QUAD Analogue/Digital Input Module for Motion
Contents
1. NN nn gt N N OT Ix Long Press Run Scene Long Pr Sending of 0 63 28 29 30 31 32 199 34 35 36 37 38 39 Ix Short Circuit 1 Short Circuit O2 No Short Cir O 0 0 O O O O A I A ad Ad Ae I Ix Open Circuit 1 Open Circuit O No Open Circ Ix Luminosity level Luminosity on Input x 11 Ch x Channel enabling 1 Enable O Disable 40 41 42 11 Ch x Channel lock 1 Lock O UnLock 12 Ch x Channel enabling 1 Enable O Disable 43 44 45 12 Ch x Channel lock 1 Lock O UnLock 13 Ch x Channel enabling 1 Enable O Disable 46 47 48 I3 Ch x Channel lock 1 Lock O UnLock m m m m m m 1 Bit DPT Switch 49 50 51 52 53 54 1Bit CT DPT Switch 14 Ch x Channel enabling 1 Enable O Disable rr 14 Ch x Channel lock 1 Lock O UnLock A LL LL Ll Ll LL Ll tp E rr 11 Ch x Detection Status According to parameters http www zennio com Technical Support http zennioenglish zendesk com 3 O Zennio QUAD ego Flags Data Type Functional Range ist boot P Reboot P Name Function EEE EEE pegi EE mem TU Lo pasara ETT mew E aa AU pra erara erez PORO OEE BORO DENEN EET mne DEREK Saiz E erea UT brea rea rarena PORO OEE BORON EE BORON EE PORO FIT ensem m pasase EET EZ ree o FA errara IE TT ESIa SE TO bra TT si aoe oF aa AU zra rare 518010558 o mem AU rera erez Ste E Ee 2 Bytes 1 DPT_Va2. b Coopi Hee http www zennio com Technical Support http zennioenglish zendesk com 32 Zennio QUAD Number Size I O Flags Data Type erute Functional Range ist boot P Reboot P Name Function 174 175 4 a GE oP re EE ar 180 181 l PE EOI E E or cem 192 194 CTR 1 Bit DPT Switch Tx Control Variable Cool PI Control PWM CTR 193 195 EID Te Control Variable Heat PI Control PWN 1 Byte I arai DPT Scaling 0 100 erre Tx Control Variable Cool PI Control Continuous 1 Byte al DPT_Scaling 0 100 a a Tx Control Variable Heat PI Control Continuous Pees ame opum wmm on v Urz mmm zr Sani F Bg o E wee on Lr Es pomme ACTES wr DPT Step wo irri m Short Press Stop Step Shutter switched Short Pr gt Switching 0 1 212 213 CTR 214 215 DPT_Step wo irri m Short Press Stop Step Down Shutter Short Pr gt Sending of 1 SEA DPT_Step oo m Short Press Stop Step Up Shutter Short Pr gt Sending of 0 IG EH DPT_UpDown eT Te Short Press Move Down Shutter Short Pr gt Send of 1 Down DPT_UpDown o TI 11 Short Press Move Up Shutter Short Pr gt Sending of 0 Up http www zennio com Technical Support http zennioenglish zendesk com 3 UJ Zennio QUAD Number ete Flags Data A DPT Functional Range ist boot P Reboot P Name Function CTR B npn 1 nn CTR H n n http www zennio com Technical Support http
3. gt As the button gets pressed nothing happens gt Once the button is released the increase by 12 5 order is sent S On the contrary in the case of the long presses the behaviour is as follows amp 1 press gt As the button gets pressed the increase by 12 5 order is sent gt Once the button is released the stop order is sent amp 2 press gt As the button gets pressed the decrease by 12 5 order is sent gt Once the button is released the stop order is sent amp 37 press gt As the button gets pressed the increase by 12 5 order is sent gt Once the button is released the stop order is sent http www zennio com Technical Support http zennioenglish zendesk com 18 Zennio Note the aim of step dimming is letting the user perceive a gradual transition of the light level with the option of interrupting the regulation when the desired level is reached Therefore it is advisable to parameterise a dimming step of 100 so that a sole press i e with no need of further presses is enough to step through all the possible light levels interrupting the regulation when desired Sending of a Scene This function allows sending the KNX bus a 1 byte communication object for scene control Under the Response parameter in the tab that becomes visible after selecting this function it is possible to select the particular action to be performed on every press GENERAL SHORT
4. Step Shutter switched Long Pr gt Switching 0 1 rz vo pra DPT Step ow Sr pna Long Press Stop Step Down Shutter Long Pr Sending of 1 16 17 1s fe SO DPT_Step pm EC E Long Press Stop Step Up Shutter Long Pr gt Sending of 0 18 19 CTR 1 Bit W DPT_UpDown Ix Long Press Move Up Down Shutter Long Pr gt Switching 0 1 EIC p ek DPT UpDown oT The Long Press Move Down Shutter Long Pr gt Send of 1 Down EO GO DPT_Switch E Long Press Dimmer ON OFF Long Pr gt Switching 0 1 CTR cba DPT_Switch ae TP Ix Long Press Dimmer ON Long Pr gt Sending of 1 ON 0x0 Stop Ox1 Dec by 100 20 21 CTR 0x2 Dec by 50 g 22 23 4 Bit DPT_Control_Dimming 0x3 Dec by 25 Ix Long Press Brighter Darker Lg Pr gt Bright Dark End gt Stop 0x4 Dec by 12 0x5 Dec by 6 http www zennio com Technical Support http zennioenglish zendesk com 29 z Zennio QUAD Number Size I O Flags Data Type DPT Functional Range 1st boot P Reboot 0x6 Dec by 3 Ox7 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 e opc coen co o p ere mem coa o E ENTM SIE Tp erai ar EO Name Function Ix Long Press Darker Lg Pr gt Dark End gt Stop Ix Long Press Brighter Lg Pr gt Bright End gt Stop Ix Long Press Save Scene Long Pr gt Send of 128 191
5. zennioenglish zendesk com 34 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 pie D C info zennio com KNX Zennto Passion for KNX innovation RoHS
