MAXinBOX 16
Contents
1. CX Alarm 0 Output status e 3 minutes 3 minutes gt Response sets the response order to be sent to the shutter when the alarm is triggered e Stop e Up e Down e Specific position http www zennio com Technical Support http zennioenglish zendesk com 31 Zennio MAXinBOX 16 When the latter is chosen a new drop down list is shown letting the integrator set a value for this specific position in the range 0 completely up to 100 completely down For blinds with slats an option called Select Slats position will also become visible making it possible to set a position for the slats between 0 totally open or up and 100 totally closed or down gt Deactivation two different procedures are provided to deactivate an active alarm e Normal the alarm will become inactive as soon as the actuator receives a 0 or a 1 the inverse of the parameterised trigger value through the corresponding alarm object e Frozen this method requires a normal deactivation plus the reception of the value 1 over the corresponding unfreeze alarm object if the latter does not occur the alarm will still be active This method makes the channel output remain locked even when the alarm situation is over until it is externally or manually enabled gt End this parameter sets the desired shutter position once the alarm becomes inactive e Current position e Up2. http www zennio com Technical Support http zennioenglish zendesk com 18 Zennio MAXinBOX 16 gt Flashing Figure 9 This function allows the execution of alternating ON OFF sequences when needed It is possible to parameterise the ON and an OFF time lengths as well as the number of repetitions the value 0 makes the sequence endless until a O is received through the OX Flashing communication object It is also possible to define the final status ON or OFF of the output after the last repetition 3 11 11 MAXinBOX 16 GENERAL Timers lt lt DUTPUTS gt gt DUTPUT 1 SEA Se z DUTPUT 2 FLASHING Yes y ON Duration x 0 1 sec 25 Y OFF Duration x 0 1 sec 25 Y Repetitions 0 O Endless gt Status after last repetition OFF Figure 9 Flashing Note MAXinBOX 16 allows parameterising both a simple timer and an intermitting sequence for the same output e Scenes scenes consist of a synchronised activation of the devices in the domotic system so that different predefined atmospheres can be generated by simply sending a scene value over the bus 511 1 MAXinBOX 16 ES GENERAL Scenes lt lt QUTPUTS gt gt OUTPUT 1 PSone Scenes 1 64 0 Disabled H QUTPUT 2 Response DFF y Scene 1 64 0 Disabled Response DFF X Scene 1 64 0 Disabled Response DFF xj Scene 1 64 0
3. 0 under this filed The following example is provided for a better comprehension Example Let a cyclical monitoring period of 2 minutes be configured The trigger value is 1 and the reaction of the actuator when the alarm is activated consists in switching on the output while when the alarm is deactivated the output will be switched off Assuming that the output is initially off the alarm becomes active OX Alarm 1 so the output is switched on While the alarm is not deactivated any action over the output will be ignored After some time t2 the alarm is deactivated OX Alarm 0 which makes the output switch from ON to OFF Before the parameterised cyclical monitoring period 2 minutes ends a new alarm deactivation order arrives so the time count starts again After 2 minutes without receiving further values through the alarm object the alarm will be automatically activated making the output switch on As before any action over the output will be ignored until the alarm is deactivated See the figure OX Alarm 1 Automatic Alarm OX Alarm 0 Activation OX Alarm 0 Output status e 2 minutes 2 minutes gt Response sets the response state of the actuator output when the alarm is activated e No change e ON http www zennio com Technical Support http zennioenglish zendesk com 21 Zennio MAXinBOX 16 e OFF e Flashing intermitting se
4. Disabled Response OFF a Scene 1 64 0 Disabled Response OFF y Figure 10 Scenes http www zennio com Technical Support http zennioenglish zendesk com 19 Zennio MAXinBOX 16 A 1 byte communication object is provided in relation to Scenes for the individual outputs Scenes Individual Outputs which shows when the Outputs tab in ETS is enabled even if the outputs are disabled In the case of the individual outputs scenes allow linking a numerical value between 1 and 64 while 0 means that the option is disabled to an output state OFF or ON Thus when the defined scene value is received decreased by one through the Scenes object the parameterised action for the output a switch off or a switch on will be performed making it possible to create different ambient scenarios in the domotic system Besides running scenes it is possible to learn save scenes taking into account that the associated numerical values for learning scenes are in the range 128 191 which correspond to saving scenes 1 64 respectively MAXinBOX 16 allows defining up to 5 different scenes for each output d Alarm for each output it is possible to configure an alarm which once triggered will have priority over the rest of the orders that the actuator may receive e any order received while the alarm is active will be ignored until the alarm situation stops 5 1
5. Zennio Passion for KNX innovation MAXinBOX 16 16 Output KNX Actuator ZN110 MB16 USER MANUAL Application program version 2 3 User manual edition 2 3 _a www zennio com Zennio MAXinBOX 16 Contents DOCUS es 3 L Iotrogductlon A ASKKKEKKEERRKEKKEEERREKKKEARRKKKEAAREKKKEAAREKEAEAAEKKREAAARKKKKAEARKKKKKAAERRKKKAAEREKKAAEEREKKA KEEN 4 TO A nei rorisnr aneian ornen enee iieri ki mE nek EREE RE Ene ii 4 A CITE ge TEE 5 2 Configuration iadaiaiaiadadadadadadaddadda Seege ada dada 7 2 1 Individual Outpouts nro nnnnnnnnnnnnn nn rrnnnnnnnnnnnnnnnnnss 7 2 2 Eeer Heer eebe tddi H 2 3 NO EE ei EE 9 2 3 1 eelere 10 2 3 2 Klee 11 3 GEET EE 12 3 1 Default Configuration ccccccccccccccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 12 O oe UE 13 3 2 1 Individual Outputs oocccccccnnnooononnnnnnnonnnonononnnnnnncnnnnnnnnnnnnnnnnnnnnnn nn nnnnnnnnnnnnnnnnnnnos 14 3 2 2 Shutter channel inician iia 23 3 3 LOGICA FUNCTIONS esos 35 ANNEX I Slat precise Control 36 ANNEX IL Communication oblects nn nnnnnnnnnnnnnnnnnnnnnnnos 40 http www zennio com Technical Support http zennioenglish zendesk com 2 Zennio MAXinBOX 16 DOCUMENT UPDATES Version Changes Page s Changes in the application program e Improved management of the output order buffer Minor changes in the description of the elements of the device New detailed explanation about the manual contr
6. 120 00 or 0 65535 0 1 0 255 0 00 120 00 0 65535 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 o 1 zo OO o oo Or OO Ota O OO 0 Scenes Individual Outputs 0 63 Run 1 64 128 191 Learn Scenes Shutter Channels LF 1 bit Data Entry x LF 1 byte Data Entry x 0 63 Run 1 64 128 191 Learn Binary Data Entry 0 1 1 byte Data Entry 0 1 0 255 LF 2 bytes Data Entry x 2 bytes Data Entry LF Function LF Function LF Function LF Function Ox ON OFF Ox ON OFF Ca Alarm Ca Alarm Oy ON OFF Oy ON OFF Ca Alarm 2 Ca Alarm 2 1 RESULT 1 bit FUNCTION x Result 1 RESULT 1 byte FUNCTION x Result 1 RESULT 2 bytes FUNCTION x Result 1 RESULT 2 bytes FUNCTION x Result N C 0 Close Relay 1 Open N O 0 0pen Relay 1 Close 1 Alarm Oho Alarm O Alarm 1 No Alarm N C O Close Relay 1 Open N O 0 0pen Relay 1 Close O Alarm 1 No Alarm 1 Alarm Oho Alarm http www zennio com Technical Support http zennioenglish zendesk com 40 Zennio MAXinBOX 16 112 127 128 130 132 134 136 138 140 142 129 131 133 135 137 139 141 143 144 146 148 150 152 154 156 158 145 147 149 151 1537 155 157 159 160 162 164 166 168 170 172 174 161 163 165 167 SE MAL 173 175 176 178 180 182 184 186 188 190 177 179 181 183 185 187 189 191 192 199 200 207 208 223 224 231 232
