User Manual
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1. nvi_PIDx_Setpt SNVT_temp_setpt nvi_PIDx_Set nvo_PIDx_Setpt SNVT_temp_p SNVT temp setpt I nvi PIDx Sensor1 nvo PIDx Act SNVT temp p SNVT switch nvi PIDx Sensor2 nvo PIDx Set SNVT temp p SNVT temp p nvi PIDx RunCmd nvo PIDx Ctrl SNVT switch SNVT switch nvi PIDx Ctrl SNVT switch The Controller PID includes the following functions Constant Normal Constant Cascade Curve Thermostat functions Linear Setpoint nvi xPID Ctrl Linear Setpoint nvi xPID Sensor2 Setpoint Calculation NOTE The PID controller should be tuned separately for each application not relevant for Thermostat functions and Setpoint Calculation There are some rules of thumb to help this Large gain shortens the rise time but on the downside it also increases overshoot ntegration corrects steady state errors but if TI is too short it can cause oscillations and can make the system unstable Derivation makes the controller faster and removes oscillations but if TD is too short it makes the system very sensitive to high frequency noise and delays Use derivation with caution in 99 of cases a Pl controller is enough LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 50 70 gt lomnnx M10 MultiController 7 Constant Normal This function is used with applications that use constant2. Alarm Off Delay HiHi Level Alarm Hi Level Alarm Lo Level Alarm LoLo Level Alarm Offset Sensitivity Range LONIX LTD www lonix com This parameter selects which of the two output variables is used for trending This parameter selects which of the two output variables is used for alarm triggering The priority of the alarms generated by this object If the parameter is zero 0 then no alarms are generated The higher the value the more important the alarm is This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to exceed fall below the alarm limit before an alarm is generated NOTE An Al object that needs to generate alarms must have an Alarm On Delay greater than zero 0 Otherwise no alarms are generated This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to fall below exceed the alarm limit before the alarm is inactivated High high level limit for the alarm If the measurement exceeds this value then an alarm with a priority of 1 to the configured alarm priority is generated High level limit for the alarm If the measurement exceeds this value then an alarm with the configured alarm priority is generated Low level limit for the alarm If the measurement falls below this value then an alarm with the configured alarm priority is generated Low low level limit for the al
3. The gain KP of the PID controller 100 100 Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356 56 70 GAB Te IEN Integration Time Derivation Time Sensitivity of PID Invert Sensor Selection nvi_xPID_Sensor1 Sensor Selection nvi_xPID_Sensor2 Hi Level Sliding Alarm Lo Level Sliding Alarm Actuator Selection Actuator Range Max Min Actuator OFF State Value Curve Point 1 Min LONIX LTD www lonix com User Manual M10 MultiController Integration time TI of the PID controller Integration disabled if this is set to zero 0 The longer the time the more effect it has on the control Derivation time TD of the PID controller Derivation disabled if this is set to zero 0 The longer the time the more effect it has on the control This parameter defines the minimum deviation of the measurement from the reference point setpoint before the controller s output is adjusted The controller normally adjusts the system with respect to the difference between the reference setpoint and the process measurement With this parameter the difference can be inverted i e the controller adjusts the system with the difference between the process measurement and the reference Also the actuator output of the controller can be inverted which is useful for example in cooling systems when a valve drive actually needs to open when the temperature is rising Selection of the proce
4. This variable used to input the compensation measurement in Linear Setpoint nvi xPID Sensor2 mode only In Linear Setpoint nvi xPID Ctrl mode it has no significance This variable is not in use in this function the controller is always active This variable is used to input the control value in Linear Setpoint nvi xPID Ctrl mode only No significance in Linear Setpoint nvi xPID Sensor2 mode This variable outputs the value of nvi xPID Gett This variable outputs the current setpoint of the controller Tel 358 9 349 9853 VAT 1043054 9 FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN nvo xPID Ctrl nvo xPID Actuator User Manual M10 MultiController This variable outputs the value of nvi xPID Ctrl 64 70 This variable is the control value for the actuator The state of the variable is 1 only when the value is 100 Otherwise the state is 0 Configuration Parameters Start Up Ramping Time Proportional Integration Time Derivation Time Sensitivity of PID Invert Sensor Selection nvi xPID Sensor1 Sensor Selection nvi xPID Sensor2 Hi Level Sliding Alarm Lo Level Sliding Alarm LONIX LTD www lonix com Linearly adjusts the setpoint of the controller from the initial process measurement value to the configured setpoint during the time set with this parameter disabled with 0 This feature is intended for smooth start ups of processes The func
5. Yes No Value 0 200 Active 0 1 This function is used in electrical heating applications and compressor power adjustment applications when the system is controlled through several devices with different power properties in most cases the next device has a double power property compared to the previous device to achieve linear power output steps for the whole system Each of the devices is controlled with a single DO object attached in series with the DO objects of the other devices Control 0 10096 LONIX LTD www lonix com Notation Electric heating radiator 33 nvi DO Switch1 gt nvo DO Switch DO object Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C crx User Manual M10 MultiController 34 70 For example an electrical heating radiator might consist of 4 separate heating resistors with different power outputs As the control value increases the first resistor is switched on Further increasing the control value the first resistor is switched off and the second on If the control value still increases also the first resistor is switched on to achieve a small additional increase in heating power Next power increase step would be switching the first and the second resistors off and turning on the third resistor Thus with a binary sequence each bit corresponding to the state information ON OFF of each device multiple levels
6. Circuit open CH LED off 1 AL Measure OK Short LED blink once in a second SN Active 0 10V and Resistance LED always on I Al Not connected LED blinking slowly 4x second e Active 0 10V and Resistance LED always on 1 Als Shorteircuited LED blinking fast 10x second a Active 0 10V and Resistance LED always on 10x s DO Active on e LED on DO Inactive off LEDoft AO Output value E LED with 0 100 blinking frequency T OV off increasing from 20V slow to 10V fast NOTE 10 70 LEDs always indicate the physical state of the I O For example programmatic inverting does not change LED functionality LONIX LTD www lonix com Teollisuuskatu 33 Fl 00510 Helsinki Finland Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356 User Manual 11 70 M10 MultiController elon LX M10 Software Configuration of M10 Application General Digital Input DI Digital Output DO Analog Input Al Analog Output AO Controller PID Node Object Module Parameters LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 12 70 e le LE M10 MultiController 2 General The M10 MultiController includes the embedded software application which is configured for the needed functionality These chapters describe the functionality of the M10
7. either burglar alarm code or fire alarm code depending on the configuration Configuration Parameters On Delay Off Delay Invert Alarm Delay Alarm Priority Alarm Type On Value State of nvo xDI Switch1 Off Value State of nvo xDI Switch1 On Value State of nvo xDI Switch2 Off Value State of nvo xDI Switch2 LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed If the object is configured as an alarm point the alarm takes place only after the On Delay time In case the object compares conflicts for alarming the On Delay time is used for conflict information as well This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed In case the object compares conflicts for alarming the Off Delay time is used for conflict information as well This parameter inverts the values of the output network variables i e when the object is changed to ON state OFF state values of the output network variables are updated and vice versa Alarm and monitoring delay i e safe time When the object switches to armed mode it will not cause any alarms during the Alarm Delay period The monitored space can be safel
8. nvo xDI Switch2 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in OFF state Note 1 Notation 200 01 means that value is 200 and state information 1 3 3 Scene Normal amp State Operated Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 16 70 This function is used e g in push buttons of lighting systems extension time buttons of air conditioning units and running info of pumps and fans In Normal mode the state of this object changes every time the circuit is first closed and then opened again pulse In State Operated mode the state of the object is changed according to circuit state closed gt ON open gt OFF similar to Indication function In both modes the value of nvi xDI Switch is always passed on to both nvo xDI Switches to allow chaining of the scene objects Functionality of Network Variables nvi xDI Switch The value of nvi xDI Switch is passed directly to both nvo xDI Switch and nvo xDI Switch2 so the object can be nvo xDI Switch1 nvo xDI Switch2 used for chaining of scene objects to the object s state to the object s state Configuration Parameters On Delay Off Delay LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes f
9. nvo xPID Set and nvo xPID Act variables 7 6 Setpoint Calculation 65 70 nvo xPID Act nvi XTAO Ctrl nvi xbAO Ctrl nvi xXTAO Ctrl nvi x2AO Ctrl 0 0 200 99 0 200 Yes No This function is used for arithmetic calculation of input values The object takes a maximum of three inputs and performs a different calculation in four predefined scenes Scene 1 nvo xPID Set nvi xPID Set nvi xPID Sensor1 Scene 2 nvo xPID Set nvi xPID Set nvi xPID Sensor2 Scene 3 nvo xPID Set nvi xPID Set nvi xPID Sensor1 nvi xPID Sensor2 Scene 4 nvo xPID Set nvi xPID Set nvi xPID Sensor nvi xPID Sensor2 Functionality of Network Variables LONIX LTD www lonix com nvi xPID Setpt nvi xPID Set nvi xPID Sensor1 nvi xPID Sensor2 nvi xPID RunCmd nvi xPID Ctrl Teollisuuskatu 33 This variable is not in use This variable is the first input value for the calculation This variable is the second input value for the calculation This variable is the third input value for the calculation If the value of this variable is greater than 90 and SceneNo2 is activated then the object calculates the efficiency ratio of e g a heat recovery unit See example below This variable is used for scene input If the value of the variable doesn t equal any of the configured scene numbers nvo xPID Set will be 0 If the value of nvi xPID Ctrl is zero then Tel 358 9 349 9853 VAT 1043054 9 FI 00510 Helsin
10. 1 See Note 1 VAT 1043054 9 Trade Reg No 678 356 User Manual 19 70 e le LE M10 MultiController Operational Hours Init Initiation value for the usage hour information stored in nvoTrend variable of 0 65535s Value the controller Note 1 Notation 200 01 means that value is 200 and state information 1 3 5 Monitored Alarm Arming This function is used in alarm applications for switching the monitored alarm loop status into armed disarmed circuit closed armed Switching to disarmed state also functions as an acknowledgement and resets the alarms Field devices occupancy sensors magnetic switches etc which are connected to other Dl points and configured as type Monitored Alarm are bound into loop with this object to form a monitored alarm loop The object monitors the alarm loop by sending a periodical monitoring token to the member objects of the loop If the token does not pass the whole loop a sabotage alarm is triggered after a set delay A loop must not include more than one object of this type See also Monitored Alarm Functionality of Network Variables nvi xDI Switch Used for the feedback of the alarm loop It shall be connected with the mo xDI Switch1 of the last object in the alarm loop nvo SD Switch1 Shall be connected with the nvi xDI Switch of the first object in the alarm loop see above It can also be bound to a DO object that functions as an alarm buzzer or indication nvo xDI Switch
11. 2 3 4 5 6 nvi xPID Set The first field of nvi xPID Setpt is then used to deviate this value nvi xPID Sensor1 This variable is the input for process measurement nvi xPID Sensor2 This variable the deviation for the setpoint during Scenes 1 2 and 3 nvi xPID RunCmd Input for run command to activate the controller The controller is activated when the value or state of the variable is greater than 0 If not activated the actuator output is the value configured with Actuator OFF state Value parameter nvi xPID Ctrl This variable is used for scene number input The value of nvi xPID Ctrl is regarded as the scene number The state has no significance nvo xPID Setpt This variable outputs the value of nvi xPID Gett nvo xPID Set This variable outputs the current setpoint of the controller nvo xPID Ctrl This variable outputs the value of nvi xPID Ctrl nvo xPID Actuator This variable is the control value for the actuator The state of the variable is 1 only when the value is 100 Otherwise the state is 0 Configuration Parameters Start Up Ramping Linearly adjusts the setpoint of the controller from the initial process 0 32767 Time measurement value to the configured setpoint during the time set with this parameter disabled with O This feature is intended for smooth start ups of processes The function also activates after power failures Proportional The gain KP of the PID controller 100 100 Integration T
12. 200 99 0 0 200 99 nvo xPID Act nvi xXTAO Ctrl nvi xbAO Ctrl nvi xXTAO Ctrl nvi x2AO Ctrl 0 0 200 99 0 200 In Cascade mode the controller is usually the main controller of compensation in air conditioning The compensated setpoint is output via nvo xPID Set variable and it is bound to the nvi xPID Set of the pilot controller The range for nvo xPID Set can be configured with the nvi xPID Setpt variable When using cascade mode it is recommended that a P controller with a gain of 1 is used i e Integration Time and Derivation Time are 0 Proportional 1 If the process measurement resides in the same module with the controller the process measurement can be brought to the controller via an internal binding The control command for the actuator can also be sent via an internal binding See Configuration parameters Sensor Selection Actuator Selection The controller can be configured for six separate scenes which deviate the configured setpoint with the value in nvi xPID Sensor2 or the three last fields in nvi xPID Gett LONIX LTD www lonix com Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 53 70 e le LE M10 MultiController Functionality of Network Variables nvi_xPID_Setpt The fields of the variable in Cascade mode are as follows Field no in nvi_xPID_Setpt Setpoint or deviation Minimum value of nvo xPID Set
13. 26 4 4 PWM Control Nomalt AA 27 4 55 PWM Control Constant Time 29 406 Alarm Priority Control nere it er eee ert ed tenet e He a Leto a FEE 31 47 Binary m 33 48 Linear Step ier tiu tei ie tte neta rate di a Cerere itd a dore bdo oed Ee Ho d eco Ee Ra 35 AQ NIU T EE 37 5 Analog Re EI E A0 5 1 Passive Sensors Pt 1000 Ni 1000 LG Ni 1000 DIN Resistance eeeeeeereee 41 5 2 Active 0 10V E 42 5 3 Condensation Point Dew Point 43 6 Analog Output AO ccccecesseeeeeneeeneeeeneeeeenseeensneeenneeesaeeesaeesnseeeasaeesaeesasaaeeneeseasaeeseseesneeeeneneeens 45 NES venio EE 45 6 2 Maximum Minimum Control 46 6 9 Sene opreegt ects cue eite en rire n bee ras cR Ee cR Vea nga ENER KREE XN SERES ERES 47 Te Controller TT EE 49 ZA Gonstant NOM Ay e 50 Te Constant CaSCade RE 52 Ta CUNE EEN 55 7 4 Thermostat FUNCIONS rniii nnuirannnnninenenanas mananan anaa ann oaa aaa aa aana aana aaa aa nens nn aada 58 7 5 Linear Setpoint All types sessssssssssssesseeseeseneeneneenenennenen nennen rennen nennen ren nnns nnne 61 7 6 Setpoint Calculation essssssssesssssssseeseeeeeeeeennen nennen en nen enters inten ee tnn sett RiR e nnns en 65 LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356