6. 5 Short circuit normally closed S S gt n the event of an open circuit in the line QUAD will interpret it as a regular falling edge i e as an interruption or a detection in the switch sensor so only the value parameterised for such edge will be sent to the bus N C S S Figure 6 Open circuit normally closed S S d Normally Open N O Switch Sensor the circuit remains typically open and only becomes closed in the event of an interruption or a detection in the switch sensor The selected resistor should be connected to the circuit line in parallel and as closer as possible to the switch sensor preferably in touch with its terminals and hardly accessible from outside See Figure 7 Figure 7 Normally open switch sensor Parallel resistor n the event of a short circuit in the line QUAD will interpret it as a regular rising edge i e as an interruption or a detection in the http www zennio com Technical Support http zennioenglish zendesk com 9 Zennio QUAD switch sensor so only the value parameterised for such edge will be sent to the bus Figure 8 Short circuit normally open S S gt Inthe event of an open circuit in the line QUAD will set the alarm object of the corresponding input to 1 and will then send it periodically to the bus until the situation is over as the open circuit is interpreted to be due to a sabotage or a breakdown Figure 9 Open circuit normally
7. PRESS Scene INPUT 1 Push Buttan SHORT PRESS Scene RESPONSE lt TRERMOSTATS gt gt Run Scene Save Scene SCENE Figure 17 Scenes e Run Scene the Ix Short Press Run Scene 1 byte communication object is enabled and sent to the KNX bus with a value 1 to 64 as configured through the Scene parameter and decreased by one that will run the corresponding scene e Save Scene the Ix Short Press Save Scene 1 byte communication object is enabled and sent to the KNX bus with a certain scene value the one set for the Scene parameter and increased by 127 according to the KNX standard so that it is interpreted as an order to overwrite the configuration of such scene with the current states d LONG PRESS allows defining a certain action to be performed whenever a long press occurs in the push button connected to the input port of QUAD The available options are analogous to those already described for the short press case although certain differences apply to the dimmer control as already stated d THRESHOLD TIME sets the minimum time in tenths of a second the push button needs to stay pressed so that QUAD interprets it as a long press QUAD http www zennio com Technical Support http zennioenglish zendesk com 19 Zennio QUAD d RESPONSE DELAY after short press sets a certain delay time in tenths of a second that QUAD will wait for prior to sending the comm
8. Stop Switched Step the ix Short Press Stop Step Shutter switched 1 bit object is enabled and sent to the KNX bus with the values 1 and O alternating with every press in order to stop the shutter In case the shutter is not in motion and if slats lamellas are available this value will be interpreted as an alternating order to move them one step downwards or upwards QUAD Technical Support http zennioenglish zendesk com 15 Zennio Dimmer Control This functions allows sending the KNX bus a communication object to control light dimming devices Under the Response parameter in the tab enabled after selecting this function it is possible to set the particular order to be sent GENERAL SHORT PRESS Dimmer INPUT 1 Push Button SHORT PRESS Dimmer RESPONSE lt THERMOSTATS gt gt http www zennio com Dimming Step Light OFF Light ON OFF switched Brighter Darker Brighter Darker switched Figure 16 Dimmer Light ON the Ix Short Press Dimmer ON 1 bit object is enabled and sent to the KNX bus with the value 1 so that the light is turned on by the dimmer Light OFF the Ix Short Press Dimmer OFF 1 bit object is enabled and sent to the KNX bus with the value 0 so that the light is turned off by the dimmer Light ON OFF switched the Ix Short Press Dimmer ON OFF 1 bit object is enabled and sent to the KNX bus with t
9. Zennio Passion for KNX innovation QUAD Analogue Digital Input Module for Motion Sensors Temperature Probes and Binary Inputs ZN1IO A4IAD Application program version 5 1 User manual edition 5 1 c t 2 z t gt cc LL Un gt www zennio com Zennio QUAD Contents Document UPA ES a 3 1 Introduction RR 4 II OUA SEE 4 1 2 ipie EO 5 2 esia zaldar 7 2 1 A 7 2 2 SECU My BINA Alaia dE 8 EAn ideietara is 11 Ss EISParanieterisdtiolis cde MEE ad 12 3 1 Dena PP 12 3 2 Genebal E Er 12 3 2 1 IIA is 13 3 2 2 Temperature PODE msn 00000200 80 008 0800 00 0080008 M08 E EAN 24 3 2 3 Motion Detector M 26 Aye 27 ANNEX I Communication Objects ooccoccccccncncnncocncncnnnonnnnnnoncnnnononononnnnoncnononnnnnnnnnnoncnonanonnnns 28 http www zennio com Technical Support http zennioenglish zendesk com 2 Zennio QUAD DOCUMENT UPDATES Page s Version Changes 5 1 b c Revision about the Light ON OFF switched option in the 16 18 Dimmer Control function of the Push Button Changes in the application program e Thermostat possibility of periodically sending if configured the control variable of the currently inactive mode parameter Send both H C control signals periodically Thermostat restriction to prevent sending the additional heat cool orde