7. It will show the value 0 0 when the slats are completely up and the value 255 100 when the slats are completely down d Precise control this function makes it possible to actually move the shutter to any position via a 1 byte communication object CX Shutter Positioning in percentage Every time MAXinBOX 16 receives a new percentage value through this object e g 50 the shutter moves to the corresponding position e g the central position For blinds with slats the actuator also implements the CX Slats Positioning 1 byte object for setting the desired position in percentage for the slats http www zennio com Technical Support http zennioenglish zendesk com 27 Zennio MAXinBOX 16 d Scenes this function makes it possible to use scenes to control the shutter It allows choosing precise positions where the shutter will be moved to upon the reception of certain scene numbers through the Scenes Shutter Channels 1 byte object Apart from running scenes it is possible to learn save scenes taking into account that the values that should be received to learn a scene must be in the range 128 191 values 0 63 are reserved for running scenes Up to 5 scenes can be run and or leant for each shutter channel 2 11 1 MAXinBOX16 a GENERAL Scenes lt lt OUTPUTS gt gt CHANNEL A Scene Scenes 1 64 0 Disabled S Up Down EXT 0 0
8. Sets the main times that define the movement of the shutter the length of the rising movement the length of the descending movement a http www zennio com Technical Support http zennioenglish zendesk com 8 Zennio MAXinBOX 16 security time for making a pause in the movement of the motor when the direction changes and an additional movement time when the shutter gets to its limit top or bottom For blinds with slats lamellas a secondary time for the entire slat movement and for the slat steps can also be configured d Status objects They report the current position of the shutter and of the slats if applicable d Precise control Allows moving the shutter to a particular position Moreover for blinds with slats it is also possible to establish a particular position for the slats value between 0 and 100 d Scenes Allows running and or saving a specific action over the channel s where this function is enabled Alarms Two alarms are available for each shutter channel The parameterised action will be executed when an alarm event is received A Reverse movement Allows an inverse shutter control d Direct positioning Function that permits moving the shutter to a preset specific position by sending a 1 bit communication object Start up configuration Default or custom All these options are explained in detail in section 3 2 3 MANUAL CONTROL MAXinBOX 16 allows
9. MAXinBOX 16 2 CONFIGURATION 2 1 INDIVIDUAL OUTPUTS The MAXinBOX 16 actuator incorporates 16 relay outputs that allow controlling different loads autonomously Each output can be enabled or disabled independently and perform different functionalities Every individual output can be configured as normally open the activation of the output makes the relay close or normally closed the deactivation of the output makes the relay open Besides the output type MAXinBOX 16 allows the configuration of the following functionalities for the individual outputs d Timers Permit a timed control over the outputs being possible to set times for the switch on and for the switch off of the output d Scenes Allows running and or saving specific actions over the output s on the reception of a scene object The status of the outputs will vary depending on the action set for the parameterised scene d Alarm Allows changing the status of the output on the reception of an alarm message being possible to configure the state the output will be set to both on the alarm activation and on the alarm deactivation Note the alarm behaves with priority over any other functionality Start up configuration default or custom All these configuration options are explained in detail in section 3 2 2 SHUTTER CHANNELS The MAXinBOX 16 output channels allow controlling up to 8 different shutter drives or similar window door automate
10. Scene 1 64 0 Disabled Response Up X Scene 1 64 0 Disabled Response Up v Scene 1 64 0 Disabled Response Up Scene 1 64 0 Disabled Response Up ZJ Figure 15 Scenes The Scene parameter indicates the scene value 1 64 the shutter will react to If this value is O the corresponding option is disabled Response sets the precise position where the shutter will be moved to when the above scene number decreased by one arrives from the bus The shutter can be moved completely up completely down or to a specific position in percentage from 0 to 100 In case of choosing the latter the Shutter specific position parameter will become visible to allow the definition of a specific shutter position through the Select Shutter Position parameter after selecting Yes or to make the shutter stay as is http www zennio com Technical Support http zennioenglish zendesk com 28 Zennio MAXinBOX 16 For blinds with slats it is also possible to configure a specific position for the slats via the Select Slats Position parameter when the configured scene number is received or to make them maintain their current position The following example illustrates the configuration process Example Consider a facility where 3 scenes will be distinguished values 4 6 and 18 and where MAXinBOX 16 will be u
11. and the slats to the position set for Select slats position both shown after this option is chosen Note the actuator does not actually know the position of the shutter as there is no feedback from the shutter drive Therefore the shutter will be moved to the specified initial position by assuming that it is initially completely raised 0 gt Update by enabling this field Yes the position status object will be sent to the bus as a feedback for the rest of the devices in the domotic system In addition a delay can be applied to this transmission If the value 0 is set the status is sent immediately http www zennio com Technical Support http zennioenglish zendesk com 34 Zennio MAXinBOX 16 Note the initial status is always sent through the CX Current Shutter position and CX Current Slats position for slats object Note in the event of a bus power failure while the shutter is in motion MAXinBOX 16 opens the output relay prior to being unpowered as a security measure The interrupted movement is not resumed after the bus recovery 3 3 LOGICAL FUNCTIONS This option in MAXinBOX 16 makes it possible to perform mathematical or binary logic operations to incoming values received from the KNX bus and to send the result through other communication objects specifically enabled in the actuator for this purpose Up to 10 different and independent logical functions can
12. be enabled being each of them capable of carrying out a maximum of 4 operations To use any of them it is necessary to enable it from the following ETS screen which becomes available after selecting Yes under Logical Functions in the General parameter screen 11 1 MAXinBOX 16 eS GENERAL lt lt LOGICAL FUNCTIONS gt gt lt lt LOGICAL FUNCTIONS gt gt 1bit 1byte LOGICAL FUNCTIONS SELECTION 2bytes FUNCTION 1 Disabled FUNCTION 2 Disabled Z FUNCTION 3 Disabled Zs FUNCTION 4 Disabled X FUNCTION 5 Disabled X FUNCTION 6 Disabled y FUNCTION 7 Disabled zZ FUNCTION 8 Disabled Zs FUNCTION 9 Disabled X FUNCTION 10 Disabled z Figure 19 Logical functions To get further information about how to use and parameterise the logical functions please refer to the Logical Functions X10 specific document available at http Awww zennio com http www zennio com Technical Support http zennioenglish zendesk com 35 Zennio MAXinBOX 16 ANNEX I SLAT PRECISE CONTROL Zennio actuators allow controlling the movement of shutters blinds or any other window door automated drives as long as they match one of the following types A Shutters with no slats d Blinds with slats lamellas Depending on the drive type the MAXinBOX 16 application program will show different options This particular secti
