CFox, RFox - Design and installation guide
Contents
1. 230 VAC 89 TXV00416 02 rev 1k odt 14 2 C HM 0308M RTD NTC K1 CIB CIB A4 A5 A6 CIB LINE ANALOG DIGITAL INPUTS A OUTPUTS HW ADDRESS 19AE RUN ON MANvAL CONTROL DO1DO2DO3 DO4 005006 C HM 0308M a e 8 B8 B Bs Be B7 9 H1 H2 H3 H4 H5 H6 230 VAC 90 Last change 28 7 2011 TXV00416 02 rev ik odt Last change 28 7 2011 14 3 C HM 1113M K1 K2 K3 K4 K5 K6 K7 K8 RTD NTC R T 422 UL A1 A2 A3 A4 A5 A6 A7 A8 A9 e e ale 5 lz lzE ol o lt lt CIB LINE ANALOG INPUTS A OUTPUTS DIGITAL INPUTS HW ADDRESS 19AE RU ON MANUAL ContTROL N 001 DO2 003 004 DOS DO6 DO8 DO9 D010 DO11 C HM 1113M DI2 DIS 014 DI5 Die 07 DIGITAL OUTPUTS DIGITAL OUTPUTS i t Q AE EE ce c7 co L N H1 H2 H3 H4 H5 H6 H7 H8 H9 H10 H11 230 VAC 91 TXV00416 02 rev 1k odt Last change 28 7 2011 14 4 C HM 1121M O lt Az O S S e N I z x Ae z e N a2. fal C2 1 C4 5 C6 1 C7 C8 C9 DIGITAL OUTPUTS COM3 24 EXE es DO10 2 COM5 9 COM6 DO7 R S Dos pos a o o D7 D8 D9 x x L N 230 VAC Fig 6 1 1 2 Example of switching LED stripes by C HM 1113M module 41 TXV00416 02 rev 1k odt Last change 28 7 2011 6 2 Switching Incandescent bulbs 230 VAC or 12 VDC For switching incandescent light bulbs we can use any relays of Foxtrot system E g Relay output module C HM 0308 is equipped with relay contacts 5A with 3A continuous current so we can switch on each output up to 600W bulbs For higher performance you can use 16 relays on C OR 0008M or on C HM 1113M and C HM 1121M modules Also some wireless modules like R OR 0001B includes 16A relays Transformers for low voltage halogen lamps must be switched in the same way as above To switch electronic transformers 16A relays are recommended To switch fluorescent lamps both conventional and compact with internal or external ballast 16A relays are recommended as well CIB CIB B1 B2 B4 B5 B6 B7 B8 BI allang 8 248 DIGITAL OUTPUTS C OR 0008M RU DO2 HW ADDRESS 19AE L M MT ql poc N a fal ns H4 230 VAC e gt a g
3. nnn nnne n nnn nnn nnn nnn nnn 84 14 2 0 8 aaa 85 1423s GOMES Mos a Aa aA AAA IEA NAAA AA AA A Tea RAA 86 144 Se EDAM EET 87 14 5 11 02005 88 14 6 C IR O202S 3 odds edades uiae e 89 14 7 7 05045 90 14 8 C IT 0200R DeSiQpri 91 14 0 C DL 00125 ciere tac rers Ye Celer ca co DOE D ERR Ya 92 icm e McD 93 14 11 C RI 0401R Design 04016 nn nn nn nn nn nn nennen ennt ener 94 14 12 G E70200L a arises rendere ha Fes Rena ek Waal axis Wak Een Tex E CAE aan End FER a pA 96 t413 TEE 99 UAM rct c EE 100 TXV00416 02 rev 1k odt Last change 28 7 2011 List of Revisions Rev 1k Mistake in Fig 11 8 1 fixed Wrong terminal numbers Information about the Alpha AA thermostatic valves was added to chapter 4 1 2 a 4 1 3 Chapter added 4 5 1 Example of control of Fancoil FCXI Chapter added 11 9 continuous and limit measurement of level in the tank Chapter added 13 1 table of CIB modules consumption Chapter added 9 3 1 IR transmitter and receiver C RI 0401 TXV00416 02 rev 1k odt Last change 28 7 2011 1 System overview basic
4. a 1 P4 T CIB LINE POWER 24 VDC C OR 0008M RUN HW ADDRESS 19AE i MANUAL CONTROL on ff e e DO4 DO5 DO6 DO7 DO8 DIGITAL OUTPUTS 230 VAC TOPNY TOPNY TOPNY TOPNY TOPNY TOPNY KABEL KABEL KABEL KABEL KABEL KABEL Fig 4 3 1 Example of electrical underfloor heating switched by C OR 0008M Notes 1 Protection by circuit breakers have to be dimensioned according to the power of each heating cable max 16A per branch 30 TXV00416 02 rev 1k odt 4 4 Floor convectors proportional control 4 4 1 Floor convectors ISAN with 24VDC EC motors Last change 28 7 2011 Module C FC 0024X allows to control several convectors equipped with 24V EC motors by the analog signal 0 to 10V or by PWM Pulse Width Modulation The module can control also two electric drives of hot and cold water it can measure up to 3 temperatures Each input can be configured to measure temperature or dry contact e g window contact CIB FANCOIL CONTROLLER C FC 0024X VALVE E E gt gt gt gt x ox A A A A COLD COLD CIB CIB TS1b TS2a a TS2b SENSOR CIB TEMP TEMP WINDOW OUTPUTS SENS 1 SENS 2 TANGENCI LN VENTIL TOR EC motor 24V EBM PAPST 24V i
5. t TEPLOTA V M N KU NTC 12k Fig 4 4 1 1 31 N ow OKENN KONTAKT Example of two pipe convector by ISAN with EC motor by EBM Papst TXV00416 02 rev 1k odt Last change 28 7 2011 4 4 2 Floor convector MINIB connection to the Foxtrot system Convector is equipped with only the control block EB Heating valve is mounted in a splitter or can be mounted directly in the convector Convector is not equipped with additional sensors like frost protection Convector with the EB controller is powered by 12V AC from TT100 transformer 230 V 12 V AC 100VA In this example the ALPHA AA4104 drive is used 24V NO ANALOG INPUTS A OUTPUTS DIGITAL INPUTS HW ADDRESS 19 ON MANuAL DO1 DO2 DO4 DOS DO6 C HM 1113M DIGITAL OUTPUTS a eh 8r 8 ps T 24 nebo 24 VAC 24V e e A1 HLAVICE KONVEKTOR 24V n 1 104 MUNIB 1 m es VENTIL TOPEN Fig 4 4 2 1 Example of control of the MINIB convector equipped by the EB control block 32 TXV00416 02 rev 1k odt Last change 28 7 2011 4 5 Fan Coils Fan coil units are manufactured in various designs from the
6. Ww Fig 3 2 2 1 Example of star topology 19 TXV00416 02 rev 1k odt Last change 28 7 2011 Mash topology means such placement of slaves where the master has direct access only to some slaves The other slaves are accessible only through the routers Router repeater receives the RF packet and transmit it in the air Using the routers it is possible to increase the basic range of RFox master accessibility uw B m _ S ho 4 m eee S d m L 4 V um a o o s Fig 3 2 2 2 Example of Mesh topology In one RFox mesh network max 4 routers can be used Transmitted RF packet has to reach its destination using max 5 hops Each hop increase the delay between the transmitting and receiving the RF packet It means delay between command and action Any RF module with permanent operations can works as router as well The router function can be assigned to any RF module during RFox network configuration procedure Concerning the regular operations there exist RFox modules with continuous operations and modules with interrupted operations Modules with continuous operations are able to follow the master commands anytime They are usually continuously powered Modules with the interrupted operations usually battery operated stay the most of time in the sleep mode In the sleep mode they do not answer on the master commands They operates only for a short time They are waked up by the user defi
7. H3 E 69 69 69 amp 4 e Fig 6 2 1 Example of switching incandescent and fluorescent lamps by C OR 0008M module 42 TXV00416 02 rev 1k odt Last change 28 7 2011 6 3 Dimming LED stripes controlled by 12V or 24V voltage To control brightness of LED stripes with nominal voltage of 12V or 24V DC can be performed by C DM 0006M ULED which can control the voltage proportionaly 0 100946 Max current per output is 4A maximum supply current of common terminal terminals A6 A7 is 24A 12 VDC 24 A max LED POWER 12V 24V HW ADDRESS 19AE MANUAL CONTROL LED1 LED2 LED3 LED4 LEDS LED6 A esr Fe xo C DM 0006M ULED Fig 6 3 1 Example of connecting the multichannel LED stripes dimmer C DM 0006M ULED 1 Max current of each output LED1 LED6 is 4A 2 Current of each common output terminal LED B1 B5 B9 terminals is 16A So it is not allowed to connect all LED stripes to the same common terminal e g B1 when we want to use maximum power from all outputs 3 Each module has to be powered from individual power source 12V or 24V 24 A max 4 The negative terminals of CIB A3 A4 has galvanic connection with the negative terminal of LED A7 43 TXV00416 02 rev 1k odt Last change 28 7 2011 6 4 Dimming LED chips current supply for 150mA 350 mA 500 mA 700 mA To control brightness of power LED chips by the c
