ENG - Carel
Contents
1. 110 230 24Vac N t 3 ttf L 20000 200 TANI oeieciee ooo 200 hm mmm mi rur mi 7 l H 46 ur zr p eee b See js amp 8 8 g m Hn m z J f 2 2 220 222000 322 998 ES 3 3 54 33339 ERO 2 U26 FBus2 pi paeo Fig 10 A Relays with changeover contacts Important the current running through the common terminals pChrono model must not exceed the rated current of an individual terminal 8 A Some Small Large No outputs 8 8 12 13 relays feature changeover contacts Remote connection of digital outputs The sizes of the cables based on the current are shown in the table below Size mm AVVG Current A 0 5 20 2 1 5 15 6 25 14 8 10 4 pChrono technical specifications Physical specifications 3 SMALL 13 DIN modules 110 X 227 5 X 60 mm Dimensions LARGE 18 DIN modules 1110X315 X60 mm Assembly fitted on DIN rail in accordance with DIN 43880 CEI EN 50022 Material technopolymer Plastic case Flammability V2 UL94 and 850 C in accordance with IEC 60695 Ball pressure test 125 C Resistance to creeping current 250V Colour Grey RAL 7016 Built in pGD1 132x64 pixel vvith backlit keypad Other specifications Operating conditions 20T60 C 90 RH non condensing Storage conditions 30T70 C2. g o z o lt AdS uong YOUMS 2 5 2 z a 2 9 g mq 5 IN Jeo is ola leo s x bli TD A ai BaslseseeSisalsiss sn g s ndul s nd no s ndul no s ndul s nd no s ndul no s ndul s nd no s ndul no 4 nbolpuy bojeuy 4 eub q eub q anbojeuy bojeuy 4 6 eub q anbojeuy bojeuy 74 pChrono 040000181 rel 1 4 23 09 2014 CAREL o N ion o g z o z x T ee o 5 5 5 rel z 2 AdS uonng YOUMS N 2 5 2 z a oo OV 2 3 Ne fe lt N olx i lalm lt olx TD sekss BaslseseeSisalsiss abi o s g s ndul s nd no s ndul no s ndul s nd no s ndul no s ndul s nd no s ndul no 4 nbolpuy bojeuy 4 eub q eub q anbojeuy bojeuy 4 6 eub q anbojeuy bojeuy Type Label Description Scheduler Action on Switch Button SPV CAREL Note pCOe addr 10 D1 D2 Digital nputs D3
3. In Out Type Label In Out Type n Universal I O 4 B In Analogue in n Universal I O n Universal I O A n Universal I O s n Universal I O R a n Universal I O 4 B n Analogue in n Universal I O B n Analogue in B n Analogue in n Universal I O B n Analogue in n Universal I O z a n Universal 4 B n Analoque in n Universal I O Digital input n Universal I O Digital input Out Universal I O z m Analogue output Out Universal I O m Analogue output n Digital input 4 ID In Digital input n Digital input Out Analogue output 1 Y Out Out Analogue output Out Analogue output Out Digital output 4 NO NC Out Digital output Out Digital output Out Digital output Out Digital output Telephone conn pLAN J10 Additional terminal power Active probe power Ratiometric probe power 1 VGVGO Signal and power supply Signal only Tab 9 a 59 pChrono 040000181 rel 1 4 23 09 2014 CAREL 9 1 Small and Large connection terminals JR 0000 9 O 3 3 4 af aad A FieldBus card
4. AL201 VVC alarm 1 anua AL202 VVC alarm 2 anua AL203 VVC alarm 3 Manua AL204 WC alarm 4 Manua AL205 VVC alarm 5 anua AL206 WC alarm 6 anua zz AL207 VVC alarm 7 Manua AL208 WC alarm 8 Manua AL209 WC alarm 9 anua AL210 WC alarm 10 anua AL211 WC alarm 11 Manua AL212 VVC alarm 12 Manua AL213 VVC alarm 13 anua AL214 VVC alarm 14 anua AL215 WC alarm 15 Manua AL216 WC alarm 16 Manua AL217 WC alarm 17 anua AL218 WC alarm 18 anua AL219 WC alarm 19 Manua AL220 VVC alarm 20 Manua AL221 Blackout warning AL222 Generic alarm of generic function 6 Automatic AL223 Generic alarm of generic function 7 Automatic AL224 Generic alarm of generic function 8 Automatic AL225 Generic alarm of generic function 9 Automatic AL226 Generic alarm of generic function 10 Automatic AL227 Generic alarm of generic function 11 Automatic AL228 Generic alarm of generic function 12 Automatic AL229 Generic alarm of generic function 13 Automatic AL230 Generic alarm of generic function 14 Automatic z AL231 Generic alarm of generic function 15 Automatic AL232 Generic alarm of generic function 16 Automatic AL233 Generic alarm of generic function 17 Automatic AL234 Generic alarm of generic function 18 Automatic AL235 Generic alarm of generic function 19 Automatic AL236 Generic alarm of generic function 20 Aut
5. The follovving table summarizes graphically hovv the various managements act on the configurated load Loads managements Joint action Action 24h 1 1only scheduler scheduler 2 only switch svvitch 3 scheduler switch scheduler switch 4 scheduler switch timer scheduler switch timer 5 scheduler SPV scheduler SPV 6 scheduler SPV timer scheduler SPV timer 7_ only button button 8 scheduler button scheduler button 9 scheduler SPV button scheduler SPV button 10_ scheduler timer scheduler timer 11 isvvitch button switch button Tab 6 b 6 6 Generic function management pChrono provides users up to 20 generic functions which can be configured according to system requirements These are particularly useful for example for managing ON OFF operation of a valve based on the temperature pressure other reading Each functions can be named using the 8 digit text available The name associated with the management will then be shown on the screens used to configure such loads the same name will also be available on PlantVisorPRO here editable too Each function can be configured as e Thermostat to manage a Direct or Reverse step based on the settings of a set point an ON differential and an OFF differential The high and low alarm thresholds and the corresponding alarm delay time can also be set e Modulating to manage a Direct or Reverse
6. Select vvhich time band use 0 m 0 20 Shovv the current time band Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 Show the current period Select vvhich time band use 0 0 20 B Shovv the current time band Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 Shovv the current period Ed01 Number of generic loads Set number of generic loads 0 0 20 pChrono 040000181 rel 1 4 23 09 2014 52 CAREL Mask index Display descr Description Def UOM Values 402 Generic load 1 Set the name for generic load 1 8 letters 0 m 0 72 Management type Set management type for generic load 1 0 0 1 only scheduler 2 only switch 3 sched switch 4 sched switch button 5 sched spv 6 sched spv button Enable exceptions Enable Disable exceptions 0 0 No 1 Yes Ed03 Name of generic load 1 8 letters 0 72 Switch set position for switch if enable 0 88 Button set position for button if enable 0 88 SPV set position for SPV if enable m 0 30 Button on time if enab
7. 1 Gb Mem E gt i LSP z us leno lvoe ua leno amp us n VG ivso o2 iz ooog 22000 220 2020 Al 33 99 3 3 3 ee TES WEER LL UUUUUUUUVUUUUUUUUUU uu La 110 FEF Sasa EEO Ja J2 23 2 FieldBus card BMS card J ooooo2 UHT FEES 2222 2282222222 esl EEA 22 2 22099 Ref Description Ref Description 1 Power supply connector G GO 1_ pLAN plug in connector Vterm power supply for additional terminal 5 VREF power supply for ratiometric probes 2 Reserved 3 Universal inputs outputs 3 Reserved 4 4VDC power supply for active probes 4 Reserved 5 Button for setting pLAN address secondary display LEDs 5 _ Relay digital outputs 6 VG power supply at voltage A for opto isolated analogue output 6 BMs2 port VGO power for optically isolated
8. supply to 0 to 5 V ratiometric probes J2 U1 Universal input output 1 3 J2 2 U2 Universal input output 2 J2 3 U3 Universal input output 3 J2 4 GND Common for universal inputs outputs 1 2 3 J3 U4 Universal input output 4 3 J3 2 GND Common for universal input output 4 J3 3 U5 Universal input output 5 J3 4 GND Common for universal input output 5 J6 U6 Universal input output 6 3 J6 2 U7 Universal input output 7 J6 3 U8 Universal input output 8 J6 4 GND Common for universal inputs outputs 6 7 8 20 39 U9 Universal input output 9 3 120 4 GND Common for universal input output 9 J20 5 U10 Universal input output 10 J20 6 9 GND Common for universal input output 10 4 J2 5 VDC ___ Power to active probes 5 for setting pLAN address secondary display signal LEDs 6 J4 1 VG Power to optically isolated analogue output voltage 4 2 VGO Power to optically isolated analogue output Vac Vdc 61 040000181 rel 1 4 23 09 2014 CAREL 4 3 Y Analogue output 1 to 10 V 7 4 4 Analogue output 2 to 10V J4 5 Y3 Analogue output 3 to 10 V 4 6 Y4 Analogue output 4 0 to 10V 7 J20 1 y5 A
9. pChrono 040000181 rel 1 4 23 09 2014 38 CAREL BSocket config a The load has been identified with the name HotWater The load will be 5 Hothlater Switched off based on the configured exceptions nable excertions YES The scheduler for the HotWater load shown in the heading line 0 on the screen is configured to operate every Monday Wednesday Thursday Friday and Sunday from 13 30 to 17 30 For further details on using these devices see the corresponding instruction sheet 0500049ML 6 5 Generic load management pChrono can manage up to 20 generic loads This is especially useful for loads that require simple timed operation for example exhaust fans air curtains dampers and irrigation systems Each device can be named using the 8 digit text available The name associated with the load will then be shown on the screens used to configure such loads the same name will also be available on PlantVisorPRO here editable too For details on some of the technical terms used here see paragraph 6 2 Lights Each load be managed in different ways according to system requirements pChrono provides 11 types of management 1 ONLY SCHEDULER the load is on when enabled by the scheduler 2 ONLY SWITCH the load is on when enabled by the switch input 3 SCHEDULER SWITCH the load is enabled to be switched on based on the scheduler settings but is only actually switched on us
10. pChrono 040000181 rel 1 4 23 09 2014 42 CAREL 7 PARAMETERTABLE Mask index indicates the unique address of each screen and consequently the path needed to reach the parameters available on this screen for example to reach the parameters corresponding to the suction pressure probe vvith mask index Bab01 proceed as follovvs Main menu B In Out gt a Status gt b Analog in Below is the table of the parameters that can be displayed on the terminal The values indicated with are not significant or are not set while the values indicated with may vary according to the configuration with the possible options visible on the user terminal A row means that there are a series of parameters similar to the previous ones Note not all the screens and parameters shown in the table are always visible or can be set the screens and parameters that are visible or can be set depend on the configuration and the access level Mask index Display description Description Def 1UOM Values Hain soreen Main screen for pChrono pChrono The name of the product Time and date Hours and minutes 0 23 0 59 Weekday Monday to Sunday ad Date 20 6 13 Unit status Unit status vvith unit OFF 1 Unit ON 0 Unit OFF by keyboard i Press down to see the device status M
11. 040000181 rel 1 4 23 09 2014 VVireless plug vvith built in energy meter function flexibility The energy meter and transmits these to pCh CAREL This screen is used to override the relay on the device On or Off As this device is mains povvered the transmission time does not affect system can be reset using the parameter on screen The energy reading is supplied by the wireless device which saves the data rono every data transmission time together with instant power These readings are shown in loop B Load status The wireless plugs do not have dipswitches for setting the serial address for the correct procedure see instruction sheet 0500049ML included in the packaging with the devices and online at carel com In paragraph 5 2 Wireless network configuration however shows an extract of the procedure to be followed Initialisation This loop is reserved for initialising pChrono delete the alarm log backup the current configuration Delete data logger H measurement Dez Unit Unit measurement tyre STAHDARD C bara Debs Initialization DEFAULT INSTALLATIOW Erase user settings land install global default value Deb Initialization Save configuration H Save default 144 85 13 Debs Initialization Insert new hardware config Password BABA nsert new los config Password BOBA pChrono 040000181 rel 1 4 23 09
12. 9 SCHEDULER SPV BUTTON the loads are enabled to be switched on based on the scheduler settings but are only actually switched on using the special function on the supervisor A list of 30 variables is provided for this function The button will switch on the loads for the set time independently of whether they are enabled by the scheduler or the supervisor 10 SCHEDULER TIMER the loads are enabled to be switched on based on the scheduler settings but are only actually switched on using the corresponding timer input Outside of the time bands the loads will be off 39 040000181 rel 1 4 23 09 2014 Gy CAREL 11 SWITCH BUTTON the loads are enabled to be switched on based on switch status but are only actually switched ON using the corresponding button input For further details on the behaviour of the different options refer to corresponding graphs on par 6 2 Light management The exhaust fan Ext Fan1 is enabled with SCHEDULER SWITCH management Operation will not be affected by the set exceptions NG eneric loads eneric loa The switch configured to start the fan inside the time band is connected to ID1 on pChrono while the output is NO10 again on pChrono 101 The fan vvill be enabled every day of the year from 8 00 to 10 00 Remember that the scheduler simply enables the action of the switch
13. ramp based on the settings of a set point and a band The action can be Proportional or Proportional Integral The integral time high and low alarm thresholds and the corresponding alarm delay time can also be set e Generic alarm to manage a generic alarm signal The alarm input is set together with the corresponding output that will be activated in the event of alarms the operating logic and an activation delay This option 040000181 rel 1 4 23 09 2014 40 CAREL Gy allow pChrono to generate one single alarm for up to 12 alarms just need to select the Alarm code from list This function is usefull when is necessary to activate different lights color according to different alarms group the selection of the alarm is thanks to the alarm list on par 8 Alarm Table Pulses the selected digital output will be closed and open for a setting time ON and OFF The action is enabled only when the scheduler is active This action is required when a square wave behaviour is neeed for example in the fish shop where a water jet cleans drains from debris WC alarm this function provides inputs and outputs to manage the security alarm required by law to be placed in the disabled toilets One input is closed by pulling the string this action enabled the dout buzzer output The Reset digital input acts opening the buzzer contact so the alarm is resetted Generic function 1 has been set as Thermosta
14. 0 None Protocol 1 Modbus RS485 2 pCO Manager Speed Set speed for protocol 4 0 1200 1 2400 2 4800 3 9600 4 19200 Address Set address for SPV 1 m 1 207 47 040000181 rel 1 4 23 09 2014 Gy CAREL Mask index __ Display descr Description Def _ Values Da06 BMS2 supervisor setting Set protocol for BMS1 0 0 None Protocol 1 Modbus RS485 2 pCO Manager Speed Set speed for protocol 4 0 1200 1 2400 2 4800 3 9600 4 19200 Address Set address for SPV 1 1 207 07 Enable buzzer Enable buzzer beep 1 1 Yes Alarms output Output Set the position for alarm output 0 0 58 position Relay status Logic of alarm output relay output status 0 NO 1 NC Waring blackout Enable blackout warning 1 0 NO Da08 BUT AUX1 inputs selsec logic input 1 for DIN AUX1 0 66 tion 1 YES 2 Button logic input 2 for DIN AUX1 0 66 3 Button logic input 3 for DIN AUX1 m 0 66 4 Button logic input 4 for DIN AUX1 0 66 Da09 BUT AUX1 inputs selsec Button logic input 5 for DIN AUX1 0 66 tion 5 6 Button logic input 6 for DIN AUX1 0 66 he Button
15. 11104 0 11 U1 pChrono U2 pChrono U3 pChrono U4 pChrono U5 pChrono U6 pChrono U7 pChrono U8 pChrono U9 pChrono U10 pChrono TMR AUX1 TMR AUX2 TMR AUX3 TMR AUX4 TMR AUX5 SWI AUX1 SWIAUX2 SWI AUX3 SWI AUX4 SWIAUX5 AND AUX1 AND AUX2 AND AUX3 AND AUX4 AND AUX5 OR AUX1 OR AUX2 OR AUX3 OR AUX4 OR AUX5 BUT AUX1 BUT AUX2 BUT AUX3 BUT AUX4 BUT AUX5 TMP VAR1 TMPVAR2 TMP VAR3 TMPVAR4 TMPVAR5 TMPVARe TMPVARZ7 TMPVARS TMPVAR9 TMEPVAR10 23 040000181 rel 1 4 23 09 2014 Gy CAREL Below on the other hand is the list of analogue inputs that can be used for example to connect a brightness sensor LUX U1 pChrono U2 pChrono U3 pChrono U4 pChrono U5 pChrono U6 pChrono U7 pChrono U8 pChrono U9 pChrono U10 pChrono B1 pCOe2 B2 pCOe2 B3 pCOe2 B4 pCOe2 B1 pCOe3 B2 pCOe3 B3 pCOe3 B4 pCOe3 B1 pCOe4 B2 pCOe4 B3 pCOe4 B4 pCOe4 B1 pCOe5 B2 pCOe5 B3 pCOe5 B4 pCOe5 B1 pCOe6 B2 pCOe6 B3 pCOe6 B4 pCOe6 B1 pCOe7 B2 pCOe7 B3 pCOe7 B4 pCOe7 B1 pCOe8 B2 pCOe8 B3 pCOe8 B4 pCOe8 B1 pCOe9 B2 pCOe9 B3 pCOe9 B4 pCOe9 B1 pCOe10 B2 pCOe10 B3 pCOe10 B4 pCOe10 B1 pCOe11 B2 pCOe11 B3 pCOe11 B4 pCOe11S 1 add 21 S add 22 S add 23 S add 24 SI add 25 Q Note at the end of this manual there is a table for noting the actual configuration of the various inputs outputs 6 2 Light management pChrono manages up to 20 light areas Each area can be named using up to 8 digits The name associated with the area will then be shown on the
16. AL138 Generic alarm of generic function 3 Automatic AL139 Generic alarm of generic function 4 Automatic AL140 Generic alarm of generic function 5 Automatic AL141 Probe U1 disconnected or fault AL142 Probe U2 disconnected or fault AL143 Probe U3 disconnected or fault AL144 Probe U4 disconnected or fault AL145 Probe U5 disconnected or fault AL146 Probe U6 disconnected or fault AL147 Probe U17disconnected or fault AL148 Probe U8 disconnected or fault AL149 Probe U9 disconnected or fault AL150 Probe U10 disconnected or fault AL151 Socket add 26 offline AL152 Socket add 27 offline AL153 Socket add 28 offline AL154 Socket add 29 offline AL155 Socket add 30 offline AL156 Socket add 31 offline AL157 Socket add 32 offline AL158 Socket add 33 offline AL159 Socket add 34 offline AL160 Socket add 35 offline AL161 High alarm of generic function 1 AL162 High alarm of generic function 2 AL163 High alarm of generic function 3 AL164 High alarm of generic function 4 AL165 High alarm of generic function 5 AL166 Low alarm of generic function 1 AL167 Low alarm of generic function 2 AL168 Low alarm of generic function 3 AL169 Lovv alarm of generic function 4 AL170 Lovv alarm of generic function 5 AL171 High alarm of generic function 6 Automatic AL172 High alarm of generic function 7 Automatic AL173 High alarm of generic function 8 Automatic AL174 High alarm of generic function 9 Automatic AL175 High a