13. manually switching the state of its 16 output relays through the respective pushbuttons on the top of the device Therefore a specific pushbutton is available per output see Figure 2 Manual operation can be done in two different ways referred to as Test On Mode intended for testing the domotic system during the configuration of the device and Test Off Mode intended for using it anytime Whether both only one or none of these modes will be available can be parameterised from ETS Moreover it will be possible to enable a specific binary object for locking and unlocking the manual control in runtime See section 3 2 for further details on the device parameterisation http www zennio com Technical Support http zennioenglish zendesk com 9 Zennio MAXinBOX 16 Note the Test Off mode will be available anytime unless it has been disabled by parameter with no need of a specific activation after a download or a reset Accessing the Test On mode on the contrary will require unless disabled by parameter pressing the Prog Test button for at least three seconds until the LED turns yellow From that moment once the button is released the LED light will turn 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 off setting the device back to the Test Off mode 2 3 1 TEST OFF MODE Under the Test Off Mode outputs can be controlled
14. shown next as well as the details about the available options GENERAL CHANNEL A lt lt DUTPUTS gt gt CHANNEL A TYPE Blind with slats y TIMES Main Time Shutter Length 150 a x 0 1 sec Secondary Time Slats Length 20 x 0 1 sec Slats Step Time 2 e x 0 1 sec Security Time Pause to change the 5 z movement direction x 0 1 sec Are total Time UP and DOWN different No Z Additional time when shutter gets the N limit on Top or at the Bottom l BLIND SPECIFIC Maintain Slats Position when shutter Yes completes motion Slats Position at Bottom Pos 100 Figure 21 Blinds with slats Configuration screen ETS As shown in Figure 21 for this type of shutters various time parameters need to be parameterised on the one hand time parameters referred to the movement of the blind Main Time shutter length Security time Are total time up and down http www zennio com Technical Support http zennioenglish zendesk com 37 Zennio MAXinBOX 16 different and Additional time when shutter gets the limit All of them were already explained in Section 3 2 2 of this manual On the other hand time parameters referred to the movement of the slats d Secondary time slats length sets the time in tenths of a second the drive takes to perform a complete slat movement cycle from 0 co
15. the output from on to off or vice versa d Shutter channel a press on the corresponding button will set the shutter drive in motion staying this way until the button is released thus ignoring the current position of the shutter and the parameterized up down times d 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 scene and status object sending functions will not work while the device is under the Test On mode Note the device is factory delivered with all the output channels configured as shutters and with both manual control modes Test Off and Test On enabled http www zennio com Technical Support http zennioenglish zendesk com 11 Zennio MAXinBOX 16 3 ETS PARAMETRISATION To begin with the parameterisation of the MAXinBOX 16 actuator it is necessary once the ETS application is running to import the database of the product MAXinBOX 16 application program Next the device must be added to the project where desired Finally right click on the device and select Edit parameters to start with the configuration The following sections provide a detailed explanation about each of the different functionalities of the application in ETS 3 1 DEFAULT CONFIGURATION This section shows the default configuration the device param
16. will become green indicating the activation of this manual control To leave the device manual control an additional press on the Prog Test button will be required the LED will turn off http www zennio com Technical Support http zennioenglish zendesk com 5 Zennio MAXinBOX 16 While MAXinBOX 16 is under the start up process after an ETS download or a bus power failure the Prog Test LED will blink in blue During the execution of the start up every order received will be taken into account and performed immediately once the start up is over Output control pushbuttons 6 permit a manual and individual control of each of the actuator outputs provided that such control has been configured The LED indicator next to every pushbutton 7 will show a green light whenever the corresponding output is active Outputs 1 and Output Securing Screws 2 slots for the insertion of the electrical output cables and screws for properly securing them once inserted Please refer to section 2 2 for details about the correct cable connection order for controlling shutters To get detailed information about the technical features of MAXinBOX 16 as well as on security and on the installation procedure please refer to the device Datasheet bundled with the original packaging and also available at http www zennio com http www zennio com Technical Support http zennioenglish zendesk com 6 Zennio
17. 11 MAXinBOX 16 ES GENERAL loa lt lt DUTPUTS gt gt DUTPUT 1 TRIGGER VALUE fa D OUTPUT 2 CYCLICAL MONITORING PERIOD 0 2 x 1 min O Disabled RESPONSE No Change x DEACTIVATION alarm acknowledgement Normal e END reaction when alarm ends No Change e Figure 11 Alam The following parameters can be configured for alarms gt Trigger value sets the value that will trigger the alarm 1 or 0 if received through the OX Alarm object The opposite value 0 or 1 will be considered as the no alarm value gt Cyclical monitoring period minutes defines for the case of having a periodically sent alarm object 1 or 0 as corresponding each time the maximum permitted time without receiving the no alarm value OX Alarm value contrary to the parameterised trigger value before the http www zennio com Technical Support http zennioenglish zendesk com 20 Zennio MAXinBOX 16 actuator automatically assumes the alarm state foreseeing the possibility of a failure in the transmitting device If for whatever reason the monitoring period expires MAXinBOX 16 will trigger the parameterised action unless it does not imply a change in the output status This will not happen while the no alarm value keeps being sent before each monitoring period expires The cyclical monitoring can be disabled by simply setting a
18. 239 240 247 248 249 250 size 1 0 Flags Data Type DPT Functional rangejist boor Reboot Plname 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Byte 1 Byte 1 Bit 1 Byte 1 Byte 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit CTR I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W I C W O CTR I C W I C W O CTR I C W I C W LO dE GT lt lt yo C RW yo C RW DPT_Switch DPT_Trigger DPT_Enable DPT_Trigger DPT_Enable DPT_UpDown DPT_Start DPT_Start DPT_UpDown DPT_Trigger DPT_Switch DPT_Trigger DPT_Switch DPT_Alarm DPT_Alarm DPT_Step DPT_Step DPT_Alarm DPT_Alarm DPT_Enable DPT_Scaling DPT_Scaling DPT_Ack DPT_Scaling DPT_Scaling DPT_Ack DPT_Switch DPT_Switch DPT_Enable DPT_Enable 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 100 0 100 0 1 0 100 0 100 0 1 0 1 0 1 0 1 FO v v W vV Ox Status Ca Save Position Ox Lock Ca Save Position 2 Oy Lock Ca Move Ox Timer Oy Timer Ca Reverse Movement Ca Direct Positioning Ox Flashing Ca Direct Positioning 2 Oy Flashing Ox Alarm Ox Alarm Ca Stop Step Ca Stop Oy Alarm Oy Alarm Ca Lock W vy Ca Curr
19. In case of not being the shutter in motion pressing the button does not cause any action unless the shutter features slats lamellas in such case a step movement up down depending on the button pressed of the http www zennio com Technical Support http zennioenglish zendesk com 10 Zennio MAXinBOX 16 slats will take place as if the equivalent order had been received through the CX Stop Step communication object d Disabled output presses on the pushbutton will be ignored Note multiple shutter channels can be manually controlled at the same time by pressing their corresponding pushbuttons Regarding the lock timer alarm scene and status object sending functions the device will behave under the Test Off mode as usual button presses are entirely analogous to the reception of the corresponding orders from the KNX bus 2 3 2 TEST ON MODE Once the Test On mode has been activated it will only be possible to control the outputs through the on board pushbuttons Orders received through communication objects will be always ignored with independence of the channel or the output they are actually addressed Depending on whether an output has been parameterized as an individual output or as a part of a shutter channel its reaction to the button presses will differ d Individual output short or long pressing the associated button will commute the state of the relay therefore switching the state of