10. Zennio Building Thermostat specific document available at the http www zennio com website http www zennio com Technical Support http zennioenglish zendesk com 21 Zennio QUAD ANNEX I COMMUNICATION OBJECTS 9 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 9 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 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 e 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 A is shown in column P Objects showing a hyphen are not
11. 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 I O Flags Data Type DPT Functional Range ist boot P Reboot Name Function epp mmm TT 0x0 Stop Ox1 Dec by 100 0x2 Dec by 50 0x3 Dec by 25 0x4 Dec by 12 0x5 Dec by 6 0 TIENE 4 Bit ETR pp Control Dimming Ge GEO P e 0x8 Stop 0x9 Inc by 100 OxA Inc by 50 OxB Inc by 25 OxC Inc by 12 OxD Inc by 6 http www zennio com Technical Support http zennioenglish zendesk com 28 Ix Lock 1 Input Disabled O Enabled Ix Alarm Breakdown or sabotage 1 gt Active O gt No Active D Short Press Brighter Darker Sh Pr Bright Dark Sh Pr Stop Zennio QUAD Number am E Flags Data Type DPT Functional Range 1st boot P Reboot P Name Function OxE Inc by 3 OxF Inc by 1 12 13 1 Byte Zaria DPT_SceneControl 128 191 o a Short Press Save Scene Short Pr gt Send of 128 191 14 15 CTR Dua DPT SceneControl Lo tlg Short Press Run Scene Short Pr gt Sending of 0 63 C T R I C T R I F I I C T R I E31 a DPT_Step ae TT Long Press Stop
12. in Figure 20 GENERAL INPUT 1 Temp Sensor INFOT 1 Temp Sensor S amp THERM STATS2 Temperature sensor CALIBRATION n b 0 120 Temperature sending PERIOD 3 s 10sec 0 Dizabled x Send with a Temperature Change D E fx 0 1 C O Dizabled Temperature protection Ho E Figure 20 Temperature probe The following parameters can be configured d Temperature Sensor Calibration this option is provided to perform a permanent correction between 50 and 50 tenths of a degree over the measurements received from the probe in case the integrator has an evidence of a deviation between them and the actual temperature of the room 9 Temperature Sending Period allows selecting a cycle time from 1 to 100 tens of a second for periodically sending the currently measured temperature value to the KNX bus through the Ix Current Temperature object If this parameter is set to O the object will not be periodically d Send with a Temperature Change enables an overheating or an overcooling or both protection based on the values received from the sensor Depending on the selected protection type one or two binary communication objects will show up Ix Overheating and ix Overcooling which will indicate by acquiring the value 1 if the QUAD http www zennio com Technical Support http zennioenglish zendesk com 24 Zennio QUAD corresponding temperature upper lower limit has been exc
13. on the insertion of an end of line resistor and on continuously monitoring the state of such line so any unexpected situation can be detected Important any of the resistors shown in Table 1 can be installed although it is advisable that the power permitted by the resistor manufacturers and vendors typically provide with this information is at least 0 25 W Note that the value of the selected resistor should be also set by parameter in ETS 2200 Q 10 2 00 Q 10 3300 O 10 4700 Q 10 10000 Q 10 Table 1 End of line resistor permitted values Two different use cases can be distinguished d Normally Closed N C Switch Sensor the circuit remains typically closed and is only opened in the event of an interruption or a detection in the sensor The selected resistor should be connected to the circuit line in series and as closer as possible to the switch sensor preferably in touch with its terminals and hardly accessible from outside See Figure 4 N C S S Figure 4 Normally closed switch sensor Resistor in series gt Inthe event of a short circuit in the line QUAD will set the alarm object of the corresponding input to 1 and will then send it periodically to the bus http www zennio com Technical Support http zennioenglish zendesk com 8 Zennio QUAD until the situation is over as the short circuit is interpreted to be due to a sabotage or a breakdown N C S S Figure
14. the input is unlocked back In that moment depending on the current state of the line and on the state it had prior to being locked the edge and alarm objects may be sent http www zennio com Technical Support http zennioenglish zendesk com 22 Zennio d Sending Status on Bus Voltage Recovery when enabled this function sends the status objects including the alarm object in the case of having the security function enabled of the QUAD input values 0 or 1 as corresponding on the reboot after a bus voltage failure or after an ETS download device reset These objects are actually sent after a configurable in seconds delay Note for safety reasons if the state of the switch sensor before the bus failure differs from the state after the bus recovery QUAD will send the edge object to the KNX bus unconditionally even if this parameter is not set to Yes Additionally if QUAD finds an alarm situation sabotage breakdown etc after the bus recovery it will only send the alarm object to the bus not the edge object Moreover for safety reasons if the alarm or no alarm situation after the failure differs from the one before the failure the alarm object is sent even if the option to send the state during the startup has not been enabled Example Let a normally open security enabled switch sensor be configured to send the value 1 on rising edges and the value 0 on falling edges On bus pow