17. 90 RH non condensing ngress protection IP20 on the front panel only Pollution rating for disposal to be integrated into Class and or l equipment in Class according to protection against electric shock versions without valve driver PTI of the insulating materials PCB PTI 250 V insulating material PTI 175 Period of stress across the insulating parts long Type of action 1C Type of disconnection or microswitching microswitching Heat and fire resistance category Category D UL94 V2 Ageing characteristics operating hours 80 000 umber of automatic operating cycles 100 000 EN 60730 1 30 000 UL60730 Rated impulse voltage 2500V 67 040000181 rel 1 4 23 09 2014 Gy CAREL Electrical specifications Power supply SMALL LARGE use a dedicated class safety transformer 50 VA Vac P Vac Vdc P Vdc SMALL 24 Vac 10 15 50 60 Hz 45VA 28 36 Vdc 20 10 30 W LARGE protected by external 250 A protected by external T fuse 250 AT fuse Terminal block with male female plug in connectors Cable cross section min 0 5 mm max 2 5 mm CPU 32 bit 100 MHz Non volatile memory FLASH 9 Mbyte 2 Mbyte Bios 7 Mbyte application program 4MB logs Data memory RAM 3 2 Mbyte 1 76 Mbyte Bios 1 44 Mbyte application program T buffer memory EEPROM 13 KByte P parameter memory EEPROM 32 kbyte not available to the pLAN Working
18. If the dedicated input its a Universal Input suitably configured as FAST DIN the shorting of the input UX trough GND is interpreted as a closed contact and the light is turned on if off or off if on The closure of the Universal Input can have duration lt 2 ms If the input is instead dedicated a normal digital input DIN it will be desirable to provide an input signal to pChrono input for at least 2sec Wiring diagram for the switch timer and button used with pChrono switch timer button ae Fig 6 b pChrono 040000181 rel 1 4 23 09 2014 24 CAREL Diagram illustrating the behaviour of the svvitch and button Timer Button DOUT Fig 6 Note how the digital output controlled by the svvitch follows the status of the digital input On the other hand the digital output managed by a logical timer is managed by time which is reset whenever the digital input switches status before the set time of 1 min If on the other hand the digital output does not switch over before the set time when the time elapses the digital output is de energised While the button input always reverse the status of the releted digital outputs Each area can be managed in different ways according to system requirements pChrono provides 15 types of management 1 ONLY SCHEDULER the lights are ON when enabled by the scheduler Scheduler DOUT Fig 6 d 2 ONLY SWITCH
19. OFF Network config The addresses of the wireless plugs are also predefined The user can 5 Buz configure address 26 for example as a PLUG and address 28 as a SWITCH Hz6 PLuu 82 Thi isibili i i ESS ch oh 39 51 CH his allows better visibility of the data corresponding to the device when SEs 831 brovvsing the screens n addition the template on PlantVisorPRO 1543 138 will show based on the address of the device being accessed the image of a Plug or Switch The address of the aforementioned devices can be configured using the button for details see instruction sheet 0500049ML or at paragraph 5 2 Wireless network configuration 13 040000181 rel 1 4 23 09 2014 Configuration 1 surervisor Betting Sreed Configuration B SuPervisor setting Protocol MODBUS R5485 Sreed 19206 Address 194 pChrono settings CAREL Communication port BMS1 is enabled for the connection of a second supervisory system this can in fact be used to install the pCOWeb card The protocol can be selected as pCO MANAGER to update the application program or MODBUS RS485 The integrated communication port BMS2 is enabled for the connection of a supervisory system such as Carel PlantVisorPRO The protocol can be selected as pCO MANAGER to update the application program or MODBUS RS485 This loop is used to configure the inputs outputs on the pChrono device different scre
20. cle 5885 SA sensor 5816 DdB3 hresholds setting igh temr 0 BrE Ow bene B t Offset temr 8 8 C TEME hresholds setting igh humid ow humid BzrH BxrH The heading on line zero identifies the type of sensor and the serial address ine 1 on the other hand shows an editable 8 digit text to identify the location of the sensor This screen is used to set the transmission time for refreshing the values measured by the sensor on pChrono The lower the time the shorter he battery life Typically for a transmission time of 5 minutes the battery will last 5 years Further details are available in the manual 0300030xx This screen on the other hand is used to set the limits for the high and low emperature alarms An offset can also be entered for the sensor reading The high and low humidity alarm threshold is set on this screen No offset is available for the room humidity reading SI sensor LUX Temperature Humidity ST LUS hresholds setting igh light ow Light oeff light Lux BLux BLux For the SI sensor too an 8 digit text is available for identifying the sensor compared to the SA sensor this also measures brightness in the room with the high and low brightness alarm thresholds set on this screen a coefficient is also available for adjusting the reading set by default to 1000 unless in special cases this parameter should not be changed 15
21. the lights are ON when enabled by the switch input DIN Switch DOUT Fig 6 e 25 040000181 rel 1 4 23 09 2014 Gy CAREL 3 SCHEDULER SWITCH the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the corresponding switch input Outside of the time bands the lights will be OFF Scheduler DIN Switch DOUT Fig 6 f 4 SCHEDULER SWITCH TIMER the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the corresponding switch input The timer will switch ON the lights for the set time independently of whether they are enabled by the scheduler or the switch Scheduler DIN Switch DIN Timer DOUT Fig 6 9 5 SCHEDULER SPV the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the special function on the supervisor A list of 30 variables is provided for this function This configuration is useful when using a remote enabling system that identifies daytime or night time for example for the management of outside lights see example 3 below with Geo Lighting in package for PlantVisorPRO Scheduler SPV variable DOUT pChrono 040000181 rel 1 4 23 09 2014 26 CAREL 6 SCHEDULER SPV TIMER the lights are enabled to be switched ON based on the scheduler
22. 01 read only ON TOT Number oflights on 0 80 Number of lights configured 0 80 ON TOT Number of pumps on 0 4 Number of pumps configured 0 4 ON TOT Number of sockets on 0 10 Number of sockets configured 0 10 ON TOT Number of generic loads on 0 20 Number of generic loads configured 0 20 Esc Press Esc key to go back to main mask Tab 7 a Mask index Display description Description Def UOM_ Values A nz TT unit A01 Unit status 7 OFF by KEY 1 Unit on Tab 7 b Mask index YTDisplay descr Description Def VValues B Load status the I Os available depend on the selected configuration the following are just some examples B01 101 Status of digital input 1 Open Close Read only ID2 Status of digital input 2 Open Close 103 Status of digital input 3 Open Close ID4 Status of digital input 4 Open Close BOS U1 Valore ingresso U1 can be DIN AIN FAST DIN 32767 32768 Read only U2 Valore ingresso U2 can be DIN AIN FAST DIN 32767 32768 U3 Value of U3 input can be digital input or analogue input 32767 32768 U4 Value of U4 input can be digital input or analogue input 32767 32768 U5 Value of U5 input can be digital input or analogue input 32767 32768 BO7 NO1 Status of digital output 1 Off On Read only NO2 Status of digital output 2 Off On NO3 Status of digital output 3 Off On NO4 Status of digital output 4 Off On B011 YE Output value of Y1 V 0 10 0 Rea
23. 2122 2222202222 BGI Cees Gg OM Er FC ml a Sag mon 5383838358 885338 88 4 4 24Vac Fig 10 b pChrono 040000181 rel 1 4 23 09 2014 64 FieldBus card BMS card mom eu 9 6585 86 ge 5 5 paana Hunan 2202 2226 J5 sasaaa as Ell 8 l 5 58 55 paman mmmn mm in a ammm mm 2212 RS RA 22 G 60 l Fig 10 24 Vdc digital inputs Digital inputs ID can be controlled at 24 Vdc Example connection diagram LARGE model R FieldBus card BMS card en 8635 mn 24 5 A o al 2 8 9 n 29 eg 6868568585 24 1 e 1 10 4 FieldBus 5 el 124 J2 Y Yan s s d G 5 S S G m aaj m m m mami 222 22222 Fig 10 e 230 Vac digital inputs On the Large version there are two groups of inputs that can be powered at 230 Vac terminals J Each group has two 230 Vac digital inputs indicated as ID H and two 24 Vac Vdc inputs indica 8 and 119 ed as ID The groups of 230 Vac inputs feature double insulation between them and the controller the digital inputs connected can be 24 Vac dc in one gro
24. 5 clo o l irre i U pChrono 040000181 rel 1 4 23 09 2014 46 CAREL Mask index Display descr Description Def VValues 07 er 1 Starting of Period 1 20 Starting of Period 1 3 Ending of Period 1 20 Ending of Period 1 6 er 2 Starting of Period 2 21 Starting of Period 2 3 Ending of Period 2 20 Ending of Period 2 9 er 3 Starting of Period 3 22 Starting of Period 3 9 Ending of Period 3 20 Ending of Period 3 12 er 4 Starting of Period 4 21 Starting of Period 4 12 Ending of Period 4 19 Ending of Period 4 3 er 5 Starting of Period 5 20 Starting of Period 5 6 Ending of Period 5 21 Ending of Period 5 9 C09 11 5 Time band usage from time band 1 to time band 5 0 50 6 10 Time band usage from time band 6 to time band 10 0 50 11 15 Time band usage from time band 11 to time band 15 0 50 16 20 Time band usage from time band 16 to time band 20 0 50 C10 11 5 Period usage from period 1 to period 5 0 50 6 10 Period usage from period 6 to period 10 0 50 C11 Exception 01 01 Indicate the exception Fom Exception from date l 31 1 13 to Exception end date 1 31 7 12 C26 Next exception Showing n
25. 5 01 G2 02 04 p5 06 07 08 09 18 11 12 15 14 15 16 17 18 15 20 21 22 23 24 25 26 27 28 29 30 31 xcertion 81 61 bron 16 MAY 15 MAY pChrono 040000181 rel 1 4 23 09 2014 Area 1 called Room 1a has three light fixtures managed by the scheduler one svvitch and a button Enabling the exceptions vvill disable the action of the scheduler and the switch which always depends on the scheduler the action of the button on the other hand will be always enabled Further details are available under loop 7 1 Light management To set the exceptions in menu C Clock Scheduler proceed as follows This highlights the next exception dd mm in the example no exceptions have been configured Press ENTER to set an exception The screen displays the current month with the cursor on 0 0 use UP or DOWN to select the month the exception applies to From position 0 0 pressing ENTER moves the cursor to day 1 of the month Use the UP arrow to scroll to the desired day In the example 16 MAY Press ENTER to configure the exception This screen is used to change the exception period In the example the exception will be active from 16 May to 18 May Press ENTER to confirm the exception 16 18 May The exception is then displayed on this screen The selected days refer to the exception period In this form by selecting the first useful exception set day the 16th in this case if you pre
26. Automatic AL36 High temperature alarm of SA address 18 Automatic AL37 Low humidity alarm of SA address 18 Automatic AL38 High humidity alarm of SA address 18 Automatic m AL39 robe error of SA address 18 Automatic AL40 Lovv battery alarm of SA address 18 Automatic m AL41 Low temperature alarm of SI address 21 Automatic AL42 High temperature alarm of SI address 21 Automatic AL43 Low humidity alarm of SI address 21 Automatic m AL44 High humidity alarm of SI address 21 Automatic AL45 Lovv light alarm of S address 21 Automatic pChrono 040000181 rel 1 4 23 09 2014 54 CAREL AL46 High light alarm of Sl address 21 Automatic AL47 robe error of S address 21 Automatic AL48 Lovv battery alarm of Sl address 21 Automatic m AL49 Low temperature alarm of S address 22 Automatic ALSO High temperature alarm of SI address 22 Automatic m AL51 Lovv humidity alarm of S address 22 Automatic AL52 High humidity alarm of SI address 22 Automatic AL53 Low light alarm of SI address 22 Automatic AL54 High light alarm of SI address 22 Automatic AL55 robe error of SI address 22 Automatic AL56 Low battery alarm o
27. Correct operation is not guaranteed if actuators with voltage inputs are connected e power the VG VGO analogue outputs at the same voltage on G G0 Connect G to VG and GO to VGO This is valid for both alternating and direct current power supplies 69 040000181 rel 1 4 23 09 2014 Digital outputs NO NC Type Maximum no Relay Minimum contact current 50 mA 8 SMALL 18 LARGE CAREL The relay outputs have different features depending on the model of controller The outputs can be divided into groups The relays belonging to the same group individual cell in the table have Insulation unctional insulation and therefore must have the same voltage Between groups cells in the table distance b m here is reinforced insulation and consequently these may have different voltages There is also rein orced insulation between each terminal of the digital outputs and the rest of the controller Relays with same insulation Group odel 1 2 3 4 5 6 7 8 9 10 111 SMALL 153 4 6 7 8 R 5 Makeuporthe Type of relay Type A Type A Type A Type A groups LARGE 1 3 14 6 7 8 9 11 12 13 14 15 16 18 5 t Type of relay Type A Type A Type A Type A Type A Type A Type A Type A Type A 7 1 SMALL relay 8 5 LARGE relays 8 12 13 14615 contacts Note the output relays have different fea Rat
28. D4 O1 02 03 Digita outputs O4 B1 B2 inputs B3 B4 YI Analog Analogue out Type Label Description Action on Note SA wireless sensor addr 16 T H Analogue Temp inputs Humid SA wireless sensor addr 17 T H Analogue Temp inputs Humid SA wireless sensor addr 18 T H Analogue emp inputs Humid SI wireless sensor addr 21 T H LUX Analogue emp inputs Humid LUX S wireless sensor addr 22 T H LUX Analogue emp inputs Humid LUX S wireless sensor addr 23 T H LUX Analogue emp inputs Humid LUX S wireless sensor addr 24 T H LUX Analogue Temp inputs Humid LUX pChrono 040000181 rel 1 4 23 09 2014 76 CAREL SI wireless sensor addr 25 T H LUX Analogue Temp inputs Humid LUX Wireless plug addr 26 Type Description Scheduler Switch Plug Action on Note OA socke Wireless plug addr 27 OA socke Wireless plug addr 28 OA socke Wireless plug addr 29 OA socke Wireless plug addr 30 OA socke Wireless plug addr 31 OA socke Wireless plug addr 32 OA socke Wireless plug addr 33 OA
29. NO 1 5 Alarm delay Set delay time for generic alarm 5 0 999 Tab 7 f 53 040000181 rel 1 4 23 09 2014 CAREL Mask index TDisplay descr Description Def UOM Values F Information F01 Language Change language press Enter to change 0 English 1 Italian Press ESC to confirm Shovv mask time S 0 999 FO2 Code pChrono Ver Software version and date Bios Bios version and date Boot Boot version and date F03 Board type Board type Small Large Board size az s Total flash Total flash Ram memory Built In type Built in type Main cycle Program cycle a Tab 7 g 8 ALARM TABLE Below is the list of alarms managed by pChrono Most of the alarms have automatic reset so if the alarm condition disappears the alarm stops automatically Otherwise manual operation is required by Alarm button after the reset of the alarm condition Code Description Reset Action ALO1 Clock board fault or not connected Manua ALO2 Extended memory error Manua m AL03 pCOe address 2 offline Automatic m ALO4 pCOe address 3 offline Automatic ALOS pCOe address 4 offline Automatic ALO6 pC
30. Name of SA letter 4 0 72 Name of SA letter 5 0 72 Name of SA letter 6 0 72 Name of SA letter 7 0 72 Name of SA letter 8 0 72 Time to send data cycle cycle to send data to AP 60 5 5 3600 49 040000181 rel 1 4 23 09 2014 Mask index TDisplay descr Description Def UOM Values Dd03 SA sensor Address of SA sensor 16 16 ame of SA letter 1 0 72 lame of SA letter 2 m 0 72 ame of SA letter 3 m 0 72 ame of SA letter 4 0 72 ame of SA letter 5 0 72 ame of SA letter 6 0 72 ame of SA letter 7 0 72 ame of SA letter 8 0 72 Threshol setting High High temperature threshold set oC eF 1 999 9 999 9 temp Low temp Low temperature threshold set oC eF 1 999 9 999 9 Offset temp Offset of temperature probe oC oF 99 9 999 0404 SA sensor Address of SA sensor 16 16 ame of SA letter 1 0 72 lame of SA letter 2 0 72 ame of SA letter 3 0 72 lame of SA letter 4 0 72 ame of SA letter 5 0 72 ame of SA letter 6 0 72 ame of SA letter 7 0 72 lame of SA letter 8 0 72 Thres
31. Timer Light 1 setting that switches light 1 on for 5 minutes is associated with ID4 pChorno The itch ID1 FPChrone i igi i m ihe dedicated digital output is NO1 on pChrono Timer delay Smir Light 1 HO1 FChrono Room 15 Ei Light fixture 2 in area 1 is switched on off by ID2 pChrono The Timer that fo 2 setting switches light 2 on for 5 minutes is associated with ID4 pChorno The switch 102 F hrnono dedicated digital output is NO2 on pChrono Timer 104 Light 2 02 Light fixture 3 in area 1 is switched ON OFF by ID3 pChrono The Timer SALS that switches light 3 on for 5 minutes is associated with ID4 pChrono The 15 dedicated digital output is NO3 on pChrono Light 3 03 k The scheduler is set here as per specifications For the days of the week note cheduler settin ZC T 20 12 Se MTWTE how when the first letter of the day is visible the scheduler is active on that 5 B1CG17JAN 15 MAR day 82005 12 86 MTWTF 9 85215 20 Taa SH Fei 55 4 8 col JAH 31 DE Legenda 104 Motion sensor Lights line 1 H Lightslne2 El Lights line 3 101 Switch line 1 ae ae SS 2 101 1 1 1D2 Switch line 2 1 x 57 50 ID3 Svvitch line 3 A in TJ 02 104 Time