8. 90 0 49 5 87 TXV00416 02 rev 1k odt Last change 28 7 2011 14 Basic application examples of CFox a RFox modules Following chapter brings the short description connection and technical details of each CFox RFox module Chapter is organized according the module code 88 TXV00416 02 rev 1k odt Last change 28 7 2011 14 1 C OR 0008M relay outputs CFox Module C OR 0008M contains 8 relay with all NO NC contacts wired on separated terminals The continuous current of each output is 16 A the peak current is up to 80 A for max 20 ms The module is designed for switching capacitive electronic power supply for LED lights switching power supply etc and inductive loads Changeover contacts can be connected to secure three point motor control such as louvers actuators etc avoiding simultaneous powering of both outputs The module either can be powered directly from the CIB its power limits the number of next modules at the same CIB branch or can be powered from a separate source of 24V which can be used for multiple modules located immediately next to each other In the second case the CIB bus is not loaded by the module ZALUZIE SERVO 230 VAC 7 e bor M N N J PE PE a B4 BS B6 B7 B8 B9 x Sus N o a 2 DIGITAL OUTPUTS C OR 0008M RU HW ADDRESS 19AE
9. cca 100 mm OUT2 zzi balanced E 5 switch CIB gt CIB EN EI E eo GND EE C IR 0202S adr FFFF INT i A 5 TXN 0133 25 A e A ROS se TECO a s Czech Rep V E Yours 94 TXV00416 02 rev 1k odt Last change 28 7 2011 14 7 C IT 0504S Module C IT 0504S is designed for 5 RTD sensors or dry contacts and 4 analog outputs of 0 to 10 V directly to the installation bus CIB Inputs outputs and the bus are to be connected via tape cable The universal inputs can be set either to binary or analog mode in two groups during module SW configuration The first group contains 4 inputs the second one 1 input Other settings are common to the whole group For example 1 temperature sensor and 4 contacts 1 contact and 4 temperature sensors To measure the temperature the resistive sensor PT1000 or Ni1000 thermistor NTC12k or KTY81 121 are to be connected between IN1 IN5 and GND The resistance is converted to a numerical value of temperature and transferred to the central unit over the CIB For another type of RTD resistance measuring range can be selected from 0 to 160 k In such case the conversion to temperature and linearisation must be done at the application program level The dry contacts or temperature resistors are to be connected between IN1 IN5 and GND The inputs can be used as well as balanced inputs for security sensors with working contact and tamper Analog output is
10. enne 74 11 9 1 Continuous measurement of water level in the well 74 11 9 2 Limit monitoring water level in the well or tank eseseseseeeeeennneneeen nn 75 12 Control and monitoring of other nennen nenne 76 12 1 Defrosting of outdoor areas i e cerae ci dicenti rec eet eee ci De Ieri ka diarani Nsa 76 12 2 Defrosting th gutters eire e ter cae aa n lana edad ea ana dae cae 78 12 3 Pool technology control i i i i i i i i i i renter 79 12 3 1 pH and Redox chlorine 79 13 Design and installation information i i i i i lll nln nn i i i eennnnnnnen nnne 80 13 1 Consumption of CFox modules from CIB or from external power 81 13 2 Module dimensions oreet enean ena x anii Rh n a Rae d nan dud 82 13 2 1 9M housing for DIN rail TS 35 according to EN 60715 82 13 2 2 6M housing for DIN rail TS 35 according to EN 60715 82 14 Basic application examples of CFox a Rfox modules eeeeseeeeeneeeennn nnm nnn 83 14 1 C OR 0008M relay outputs CFOX
11. 230 VAC Y N L E ae N N PE LAT A2 A3 A4 A5 A6 A7 AB A9 Bt 282 B6 Br B8 9 SS amp l lald 5115 5 d BIE 9 ololol o 1941616 CIB LINE POWER 24 VDC DIGITAL OUTPUTS C OR 0008M RUN HW ADDRESS 19AE MANUAL CONTROL ov 007 DO8 DIGITAL OUTPUTS Fig 7 1 2 Example of shutter motor controlled by C OR 0008M Notes 1 Relay outputs with mutual interlocking of both outputs when DO1 switches on the motor goes up DO2 switches on the motor goes down If both DO1 and DO2 switch on the motor stops 2 Relay contacts on C OR 0008B allows 80A of peak current so they can overcome short current peaks during closing and opening of contacts 3 Due to power of motors for shading elements the control and power cable with cross section section 1 5 mm2 fully complies 51 TXV00416 02 rev 1k odt Last change 28 7 2011 7 2 Control of DC motors for shutters and blinds To control the DC motors with reversing the polarity by switching power supply internal motors for blinds etc we recommend the relay outputs with changeover contact such as C OR 0202B C OR 0202B CIB RUN DO1 DO2 N S 4 ROLETY AN AN 24 VDC Pt1000 NTC 10k teplotn sensory Fig 7 2 1 Example of connection DC motor by C OR 0202B module No
12. M AA 4104 24 V NO 0 DC 60 Hz Normally open max 2 min 26 TXV00416 02 rev 1k odt Last change 28 7 2011 4 1 3 Alpha AA 5004 Proportional drive controlled by 0 10V signal This drive can be controlled by any analog output 0 10V of system Foxtrot To control the drive locally the C IR 0202S seems to be most appropriate It is equipped with analog output 0 10V and two inputs for room temperature and for the window contact Supplying more drives from one common source of 24VAC it is highly recommend to take care about the galvanic connection of the analog outputs of each CIB module and the 24VDC power supply for drives The negative potential of the power supply is connected with negative potential of the CIB bus through the analog output circuits It is necessary to keep the minimum voltage difference between that two signals Use the same cable topology sufficient cross section of CIB wires as well as of 24VAC power supply wires C IR 0202S HLAVICE 24 VAC AA 5004 Fig 4 1 3 1 Connection example proportionally controlled drive for radiator valve Notes 1 For control of AA 5004 drive it is necessary to take care about the continuous consumption about 1 8 W per drive Peak current 200 mA for max 2 minutes per each drive 2 Input impedance of analog input of AA 5004 drive is 100 kOhm 3 If you want to supply more drives from a common 24VAC power supply you must take care about the galvanic connection of th
