while the latter will notify by sending the value 1 periodically about an unexpected reading in the input line due to a breakdown or an incorrect connection of the temperature probe Apart from that a specific entry will become visible in the menu on the left of the parameter window This entry will itself comprise a tab called Configuration containing the following parameters Temperature Sensor Calibration defines an offset to be applied to the measurement received from the probe to correct deviations due to external factors The offset should be in the range 50 50 tenths of a degree Temperature Sending Period sets every how m
57. t lx Switch Sensor Alarm Breakdown or Sabotage once they are over this object will send one UL When selected two more parameters come up http www zennio com Technical Support http zennioenglish zendesk com 15 Zennio MAXinBOX 66 gt Switch Sensor Type sets whether the switch sensor is normally open and therefore with a resistor connected in parallel N O parallel resistor or normally closed and therefore with a resistor connected in series NC serial resistor gt Resistor Value sets the value of the resistor which should be one of the following 2 2 KO 2 7 KQ 3 3 KQO 4 7 KQ and 10 kQ d Actions gt Rising Edge indicates what should be sent to the KNX bus when a rising edge takes place on the input line The options are No Action default 0 1 and Switching 0 1 ue the values 1 and O will alternate with every rising edge detected These values are sent through object lx Switch Sensor Edge gt Falling Edge analogous to the above parameter The response to falling edges will be sent through the same object lx Switch Sensor Edge d Periodical Sending gt Sending of 0 sets every how much time 0 to 255 seconds 0 to 255 minutes or 0 to 18 hours the value 0 should be periodically sent once the corresponding edge has been detected If no periodical re sending is required just leave this at 0 gt S
58. tart up of the device the Test Prog LED will blink in blue colour for a few seconds before MAXinBOX 66 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 output channels 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 hand when a bus power failure takes place MAXinBOX 66 will interrupt any pending actions and will save its state so it can be recovered once the power supply is restored For safety reasons all shutter channels will be stopped i e the relays will open if a power loss takes place while the individual outputs will switch to the specific state configured in ETS if any http www zennio com Technical Support http zennioenglish zendesk com 6 Zennio 2 CONFIGURATION MAXinBOX 66 2 1 GENERAL 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 ETS PARAMETERISATION The only parameterisable screen available by default is General From this screen it is possible to activate deactivate all the required functi
59. ter moves up or down Note that due to the fact that both the shutter and the slats move together maintaining the position of the slats may sometimes require performing a certain correction of the position of the shutter d Status Objects they report the current position of the shutter and that of the slats if existing 0 means shutter totally up or slats totally open with the light passing through while 100 means shutter totally down or slats totally closed Precise Control Objects they bring the option to raise lower the shutter or the slats to the exact desired position in terms of percentage d Scenes allows setting the shutter or the slats to a certain position on the reception of a scene object Alarms allows moving the shutter or the slats to a pre defined position on the reception of an alarm trigger from the KNX bus Two alarms e two independent trigger objects with independent target positions are provided per shutter channel It is possible to configure not only the position the shutter will be set to on the alarm activation but also on the deactivation Cyclically monitoring the alarm trigger is also possible by defining a certain time period The actuator will check that the alarm or no alarm state is received at least once before the period expires note this check does not take place if the object has never been received yet In case the object stops being refreshed i e the actua