15. to decrease the light level by the parameterised step Dimming step parameter according to Table 2 although a stop order is inserted between every two dim orders Note f this function is parameterised for the short presses the orders sent to the bus on every press will commute according to the following sequence increase stop decrease stop increase However if assigned to long presses the stop orders will be sent once the button is released while the alternating increase decrease orders will always be sent as soon as a new press is detected The following example illustrates this An input configured as push button is assigned the switched brighter darker function with a dimming step of 12 5 In the case of the short presses the behaviour is as follows e 1 Press http www zennio com QUAD Technical Support http zennioenglish zendesk com 17 Zennio QUAD gt As the button gets pressed nothing happens gt Once the button is released the increase by 12 5 order is sent e 2 Press gt As the button gets pressed nothing happens gt Once the button is released the stop order is sent amp 37 Press gt As the button gets pressed nothing happens gt Once the button is released the decrease by 12 5 order is sent amp 4 Press gt As the button gets pressed nothing happens gt Once the button is released the stop order is sent e 5 Press
16. Probe INPUT 3 Motion Sensor INPUT 4 Disabled v Figure 11 Enabling an input Depending on the selected input type additional parameter windows may become visible as explained next 3 2 1 BINARY INPUT An input configured as binary can be connected both a push button or a switch sensor Depending on the binary input type different configuration options will be displayed GENERAL GENERAL INPUT 1 Switch Sensar zTHERM STATS Type Switch 4 Se Tr Push button INPUT 2 Switch Sensor INPUT 3 Disabled INPUT A Disabled b Figure 12 Binary input 3 2 1 1 PUSH BUTTON From the specific tab enabled after selecting push button for the enabled binary input see Figure 13 it will be possible to customise how QUAD reacts on the detection of presses INPUT 1 Push Button GENERAL INPUT 1 Push Buttan THERM STATS5 THRESHOLD TIME 5 pressing down 0 1 sec E RESPONSE DELAY after Short Press 0 z 40 1 ec x RESPONSE DELAY after Long Press 0 40 1 z amp ec E LUCK Ma b Figure 13 Binary input push button http www zennio com Technical Support http zennioenglish zendesk com 13 Zennio QUAD d SHORT PRESS sets the type of the action to be performed when a short press takes place on the push button connected to the input of QUAD No Action No action is performed Sending of 0 1 A new tab becomes visible to let the integra
17. aves gt N O parallel Resistor normally open switch sensor gt N C Serial Resistor normally closed switch sensor d Resistor Value sets the value in Ohms of the end of line resistor being connected to the switch sensor The available values are 2 2 KO 2 7 KO 3 3 KO 4 7 KO and 10 KO Further information on how this inputs work can be found in section 2 2 Both input types standard and with security share the following common parameters d Rising Edge sets the action to be performed whenever a rising edge i e the circuit gets closed is detected in the input line The available options are gt No Action no action is performed gt 0 QUAD will send the value 0 to the KNX bus through the Ix Sensor Edge 1 bit object http www zennio com Technical Support http zennioenglish zendesk com 21 Zennio QUAD gt 1 QUAD will send the value 1 to the KNX bus through the Ix Sensor Edge 1 bit object gt Switching 0 1 QUAD will send the values 1 and O alternatively with every rising edge that is a different value each time d Falling Edge sets the action to be performed whenever a falling edge i e the circuit gets open is detected in the input line The available options are analogous to those already described for the rising edge d Sending of 0 Delay sets a certain delay time in tenths of a second that QUAD will wait for after the detection of the edg
18. cted a temperature sensor such as model ZN1AC NTC68 from Zennio which will allow QUAD monitor the room temperature d Motion Detector Inputs configured as motion detectors need to be connected a Zennio motion sensor model ZN1IO DETEC which will allow QUAD monitor presence or luminosity changes in a room Moreover QUAD implements four independent thermostats which can be enabled and configured separately BM Zennio KRX QUAD A ZN1IO 4IAD Soma L9 6mA O LED C gt eros bada 44 3 4 24 Made in Spain Kie Figure 1 QUAD http www zennio com Technical Support http zennioenglish zendesk com 4 Zennio QUAD 1 2 INSTALLATION QUAD is connected to the KNX bus through the incorporated terminal connector while the input lines need to be connected to QUAD through the screw terminal block bundled with the packaging of the device Once powered through the KNX bus the device may be downloaded both an individual address or the application program Figure 2 shows the connection diagram of QUAD 2 e 1 KNX Bus Connector a b e Ea 2 Programming LED ES ES Prog g O i EO 3 Programming Button A LA PERBEM 4 Slot for the Input Lines N85 DIA ik ES A Ok Pd oe Figure 2 Element diagram The main elements are described next d Programming Button a short press on this button sets the device into the programming mode making the associated LED 2 light in red If