14. 50 of its range Linear Setpoint nvi PID Sensor2 juiodieg Minimum limit Min value of nvi PID Sensor2 Max value of measurement measurement LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C c User Manual 63 70 M10 MultiController Functionality of Network Variables LONIX LTD www lonix com nvi xPID Setpt nvi xPID Set nvi xPID Sensor1 nvi xPID Sensor2 nvi xPID RunCmd nvi xPID Ctrl nvo xPID Setpt nvo xPID Set Teollisuuskatu 33 This variable is used for configuring the ranges for the setpoint and the compensation measurement Linear Setpoint nvi xPID Ctrl Field no in nvi xPID Setpt 1 Deviation for the calculated setpoint but not recommended for use Use nvi_xPID_Set instead 2 Lower limit for the setpoint range 3 Upper limit for the setpoint range 4 Lower limit for the control range must be 0 5 Upper limit for the control range must be 2 Field no in nvi xPID Setpt 1 Deviation for the calculated setpoint but not recommended for use Use nvi_xPID_Set instead 2 Lower limit for the compensation measurement 3 Upper limit for the compensation measurement 4 Lower limit for the setpoint range 5 Upper limit for the setpoint range e This variable is used to deviate the calculated setpoint This variable is used to input the process measurement
15. AI ALARM STATUS Al alarm status of point 10 Description of Enum Al ALARM STATUS NO AI ALARM CONDITION 0 LOLO ALARM 1 LO ALARM 2 HI ALARM 4 HIHI ALARM 8 The following table shows the meaning of the different fields of nvi x Override variable here x is the I O point number value between 1 10 UNVT Manual LXM10 valueSwitch state short Variable field Type Description 1 state Enum manual override Defines the state of manual override on off 2 valueSwitch value Struct Unsigned short signed Defines value of override for DI DO AO points 3 valueTemp Signed long Defines value of override for Al points LONIX LTD www lonix com Teollisuuskatu 33 Fl 00510 Helsinki Finland Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356
16. Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi xPID Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object The controller behaviour i e the setpoint can be adjusted with predetermined scenes The scenes are marked with unique identifiers numbers that are sent to the controller via nvi xPID Ctrl When the value of nvi xPID Ctrl matches that of a configured scene the setpoint of the controller is deviated from the normal setpoint by an amount defined with nvi xPID Sensor2 For example the temperature of a room is lowered by 3 degrees during night time The scene number for this is defined as 11 The value of this parameter is then configured as 11 99 When an SNVT switch of value 5 5 is input to nvi xPID Ctrl and nvi xPID Sensor2 has the value 3 0 the controller lowers the setpoint by 3 degrees This scene is active until a new scene number is input to nvi xPID Ctrl if it is not a valid scene number the controller will return back to its normal state Note A scene number greater than 99 must be configured in the first part of the parameter Scene numbers lower than 10 defined in the second part of the parameter must have a zero prefix e g 120 04 Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 54 70 0 9999 s 0 100
17. Digital Input DI Digitallnput nvo xDI Switch1 SNVT switch nvi xDI Switch SNVT _switch nvo_xDI_Switch2 SNVT_switch The Digital Input DI includes the following functions Indication Pulse Switch Scene Normal Scene State Operated Monitored Alarm Monitored Alarm Arming Slide ON OFF SUB ADD Slide ADD Slide SUB 3 Indication Indication is used for monitoring the state information of e g pumps fans filters smoke detectors etc It can also monitor conflicts between the object s physical state and the state of the network input variable This is often used e g for confirming that a device with a run status signal actually turned on by binding the output of an DO object relay to the network variable input of this DI object LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C cx User Manual M10 MultiController Functionality of Network Variables nvi xDI Switch nvo xDI Switch1 nvo xDI Switch2 14 70 If the control state information of another object is bound to the nl xDI Switch and the Alarming State parameter is set appropriately the object monitors for conflicts Comparison is done between the state field of this input network variable and the selected output network variable see Alarming State parameter The value and state of the object T
18. Finland Fax 358 9 349 9863 Trade Reg No 678 356 C cx 10 Tables on nvoTrend and nvi x Override variables User Manual M10 MultiController 70 70 The following table shows the meaning of the different fields of nvoTrend variable UNVT Trend LXM10 Variable field Type Description 1P01 DATA Unsigned Long Point 1 data e g operational hours 2 PO1 DATA Unsigned Long Point 2 data e g operational hours 3 P01 DATA Unsigned Long Point 3 data e g operational hours 4 P01 DATA Unsigned Long Point 4 data e g operational hours 5 P01 DATA Unsigned Long Point 5 data e g operational hours 6 P01 DATA Unsigned Long Point 6 data e g operational hours 7 PO1 DATA Unsigned Long Point 7 data e g operational hours SPOT DATA Unsigned Long Point 8 data e g operational hours 9 P01 DATA Unsigned Long Point 9 data e g operational hours 10 PO1 DATA Unsigned Long Point 10 data e g operational hours Dla ALARM STATUS Unsigned Short DI alarm status bits of points 1 8 DIb ALARM STATUS Unsigned Short DI alarm status bits of points 9 10 AIO ALARM STATUS Enum AI ALARM STATUS Al alarm status of point 6 Al1 ALARM STATUS Enum AI ALARM STATUS Al alarm status of point 7 AI2 ALARM STATUS Al alarm status of point 8 AI3 ALARM STATUS Enum AI ALARM STATUS Al alarm status of point 9 Ad ALARM STATUS Enum Al ALARM STATUS m mS s Enum
19. Level Sliding Alarm LONIX LTD www lonix com Linearly adjusts the setpoint of the controller from the initial process measurement value to the configured setpoint during the time set with this parameter disabled with 0 This feature is intended for smooth start ups of processes The function also activates after power failures The gain KP of the PID controller Integration time TI of the PID controller Integration disabled if this is set to zero 0 The longer the time the more effect it has on the control Derivation time TD of the PID controller Derivation disabled if this is set to zero 0 The longer the time the more effect it has on the control This parameter defines the minimum deviation of the measurement from the reference point setpoint before the controller s output is adjusted The controller normally adjusts the system with respect to the difference between the reference setpoint and the process measurement With this parameter the difference can be inverted i e the controller adjusts the system with the difference between the process measurement and the reference Also the actuator output of the controller can be inverted which is useful for example in cooling systems when a valve drive actually needs to open when the temperature is rising Selection of the process measurement for the controller The process measurement can be brought to the controller from AI objects located in the same module with the contr
20. No PID invert Actuator invert Actuator PID invert nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo x10AI Sensor nvo x6Al Calcul nvo x10AIl Calcul 255 255 255 255 0 0 200 99 VAT 1043054 9 Trade Reg No 678 356 User Manual 55 70 gt DE M10 MultiController Sensor2 SceneNo3 S See Sensor2 SceneNo1 Sensor2 SceneNo2 0 0 200 99 Pfield4 SceneNo4 Note If a scene number defined in the second part of the parameter activates the deviation for the setpoint is the fourth field of nvi_xPID_Setpt variable not the value of nvi_xPID_Sensor2 SPfield5 SceneNo5 S_ See Sensor2 SceneNo1 Sensor2 SceneNo2 0 0 200 99 Pfield6 SceneNo6 Note If a scene number defined in this parameter activates the deviation for the setpoint is the fifth sixth field of nvi_xPID_Setpt parameter not the value of nvi_xPID_Sensor2 Actuator Selection When an internal binding is used this parameter defines the controlled AO nvo xPID Act object s input inside the same module If an internal binding is not used this nvi x1TAO Ctrl should be set to nvo xPID Act nvi xXbAO Ctrl nvi xX1AO Ctrl nvi x2AO Ctrl1 Actuator The maximum and minimum output values of nvo xPID Act can be set with 0 0 200 99 Range Max Min this parameter Actuator OFF State OFF state value of the controller When the controll
21. On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed Off Delay This parameter defines the OFF delay of the objects physical state When 0 65535s the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed Switching Mode When value Low is selected the object disconnects in OFF state only Low minus terminal from the power supply When High is used only plus High terminal is disconnected from power supply Value High and Low uses High and Low both terminals to switch the output ON and OFF Locking Level Locking level of the object The value of this parameter defines the limit level 0 200 for the value field of nvi xDO AlrmStop variable higher values causing the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Locking Release Level Invert Alarm Priority to Operate AlarmStop ON nvo xDO Switch value active 4 7
22. User Manual 3 70 C crc M10 MultiController 8 Node Object 9 Module Parameters ocurreret ana CES gege EN eege 69 10 Tables on nvoTrend and nvi x Override variables eese 70 LONIX LTD Teollisuuskatu 33 www lonix com Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 4 70 e le LE M10 MultiController Introduction This document describes technical details and functionality of the Lonix M10 MultiController Lonix M10 MultiController includes the needed functionality for HVACE processes such as controls of heating cooling ventilation air conditioning and lighting The M10 MultiController includes the freely configurable software application which is configured to the needed functionality Each M10 includes 10 flexible I O points m 5Ul m 5DI UO W 2 Controllers PID This document consists of two main parts LX M10 Hardware and LX M10 Software The first part describes the physical features of the Controller and characteristics of the Input Output points The second part gives detailed view on Configuration Parameters of the I O Objects and the Node Object Reader should have basic level of understanding about Lonix PCT Project Creation Tool software which is used as a Configuration Tool for LX M10 MultiControllers and other Lonix devices This document is meant primarily for instal
23. continuous control The controller adjusts the attached actuator with respect to the process measurement and the configured setpoint reference If the process measurement resides in the same module with the controller the process measurement can be brought to the controller via an internal binding The control command for the actuator can also be sent via an internal binding See also Configuration parameters Sensor Selection Actuator Selection For example the domestic hot water temperature is fixed at 58 C controller setpoint If the process measurement i e the current domestic hot water temperature differs from the setpoint the controller opens closes the attached actuator a valve regulating the flow of heating water that is used to heat the domestic hot water circuit to maintain the domestic hot water temperature at 58 C The controller can be configured for six separate scenes which deviate the configured setpoint with the value in nvi_xPID_Sensor2 or the three last fields in nvi_xPID_Setpt Functionality of Network Variables nvi_xPID_Setpt This variable determines the setpoint of the controller The six fields of the variable in Normal mode are as follows Field no in nvi_xPID_Setpt Setpoint 4 5 e nvi_xPID_ Set This variable deviates the setpoint of the controller with this value If the controller is acting as a pilot controller in a cascade control loop this variable is bound to nvo xPID Set of the casca
24. measured value and the value of nvi xAl Sensor is output to nvo xAI Calcul Average The object measures the value of the connected sensor and outputs the result to mo xAI Sensor The calculated average of the measured value and the value of nl xAI Sensor is output to nvo xAI Calcul LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C c3 User Manual M10 MultiController 41 70 5 Passive Sensors Pt 1000 Ni 1000 LG Ni 1000 DIN Resistance These functions are used when connecting passive sensor elements to Al object Function type has to be selected according to the sensor element type Pt 1000 Ni 1000 LG or Ni 1000 DIN Resistance function can be used to show a raw resistance value of Al input without any sensor element type based scaling It is capable of measuring resistance value from 0 to 2100 Ohm All passive sensor functions include Normal Maximum Minimum Sub and Average operation types Functionality of Network Variables nvi xAI Sensor nvo_xAl_ Sensor nvo xAI Calcul or Average object type Maximum Minimum Sub Average Input values for the desired operation Maximum Minimum Sub Shows the measurement value of the sensor attached to the Shows the outcome of the operation defined by the operation In the Normal operation type nvo xAl Calcul shows the measurement value of the attache
25. nvi xPID Sensor1 nvi xPID Sensor2 25 00 17 00 2 00 yield an efficiency ratio of nvo xPID Set NOTE 66 00 17 2 25 2 100 The efficiency ratio is not calculated unless the value of nvi xPID RunCmd is greater than 90 LONIX LTD www lonix com Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 68 70 e le LE M10 MultiController 8 Node Object Node Object contains network variables for alarming functions Functionality of Network Variables nviAlarm Used for alarm bindings nvoAlarm of another object can be bound to this A module forwards all alarm messages nviAlarmPos Used for alarm position bindings nvoAlarmPos of another object can be bound to this A module forwards all alarm position messages nvoAlarm Shows the latest alarm event coming either from the module s nviAlarm or from an alarming object inside the module nvoAlarmPos Shows the position of the latest alarm event coming either from the module s nviAlarmPos or from an alarming object inside the module Configuration Parameters This object does not contain any Configuration Parameters LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C Ten TE User Manual 69 70 M10 MultiController 9 Module Parameters Modul
26. nvo_xDI_Switch2 Alarm Type User Manual M10 MultiController This parameter defines the alarm priority The higher the value the more important the alarm is When set to zero 0 the object does not send any alarms When a Lonix STAM controller is involved an alarm of priority 4 or greater will trigger the alarm siren An alarm with a priority of 3 will trigger the alarm buzzer This parameter defines the value and state of the output network variable nvo_xDI_Switch1 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in OFF state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in OFF state The parameter defines whether this object arms a burglar alarm or a fire alarm loop This influences the alarm code shown in variable nvo xDI Switch1 and in alarm object id during alarm event Note 1 Notation 200 01 means that value is 200 and state information 1 3 6 Slide all operation types 20 70 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Burglar alarm Fire alarm The most common application of this type is incr
27. out individually for both input network variables After that the truth value of the total system is determined with the truth values of the two input network variables and the physical output of the object is functioning according to the truth value TRUE on FALSE off This can be visualized in the following Way nvi DO Switch1 nvo DO Switch T 401e02dQ Outcome of E T nvi DO Switch2 cJo1eJadQ Jo1eJadQ The logical operators for the different operation types of this function are listed in the following table LONIX LTD www lonix com Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 38 70 V M10 MultiController Operation type Operator 1 Operator 2 Operator 3 nvi DO Switch1 nvo DO Switch nvi DO Switch2 OR OR OR OR AND AND AND AND AND AND OR AND AND OR AND OR AND AND OR AND AND OR OR AND OR OR OR AND OR OR AND OR An incoming signal is considered to be TRUE if the value is greater than zero 0 or its state is one 1 Otherwise it is FALSE NOTE The object needs to be taught the state information of the input network variables in order to initialize the state information in the module s address table This is done by changing the physical state of each bound object once from OFF state to ON state and back to OFF state e g short circuiting the connection