32. alarm condition back to the normal operation the DOUT status blink during this time on of total Common auxiliary digital inputs function When need to manage a load by more than one digital input is aided by the Auxiliary Inputs pChrono it offers five different types each one in number of five Common Timer management inputs TMR AUX1 TMR AUX2 TMR AUX3 TMR AUX4 TMR AUX5 anagement of the Timer can be associated with the use of motion detectors Often however more than one detector is needed in a certain area especially larger areas For this function pChrono provides 5 virtual inputs that group together the action of multiple digital inputs used as timers TMR AUX These inputs can be configured under loop D Hardware config a Network Each TMR AUXx input can be associated with up to 8 different digital inputs The specific TMR AUX is then selected in the load configuration screens the user can select the input by scrolling the list of I Os available in the field on the Timer screen Remember that the logical state of these inputs is the logical OR of all the inputs configured on TMR AUX each of the inputs will in fact restart the Timer time count cancelling the switching Open Closed Closed gt Open of the previous input The light will switch OFF when the set time has elapsed Input TMRAUX1 will depend on the status of inputs ID3 pChrono ID4 pChrono 1010 Id11 pChrono
33. analogue output Vac Vdc 7__ Analogue outputs 7_ FieldBus2 port 8 _ ID digital inputs at voltage A 8 Jumpers leave at ON position 9 D digital inputs at voltage A a Nisbused DH digital inputs at voltage B 10 _ pLAN telephone connector for terminal downloading application Voltage A 24 Vac or 28 to 36 Vdc Voltage B 230 Vac 50 60 Hz pChrono 040000181 rel 1 4 23 09 2014 60 Tab 9 b CAREL LENG 9 2 pCOe expansion card connection terminals The pCOe card is used to increase the number of inputs and outputs on a pChrono controller according to system requirements Ref Description Power supply connector G GO Optically isolated 0 to 10 V analogue output RS485 connector network GND T T Optically isolated digital inputs 24 Vac Vdc Yellow power LED e 3 signal LEDs Serial Indirizzo Analogue inputs e probe power supply Relay digital outputs COIN OR 9 3 Description of the pChrono terminals See the figures on the previous pages relating to pChrono Ref Term Label Description m 1 1 G Power supply at voltage A J1 2 GO Power supply reference 24 1 Vterm_ Additional power supply terminal 2 J24 2 GND Power supply common 24 3 5 Vref
34. and Input of another For example you might configure a temperature step and on the logic state of this one you can enable a light a generic load or how much is needed in the plant This flexibility as mentioned can meet the most varied demands without having to wire the electrical panel in the invasive way by reporting phisically the status of the digital output into a digital input In the B I O Status loop you can see the status of the mentioned variables As described the inputs outputs can be selected by the installer according to system requirements The complete selection of the inputs used as a Switch or Button is shown below to simplify configuration in the field List of inputs used for setting the Switch or Button D1 pChrono lD2 pChrono lD3 pChronoylD4 pChrono lD5 pChrono lD6 pChrono lD7 pChrono lD8 pChrono lD9 pChrono lD10 pChrono lD11 pChrono lD12 pChrono lD13 pChrono lD14 pChrono lD15 pChrono lD16 pChrono lD17 pChrono lD18 pChrono lD1 pCOe2 lD2 pCOe2 lD3 pCOe2 lD4 pCOe2 lD1 402 03 404 101 4102 0 41 03 4104 4101 5102 5403 5104 5101 6 02 6103 6104 6 01 7402 703 7404 7101 8102 8103 8104 8101 9 02 903 9104 901 10402 10403 10404 10101 11402 11103
35. automatic clock syncronization plugin to update the clock time on pChrono according to the same one on PlantVisorPRO with a specific scheduler setted by the user himself Please refer to Synchronization Clock timeband on PlantVisorPRO setting The pChrono template for the PlantVisorPRO supervisory system from version SP 2 1 0 provides the same information Select the Parameters tab then Scheduler The number shown in brackets alongside each time band or period indicates the value described here and displayed on screens C09 and C10 19 040000181 rel 1 4 23 09 2014 CAREL 5 4 Setting the exceptions Up to 15 special periods can be set representing exceptions to the time bands selected for the individual load That means that for each load scheduling can be enabled or disabled in the period specified by the exceptions This is useful for example for configuring loads that need to be enabled vvhen an exception disables the majority of the loads for example managing car park lights or illuminated signs on a Sunday or public holiday Lights config aba Ares 1 H a Hum of Lights 3 Management _ tyr SCHED TSUTTCHETIMER nable excertions YES Excertions 86 88 Do you want to set the xcerLions Press EHTER Hext exceptioni li z an 01 02 02 04 65 06 07 08 09 18 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 52 28 29 36 31 way 15 E27 MoT ow TF S
36. brightness sensors The installation of a dedicated Access Point on one of the two FieldBus ports makes the reading of a number of wireless sensors available This further increases the flexibility of pChrono Each wireless sensor can be named using the 8 digit text available The name associated with the sensor will then be shown on the screens used to configure such sensors the same name will also be available on PlantVisorPRO here editable too As mentioned in paragraph 3 System architecture pChrono manages pChrono model _ Type of wireless sensor Number of devices SA Temperature Humidity 3 Small Large S Temperature Humidity Brightness 5 ntegration of these sensors makes the pChrono system even more flexible and adaptable the system is herefore suitable for all installations offering installers adequate support in the field As pChrono can read hese sensors it is also suitable for managing lights SI sensors or a temperature or humidity value that can hen be shared with other devices or simply monitored An integrated system in fact helps the user identify the information needed to optimise the installation The outside temperature for example read using pChrono can then be shared with the air handling unit to enable free cooling where possible Likewise the room emperature and humidity reading improves management of anti sweat heaters on refrigerated cabinets hrough calculation of the dew point
37. free contacts 5 10 fast digital inputs max 2 6 max 2 on U1 U5 type voltage free contact max 2 on U6 U8 max current 10mA 2 on U9 U10 max frequency 2kHz and resolution 1 Hz A Important e for active probes powered externally to 1V 0 to 10 V to 20 mA 4 to 20 mA to avoid irreparably damaging the controller implement adequate current protection measures that must always ensure lt 100 mA e the ratiometric probes can only be powered by the controller on power up the universal inputs outputs remain shorted to GND for around 500 ms until the end of the configuration procedure 040000181 rel 1 4 23 09 2014 68 CAREL Power supply to probes and terminals Analogue outputs without optical isolation maximum number Lmax 30 m SMALL LARGE 0 to 10 Vdc maximum current 2 mA 5 10 PWM output 0 3 3 Vdc maximum current 2 mA frequency 5 10 2kHz asynchronous 100 Hz asynchronous Vdc the 24 21 Vdc 10 available at terminal VDC J2 can be used to power any active probes The maximum current available is 150 mA protected against the short circuits 5Vref power the to 5V ratiometric probes use the 5 Vdc 5 available at terminal 5VREF J24 The maximum current available is 60 mA Vterm 24 10 Used to power an external terminal as an alternative to the one connected to J10 Pmax 1 5 W Important if the length exceeds 10
38. input will be 1 When the logical state of all of the inputs is 0 the value of the virtual input will be 0 Each OR AUX can be associated with up to 4 different digital inputs The OR AUX input is then selected in the load configuration screens the user can select the input by scrolling the list of I Os available in the field on a Svvitch or Button screen Two are the delay times set by mask one of delay for the ON action another for the OFF action lxlol5 311 OUT U 0 1 1 5 xlo Common BUTTON input management inputs BUT AUX1 BUT AUX2 BUT AUX3 BUT AUX4 BUT AUX5 pChrono provides 5 virtual inputs that group together the action of multiple digital inputs BUT AUX VVhen at least one of the digital inputs configured for BUTAUX is closed the logical value of the BUTAUX virtual input will be for an time impulse 1 Each BUT AUX can be associated with up to 5 different digital inputs The BUT AUX input is then selected in the load configuration screens the user can select the input by scrolling the list of I Os available in the field on a Button screen INTERNAL TEMPORARY VARIABLE management internal variables TMPVART TMP VAR10 pChrono provides 10 digital Internal support variables for a flexible management and a more easier and faster installation The above variables can be used as a function of Output
39. of Set number of pumps 0 0 2 pumps Warnings limit max for Set maximum number of flow lack warning 0 0 5 flovv lack Eb03 Group 01 Request pump Set input position for request pumps 0 0 88 No water flow Set input position for no water flow 0 0 88 Antifreeze active Set input position for antifreeze active 0 0 88 Eb04 Group 01 Enable anti Enable antiblock for pumps 0 0 No 1 Yes block Rotation type Select rotation type 0 gt O TIME 1 5VV TCH Rotation time if enable 1 h 1 999 Eb05 Group 01 Overload Set input position for pump 1 overload 0 0 88 pump1 ump 2 if enable Set input position for pump 2 overload 0 m 0 88 Rotation by switch if Set input position for switch pumps 0 0 88 enable Eb06 Group 01 Pump Set output position for pump 1 output 0 0 58 ump 2 if enable Set output position for pump 2 output 0 0 58 07 Group 01 Pumps working Set pumps working hour 100000 h 0 999999 hour setting 01 No socket devices m Ec02 lug Switch Plug Switch address 26 26 ame Set the name for PLUG SWITCH 8 letters 0 72 Enable exceptions Enable Disable the exceptions for sockets 0 0 No 1 Yes Ec03 Name of the plug switch 8 letters 0 72 Scheduler setting Select which time band use 0 m 0 20 Shovv the current time band m Enable vveekday 0 0 Disable 1 Enable Select which period use 0 m 0 10 Shovv the current period
40. of pumps 1 If the flow switch input 1 for gt 30 seconds non modifiable the pump continues operating until the internal warning counter gt Max number of water flow warnings then the Pump alarm is signalled and the pump is switched off until the alarm is reset manually by pressing the Alarm button If when restarting flow is measured for gt 30 seconds non modifiable the internal warning counter is set to zero Two pumps Number of pumps 2 If the flow switch input 1 for gt 30 seconds non modifiable the pump stops and the other pump starts unless this too has an active alarm If there is still no flow the pumps continue alternating until the Max number of water flow warnings is reached on both If on each pump the internal warning counter reaches the maximum number of warnings then the Pump alarm is signalled and the pumps are switched off until the alarm is reset manually by pressing the Alarm button If when restarting flow is measured on each pump for gt 30 seconds non modifiable the respective internal warning counter is set to zero Some examples are shown below Exemple 1 Pumes config si Pump group 1 manages 2 pumps with 5 warnings before the water flow rour 6 alarm Humber of Fumes 2 arnings limit max or flow lack on Rotation between pumps with no flow Number of pumps 2 Max number of water flow warnings 5 Initial situation first pump on and flow constantly abse
41. optically isolated 8 14 ID Digital inputs 24 Vac Vdc or 230 Vac 50 60 Hz input 4 ID max tot 8 max tot 18 O to 10 Vdc output optically isolated 4 6 Y Analogue outputs PWM output optically isolated 2 2 Y3 Y4 Output for two pole stepper motor 1 3 2 4 max tot 4 max tot 6 NO NC relay output 6 NO NC NO relay output 7 12 NO Digital outputs 24 V SSR output 3 4 NO NC 230V SSR output 3 4 NO NC max tot 8 max tot 18 Total I Os 25 48 Terminal J10 erminal power teia Probe power 5 5 VREF Analogue output power VG VGO pLAN ports 2S ntegrated Fieldbus ports 2 J23 J26 Additional Fieldbus ports Fbus card ntegrated BMS ports J25 Additional BMS ports BMS card Host USB port if featured Slave USB port if featured On the pCOe expansion card the inputs are selectable via software in pairs B1 B2 and B3 B4 pCOe card to 1 V inputs only pChrono 040000181 rel 1 4 23 09 2014 58 CAREL same time For further details see the examples shown in chapter 77 Functions For further details on the features of the inputs outputs and the electrical and serial connections on the controllers used in the pChrono system see the manual listed in chapter 3 System architecture pCOe I O expansion card
42. setpoint diff is fixed to 2 0 0 0 3276 7 3276 7 Delay time High alarm delay time 0 S 0 999 En alarm low Enable low alarm 0 0 Disable 1 Enable Setpoint Lovv alarm setpointc diff is f xed to 2 0 0 0 3276 7 32767 Delay time Lovv alarm delay time 0 S 0 999 05 if Regulation type Set regulation type for modulating output 0 O P_1 PI enable Setpoint Setpoint for modulating output 0 0 3276 7 3276 7 Band Band for modulating output 0 0 3276 7 32767 ntegral time if enable 0 5 0 999 Output type Set output type for modulating 0 m O Direct_1 Reverse 06 if En alarm high Enable high alarm 0 0 Disable 1 Enable enable Setpoint High alarm setpoint diff is fixed to 2 0 0 0 3276 7 3276 7 Delay time High alarm delay time 0 5 0 999 En alarm low Enable low alarm 0 O Disable 1 Enable Setpoint Low alarm setpoint diff is fixed to 2 0 0 0 3276 7 32767 Delay time Lovv alarm delay time 0 5 0 999 07 Position Set position for output 0 0 58 Dout 0 16 Aout Dout status Output value if enable 0 1 Minimum aout Set minimum aout if enable v 0 10 0 Maximum aout Set maximum aout if enable v 0 10 0 Aout value Output value if enable m 0 10 0 Alarm status Low High Low alarm status High alarm status 0 No 1 Yes Fe08 if Position Set generic alarm output position 0 58 enable Enable reverse Set reverse for input 0
43. settings but are only actually switched ON using the special function on the supervisor A list of 30 variables is provided for this function The timer will switch ON the lights for the set time independently of whether they are enabled by the scheduler or the supervisor Scheduler SPV variable DIN Timer DOUT Fig 6 1 7 SCHEDULER LUX the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the brightness reading from a LUX sensor This setting requires the configuration of a LUX set point and band Stepped or modulating management via analogue output is available 8 00 17 30 Scheduler Set point Lux ergy DOUT Fig 6 j 8 SCHEDULER LUX TIMER the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the brightness reading from a LUX sensor This setting requires the configuration of a LUX set point and band Stepped or modulating management via analogue output is available The Timer will switch ON the lights for the set time independently of whether they are enabled by the scheduler Scheduler Lux DIN Timer DOUT 27 040000181 rel 1 4 23 09 2014 Gy CAREL 9 ONLY BUTTON the lights are ON when enabled by the button input If the button is connected to a universal input configured as FAST DIN just short the input to turn ON OFF the
44. the Access Point will need to be configured WITH ROUTER BRIDGE moreover G able and connected via the ed via a Router Bridge ax will be 11 Router Bridge addr not managed ON OFF ON OFF ed as shown below Network config The addresses of the SA temperature humidity and SI sensors CO ra temperature humidity brightness cannot be modified but rather can be T H 16 B enabled or disabled This simplifies the configuration procedure and avoids Laks 46 33 configuration problems in the field Simply enable the correct address on this screen and set the same serial address on the wireless device using the dipswitches pChrono will automatically recognise the device and read its parameters as necessary The dipswitches on the SA sensors must be configured as shown below SA address 16 OFF OFF OFF OFF ON OFF OFF OFF SA address 17 ON OFF OFF OFF JON OFF OFF OFF SA address 18 OFF JON OFF OFF JON OFF OFF OFF The dipsvvitches on the S sensors must be configured as shovvn belovv S address 21 ON OFF ON OFF ON OFF OFF OFF S address 22 OFF ON ON OFF ON OFF OFF OFF S address 23 ON ON ON OFF ON OFF OFF OFF S address 24 OFF OFF OFF ON ON OFF OFF OFF S address 25 ON OFF OFF ON ON OFF OFF
45. the local network of Modbus RS485 pCOe devices if the FieldBus serial connection is not practicable due to installation restrictions or for other reasons pCOe RS485 this is a 4 DIN module expansion card used to increase of the number of inputs outputs available on the pChrono controller it features 4 digital inputs 4 analogue inputs 4 digital outputs and 1 analogue output SA sensor temperature humidity measures room temperature and humidity Battery powered it sends data to the Access Point at regular intervals SI sensor temperature humidity lux measures room temperature and humidity and light intensity Battery powered it sends data to the Access Point at regular intervals pChrono 040000181 rel 1 4 23 09 2014 8 CAREL Wireless plug switch this device is used to read the power consumption of the connected single phase loads t incorporates the functions of energy meter router and remote relay control it sends the Access Point the instant power W and energy Wh values The maximum current draw of the connected appliance is 10 amperes Example of a Mesh network The SA sensor at the top left not being able to communicate with the Access Point it is bound to uses a nearer wireless plug with router function to transfer its data to the Access Point then to the pChrono controller RS 485 ModBus Fig 3 b Example installation with pCOe on Router Bridge and wirel