20. OX 16 Note saving a new position is not possible while the shutter is moving d Start up configuration defines the shutter state that the device will assume order when it recovers from a bus power failure or after an ETS download A default or a custom configuration may be selected If Default is chosen after a partial or a complete download from ETS MAXinBOX 16 will assume the shutter is completely up 0 independently of its actual state For blinds with slats MAXinBOX 16 also assumes that the slats are completely open 0 no matter what their actual position is On the other hand after a bus power failure the device will assume the shutter and the slats maintains the same state as before the power failure When custom is chosen ETS will show the following window A 1 1 1 MAXinBOX 16 GENERAL Start up lt lt DUTPUTS gt gt CHANNEL A b E Gametime oo 3 UPDATE No _ A start up position sending Figure 18 Custom Start up configuration where it is possible to configure the following parameters gt Initial position this field defines the desired initial position the shutter will be moved to both after a bus power failure or after programming the device The following options can be chosen Current position keeps stopped the shutter will remain stopped up down or specific position which moves the shutter to the position set for Select shutter position
21. OX 16 GENERAL Direct Positioning lt lt OUTPUTS gt gt CHANNEL A f TOTAL DIRECT POSITIONINGS One D SELECT SHUTTER POSITION 50 SELECT SLATS POSITION 50 NEW POSITIONS SAVING No X Figure 17 Direct positioning It is possible to configure the following parameters gt Total direct positionings 1 or 2 direct position functions can be defined gt Select shutter position sets the exact position to move the shutter to 0 Top 100 Bottom For blinds with slats an option called Select Slats position will also become visible making it possible to set a position for the slats when the value 1 is received through the corresponding positioning object If two direct positioning controls are configured two boxes will be displayed Select Shutter Position 1 and Select Shutter Position 2 as well as Select Slats position 1 and Select Slats position 2 for blinds with slats gt New positions saving allows Yes or not No saving new direct positions After enabling this option one or two new communication objects appear depending on the number of direct positioning controls CX Save Position and CX Save Position 2 To overwrite the parameterised direct position it is necessary to send a 1 to these objects when the shutter is at the desired position http www zennio com Technical Support http zennioenglish zendesk com 33 Zennio MAXinB
22. Ui UU UE 3 i a DU for CH Ey Am A 9999999 AAAA AE Figure 1 MAXinBOX 16 http www zennio com Technical Support http zennioenglish zendesk com 4 Zennio MAXinBOX 16 1 2 INSTALLATION MAXinBOX 16 connects to the KNX bus through the on board KNX connector Once the device is provided with power from the KNX bus both the physical address and the associated application program can be downloaded This actuator does not need any additional external power since it is entirely powered through the KNX bus 1 Outputs 2 Output Securing Screws 3 Prog Test LED 4 KNX Bus Connection 5 Prog Test button 6 Output Control Button 7 Output Status LED Indicator Figure 2 MAXinBOX 16 Element Scheme The functionality of the main elements of the actuator is described below d Prog Test button 5 a short press on this button sets the actuator into the programming mode making the associated LED 3 light in red Note if this button is held while plugging the device into the KNX bus MAXinBOX 16 goes into secure mode The LED will blink in red every 0 5 seconds In case of having enabled the Test On manual control mode through the corresponding parameter see section 2 3 along push i e for at least three seconds until the red light from the Prog Test LED changes to yellow on this button enables the manual control over the actuator Just after releasing the button the LED light
23. al Time UP and DOWN different No Z Additional time when shutter gets the N e limit on Top or at the Bottom a FUNCTIONS Status Object No m Precise Control No 52 Scenes No Zs Alarms No _ A Reversed Moving No z Direct Positioning No z Start up Default Zi Figure 13 Channel A configured as a shutter no slats http www zennio com Technical Support http zennioenglish zendesk com 24 Zennio MAXinBOX 16 141 1 MAXinBOX 16 GENERAL CHANNEL B lt lt DUTPUTS gt gt CHANNEL A S z CHANNEL TYPE Blind with slats y TIMES Main Time Shutter Length 150 x 0 1 sec Secondary Time Slats Length 20 x 0 1 sec Slats Step Time 2 D x 0 1 sec EE Security Time Pause to change the 5 movement direction x 0 1 sec Are total Time UP and DOWN different No Z Additional time when shutter gets the N pa limit on Top or at the Bottom 2 BLIND SPECIFIC Maintain Slats Position when shutter N completes motion a Slats Position at Bottom Pos 100 FUNCTIONS Status Object No Z Precise Control No kA Scenes No z Alarms No Zi Reverse Movement No v Direct Positioning No e Startup Default v Figure 14 Channel B configured as a blind with slats Apart from the shutter type it is necessary to configure some specific functions which are common to bo
24. chosen ETS will show the following window 2 1 1 1 MAXinBOX 16 GENERAL Start up lt DUTPUTS gt gt OUTPUT 1 INITIAL STATUS T ast saved poston QUTPUT 2 UPDATE start up position sending No z Figure 12 Custom start up configuration http www zennio com Technical Support http zennioenglish zendesk com 22 Zennio MAXinBOX 16 Where the following parameters can be configured gt Initial status this field defines the initial state of the output after a bus power failure or after a download The following options are available last saved position i e the state of the output before the bus power failure ON or OFF gt Update enabling this field Yes will make the actuator send the output status to the bus through the corresponding communication object after the start up or after a bus failure as a feedback for the rest of the devices in the domotic system A parameterisable delay can also be applied to this transmission If the delay is set to 0 the status will be sent immediately The state of the output is always sent through the OX Status object 3 2 2 SHUTTER CHANNEL MAXinBOX 16 also allows configuring its outputs as shutter channels making it possible to control up to 8 separate shutters in a domotic facility When a channel is configured in ETS as a shutter channel a 1 bit communication object CX Lock related to that particular channe
25. ct The value 0 will cause an immediate response e On Duration time the output remains ON before switching back to the OFF state A 0 in this field means the output will remain permanently ON unless an OFF order arrives These parameters apply as follows o When MAXinBOX 16 receives a 1 through the OX Timer communication object an ON order is sent to the output relay after waiting for the On Delay time The output will switch off again after the On Duration time if other than 0 o When MAXinBOX 16 receives a 0 through the OX Timer communication object an OFF order is sent to the output relay after waiting for the Off Delay time e Multiply allows progressively increasing multiplying in runtime the On Duration time or the On Off delays of the output Two situations are distinguished http www zennio com Technical Support http zennioenglish zendesk com Zennio MAXinBOX 16 o No multiply e If the On delay count is already running it will be reset every time a new 1 is received through the OX Timer object e f the output has already been activated and the On Duration time is counting it will be reset whenever a new 1 is received e If the Off delay count is already running it will be reset every time a new 0 is received o Multiply e If the On delay count is already running and the value 1 is received several times th