60. the shutter and of the slats if existing Further triggers of the direct positioning functions will therefore take the shutter slats to this new position Start Up sets whether to perform the default action Default or a custom action Custom during the device start up The latter should be configured from a specific parameter screen GENERAL 4 OUTPUTS Initial Position Current Position e CONFIGURATION Send Update 4 Shutter Channel A Configuration Functions Start Up Figure 23 Shutter Channel Start Up This screen contains the following parameters gt Initial Position sets the position the shutter should acquire at the start up of the actuator It may be Current Position i e left as is default option Di 7 Di Up Down or Specific Position The latter brings two more parameters http www zennio com Technical Support http zennioenglish zendesk com 40 Zennio MAXinBOX 66 e Shutter Position and if applicable Slats Position they define in terms of percentage the specific position the shutter and the slats will move to when the actuator starts up gt Send Update sets whether the status objects of the shutter should be sent to the KNX bus in order to update other KNX devices after the start up of the actuator lt is possible to impose a delay 0 to 600 tenths of a second O to 3600 seconds O to 1440 minutes O to 24 hours t
61. tion can also be evaluated according to certain conditions and afterwards sent or not to the KNX bus which can be done every time the function is executed periodically or only when the result differs from the last one Please refer to the specific Logic Functions module for MAXinBOX 66 user manual 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 46 Zennio MAXinBOX 66 2 5 THERMOSTATS MAXinBOX 66 implements four Zennio thermostats which can be enabled and configured independently Please refer to the specific Zennio Thermostat for MAXinBOX 66 user manual 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 47 Zennio MAXinBOX 66 2 6 MASTER LIGHT The Master Light function brings the option to monitor the state of up to 12 light sources or any other functionally similar element whose state is transmitted through a binary object and depending on those states perform a master order every time a certain trigger signal again a binary value is received through a specific object Such master order will consist in A general switch off order if at least one
62. tor does not receive an updated value anymore the alarm action will be performed as well for safety reasons Regarding the deactivation of the alarm it is also possible to configure a simple deactivation or an acknowledgement demanding deactivation gt The first case triggers the deactivation action as soon as the alarm object recovers its normal value gt The second one on the other hand requires that an external acknowledgement through another object is received after the alarm object has recovered its normal value http www zennio com Technical Support http zennioenglish zendesk com 33 Zennio MAXinBOX 66 Note gt Alarms always prevail over any other function e g lock orders during the alarm state will be ignored alarm orders during the lock state will not gt Alarm 1 has a higher priority than alarm 2 If the channel is in alarm 2 and alarm 1 gets triggered it will execute the action of alarm 1 and will wait till alarm 1 gets deactivated switching then back to alarm 2 but without executing again the action of alarm 2 On the other hand while one channel is in alarm 1 triggering alarm 2 will have no effect the channel will remain in alarm 1 until alarm 1 gets deactivated in that moment the channel will perform the action of alarm 2 d Reverse movement this makes it possible to control a shutter with the usual orders inverted While the default shutter contro
63. uch time the value of the current temperature should be sent to the bus through lx Current Temperature in the range 0 255 tens of second The value 0 leaves this periodical sending disabled http www zennio com Technical Support http zennioenglish zendesk com 18 Zennio MAXinBOX 66 d Send with a Temperature Change defines a threshold in the range O to 255 tenths of a degree so that whenever a new reading of the current temperature is found to differ from the last value sent to the bus more than such threshold an extra sending will take place d Temperature Protection drop down list with the following options gt No no temperature protection is required gt Overheating overheating protection is required Two extra parameters will come up e Overheating Temp maximum temperature permitted in the range 30 to 125 C Temperature readings greater than this will be considered overheat and therefore a 1 will be periodically sent through object lx Overheat Once the overheat is over a 0 will be sent once e Hysteresis dead band or threshold in the range 1 to 200 tenths of a degree the default is 20 tenths of a degree i e two degrees around the overheat temperature defined above This dead band prevents the device from sending the overheat alarm and no alarm over and over when the current temperature is moving around the overheat limit T once the overheat