28. resistance measure 0 2100 Ohm All Analog Input points share the same ground potential through minus terminals of the points Analog Output 0 10 VDC output max 20 mA per point All Analog Output points share the same ground potential through minus terminals of the points 1 3 Connections The layout of M10 is as in the following figure and the connections are explained in the following table LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN EL ZL LL OL 6 8 2 9 G VIE C DUO DUO DUO DUO A 0 e M10 POWER STATUS Q CEMIX FLEX Series ei 8 9 10 t ro co S l E l 14 15 16 17 18 19 20 21 22 23 24 25 ei User Manual 8 70 M10 MultiController 1 Bus connection Shield 2 Bus connection A 3 Bus connection B 4 G operating voltage 24VAC DC 5 G0 operating voltage 24VAC DC 6 Point 1 UO DI 7 Point 1 UO DI 8 Point 2 UO DI 9 Point 2 UO DI 10 Point 3 UO DI 11 Point 3 UO DI 12 Point 4 UO DI 13 Point 4 UO DI 14 Point 5 UO DI 15 Point 5 UO DI 16 Point 6 UI 17 Point 6 UI 18 Point 7 UI 19 Point 7 Ul 20 Point 8 UI 21 Point 8 UI 22 Point
29. state of the object No NOTE Object locking with nvi xDO AlrmStop variable functions also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work Trigger Level Value State LONIX LTD www lonix com The value field of nvi xDO Switch1 2 variable can be used to control the physical digital output by configuring this parameter with a desired trigger value higher values changing the physical digital output into ON state and lower into OFF state If the state field of this parameter is set to zero then the object will be ON when the state of an nvi xDO Switch1 2 variable is 0 and OFF when the state is 1 and vice versa Example If the Trigger Level value state parameter is set to 11 00 the DO Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland Value 0 255 State 0 1 E g 200 01 Value 200 State 1 VAT 1043054 9 Trade Reg No 678 356 User Manual 24 70 gt Ge M10 MultiController will be in ON state whenever the value of an nvi_xDO_Switch1 2 is greater than 5 5 or the state of an nvi_xDO_Switch1 2 is 0 The object will be in OFF state when the value is less or equal to 5 5 and the state is 1 AlarmStop ON The influence of the object s locking functionality on the output network Value 0 200 nvo xDO Switch variable The value of this parameter is the value shown in nvo xDO Switch Active 0 1 va
30. strips of the DI objects physical input or controlling them in Manual mode When the function of a DO object is changed to this type the state of its nvo xDO Switch will be 1 This indicates that the object has not been initialized yet After each object bound to the object s nvi xDO Switch1 and nvi xDO Switch2 has been changed to ON state and back to OFF state the state will be zero and the object is ready for use Do not initialize the state information by inputting values directly to this DO object s nvi_xDO_Switch1 and nvi_xDO_Switch2 variables manually from PCT It will result in object s address table to be filled with your LON network interface address instead of the real LON addresses of the objects involved in the logical operation Functionality of Network Variables nvi xDO Switch1 The input for the first logical operator is bound to nvi xDO Switch1 Maximum of five 5 bindings can be made nvi xDO Switch2 The input for the third logical operator is bound to nvi xDO Switch2 A maximum of five 5 bindings can be made nvi xDO AlrmStop This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking Release Level and using the value of nvi xDO AlrmStop variable nvo xDO Switch This variable shows the outcome of the logical operations FALSE 0 0 0 TRUE 0 5 1 If the o
31. the parameter e g scene numbers 40 and 60 should be stated as 120 80 Also scene numbers less than 5 in the second part of the parameter need to have a zero in front of them e g 3 09 for scene numbers 1 5 and 4 5 25 70 Low High High and Low 0 200 0 200 Yes No Value 0 200 Active 0 1 See description See description See description See description Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 26 70 PERTUS M10 MultiController Off Scene 3 Scene A See Off Scene1 Scene2 See description Off Scene 5 Scene 6 See Off Scene1 Scene2 See description 4 3 Trigger This function is mostly used in access control functions when e g a lock should stay open only for a configured period of time for example 5sec The received control input is passed on to the output network variable but reset to zero after a configured delay Off Delay parameter Functionality of Network Variables nvi xDO Switch1 Variables nvi_xDO_Switch1 and nvi xDO Switch2 are bound to incoming control commands If both variables are connected the latest control command is effective The object s physical digital output is controlled with the state of the incoming control command 1 ON 0 OFF The value of the control command can also be used to control the physical digital output in conjunction with the Trigger Lev
32. then configured as 11 99 When an SNVT switch of value 5 5 is input to nvi xPID Ctrl and nvi xPID Sensor2 has the value 3 0 the controller lowers the setpoint by 3 degrees This scene is active until a new scene number is input to nvi xPID Ctrl if it is not a valid scene number the controller will return back to its normal state Note A scene number greater than 99 must be configured in the first part of the parameter Scene numbers lower than 10 defined in the second part of the parameter must have a zero prefix e g 120 04 See Sensor2 SceneNo1 Sensor2 SceneNo2 Note If a scene number defined in the second part of the parameter activates the deviation for the setpoint is the fourth field of nvi xPID Setpt variable not the value of nvi xPID Sensor2 See Sensor2 SceneNo1 Sensor2 SceneNo2 Note If a scene number defined in this parameter activates the deviation for the setpoint is the fifth sixth field of nvi xPID Setpt parameter not the value of nvi xPID Sensor2 When an internal binding is used this parameter defines the controlled AO object s input inside the same module If an internal binding is not used this should be set to nvo xPID Act The maximum and minimum output values of nvo xPID Act can be set with this parameter OFF state value of the controller When the controller is not running no permission to run the nvo xPID Act is set to this value 7 2 Constant Cascade 52 70 0 0 200 99 0 0
33. variable lower values releasing the object from standstill To enable locking with value field the state field of nvi_xDO_AlrmStop variable needs to be zero 0 This parameter inverts the state of the output network variable and the physical state of the object NOTE Object locking with nvi_xDO_AlrmStop variable functions also when the object is inverted The state of the nvi_xDO_AlrmStop variable still needs to be zero for the object locking to work The influence of the object s locking functionality on the output network variable The value of this parameter is the value shown in nvo_xDO_Switch state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of nvo_xDO_Switch follows that of the nvi_xDO_Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 This parameter defines the base duty cycle for the pulse width modulation Multiplier for the base duty cycle time With a 20 second base duty cycle time and a multiplier of 4 a cycle time of 80 seconds is obtained 4 5 PWM Control Constant Time 29 70 Low High High and Low 0 200 0 200 Yes No Value 0 200 Active 0 1 Fast 20 s Slow 200 s 0 65535 This function is suitable for the control of signal lights etc which need to blink constantly
34. 0 MultiController to ON state Only acknowledgement using value 0 0 in variable nvi_xDO_Switch1 or nvi_xDO_Switch2 returns the object to OFF state Alarm Priority Control PRI gt DO PRI Alarm information and priority is monitored from the nviAlarm variable of the module the object resides in If the alarm priority equals or is greater than the value of Alarm Priority to Operate parameter the object is switched to ON state Only acknowledgement using value 0 0 in variable nvi_xDO_Switch1 or nvi_xDO_Switch2 returns the object to OFF state Functionality of Network Variables nvi_xDO_Switch1 This variable is used for acknowledgement information after an alarm is detected Acknowledgement is done by entering the value 0 0 in the value field of either of nvi_xDO_Switch variables The state has no significance The object s physical state and output variable are switched to OFF state after an acknowledgement nvi xDO Switch2 See nvi xDO Switch1 nvi xDO AlrmStop This variable locks the state of mo xDO Switch and the physical digital output into standstill Locking takes place when the state is one 1 Also the value of the variable can be used for locking see configuration parameters of Locking Level and Locking Release Level nvo xDO Switch If the object is not locked this variable has always a value of 0 The state of this variable is 1 if the object is in ON state otherwise the state is 0 Configuration Parameters
35. 2 Indicates the state of nvi xDI Switch loop armed disarmed and can be used e g as a control of an alarm arming indication lamp Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed Off Delay This parameter defines the OFF delay of the object s physical state When 0 65535s the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed Invert This parameter inverts the values of the output network variables i e when Yes the object is changed to ON state OFF state values of the output network No variables are updated and vice versa Alarm Delay Alarm and monitoring delay i e safe time When the object switches to armed 0 320s mode it will not cause any alarms during the Alarm Delay period The monitored space can be safely left during this delay without causing alarms This parameter also defines the sending time of the alarm loop monitoring token LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C Ten TE Alarm Priority On Value State of nvo_xDI_Switch1 Off Value State of nvo_xDI_Switch1 On Value State of nvo_xDI_Switch2 Off Value State of
36. 3 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 28 70 e le LE M10 MultiController PWM Normal indino O Zz OFF Cycle time T4 Cycle time T T PWM Cycle Time x PWM Cycle Multiplier To nvi DO Switch1 x 0 01 x T or nvi DO Switch2 x0 01 x Ti Functionality of Network Variables nvi xDO Switch1 Variables nvi xDO Switch1 and nvi xDO Switch2 are used for incoming control commands If both variables are connected the latest control command is effective The state of the control command has no significance The value of the control command is the percentage of the total cycle time which the object stays in ON state i e the power output of the connected device in percentage nvi xDO Switch2 See nvi xDO Switch1 nvi xDO AlrmStop This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking Release Level and using the value of nvi xDO AlrmStop variable nvo xDO Switch This variable shows the value of the latest control command received via nvi xDO Switch or nvi xDO Switch2 The state corresponds with the current state of the object Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the v
37. 4 or greater will trigger the alarm siren An alarm with a priority of 3 will trigger the alarm buzzer This parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in OFF state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in OFF state Initiation value for the usage hour information stored in nvoTrend variable of the controller Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 0 65535s 0 65535s Yes No Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 0 65535s VAT 1043054 9 Trade Reg No 678 356 C cx Alarming State User Manual M10 MultiController The object triggers an alarm when the value of the state field in the selected nvo xDI Switch variable equals the value of this parameter The object s input network variable nvi xDI Switch should not be bound to anything If the objects nvi xDI Switch is bound and this parameter is set to nvo xDI Switch conflict the object wil
38. 54 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 48 70 e le LE M10 MultiController ignored nvo_xAO_Fb The output value of the object This variable shows a percentage value of the output range configured with Min Operation Level and Max Operation Level parameters determined with the input value of nvi_xAO_Ctrl1 or a scene triggered with nvi_xAO_Ctrl2 Configuration Parameters Invert This parameter inverts the output value It defines the influence of the input No network variables on the output network variable and the output voltage of Output invert the object Range invert Range definitions Range Output invert Output invert The output voltage of the object is inverted Range invert The value of nvo_xAl_Fb is inverted Range Output invert Both of above Min Operation Value This parameter defines the minimum value of the object s range of operation 0 200 with only larger input values having an influence on the object For example a parameter value of 50 means that the value of nvo_xAO_Fb remains zero 0 until the value of nvi_xAO_Ctrl exceeds 25 Max Operation Value This parameter defines the maximum value of the object s range of operation 0 200 with larger input values having no influence For example a parameter value of 150 means that the value of nvo xAO Fb will be 100 with all inputs equal to or greater than 7596 Min Output Voltage This parameter d
39. 65535s Low High High and Low 0 200 0 200 Yes No Value 0 200 Active 0 1 VAT 1043054 9 Trade Reg No 678 356 User Manual 40 70 e le LE M10 MultiController 5 Analog Input Al Analog Input nvo_xAl_ Sensor SNVT_temp_p nvi_xAl_Sensor nvo_xAl_ Calcul SNVT_temp_p SNVT_temp_p The Analog Input Al includes the following functions Pt 1000 Normal Maximum Minimum Sub Average Ni 1000 LG Normal Maximum Minimum Sub Average Ni 1000 DIN Normal Maximum Minimum Sub Average Active 0 10V Normal Maximum Minimum Sub Average Resistance Normal Maximum Minimum Sub Average Condensation point dew point Operation types for measurement functions Normal The object measures the value of the connected sensor and outputs it to nvo_xAl_ Sensor There is no function for nvi_xAl_ Sensor in this case Maximum The object measures the value of the connected sensor and outputs the result to nvo_xAl_ Sensor The calculated maximum of the measured value and the value of nvi_xAl_Sensor is output to nvo_xAl_Calcul Minimum The object measures the value of the connected sensor and outputs the result to nvo xAI Sensor The calculated minimum of the measured value and the value of nvi xAl Sensor is output to nvo xAI Calcul Sub The object measures the value of the connected sensor and outputs the result to nvo xAI Sensor The calculated difference of the
40. 9 UI 23 Point 9 UI 24 Point 10 UI 25 Point 10 UI The M10 includes additional connections in the side for bus plug in and 12 VDC output LONIX LTD www lonix com Teollisuuskatu 33 Fl 00510 Helsinki Finland Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356 User Manual 9 70 M10 MultiController GAB Te IEN Bus plug in 12VDC output Bus plug in Connector for bus and power chaining between adjacent controllers Located on both sides of the controller external connector LX BUS required 12 VDC output Power output for external devices e g occupancy detector Max current 80mA Located on the right side of controller under field removable cover 1 4 Front Panel The front panel of M10 includes 10 I O LEDs Power LED Status LED and a Function button KA mg mmm FLEX Series LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GI Te TECH User Manual M10 MultiController LED Button Description LED 1 5 Input status GRN Output status YEL LED 6 10 Input status GRN Power LED Power indicator GRN Status LED Controller functional status YEL Function button Service Pin LED functions indicate the status of the I O UO status LED function DI Circuit closed sl LED on DI