19. ding LOCK No Sending Status D and 1 on BUS Noe voltage recovery Noo Figure 18 Switch sensor From the tab that becomes visible after setting a binary input as a switch sensor see Figure 18 it is possible to customise how QUAD should behave regarding the signals received from the switch sensor connected to the input port http www zennio com Technical Support http zennioenglish zendesk com 20 Zennio QUAD The first thing to be set is the input type Standard or Security with end of line resistor In case of selecting the latter the lx Alarm Breakdown Sabotage Unstable line 1 bit communication object will show up and will be sent with the value 1 to the KNX bus every 30 seconds whenever QUAD finds the input line to be broken sabotaged or unstable refer to section 2 2 for details On the contrary once the failure is over QUAD will send the value 0 through that object only once Additionally and only in case of enabling the security function for the switch sensor the following parameters will show up as well INPUT 1 Switch Sensor GENERAL INPUT 1 Switeh Sensar lt THERMOSTATS gt gt INPUT TYPE Security with end of line resistor SWITCHSSENSOR TYPE N O parallel resistor RESISTOR VALUE 22 Kohm d Figure 19 Security switch sensor d Switch sensor Type sets how the switch sensor connected to the QUAD input port beh
20. e prior to sending through the Ix Sensor Edge object the parameterised response in the particular case of being 0 the value to be sent Should this response need to be immediate this parameter must be set to 0 d Sending of 1 Delay sets a certain delay time in tenths of a second that QUAD will wait for after the detection of the edge prior to sending through the Ix Sensor Edge object the parameterised response in the particular case of being 1 the value to be sent Should this response need to be immediate this parameter must be set to 0 d Periodical Sending of 0 sets the cycle time in seconds for periodically sending the value O through the Ix Sensor Edge object after the detection of the corresponding edge in the input line In case there is no need to send it cyclically this field should be left equal to zero d Periodical Sending of 1 sets the cycle time in seconds for periodically sending the value 1 through the lx Sensor Edge object after the detection of the corresponding edge in the input line In case there is no need to send it cyclically this field should be left equal to zero d Lock enables the Ix Lock 1 bit object which on the reception of the value 1 locks the input line so that any event that takes place is ignored i e edges and alarm situations are not monitored anymore Once the value 0 is received
21. eeded lt is therefore necessary to define the overheating and overcooling temperatures or both in Celsius degrees C Moreover it is possible to define a hysteresis in tenths of a degree to prevent successively sending the object when the room temperature keeps moving around the parameterised temperature limit GENERAL INPUT 1 Temp Sensor INPUT 1 Temp Sensor lt THERMOSTATS gt Temperature sensor CALIBRATION n ad 0 1 Temperature sending PERIOD 3 x 10sec tzate x Send with a Temperature Change 0 z 4 0 1 EU O Dizabled x Temperature protection Overheating and Overcooling Overcooling Temp s 12C 10 Overheating Temp x 120 4n Hysteresis x 0 12 dU Figure 21 Temperature protection http www zennio com Technical Support http zennioenglish zendesk com 25 Zennio QUAD 3 2 3 MOTION DETECTOR QUAD also provides the option to connect motion detectors to its input ports In case of selecting such configuration up to three virtual detection channels will be available for each input that is up to three virtual detectors may be configured based on the same measurement so that different parallel responses can be performed on the reception of the measurements GENERAL INPUT 1 Motion Sensor INPUT 1 Motion Senzor Channel 1 A O Channel 2 Luminosity sending Don t send Channel 3 lt lt THERMOSTATS gt gt CHANNEL 1 Yes CHANNEL 2 Yes e CHANNEL 3 Yes m Fi