26. d systems Thus it is possible to control the movement of the shutters in the domotic system http www zennio com Technical Support http zennioenglish zendesk com 7 Zennio MAXinBOX 16 d Basic control simple up down movements d Precise control of the shutter and of the slats lamellas if any Each channel A B C D E F G and H consists of two consecutive individual outputs e Channel A is made of the individual outputs 1 and 2 channel B consists of outputs 3 and 4 and so on The first output of every will send the orders to raise the shutter whereas the second output will send the orders to lower the shutter Therefore the cables of the shutter motor carrying out these actions should be properly connected to the corresponding output of the channel to perform the required action Table 1 shows the action carried out by the outputs of each channel 1 Move up S 2 Move down B 3 Move up 4 Move down 5 Move up S D Move down S 7 Move up 8 Move down 9 Move up 10 Move down 11 Move up d 12 Move down G 13 Move up 14 Move down 15 Move up 16 Move down Table 1 Shutter channels actions of the outputs Each channel can be configured as a Shutter No Slats or as a Blind with Slats Besides the shutter type MAXinBOX 16 allows the configuration of the following functionalities for the shutter channels 2 Times
27. e Down e Last position before the alarm d Reverse movement this function makes it possible to control a shutter with the usual orders inverted MAXinBOX 16 normally raises the shutter when the value 0 is received through CX Move and stops it with value 1 Therefore if this function is enabled MAXinBOX 16 will also raise the shutter when the value 1 is received through object CX Reverse movement and will lower it on the reception of the value 0 This reverse control is compatible with the usual control since CX Move and CX Reverse movement are provided as separate objects for normal and reverse control respectively http www zennio com Technical Support http zennioenglish zendesk com 32 Zennio MAXinBOX 16 Reverse control becomes particularly useful when a centralised OFF order is sent over the domotic system to turn the lights off and to lower the shutters at the same time In this case the value 0 can be sent to the light ON OFF objects and to the shutter Reverse movement objects d Direct positioning this function allows moving the shutter to a preset position by a simple 1 bit order through CX Direct Positioning and CX Direct Positioning 2 When a 1 is received through one of these objects the shutter will be moved to the parameterised position When a 0 is received no action is performed A 11 1 MAXinB
28. ecific position The positions of the blind and the slats in percentage can be configured independently gt Alarms Response Specific position The same as above gt Direct positioning Independent configuration of positions 1 or 2 depending on the parameterised number in percentage of the blind and the slats gt Start up configuration Initial position Specific position The position percentages of the blind and slats can be configured independently To obtain further information about the configuration and options of the functions of the shutter channels please refer to the section 3 2 2 of this manual http www zennio com Technical Support http zennioenglish zendesk com 39 Zennio MAXinBOX 16 ANNEX Il COMMUNICATION OBJECTS 2 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 1st 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 More
29. ent Slats Position Ca Slats Positioning Ox Unfreeze Alarm W vV Ca Current Shutter Position Ca Shutter Positioning Ca Unfreeze Alarm OW Reset 0 1w Reset 1 0 v Manual Control Locking 0 v Manual Control Locking 0 Output OFF 1 Output ON 1 Save Position O No Action 1 Lock O Unlock 1 Save Position O No Action 1 Lock O Unlock 0 Up Shutter 1 Down Shutter O to turn OFF 1 to turn ON O to turn OFF 1 to turn ON 0 Down Shutter 1 Up Shutter 1 Go to Position O No Action 1 Start Flashing O End Flash 1 Go to Position O No Action 1 Start Flashing O End Flash 1 Alarm Oho Alarm O Alarm 1 No Alarm 0 Stop StepUp 1 Stop StepDown 0 or 1 Stop Shutter 1 Alarm Oho Alarm O Alarm 1 No Alarm 1 Lock O Unlock 0 0 Open 255 100 Closed 0 0 Open 255 100 Closed Alarm 0 Unf 1 gt End Alarm 0 0 Top 255 100 Bottom 0 0 Top 255 100 Bottom Alarm 0 Unf 1 gt End Alarm Voltage Recovery gt Sending of 0 Voltage Recovery gt Sending of 1 1 Lock O Unlock O Lock 1 Unlock http www zennio com Technical Support http zennioenglish zendesk com 41 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 ee C info zennio com K NX Zennto Passion for KNX innovation ROHS
30. ers can be configured gt Number of alarms sets whether to use one or two alarms Both of them can be independently managed through their corresponding communication objects CX Alarm for Alarm 1 and CX Alarm 2 for the second one It is important to keep in mind that Alarm 1 has a higher priority than Alarm 2 This means that if a channel is under the Alarm 2 state and Alarm 1 occurs then the shutter will switch to the Alarm 1 state and will only switch back to the Alarm 2 state once Alarm 1 finishes Analogously when the channel is under the Alarm 1 state and Alarm 2 occurs Alarm 1 prevails gt Trigger value sets the value 1 or Q that will trigger the alarm state This value is intended to be received through the CX Alarm or CX Alarm 2 object The inverse value 0 or 1 will be assumed as the no alarm value gt Cyclical monitoring period minutes defines for the case of having a periodically sent alarm object 1 or O as corresponding each time the maximum permitted time without receiving the no alarm value OX Alarm value contrary to the parameterised trigger value before the actuator automatically assumes the alarm state foreseeing the possibility of a failure in the transmitting device If for whatever reason the monitoring period expires MAXinBOX 16 will trigger the parameterised action unless it does not imply a change in the output s
31. es motion has been enabled The initial position of the slats is 50 and the initial position of the blind is 0 up An order to lower the blind is received thus making the blind and http www zennio com Technical Support http zennioenglish zendesk com 38 Zennio MAXinBOX 16 therefore the slats start moving downwards until the position of the blind reaches 100 At this point the blind has completed its movement and MAXinBOX 16 will revert the position of the slats by additionally moving the drive back until they reach the position they had before 50 in this example thus causing a minor deviation in the position of the blind If parameter Maintain slats positioning when shutter completes motion had not been enabled when the position of the blind reached 100 down the slats would have maintained their resulting position after the movement of the blind Slats position at Bottom pos allows establishing the slats position in percentage when the blind is completely closed i e its position is equal to 100 This means that when the blind stops moving downwards and reaches 100 the slats will correct their position to the one established by parameter Apart from these configuration options it is necessary to define the Slats specific position for those enabled functions where particular positions are required to be parameterised These functions are gt Scenes Response Sp