46. the time set in the scheduler The action on button ID11 pChrono switches on the lights for 2 minutes to check for ight 1 011 any blown bulbs 15 setting Pu SPU add 61 imeri ID11i FChrona m The time band is enabled from 03pm to 3 00am The sign will not however be switched on before sunset as defined by the Geo Lighting plugin or in any case by the BMS The changeover at midnight is properly managed The configuration shown here refers to the city of Brugine Padova Italy latitude 45 3 North and Tn longitude 12 0 East The variable that identifies night time status is associated with variable SPV_ GeoLighting Alporitim Parameters merr Lattude deora degree remreserention ii 12 24 453 Longnude deona degree reresertaton ei 12 9456 120 dege ydi v 1 sy Adim Add01 on pChrono Fig 6 w Q Note The passage of the midnight is handled properly as long as the next day needs the same scheduling otherwise the band will disable the load at midnight pChrono 040000181 rel 1 4 23 09 2014 34 On the Geo Lighting plugin dashboard sunset for the current day has been calculated at 20 55 current day 5 June S 2013 That means that the lights in the advertising signs Fig 6 managed by NO11 pChrono will be X 6 3 Pumps management switched on note at 20 55 and off at 3 00 as set in the scheduler pChrono provides
47. 0 100 Dd14 S sensor Address of S sensor 21 21 lame of SI letter 1 0 72 ame of SI letter 2 0 72 lame of SI letter 3 0 72 ame of SI letter 4 zz 0 72 ame of SI letter 5 0 72 ame of SI letter 6 0 72 ame of SI letter 7 0 72 ame of SI letter 8 0 72 Threshol setting High High light threshold set 0 9999 light Lovv light Lovv light threshold set 0 9999 Coefi light Light multiplicative coefficient 0 9999 040000181 rel 1 4 23 09 2014 50 CAREL Mask index TDisplay descr Description Def Values Dd31 LUG SVV TCH Address of PLUG SWITCH 26 26 Status Status of PLUG SWITCH 0 OFF_1 ON Force on Force on PLUG SWITCH z 0 No 1 Yes Force off Force off PLUG SWITCH 0 No 1 Yes Time to send data cycle cycle to send data to AP 20 5 5 3600 Reset data Reset value 0 No 1 Yes Wait please De01 Delete data logger Delete alarm history 0 No 1 Yes De02 Unit measurement type Set unit measurement for unit 1 C Barg 2 HPsig De03 DEFAULT INSTALLATION Load default 0 No 1 Yes Erase user settings and install global default value De04 Save user default 0 No 1 5 Load user defaul
48. 000181 rel 1 4 23 09 2014 Gy CAREL 2 1 Display Main screen date vveekday and time unit status press the DOWN button for information on the loads Tab 2 b ee Unit ott Du keyboard This is the screen displayed during normal unit operation from any other menu press ESC until reaching this screen Alarm screen If an alarm is active the red LED under the ALARM button flashes alarm code alarm description alarm number total number of active Tab 2 c alarms Use the arrows UP and DOWN to scroll the list of alarms pressing ENTER directly accesses the alarm log For details on the alarms see the alarm table chapter 9 Parameter display and editing screens name of the function edited on the screen screen index editable value parameter name Tab 2 d sos To access these screens from the main screen press PRG to enter the menu list scroll the menus using the UP and DOWN buttons and press ENTER to select see the function tree Note editable fields feature numeric values or upper case letters pChrono 040000181 rel 1 4 23 09 2014 6 CAREL Gy 3 SYSTEM ARCHITECTURE pChrono is a device that can cover several functions For greater system flexibility pChrono integrates different wireless devices The flexibility of the architecture can in fact meet the requirements of even more complex installations where th
49. 1 alarm of pCOe address 2 Automatic m AL86 robe B2 alarm of pCOe address 2 Automatic m AL87 robe B3 alarm of pCOe address 2 Automatic AL88 robe B4 alarm of pCOe address 2 Automatic m AL89 robe B1 alarm of pCOe address 3 Automatic m AL90 robe B2 alarm of pCOe address 3 Automatic AL91 robe B3 alarm of pCOe address 3 Automatic m AL92 robe B4 alarm of pCOe address 3 Automatic AL93 robe B1 alarm of pCOe address 4 Automatic m AL94 robe B2 alarm of pCOe address 4 Automatic AL95 robe B3 alarm of pCOe address 4 Automatic AL96 robe B4 alarm of pCOe address 4 Automatic AL97 robe B1 alarm of pCOe address 5 Automatic AL98 robe B2 alarm of pCOe address 5 Automatic AL99 robe B3 alarm of pCOe address 5 Automatic m AL100 robe B4 alarm of pCOe address 5 Automatic AL101 robe B1 alarm of pCOe address 6 Automatic m AL102 robe B2 alarm of pCOe address 6 Automatic AL103 robe B3 alarm of pCOe address 6 Automatic AL104 robe B4 alarm of pCOe address 6 Automatic AL105 robe B1 alarm of pCOe address 7 Automatic m AL106 robe B2 alarm of pCOe address 7 Automatic AL107 robe B3 alarm of pCOe address 7 Automatic m AL108 robe B4 alarm of pCOe address 7 Automatic AL109 robe B1 alarm of pCOe address 8 Automatic m AL110 robe B2 alarm of pCOe address 8 Automatic AL111 robe B3 alarm of pCOe address 8 Automatic AL112 robe B4 alarm of pCOe address 8 Automatic AL113 robe B1 alarm of pCOe address 9 Automatic m AL114 robe B2 alarm of
50. 2014 This parameter is used to delete the alarms saved since the previous reset The log is also reset when restoring the default values The values can also be displayed using Imperial units of measure Temperature will be expressed in degrees Fa hrenheit F and pressure in PSI psig Select YES to confirm the default values shown in the parameter table will be installed This screen is used to save the current pChrono configuration the date displayed will be updated with the curren be modified saved and then su date This function allows the configuration to bsequently restored if and when needed The progress bar advances as the data is saved the procedure typically takes less than two minutes When loading a previously saved configuration a message prompts the user to switch the u The mask is available only with U nit off and on again nit OFF Both passwords are 1234 by de fault these values can be changed here CAREL Gy 5 2 Wireless network configuration The procedure described here refers to a system being initialised in which none of the listed devices has already been configured The devices should be configured near one another for better control over the binding procedure To configure the Access Point follow the instructions shown below set the dipswitches as described above Connect the AP to the desired FBus serial port previously enabled Power up the AP at 12 24 Vac Pr
51. 3 setting Svvitch set position for svvitch if enable 0 88 Button set position for button if enable 0 88 SPV set position for SPV if enable m 0 30 Light 3 Liqht 3 output position if enable 0 58 08 ame of the area 1 8 letters 0 72 if enable Light 4 setting Switch set position for switch if enable 0 88 Button set position for button if enable 0 88 SPV set position for SPV if enable 0 30 Liqht 4 Liqht 4 output position if enable 0 58 09 ame of the area 1 8 letters 0 72 Scheduler setting Select which time band use 0 0 20 Shovv the current time band Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 Shovv the current period Select which time band use 0 0 20 Show the current time band Enable vveekday 0 0 Disable 1 Enable Select which period use 0 m 0 10 Shovv the current period m Select which time band use 0 m 0 20 Shovv the current time band m Enable vveekday 0 0 Disable 1 Enable Select which period use 0 m 0 10 Shovv the current period Eb01 Number of pumps group Set number of pump groups 0 m 0 2 Alarms of pumps Set the pumps alarm output position 0 m 0 58 Status Show the status of pump alarms m Open Close 02 Group 01 Number
52. Oe address 5 offline Automatic m ALO7 pCOe address 6 offline Automatic ALO8 pCOe address 7 offline Automatic m AL09 pCOe address 8 offline Automatic m AL10 pCOe address 9 offline Automatic AL11 pCOe address 10 offline Automatic m AL12 pCOe address 11 offline Automatic m AL13 Access point connected on FBus1 offline Automatic AL14 Access point connected on FBus2 offline Automatic za AL15 SA sensor address 16 offline Automatic AL16 SA sensor address 17 offline Automatic AL17 SA sensor address 18 offline Automatic AL18 Sl sensor address 21 offline Automatic m AL19 S sensor address 22 offline Automatic AL20 Sl sensor address 23 offline Automatic AL21 S sensor address 24 offline Automatic AL22 Sl sensor address 25 offline Automatic m AL23 Lovv temperature alarm of SA address 16 Automatic AL24 High temperature alarm of SA address 16 Automatic AL25 Lovv humidity alarm of SA address 16 Automatic AL26 High humidity alarm of SA address 16 Automatic AL27 robe error of SA address 16 Automatic AL28 Low battery alarm of SA address 16 Automatic AL29 Low temperature alarm of SA address 17 Automatic AL30 High temperature alarm of SA address 17 Automatic AL31 Lovv humidity alarm of SA address 17 Automatic AL32 High humidity alarm of SA address 17 Automatic m AL33 robe error of SA address 17 Automatic AL34 Lovv battery alarm of SA address 17 Automatic AL35 Low temperature alarm of SA address 18
53. Ste 15 471 the letter of the original menu will be shown at the top right of the ouri 14 2 screen Note after 10 minutes of inactivity on the display the passvvord vvill need to be entered again and pChrono will automatically display the main screen Passvvord Mask index Description on terminal Description Default Values Enter hardvvare Password for configuring pChrono and 1234 0 9999 configuration password accessories Enter load configuration Password for configuring the individual 11234 0 9999 passvvord loads Tab 4 b 040000181 rel 1 4 23 09 2014 10 A On Off Unit E 1 status C Clock Scheduler Hardware config D Hardware config f 1455 sr ae config 1 F Information 3 Initialization Fig 4 a 11 040000181 rel 1 4 23 09 2014 AL CAREL 5 INITIALISING THE SYSTEM pChrono is structured so that the configuration of each individual device is easy and intuitive Correct programming of the controlled loads requires an initial configuration of the system enabling the individual functions one at a time The main screen only provides information on the date and time however pressing the DOWN button displays how many loads have been configured and how many of these are currently active The main screen shows information on unit operating status On
54. ain The anti blocking function does not affect the operation of any pumps that are already operating The anti blocking function is enabled Pump operation is rotated based on operating time every 12 hours PumEs config muuF H nable antiblock YES otation tyre TIME otation time 12h 6 4 Wireless plug management Integration of these devices is useful when needing to monitor the power consumption of certain loads and schedule operation based on specific needs Typical appliances that require monitoring and control as electrical loads are coffee machines vending machines water heaters printers etc the power consumption of which is often neglected even when in standby Shutting down these appliances completely often brings considerable reductions in total power consumption pChrono can manage up to 10 wireless devices that act as energy meters and can control an on off load according to the dedicated scheduler The scheduler for these devices can also be bypassed using the exceptions configured in loop C Clock Scheduler Each load appliance can be named using the 8 digit text available The name associated with the load will then be shown on the screens used to configure such loads the same name will also be available on PlantVisorPRO here editable too Management of these devices which also include the router function requires an Access Point connected to FBus1 or FBus2 see paragraph 3 System architecture
55. all and Large connection terminals 9 2 pCOe expansion card connection terminals 9 3 Description of the pChrono terminals 10 PCHRONO SPECIFICATIONS 63 10 1 POWErSUPPly izninin 63 102 Digital MPU peier RERNA 64 10 3 Digifal OURS sasiga a aA 66 10 4 pChrono technical specifications 67 10 5 Standardseompliance AAA 7 11 NOTE SYSTEM CONFIGURATION 72 11 1 pChrono solution I O table 72 3 040000181 rel 1 4 23 09 2014 Guidelines for disposal CAREL e Do not dispose of the product as municipal waste it must be disposed of through specialist waste disposal centres e The product contains a battery that must be removed and separated from the rest of the product according to the instructions provided before disposing of the product e Improper use or incorrect disposal of the product may negative effects on human health and on the environment The public or private waste collection systems defined by local legislation must be used for disposal e Inthe event of illegal disposal of electrical and electronic waste the penalties are specified by local waste disposal legislation product mus ce with the lo AT the READ CAREFULLY INTHE TEXT DISPOSAL OF THE PRODUCT The appliance or the be disposed of separately
56. also be signalled do not connect the neutral in place of an open digital input e always interrupt the phase A Important sseparate as much as possible at least 3 cm the probe and digital input cables from the power cables to loads to avoid possible electromagnetic disturbance Never insert power cables including the electrical cables and probe signal cables in the same conduits 24 Vac digital inputs Digital inputs ID can be controlled at 24 Vac Q Note the digital inputs only have functional insulation from the rest of the controller to maintain the optical isolation of the digital inputs a separate power supply must be used for each of these e the digital inputs can be powered at a different voltage from the controller Cable cross section lethe sizes of the cables for the remote connection of the digital inputs are cross section for length lt 50 m 0 25 mm A Important if the controller is installed in an industrial environment EN 61000 6 2 the maximum length of the connections is 30 m To avoid measurement errors never exceed this length Example connection diagram LARGE model i 1 FieldBus card BMS card 5 m B my n B fal J5 EEEE 7 2612 Ala 155 sss 2 215 25 pegi 8 so silo asasan a 8 s s sls 8588 88 5 ulus zz 22
57. ay 13 J18 3 C13 ormally closed contact relay 13 J21 1 014 ormally open contact relay 14 21 29 C14 Common for relay 14 15 21 39 C14 ormally closed contact relay 14 21 49 15 ormally open contact relay 15 J21 5 15 Common for relay 15 21 69 15 ormally closed contact relay 15 J22 1 C16 Common for relay 16 17 18 22 29 O16 ormally open contact relay 16 15 J22 3 O17 ormally open contact relay 17 22 49 018 ormally closed contact relay 18 J22 5 6 Common for relay 16 17 18 J25 Tx Rx _ Tx Rx BMS2 RS485 por 16 J25 2 Tx Rx Tx Rx BMS2 RS485 port J25 3 GND GND BMS2 RS485 port J26 Fieldbus 2 RS485 port 17 26 2 Tx Rx Tx Rx Fieldbus 2 RS485 port J26 3 GND GND Fieldbus 2 RS485 port 18 _ Microswitches for configuring port J26 leave at ON position 18 _ Microswitches for configuring port J26 leave at ON position 23 1 Tx Rx __ Tx Rx Fieldbus 2 RS485 port not used 19 J23 2 Tx Rx Tx Rx Fieldbus 2 RS485 port not used 23 3 GND GND Fieldbus 2 RS485 network port not used Tab 9 c voltage A 24 Vac or 28 to 36 Vdc voltage B 230 Vac 50 60 Hz Large model 10 pChrono SPECIFICATIONS 10 1 Power supply The following figure shows the power supply connection diagram Use a class safety transformer with protection against short circuits and overload See the table of technical specifications for the size of the transformer according to the mode
58. cycle duration 0 2 s typical medium compl applications Clock with battery standard precision 100 ppm Buzzer can be enabled via software Battery lithium button battery type CR2430 voltage 3 Vdc dimensions 24x3 mm Software class and structure Class A Category of immunity to Category Ill voltage surges EN 61000 4 5 Device not designed to be hand held when powered Universal inputs outputs U Analogue inputs Lmax 30 m maximum number MALL LARGE CAREL NTC probes 50T90 C R T 10 kO 1 at 25 C 5 10 HT NTC OT150 C PTC 6000 22000 PT500 1001300 C PT1000 100T400 C PT100 probes 100T400 C 4 2 on U1 U5 1 on U6 U8 1 on U9 U10 0to 1 Vdc 0 to 10 Vdc signals from probes powered by the il 2 6 controller 5 8 0 to 1 Vdc 0 to 10 Vdc signals powered externally 2 5 s 10 0 to 20 mA inputs 4 to 20 mA from probes powered by the 4 o 6 max 4 on U1 U5 3 on controller 5 51 6 1 8 2 on U9 U10 0to 20 mA inputs 4 to 20 mA powered externally 4 s 9 max 4 on U1 U5 3 on U6 U8 2 on U9 U10 0 5 V signals from ratiometric probes powered by controller 15 6 Input precision 0 3 f s Time constant for each input 0 5 s Classification of measuring circuits CEI EN 61010 1 category Digital inputs without optical isolation Lmax 30 m maximum number SMALL LARGE voltage
59. d only Y2 Output value of Y2 v 0 10 0 Y3 Output value of Y3 0 10 0 Y4 Output value of Y4 vV 0 10 0 43 040000181 rel 1 4 23 09 2014 CAREL Mask index Display descr Description Def Values B013 pCOe address Address of pCOe read 22 Read only i Digital input Channel 1 Status of digital input 1 Open Close enable Channel 2 Status of digital input 2 Open Close Channel 3 Status of digital input 3 Open Close Channel 4 Status of digital input 4 Open Close B014 pCOe address Address of pCOe read 22 Read only if Analog input Channel 1 Value of analog input 1 32767 32768 enable Channel 2 Value of analog input 2 32767 32768 Channel 3 Value of analog input 3 32767 32768 Channel 4 Value of analog input 4 32767 32768 B015 pCOe address Address of pCOe read 2 Read only if Digital output Off On of output channel 1 Off On enable Off On of output channel 2 Off On Off On of output channel 3 Off On Off On of output channel 4 Off On Analog output Output value of Y1 0 0 10 0 B43 Read AP address Access point address connected FB1 1 only if enable Connected on FBus1 Access point version 2051 Firmware version AP trasmi power Access point tra