22. ent external elements as long as they match any of the above categories pushbuttons switches temperature probes motion sensors model ZN1IO DETEC from Zennio Inputs configured as binary should be distinguished into pushbuttons and switches sensors depending on the connected element Each of these two have their own configurable parameters as described in section 3 of this manual Inputs configured as temperature probes can be customised through a set of parameters related to how the temperature value is measured and sent to the bus On their side inputs configured as motion sensors offer up to three virtual channels each which allows performing different actions upon detection and no detection events on the corresponding input As a result of the motion detection no detection each channel will send the corresponding objects to the KNX bus unless the channel is found to be locked The motion sensor also features a luminosity sensor which may be configured in QUAD to send the detection no detection objects depending on the measured luminosity level and according to the previously calibrated levels http www zennio com Technical Support http zennioenglish zendesk com 7 Zennio QUAD 2 2 SECURITY BINARY INPUTS Binary inputs configured as an switch sensor offer the option to enable a security function in order to detect breakdown or sabotage events that may arise in the system This security function relies
23. er recoveries and as long as the initial status sending function has been enabled the edge object will be sent in any case provided that there no alarm situations occur However whenever the state of the switch sensor differs from the one it had before the bus failure the status will still be sent to the bus even if the mentioned function has not been enabled The examples in the following figure illustrate this behaviour the dotted lines mark when the bus failure starts and ends while the numbers reflect the values being sent to the bus through the edge object Similar rules apply to alarm situations and to the initial sending of the alarm object QUAD http www zennio com Technical Support http zennioenglish zendesk com 23 Zennio 3 2 2 TEMPERATURE PROBE When an input is set to temperature probe it is possible to configure a set of parameters from the specific tab that shows up Apart from that the Ix Current temperature 2 byte object and the Ix Probe error 1 bit object are shown The former will report the current temperature value as measured by the probe connected to the input The second object on its side will report whether there is a failure in the connection of the probe in such case the object will acquire the value 1 As soon as the connection is re established the value of the object will become 0 again The default window for the configuration of the temperature probe is shown
24. gure 22 Motion detector After enabling any of the available channels the following parameter screen will become available GENERAL Channel 1 INPUT 1 Motion Sensor Channel 1 A AA Channel 2 ENABLE LOCK Always enabled E Channel 3 Reset Luminosity after No Detection No E BLIND TIME x 12 amp c DETECTION Value sent 1 switch on E Send status Once E Delay x leen D Constrained by luminosity Mo only enabled under threshold NO DETECTION Value sent O swatch aff E Send status Once Delay 2 1sec 0 Figure 23 Channel configuration For further information on how the motion sensor works and needs to be configured please refer to the Motion Detector specific document available at the http www zennio com website http www zennio com Technical Support http zennioenglish zendesk com 26 Zennio QUAD 3 3 THERMOSTATS As advanced in section 2 3 QUAD offers the option to enabling and configuring up to four thermostats independently GENERAL Thermostat 1 lt lt THERMOSTATS gt gt Thermostat 1 Setpoint Thermostat Function Heating and Cooling Heating M Cooling HC Automatic Switching Disabled Dur a periodically D Thermostat always OM es Sending Statuses on BUS voltage recovery No Mi Figure 24 Configuration of thermostat 1 For further information on how the Zennio thermostat works and needs to be configured please refer to the
25. he values 1 and 0 alternating with every press so that the light can be turned on and off with a sole push button Note this function works in the same terms both if applied to short presses or to long presses every time a button press is detected a different order will be sent switch on switch off while no orders will be sent at all when the button is released Brighter the Ix Short Press Brighter 4 bit object is enabled and sent to the KNX bus so that the light level is increased by the parameterised step Dimming step parameter according to Table 2 On the first short press a light increase order will be sent while on the second press an order to interrupt the regulation will be sent Further presses will repeat the same sequence QUAD Technical Support http zennioenglish zendesk com 16 Zennio Example Table 2 Dimming steps Darker the Ix Short Press Darker 4 bit object is enabled and sent to the KNX bus so that the light level is decreased by the parameterised step Dimming step parameter according to Table 2 On the first short press a light decrease order will be sent while on the second press an order to interrupt the regulation will be sent Further presses will repeat the same sequence Brighter Darker switched the Ix Short Press Brighter Darker 4 bit object is enabled and sent to the KNX bus alternatively with the orders to increase or