41. Al_Sensor Input values for the desired operation nvo_xAl_ Sensor nvo_xAl_ Calcul object type Maximum Minimum Sub Average Shows the measurement value of the sensor attached to the Shows the outcome of the operation defined by the operation In the Normal operation type nvo_xAl_Calcul shows the measurement value of the attached sensor Configuration Parameters Trending NV Alarming NV Alarm Priority Alarm On Delay LONIX LTD www lonix com This parameter selects which of the two output variables is used for trending This parameter selects which of the two output variables is used for alarm triggering The priority of the alarms generated by this object If the parameter is zero 0 then no alarms are generated The higher the value the more important the alarm is This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to exceed fall below the alarm limit before an alarm is generated NOTE An Al object that needs to generate alarms must have an Alarm On nvo xAl Sensor nvo SA Calcul mo xAl Sensor nvo SA Calcul 0 7 0 65535s Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C cx Alarm Off Delay HiHi Level Alarm Hi Level Alarm Lo Level Alarm LoLo Level Alarm Offset Sensitivity Range User Manual M10 MultiController D
42. Binary Step User Manual M10 MultiController of nvi xDO AlrmStop Object locking release level The value of this parameter defines the limit level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 This parameter inverts the state of the output network variable and the physical state of the object NOTE Object locking with nvi xDO AlrmStop variable functions also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work This parameter defines the alarm priority that object should operate The object only responds to alarms of certain priority Alarm Priority Control PRI DO PRI or all alarms with a priority equal or greater than the value defined with this parameter Alarm Priority Control PRI 2 DO PRI The influence of the object s locking functionality on the output network variable The value of this parameter is the value shown in nvo xDO Switch state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of nvo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 33 70 0 200
43. ID UM L82341 2012 User Manual LX MIO MultiController SW type A LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 2 70 E M10 MultiController Index LX M10 Hardware 5 Me Technical Dateline cn occ ccacwers Lut 6 Weds General EE 6 CNR ee 6 1 9 Connections terminals ota toe tree eren ert eco Pre Inest caeca t steve nea Due lesen eegen 7 n L E c 9 LX M10 Software 11 2 TT MR 12 2 1 Generic ET 12 2 2 Network Variable Aliases cccececcceceeeeeeeeeeeeeneeeeeeeeeeeeeeaaaeeeeeeeeseceaaaeeeeeeeeeseecccaeeeeeeeeeseeeunaeeeeess 12 3 Digital Inp t Dl ioci ciece cecinere ct ce EES co cesi noce rs EES EE EE Eieeg 13 Sell elle lille HN 13 3 2 PulSe SWIICh Stage seed A errare octet oria ef ase Ei ER Cu n E A e ED re ER RE e E Dn ud DA 15 3 3 Scene Normal A State Operated sssssssssssssseesseseeeeee enne enne enne entren 16 3 4 Monitored AlAT Mieus aiaee E n 17 35 Monitored Alarm Arming edd innere rentre Lb rere eu EE Ea dr ER c Dear n 19 3 6 Slide all operation types nnne nennen nennen nennen rennes 20 4 Digital Output DO 22 2 MEKGOIO rM EN 22 A2 cr LM 24 C EMEEUI II UR C n
44. This mode is not suitable for power output control as it is fixed to 5096 ouput i e the object is in ON state 5096 of the duty cycle LONIX LTD www lonix com Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland VAT 1043054 9 Trade Reg No 678 356 User Manual 30 70 e le LE M10 MultiController PWM Constant Time O ES zi OFF Cycle time T4 Cycle time T Ti 2xT Ts nvi_DO_Switch1 x 0 01 x PWM Cycle Time x PWM Cycle Multiplier or nvi_DO_Switch2 x 0 01 x PWM Cycle Time x PWM Cycle Multiplier Functionality of Network Variables nvi_xDO_Switch1 Variables nvi_xDO_Switch1 and nvi_xDO_Switch2 are used for incoming control commands If both variables are connected the latest control command is effective The state of the control command has no significance The value states the percentage from the cycle time which the object is in ON and OFF states For example with a 20 second cycle time and a 5 5 0 0 control command the object switches from ON state to OFF state every 1 second With a 100 control command the object is in ON state for 10 seconds and then switches back to OFF state for another 10 seconds nvi xDO Switch2 See nvi xDO Switch1 nvi xDO AlrmStop This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking R
45. al Output H 5 Ul Universal Input Points 1 5 are Digital Input Universal Output points so they can be configured as Digital Input Digital Output or Analog Output Points 6 10 are Universal Input points so they can be configured as Digital Input or Analog Input points LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 7 70 E M10 MultiController Digital Input Potential free contact input Points 1 5 are using 24V and points 6 10 5V excitation voltage to detect the state of the circuit to be monitored Higher voltage of points 1 5 can be utilized e g when signal cables are located in environment with high interference thus higher excitation voltage might reduce the impact of the interference Plus terminals of Digital Input points 1 5 are internally connected together common plus and minus ground terminals of Digital Input points 6 10 are internally connected together common minus Digital Output Open collector type max 750 mA per controller Switching mode of the output can be selected per point from the following modes Low High or Low and High This feature can be used when common plus or common minus configuration needs to be utilized See also Digital Output DO configuration parameter Switching Mode Analog Input 0 10 VDC input passive sensors Pt1000 Ni1000 DIN Ni1000 LG and raw
46. alues of the output network No variables are updated and vice versa 21 70 Button Press Delay Delay for the button press The values of the output variables are changed 10 100ms only after the object s physical input has remained in ON state closed circuit for the time defined with this parameter Steps per Button Step size of the control value The output variable values change the amount 0 200 Press defined in this parameter with every long control pulse Min Level Defines the minimum value of the control variables Not used in ADD mode 0 200 Max Level Defines the maximum value of the control variables 0 200 Note 1 Notation 200 01 means that value is 200 and state information 1 LONIX LTD www lonix com Teollisuuskatu 33 Fl 00510 Helsinki Finland Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356 User Manual 22 70 e le LE M10 MultiController 4 Digital Output DO nvi_xDO_Switch1 Digital Output SNVT_switch 24VDC nvi xDO Switch2 SNVT switch nvo xDO Switch nvi xDO AlrmStop SNVT switch SNVT switch The Digital Output DO includes the following functions On Off Scene Trigger PWM Control Normal Constant time Alarm Priority Control PRI DO PRI PRI gt DO PRI Binary Step Linear Step Logical AND AND AND OR AND OR AND AND OR OR OR OR AND OR dl On Off This functio
47. alues of the output network variables are updated only after this time has elapsed Off Delay This parameter defines the OFF delay of the object s physical state When 0 65535s the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Switching Mode Locking Level Locking Release Level Invert AlarmStop ON nvo xDO Switch value active PWM Cycle Time PWM Cycle Time Multiplier User Manual M10 MultiController When value Low is selected the object disconnects in OFF state only minus terminal from the power supply When High is used only plus terminal is disconnected from power supply Value High and Low uses both terminals to switch the output ON and OFF Locking level of the object The value of this parameter defines the limit level for the value field of nvi_xDO_AlrmStop variable higher values causing the object to lock into standstill To enable locking with only the value field the state field of nvi_xDO_AlrmStop variable needs to be zero 0 If the state of nvi_xDO_AlrmStop is 1 then the DO object is locked regardless of the value of nvi_xDO_AlrmStop Object locking release level The value of this parameter defines the limit level for value field of nvi_xDO_AlrmStop
48. application 2 1 Generic Parameters The following table includes the Generic Parameters which are applicable for all I O objects Minimum Send Time The minimum send time of output network variables The object does not 0 65535s send the values of its output network variables to LON network until this time has elapsed even if the object state changes during that time period When the value equals zero 0 s sending is event based i e the values of the output network variables are sent to the LON network whenever their value changes NOTE Sending of values of output network variables to LON network is event based if either the Minimum Send Time or Maximum Send Time parameter is zero 0 Maximum Send Time The maximum send time of output network variables Setting this parameter 0 65535s to non zero causes the object to send values of its nvo s to LON network at frequent intervals even if their state has not changed 2 2 Network Variable Aliases The M10 MultiController supports ten 10 network variable alias table entries The aliases are used to solve network variable selector conflicts during binding of network variables Network Management Tool will automatically take care of usage of aliases when they are needed LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 13 70 e le LE M10 MultiController 3
49. ariable nvi xDI Switch is inverted with respect to 100 when passed on to the output network variables Example nvi xDI Switch 20 0 0 gt nvo xDI Switch1 amp 2 80 0 1 This parameter defines the value and state of the output network variable nvo xDI Switch when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in OFF state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in OFF state This parameter defines the time beginning from the closing of the object s dry contacts i e the push of a button during which received input signals are not relayed to the object s output variable With this feature the risk of a signal traversing a loop more than one time is eliminated Note 1 Notation 200 01 means that value is 200 and state information 1 3 4 Monitored Alarm 17 70 Yes No Yes No Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 This function is used mostly in burglar and fire alarm applications when the system needs to be monitored for tampering The loop is formed by one or many objects of this function and b
50. arm If the measurement falls below this value then an alarm with a priority of 1 to the configured alarm priority is generated The offset for the measurement reading can be set with this parameter It can be used to shift the zero point of the measurement e g in field calibration The sensitivity for the measurement output The value of the output variables is not updated unless the measurement changes more than the value of this parameter This parameter defines the total operating range of the sensor attached to the object For example if the operating range of the sensor is from 50 to 50 then this parameter needs to be set at 100 The true lower limit of the sensor s operating range can then be set with the Offset parameter In this case however as the object is connected to a relative humidity measurement the range should be 100 and the offset 0 Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 44 70 nvo_xAl_Sensor nvo_xAl_ Calcul nvo_xAl_Sensor nvo_xAl_Calcul 0 W I 0 7 65535s 65535s 250 300 250 300 250 300 250 300 250 300 250 327 VAT 1043054 9 Trade Reg No 678 356 User Manual 45 70 e le LE M10 MultiController 6 Analog Output AO Analog Output 0 10V gt nvi_xAO_Ctrl2 nvo xAO Fb SNVT switch SNVT switch nvi xAO Ctrl SNVT switch The A
51. be brought to the controller from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need of using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm Selection of the compensation measurement for the controller The compensation measurement can be brought to the controller from Al objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm High level alarm limit for the process measurement The actual high level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the high level alarm threshold is 25 Also when using this parameter the Hi and HiHi Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi xPID Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object Low level alarm limit for the process measurement The actual low level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the low level alarm threshold is 15 Also when using this parameter the Lo and LoLo
52. bject s Operation type is OR then the value of the outcome equals the number of TRUE signals bound to nl xDO Switch1 and nv xDO Switch2 e g 3 5 1 indicates that 7 of the incoming signals are TRUE and hence also the physical state of the object is TRUE LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN User Manual M10 MultiController Configuration Parameters On Delay Off Delay Switching Mode Locking Level Locking Release Level Invert AlarmStop ON nvo xDO Switch value active LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed When value Low is selected the object disconnects in OFF state only minus terminal from the power supply When High is used only plus terminal is disconnected from power supply Value High and Low uses both terminals to switch the output ON and OFF Locking level of the object The value of this parameter defines the limit level for the value field of nvi xDO AlrmStop variable higher value
53. d sensor Configuration Parameters Trending NV Alarming NV Alarm Priority Alarm On Delay Alarm Off Delay HiHi Level Alarm Hi Level Alarm Lo Level Alarm LONIX LTD www lonix com This parameter selects which of the two output variables is used for trending This parameter selects which of the two output variables is used for alarm triggering The priority of the alarms generated by this object If the parameter is zero 0 then no alarms are generated The higher the value the more important the alarm is This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to exceed fall below the alarm limit before an alarm is generated NOTE An Al object that needs to generate alarms must have an Alarm On Delay greater than zero 0 Otherwise no alarms are generated This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to fall below exceed the alarm limit before the alarm is inactivated High high level limit for the alarm If the measurement exceeds this value then an alarm with a priority of 1 to the configured alarm priority is generated High level limit for the alarm If the measurement exceeds this value then an alarm with the configured alarm priority is generated Low level limit for the alarm If the measurement falls below this value then an alarm with the configured alarm prior
54. de main controller to receive current setpoint information nvi xPID Sensor1 This variable is the input for process measurement nvi xPID Sensor2 This variable the deviation for the setpoint during Scenes 1 2 and 3 nvi xPID RunCmd Input for run command to activate the controller The controller is activated when the value or state of the variable is greater than 0 If not activated the actuator output is the value configured with Actuator OFF state Value parameter nvi xPID Ctrl This variable is used for scene number input The value of nvi xPID Ctrl is regarded as the scene number The state has no significance nvo xPID Setpt This variable outputs the value of nvi xPID Setpt LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN nvo_xPID_Set nvo xPID Ctrl nvo xPID Actuator User Manual M10 MultiController This variable outputs the value of nvi xPID Ctrl 51 70 This variable outputs the current setpoint of the controller This variable is the control value for the actuator The state of the variable is 1 only when the value is 100 Otherwise the state is 0 Configuration Parameters Start Up Ramping Time Proportional Integration Time Derivation Time Sensitivity of PID Invert Sensor Selection nvi xPID Sensor1 Sensor Selection nvi xPID Sensor2 Hi Level Sliding Alarm Lo