64. unction consists in performing a continuous timed on off sequence when a specific trigger object is received On the other hand the Simple Timer function consists in performing a single timed switch on switch off when one 1 or one 0 is received through a specific object Ox Timer Depending on whether the order is a switch on or a switch off a certain delay On Delay or Off Delay will apply These delays are parameterisable Moreover in case it is a switch on an On Duration should be defined This is the time the output will remain on once the On Delay has expired and therefore the output has finally switched on gt When enabled the Multiplication function permits progressively multiplying the pre set ON Delay OFF Delay or ON Duration depending on which of them is currently counting as many times as the switch on or switch off orders are received through Ox Timer Different situations are distinguished e Without Multiplication o If the On delay count is already running it will be re started every time a new 1 is received through OX Timer o Ifthe output has already been activated and the On Duration time is counting it will be re started whenever a new 1 is received o If the Off delay count is already running it will be re started every time a new 0 is received http www zennio com Technical Support http zennioenglish zendesk com
65. undred milliseconds Recover Position After Shutter Completes Motion sets whether to try or not to preserve the position of the slats after moving the shutter http www zennio com Technical Support http zennioenglish zendesk com 35 Zennio MAXinBOX 66 d Position at Bottom defines the position the slats should move to once the shutter itself gets to the bottom position 100 completely down The following objects are visible by default for every shutter channel d Shutter Scenes 1 byte object for the reception from the KNX bus of scene orders the response to which needs to be configured from the Scenes specific tab of each shutter channel as explained later 2 Cx Move 1 bit object for the reception from the KNX bus of the shutter move up 0 and move down 1 orders d Cx Stop 1 bit object for the reception from the KNX bus of the shutter stop orders CU or 1 which will interrupt any move up or move down order in execution If the shutter has been configured as Blinds With Slats the name of the object will be Cx Stop Step and it will implement exactly the same function interrupt a move up or move down order in execution plus the step control function if the shutter is still one 0 will be interpreted as a step up order and one 1 will be interpreted as a step down order Note successive step orders received before the end of the step moveme
66. ut during the device start up The latter should be configured from a specific parameter screen see below After setting an output to Individual Output three more objects are shown by default d Outputs Scenes 1 byte object intended for the reception of scene values 0 63 for running scenes 1 64 and 128 191 for saving scenes 1 64 from the KNX bus It becomes available after enabling the first individual output as it is a sole object for every other individual output enabled in the actuator d Ox On Off 1 bit object for the reception of on off orders from the bus One 1 will make the output switch on and one O will make it switch off Depending on whether the output has been set to Normally Closed or to Normally Open switching the output on will consist in opening or closing the relay and the opposite action for the switch off d Ox On Off Status 1 bit object which will report the current state of the individual output It can be read anytime and will respond with a 1 or a 0 depending on whether the output is on or off respectively Timers Tab The two different timer functions can be enabled through their specific checkboxes Geer SIMPLE TIMER 4 OUTPUTS CONFIGURATION SO 4 Outputl Configuration Timers Figure 11 Individual Output Timers http www zennio com Technical Support http zennioenglish zendesk com 21 Zennio MAXinBOX 66 Simple T
67. zennioenglish zendesk com 14 Zennio MAXinBOX 66 e Scene sets the desired scene number 1 to 64 for the above run save orders e Delay similar as for Sending of 0 1 gt 1 Byte Constant Integer e Response sets a constant value to be sent to the bus through Ix Short Press Constant Value Integer in the range 0 to 255 gt 1 Byte Constant Percentage e Response sets a constant value to be sent to the bus through lx Short Press Constant Value Percentage in the range 0 to 100 gt 2 Byte Constant Integer e Response sets a constant value to be sent to the bus through lx Short Press Constant Value Integer in the range O to 65535 gt 2 Byte Constant Float e Response sets a constant value to be sent to the bus through Ix Short Press Constant Value float in the range 671088 64 to 670760 96 Long Press Action defines the action to be triggered when a long press is detected The available actions are totally analogous as for the short press Switch Sensor When Type has been set to Switch Sensor the following parameters are also available Security selecting or unselecting this checkbox determines whether the input line includes a security end of line resistor so it is therefore possible to monitor sabotage or breakdown situations which will be notified by periodically sending the value 1 through objec
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