13. The same is valid for RxD and RTS signal Do not cross the signals 5 Terminal GND1 B3 B4 and GND A1 A2 A3 are electrically isolated If the module is powered from a separate source connected to terminals 24 V and GND1 the GND terminal has to be connected on the ground terminal of the RS 232 interface on the basic module 76 TXV00416 02 rev 1k odt Last change 28 7 2011 11 8 M bus meters integration MR 0158 sub module Sub module MR 0158 is a physical layer of M bus interface for master side of the metering bus More details of the M bus see the previous chapter The M bus is usually used for reading the heat meters electricity meters etc The sub module can be used in TECOMAT Foxtrot TC700 series TC650 TEMPO each with the free slot for serial interface sub modules Length of M bus is limited by the maximum voltage drop on each wire should not exceed 0 5 V which is dependent on consumption of idle slaves the number of modules x 1 5 mA and cross section of wires Overload lines M bus fuse disconnects the built in converter for about 1 second Then it try again activate normal function This state is indicated by the DCD or by CTS signal to log 0 After the overload the fuse itself goes back to normal function The module as master interface allows to handle with max 20 M bus slaves Power supply of M Bus has galvanic isolation from other circuits SCH2 interface has the free slot for inserting sub modules similar t
14. 0401R Time TXN 133 47 02 C RI 0401R Time TXN 133 47 03 C RI 0401R Time TXN 133 47 04 C RI 0401R Time TXN 133 47 05 C RI 0401R Time TXN 133 47 06 C RI 0401R Time embedded flush mounting IR Rx a Tx is part of delivery TXN 133 47 07 C RI 0401R Time TXN 133 47 08 C RI 0401R Time TXN 133 47 09 Note Only TXN 133 47 01 is a standard product The other ord numbers has to be ordered as customized modules C RI 0401R Time 100 Last change 28 7 2011 TXV00416 02 rev 1k odt Last change 28 7 2011 14 12 C IT 0200I C IT 0200 is a module on the bus CIB which includes 2 general purpose analog inputs Inputs can be configured to measure the resistive temperature sensors thermocouples resistance voltage or current Module is powered from the CIB including powering of 4 20 mA current loop The module is housed in IP 65 plastic box with bushings suitable also for outdoor installations The external dimension of 125x100x38 mm Configuration of the measuring range can be done by jumpers individually for each of both inputs Examples of using terminals and jumper configurations for various ranges are shown at figure below Measuring ranges and input impedance of analog input module According to range Voltage input 0 10V Voltage input 0 5V Voltage input 2 2V Voltage input 1 1V Voltage input HI 1 1V V in HI 100m 100mV Inpu
15. 4 Air quality measurement The modules of CO smoke VOC volatile substances concentration and RH relative humidity measurements are available All that modules are mechanically identical Also connection to CIB is the same Module C AQ 0001R is a sensor of concentration of carbon dioxide CO in the air The measurement principle is based on infrared radiation attenuation dependent on the concentration of CO2 Non Dispersive Infrared Radiation absorption The concentration of CO is a signature of the air quality in the room and thus can be used e g to control ventilation in rooms and buildings The module is designed for wall mounting or installation on the flush box The module measures two inputs The first one is for CO sensor The second one is for temperature sensor which is intended only for orientation and maintenance purposes The sensor measures the temperature inside the device and gives information about the operating conditions of the module CIB CIB cB HI C AQ 000xR Fig 11 4 1 Example of connecting air quality sensors C AQ 000xR 72 TXV00416 02 rev 1k odt Last change 28 7 2011 11 5 Mains parameters measurement The SMM 33 module can be used for detailed analysis of the 3phase power network in terms voltage current active and reactive power etc It has to be connected to the serial port RS 485 of Foxtrot For more information about
16. A K 209 8 VDC 9W L N 230 VAC OVL D N OHREV Fig 12 1 2 Example of connecting sensors and heating cables for defrosting smaller areas 81 TXV00416 02 rev 1k odt Last change 28 7 2011 Notes 1 Unheated sensor TFF 524 002 can be connected in the same way avoiding heating output DO4 2 Defrosting of pavement surfaces and gutters both can be powered from a common power supply 3 Bythe similar way according to manufacturer documents the sensors of other manufacturers can be involved 4 Relay output for heating is necessary to be chosen according to the actual switching power 82 TXV00416 02 rev 1k odt Last change 28 7 2011 12 2 Defrosting of the gutters To defrost the gutters electric heating cables are used Defrosting can be controlled by Foxtrot according to the outdoor temperature and humidity If the outdoor temperature falls below the set value and the simultaneous occurrence of moisture in any state water snow ice is detected the heating cables turns on If the temperature rises above the set value or humidity disappears the heating is switched off and heating cables are out of service For sensing the temperature sensors has to be mounted near the gutter and humidity sensor directly into gutter near the seduction outlet If there is any moisture on the humidity sensor heating resistor dissolves it by 2W To improve reliability of sensing it is recommended to use two parallel h
17. A5 A1 2 A4 A6 A7 AB A9 1 B2 B3 B4 B5 B6 B7 B8 B9 NIIS o o a z z B allasi e x ala olo S189 ala olo E DIGITAL OUTPUTS CROX e le le C OR 0008M RU a HW ADDRESS 19AE MANUAL CONTROL on o e 230 H6 Fig 6 1 1 1 Example of switching power supplies for LED by C OR 0008M module If you want to use a power supplies 230VAC 12 VDC to powering multiple LED stripes and you require separate switching of individual stripes and even shut down the source to permanently cut the current at light off it is possible utilize advantage of the C HM 1113M or C HM 1121M To switch power supply at 230VAC side you can use 16A output DO11 at C HM 1113M This output is designed for 40 TXV00416 02 rev 1k odt Last change 28 7 2011 switching current up to 80A The other relays with lower current capability of 5A can be used for individual switching of LED See Fig CIB CIB ANALOG INPUTS A OUTPUTS HW ADDRESS 19AE K o MANUAL CONTROL 9 DI1 012 BA 015 DE 017 DIS 001 002 003 004 DO5 DOG 007 008 DO9 0010 001 e I l DIGITAL OUTPUTS i y e Z x o o
18. C HM 1121 modules are suitable to connect dry contacts They can be placed either in the main cabinet or in the auxiliary one in order to minimize number of cables in the house ZALUZIE CIB CIB B5 B6 B7 B8 B9 aisle x o ee lt 1 6 8 25 amp ANALOG INPUTS A OUTPUTS HW ADDRESS 19AE ANUAL CONTROL N is 004 DO5 DIGITAL OUTPUTS COM6 DO10 DO11 COM7 e I DO9 e K 50 pe Fig 9 1 5 1 Example of connection of dry contacts to C HM 1113M Notes 1 Suitable cable for connecting contacts of wall switches are SYKFY JY St Y etc Cable length can be up to about 30 m 2 In case of multiple drivers in one place the common multiwire cable can be used The common cable can lead also the temperature sensor but the shielded cable is recommended in this case E g Having multiple frame with push buttons and a temperature sensor on the wall all of these signals can lead via common cable to cabinet but shielded cable always should be used 3 In case of large cable lengths and or parallel installation along the low voltage installation we recommend shielded cables reducing the risk of false switching due to interference 60 TXV00416 02 rev 1k odt Last change 28 7 2011 9 2 Wall displays for Heating control 9 2 1 Heating control module C RC 0002R design The mo