26. lue DPT Value Temp 273 00 670760 00 2500 00 va Temperature Source2 Temperature Source 2 External Sensor Measure Sensor Measure 1127 113 0 Comfort 114 115 1 Byte DPT_HVACMode 1 Standby Tx Special Mode 1 byte HVAC Mode 3 Economy 116 120 http www zennio com Technical Support http zennioenglish zendesk com 3 Im Zennio E C gt U Number Size I O Flags Data Type DPT Functional Range ist boot P Reboot P Name Function Lo peppm mem poe po E era 125 129 be ES LETT eT Te rca oe ze om 126 130 119 123 EIC ien DPT Trigger ATT Special Mode protection O Nothing 1 Trigger deian 1 36 137 0 Comfort E Sd 1 Byte E TR DPT_HVACMode 1 Standby i 3 Economy 144 145 2 Bytes leds DPT Value Temp 273 00 670760 00 oo Tx Setpoint hermostat setpoint input 146 147 2 Bytes Mira DPT Value Temp 273 00 670760 00 lo Tx Basic Setpoint Reference setpoint 148 149 L52 158 2 Bytes pw DPT Value Tempd 10 00 10 00 poo Tx Setpoint Offset Float offset value 2 Bytes Cal DPT Value Temp 273 00 670760 00 erien Tx Setpoint Status Current setpoint 160 161 CTR e i 162 163 2 Bytes _ DEI Value Temp 273 00 670760 00 Tx Basic Setpoint Status Current basic setpoint 2 Bytes AR DPT_Value_Tempd 10 00 10 00 ow w Tx Setpoint Offset Status Current setpoint offset 170 171 EI eT Th te Tx Special Mode Status Ham ee i c w DPT Heat coor lo it Mode
27. open S S By means of this security function in the switch sensor binary inputs QUAD is also able to analyse the voltage levels of the system In case they are found to be unstable e g due to the coupling of other lines QUAD will activate the alarm object of the corresponding input and send the activation value to the bus periodically until such event is over Additionally QUAD offers the possibility of connecting multiple switches sensors to the same input so that a certain function can be alternatively controlled from one or another provided that they are of the same type normally open or normally closed In case this option needs to be combined with the security function it is important to keep in mind that only one end of line resistor should be installed in other words only to one of the switches sensors connected to the same input http www zennio com Technical Support http zennioenglish zendesk com 10 Zennio QUAD 2 3 THERMOSTATS QUAD allows independently enabling and configuring up to four thermostat functions with independence of the number of the inputs that have been configured How the Zennio thermostat works and is configured is described in an specific document Zennio Building Thermostat available at the http www zennio com website http www zennio com Technical Support http zennioenglish zendesk com 11 Zennio QUAD 3 ETS PARAMETERISATION To begin with the parameterisa
28. p zennioenglish zendesk com 14 Zennio GENERAL SHORT PRESS Shutter INPUT 1 Push Button lt THERMOSTATS gt gt http www zennio com Down Up Down switched Stop Step Up Stop Step Down Stop switched Step Figure 15 Shutter control Up the Ix Short Press Move Up Shutter 1 bit object is enabled and sent to the KNX bus with the value 1 so that the shutter is moved up Down the Ix Short Press Move Down Shutter 1 bit object is enabled and sent to the KNX bus with the value 0 so that the shutter is moved down Up down switched the Ix Short Press Move Up Down Shutter 1 bit object is enabled and sent to the KNX bus with the values 1 and 0 alternating so the move up and move down orders can be sent with a sole push button Stop Step Up the Ix Short Press Stop Step Up Shutter 1 bit object is enabled and sent to the KNX bus with the value 0 in order to stop the shutter In case the shutter is not in motion and if slats lamellas are available this value will be interpreted as an order to move them one step upwards Stop Step Down the Ix Short Press Stop Step Down Shutter 1 bit object is enabled and sent to the KNX bus with the value 1 in order to stop the shutter In case the shutter is not in motion and if slats lamellas are available this value will be interpreted as an order to move them one step downwards
29. rs when they are not necessary Motion sensor new parameter to restart the luminosity for a certain time after a no detection New structure of the section Clarifications and figures added 5 1 a Figures 11 12 15 16 17 19 and 21 added Clarification about the Shutter controls 15 16 Clarification and examples about the Light Dimming 16 19 Clarification about the Lock function Clarification and example added about how the initial states are sent Clarification about the channel concept General revision of the document texts and styles revision of the document texts and General revision of the document texts and styles Changes in the application program 5 0 a e Security function added to the switch sensor binary inputs to allow the detection of breakdown sabotage situations http www zennio com Technical Support http zennioenglish zendesk com 3 Zennio QUAD 1 INTRODUCTION 1 1 QUAD QUAD is an analogue digital input module from Zennio featuring four separate inputs each configurable as d Binary Input Inputs configured as binary inputs can be connected a conventional potential free pushbutton a switch or a binary sensor It is also possible to detect breakdown and sabotage situations in the input lines by enabling the security functions for the binary inputs 9 Temperature Probe Inputs configured as a temperature probe can be conne