32. eterisation starts from After entering the parameter edition for the first time the following window comes up 31 11 MAXinBOX 16 pee GENERAL GENERAL Dutputs No X Logical Functions No X Sending of Indication Objects 0 and 1 N on BUS voltage recovery a Figure 3 Configuration screen by default As shown in Figure 3 outputs inputs and logical functions are disabled by default so there will be no communication objects available until the user enables some of the functions of the actuator If Sending of indication objects on bus voltage recovery is set to Yes two new 1 bit communication objects will show up Reset 0 and Reset 1 which will send to the KNX bus the values 0 and 1 respectively after a bus power failure in order to recover the communication with the rest of the devices in the facility This transmission may be immediate or after a configurable delay in seconds http www zennio com Technical Support http zennioenglish zendesk com 12 Zennio MAXinBOX 16 3 2 OUTPUTS When Outputs is set to Yes a new tab will be added to the left side panel making it possible to configure the outputs of the device This screen will look as follows 5 111 1 MAXinBOX 16 GENERAL lt lt DUTPUTS gt gt A Channel A Disabled X Channel B Disabled e Channel C Disabled kd Chan
33. l becomes visible This object allows locking the channel outputs i e disabling the control over them through both the ON OFF and the timed control objects when it is received with value 1 Moreover if the shutter is already in motion at the moment of being locked the movement will be interrupted and any order over it will be ignored The channel outputs will become unlocked when a 0 is sent through this object Note only the alarm function has a higher priority than the lock function If an alarm signal arrives while the channel is locked the shutter will adopt the position configured for the alarm Once the alarm is deactivated the shutter will recover the position defined for the locked status The first parameter to be configured is the shutter type d Shutter no slats typical shutter drives with simple up down movements If this type is selected two communication objects are enabled CX Move and CX Stop to move the shutter up down and to stop it respectively http www zennio com Technical Support http zennioenglish zendesk com 23 Zennio MAXinBOX 16 In addition the following remark will be shown under this shutter type Slats positions will be ignored for Shutter types which means that parameters and objects related to slats should be ignored under this shutter type Blind with slats special slat shutter drives where both the shutter itself and
34. may require different times to move up and to move down When this happens this field should be set to Yes making the device interpret the already mentioned Main time Shutter length parameter as the time required to lower the shutter while a secondary parameter will be provided to define the time required to raise it gt Additional time when the shutter gets the limit this parameter is useful to prevent small maladjustments and to ensure that the shutter always gets to the lowest or highest position This is done by defining an extra time to keep the drive moving once the rising lowering times end This parameter is not visible by default however it is advisable to give it a value to guarantee a proper behaviour in the shutter If the shutter is configured as a blind with slats Figure 14 additional specific parameters appear All of them are explained in detail under ANNEX I Slat precise control Note after programming the device from ETS and unless a custom start up configuration has been parameterised MAXinBOX 16 will assume the shutter as completely raised so any raising order will be ignored The following is an example of a possible shutter configuration Example Channel A shutter without slats takes 15 seconds to be lowered and 20 to be raised Additional times for direction changes 5 tenths of a second and at the end of the movement 2 seconds are also required The corresponding parameterisati
35. mpletely up to 100 completely down or vice versa This time must be manually measured d Slats Step Time sets the time in tenths of a second the drive will keep moving the slats every time it receives the order to perform an up down step movement CX Stop Step 0 or 1 respectively assuming that the blind is stopped These step orders allow gradually rotating the slats and modifying their position which may be very useful to prevent glare for example after a change in the position of the sun Note in case of joint controlling slat step movements of multiple shutter channels together through the same group address the time configured for this parameter is recommended to be slightly greater than N tenths of a second where N is the number of the channels that have been enabled and configured as blind with slats in order to ensure that rapidly sent consecutive orders are properly processed Note times referred to slat movements must be shorter than those configured for blind movements usual configuration Besides defining these times it will be necessary to configure the following options which are specific for blinds with slats d Maintain slats position when shutter completes motion this option allows choosing whether the slats should recover their position after the blind reaches the desired position or not Example Suppose the parameter Maintain slats positioning when shutter complet
36. nel D Disabled X Channel E Disabled Z Channel F Disabled z Channel G Disabled X Channel H Disabled Z Manual Control Test Mode Off Test Mode On Z Lock manual control No EA Figure 4 Configuring the outputs The outputs are grouped into channels Channel A to H all disabled by default with two outputs each A drop down list permits configuring the behaviour of each channel as individual outputs or as shutter channels 111 1 MAXinBOX16 GENERAL lt lt OUTPUTS gt gt lt lt DUTPUTS gt gt Disabled Channel B Shutter Channel Channel C Disabled H Channel N nisahler Figure 5 Configuring the channels From this screen there is also the option to select which manual control modes will be available parameter Manual control d Disabled the manual control over the outputs will not be active and it will not be possible to activate it in runtime d Only Test Mode Off only the simple manual control e the one corresponding to the Test Off mode will be available see section 2 3 not being possible at all to access the Test On mode in runtime http www zennio com Technical Support http zennioenglish zendesk com 13 Zennio MAXinBOX 16 d Only Test Mode On only the Test On mode will be available see section 2 3 not being possible at all to access the Test Off mode in runtime d Test Mode Off Test Mode On default parameter value Both
37. nioenglish zendesk com 14 Zennio MAXinBOX 16 5 1 1 1 MAXinBOX 16 GENERAL DUTPUT 1 lt lt DUTPUTS gt gt DUTPUT 1 OUTPUT 2 Enabled TYPE Normally Open EA FUNCTIONS Timers No v Scenes No 57 Alarm No Z Start up Defaut BUS volt recovery configuration ES Figure 7 Channel A configured as individual outputs Once the output is enabled the ETS topology window will automatically display the following communication objects 1 bit each e OX ON OFF allows switching the corresponding output to the on or the off states by sending the value 1 or 0 depending on the parameterised output type Whether the relay is actually open or closed under each state depends on the normally open normally closed configuration of the output as explained below d OX Status shows the current status of the output on or off d OX Block allows locking unlocking the output e disabling enabling its control by sending the values 1 or 0 to the object respectively Note only the Alarm function has a higher priority than the lock function if an alarm signal arrives when the output is locked the output will be set to the state defined by the alarm function When the alarm gets deactivated the output returns to the lock status The first thing to be parameterised is the type of each output of the channel 2 Normally open the out