19. Last change 28 7 2011 CIB1 2x CIB powered CIB 2 12V 12V to external masters to GSM HH qH CF1141 RF 1131 modem T3 15A UE ag PS50 27 I I I OUTPUT 27 2 V DC 1 9 A 230 V AC CP 1020 ready for Peer ETHERNET CH2 SUBMODULE e g RS 232 RS 485 le le 24 V 230 VAC 1 2 4 1 0v 4 4 24 VDC SELV NTC Fig 2 2 2 2 Example of the power supply of CP 1020 with a backup Notes 1 2 3 4 5 6 We recommend PS2 60 27 stabilized power supply of 27 2 VDC complying SELV Power consumption of CP 1020 is the sum of its own power typically 4W and the total wattage of all connected modules CFox on both of CIB branches On terminal B there is the output of both powered CIB branches for a maximum current of 1 A for each branch Inputs AI DIO up to AI DI3 are 4 universal inputs for dry contacts or temperature sensor NTC Pt1000 Ni1000 IN 230 VAC input terminals F1 and F2 is designed for monitoring the presence of 230V mains directly on the grid It is a standard 230VAC input with galvanic isolation HDO input terminals F4 and F5 is for connection of the tariffication signal coming from the grid This input is tolerant to many failures of the power grid even to installatio
20. N NP aid co wc 1 9 ood e z ES 8 soo 5 se ME 8S 8 see 9 a z 2 s 8 g e Q al E o I Slsoa 20 e aj e T 5 a 5 o gt 2e a e a 300 I E 3 e T amp Sog EE e ju r irr o a io I co E 5 L I 5 30 EE I a vod 5 E u 2 A 2 m ewoo 5 m E n I 8 s 5 22009 2 EH 10 LS x ceo 3 48 gt I a eoa 118 hi UE d I eS eoe rI coa a 7 e o I d lt x e m osa Z 1519 o e sal t e LS nc 3 E C 20 2 n a x dial s E g iov a 8 am ERE a e 5 a a5 lt o E d in d lft 8 PL g E Ld i o gt 8 B UN iw 2 2 e EL S o5 a 5 a a a E n m z 90 y a v mu EE se 80 5 CIB CIB 92 max 16mm max 26 mm TXV00416 02 rev 1k odt Last change 28 7 2011 14 5 C IT 0200S Module C IT 0200S is designed to connect two temperature sensors or dry contacts directly to the installation bus CIB Sensors or contacts are connected by flat cable To measure the temperature the resistive sensor PT1000 or Ni1000 thermistor NTC12k or KTY81 121 ar
21. The recommended location is the input line from outside into the building as well as on border with other LPZ Lighting Protection Zones according to EN 62305 and close to the protected device so that the cable length between the over voltage protection device and the protected equipment should be less than 10 m DTNVEM 1 CIB consists of a base and replaceable module that contains the protection itself The base is still attached so in case of inspection or damage one can handle only with replaceable module The base is not removable so the CIB wiring is not interrupted The protection is designed for continuous current up to 0 5 A It is necessary to ensure in the project design that this current will not be exceeded DTNV 1 CIB engages output toward the protected equipment INPUT OUTPUT W supress diodes 4 limiting impedance dual gas discharge tube Fig 3 1 5 1 Internal circuit of surge protection DTNVEM 1 CIB same is for DTNVE 1 CIB The DTNVEM 1 CIB surge protection always should be in front of the part of the bus we want to protect So we need to protect all parts of the installation leaving the zone ZBO1 or installing along the large metal parts of buildings that are in zone 0 eg lightning conductor We must protect individually all parts of each installation which the above theorem applies 17 TXV00416 02 rev 1k odt Last change 28 7 2011 In Figure 3 1 5 2 we have outlined an example where the installation i
22. available between OUT1 OUT4 and GND E _ CIB amp x o E 5 100 e Sg i ea i eoi LIE Aaz ON Med M DNE 1 05045 i Teco a s ADDRESS ORDER No TXN 13326 SERIAL No C2 0002 123D CIBLOAD 22mA max 26 mm RUN 95 TXV00416 02 rev 1k odt Last change 28 7 2011 14 8 C IT 0200R Design Module C IT 0200R Design works as temperature sensor assembled in various wall switch designs and can be directly connected to the installation bus CIB The module is designed for installation into flush box on the wall The module C IT 0200R Design consists of two parts The first upper part includes the cover in specific design mounted on the wall The second built in part is common module for all designs of upper part It should be placed behind the upper part into the flush box This part is to be connected to installation bus CIB The module contains two RTD measurement inputs The first input is connected by the 2pin connector to an internal temperature sensor mounted in upper part The second input is ready to connect external sensor NTC 12k or to measure NTC in range up to 100k CIB CIB green cip yelow CFox TYPE C IT 0200R hita T oars gt gt z ADDRESS ORDER No TXN 133 20 SERIAL No A2 0002 1230 CIBLOAD 15 96 max 16mm max 26 mm TXV00416 02 rev 1k odt Last change 2
23. cable entry ready to made for shielding with the outer case of cabinet like Progress MS EMV by IES see the picture This way is the most efficient since it minimizes the emitting interferences into the cabinet The earthing of the shield is provided by the earth terminal base plate and protection terminal The shielding of the external cables is connected with the ground by the metal clips mounting plates and protective clamps Shield of the inner cable is connected to the ground via grounding clamps mounting boards and protective clamps This or another similar method is particularly suitable for plastic panels with a metal mounting plate The inappropriate way to connect the shield is shown as c on the picture Cable shielding is indeed associated with protective terminal but the connection wire degrades shielding effectiveness and long loop is being introduced so the radiation of electromagnetic interference is introduced into the cabinet 12 TXV00416 02 rev 1k odt Last change 28 7 2011 3 1 2 powering limitations optimizations Amount of modules on the CIB branch Max number of CFox modules connected to one branch one master is 32 This number cannot be exceeded On the contrary the number of modules in the CIB branch must be reduced in case of using more modules with the higher consumption from CIB like C HM 1113M It is in order to avoid the exceeding of the maximum current supplied from the master and coupled from