30. this button is held at the same time of applying bus power to the device QUAD will enter the Safe Mode In such case the LED will intermit in red d Slots for the Input Lines insertion slot for the input terminal block Figure 3 which is required for the connection of the input lines 1 4 to QUAD For proper results the terminals from the external elements pushbutton switch sensor temperature probe or motion sensor should be connected on the one hand to the corresponding numbered connection point 1 4 of the terminal block and on the other hand to any of the two common connection points labeled as C which are internally connected which makes them equivalent to each other http www zennio com Technical Support http zennioenglish zendesk com 5 Zennio QUAD Figure 3 Input terminal block To obtain further information about the technical features of QUAD and on security and installation procedures please refer to the Datasheet of the device bundled with the original packaging and also available at the http www zennio com website http www zennio com Technical Support http zennioenglish zendesk com 6 Zennio QUAD 2 CONFIGURATION 2 1 GENERAL The QUAD analogue digital input controller from Zennio is a multi function device featuring four input ports each of them configurable as d Binary Input d Temperature Probe d Motion sensor Therefore QUAD makes it possible to connect differ
31. tion process of QUAD it is necessary once the ETS software has been opened to import the corresponding product database Next the device is inserted into the project where desired and after right clicking on its name the Edit parameters option should be selected to start the process The next sections show the parameterisation process in detail and the different functions provided by QUAD 3 1 DEFAULT CONFIGURATION When entering the parameter edition of QUAD for the first time the following window Will be shown GENERAL GENERAL lt THERMOSTATS gt gt INPUT 1 Disabled INPUT 4 Disabled Figure 10 Default parameterisation window As shown in Figure 10 the four inputs of the device are disabled by default It is necessary to enable and configure them independently The Thermostats tab is also visible by default It permits enabling and configuring the four available thermostats which are disabled by default No communication objects are displayed by default They will become visible as the different functions of the device are enabled by the integrator 3 2 GENERAL SCREEN This window brings the option to enable and configure the different input ports of QUAD http www zennio com Technical Support http zennioenglish zendesk com 12 Zennio QUAD GENERAL GENERAL lt lt THERMOSTATS gt gt INPUT 1 n Disabled INPUT 2 Binary Entry Temperature
32. tor set under Response the value to be sent to the KNX bus when a short press happens GENERAL SHORT PRESS 071 INPUT 1 Push Button SHORT PRESS 0 1 RESPONSE EEE n lt lt THERMOSTATS gt gt CYCLICAL RESPONSE SENDING Only for value 1 Cycle time x 1 sec 30 Figure 14 Sending of 0 1 e 0 the Ix Short Press 0 1 bit communication object is enabled and sent to the KNX bus with the value 0 on every press e 1 the Ix Short Press 1 1 bit communication object is enabled and sent to the KNX bus with the value 1 on every press e Switching 0 1 the IxX Short Press Switching 1 bit communication object is enabled and sent to the KNX bus with the values 1 and 0 alternating after every press The transmission of these values can be performed cyclically i e it is possible to periodically re send them the Os or the 1s or both if configured If such option is required the Cyclical Response Sending parameter needs to be enabled which will bring an additional parameter Cycle time to set a certain time 1 255 seconds Shutter Control This function allows sending the KNX bus a 1 bit object for shutter control Under the Response parameter in the tab that shows up after selecting this function it is possible to select the particular order to be sent on a short press http www zennio com Technical Support htt
33. unication objects corresponding to the response parameterised for short presses In other words after a short press QUAD will wait for the configured delay before sending the corresponding value to the bus Should this response need to be immediate this parameter must be set to 0 RESPONSE DELAY after long press sets a certain delay time in tenths of a second that QUAD will wait for prior to sending the communication objects corresponding to the response parameterised for long presses In other words after a long press QUAD will wait for the configured delay before sending the corresponding value to the bus Should this response need to be immediate this parameter must be set to 0 LOCK enables the TIK Lock 1 bit object which on the reception of the value 1 locks the input line so that any press that takes place is ignored Once the value 0 is received the input is unlocked back Actions presses that may occur while the input is locked will not be taken into account after the input is unlocked again 3 2 1 2 SWITCH SENSOR GENERAL INPUT 1 Switch Senzor lt lt THERMOSTATS3 gt INPUT 1 Switch Sensor INPUT TYPE Standard RISING EDGE No Action FALLING EDGE Na Action Sending of D DELAY n 40 1 sec E Sending of 1 DELAY n 40 1 sec E PERIODICAL SENDING OF 0 n 1 zg lekin cyclical sending x PERIODICAL SENDING DET n 1 sec O No cyclical sen
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