55. e controller Meaning calculated Vertical shift of the curve Setpoint value for Curve Point 1 Setpoint value for Curve Point 3 2 3 4 Setpoint value for Curve Point 2 5 6 Setpoint value for Curve Point 4 This variable is the deviation of the setpoint This variable is the input for process measurement This variable is the input for compensation measurement This defines the current setpoint with the curve Input for run command to activate the controller The controller is activated when the value or state of the variable is greater than O If not activated the actuator output is the value configured with Actuator OFF state Value parameter This variable is used for scene number input The value of nvi xPID Ctrl is regarded as the scene number The state has no significance This variable outputs the value of nvi xPID Setpt This variable outputs the current setpoint of the controller This variable outputs the value of nvi xPID Ctrl This variable is the control value for the actuator The state of the variable is 1 only when the value is 100 Otherwise the state is 0 Linearly adjusts the setpoint of the controller from the initial process 0 32767 measurement value to the configured setpoint during the time set with this parameter disabled with O This feature is intended for smooth start ups of processes The function also activates after power failures Teollisuuskatu 33 Fl 00510 Helsinki Finland
56. e parameters can be accessed on the Module tab of the Lonix PCT Functionality of Network Variables nci_Cmd nvoTrend A command variable for the controller Commands are carried out by entering a desired value to this variable from the following table Value of nci Cmd Function 10000 10019 Browsing of active alarms 65535 Module RESET When browsing the alarms the latest active alarm is read by entering value 10000 to nci_Cmd the oldest with value 10019 Corresponding alarm details object_id priority etc are shown in nvoAlarm variable of the Node Object and alarming point position string in nvoAlarmPos Even though the alarms are shown in the alarm output variables no data is propagated to the LON network Shows l O object specific data e g usage operational hours of Dl objects See also chapter Tables on nvoTrend and nvi x Override variables Configuration Parameters Module Name LONIX LTD www lonix com This parameter is for the identification of the module For example the COBA 0 6 characters BOS Server application uses this information to identify alarming module Six first characters of the parameter are included in the beginning of nvoAlarm variable when an object inside the module triggers an alarm It is recommended that the value of this parameter is exactly the same as the module s name in the LON database Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki
57. early approaches its upper limit so that with a control value of 100 the setpoint equals the configured upper limit of its range LONIX LTD www lonix com Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland VAT 1043054 9 Trade Reg No 678 356 User Manual 62 70 e le LE M10 MultiController Linear Setpoint nvi PID Ctrl We 2 o o Maximum limit 1 SS 7 Minimum limit 0 nvi PID Cl 100 Linear Setpoint nvi_xPID_Sensor2 In this type the controllers setpoint is adjusted with a compensation measurement bound to nvi_xPID_Sensor2 The range for the setpoint as well as the range for the compensation measurement are configured with nvi_xPID_Setpt see table below When the compensation measurement is below the lower limit of the measurement range the setpoint equals the lower limit of the setpoint range When the compensation measurement exceeds the upper limit of the measurement range the setpoint equals the upper limit of the setpoint range When the compensation measurement is within the range the setpoint is adjusted within its range so that both the compensation measurement and the setpoint cover the same amount of their individual ranges in percentages For example the range for the compensation measurement is 20 30 and the range for the setpoint is 18 22 When the compensation measurement is 25 50 of its range the setpoint of the controller is adjusted to 20 also
58. ease decrease buttons of dimmable light groups It can be used e g for continuous dimming of a light group or linear control of a fan A long control pulse increases ADD type or decreases SUB type the control value and once it reaches the maximum minimum a new control pulse will not have any effect on the control value until a feedback signal with a new control value is provided Hence when using the ADD or SUB type two DI objects one ADD one SUB should be used In ON OFF SUB ADD mode every second long control pulse increases and every second decreases the control level Short control pulses switch the object fully OFF or in case it already is fully OFF to fully ON NOTE Short control pulse 10ms Long control pulse gt 10ms Functionality of Network Variables nvi xDI Switch The initial value from which the object begins to change the value of its output often a feedback from the controlled object nvo xDI Switch1 The controlled output value of the object nvo xDI Switch2 The controlled output value of the object LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Configuration Parameters Parameter Invert Description User Manual M10 MultiController Range This parameter inverts the values of the output network variables i e when Yes the object is changed to ON state OFF state v
59. efines the minimum physical output voltage of the object 0 10 Volts For example if this parameter is set at 2 0 then the output voltage of the object is 2V when nvi xAO Ctrl is zero 0 Max Output Voltage This parameter defines the maximum physical output voltage of the object 0 10 Volts For example if this parameter is set at 8 0 then the output voltage of the object is 8V when nvi xAO Ctrl is 100 Value of State field Selects how the state field of the nvo xAO Fb is functioning 1 when output 096 1 when output 100 Follow Input State Scene Configuration 1 The physical output of the object with a specific scene number The desired Output 0 200 level of output is entered first then the specific scene number separated with Scene nr 0 99 a dot For example 7596 output on scene 3 means a parameter value of 150 06 Scene Configuration 2 See Scene Configuration 1 Output 0 200 Scene nr 0 99 Scene Configuration 3 See Scene Configuration 1 Output 0 200 Scene nr 0 99 Scene Configuration 4 See Scene Configuration 1 Output 0 200 Scene nr 0 99 Scene Configuration 5 See Scene Configuration 1 Output 0 200 Scene nr 0 99 Scene Configuration 6 See Scene Configuration 1 Output 0 200 Scene nr 0 99 LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 49 70 e le LE M10 MultiController 7 Controller PID
60. el parameter nvi xDO Switch2 See nvi xDO Switch1 nvi xDO AlrmStop This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking Release Level and using the value of nvi xDO AlrmStop variable nvo xDO Switch This variable shows the value of the latest control command received via nvi xDO Switch1 or nvi xDO Switch2 The state corresponds with the current state of the physical digital output Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed Off Delay This parameter defines the time after which the object resets itself back to 0 65535s zero after a control command is received Switching Mode When value Low is selected the object disconnects in OFF state only Low minus terminal from the power supply When High is used only plus High terminal is disconnected from power supply Value High and Low uses High and Low both terminals to switch the output ON and OFF Locking Level Locking level of the object The value of this parameter defines the limit level 0 200 for the value field of nvi xDO AlrmStop variable higher values causing the object to lock int
61. elay greater than zero 0 Otherwise no alarms are generated This parameter defines the time that the value of the appropriate output variable configured via Alarming NV needs to fall below exceed the alarm limit before the alarm is inactivated High high level limit for the alarm If the measurement exceeds this value then an alarm with a priority of 1 to the configured alarm priority is generated High level limit for the alarm If the measurement exceeds this value then an alarm with the configured alarm priority is generated Low level limit for the alarm If the measurement falls below this value then an alarm with the configured alarm priority is generated Low low level limit for the alarm If the measurement falls below this value then an alarm with a priority of 1 to the configured alarm priority is generated The offset for the measurement reading can be set with this parameter It can be used to shift the zero point of the measurement e g in field calibration The sensitivity for the measurement output The value of the output variables is not updated unless the measurement changes more than the value of this parameter This parameter defines the total operating range of the sensor attached to the object For example if the operating range of the sensor is from 50 to 50 then this parameter needs to be set at 100 The true lower limit of the sensors operating range can then be set with the Offset parameter In th
62. elease Level and using the value of nvi xDO AlrmStop variable nvo xDO Switch This variable shows the value of the latest control command received via nvi xDO Switch or nvi xDO Switch2 The state corresponds with the current state of the object Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Off Delay Switching Mode User Manual M10 MultiController This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed When value Low is selected the object disconnects in OFF state only minus terminal from the power supply When High is used only plus terminal is disconnected from power supply Value High and Low uses 31 70 0 65535s Low High High and Low both terminals to switch the output ON and OFF Locking Level Locking level of the object The value of this parameter defines the limit level 0 200 for the value field of nvi_xDO_AlrmStop variable higher values causing the object to lock in
63. ensor Selection nvi xPID Sensor1 nvi xPID Sensor2 This variable is used for measurement input Note This value can also be received through internal binding See configuration parameter Sensor Selection nvi xPID Sensor2 nvi xPID RunCmd This variable is not in use in this function nvi xPID Ctrl This variable is used for activation number input for the controller The controller doesn t operate until a suitable activation number the value of nvi xPID Ctrll is received The state of the variable has no significance See also configuration parameters ActivationNo1 ActivationNo2 ActivationNo3 ActivationNo4 and ActivationNo5 ActivationNo6 nvo_xPID_Seipt This variable outputs the value of nvi_xPID_Setpt nvo xPID Set This variable outputs the configured ON or OFF state value of the controller deviated with the value of nvi xPID Set nvo xPID Ctrl When the controller is in ON state this variable has the value configured with the parameter nvo xPID Ctrl ON state Value and the state is 1 When the controller is in OFF state this variable equals the value of nvi xPID Ctrl nvo xPID Actuator This variable follows the value of nvo xPID Ctrl LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN User Manual M10 MultiController Configuration Parameters Sensor Selection nvi_xPID_Sensor1 Sensor Selection nvi_
64. ensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 Sensor1 High ON and Sensor2 High ON High ON and Sensor2 Low ON High ON or Sensor2 High ON High ON or Sensor2 Low ON Low ON and Sensor2 Low ON Low ON or Sensor2 Low ON Range ON and Sensor2 High ON Range ON and Sensor2 Low ON Range ON and Sensor2 Range ON Range ON or Sensor2 High ON Range ON or Sensor2 Low ON Range ON or Sensor2 Range ON wa aS a as ws aS LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 60 70 e rar1x M10 MultiController Functionality of Network Variables nvi_xPID_Setpt Defines the high and low limits of the measurement inputs It also defines the value of nvo_xPID_Set for both controller states Field no in 1 Low limit value of nvi xPID Sensor1 measurement 2 High limit value of nvi xPID Sensor1 measurement 3 Low limit value of nvi xPID Sensor2 measurement 4 High limit values of nvi xPID Sensor2 measurement 5 Value of nvo xPID Set variable in ON state 6 Value of mo xPID Set variable in OFF state nvi xPID Set This variable deviates the value of nvo xPID Set nvi xPID Sensor1 This variable is used for measurement input Note This value can also be received through internal binding See configuration parameter S
65. er is not running no 0 200 Value permission to run the nvo xPID Act is set to this value 7 3 Curve With this type of controller the setpoint is not fixed but follows a piecewise linear curve defined by four points The current setpoint is defined by the setpoint curve and a compensation measurement This type of controller is commonly used e g in heating networks which need to be outdoor temperature compensated The process and compensation measurement can be input via internal bindings see configuration parameters Sensor Selection Sliding Alarms SP 1 nvi PID Sensor2 Curve Curve Curve Curve Point 1 Point2 Point3 Point4 LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C c3 User Manual M10 MultiController Functionality of Network Variables nvi xPID Setpt nvi xPID Set nvi xPID Sensor1 nvi xPID Sensor2 nvi xPID RunCmd nvi xPID Ctrl nvo xPID Setpt nvo xPID Set nvo xPID Ctrl nvo xPID Actuator Configuration Parameters Start Up Ramping Time Proportional LONIX LTD www lonix com This variable is used for defining Y coordinates of Curve Points 1 4 Note that X coordinates of Curve Points are defined with separate configuration parameters Curve Point 1 Curve Point 2 Curve Point 3 and Curve Point 4 Field no in nvi xPID Setpt 1 Current setpoint automatically by th
66. f the output network variables are updated only after this time has elapsed Off Delay This parameter defines the OFF delay of the object s physical state When 0 65535s the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed Switching Mode When value Low is selected the object disconnects in OFF state only Low minus terminal from the power supply When High is used only plus High terminal is disconnected from power supply Value High and Low uses High and Low both terminals to switch the output ON and OFF Locking Level Locking level of the object The value of this parameter defines the limit level 0 200 for the value field of nvi xDO AlrmStop variable higher values causing the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value of nvi xDO AlrmStop Locking Release Level Object locking release level The value of this parameter defines the limit 0 200 level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 Invert This parameter inverts the state of the output network variable and the Yes physical
67. fines the base duty cycle for the pulse width modulation Fast 20 s Slow 200 s PWM Cycle Time Multiplier Multiplier for the base duty cycle time With a 20 second base duty cycle time 0 65535 and a multiplier of 4 a cycle time of 80 seconds is obtained 4 6 Alarm Priority Control This function is used in alarm functions to indicate alarms of different alarm classes e g fire alarms burglar alarms and HVAC alarms The object s physical output can be connected to e g alarm signal lights buzzers alarm forwarding devices etc The object monitors all the alarms that are input to the module s nviAlarm network variable If an alarm with a certain priority is detected this object will switch to ON state The object will switch back to OFF state only when either of its nvi xDO Switch variables receives an input with a value of 0 A module with a DO object of this function type should not have any alarm generating objects as this may lead to unwanted behavior of the Alarm Priority Control object Alarm Priority Control PRI DO PRI Alarm information and priority is monitored from the nviAlarm variable of the module the object resides in If the alarm priority equals the value of Alarm Priority to Operate parameter the object is switched LONIX LTD www lonix com Tel 358 9 349 9853 Fax 358 9 349 9863 VAT 1043054 9 Trade Reg No 678 356 Teollisuuskatu 33 Fl 00510 Helsinki Finland User Manual 32 70 e le LE M1
68. g the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value of nvi xDO AlrmStop Object locking release level The value of this parameter defines the limit level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 This parameter inverts the state of the output network variable and the physical state of the object NOTE Object locking with nvi xDO AlrmStop variable functions also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work The influence of the object s locking functionality on the output network variable The value of this parameter is the value shown in nvo xDO Switch state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of mo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 The object is transferred to ON state when the value of the control command received by nvi_xDO_Switch1 or nvi_xDO_Switch2 cor