24. components Foxtrot control system can connect its peripherals by e CFox modules CIB Common Installation Bus RFox modules Wireless e TCL2 bus for high speed PLC modules Foxtrot basic modules CP 10xx are the central points of the system The CP 1000 basic module is the right choice for installations where we do not assume to connect sensors and actors directly to the basic module Also for installations parametrized in the FoxTool The other Foxtrot basic modules See Foxtrot design and installation guide TXV 004 11 ar suitable for installations where all or majority of inputs and outputs should be connected directly to the basic module Sensors like temperature sensors push buttons etc and actors like lights valve shutters and fan drives are to be connected to the expansion modules via one of 3 buses above CIB Common Installation Bus CFox modules The major amount of peripherals in building automation are connected to CIB The peripheral modules are supplied with CFox brand They are available in different housings especially for DIN rail mounting in centralized cabinets for flush box installation in interior design for the wall mounting and also in the IP65 housing A detailed description of the CIB is shown in the following chapters RFox wireless network bus Other possibility to install modules of Foxtrot system is wireless network RFox It is not real bus but the modules are controlled by the same way as CF
25. control point of view Following figure shows the typical configuration with the 3 speed fan two position drives for heating and for cooling circuit The figure shows also how to connect the condensation sensor and two temperature sensor Additionally C HM 0308 module can provide also the control of proportional speed drives proportional speed control of EC motor by two 0 10V outputs etc CIDLO KONDENZACE teplotn sensor 1 teplotn sensor Ad NTC 12k NTC 12k mS JE 9 lt e aa CIB gt 8 CIB LINE ANALOG DIGITAL INPUTS A OUTPUTS HW ADDRESS 19AE MANUAL CONTROL 001 002 DO4 DO5 006 1 eee eee I te x C HM 0308M 230 VAC HLAVICE 230 VAC cw p VENTIL TOR 3 OT CKOVY VENTIL TOPEN VENTIL CHLAZEN Fig 4 5 1 Example of control of four pipe Fan Coil with 3 speed fan 33 TXV00416 02 rev 1k odt Last change 28 7 2011 4 5 1 Fan Coil AERMEC FCXI connection example Inverter fan coils AERMEC FCXI and FCLI are available in 2 and 4 pipe design Also FCXI P version is on the market without housing just for mounting into air ducts in the ceiling or in the false wall The installation in the parapet niche is also possible Fan coil AERMEC FCXI and cassette fan coil FCLI allows proportiona
26. design of ABB Time and both they enable to attach up to two temperature sensors Indoor temperature with 12k NTC sensor available also in ABB s Time design Floor temperature with sensor fixed on the cable teplotn sensor teplotn sensor 14 NTC 12k NTC 12k CIB CIB Fig 1 Example of connecting C WS 0200R and C WS 0400R Notes 1 Temperature sensors must be 12k NTC type or other NTC with resistance up to 100kOhm the length of cable can be up to tens of meters typical cable for floor sensor is SYKFY or similar with 1x 2 wires and with diameter of at least 0 5 mm 2 The module is designed as a standard installation element to the flush installation box e g KU68 3 Connection via fixed terminals of 3 5 mm pitch for wires of max 1 5 mm cross section 56 TXV00416 02 rev 1k odt Last change 28 7 2011 9 1 2 Wall switches coupled to CIB over flush mounted input module In the case you need to use other interior design of wall switches you can choose practically any switch and couple it to the CIB over module with inputs for dry contact For the wall switch with one or two push buttons C IT 0200S module can be used which can be placed directly into the flush box under the wall switch Also card holders usually used in hotels can be connected in the same
27. inserted into the ready to insert holder After discharge of the Li Ion battery this CR2032 will provide power and extend the backup time up to 20 000 hours Preventive replacing of the backup battery type CR2032 or equivalent 3 V diameter 20 mm thickness 3 2 mm it is recommended at intervals of 2 3 years Battery life is typically 5 years The battery has to be inserted in the holder located on the inner board and the basic module and is accessible after removing the plates from the plastic cover more information is available in basic documentation of each module TXV00416 02 rev 1k odt Last change 28 7 2011 CIB1 2x CIB to external masters to GSM powered CF 1141 RF 1131 modem 2 OUTPUT 24 VDC 2 5A DR 60 24 B5 B6 B7 B8 B9 230 VAC B2 B3 ED B4 cT lalala a 2 a o o o o o BUS CiBUs2 CP 1000 ready for RUE DNA 155 ETHERNET e 9 e e e CH2 SUBMODULE e g RS 232 RS 485 IN 230 VAC D OUTPUT uy a eles gle ai 522 8 15 i z 2 z os Tei Tre Fs Fe F7 Fol PE 230 VAC K1 K2 44 e 6 24 VDC SELV Fig 2 2 1 1 Example of the power supply of CP 1000 without a backup Notes 1 We recom
28. module is necessary to power the CIB buses All coupling components are integrated directly in the basic module CP 1000 The system bus TCL2 is available on connector A especially for external masters CF 1141 and RF 1131 Serial communication channel CH1 is usually used for a GSM modem On the connector D the slot for other communication interface is placed The optional sub modules inserted to this slot enable to implement interfaces such as RS485 M Bus Master CAN RS232 and more Possible variants of interface sub modules are described in Foxtrot design and installation guide TXV 004 11 The E and F connectors enables connecting auxiliary inputs and outputs 4 universal AI DI for contacts NTC Pt1000 Ni 1000 2 independent relay outputs 3A input for HDO as signal of low tariffication of electricity distributor and input IN 230 VAC as standard binary input 230 VAC Backing up the internal data and time of CP 1000 during the power failure When power of CP 1000 falls down the selected user data and calendar and clock are backed up Back up is provided by internal Li Ion battery After power is restored the battery recharges and is ready to back up again The battery requires no maintenance Li Ion battery backup will last approximately 500 hours Additional internal backup battery If the backup time has to be increased eg to switch off the power supply for more than 500 hours the additional lithium battery of CR2032 type can be
29. of fluorescent lights and compact fluorescent lamps 44 6 7 Dimming Low voltage lights with inductive and electronic transformers 45 6 8 Dimming incandescent lamps eeseeeeeeeeeseseeeeeee nennen nennen 46 6 9 Dimming DMX512 cohtrol ecrire rt aS EXER EXE 47 7 Shutters ce E 48 7 1 Controlling engines for outdoor shutters awnings etc seem 48 7 2 Control of DC motors for shutters and 50 8 Security Systems Fire Alarm System sese eene nennen nnne nn nnn nnn nnn nnn nnn nnn nn nnn 51 8 1 Security sensors orden reser nea eoe petat de ene eo EE YE ERAT RR CONDE Yu 51 8 1 1 Configuration of inputs for Security 51 8 1 2 Connecting securitz sensor with double balanced loop eee 52 Fire alarm systems wiring of detectors i i i lll lll nln nln nnn i i ni i ieee 52 9 Communication with the USEL ccccecccescsssesseseeeeenseeseesassseeeeeseesaesasaeeeeenseesaegaaaeeneenseesaeaenssanensggs 53 TXV00416 02 rev 1k odt Last change 28 7 2011 9 1 Wall switches flush mounted Light control shut