60. e band start end hours minutes Minimum resolution is 1 minute Fach period can be set vvith the period start end day month Minimum resolution is 1 day The example illustrated here shovvs hovv the first time band of three selected for managing the load is number 6 with settings 13 30 17 30 and is displayed in brackets The active reference period is number 9 pre configured as 1 JANUARY 31 The only days the load will be enabled on are MONDAY WEDNESDAY THURSDAY FRIDAY and SUNDAY The day is enabled if the corresponding first letter is visible This screen and C10 for the periods summarises how many times the reference time band has been selected The example shows how time bands 1 and 2 have been used twice while 4 and 7 once only The others on the other hand have not been used This provides quick feedback on if and how many times that specific time band has been used but not by which load Information on how many times the time band has been used by the loads helps understand how many of these will be affected by the new settings without needing to search through each individual load The same also applies to the periods In this case period 2 has been used twice while periods 2 37 and 4 once only See the notes relating to screen 09 PlantVisorPRO supervisory system from version SP 2 2 0 provides the
61. e behaviour of the 4 digital outputs e Set point 500 LUX Band 200 Band 200 33 LUX Set point 500 OUTPUT 040000181 rel 1 4 23 09 2014 Gy CAREL Example 3 The following scheduling is made possible by the BMS PlantVisorPRO for example providing a variable that indicates the number of hours of daylight or night darkness This function is available using the Geo Lighting plugin in the ECO HVAC package on PlantVisorPRO Specifically the Geo Lighting plugin provides based on latitude and longitude data the sunrise and sunset time for the current day For further details see the online help in PlantVisorPRO e Name Area 4 Adv sign Advertising sign Light fixtures installed 1 Light management Scheduler SPV Timer Lights off based on scheduled exceptions No Supervisor variable for light fixture 1 Area 3 SPV addr 1 Timer DI for light fixture 1 Area 3 1011 on pChrono Scheduling From 1 January to 31 December gt from sunset to 3 00 a m The name Adv Sign is assigned to area 4 the number of light fixtures is set to 1 management is configured as requested and the light is not enabled for exceptions anarenent type HED 5PU T IME nable excertions HO Selecting the variable SPV add 01 pChrono awaits the signal from the BMS to enable light fixture NO11 pChrono this output will switch on the outdoor advertising sign from sunset until
62. e electrical loads are often located some distance apart and consequently it is not always feasible to connect them using a Modbus RS485 serial network The diagram shown here below refers to a pChrono Large illustrating a typical installation in which the devices are connected to pChrono via the wireless network The same diagram also applies to the Small version Modbus RS485 RS485 Supervisor Modbus RS485 PlantVisor PRO Fig 3 a Device Modbus RS485 Carel P N Reference documents network address pChrono PCH550 31UB00 pCO5 Plus manual S Small L Large 0300020EN pCOe RS485 sil PCOE004850 inst sheet 050003265 Access Point on FBus1 1 WS01AB2M20 manual 0300030EN Access Point on FBus2 1 VVSO1AB2M20 installation guide Router Bridge VVSO1RB2M20 0400030EN SA Sensor Temperature Humidity 16 17 18 VVS01G01M00 S Sensor LUX Temperature Humidity 21 25 VVSO1F01M00 10A vvireless plug svvitch 26 35 WS01C010 0 instruction sheet Schuko ltalian F French 0500049ML G British X universal switch Battery wireless devices S SA VVSOOBATO00 Tab 3 a N mportant Both AP Access Points must be set to address 1 Addresses from 2 to 11 are available for the pCOe expansion cards The addresses of the pCOe expansion cards must be consecutive even when using the RB Router Bridge The addre
63. e of the Light fixture 1 in area 2 is managed with modulating control by the wireless SI sensor with address 21 The Timer that switches the light on for 3 minutes is associated with ID1 on the pCOe with serial address 2 The dedicated analogue output is Y1 on pChrono The digital output if configured will be ON when the value of the LUX value will be greater than the setpoint and above however the minimum voltage value set in the following screen pChrono 040000181 rel 1 4 23 09 2014 ight 1 setting etroint SHBLUx Band 4 SHBLUx Integral time 1285 inimum aout 1 Bl Sxitium annt 18 Au day 500 Max Vor Min Vour 800 Fig 6 u Lux DOUT AOUT The set point in the room is 500 LUX the band is set to 800 LUX and the ntegral time PI control is 120 seconds This time means control via the analogue output is filtered against sudden variations in room brightness Then is possible to set the range of the analog output with the minimum and maximum voltage value It s suggested to set a big value of Band even more than the setpoint value It s suggested to keep the default value as proposed The scheduler is set here as per specifications For the days of the week note how when the first letter of the day is visible the scheduler is active on that Q Note behaviour vvould be different if needing to manage 4 onvoff lights alvvays brightness sensor The graph belovv in fact shovvs th
64. ed data Switchable power ures depending on the model of pChrono SPDT 2000 VA 250 Vac 8A resistive Type A relay Approval UL60730 2 A resistive 250 Vac 30 000 cycles Pilot duty C300 240Vac 30 000 cycles EN 60730 1 2 2 A 250 Vac 100 000 cycles Rated data relay SPST 1250 VA 250 Vac 5A resistive Type B relay Approval UL60730 1 A resistive 250 Vac 30 000 cycles Pilot duty C300 240Vac 30 000 cycles EN 60730 1 1 1 250 Vac 100 000 cycles A Important to power external loads use the same power supply as the con roller connected to terminals G GO this must always be dedicated and not in common with the power supply to other devices on the electrical panel such as contactors coils etc e the groups that the digital outputs are divided into have two common pole terminals to simplify wiring make sure that the current running through the common terminals does not exceed the rated current of an individual terminal i e 8 A class 2 pChrono 040000181 rel 1 4 23 09 2014 70 CAREL Serial ports use AWG 20 22 twisted pair shielded cable for the i Serial Type connectors Features Serial 0 pLAN J10 J11 e Integrated on main board HW driver asynchronous half duplex RS485 pLAN ot optically isolated Connectors 6 pin telephone jack 3 pin plug in aximum length 500 m ax data rate 115200 bit s Max
65. ed to be switched ON based on the scheduler settings but are only actually switched ON using the corresponding timer input Outside of the time bands the lights will be OFF Scheduler DIN Timer DOUT Fig 6 p 14 SWITCH BUTTON the lights are enabled to be switched ON based on switch status but are only actually switched ON using the corresponding button input DIN Switch DIN Button DOUT 29 040000181 rel 1 4 23 09 2014 CAREL 15 SCHEDULER SWITCH LUX The lights are enabled ON by the three conditions namely by the scheduler the state of the switch and the LUX reading sensor This setting requires the configuration of a LUX set point and band Scheduler Switch Set point Lux DOUT Fig 6 r The following table summarizes graphically how the various managements act on the configurated load Light management Joint action Action 24h 1 only scheduler scheduler 2 only switch svvitch 3 scheduler switch scheduler switch 4_ scheduler switch timer scheduler switch timer 5 scheduler SPV scheduler SPV 6 _ scheduler SPV timer scheduler SPV timer 7 scheduler lux scheduler lux 8 scheduler lux timer scheduler lux timer 9 only button button 10 scheduler button scheduler button 11 scheduler SPV button scheduler SPV button 12_ scheduler LUX butt
66. ens will be enabled depending on whether the device in question is a pChrono Small or pChrono Large PChrono config 81 Uit turei FAST DIH U2 topes DIH US ture Pet AIH US ture AIHW SurrPort FAST DIH PChrono config Analogs input U Tare of inputi IHT robe ture il Probe offset is in value 8 value 65 pCOe settings The type of universal inputs on the pChrono can be selected so as to configure the software to manage these inputs The options are Analogue Inputs AIN Analogue Outputs AOUT Digital Inputs DIN or Fast Digital Input FAST DIN for the light Button management according to the requirements of the system For inputs configured as probe or sensor connections a screen is provided for setting the Type an Offset and the end scale Limits The reading value can be set as Analog or Integer value The digital inputs as well as the digital outputs can be N O normally open or N C normally closed contacts The digital outputs can be tested Set AUTO for the software to manage the output as per the settings ON to activate the output or OFF to deactivate the digital output always off This loop is used to configure each of the pCOe devices pChrono 040000181 rel 1 4 23 09 2014 The address of the pCOe being configured is shown on the second line Address The settings available are delay for offline alarm enable probes sensors and for each
67. ess button T1 on the AP to automatically select the wireless channel Wait around 10 seconds until L1 starts flashing slowly 1s L1 flashing means that the wireless network has been automatically selected by the Access Point A Binding the SA or SI sensors to the Access Point 5 a Press button T1 on the AP again LED L1 flashes quickly 0 25s this means that the wireless network has been opened and is ready to bind the sensors 6 a the SA or SI device set the address to be used for communication with the AP 7 a Remove the insulating protection on the battery and make sure that the LEDs come on for a few seconds To bind the device to the AP press button T1 LED L1 on the SA or SI sensor will come on for around 10s then L1 L2 L3 will flash together several times and finally go off The procedure for checking the quality of the wireless signal is then activated around 1 minute 9 a Press button T1 on the AP to close the wireless channel B Binding the wireless plugs switches to the Access Point Starting from point 4 proceed as follows 5 b press buttonT1 on the AP again LED L1 flashes quickly 0 25s this means that the wireless network has been opened and is ready to bind the devices 6 6 Power up the wireless plug switch and wait a few seconds the procedure for binding to the Access Point starts automatically The procedure ends when the yellow LED on the plug switch flashes every 1s 7 b Nowassign
68. ess plugs that always incorporate the router function In the figure one Access Point is dedicated to communication with the Router Bridge connected to 4 pCOe devices The other Access Point communicates with all the other wireless devices wireless plugs SA SI Note how ZigBee technology can support communication even when not always possible directly between the device and the Access Point due to problems of distance fixed or moving obstacles 9 040000181 rel 1 4 23 09 2014 Gy CAREL 4 MAIN MENU FUNCTION TREE Main menu Settings menu with password A l unit E Load status C y Clock Scheduler D Hardware config a Network b pChrono pCOe d Wireless devices e Initialization Information Tab 4 a o Note the Hardware config and Load config menus are accessed after entering a 4 digit password There are two types of password one for each of the menus These passwords can be set on the corresponding screen Note the menu structure is reflected by the screen index See the follovving example When selecting the following item in the menu ayi Wednesda 75 N Clock a ormat nna igi 1 1
69. ext exception date m3 Do you vvant to set exceptions press ENTER s C27 nset exception from Set start day 0 31 Set start month 0 12 to Set end day 0 31 Set end month 0 12 Enter to confirm Tab 7 d Mask index Display descr Description Def Values Hardware config The I Os available depend on the selected configuration the following are just some examples 01 FBus 2 used vvith Select which device connected to FBus2 0 0 pCOe 1 VVireless sensors Number of pCOe How many pCOe used 0 m 0 10 Enable access point on Enable access point connected on FBus1 and 0 0 No 1 Yes FBus1 FBus2 FBus2 Da02 If Access point on FBus2 Choose router bridge connected on AP or not 0 21 VVithout router bridge enable AP on 17 VVith router bridqe FBus2 and pCOe on router bridge in and max address set to connected on router 10 2 11 used pCOe Min address bridge ax address Da03 Address sensors on Enable the address for SA sensor 0 0 Disabled 1 Abilitato FBus1 SA T H SI LUX Enable the address for S sensor 0 0 Disabled 1 Abled 04 Address of socket sensors Set the socket type 0 0 Plug Switch on FBus1 26 827 28 29 Set the socket type 0 0 Plug Svvitch 30 31 Set the socket type 0 0 Plug Svvitch 132 133 Set the socket type 0 0 Plug Switch 34 35 Set the socket type 0 0 Plug Switch Da05 BMS1 supervisor setting Set protocol for BMS1 0
70. f SI address 22 Automatic m AL57 Low temperature alarm of S address 23 Automatic AL58 High temperature alarm of SI address 23 Automatic AL59 Low humidity alarm of SI address 23 Automatic AL60 High humidity alarm of SI address 23 Automatic m AL61 Low light alarm of S address 23 Automatic AL62 High light alarm of Sl address 23 Automatic AL63 robe error of S address 23 Automatic AL64 Low battery alarm of Sl address 23 Automatic m AL65 Low temperature alarm of S address 24 Automatic AL66 High temperature alarm of SI address 24 Automatic m AL67 Low humidity alarm of S address 24 Automatic AL68 High humidity alarm of Sl address 24 Automatic AL69 Low light alarm of Sl address 24 Automatic 70 High light alarm of Sl address 24 Automatic m AL71 robe error of S address 24 Automatic AL72 Low battery alarm of Sl address 24 Automatic m AL73 Low temperature alarm of SI address 25 Automatic m AL74 High temperature alarm of Sl address 25 Automatic m AL75 Low humidity alarm of S address 25 Automatic m AL76 High humidity alarm of Sl address 25 Automatic m AL77 Low light alarm of Sl address 25 Automatic AL78 High light alarm of SI address 25 Automatic AL79 robe error of SI address 25 Automatic m AL80 Low battery alarm of Sl address 25 Automatic m AL81 ump 1 alarm in group 1 Manuale AL82 ump 2 alarm in group 1 Manuale AL83 ump 1 alarm in group 2 Manuale AL84 ump 2 alarm in group 2 Manuale m AL85 robe B
71. for further details see screen Da10 21 040000181 rel 1 4 23 09 2014 CAREL input xar 15 m Input TMR AUXT will have a logical value of 1 and will also depend on 015 lees pChrono ID4 pCOe2 ID1 pCOe4 plus those inputs previously configured on screen Da09 2 The input selected for the Timer function is a Virtual input in fact TMR AUX1 will be the logical OR of inputs 103 04 ID10 1011 015 on pChrono ID4 on the pCOe with serial address 2 and 101 on the pCOe serial 4 see screens Da08 Da09 above Legenda line 1 __ N D ZpULon ID4 pCOe2 timer TMR AUX1 motion sensor VA 101 ID1 pCOe4 l 1D11 pChrono TMR AUX1 m 1 1 ID3 1010 104 Fig 6 a Common switch management inputs SVVI AUX1 SVVI AUX2 SVVI AUX3 SWI AUX4 SVV AUX5 An individual light fixture can be controlled by several different switches For this function pChrono provides 5 Virtual inputs that group together the action of multiple digital inputs SVVLAUX The action of each reverses the current status of the digital input These inputs can be configured under loop D Hardware config a Network Each SVVLAUX input can be associated with up
72. functions for managing up to two groups of pumps Each group can manage two on off pumps If there are no active alarms when the corresponding digital input sends the signal to start the pump this will be switched on The no flow alarm flow switch has a fixed delay of 30 seconds when the pump starts so as to ignore any variations in water flow rate The following functions are available for pump management If there are two pumps manual or automatic rotation between pumps so as to equa and operating hours between pumps Automatic rotation occurs after a certain period if there is an overload of time thermal protector activated or no flow on one of the two pu Pump overload management thermal protector activated The fault is signalled immediately Automati Management of the flow switch that controls circulation of fluid in the system The fau c rotation if a second pump is available non modifiable from ly share the workload mps and the pump stops t is signalled until the pump is eventually shutdown Automatic rotation if a second pump with fluid flow is available Function to prevent b system is not operating ocking with the pump started occasionally during extended Antifreeze function wi Flow control Flow control is always enabled and pChrono attempts to guarantee system operation even when there is no flow Each pump signals the malfunction repeatedly until reaching the Max number of
73. g this stage pressing the button causes the LED to flash green the button must be pressed between 0 and 9 times as the possible addresses are between 26 and 35 176 The second stage ends 3 seconds after the button was last pressed 18 6 At the end of the second stage the LED flashes green red yellow to confirm the end of the setting procedure The assigned Modbus address should now be checked press the local button twice for no more than a second and no more than a second apart Then count the flashes red for the tens green for the units C Binding the Router Bridge to the Access Point If the wireless network requires a Router Bridge device example Fig 3 c use the following procedure to bind the RB to the dedicated AP Starting from point 4 proceed as follow 5 c press buttonT1 on the AP again LED L1 flashes quickly 0 25s this means that the wireless network has been opened and is ready to bind the devices 6 c Power up the Router and wait a few seconds the procedure for binding to the Access Point starts automatically The binding operation generally lasts less than 30s 7 c Press button T1 on the AP to close the wireless channel 5 3 Setting the clock and time bands Select loop C Clock Scheduler on the main menu to set the current time and date and configure enable or disable daylight saving time This screen is used to set the date format dd mm yy mm dd yy or yy mm dd set the date and t