69. having an influence on the object For example a parameter value of 50 means that the value of nvo_xAO_Fb remains zero 0 until the value of nvi_xAO_Ctrl exceeds 25 Max Operation Value This parameter defines the maximum value of the object s range of operation 0 200 with larger input values having no influence For example a parameter value of 150 means that the value of nvo xAO Fb will be 100 with all inputs equal to or greater than 75 Min Output Voltage This parameter defines the minimum physical output voltage of the object 0 10 Volts For example if this parameter is set at 2 0 then the output voltage of the object is 2V when nvi xAO Ctrl is zero 0 Max Output Voltage This parameter defines the maximum physical output voltage of the object 0 10 Volts For example if this parameter is set at 8 0 then the output voltage of the object is 8V when nvi xAO Ctrl is 100 Value of State field Selects how the state field of the nvo xAO Fb is functioning 1 when output 096 1 when output 100 Follow Input State 6 2 Maximum Minimum Control This function is commonly used e g in air conditioning applications for preventing frost to form on the heat recovery unit Maximum Control The object selects the higher input value of the two input network variables as its control value Minimum Control The object selects the lower input value of the two input network variables as its control value Functionality of Ne
70. he value and state of the object Configuration Parameters On Delay Off Delay Invert Alarm Priority On Value State of nvo xDI Switch1 Off Value State of nvo xDI Switch1 On Value State of nvo xDI Switch2 Off Value State of nvo xDI Switch2 Operational Hours Init Value LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed If the object is configured as an alarm point the alarm takes place only after the On Delay time In case the object compares conflicts for alarming the On Delay time is used for conflict information as well This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed In case the object compares conflicts for alarming the Off Delay time is used for conflict information as well This parameter inverts the values of the output network variables i e when the object is changed to ON state OFF state values of the output network variables are updated and vice versa This parameter defines the alarm priority The higher the value the more important the alarm is When set to zero 0 the object does not send any alarms When a Lonix STAM controller is involved an alarm of priority
71. ime Integration time TI of the PID controller Integration disabled if this is set to 0 9999 s LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Derivation Time Sensitivity of PID Invert Sensor Selection nvi_xPID_Sensor1 Sensor Selection nvi_xPID_Sensor2 Hi Level Sliding Alarm Lo Level Sliding Alarm Sensor2 SceneNo1 S ensor2 SceneNo2 LONIX LTD www lonix com User Manual M10 MultiController zero 0 The longer the time the more effect it has on the control Derivation time TD of the PID controller Derivation disabled if this is set to zero 0 The longer the time the more effect it has on the control This parameter defines the minimum deviation of the measurement from the reference point setpoint before the controller s output is adjusted The controller normally adjusts the system with respect to the difference between the reference setpoint and the process measurement With this parameter the difference can be inverted i e the controller adjusts the system with the difference between the process measurement and the reference Also the actuator output of the controller can be inverted which is useful for example in cooling systems when a valve drive actually needs to open when the temperature is rising Selection of the process measurement for the controller The process measurement can
72. is case however as the object is connected to a relative humidity measurement the range should be 100 and the offset 0 5 3 Condensation Point Dew Point 0 250 250 250 250 250 65535s 300 300 300 300 300 250 327 43 70 This function calculates the dew point in Celsius degrees The calculation is based on a temperature measurement bound to nl xAI Sensor and a relative humidity measurement from a humidity sensor physically attached to the object This function is used e g for adjustment of the minimum temperature in a cooling water network to prevent condensation on the surfaces of pipes and cooling elements NOTE For the dew point calculation to be accurate the temperature measurement should be between 0 C and 30 C The relative humidity measurement should be between 20 and 100 Functionality of Network Variables nvi xAI Sensor nvo_xAl_ Sensor calculation the object nvo xAI Calcul Shows the calculated Dew Point value LONIX LTD www lonix com Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 Used to input the temperature measurement for the Dew Point Shows the measurement value of the humidity sensor attached to GAB Te IEN User Manual M10 MultiController Configuration Parameters Trending NV Alarming NV Alarm Priority Alarm On Delay
73. ity is generated mo xAl Sensor nvo SA Calcul mo xAl Sensor nvo SA Calcul 0 7 0 65535s 0 65535s 250 300 250 300 250 300 Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C Ten TE LoLo Level Alarm Offset Sensitivity Factor User Manual M10 MultiController Low low level limit for the alarm If the measurement falls below this value then an alarm with a priority of 1 to the configured alarm priority is generated The offset for the measurement reading can be set with this parameter It can be used to shift the zero point of the measurement e g in field calibration The sensitivity for the measurement output The value of the output variables is not updated unless the measurement changes more than the value of this parameter Only used in Resistance mode Used for scaling the output value Output value Factor x resistance value x 0 001 5 2 Active 0 10V 42 70 250 300 250 300 0 250 0 327 Active 0 10V function is used when connecting transmitters or other 0 10V voltage transmitting devices to Al object It is also possible to connect 4 20mA transmitters by adding external load resistor 500 Ohm parallel to Al object s terminals This function includes Normal Maximum Minimum Sub and Average operation types Functionality of Network Variables nvi_x
74. ki Finland Fax 358 9 349 9863 Trade Reg No 678 356 66 70 User Manual KE M10 MultiController the object calculates a weighted average of the three inputs See example below nvo_xPID_Setpt This variable is not in use nvo_xPID_Set This variable outputs the result of the calculation nvo xPID Ctrl This variable is not in use nvo xPID Actuator This variable is not in use Configuration Parameters Sensor Selection Selection of the process measurement for the controller The process nvi xPID Sensor1 measurement can be brought to the controller from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need of using a LON binding tool Note Sliding alarm limits not in use Sensor Selection Selection of the compensation measurement for the controller The nvi xPID Sensor2 compensation measurement can be brought to the controller from Al objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool Note Sliding alarm limits not in use SceneNo1 Activation value for scene 1 nvo_xPID_Set PID Get PID_Sensor1 SceneNo2 Activation value for scene 2 nvo xPID Set PID S et PID Sensor2 SceneNo3 Activation value for scene 3 nvo xPID Set PID S et PID Sensor1 PID Sensor2 SceneNo4 Activation value for scene 4 nvo xPID Set PID S e
75. l compare the state informations of the input network variable and the selected output network variable If the state informations differ from each other an alarm is generated Note 1 Notation 200 01 means that value is 200 and state information 1 3 2 Pulse Switch 15 70 nvoDIswitch1 conflict nvoDIswitch2 conflict nvoDIswitch1 state 0 1 nvoDIswitch2 state 0 1 The most common application is push buttons of lighting systems The state of this object changes every time the circuit is closed and opened again For an object of this type to function properly it must have feedback information from the object controlling the physical device Functionality of Network Variables nvi xDI Switch nvo xDI Switch1 nvo xDI Switch2 The object uses the state field feedback of device status of this variable for selecting its next state ON OFF For example if the feedback information is OFF the next push of the button sends values configured for ON state to output variables to the object s state to the object s state Configuration Parameters On Delay Off Delay Invert On Value State of nvo xDI Switch1 LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed If the object is configured as an alarm point the alarm takes place o
76. lers system integrators and other automation system professionals LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 5 70 M10 MultiController elon LX M1I0 Hardware Technical Data of LX M10 Hardware General Data Inputs Outputs Connections Front Panel LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 6 70 e le LE M10 MultiController I Technical Data LI General General technical data about M10 is described in the following table Operating Voltage 24V AC DC 10 Operating Temperature 10 50 C Power Required 0 9 W with no I O connected Overload Protection Automatic PSU safety shutdown Main Processor ARM Cortex M4 Kinetis K10 Network Processor Echelon FT 5000 Network Interface TP FT 10 channel Memory 256 kb Flash 64kb SRAM Clock Frequency 50 MHz IP Class IP20 Size 110 x 71 30 x 62 mm 4M width Mounting 35 mm DIN rail Connection Strips Detachable wire max 2 5 mm2 in blocks of two terminals except the Bus connection in block of three terminals EMC Compatibility Compliance according to EN 55022 EN 61000 Production Standards ISO 9001 ISO 14001 1 2 Inputs Outputs The Lonix M10 MultiController contains 10 I O points in total m 5DI UO Digital Input Univers
77. lue active state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of mo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 4 0 Scene This function is commonly used in lighting and ventilation applications Six 6 ON scenes and six 6 OFF scenes can be configured for this object In addition the object can be forced to ON state by inputting a control command of value 100 and OFF with a value of zero 0 The object does not react to control commands that are not specified in the object s scene parameters but passes them on with nvo xDO Switch Functionality of Network Variables nvi xDO Switch1 nvi xDO Switch2 nvi xDO AlrmStop nvo xDO Switch Configuration Parameters Variables nvi xDO Switch1 and nvi xDO Switch2 are used for incoming control commands The latest command is effective The value of the control command is regarded as a scene number the state has no significance See nvi xDO Switch1 This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking Release Level and using the value of nvi xDO AlrmStop variable This variable sho
78. n is commonly used for turning devices such as pumps fans and lighting ON OFF Functionality of Network Variables nvi_xDO_Switch1 nvi_xDO_switch1 and nvi_xDO_switch2 are bound to incoming control commands If both variables are connected the latest control command is effective The object s physical digital output is controlled with the state of the incoming control command 1 LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 23 70 e le LE M10 MultiController ON 0 OFF The value of the control command can also be used to control the physical digital output in conjunction with the Trigger Level parameter nvi xDO Switch2 See nvi xDO Switch1 This variable is used to lock the object to OFF state This happens when the state of this variable is one 1 Locking and unlocking of the object is achieved also by configuring the Locking Level and Locking Release Level and using the value of nvi xDO AlrmStop variable nvi xDO AlrmStop This variable shows the value of the latest control command received through nvi xDO Switch1 or nvi xDO Switch2 The state corresponds with the current state of the physical digital output nvo xDO Switch Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values o
79. nalog Output AO includes the following functions 0 100 Control Maximum Control Minimum Control Scene Control 6 1 0 100 Control This function is used in continuous control 0 10V of valve actuators dimmers or speed settings of Variable Frequency Drives for example Functionality of Network Variables nvi xAO Ctrl Used for controlling the physical output of the object The latest value update to either nvi xAO Ctrl1 or nvi xAO Ctrl2 is effective for the control nvi xAO Ctrl2 Equal to nvi xAO Ctrl1 see above nvo xAO Fb The output value of the object This variable shows a percentage value of the output range configured with Min Operation Value and Max Operation Value LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 46 70 e le LE M10 MultiController Configuration Parameters Invert This parameter inverts the output value It defines the influence of the input No network variables on the output network variable and the output voltage of Output invert the object Range invert Range definitions Range Output invert Output invert The output voltage of the object is inverted Range invert The value of nvo_xAl_Fb is inverted Range Output invert Both of above Min Operation Value This parameter defines the minimum value of the object s range of operation 0 200 with only larger input values
80. nly after the On Delay time In case the object compares conflicts for alarming the On Delay time is used for conflict information as well This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed In case the object compares conflicts for alarming the Off Delay time is used for conflict information as well This parameter inverts the values of the output network variables i e when the object is changed to ON state OFF state values of the output network variables are updated and vice versa This parameter defines the value and state of the output network variable nvo xDI Switch when the object is in ON state Shows the ON OFF value configured for this variable according Shows the ON OFF value configured for this variable according 0 65535s 0 65535s Yes No Value 0 200 State 0 or 1 See Note 1 Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C c Off Value State of nvo xDI Switch1 On Value State of nvo xDI Switch2 Off Value State of nvo xDI Switch2 User Manual M10 MultiController The parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in OFF state The parameter defines the value and state of the output network variable
81. nts and their corresponding limits only if it is activated Note Activation numbers greater than 99 need to be entered in the first part of the parameter Activation numbers smaller than 10 in the second part of the parameter need to have a zero prefix i e 120 03 See Activation No1 Activation No2 See Activation No1 Activation No2 7 5 Linear Setpoint All types 61 70 nvi xPID Sensor1 default nvo_x6Al_ Sensor nvo x10AI Sensor nvo x6Al Calcul nvo x10AIl Calcul nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul 0 200 0 250 0 0 200 99 0 0 200 99 0 0 200 99 This function is used to adjust the controller s setpoint linearly between an upper and a lower limit according to a compensation value In Linear Setpoint nvi xPID Sensor2 function the value of nvi xPID Sensor2 is used as a compensation measurement and in Linear Setpoint nvi xPID Ctrl function setpoint is adjusted according to a 0 10096 control value of the nvi xPID Ctrl Linear Setpoint nvi xPID Ctrl In this type the controller setpoint is adjusted with a control value bound to nvi xPID Ctrl The upper and lower limits of the setpoint are configured with the second and third field of nvi_xPID_Setpt see table below When nm xPID Ctrl has the value 0 96 the controller s setpoint equals the configured lower limit of its range As the control value increases the setpoint lin
82. o 678 356 User Manual 58 70 gt f E M10 MultiController Curve Point 2 Measurement value X coordinate for the curve point 2 250 250 Curve Point 3 Measurement value X coordinate for the curve point 3 250 250 Curve Point 4 Max Measurement value X coordinate for the curve point 4 250 250 7 4 Thermostat Functions This function controls its ON OFF output nvo xPID Ctrl with respect to measurement values of nvi xPID Sensor1 and nvi xPID Sensor2 Note that nvo xPID Actuator is not in use when using this function The two measurement value inputs are compared to values configured in nvi xPID Setpt and assigned a truth value ON OFF High ON LOW limit HIGH limit l l l I l l l l Hysteresis Low ON LOW limit HIGH limit D l 1 L l l l l l Hysteresis Range ON LOW limit HIGH limit l 1 1 1 Hysteresis Hysteresis LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 59 70 e le LE M10 MultiController In High ON mode the input is considered to be ON when the measurement exceeds the high limit value configured in nvi_xPID_Setpt The input is considered to be in ON state until the measurement falls below the assigned low limit value Thus if the low and high limit values are not equal hysteresis occurs In Low ON mode controller functions vice versa compared to above descri