30. or to CIB module The non hermetic case should be used Tapping the extra cable in the bundle keep the circle diameter min 30 cm The manufacturer does not recommend shortening the probe cable or otherwise mechanically modify it 3 Module C IT 0200I can be placed close to the tank since it has higher protection IP 65 4 For extension cord it is recommended to use the shielded cable e g JYSTY 1x2x0 8 Shielding should be connected to protective earth at the side of CIB module 79 TXV00416 02 rev 1k odt Last change 28 7 2011 11 9 2 Water level limit monitoring in the well or in tank Either continuous measurements in accordance to previous section or directly limit sensor can be used to guard the minimum and maximum water level in the tank well etc Capacitive level sensor CLS 18S 11 by Dinel can be used for monitoring a minimum water level in the well It is submersible IP 68 level sensor to sense water in boreholes wells and reservoirs The sensor is suspended on a cable with stainless steel guard basket preventing mechanical damage of the electrode Max immersion depth is 100m 17 02001 CIB CIB kapacitni hladinovy snimac CLS 18S 11 Fig 11 9 2 1 Connection of capacitive level sensor CLS 18S 11 Notes 1 The sensor is connected to the input of C IT 0200I module which is configured for the measurement of current loop 4 to 20 mA via the serial resistor 2k2 2 Resistor value should be used between 1k8 and 3k3 the
31. power supply See the relevant documents of CIB master or CIB coupling module It is always useful to calculate the total consumption of modules to be ensured if the CIB branch will not be overloaded Reducing the load reducing the consumption of CIB The most of peripheral CFox modules are powered from CIB There exists several modules like C HM 1121M supplied from the mains 230VAC or C OR 0008M optionally powered from external 24 or 27 2 VDC which enables to connect the higher amount of inputs outputs on the CIB without need to be supplied from CIB Dividing large installation among more CIB branches In case of large installation application with more CIB buses it is useful to take it into account the consumption of each module during the planning the wiring topology It is a good practice not to wire all relay modules on one CIB branch and on the other one only temperature sensors In such case the first branch will be overloaded while the power capacity of the second one will stay not fully used It is always useful to spread the load over all branches to achieve the reliable compliance of topology amount of modules and load of each CIB It is a good practice to save the capacity of each branch for the future extensions 13 TXV00416 02 rev 1k odt Last change 28 7 2011 3 1 3 CIB master CF 1141 Master module CF 1141 provides the mastering of 2 CIB branches each for max 32 slaves CF 1141 provides identification addressing c
32. powered normally closed Alpha AA 24V DC AC NO 24 VDC AC powered normally open Alpha AA 0 10V proportional 24 VDC AC powered control signal 0 to 10V Selection of the operating voltage is determined according to the customer needs The choice between the drives normally closed or normally open depends on customer preferences to minimize power consumption controlled radiators in the insulated house will be closed most of the year so the normally closed drives bring higher efficiency or the customer requires normally open valves so during the blackout the valves stay open The drive and adapter must be ordered according to the specification of radiator valve manufacturer 24 TXV00416 02 rev 1k odt Last change 28 7 2011 4 1 1 CIB powered drive C HC 0201F E C HC 0201F E is CIB powered drive and can be used for proportional control of radiator valve The drive is equipped with auxiliary 2 analog binary inputs It has standard screw M30x1 5 for mounting on the valve For other mounting dimensions reduction accessories are available as a separately ordered items C HC 0201F E teplotn sensor 14 teplotn sensor 14 Fig 4 1 1 1 Example of wiring Motorized drive C HC 0201F E for radiator valves NTC 12k NTC 12k Notes 1 Motorized drive has two inputs configurable as analog inputs for temperature sensors or as two digital inputs for dry contacts e g window or door contact So th
33. serial ports see the documentation 4 lt lt lelele 9 85 m o 24V DC CIB LINE CHURS 232 CH2 OPT SUBMODULE e g RS 232 RS 485 DIGITAL OUTPUTS 5 8 o 6 amp 3 D2 D atlas AET gigi 1 Bye ale oja o 1200hm 8 30 29 28 a z m CIB LINE O PFlcos THD CO Hz C VOLTAGE E Fig 11 5 1 Example of connection of SMM 33 analyzer of 3phase power network 73 TXV00416 02 rev 1k odt Last change 28 7 2011 11 6 Weather station measurement Weather stations integrated in anemometer GIOM3000 enables to measure the primary weather values Wind speed and direction Humidity Temperature e Atmospheric pressure and derived variables Barometric altitude Relative pressure QNH QFF Beaufort e Windchill Saturated vapor pressure e Absolute humidity g m and g kg Dew point In Foxtrot there is SW library supporting the integration of GIOM3000 weather stations data into the management of different tasks in the house including monitoring and displaying Weather station is to be integrated via 10M Ethernet interface with POE Powered Over Ethernet It is possible to insert i
34. terminal DMX512 master can be realized only within the Foxtrot basic module using sub modules MR 0105 MR or MR 0106 or MR 0115 pinserted at SCH2 optional slot These sub modules contain combination of 3 serial interfaces RS485 and RS232 addressed as CH2 CH3 CH4 One or two DMX512 masters can run only on the communication channels CH3 and CH4 where the interface RS485 at specific bit rate 250 kBd can be realized To control lighting over DMX512 there is library of supporting functional blocks in the Mosaic programming tool 49 TXV00416 02 rev 1k odt Last change 28 7 2011 7 Shutters blinds motors Motors for shutters blinds and similar devices are typically AC asynchronous motors with reversing of coils Typical consumption of such motors is between 60 and 150 VA It is necessary to avoid simultaneous connection of control voltage at both up and down input terminals Most likely it will damage the engine For this purpose any relays pair is suitable Due to the exclusion of simultaneous switch on it is preferable to use relays with changeover contacts which allows hardwired exclusion of simultaneous appearance of control voltage on both relay outputs see Chap 7 1 For interior shutters also small motors 12 VDC or 24 VDC are used In this case the direction is controlled by changing the polarity of supply voltage see Chap 7 2 Custom logic control teaching the end position time of running positioning of blinds must be included i
35. way C IT 0200S Fig 9 1 2 1 Example of coupling two switches buttons to CIB via C IT 0200S module Notes 1 All module outlets CIB and inputs are insulated wires about 100 mm length finished with sleeves which can inserted directly into the terminal of wall push button 57 TXV00416 02 rev 1k odt Last change 28 7 2011 9 1 3 Wall switches coupled to CIB over C IT 0504S module The built in module C IT 0504S can be used in a similar way as C IT 0202S It enables to connect up to four contacts and to measure the temperature sensor It can drive up to 4 LED indicator at the same time Module has 5 configurable inputs The configuration is not fully independent Inputs can be configured in 2 groups One of 4 inputs and the second of 1 input They can be configured as analog inputs to read temperature sensors like Pt1000 or as binary inputs to read dry contacts or balanced inputs There are also 4 analog outputs 0 10V max 3MA to control LED indicators on wall switeches to control ballasts heating C IT 0504S OQi l e o xlo niSs i9 x G Zizczizcsiz ziziziolo loilo z sel teplotn sensor Fig 9 1 3 1 Example of connection 4 push buttons and 1 temperature sensor to the C IT 0504S module Notes 1 Example shows one configuration possibility 4 1 4 contacts 1 analog input Reverse combination i e 1 dry contact and 4 analog inputs is also possible 2 Analog outputs can be used to control the 0 10V ele