74. ght 1 Light 1 output position 0 58 Dout 0 16 Aout 04 if ena 1 ame of the area 1 8 letters 0 72 ble LUX and Lights setting Setpoint Setpoint for the lux of dout 500 Lux 0 32767 set Dout Band Band for lux of dout 200 Lux 0 32767 05 if enablel ame of the area 1 8 letters 0 72 LUX and set Light 1 Pl setting Setpoint Setpoint for lux of aout 500 Lux 0 32767 Aout Band Band for lux of aout 800 Lux 0 32767 nteqral time ntegral time for aout 120 5 0 9999 Minmum aout Set minimum aout for light v 0 10 0 Maximum aout Set maximum aout for light p Vv 0 10 0 Ea06 if ame of the area 1 8 letters 0 72 enable Light 2 setting Svvitch set position for svvitch if enable 0 88 Button set position for button if enable 0 88 SPV set position for SPV if enable 0 30 Light 2 Light 2 output position if enable 0 58 51 040000181 rel 1 4 23 09 2014 CAREL Mask index Display descr Description Def UOM Values Ea07 if ame of the area 1 8 letters 0 72 enable Light
75. hol setting High High humidity threshold set rH 10 100 humid Low humid Low humidity threshold set 961 10 100 Dd11 S sensor Address of S sensor 21 21 lame of SI letter 1 0 72 ame of SI letter 2 0 72 ame of SI letter 3 0 72 ame of SI letter 4 0 72 ame of SI letter 5 0 72 ame of SI letter 6 0 72 ame of SI letter 7 0 72 ame of SI letter 8 0 72 Time to send data cycle cycle to send data to AP 60 5 5 3600 0412 S sensor Address of S sensor 21 m 21 lame of SI letter 1 0 72 ame of SI letter 2 0 72 lame of SI letter 3 0 72 ame of SI letter 4 0 72 ame of SI letter 5 0 72 ame of SI letter 6 0 72 ame of SI letter 7 0 72 lame of SI letter 8 0 72 Threshol setting High temperature threshold set eC eF 1 999 9 999 9 High temp Lovv temp Lovv temperature threshold set oC oF 1 999 9 999 9 Offset temp Offset of temperature probe oC eF 1 99 9 99 9 Dd13 S sensor Address of S sensor 21 21 lame of SI letter 1 0 72 ame of SI letter 2 0 72 lame of SI letter 3 0 72 ame of SI letter 4 0 72 ame of SI letter 5 0 72 ame of SI letter 6 0 72 ame of SI letter 7 0 72 ame of SI letter 8 0 72 Threshol setting High High humidity threshold set rH 10 100 humid Low humid Low humidity threshold set rH 1
76. ime Das Wednesday Date formati dmun Date 15 65 13 Hour 14 22 If daylight saving time is managed the changeover period can be set here The same loop can be used to set the Time bands and the Periods in which such time bands are active The scheduler function on the pChrono includes 20 Time bands 10 Periods Every load that uses the scheduler can be controlled using the time band periods proposed here selecting the most suitable one This ensures flexibility and fast configuration of the entire system during system set up Moreover all the loads affected can be realigned together without needing additional reconfiguration by simply adjust the settings for a time band or period pChrono 040000181 rel 1 4 23 09 2014 18 CAREL The follovving settings are required for each time band band start hours minutes Time band end hours minutes The following settings are required for each period e Period start day month e Period end day month The days of the week on which the time band and period settings are active will be selected in the scheduler relating to the individual device Start Stor T B 1 s 18 88 T B 2 sd 12 88 T B 3 riz 12 38 T B 4 12 66 16 66 T B 5 13 88 17 68 T 1 5 2 1 1 8 6 16 1 1 11 15 8 B 16 26 8 B B Q Note Each time band can be set with the tim
77. imum number of connectable devices 32 Serial ONE BMS 1 Serial Card Not integrated on main board HVV driver not featured Can be used vvith all pCO family optional BMS cards Serial TWO FieldBus 1 Serial e Not integrated on main board Card HVV driver not featured Can be used with all pCO family optional FieldBus cards Serial BMS 2 J25 Integrated on main board THREE HW driver asynchronous half duplex RS485 Slave Optically isolated 3 pin plug in connector p 5 08 Maximum length 1000 m Max data rate 384000 bit s Maximum number of connectable devices 16 Serial FOUR FieldBus 2 J23 e Integrated on main board HW driver asynchronous half duplex RS485 Master Slave J26 optically isolated 3 pin plug in connector p 5 08 Q Note in industrial residential environments for distances gt 10 m shielded cable is required with the shield con nected to earth In residential environments EN 55014 irrespective of the cable length connection cable between the controller and the terminal and the serial cable must be shielded and connected to earth at both ends 10 5 Standards compliance Electrical safety EN 60730 1 EN 60730 2 9 EN 61010 1 UL60730 Versions without valve driver EN 61000 6 1 EN 61000 6 2 EN 61000 6 2 EC EN 61000 6 2 151 EN 61000 6 3 EN 61000 6 4 EN 55014 1 EN 55014 2 EN 55014 2 EC EN 55014 2 A1 EN 55014 2 1S1 EN 55014 2 A2 Versions with valve driver with o
78. in accordan cal waste disposal legislation in force ENTION Separate as much as possible probe and digital input signal cables from the cables carrying inductive loads and power cables to avoid possible electroma gne ind sign pChrono 040000 ic disturbance Never run power cables uding the electrical panel wiring and al cables in the same conduits 181 rel 1 4 23 09 2014 A IMPORTANT WARNINGS The CAREL product is a state of the art device whose opera tion is specified in the technical documentation supplied with the product or can be downloaded even prior to purchase from the website www carel com The customer manufacturer developer or installer of the final equipment accepts all liability and risk relating to the configuration of the pro duct in order to reach the expected results in relation to the specific installation and or equipment The failure to complete such phase which is required indicated in the user manual may cause the final product to malfunction CAREL accepts no liability in such cases The customer must use the product only in the manner described in the documentation relating to the product The liability of CAREL in relation to its products is specified in the CAREL general contract conditions available on the website www carel com and or by specific agreements with customers CAREL Gy The pChrono device can manage several different applications according to the needs of the sys
79. ing the corresponding switch input Outside of the time bands the load will be off 4 SCHEDULER SWITCH TIMER the load is enabled to be switched on based on the scheduler settings but are only actually switched on using the corresponding switch input The Timer will switch on the load for the set time independently of whether it is enabled by the scheduler or the switch 5 SCHEDULER SPV the load is enabled to be switched on based on the scheduler settings but are only actually switched on using the special function on the supervisor A list of 30 variables is provided for this function 6 SCHEDULER SPV TIMER the load is enabled to be switched on based on the scheduler settings but are only actually switched on using the special function on the supervisor A list of 30 variables is provided for this function The button will switch on the load for the set time independently of whether it is enabled by the scheduler or the supervisor 7 ONLY BUTTON the loads are on when enabled by the button input If the button is connected to a universal input configured as FAST DIN just short the input to turn on off the loads in the other cases the input must be kept closed for a couple of seconds for pChrono detect the new state 8 SCHEDULER BUTTON the loads are enabled to be switched on based on the scheduler settings but are only actually switched on using the corresponding button input Outside of the time bands the loads will be off
80. ital input 16 at voltage B 0 110 Connector for pLAN telephone cable J11 1 Tx Rx _ Tx Rx pLAN RS485 port 1 11 2 Tx Rx Tx Rx pLAN RS485 port 11 3 GND GND pLAN RS485 port 2 Reserved 3 Reserved 4 J Reserved J12 Common for relays 1 2 3 J12 2 01 ormally open contact relay 1 5 J12 3 02 ormally open contact relay 2 J12 4 03 ormally open contact relay 3 J12 5 Common for relays 1 2 3 J13 C4 Common for relays 4 5 6 J13 2 04 ormally open contact relay 4 5 J13 3 O5 ormally open contact relay 5 J13 4 ormally open contact 6 J13 5 C4 Common for relays 4 5 6 J14 C7 Common for relay 7 5 J14 2 07 ormally open contact relay 7 J14 3 C7 Common for relay 7 J15 ormally open contact 8 5 J15 2 C8 Common for relay 8 J15 3 C8 ormally closed contact relay 8 J16 C9 Common for relay 9 10 11 J16 2 09 ormally open contact relay 9 5 16 3 010 ormally open contact relay 10 J16 4 011 ormally open contact relay 11 J16 5 C9 Common for relay 9 10 11 040000181 rel 1 4 23 09 2014 62 CAREL J17 012 ormally open contact relay 12 15 J17 2 12 Common for relay 12 J17 3 C12 ormally closed contact relay 12 J18 013 ormally open contact relay 13 15 18 2 013 Common for rel
81. l DC 28 36 Vdc Fig 10 a A Important a power supply voltage other than the rated value may seriously damage the controller if the power transformer secondary is earthed check that the earth wire is connected to terminal GO This applies to all the devices connected to the to the pChrono via serial network e the power supply to the controller should be separated from the power supply to the other electrical devices contactors and other electromechanical components inside the electrical panel Note povver to the controller is indicated by a yellovv LED 63 040000181 rel 1 4 23 09 2014 Gy CAREL 10 2 Digital inputs The controller features digital inputs for connecting safety devices alarms device status and remote switches These inputs are all optically isolated from the other terminals and can work at 24 Vac 10 15 or 28 to 36 Vdc 20 10 indicated as ID and some a 230 Vac indicated as IDH Q Note if the control voltage is drawn in parallel with a coil fit a dedicated RC filter in parallel with the coil typical ratings are 100 0 5 uF 630 V if connecting the digital inputs to safety systems alarms the presence of voltage across the contact must be the normal operating condition while no voltage must represent an alarm situation This will ensure that any interruption or disconnection of the input will
82. larm of generic function 10 Automatic AL176 High alarm of generic function 11 Automatic AL177 High alarm of generic function 12 Automatic AL178 High alarm of generic function 13 Automatic AL179 High alarm of generic function 14 Automatic AL180 High alarm of generic function 15 Automatic za AL181 High alarm of generic function 16 Automatic AL182 High alarm of generic function 17 Automatic AL183 High alarm of generic function 18 Automatic AL184 High alarm of generic function 19 Automatic AL185 High alarm of generic function 20 Automatic AL186 Lovv alarm of generic function 6 Automatic AL187 Low alarm of generic function 7 Automatic AL188 Lovv alarm of generic function 8 Automatic AL189 Lovv alarm of generic function 9 Automatic AL190 Lovv alarm of generic function 10 Automatic AL191 Lovv alarm of generic function 11 Automatic AL192 Lovv alarm of generic function 12 Automatic AL193 Low alarm of generic function 13 Automatic AL194 Lovv alarm of generic function 14 Automatic AL195 Low alarm of generic function 15 Automatic AL196 Lovv alarm of generic function 16 Automatic AL197 Lovv alarm of generic function 17 Automatic AL198 Lovv alarm of generic function 18 Automatic AL199 Lovv alarm of generic function 19 Automatic AL200 Lovv alarm of generic function 20 Automatic 040000181 rel 1 4 23 09 2014 56 CAREL
83. le 0 min 10 999 Load Set the output position for output 0 m 0 58 Ed04 Name of generic load 1 8 letters 0 72 Scheduler setting Select which time band use 0 0 20 Shovv the current time band m Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 Shovv the current period Select vvhich time band use 0 0 20 p Shovv the current time band Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 p Shovv the current period Select vvhich time band use 0 0 20 Shovv the current time band Enable weekday 0 0 Disable 1 Enable Select which period use 0 0 10 Show the current period Fe01 Number of generic Set number of generic functions 0 0 5 functions Ee02 Function type Set function type 0 0 Thermostat 1 Modulating 2 Generic alarm Regulation probe Set input position for regulation probe if enable 0 0 75 Input for gen alarn Set input position for generic alarm if enable 0 0 88 03 if Setpoint Setpoint for thermostat 0 0 3276 7 3276 7 enable Diff on Diff on for thermostat 0 0 3276 7 3276 7 Diff off Diff off for thermostat 0 0 3276 7 3276 7 Output type Set output type for thermostat 0 0 Direct 1 Reverse Ee04 if En alarm high Enable hiqh alarm 0 0 Disable 1 Enable enable Setpoint High alarm
84. lights in the other cases the input DIN must be kept closed for a couple of seconds for pChrono detect the new state DIN Button DOUT Fig 6 1 10 SCHEDULER BUTTON the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the corresponding button input Outside of the time bands the lights will be OFF Scheduler DIN Button DOUT Fig 6 m 11 SCHEDULER SPV BUTTON the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the special function on the supervisor A list of 30 variables is provided for this function The button will switch ON the lights for the set time independently of whether they are enabled by the scheduler or the supervisor Scheduler SPV variable DIN Button DOUT Fig 6 n pChrono 040000181 rel 1 4 23 09 2014 28 CAREL Gy 12 SCHEDULER LUX BUTTON the lights are enabled to be switched ON based on the scheduler settings but are only actually switched ON using the brightness reading from a LUX sensor This setting requires the configuration of a LUX set point and band Stepped or modulating management via analogue output is available The button will switch ON the lights for the set time independently of whether they are enabled by the scheduler Scheduler Set point Lux DIN Button DOUT Fig 6 0 13 SCHEDULER TIMER the lights are enabl
85. log input for B1 to B4 0 m O N_1 Y Analog input type Ch 1 amp 2 Analog type of probe 0 0 Carel NTC 1 0 1V 2 0 20mA 3 4 20mA 4 0 5V_6 NTC HT Ch 384 Analog type of probe 0 0 Carel NTC 1 0 1V 2 0 20mA 3 4 20mA 4 0 5V 6 NTC HT 03 Address Address of pCOe 2 2 Analog input limits in value of probe 1 999 9 999 9 Ch 1 Min Ch 1 Max ax value of probe 1 999 9 999 9 Ch 2 Min in value of probe 2 999 9 999 9 Ch 2 Max ax value of probe 2 999 9 999 9 Dc04 Address Address of pCOe 2 2 Analog input limits in value of probe 3 999 9 999 9 Ch 3 Min Ch 3 Max ax value of probe 3 999 9 999 9 Ch 4 Min in value of probe 4 999 9 999 9 Ch 4 Max ax value of probe 4 999 9 999 9 05 Address Address of pCOe 2 2 Logic of pCOe Logic of ID1 and ID2 0 0 NC 1 NO 101 102 103 104 Logic of ID3 and 104 0 1 1 NOZ Logic of NO1 and NO2 0 1 03 NO4 Logic of NO3 and NO4 0 O NO_1 NC Dc06 Address Address of pCOe 2 2 1 Set AUTO OFF ON for NO1 0 0 AUTO OFF 2 0N 02 Set AUTO OFF ON for NO2 0 0 AUTO OFF 2 0N 03 Set AUTO OFF ON for NO3 0 0 AUTO OFF 2 0N O4 Set AUTO OFF ON for NO4 0 0 AUTO OFF 2 0N 0401 o vvireless device x 0402 SA sensor Address of SA sensor 16 6 Name of SA letter 1 0 72 Name of SA letter 2 0 72 Name of SA letter 3 0 72
86. logic input 7 for DIN AUX1 m 0 66 8 Button logic input 8 for DIN AUX1 0 66 Da18 SVVLAUXT nputs selection Switch ogic input 1 for D N AUX1 z 0 66 1 2 Switch logic input 2 for DIN AUX1 0 66 3 Switch logic input 3 for DIN AUX1 0 66 4 Svvitch logic input 4 for D N AUX1 0 66 Da23 AND AUX inputs selection And logic input 1 for DIN AUX 0 66 1 2 And logic input 2 for DIN AUX 0 66 3 And logic input 3 for DIN AUX m 0 66 4 And logic input 4 for DIN AUX 0 66 ON sec Delay on and delay off time for AND AUX1 0 5 0 999 OFF sec Da28 OR AUXT inputs selection r logic input 1 for DIN AUX1 ma 0 66 1 2 Or logic input 2 for D N AUX1 0 66 3 Or logic input 3 for D N AUX1 m 0 66 4 Or logic input 4 for D N AUX1 0 66 ON sec Delay on and delay off time for Or AUX1 0 5 0 999 OFF sec 01 Ul type Type for the U m m D N 2 AIN U2 type Type for the U2 g DIN_ 2Z AIN U3 type Type for the U3 0 D N 2 AIN U4 type Type for the U4 0 1 2 AIN U5 type Type for the U5 FT 0 D N 2 AIN Dbo2 If U6 type Type for the U6 0 1 2 AIN large board U7 type Type for the U7 0 T D N 2 AIN U8 type Type for the U8 0 D N 2 AIN U9 type Type for the U9 0 D N 2 AIN U10 type Type for the U10 b 0 D N 2 AIN If Analog in
87. m use shielded cable with the shield connected to earth In any case the max length allowed is 30 m Digital inputs ID IDH Type Optically isolated Lmax 30m no of opto isolated inputs 24 Vac or 24 Vdc SMALL 8 aximum number LARGE 14 Normally open inimum digital input open closed open 7 pulse detection time Normally closed ara closed open closed IDH 230 Vac 10 15 50 60 Hz Power supply to the inputs External ID 24 Vac 10 15 50 60 Hz o 28 36 Vdc 10 20 Classification of measuring Category 24 Vac Vdc 15 J7 J20 circuits CEI EN 61010 1 Category Ill 230 Vac J8 J19 Digital input current draw at 24 Vac Vdc 5mA Digital input current dravv at 230 Vac 5 mA Analogue outputs Y Type 0 10 V optically isolated on Y1 Y6 Lmax 30m Maximum number SMALL 4 LARGE 6 Power supply external 24 Vac 10 15 or 28 to 36 Vdc on VG VGO Precision Y1 Y6 2 full scale Resolution 8 bit Settling time Y1 Y6 from 1 s slew rate 10 V s a 20 s slew rate 0 5 V s selectable via SW Maximum load 1 kO 10 mA A Important e for lengths gt 10 m only use shielded cable with the shield connected to earth e aQto 10 Vdc analogue output can be connected in parallel to other outputs of the same type or alternatively to an external source of voltage The higher voltage will be considered