83. o influence For example a parameter value of 150 means that the value of nvo xAO Fb will be 100 with all inputs equal to or greater than 75 Min Output Voltage This parameter defines the minimum physical output voltage of the object 0 10 Volts For example if this parameter is set at 2 0 then the output voltage of the object is 2V when nvi_xAO_Cirl is zero 0 Max Output Voltage This parameter defines the maximum physical output voltage of the object 0 10 Volts For example if this parameter is set at 8 0 then the output voltage of the object is 8V when nvi_xAO_Cirl is 100 Value of State field Selects how the state field of the nvo xAO Fb is functioning 1 when output 096 1 when output 100 Follow Input State 6 3 Scene Control This function is mainly used for controlling lighting systems e g dimmers in different scenes The scene numbers can be selected with e g push buttons connected to DI objects Functionality of Network Variables nvi xAO Ctrl Used for continuous control of the physical output The input value defines the output of the object the same way as in 0 100 Control function nvi_xAO_Ctrl2 Used to input current scene number To activate the scene control the value of the input must equal one of the configured scene numbers see Configuration Parameters If the value does not equal any of the configured scene numbers the scene input is LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 10430
84. o standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 27 70 e le LE M10 MultiController nvi_xDO_AlrmStop is 1 then the DO object is locked regardless of the value of nvi_xDO_AlrmStop Locking Release Level Object locking release level The value of this parameter defines the limit 0 200 level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 Invert This parameter inverts the state of the output network variable and the Yes physical state of the object No NOTE Object locking with nvi xDO AlrmStop variable functions also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work Trigger Level The value field of nvi xDO Switch1 2 variable can be used to control the Value 0 255 Value State physical digital output by configuring this parameter with a desired trigger State 0 1 value higher values changing the physical digital output into ON state and lower into OFF state If the state field of this parameter is set to zero then the E g 200 01 object will be ON
85. of total power output of the system is achieved in this case a total of 24 16 power levels Functionality of Network Variables nvi xDO Switch1 nvi xDO Switch2 nvi xDO AlrmStop nvo xDO Switch The control command from another object or from a controller object is bound to nvi xDO Switch1 or to nvi xDO Switch2 Latest command is effective See nvi xDO Switch1 This variable locks the state of nvo xDO Switch and the physical digital output into standstill Locking takes place when the state is one 1 Also the value of the variable can be used for locking see configuration parameters of Locking Level and Locking Release Level This variable passes on the control command received with the difference that the state of the output variable is adjusted according to the object s physical state ON 1 OFF 0 calculated from the control command This variable is bound to the nvi xDO Switch1 2 of the next Binary Step object of the binary sequence Configuration Parameters On Delay Off Delay Switching Mode Locking Level LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are
86. oller object via an internal binding using this parameter This eliminates the need of using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm Selection of the compensation measurement for the controller The compensation measurement can be brought to the controller from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm High level alarm limit for the process measurement The actual high level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the high level alarm threshold is 25 Also when using this parameter the Hi and HiHi Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi_xPID_Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object Low level alarm limit for the process measurement The actual low level alarm limit is determined with this parameter and the setpoint of the process Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 0 32767 100 100 0 9999 s 0 9999 s 0 100 No PID invert Actuator invert Actuator PID invert nvi_xPID_Sen
87. ption In Range ON mode the input is considered to be ON when the measurement value is between the high and low limit values Hysteresis in this mode is defined with a separate configuration parameter The final state of the controller is then determined with the selected logical operation and the truth values from the two measurement inputs This means that each controller object configured to any of the Thermostat functions contains always two separate thermostats whose output state ON OFF are combined with logical operator and or When only one thermostat is needed the selected logical operator has to be OR and the high and low limit values of the second thermostat have to be configured so that the second thermostat is constantly in OFF state This can be easily achieved by selecting for example function Sensor High ON or Sensor2 High ON and setting high limit to value 200 and low limit to value 199 In addition verify that nvi_xPID_Sensor2 does not have any binding so it will continuously stay at value 0 00 Above steps will guarantee that the second thermostat will stay always in OFF state and only the first thermostat s output will have effect on the output of the controller nvi_PID_Sensor1 HIGH ON or LOW ON or RANGE ON nvo PID Ctrl ON state Value or nvi PID Ctrl nvi PID Sensor2 Jo1e1edQ HIGH ON RANGE ON Available Thermostat functions and their logical operators Sensor1 S
88. r nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul 255 255 255 255 VAT 1043054 9 Trade Reg No 678 356 C crx Actuator Selection Actuator Range Max Min Actuator OFF State Value Use Internal PID User Manual M10 MultiController parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi_xPID_Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object When an internal binding is used this parameter defines the controlled AO object s input inside the same module If an internal binding is not used this should be set to nvo_xPID_Act The maximum and minimum output values of nvo xPID Act can be set with this parameter In Linear Setpoint nvi xPID Ctrl mode this is the value that the nvo xPID Act shows all the time In Linear Setpoint nvi xPID Sensor2 mode this value is shown in mo xPID Act if the controller is used as an internal controller i e the Use Internal PID parameter is set to Yes Used in Linear Setpoint nvi xPID Sensor2 mode only If this is set to Yes the object doesn t control the process i e nvo xPID Act shows the controllers OFF state value configured with Actuator OFF state Value parameter but simply outputs the calculated setpoint value to nvo xPID Set When this parameter is No the control value is output by both
89. r from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm High level alarm limit for the process measurement The actual high level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the high level alarm threshold is 25 Also when using this parameter the Hi and HiHi Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi xPID Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object Low level alarm limit for the process measurement The actual low level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the low level alarm threshold is 15 Also when using this parameter the Lo and LoLo Alarm Limit Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 0 32767 100 100 0 9999 s 0 9999 s 0 100 No PID invert Actuator invert Actuator PID invert nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul nvi_xPID_Sensor1 default nvo_x6Al_ Senso
90. r with three similar resistors BKW 5kW and 5kW As control value increases the first step is turned on As the value further increases the LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 36 70 e le LE M10 MultiController second one turned on When the value still increases the third step is also turned on Combined output power is then 15kW 5kw 5kW 5kW 1 5kW Functionality of Network Variables nvi xDO Switch1 The control command from another object or from a controller object is bound to nvi xDO Switch1 or to nvi xDO Switch2 Latest command is effective nvi xDO Switch2 See nvi xDO Switch1 nvi xDO AlrmStop This variable locks the state of mo xDO Switch and the physical digital output into standstill Locking takes place when the state is one 1 Also the value of the variable can be used for locking see configuration parameters of Locking Level and Locking Release Level nvo xDO Switch This variable passes on the control command received with the difference that the state of the output variable is adjusted according to the object s physical state ON 1 OFF 0 This variable is bound to the nvi xDO Switch1 2 of the next Linear Step object of the linear step sequence Configuration Parameters On Delay This parameter defines the ON delay of the object s physical state When the 0 65535s objects
91. responds to either of the scene numbers configured in this parameter Scene number 1 is the first part of this parameter and scene number 2 the second part separated with a dot For example scene numbers 30 and 4 need to switch the object to ON state The value of this parameter is configured as either 60 08 or 8 60 The object is switched to ON state when a control command of value 30 or 4 is received by nvi_xDO_Switch1 or nvi_xDO_Switch2 NOTE If a scene number greater than 49 is used it needs to be configured to the first part of the parameter e g scene numbers 40 and 60 should be stated as 120 80 Also scene numbers less than 5 in the second part of the parameter need to have a zero in front of them e g 3 09 for scene numbers 1 5 and 4 5 See On Scene1 Scene 2 See On Scene1 Scene2 The object is switched to OFF state when the value of the control command received by nvi_xDO_Switch1 or nvi_xDO_Switch2 corresponds to either of the scene numbers configured in this parameter Scene number 1 is the first part of this parameter and scene number 2 the second part separated with a dot For example scene numbers 20 and 5 need to switch the object to OFF state The value of this parameter should be configured to 40 10 The object is switched to OFF state when a control command of value 20 or 5 is received by nvi_xDO_Switch1 or nvi_xDO_Switch2 NOTE If a scene number greater than 49 is used it needs to be configured to the first part of
92. rom OFF to ON the values of the output network variables are updated only after this time has elapsed If the object is configured as an alarm point the alarm takes place only after the On Delay time In case the object compares conflicts for alarming the On Delay time is used for conflict information as well This parameter defines the OFF delay of the object s physical state When the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed In case the object compares conflicts for alarming the Off Delay time is used for conflict information as well 0 65535s 0 65535s Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 Shows the ON OFF value configured for this variable according Shows the ON OFF value configured for this variable according C crx Invert Netvar Invert On Value State of nvo xDI Switch1 Off Value State of nvo xDI Switch1 On Value State of nvo xDI Switch2 Off Value State of nvo xDI Switch2 Dead Time for Feedback User Manual M10 MultiController This parameter inverts the values of the output network variables i e when the object is changed to ON state OFF state values of the output network variables are updated and vice versa Only in State Operated function When this parameter has value Yes the value and state of the input network v
93. s also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work Binary Step Selection The binary position of the object in the sequence of binary step DO objects 1 7 Amount of Binary The number of DO objects in this binary step sequence 2 7 Steps AlarmStop ON The influence of the object s locking functionality on the output network Value 0 200 nvo xDO Switch variable The value of this parameter is the value shown in nvo xDO Switch Active 0 1 value active state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of mo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 4 8 Linear Step This function is used in electrical heating applications and compressor power adjustment applications when the system is controlled through several devices with similar power properties The system consists of DO objects of Linear Step type connected in series Control of the devices with similar power properties are connected to physical outputs of these DO objects Notation a jj To ON state To OFF state O 7 Hysteresis o 77 area D 2 m o 0 100 Control value For example the system includes an electrical heating radiato
94. s causing the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value of nvi xDO AlrmStop Object locking release level The value of this parameter defines the limit level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 This parameter inverts the state of the output network variable and the physical state of the object NOTE Object locking with nvi xDO AlrmStop variable functions also when the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work The influence of the object s locking functionality on the output network variable The value of this parameter is the value shown in nvo xDO Switch state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of mo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then no xDO Switch will be 16 0 0 Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 39 70 0 65535s 0
95. sor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul 255 255 255 255 VAT 1043054 9 Trade Reg No 678 356 GAB Te IEN Sensor2 SceneNo1 S ensor2 SceneNo2 Sensor2 SceneNo3 S Pfield4 SceneNo4 SPfield5 SceneNo5 S Pfield6 SceneNo6 Actuator Selection Actuator Range Max Min Actuator OFF State Value User Manual M10 MultiController i e if the setpoint is 20 and this parameter 5 then the low level alarm threshold is 15 Also when using this parameter the Lo and LoLo Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi_xPID_Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object The controller behaviour i e the setpoint can be adjusted with predetermined scenes The scenes are marked with unique identifiers numbers that are sent to the controller via nvi xPID Ctrl When the value of nvi xPID Ctrl matches that of a configured scene the setpoint of the controller is deviated from the normal setpoint by an amount defined with nvi xPID Sensor2 For example the temperature of a room is lowered by 3 degrees during night time The scene number for this is defined as 11 The value of this parameter is
96. ss measurement for the controller The process measurement can be brought to the controller from Al objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need of using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm Selection of the compensation measurement for the controller The compensation measurement can be brought to the controller from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm High level alarm limit for the process measurement The actual high level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the high level alarm threshold is 25 Also when using this parameter the Hi and HiHi Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi_xPID_Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object Low level alarm limit for the process measurement The actual low level alarm limit is determined with this parameter and the setpoint of the process i e if the setpoint is 20 and this parameter 5 then the low level alarm