36. 0 mm with connector The external temperature sensor NTC 12 k or NTC 100k can be used for floor temperature measuring C IT 0200R design VESTAVNY MODUL KRYT V DESIGNU s idlem teploty teplotn sensor 14 Fig 10 1 1 1 Example of temperature sensing module C IT 0200R design for room and floor temperature NTC 12k Notes 1 External temperature sensor must be NTC 12k type or other NTC 100kOhm the length of cable can be up to tens of meters typical use of cable for floor sensor is SYKFY 1x2 wires with diameter of min 0 5 mm 2 The build in part of the module is designed as a small one into a standard flush box KU68 The module has four wires of length about 10 cm for CIB and external temperature sensor plus a small connector to plug the sensor from upper module the cover in the wall design 66 TXV00416 02 rev 1k odt Last change 28 7 2011 10 1 2 Temperature sensor as CFox module in the ABB wall design Version for ABB designs is available The C IT 0200R ABB with order No 133 TXN 19 01 Time White white is a standard in CFox system The variations of colors of covers frames and different ABB designs are available according the customized order C IT 0200R xxx teplotn sensor du Fig 10 1 2 2 Example of connection room and floor temperature measuring with C IT 0200R ABB TXN 133 19 NTC 1 CIB CIB Notes 1 Ex
37. 00416 02 rev 1k odt Last change 28 7 2011 3 3 TCL2 system bus principles of design and installation Detailed description of TCL2 characteristics and the rules for wiring you can find in documentation 4 The modules UC 1204 Open Therm communication module or UC 1203 MP bus for drives by Belimo which can be used in building or HVAC automation are also described in documentation 4 23 TXV00416 02 rev 1k odt Last change 28 7 2011 4 Heating Foxtrot system allows to realize solutions from simple one such as regulation and control of a gas boiler with radiators through complex assemblies with floor convectors underfloor heating up to complex managing of multiple sources of heating like heat pumps gas boilers automatic boilers for liquid and solid fuel solar hot water systems and also comfortable heating and cooling with fan coil units ceiling cooling remote controlled air conditioning units as well as controlled ventilation with centralized or decentralized recuperation 4 1 Hot water heating valve control The standard radiator valves can be controlled electrically The scope of such valves is very wide and they are manufactured in many types of different size power opening and closing time of different control power supply normally open or closed with the possibilities of various screw toward the valve and toward the price CIB powered drives C HC 0201F E or C HC 0101F can be used for standard application
38. 1141 The max current of each branch is 1A For this total consumption the adequate power supply should be dimensioned and coupled for each branch If CF 1141 is placed in the same cabinet together with the basic module it is possible to power them from one power supply with or without backup In such case the backup accumulator is to be connected only to one of them usually to basic module The connection of CF 1141 module is on the figure Zakoncovaci len KB 0290 rs NY 1 DAR A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 A2 A3 amp aon 4 ao egeo 2 Ps PLC Tecomat Foxtrot CF 1141 Fig 3 1 3 1 Connection of CF 1141 module to Foxtrot basic module 14 TXV00416 02 rev 1k odt Last change 28 7 2011 to CP 1020 OUTPUT 27 2VDC 2 2A I S 2 N Fd 230 V AC U N e 1813 POWER 27VDC ACU 24V BACKUP PWR A CF 1141 CIB 2 2x CIB L powered CIB N PE 230 VAC Fig 3 1 3 2 2 Connection of CF 1141 with backup accumulators Notes 1 Werecommend a PS2 60 27 stabilized power supply of 27 2 VDC complying SELV Power consumption of CF 1141 is the sum of its own power typically 1W and the total wattage of all connected modules CFox on both of CIB branches 2 There is the outputs of both p
39. 201F Tab 10 1 Overview of CFox and RFox modules with temperature sensing 65 TXV00416 02 rev 1k odt Last change 28 7 2011 10 1 Room temperature measuring Room temperature can be measured in several ways It depends on the requirement of form factor on design of measuring element whether to measure temperature of the floor at the same time whether bus or wireless modules CFox RFox are preferred Also can be preferred direct connection of temperature sensors to the DIN rail modules with analog input in the central Room temperature is measured by the wall heating control modules The C RC 0002M and RCM2 1 measure the temperature always Also CFox wall switch modules C WS can attach the temperature sensors 10 1 1 Temperature sensor as CFox module in the wall design For many designs temperature sensors are available in the wall design compatible with the wall switches The module consists of two parts Built in part contains electronics and gas 4 wire cable to be connected to CIB and to connect external temperature sensor It has also the plug to insert the cable from the upper part the cover in the customized wall design The cable length is 7
40. 7 4 3 Underfloor electrical heating i i lll nln nn i i nn nn i nennen nennen nnn nennen nens 28 4 4 Floor convectors proportional nnne nn ene 29 4 4 1 Floor convectors wit 24VDC EC motors by 29 4 4 2 Floor convector MINIB connection to the Foxtrot 30 4 5 FanGoils Control M 31 4 5 1 AERMEC FCXI connection example eseeeeeeeeeeeeen nnnm n nnn nn nnn nnn nnn 32 4 6 Boiler Control and regulation of heating 33 5 Ventilationinsiceccs ee EN 34 5 1 Fan speed control heat recovery 35 5 2 inVENTer decentralized ventilation unit with heat recovery eene 36 37 6 1 Switching LED 38 6 1 1 Switching of external voltage or current switching power supply for LED power supply 38 6 2 Switching incandescent bulbs 230 VAC or 12 VDC 40 6 3 Dimming of LED stripes controlled by 12V or 24V 41 6 4 Dimming of power LED current supply for 350 mA 500 mA 700 mA 1000 42 6 5 Dimming DALT interface tne rei eri 43 6 6 Dimming