38. ol modes Test On and Test Off Clarifications about the lock and manual control 13 functions 14 General revision of texts and styles Changes in the application program e Improved compatibility of the application program with some device batch numbers Changes in the application program e Improvement in the behaviour of the shutter channels o On the activations of the additional time when the shutter state is already 100 On joint activations of the additional time of multiple shutter channels where the state is already 100 e Optimization of the number of the individual output state objects sent at the start up http www zennio com Technical Support http zennioenglish zendesk com 3 Zennio MAXinBOX 16 1 INTRODUCTION 1 1 MAXINBOX 16 MAXinBOX 16 is a KNX actuator that combines in only one device the following features d 16 multi function binary outputs 16A each configurable as gt Up to 8 shutter channels with or without slats lamellas gt Up to 16 individual outputs d 10x multi operation logical function module being possible to enable or disable each function independently through a specific communication object d Possibility of manually operating the actuator outputs The outputs and the logical function module work independently and can interact with each other as if they were two autonomous devices connected to the KNX bus AA fei A Fa PCCEOTOC aU UU
39. on is as follows http www zennio com Technical Support http zennioenglish zendesk com 26 Zennio MAXinBOX 16 TYPE Shutter No slats x NOTE Slats Positions will be ignored for Shutter types TIMES Main Time Shutter Length 150 x 0 1 sec Security Time Pause to change the 5 z movement direction x 0 1 sec y Are total Time UP and DOWN different Yes y Total Time Up x 0 15 Time Down is 200 the param named above as Main Time Additional Time when shutter gets the ly e limit on Top or at the Bottom ES Time added x 0 18 20 The following parameters add functionality or special features to both shutter types with or without slats d Status object this function provides a 1 byte communication object CX Current Shutter Position which will show at any time the exact position of the shutter in percentage This object returns the value 0 or 0 when the shutter in completely up and 255 or 100 when it is completely down The remaining values represent intermediate positions It is possible to set by parameter whether the shutter position will be sent every second or not This is done by enabling or disabling Send current shutter position every second while moving which appears once the Status Object parameter has been enabled For Blinds with slats the CX Current Slats Position 1 byte object is also provided
40. on is referred to the parameterisation of blinds with slats To begin with it is important to keep in mind the criteria followed by the actuator for shutter positioning d The shutter is in the up position 0 in percentage when it is completely open d The shutter is in the down position 100 in percentage when it is completely closed While the slat positioning criteria is as follows d The slats are in the up position or open 0 in percentage when their position is such that they can only move downwards d The slats are in the down position or close 100 in percentage when their position is such that they can only move upwards Figure 20 shows a scheme of the positions the slats may adopt It is necessary to take into account that shutter actuators control shutter drives without any feedback about their exact position and that the movement of the slats relays entirely on the movement of shutter drive itself This means that a movement in the slats will always provoke a certain change in the position of the shutter http www zennio com Technical Support http zennioenglish zendesk com 36 Zennio MAXinBOX 16 Slats can only move downward INN 5 Slats can move 4 upward p L gt and also a downward Slats can only move upward Ns 100 Uy Figure 20 Slat positions The ETS configuration screen for Blinds with slats is
41. over 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 A 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 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 eee Number size 1 0 Fags Data Type DPT Functional rangelist boot P Reboot Ple runction DPT_SceneControl DPT_SceneControl 1 Byte i 1 Byte 2 33 1 Bit 34 49 1 Byte 50 65 2 Bytes 66 75 1 Bit 76 85 1 Byte 2 Bytes 86 4 2 Bytes 1 Bit 96 98 100 102 1 Bit 104 106 108 110 1 Bit 1 Bit 1 Bit 97 99 101 103 1Bit 105 107 109 111 1 Bit 1 Bit RARA E C W DPT_Value_1_Ucount CTR DPT_Value_1_Ucount DPT_Value_Temp CTR DPT_Value_2_Ucount C W C W C W C W CTR CTR C W C W C W C W C W C W C W C W DPT_Bool DPT_Value_Temp DPT_Bool DPT_Switch DPT_Switch DPT_Alarm DPT_Alarm DPT_Switch DPT_Switch DPT_Alarm DPT_Alarm 0 63 128 191 0 63 128 191 0 1 0 255 0 00
42. put will be considered as on when the relay stays closed and off when the relay stays open 2 Normally closed the output will be considered as on when the relay stays open and off when the relay stays closed Next the list of functions available for each output d Timers allow performing a timed control of the outputs both through a simple timer and or through an intermittent sequence flashing http www zennio com Technical Support http zennioenglish zendesk com 15 Zennio MAXinBOX 16 11 1 MAXinBOX 16 GENERAL Timers lt lt DUTPUTS gt gt OUTPUT 1 cs SIMPLE TIMER Yes zj DUTPUT 2 ON Dela es 0 x 0 1 sec 0 No delay OFF Delay x 0 1 sec 0 No delay ON Duration x 0 1 sec 0 Endless D D Multiply No D FLASHING No y Figure 8 Timers screen Simple timer gt Simple timer allows automatically switching on and afterwards off the output on the reception of the values 1 and 0 through the OX Timer object subject to a set of parameterisable times e On Delay time the actuator will wait before switching the output on once the ON order has been received through the OX Timer object The value 0 will cause an immediate response e Off delay time the actuator will wait before switching the output off once the OFF order has been received through the OX Timer obje
43. quence three drop down lists are shown to configure the ON Duration the OFF Duration and the number of repetitions of the sequence gt Deactivation two different procedures are provided to deactivate an active alarm e Normal depending on what was parameterised under Trigger Value the alarm will become inactive as soon as the actuator receives a 0 or a 1 through the alarm object e Frozen this method requires a normal deactivation plus the reception of the value 1 over the OX Unfreeze Alarm object if the latter does not occur the alarm will still remain triggered This method makes the channel output remain locked even when the alarm situation is over until it is externally or manually enabled gt End reaction when alarm ends this parameter sets the state that will be adopted by the output once the alarm finishes e Nochange e ON e OFF e Last the output returns to the state it had before the alarm d Start up configuration defines the desired state ON OFF to be adopted by the output when the device recovers from a bus power failure or after an ETS download reset A default or a custom configuration may be set Selecting the default configuration will make the output stay off after a partial or complete ETS download while after a bus power failure the state of the output will be the same it had before the failure ON or OFF On the other hand if custom is
44. rough the OX Timer object then the actual delay time will be n times the parameterised time being n the number of times the value 1 is received e Ifthe output has already been activated and while the On Duration time is counting the value 1 is received several times then the actual duration will be n times the parameterised time being n the number of times the value 1 is received e If the Off delay count is already running and the value 0 is received several times then the actual delay time will be n times the parameterised time being n the number of times the value O is received Note the Multiply option may result particularly useful under parameterisations with no ON and OFF delays Nevertheless as already explained and as the following example shows these delay times if parameterised with a value other than 0 do also admit multiplication http www zennio com Technical Support http zennioenglish zendesk com 17 Zennio MAXinBOX 16 Example the following is parameterised On Delay 3 seconds Off Delay 3 seconds On Duration 5 seconds The graphs bellow reflect some possible situations if the values 0 or 1 are received from the which is represented as 0 and gt 1 respectively for the cases of having the multiply option enabled and disabled With no multiplication