97. state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed Off Delay This parameter defines the OFF delay of the object s physical state When 0 65535s the object s state changes from ON to OFF the values of the output network variables are updated only after this time has elapsed Switching Mode When value Low is selected the object disconnects in OFF state only Low minus terminal from the power supply When High is used only plus High terminal is disconnected from power supply Value High and Low uses High and Low both terminals to switch the output ON and OFF Locking Level Locking level of the object The value of this parameter defines the limit level 0 200 for the value field of nvi xDO AlrmStop variable higher values causing the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value of nvi xDO AlrmStop Locking Release Level Object locking release level The value of this parameter defines the limit 0 200 level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 Invert This parameter inverts the state of the ou
98. t PID Sensor1 PID Sensor2 Example 1 Calculation of weighted average nvi xPID Sensor1 default nvo_x6Al_ Sensor nvo x10AI Sensor nvo x6Al Calcul nvo x10Al Calcul nvi xPID Sensor1 default nvo_x6Al_ Sensor nvo x10AI Sensor nvo x6Al Calcul nvo x10AI Calcul 0 200 0 200 0 200 0 200 The weights for each input are configured with the three first fields of nvi xPID Gett variable first field is the weight for nvi xPID Set second for nvi xPID Sensor1 and third for nvi xPID Sensor2 The last three fields of nvi xPID Setpt have no significance nvi xPID Setpt 1 00 2 00 4 00 0 00 0 00 0 00 nvi xPID Set 12 00 nvi xPID Sensor1 15 00 LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C crx nvi xPID Sensor2 nvi xPID Ctrl nvo xPID Set User Manual 67 70 M10 MultiController 20 00 0 0 0 17 42 1 12 2 15 4 20 7 Example 2 Efficiency ratio calculation This is usually used when there is a need to calculate the efficiency ratio of a heat recovery unit The inputs should be then as follows nvi xPID Set nvi xPID Sensor1 nvi xPID Sensor2 nvi xPID RunCmd nvi xPID Ctrl outlet temperature before HRU inlet temperature after HRU outdoor temperature e g the rotational speed of the heat recovery wheel SceneNo2 The following temperature measurements nvi xPID Set
99. threshold is 15 Also when using this parameter the Lo and LoLo Alarm Limit parameters of the Al object have no significance Note This parameter has any significance only if an internal binding is used see Sensor Selection nvi_xPID_Sensor1 Note The alarm priority and the alarm delays are set in the process measurement Al object When an internal binding is used this parameter defines the controlled AO object s input inside the same module If an internal binding is not used this should be set to nvo_xPID_Act The maximum and minimum output values of nvo_xPID_Act can be set with this parameter OFF state value of the controller When the controller is not running no permission to run the nvo xPID Act is set to this value Point 1 i e the Measurement value X coordinate for Curve nvi_xPID_Sensor2 coordinate of curve point 1 Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 57 70 0 9999 s 0 9999 s 0 100 No PID invert Actuator invert Actuator PID invert nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul nvi_xPID_Sensor1 default nvo_x6Al_ Sensor nvo_x10Al_ Sensor nvo_x6Al_ Calcul nvo_x10Al_ Calcul 255 255 255 255 nvo_xPID_Act nvi_x1AO_Ctrl1 nvi_x5AO_Ctrl1 nvi_x1AO_Ctrl1 nvi_x2AO_Ctrl1 0 0 200 99 0 200 250 250 VAT 1043054 9 Trade Reg N
100. tion also activates after power failures The gain KP of the PID controller Integration time TI of the PID controller Integration disabled if this is set to zero 0 The longer the time the more effect it has on the control Derivation time TD of the PID controller Derivation disabled if this is set to zero 0 The longer the time the more effect it has on the control This parameter defines the minimum deviation of the measurement from the reference point setpoint before the controller s output is adjusted The controller normally adjusts the system with respect to the difference between the reference setpoint and the process measurement With this parameter the difference can be inverted i e the controller adjusts the system with the difference between the process measurement and the reference Also the actuator output of the controller can be inverted which is useful for example in cooling systems when a valve drive actually needs to open when the temperature is rising Selection of the process measurement for the controller The process measurement can be brought to the controller from AI objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need of using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm Selection of the compensation measurement for the controller The compensation measurement can be brought to the controlle
101. to standstill To enable locking with only the value field the state field of nvi_xDO_AlrmStop variable needs to be zero 0 If the state of nvi_xDO_AlrmStop is 1 then the DO object is locked regardless of the value of nvi_xDO_AlrmStop Locking Release Level Object locking release level The value of this parameter defines the limit 0 200 level for value field of nvi_xDO_AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi_xDO_AlrmStop variable needs to be zero 0 Invert This parameter inverts the state of the output network variable and the Yes physical state of the object No NOTE Object locking with nvi_xDO_AlrmStop variable functions also when the object is inverted The state of the nvi_xDO_AlrmStop variable still needs to be zero for the object locking to work AlarmStop ON The influence of the object s locking functionality on the output network Value 0 200 nvoDOswitch variable The value of this parameter is the value shown in nvo_xDO_Switch Active 0 1 value active state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of nvo_xDO_Switch follows that of the nvi_xDO_Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 PWM Cycle Time This parameter de
102. tput network variable and the Yes physical state of the object No NOTE Object locking with nvi xDO AlrmStop variable functions also when LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C cr AlarmStop ON nvo xDO Switch value active Off Level On Level 4 9 Logical User Manual M10 MultiController the object is inverted The state of the nvi xDO AlrmStop variable still needs to be zero for the object locking to work The influence of the object s locking functionality on the output network Value 0 200 variable The value of this parameter is the value shown in nvo xDO Switch Active 0 1 state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of mo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 A control value less than this parameter will change the objects to OFF state 0 200 A control value greater than this parameter will change the object to ON 0 200 state 37 70 This function is used for logical operations It consists of three 3 logical operators and a maximum of ten 10 signals bound to two input network variables First the logical operation is carried
103. twork Variables nvi xAO Ctrl Used for controlling the physical output of the object The latest value update to either nvi xAO Cl or nvi xAO Cirl2 is effective for the control nvi xAO Ctrl2 Equal to nvi xAO Ctrl1 see above LONIX LTD Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 www lonix com Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 47 70 e le LE M10 MultiController nvo_xAO_Fb The output value of the object This variable shows a percentage value of the output range configured with Min Operation Value and Max Operation Value Configuration Parameters Invert This parameter inverts the output value It defines the influence of the input No network variables on the output network variable and the output voltage of Output invert the object Range invert Range definitions Range Output invert Output invert The output voltage of the object is inverted Range invert The value of nvo_xAl_Fb is inverted Range Output invert Both of above Min Operation Value This parameter defines the minimum value of the object s range of operation 0 200 with only larger input values having an influence on the object For example a parameter value of 50 means that the value of nvo_xAO_Fb remains zero 0 until the value of nvi_xAO_Ctrl exceeds 25 Max Operation Value This parameter defines the maximum value of the object s range of operation 0 200 with larger input values having n
104. updated only after this time has elapsed When value Low is selected the object disconnects in OFF state only minus terminal from the power supply When High is used only plus terminal is disconnected from power supply Value High and Low uses both terminals to switch the output ON and OFF Locking level of the object The value of this parameter defines the limit level for the value field of nvi xDO AlrmStop variable higher values causing the object to lock into standstill To enable locking with only the value field the state field of nvi xDO AlrmStop variable needs to be zero 0 If the state of nvi xDO AlrmStop is 1 then the DO object is locked regardless of the value of nvi xDO AlrmStop 0 65535s 0 65535s Low High High and Low 0 200 Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 User Manual 35 70 e le LE M10 MultiController Locking Release Level Object locking release level The value of this parameter defines the limit 0 200 level for value field of nvi xDO AlrmStop variable lower values releasing the object from standstill To enable locking with value field the state field of nvi xDO AlrmStop variable needs to be zero 0 Invert This parameter inverts the state of the output network variable and the Yes physical state of the object No NOTE Object locking with nvi xDO AlrmStop variable function
105. when the state of an nvi xDO Switch1 2 variable is 0 and Value 200 OFF when the state is 1 and vice versa State 1 Example If the Trigger Level value state parameter is set to 11 00 the DO will be in ON state whenever the value of an nvi xDO Switch1 2 is greater than 5 5 or the state of an nvi xDO Switch1 2 is 0 The object will be in OFF state when the value is less or equal to 5 5 and the state is 1 AlarmStop ON The influence of the object s locking functionality on the output network Value 0 200 nvo xDO Switch variable The value of this parameter is the value shown in nvo xDO Switch Active 0 1 value active state is 0 variable when the object is locked and this parameter is active 1 When this parameter is not active 0 the value of nvo xDO Switch follows that of the nvi xDO Switch1 2 variable with a state of O if the object is locked Example If this parameter is set to 32 01 and the object is locked then nvo xDO Switch will be 16 0 0 4 4 PWM Control Normal This function is mostly used in PWM based heating and cooling control such as floor heating systems and cooling systems The output capacity of the system is adjusted by altering the time the object is in ON state during a configured duty cycle time For example a 40 output capacity is achieved with a 100 second duty cycle by keeping the object 40 seconds in ON state and 60 seconds in OFF state LONIX LTD Teollisuuskatu 33 Tel 358 9 349 985
106. ws the value of the latest control command received via nvi xDO Switch or nvi xDO Switch2 The state corresponds with the current state of the object On Delay Off Delay LONIX LTD www lonix com This parameter defines the ON delay of the object s physical state When the 0 65535s objects state changes from OFF to ON the values of the output network variables are updated only after this time has elapsed This parameter defines the OFF delay of the object s physical state When 0 65535s the object s state changes from ON to OFF the values of the output network Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 FI 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 GAB Te IEN Switching Mode Locking Level Locking Release Level Invert AlarmStop ON nvo xDO Switch value active On Scene1 Scene 2 On Scene 3 Scene 4 On Scene 5 Scene 6 Off Scene 1 Scene 2 LONIX LTD www lonix com User Manual M10 MultiController variables are updated only after this time has elapsed When value Low is selected the object disconnects in OFF state only minus terminal from the power supply When High is used only plus terminal is disconnected from power supply Value High and Low uses both terminals to switch the output ON and OFF Locking level of the object The value of this parameter defines the limit level for the value field of nvi xDO AlrmStop variable higher values causin
107. xPID_Sensor2 nvo xPID Ctrl ON state Value Hysteresis Activation No1 Activation No2 Activation No3 Activation No4 Activation No5 Activation No6 Selection of the process measurement for the controller The process measurement can be brought to the controller from Al objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need of using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm Selection of the compensation measurement for the controller The compensation measurement can be brought to the controller from Al objects located in the same module with the controller object via an internal binding using this parameter This eliminates the need for using a LON binding tool See also Hi Level Sliding Alarm Lo Level Sliding Alarm This defines the value of nvo xPID Ctrl when the controller is in ON state In Range mode only the hysteresis is defined with this parameter The controller is considered to be in ON state only after the measured value exceeds the low limit value hysteresis i e the value of this parameter or falls below high limit value hysteresis The input is considered to be in ON state until the measurement exceeds the high limit value or falls below the low limit value The controller is activated when the value of nvi xPID Ctrl equals either value of this parameter The controller compares the measureme
108. y a single Dl object configured as Monitored Alarm Arming See also Monitored Alarm Arming NOTE In smart home systems utilizing Lonix STAM module when a single burglar alarm loop for occupancy sensors and another one for magnetic switches is sufficient it is recommended to use the ShieldLoop and AreaLoop objects of the STAM module Functionality of Network Variables nvi xDI Switch nvo xDI Switch1 LONIX LTD www lonix com In burglar alarm applications this variable is bound with the nvo xDI Switch1 of another Dl object in the same burglar alarm loop This enables transmission of the monitoring token of the alarm loop for tampering When the burglar alarm loop is unarmed the value of this variable shows either the value of nvi xDI Switch variable or the physical state of the object whichever has changed most recently When the object is armed i e the loop this object Teollisuuskatu 33 Tel 358 9 349 9853 VAT 1043054 9 Fl 00510 Helsinki Finland Fax 358 9 349 9863 Trade Reg No 678 356 C c3 nvo xDI Switch2 User Manual M10 MultiController 18 70 belongs to is armed this variable passes the monitoring token to the next object in the loop Follows the object s physical state When the circuit is closed the variable shows the configured ON value of the object When the circuit is open the variable shows the configured OFF value When the object is alarming the value of this variable shows
109. y left during this delay without causing alarms This parameter also defines the sending time of the alarm loop monitoring token This parameter defines the alarm priority The higher the value the more important the alarm is When set to zero 0 the object does not send any alarms When a Lonix STAM controller is involved an alarm of priority 4 or greater will trigger the alarm siren An alarm with a priority of 3 will trigger the alarm buzzer The parameter defines whether a burglar alarm or a fire alarm is caused when the object is alarming This influences the alarm code shown in variable nvo xDI Switch2 This parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch1 when the object is in OFF state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in ON state The parameter defines the value and state of the output network variable nvo xDI Switch2 when the object is in OFF state Tel 358 9 349 9853 Fax 358 9 349 9863 Teollisuuskatu 33 Fl 00510 Helsinki Finland 0 65535s 0 65535s Yes No 0 320s 0 7 Burglar alarm Fire alarm Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or 1 See Note 1 Value 0 200 State 0 or
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