88. maximum number of devices that can be connected to pChrono see the same chapter for details on the settings of these devices see below The type of device connected to the integrated FieldBus2 connector can be configured The options are WIRELESS SENSORS or pCOe Then the number FBus2 used with WIRELESS SEHS RS of pCOe cards connected can be set and the Access Point enabled on each Humber of FUDe A 2 A nable access Point on FieldBus FBusi YES FBuz2 YES pChrono 040000181 rel 1 4 23 09 2014 12 CAREL The dipsvvitches on both Access Points must be configured as shown below Access point address 1 ON OFF OFF ON Q Note The slot marked FieldBus card is FieldBus 1 and requires an optional card part no PCO100FD10 e Terminal 126 on the other hand is the integrated and optically isolated Field Bus 2 connector FBus2 The pChrono settings for communication with the enabled Access Points involve a baud rate of 19200 bit s These settings cannot be modified a If using a Router Bridge to wirelessly connect s Access Point on FBus WITH ROUTER BRIDGE selecting the range of pCOe addresses avai PCOe on router bridge wireless network All 10 pCOe devices can be connec ei in this case the Min address will be 2 and the The dipswitches on the Router Bridges for wireless pCOe connection must be configu ome of the pCOe devices
89. nalogue output 5 to 10 V J20 2 9 Y6 Analogue output 6 0 to 10V J5 1 D1 Digital input 1 at voltage A J5 2 D2 Digital input 2 at voltage A J5 3 D3 Digital input 3 at voltage A J5 4 D4 Digital input 4 at voltage A 8 5 5 D5 Digital input 5 at voltage A J5 6 D6 Digital input 6 at voltage A J5 7 D7 Digital input 7 at voltage A J5 8 D8 Digital input 8 at voltage A J5 9 DC1 Common for digital inputs from 1 to 8 negative pole if group with DC power supply J7 1 D9 Digital input 9 at voltage A J7 2 D10 Digital input 10 at voltage A 8 7 3 D11 Digital input 11 at voltage A J7 4 D12 Digital input 12 at voltage A J7 5 DC9 Common for digital inputs from 9 to 12 negative pole if group with DC power supply 20 79 D17 Digital input 17 at voltage A 8 J20 8 D18 Digital input 18 at voltage A 120 9 DC17 Common for digital inputs 17 and 18 negative pole if group with DC power supply J8 1 D13H Digital input 13 at voltage B J8 2 D13 Digital input 13 at voltage A 9 J8 3 DC13 Common for digital inputs 13 and 14 negative pole if group with DC power supply J8 4 D14 Digital input 14 at voltage A J8 5 D14H Digital input 14 at voltage B J19 1 D15H Digital input 15 at voltage B 19 29 D15 Digital input 15 at voltage A 9 J19 3 DC15 Common for digital inputs 15 and 16 negative pole if group with DC power supply 119 4 D16 Digital input 16 at voltage A J19 5 D16H __ Dig
90. nt flow switch input 1 then PUMP 1 PUMP 2 Warning 5 71 VVarning VVarning VVarning VVarning Warning Warning uu Warning Warning os ek Warning Alarm 25000 Alarm Fig 6 z pChrono 040000181 rel 1 4 23 09 2014 36 CAREL Exemple 2 Rotation betvveen pumps vvith no flovv Number of pumps 2 Max number of water flow warnings 5 Initial situation pump 1 on and flow absent At a certain moment flow is measured and lasts for a limited time Legenda PUMPI 2 1 Water flow detection Warning J gt Warning for a time gt 30s fix time l 5 Warni then again without water arning a 2 Warning 8 ow o 2222 VVarning Warning a271 _ Warning Warning ee Warning Warning rr ed Alarm Warning 7722 1 Alarm Alarm 4 77 Alarm Pump overload thermal protector activated If an overload is measured the corresponding pump stops immediately and an alarm is activated If there is a second pump with no alarms operation switches to the second pump Pumes config se Pump 1 overload is associated with input ID5 on the pChrono controller E Aiea signet pump 2 with ID6 105 Overload Fump3 TD6 FChrona Antifreeze The antifreeze function is always enabled The antifreeze request Antifreeze active input 1 is managed based on the status of the pumps 16 ifone pumpison this will continue operating until the antifreeze re
91. nth Last First Second Third Fourth Start day in one week XXE Monday Tuesday Wednesday Thursday Friday Saturday Sunday Start month January February March 4 April 5 May 6 June 7 July 8 August 9 September 0 October 1 Novermber 2 December WNNR VN ORNO Start hour 0 23 End End weekly in one month 0 Last First Second Third End day in one vveek 2 3 4 Fourth 0 Friday 6 Saturday 7 Sunday End month 1 January 2 February 3 March 4 April 5 May 6 June 7 July 8 August 9 September 10 October 11 Novermber 12 December End hour 03 T B 1 Starting of Time Band Starting of Time Band Ending of Time Band Ending of Time Band 1 T B 2 Starting of Time Band Starting of Time Band Ending of Time Band 1 Ending of Time Band T B 3 Starting of Time Band Starting of Time Band Ending of Time Band s s Ending of Time Band T B 4 Starting of Time Band Starting of Time Band Ending of Time Band 1 Ending of Time Band T B 5 Starting of Time Band Starting of Time Band Ending of Time Aala ASA as fas Band Ending ofTime Band
92. omatic 57 Tab 8 h 040000181 rel 1 4 23 09 2014 be shared betvveen differen devices for example a light button used to svvitch on several light CAREL 9 INPUTS OUTPUTS TABLE The flexibility of pChrono in managing inputs and outputs means that an I O table cannot be provided in the same way as for other controllers Configuration of the load inputs outputs is nonetheless managed using a guided procedure during installation Simplified configuration of the inputs outputs allows the same input to fixtures at the pChrono board SMALL LARGE Label NTC input 5 10 PTC input 5 10 U PT500 input 5 10 U PT1000 input 5 10 U PT100 input max 2 max 4 U 0 to 1 Vdc 0 to 10 Vdc input 5 H U powered by controller Q o 0 to 1 Vdc 0 to 10Vde input S x powered externally E gt 10 U 0 to 5 Vdc input Universal inputs outputs Oto 20 4 to 20 mA inpu ME R i powered by controller 8 1 8 max i x x O 20 4 to 20 mA inpu 2 Haa m U powered externally 0 to 5 V input for ratiometric probe 5Vref max 5 max 6 U Digital input with voltage free contact 5 10 U Fast digital inputs max 2 max 6 U 0 to 10 Vdc output not optically isolated 5 10 U PWM output not optically isolated 5 10 U max tot 5 max tot 10 24 Vac Vdc input
93. on scheduler lux button 13 scheduler timer scheduler timer 14 switch button switch button 15 scheduler switch lux scheduler switch lux Tab 6 a Below are some examples of how the user can configure the light areas Example 1 Name Areal Room 1a Light fixtures insta led 3 e Light management Scheduler Switch Timer Lights off based on scheduled exceptions Yes e Switch DI for light e Switch DI for light e Switch DI for light Timer input DI for Scheduling From 1 January From 15 June to fixture 1 Area 1 101 on pChrono fixture 2 Area 1 1D2 on pChrono fixture 3 Area 1 103 on pChrono ight fixture 1 2 and 3 Area 1 ID4 on pChrono common to all three light fixtures o 15 March gt from 7 30 to 12 30 from Monday to Friday 15 August gt from 8 00 to 12 00 from Monday to Friday From 1 January o 31 December gt from 13 30 to 17 30 Saturday amp Sunday only pChrono 040000181 rel 1 4 23 09 2014 30 aR Area 1 has been named Room 1a There are 3 light fixtures management is Scheduler Switch Timer and the lights in the area will be disabled during Hum of lights 2 the periods specified in the exceptions Remember that the Timer always Management switches ON the lights even outside of the scheduled periods SCHED PETERS TIMER Enable exceptions YES Room 413 EEE Light fixture 1 in area 1 is switched ON OFF by ID1 pChrono The
94. or Off the current time and date From the main screen pressing DOWN displays the number of loads configured and how many of these are currently active In the example shown here the following loads have been configured Type of load Active loads Total loads configured Lights top L Wireless plugs bottom L Pumps top R Generic loads bottom R JNO JS S Tab 5 a 5 1 System set up When selecting menu Hardware config password protected the following loops can be accessed a Network to enable the individual devices Access Points the number of wireless devices or pCOe units in the network configure the BM1 BMS2 communication ports the remote on off digital input the alarm output and the configuration of the common auxiliary inputs see paragraph 7 1 Light management Common auxiliary digital inputs function pChrono to configure the individual inputs outputs for the pChrono board only pCOe to configure the inputs outputs on each individual pCOe Wireless devices to set each individual device enabled regarding transmission times alarm thresholds etc Initialisation to delete the alarm log set the unit of measure install the default values backup or restore the configuration nang Network settings Netvvork refers to the set of physical devices comprising the pChrono system as described in chapter 3 System architecture For details on the
95. pCOe address 9 Automatic AL115 robe B3 alarm of pCOe address 9 Automatic AL116 robe B4 alarm of pCOe address 9 Automatic AL117 robe B1 alarm of pCOe address 10 Automatic m AL118 robe B2 alarm of pCOe address 10 Automatic AL119 robe B3 alarm of pCOe address 10 Automatic AL120 robe B4 alarm of pCOe address 10 Automatic m AL121 robe B1 alarm of pCOe address 11 Automatic m AL122 robe B2 alarm of pCOe address 11 Automatic 55 040000181 rel 1 4 23 09 2014 AL123 Probe B3 alarm of pCOe address 11 Automatic AL124 Probe B4 alarm of pCOe address 11 Automatic AL128 No water flow warning of pump 1 group 1 Automatic AL129 No water flow warning of pump 2 group 1 Automatic AL130 No water flow warning of pump 1 group 2 Automatic AL131 No water flow warning of pump 2 group 2 Automatic AL132 Pump 1 group 1 working hour warning Automatic AL133 Pump 2 group 1 working hour warning Automatic AL134 Pump 1 group 2 vvorking hour vvarning Automatic AL135 Pump 2 group 2 working hour warning Automatic AL136 Generic alarm of generic function 1 Automatic AL137 Generic alarm of generic function 2 Automatic
96. pChrono CAREL Solution for managing lights and electrical 077 loads Eno User manual aE READ AND SAVE THESE INSTRUCTIONS High Efficiency Solutions CAREL Content 1 INTRODUCTION 5 2 USER INTERFACE 5 21 15 n 0 6 3 SYSTEM ARCHITECTURE 7 3 1 Serial network electrical specifications 3 2 Wireless network electrical specifications 8 3 3 Features of the wireless devices 8 4 MAIN MENU FUNCTION TREE 10 5 INITIALISING THE SYSTEM 12 Bi Sistem SOE SUP T E 12 5 2 Wireless network configuration 7 53 Setting the clock and time bands 18 5 4 Setting the exceptions 20 6 FUNCTIONS 21 6 1 Special functions 6 2 Light management 6 3 Pumps management 35 6 4 Wireless plug management 38 6 5 Generic load management 39 6 6 Generic function management 40 6 7 Read wireless temperature humidity brightness sensors 42 7 PARAMETER TABLE 43 8 ALARM TABLE 54 9 INPUTS OUTPUTS TABLE 58 91 pChrono Sm
97. pair of probes sensors B1 B2 and B3 B4 set the type Other configurations such as probe offset manual overrides or output logic are available on the subsequent screens CAREL The pCOe expansion card must be configured vvith the dipsvvitches as shovvn belovv pCOe address 2 OFF ON OFF OFF pCOe address 7 ON ON ON OFF pCOe address 3 ON ON OFF OFF pCOe address 8 OFF OFF OFF ON pCOe address 4 OFF OFF ON OFF pCOe address 9 ON OFF OFF ON pCOe address 5 ON OFF ON OFF pCOe address 10 OFF ON OFF ON pCOe address 6 OFF ON ON OFF pCOe address 11 ON ON OFF ON Q Note The pCOe expansion cards are connected connector J3 on the pCOe o the RS485 serial line using the recommended connections and The pChrono settings for communication with the enabled pCOe cards involve a baud rate of 19200 bit s Wireless device settings These settings cannot be modified This loop is reserved for the settings of the wireless devices such as the SA sensors T H the SI sensors T H LUX and the wireless plugs switches For the features of the individual devices see paragraph 3 System architecture Only the devices enabled in the Network configuration loop will be visible for the following configurations SA sensor Temperature Humidity 0402 2616 SA sensor ime to send data
98. pen field outdoors 100 m e Maximum distance between Access Point Router and Sensors with field of sight indoors around 30 m inside rooms and built up areas 3 3 Features of the wireless devices Wireless technology The wireless sensors used by pChrono require no electrical connections as they use a wireless connection with ZigBee technology mesh encrypted with Carel private key at a transmission frequency of 2 4 GHz authorised for operation in all countries around the world This is an advanced system that has achieved an excellent level of security for wireless data exchange Communication between sensors and the Access Point is two way The sensors as well as sending the change in the status of the variables can also receive data pChrono system wireless devices The devices described below are part of the Carel rTM SE wireless system Remote Temperature Monitoring This solution ensures considerable savings in terms of installation costs eliminating the cost of wiring offering flexibility in the layout of supermarkets and allowing faster retrofit installation The rTM system guarantees maximum flexibility functionality reliability easy operation reduction in installation costs and easy commissioning service Access Point this is the coordinator of a wireless network as well as the gateway for the information between the ZigBee protocol and the pChrono controller Router Bridge this has the function of extending
99. put U3 Analog type for U3 0 O NTC enable robe type 1 1000 2 0 1V 3 0 10V 4 4 20mA 5 0 5V robe offset robe offset for U3 0 9 9 9 9 Min value Set min value for analog input 0 0 3276 7 3276 8 ax value Set max value for analog input 0 0 3276 7 3276 8 Db11 Logic of pChrono ID Logic for IDI and ID2 ae ONC T NO D1 102 D3 104 Logic for ID3 and 104 O NC_1 NO D5 106 Logic for ID5 and ID6 0 NC 1 NO D7 108 Logic for ID7 and 108 i 0 NC 1 NO pChrono 1040000181 rel 1 4 23 09 2014 48 CAREL Mask index TDisplay descr Description Def UOM Values Db13 Logic of pChrono NO Logic for NO1 and NO2 0 NO 1 NC NO1 NO2 NO3 NO4 Logic for NO3 and NO4 0 NO 1 NC NOS NO6 Logic for NO5 and NO6 0 NO 1 NC 7 NO8 Logic for NO7 and NO8 0 NO 1 NC Db15 NO of pChrono Set AUTO OFF ON for NO1 and NO2 0 AUTO NO1 NO2 1 0FF 2 0N NO3 NO4 Set AUTO OFF ON for NO3 and NO4 0 AUTO 1 OFF 2 0N NOS NO6 Set AUTO OFF ON for NOS and NO6 0 AUTO 1 OFF 2 0N NO7 NO8 Set AUTO OFF ON for NO7 and NO7 0 AUTO 1 OFF 2 0N Dc01 No pCOe devices m 02 Address Address of pCOe 2 2 Offl alarm delay Offline alarm delay time 30 0 300 En probe B1 B2 B3 B4 Enable ana
100. quest terminates Antifreeze active input 0 If there is a second pump alternating operation is guaranteed based on the Rotation time 17 if all the pumps are off pChrono starts the pump that should start next due to rotation The antifreeze function ends when the Antifreeze active input 0 The following diagram shows the operation of the antifreeze procedure 37 040000181 rel 1 4 23 09 2014 Gy CAREL 1 Key 1 1 1 1 11 Pump 1 is already on Rea_pump Tt n baa 1 1 i herefore antifreeze has no Pump1 1 1 effect 1 1 1 2 No pump was on Pumpa herefore the antifreeze Antifreezing 1 1 f 1 unction by rotation starts 1 condition i 1 1 1 i i pump 2 2 3 3 No pump was on herefore the antifreeze Fig 6 ab function by rotation starts pump 1 PumPs config Input configuration for pump request common to both pumps Flow switch plc adli ES and Antifreeze input ID FChrono Ho water flow j 106 Antifreeze active 103 Anti block This function is used to prevent physical or mechanical blockages due to rust or fouling in the pumps following stoppages for an extended period of time The anti blocking function is always enabled If a pump is not started for more than 7 days non modifiable pChrono automatically switches it on for 30 seconds non modifiable then switches it off ag
101. r line 1 2 3 1 1 1 1 aN l ve l Say E T 1 1 1 POORNE i 1 103 31 040000181 rel 1 4 23 09 2014 730 12 30 104 I 1 B 1 i ii 1 01 Po 1 1 I 11 ee A aie T 5min T 5min ID2 1 No2 Example 2 e Name Area 2 Room 2b e Light fixtures installed 1 analogue 1 1 U 4 N04 10V Analog Output Y1 pChrono Light management Scheduler LUX Button Digital output for lighting power supply enable DOUT 1 pChrono Lights off based on scheduled exceptions Yes 2 LUX sensor input for light fixture 1 Area 2 S sensor with serial address 21 Button Di for light fixture 1 Area 2 ID1 on pCOe with serial address 2 Scheduling From 1 January to 31 December gt From 1 January to 31 December gt Lights config Area m ra nable excertions YES schedu ight setting uxt 51 add 21 imeri ID1 F Chrono 3m utput tyre T t Dout HO1 eChrono ight 1 Y1 FE hnunu rom 7 30 to 12 30 from Monday to Friday rom 08 00 to 12 00 Saturday only ed periods CAREL Area 2 has been named Room 2b There is just one light fixture available with analogue control management is Scheduler LUX Timer and um of lights the light will be disabled during the periods specified in the exceptions Remember that the Timer always switches on the lights even outsid
102. r without Ultracap module EN 61000 6 1 EN 61000 6 2 EN 61000 6 2 EN 61000 6 2 151 EN61000 6 3 EN 61000 6 4 Electromagnetic compatibility 71 040000181 rel 1 4 23 09 2014 LENG CAREL 11 NOTE SYSTEM CONFIGURATION 11 1 pChrono solution I O table pChrono Type Label Description Action on Note Scheduler Switch Button SPV Digital inputs Digital outputs Universal inputs Analogue outputs lt Ww 040000181 rel 1 4 23 09 2014 72 CAREL o N ion o g z o z x T ee o 5 5 5 rel z 2 AdS uonng YOUMS o 2 5 2 z a g S 5 lt N olx ox olx TD veisis El A a BaslseseeSisalsiss bis g s ndul s nd no s ndul no s ndul s nd no s ndul no s ndul s nd no s ndul no 4 nbolpuy bojeuy 4 eub q eub q anbojeuy bojeuy 4 6 eub q anbojeuy bojeuy CAREL