45. sed to move a blind with slats to precise positions on the reception of these scene values Scene 4 shutter up Scene 6 shutter down Scene 18 central position 50 The slats maintain their current position The associated parameterisation should be as follows Scenes Scene 4 1 64 0 Disabled Response Up Scene 1 64 0 Disabled Response 18 Scene 1 64 0 Disabled Response Specific Position Shutter Specific Position Yes Move to Position Select Shutter Position 2 50 Slats Specific Position No Current Position will be maintained d Alarms MAXinBOX 16 allows configuring up to 2 alarms for each shutter channel This function is designed for cases in which the actuator must react to an alarm situation Having two alarms configured allows carrying out different reactions to two external events http www zennio com Technical Support http zennioenglish zendesk com 29 Zennio MAXinBOX 16 7 11 1 MAXinBOX 16 ES GENERAL Alarms lt lt OUTPUTS gt gt CHANNEL A f E NUMBER OF ALARMS One y ALARM 1 TRIGGER VALUE E CYCLICAL MONITORING PERIOD 0 x 1 min O Disabled EES Specific Position zi Select Shutter Position 50 Select Slats Position 50 DEACTIVATION Normal alarm acknowledgement Normal bl Current Position y Figure 16 Alarms The following paramet
46. tate This will not happen while the no alarm value keeps being sent before each monitoring period http www zennio com Technical Support http zennioenglish zendesk com 30 Zennio MAXinBOX 16 expires The cyclical monitoring can be disabled by simply setting a O under this filed The following example illustrates the above behaviour Example Suppose that a cyclical monitoring period of 3 minutes is configured The trigger value is 1 and the reaction of the actuator when the alarm is activated consists in moving the shutter all the way up while when the alarm is deactivated the shutter will be lowered Assuming that the shutter has been lowered when the alarm becomes active the actuator will start raising the shutter While the alarm stays active any action over the shutter channel will be ignored by the actuator After some time t2 one 0 arrives through the alarm object which makes the alarm turn off and the shutter be raised Before the parameterised cyclical monitoring period 3 minutes ends a new alarm deactivation order arrives so the time count starts again After 3 minutes without receiving further values through the alarm object the alarm will be automatically activated making the shutter move up again As before any action over the shutter will be ignored until the alarm is deactivated See the following figure CX Alarm 1 Automatic Alarm CX Alarm 0 Activation l
47. th types d Times this section allows setting the time intervals in tenths of a second that define the movement of the shutter gt Main time Shutter length this is the time the motor needs to move the shutter all the way down or up In case it does not take the same time to raise it as to lower it parameter Are total times up and down different should be set to Yes In such case this Main time will define the time required to move the shutter all the way down while a secondary parameter Total time up will become available to define the time required for the inverse movement It is not necessary to periodically calibrate this parameter since the exact shutter position is stored by MAXinBOX 16 at any time even after power failures http www zennio com Technical Support http zennioenglish zendesk com 25 Zennio MAXinBOX 16 gt Security time pause to change the movement direction this is the time reserved by the actuator as a preventive measure to protect the shutter drive when the movement switches from one direction to the inverse If the device receives an order to lower the shutter while it is being raised MAXinBOX 16 will temporarily interrupt the movement during the configured security time before lowering it or vice versa It is advisable to set a value not lower than 5 tenths of a second the default value gt Are total time Up and Down different heavy shutters
48. the Test On and the Test Off modes are available under the manual control being the Test Off mode the active one by default see section 2 3 MAXinBOX 16 allows locking the manual control in runtime This is possible after enabling the Lock manual control parameter which will bring up a new 1 bit communication object Manual control locking and two additional parameters A Value sets the value 0 or 1 the communication object should be sent to lock unlock the manual control d Initialization sets whether the initial state of the lock function after an ETS download reset or after a bus failure should have the previous value or be locked or unlocked If the first option is selected the state will be unlocked after the very first start up of the device While the manual control remains locked presses on the on board pushbuttons will be ignored Manual Control Test Mode Off Test Mode On v Lock Manual Control Yes X Value 0 Unlock 1 Lock Z Initialization Unlocked Last value Figure 6 Manual control type and lock In the next sections the configurable parameters are explained in detail depending on the selected output type 3 2 1 INDIVIDUAL OUTPUTS Figure 7 represents an example of how a channel can be parameterised in this case channel A is set to individual outputs which activates outputs 1 and 2 http www zennio com Technical Support http zen
49. the slats lamellas are controlled with a single engine MAXinBOX 16 allows controlling both movements the slat rotation which permits varying the level of the incident light and the scrolling up down of the blind Two communication objects are enabled for this purpose CX Move which will receive from the bus the orders to move the blind up down and CX Stop Step If the device receives a 0 or a 1 through the latter when the blind is already in motion the movement will be interrupted while if the blind was not in motion receiving a 0 through this communication object will make the slats slightly rotate upwards while receiving a 1 will make them slightly rotate downwards These step movements are useful to correct both the slat and the blind position together To get detailed information about blinds with slats and their ETS configuration please refer to ANNEX I Slat precise control The next figures show the screens with the parameterisable options for channels configured as Shutters no slats or as Blinds with slats 5 111 1 MAXinBOX 16 GENERAL CHANNEL lt lt DUTPUTS gt gt channa TYPE Shutter No slats D NOTE Slats Positions will be ignored for Shutter types TIMES Main Time Shutter Length 150 x 0 1 sec Security Time Pause to change the 5 movement direction x 0 1 sec Are tot
50. through both communication objects and through the actual pushbuttons located on the top of the device Figure 2 When one of these buttons is pressed the output will behave as if an order had been received through the corresponding communication object see section 3 2 The behaviour of the outputs upon a button press depends on whether the outputs have been configured as individual outputs or as a shutter channel d Individual Output a simple press short or long will make the output switch its state as if a 0 1 order had been received through the SX ON OFF communication object Once the output state changes a message is sent through the corresponding status object SX Status 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 actual button being pressed lighting the LED in green until the end of the movement unless no further movements are possible when the button is pressed because of being the shutter in a final position Hence the output will behave the same as when the device receives an order through the CX Up Down communication object gt A short press will make the shutter drive stop the movement if in motion as it would happen on the reception of a message through the CX Stop object
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