103. screens used to configure such areas the same name will also be available on PlantVisorPRO here editable too To better understand how to use pChrono for managing lights the following terms will be used as described below Area this refers to a physical or logical environment that shares the same scheduler The inputs and outputs will be defined in the configuration stage Up to 20 areas are available Lights this refers to how many digital outputs are reserved for the area being configured Each area have between 1 and 4 light fixtures e Switch this is the On Off switch that manages the individual light fixture The action on the input Open Closed Closed gt Open opens or closes the digital output connected to the light fixture The action of the Switch always reflects the enabling of the scheduler Timer this is a switch that turns on the lights for a set time It is physically an On Off switch whose action Open gt Closed Closed gt Open closes the digital output connected to the light fixture Repeating the action on the digital input configured as a timer e g a motion detector will reset the time when the set ime has elapsed only for the timers in the specific area the lights will be switched off unless otherwise activated The action of the timer is independent of the scheduler or the exceptions Button its a physical button that by shorting the input of pChrono reverse the state of the controlled digital output
104. smission povver 0 100 Radio signal lev Radio siqnal level 0 100 B44 Read AP address Access point address connected FB1 1 only if enable Connected on FBus1 Number of units connected on AP end device 0 18 Num of connected units online units Num of connected units Number of units connected on Al 0 18 access point Num of units connected Number of routers in the network 0 through RB device B45 Read AP address Access point address connected FB2 1 only if enable Connected on FBus2 Access point version 2051 Firmware version trasmi power Access point trasmission power 0 100 Radio signal lev Radio signal level 0 100 846 Read AP address Access point address connected FB2 1 only if enable Connected on FBus2 umber of units connected on AP end device 0 um of connected units online units um of connected units Number of units connected on A 0 access point um of units connected Number of routers in the network 0 hrough RB device B47 Read AP address Access point address connected FB2 1 only if enable Number of router in the Number of routers in the network 0 65535 netvvork umber of router umber of router nearby 0 10 nearby um of router nearby umber of router nearby with good connection 0 10 with good connect B48 Read SA sensor Address of SA sensor 16 only if enable ame of SA letter 1 0 2 ame of SA letter 2 0 72 Name of SA letter 3 0 72 ame of SA letter 4 0 72 ame of SA le
105. socke Wireless plug addr 34 OA socke Wireless plug addr 35 OA socke 77 040000181 rel 1 4 23 09 2014 CAREL Time bands Time band Start End Time band Start End Time band 1 Time band 11 Time band 2 Time band 12 Time band 3 Time band 13 Time band 4 Time band 14 Time band 5 Time band 15 Time band 6 Time band 16 Time band 7 Time band 17 Time band 8 Time band 18 Time band 9 Time band 19 Time band 10 Time band 20 Periods Period Start End Period Start End Period 1 Period 6 Period 2 Period 7 Period 3 Period 8 Period 4 Period 9 Period 5 Period 10 pChrono 040000181 rel 1 4 23 09 2014 78 CAREL CAREL INDUSTRIES HQs Via dell Industria 11 35020 Brugine Padova Italy Tel 39 049 9716611 Fax 39 049 9716600 e mail CAREL CAREL com www CAREL com All trademarks hereby referenced are the property of their respective owners CAREL is a registered trademark of CAREL INDUSTRIES Hqs in Italy e or other countries CAREL INDUSTRIES Hqs 2013 all rights reserved pChrono 040000181 rel 1 4 23 09 2014
106. ss the ENTER key the exception will be removed The active exceptions will be listed here and on other dedicated screens 01 01 indicates that the exception displayed is number 1 out of a total of 1 20 CAREL Gy 6 FUNCTIONS As described above pChrono can manage many types on units and different system requirements Before configuring pChrono the unit is recommended OFF Below is a list of the functions available with the details for each Lights up to 20 areas each with up to 4 light fixtures Pumps up to 2 groups of pumps each with 2 ON OFF pumps e Wireless plugs up to 10 devices switches or plugs e Generic loads up to 20 generic loads Generic functions up to 20 functions thermostat modulating generic alarm pulses WC Alarm e Read wireless sensors 5 SI sensors T H LUX 3 SA sensors T H 6 1 Special functions Security function burglar alarm pChrono can manage the simultaneous activation of more than one area configured using just one digital input with switch function This function is often requested by security companies when the burglar alarm is activated simultaneous activation of all the lights helps identify the culprits The closing of input ID1 on the expansion card with serial address 3 ID1 pCOe3 will switch on the lights in the configured areas on the next mask The current status of input ID1 pCOe3 is Contact Open The time parameter will keep the lights ON after the
107. sses of the SA wireless temperature humidity sensors must be 16 17 and 18 The addresses of the S wireless lux temperature humidity sensors must be 21 22 23 24 and 25 The addresses of the wireless plugs switches with energy meter function must be between 26 and 35 The SA SI devices and the wireless plugs switches cannot be managed by the same Access Point used for a wireless network with pCOe devices 7 040000181 rel 1 4 23 09 2014 Gy CAREL 3 1 Serial network electrical specifications The FieldBus2 and BMS2 serial ports are functionally opto isolated from the power supply consequently the serial cable used to connect the devices requires a third wire as a common earth reference for the controllers Connection specifications e Use an AWG 20 22 shielded twisted pair cable with capacitance between the wires lt 90pF m Master device HW Lmax m Wire wire capa Resistor on first and Max no of slave Data rate citance pF m last device devices on bus bit s FBUS RS485 1000 lt 90 1200 64 19200 PC 1000 lt 90 1200 207 38400 Tab 3 b Note the max length allowed for connection of the pCOe or to the BMS is 1000 m Remember that the 120 1 4W terminating resistor on the first and last device in the network is required if the length exceeds 100m 3 2 Wireless network electrical specifications 2 Maximum distance between Access Point Router and Sensors in o
108. t 0 No 1 Yes Save default Show the date for the latest default value 1 31 1 12 0 99 De05 Insert new hardware Set new hardware password 0 9999 config password Insert new load config Set new load config password 0 9999 passvvord Tab 7 Mask index Display descr Description Def UOM Values E Load config The I Os available depend on the selected configuration the following are just some examples 01 Number of total area Lights area number set 0 20 Force all lights ON Set input position for force all lights ON 0 98 Status of Force on function Open Close Delay off time Delay off time for force all lights on 0 0 999 02 Area 1 Name of area 1 8 letters 0 72 Num of lights Set numbers in area 0 4 Management type Set management type for lights 0 1 only scheduler 2 only switch 3 sched switch A sched switch button 5 sched spv 6 sched spv button 7 sched lux 8 sched lux button Enable exceptions Enable Disable exceptions 0 No 1 Yes 03 ame of area 1 8 letters 0 72 Light 1 setting Switch set position for switch if enable m 0 88 Button set position for button if enable 0 88 SPV set position for SPV if enable m 0 30 Lux set position for Lux if enable 0 55 Button on time if enable 1 min 10 999 Output type if enable 0 DOUT 1 AQUT Li
109. t The control probe is Renee connected to universal input U3 on pChrono This function is maned Gen 1 eneric f Generic fun 1 unction ture THERMOSTAT esulation probe The set point is 50 0 the unit of measure refers to the monitored value not En mn defined here The step has a positive differential of 1 5 from the set point iz 50 1 5 and a negative differential of 1 0 from the set point 50 1 0 As the output is set as Direct the output NO3 pCOe3 will be Dutrut ture DIRECT NO3 pChrono ON if U3 pChrono gt 51 5 NO3 pChrono OFF if U3 pChorno lt 49 0 The high alarm is enabled and has a set point of 70 0 and an activation delay of 5 seconds The low alarm on the other hand is disabled A fixed offset of n alarm high ENABL ELE 2 ape 2 0 20 on the generic analogue input reading is managed to avoid swings n alarm lowi DISABLE in the two alarms etpoint eals time Bs The digital output for generic function 1 is NO3 on the pCOe with serial address 3 Its current status is off neither alarm is active osition HO3 FChrona out status off 70 0 51 5 Set 50 0 49 0 OUT AL Fig 6 ac 41 040000181 rel 1 4 23 09 2014 Gy CAREL Here below a diagram schema for the mpulse function Pulses management Scheduler DOUT Te T r real T r Fig 6 ad 6 7 Read wireless temperature humidity
110. tallation the common terminals of some of the relays have been grouped together See the following table as regards the type of insulation Also see the table of the technical specifications Type of insulation Between relays in same group functional insulation Between groups of relays reinforced insulation Between relays and rest of controller reinforced insulation Note inside each group the relays have basic insulation and must have the same voltage generally 24 Vac or 110 230 Vac between groups of relays there is reinforced insulation and thus the groups can have different voltages Example connection diagram LARGE model 110 230 24Vac N R J 4 R L 1 tr oocmoqooQoocod uoooad oo oOOQQ Z 0290 220 K E 05 ogg 3 i 9 Lp nE 5 sE e s o2 2o 2 2 202202 22200 2202 r w o_o mo mo HESR ee gees 525359 EmO TwWRx GND TwRx GND eens 125 BMS2 26 152 m Fig 10 h pChrono 040000181 rel 1 4 23 09 2014 66 CAREL
111. tem pChrono has been designed to the most flexible solution possible a solution that can be used on any installation thus supporting the work of installers in the field Specifically pChrono includes algorithms for the following applications Light management Timed device management Pump management Wireless 10A power socket management Universal functions Read wireless temperature humidity brightness sensors ONO All these functions can be used at the same time Available versions The controller is available in two versions which differ in terms of the number of I Os available For details see the table of inputs outputs Hardware Description CAREL P N Small PCHRONO SMALL USB BUILT IN DISPLAY BMS FBUS OPTO CONNECTOR KIT PCH550531UB00 HKSTDmPCHP5 Large PCHRONO LARGE USB BUILT IN D SPLAY BMS FBUS OPTO CONNECTOR KIT PCH550L31UB00 HKSTDmPCHP5 Tab 1 a 2 USER INTERFACE pChrono utilises the pGD1 built in terminal as the user interface This device comes with the following buttons pChrono Fig 2 a 6 Alarm displays the list of alarms Prg accesses the main menu tree Esc returns to the previous screen Up scrolls a list upwards or increases the value shown on the display o Down scrolls a list downwards or decreases the value shown on the display Enter jenters the selected submenu or confirms the set value Tab 2 a 5 040
112. the serial address to the devices using the button following the procedure described below 8 b Press button T1 on the AP to close the wireless channel Assigning the serial address to the wireless plugs switches As mentioned above these devices do not have dipswitches for setting the serial address consequently proceed as follows 9 6 Press the local button four separate times for no more than a second and no more than a second apart Accessing this mode is confirmed by a sequence of green red yellovv flashes of the LED for 1 5 seconds 0 b After accessing this mode the LED goes off and the device waits for the button to be pressed data entry is divided into two stages entering the tens and entering the units Set the tens of the Modbus address 1 6 The number of times the button is pressed during this stage represents the tens of the new Modbus address 2 b During this stage pressing the button causes the LED to flash red The button must be pressed 2 or 3 times as the possible addresses are between 26 and 35 3 b The first stage ends 3 seconds after the button was last pressed 4b At the end of the first stage the LED flashes green red yellow to indicate the changeover from tens to units 17 040000181 rel 1 4 23 09 2014 Gy CAREL Set the units of the Modbus address 15 6 The number of times the button is pressed during this stage represents the units of the new Modbus address 16 6 Durin
113. to 5 different digital inputs The specific SVVLAUX is then selected in the load configuration screens the user can select the input by scrolling the list of I Os available in the field on the Svvitch screen Common AND input management inputs AND AUX1 AND AUX2 AND AUX3 AND AUX4 AND AUX5 pChrono provides 5 Virtual inputs that group together the action of multiple digital inputs AND AUX When all the digital inputs configured for AND AUX are closed the logical value of the AND AUX virtual input will be 1 When the logical state of even just one of the inputs is 0 the value of the virtual input will be 0 Each AND AUX can be associated with up to 4 different digital inputs The AND AUX input is then selected in the load configuration screens the user can select the input by scrolling the list of I Os available in the field on a Switch or Button screen Two are the delay times set by mask one of delay for the ON action another for the OFF action ixlol5 ixlol5 311 OUT U 0 0 1 pada xjo 3 pChrono 040000181 rel 1 4 23 09 2014 22 CAREL Gy Common OR input management inputs OR AUX1 OR AUX2 OR AUX3 OR AUX4 OR AUX5 pChrono provides 5 Virtual inputs that group together the action of multiple digital inputs OR AUX When at least one of the digital inputs configured for OR AUX is closed the logical value of the OR AUX virtual
114. tter 5 0 72 ame of SA letter 6 0 72 ame of SA letter 7 0 72 ame of SA letter 8 0 72 Firmvvare version Firmvvare version of SA m 2051 Temperature Temperature of SA oC 1 500 1000 Humidity Humidity of SA rH_ 0 100 Battery level 0 4 Signal level 0 4 pChrono 040000181 rel 1 4 23 09 2014 44 CAREL Mask index Display descr Description Def Values B51 S sensor Address of SI sensor 21 Read only if ame of SI letter 1 0 72 enable ame of SI letter 2 0 72 ame of SI letter 3 0 72 ame of SI letter 4 0 72 ame of SI letter 5 0 72 ame of SI letter 6 0 72 ame of SI letter 7 0 72 ame of SI letter 8 0 72 Firmware version Firmware version of S be 2051 Temperature Temperature of SI oC oF 500 1000 Humidity Humidity of SI rH 0 100 Light Light of SI maa LUX 0 65535 Battery level 0 4 Signal level 0 4 B56 PLUG SWITCH Address of socket 26 Read only if ame of the socket letter 1 0 72 enable ame of the socket letter 2 0 72 ame of the socket letter 3 0 72 ame of the socket letter 4 0 72 ame of the socket letter 5 0 72 ame of the socket letter 6 0 72 ame of the socket letter 7 0 72 ame of the socket letter 8 0 72 Firmvvare version Firm
115. up and 230 Vac in the other n each group the two inputs have the same common pole The insulation is main Within each group the digital inputs must be powered at the same voltage 24 Vac 28 to 36 Vdc or 230 Vac to avoid dangerous short circuits and or the powering of lower voltage circuits at 230 Vac Q Note the range of uncertainty for the activation threshold is from 43 to 90 Vac the voltage must be 230 Vac 10 15 50 60 Hz 65 040000181 rel 1 4 23 09 2014 Gy CAREL Example 1 connection diagram with 230 Vac inputs H FieldBus card BMS card 5 5886 8 85 8 8 gt 1 5 veer joc l lu lus 2020002 poo S sl s Y is 230Vac Fig 10 f Example 2 connection diagram with digital inputs at different voltages k ss ha n B 1 5 eit AL ae wearin Wiser 8888 mur url ann nn nn eg 222 222222222 22222222222222 22224 24Vdc d 5 230 Vac 1 N Fig 10 4 10 3 Digital outputs Electromechanical relay digital outputs the controller features digital outputs vvith electromechanical relays For ease of ins
116. vvare version of socket 2053 Energy Energy of the socket Wh 0 4294967296 Povver Povver of socket Ww 0 2300 Status Status of socket Off On Signal level 0 4 866 Generic loads ame of generic load 1 Off On Read only if ame of generic load 2 Off On enable ame of generic load 3 Off On ame of generic load 4 Off On ame of generic load 5 Off On B70 Pump 1 of group 1 Working hours of pump 1 group 1 H 0 999999 Read only if Pump 2 of group 1 VVorking hours of pump 2 group 1 H 0 999999 enable B71 Pump 1 of group 2 Working hours of pump 1 group 2 H 0 999999 Read only if Pump 2 of group 2 VVorking hours of pump 2 group 2 H 0 999999 enable Tab 7 c Mask index Display descr Description Def Values esi ler 01 VVeekday Monday to Sunday 1 Monday 2 Tuesday 3 Wednesday 4 Thursday 5 Friday 6 Saturday 7 Sunday Date format Date format showing on the main mask 1 1 DD MM YY 2 MM DD YY 3 YY MM DD Date Set the new date day 0 31 Set the new date month 0 12 Set the new date year 0 99 Hour Set the nevv time hour 0 23 Set the new time minute 0 59 45 040000181 rel 1 4 23 09 2014 Mask index Display descr Description Def UOM CAREL Values 02 DST Activates the module algorithm Disable 1 Enable Start Start weekly in one mo
117. water flow warnings before activating the no flow alarm h the pump started to force circulation of the fluid periods in which the 90s 90s 90s 1 T T No water flow Flow absence 1 Flovv presence 1 1 30 1 4 1 4 1 4 s 205 m i i po 11 waning td 5 0 N Lii 30s first warning reset warning first warning second warning 1 1 internally Alarm 1 i 1 I 1 1 Request pump Fig 6 y 35 040000181 rel 1 4 23 09 2014 Gy CAREL While remembering that the warnings described below are managed internally by pChrono and therefore nothing is shown on the display it is important to observe that The number of warnings is reset as soon as water flow is measured When the alarm is activated the warning is automatically reset If there is an active warning the pump is switched off for 90 seconds non modifiable Only after this time interval is the pump started again using the start up procedure the warning is only reset when flow is measured and the pump is on 2 If Max number of water flow warnings the alarm is activated immediately and no attempts are performed to restore fluid flow When there are two pumps and the first warning is signalled on one of the pumps operation alternates between the pumps rotation The two possible cases are described in detail as follows One pump Number
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