41. 8 7 2011 14 9 C DL 0012S Module C DL 0012S is a converter of protocol and interface of CIB to DALI and vice versa It is intended to control lighting equipment according to the DALI protocol specifications NEMA Standards Publication 243 2004 Digital Addressable Lighting Interface DALT Control Devices Protocol PART 2 2004 CIB and DALI bus are to be connected via flat cable Wires has different colors The module is powered from the CIB and does not provide galvanic isolation of the buses CIB CIB cca 100 mm A CFox CA CIBIDALI bridge Teco a s TYPE C DL 0012S 97 TXV00416 02 rev 1k odt Last change 28 7 2011 14 10 C RC 0002R Module C RC 0002R is designed as indoor device for easy setting the room temperature The module is available in several interior design of different manufacturers Tt can be directly connected to the installation bus CIB The module is designed to be mounted in the flush box The C RC 0002R is composed of two parts The first part is the user interface mounted on the wall and differs according to selected design of cover The second part is a built in module to be placed in the installation flush box and allows to connect the two CIB wires Both parts are connected by a flat cable The user interface includes a 3 digit 7 segment LCD display 3 buttons and LED indicator The module enables to measure 2 temperature sensors The first one is a part of the cover and is permanently conne
42. Fox modules on CIB Common Installation Bus are supplied by the 24VDC or by 27 2 VDC in case of battery backup of all the installation The accepted tolerance of the power supply output is in chapter 3 1 1 with the CIB description Power supply parameters It is highly recommended to use the power supplies specified in this documentation even if you can use also other types with adequate parameters Majority of power supplies with the stabilized output voltage 27 2 VDC or 24 VDC are suitable The power supply must comply the SELV standard 27 2V supply must be specifically designed for direct battery charging Also power supply with stabilized 24 VDC output voltage for system without backup can be used Extra care must be taken over the output voltage since some power supply with extra power can supply the higher output voltage than it is allowed Power determination of the power supply To power the CP 1000 itself without modules on CIB can be used the power supply min 15W like recommended type DR 15 24 If you supply also other modules from the same power supply you have to increase the power accordingly To supply the basic module and both internal buses CIB see also chap 2 2 1 Supply without backup DR 60 24 or DR 100 24 is recommended To supply the system with battery backup the PS2 60 27 is recommended see chap 2 2 2 Supply with backup Fuse Protection Input power 27V terminal is protected by internal electronic fuse We re
43. IB installation has the potential of over voltage appearance e g the parallel layout along the lighting conductor or the part of CIB is wired outside the building it is NECESSARY to use the surge protection properly Since the unique features of CIB bus only special surge protections can be used Using the other types can essentially reduce the reliability as well as the functionality of CIB installation For CIB bus there are two surge protections available Both of them have the identical electrical characteristics they differ only by form factor DTNVEM 1 CIB 1M housing for DIN rail mounting with the screw type terminals DTNVE 1 CIB for flush or under cover installation with the 10 cm isolated wire outlets Surge protection DTNVEM 1 CIB is the basic protection element for the CIB It protects against the over voltage which can appear only in the bus It does not substitute protection of all the control system The main surge protection of the whole system is always the protection of power supply i e properly designed and installed protection of 230 V AC power supply The protection the main power supply has to be inherent part of each system design All the principles of installation of surge protection as they are generally known should be used to protect the 230 VAC power supply DTNVEM 1 CIB is Surge Protection Device SPD according to EN 61643 21 category 2 B2 C2 D1 designed to protect CIB against lightning currents and surges
44. S 0 5 21 1 9 79 0101 C WS 0200R Ti me 0 3 13 0 4 17 C WS 0400R Ti me 0 3 13 0 4 17 C RC 0002R 0 3 13 0 4 17 C IT 0908S C FC 0024X C FC 0230X C VT 0102B 0 3 13 6 250 C AQ 0001R 2 83 2 5 104 C AQ 0002R 1 3 54 1 5 63 C AQ 0003R 1 1 46 1 3 54 C AQ 0004R 1 42 12 50 C DM 0006M ULED 0 3 13 0 35 15 C DM 0006M ILED 0 3 13 0 35 15 C RI 0401S 0 4 17 0 5 21 C HC 0201F E C RQ 0400S 06001 C AM 0400M C OR 0102B Notes 1 The current of the module is calculated at the nominal 24V DC power supply 2 Minimum power consumption is considered for module turned on all outputs open and inactive the module does not supply any additional circuitry 3 Maximum power consumption is considered for module turned on with all outputs relay closed and excited at the maximum current Aout All associated entries are in the active state external circuits are powered 86 TXV00416 02 rev 1k odt Last change 28 7 2011 13 2 Module dimensions 13 2 1 9M housing for DIN rail TS 35 according to EN 60715 Basic modules of Foxtrot peripheral modules CFox RFox 58 0 157 2 85 9 65 4 44 9 89 4 47 0 000200000020 112200200000 Cc 43 2 53 0 13 2 2 6M housing for DIN rail TS 35 according to EN 60715 Basic modules of Foxtrot peripheral modules CFox RFox 65 0 105 0
45. T Roomtemperature measUurifig 25 3 ceret FEES R ETE 61 10 1 1 Temperature sensor as CFox module in the wall design esseeessss 61 10 1 2 Temperature sensor as CFox module in the ABB wall 62 10 2 Temperature measuring with IP 65 housing seseseeeeene mmm 63 11 Metering of energy and non electric 64 11 1 Measurement of electric energy 5 nerd eer ree OF e er ne Ee En ERE ARX Ree rk ea Arg 64 11 2 Connecting the electricity meter by optical probe according to standard EN 62056 21 65 11 3 Heat and eanan ia 66 11 4 Air quality measurement enne nnne nennen nnn nnne nennen annis san nana nn nnn nnn 67 11 5 Mains parameters nnne nnne nn nnne nn nnn 67 11 6 Met amp ostatiOn 2 12 ione Eee RES eee eee erre RE Cre te eere rdi tr t Da ede OE ATE DERE ENTER 69 11 7 M bus meters integration SX 1181 module seseseseseseseseseseseee nere 70 11 8 M bus meters integration MR 0158 submodule ssseseeeee mee 72 11 9 Measuring and monitoring of water
46. TXV00416 02 rev 1k odt Last change 28 7 2011 FOXTROT Control Your House CFox RFox Design and installation guide Revision 1k August 2011 Teco a s Havl Ckova 260 280 58 Kol n www tecomat com www controlyourhouse com TXV00416 02 rev 1k odt Last change 28 7 2011 Content List of document pdates 5 2 cerca cca Ro reet a iit eo deve od vacas RE Er ve REY 3 1 System overwiev basic nna nnn nnn nnne nnne 4 2 Basic module Power nennen nnn nnn nnn n nn nnn innu nennen nnn nnn n nans 5 2 POWer SUDply settee RF EE code ceGas 5 2 2 Basic module CP 1000 CP 1020 eeeeeeseeeeeeneeee nennen nnne nennen nnn nnn nnn nnn nnn n nn nnn nnne nnn 6 2 2 1 CP 1000 power without DaCKUD cere nee nnne nnne nnn nnn nnn 6 2 2 2 CP 1020 power with backup eene nnne nennen nnne nnne nnn nnn nnns 8 CIB bus RFox network TCL2 nnn nnn nnn nnns senarius nn nn nnn 9 3 1 CIB the principles of design and installation seeeseeeeeeneenenennnn menm 9 3 1 1 CIB characteristics iii ioci ce cce tte tien 9 3 1 2 Powering CIB buses limitations 12 3 1 3 CIB mas
47. VENTer units the fans are connected directly to module outlets A1 and A2 respectively B1 and B2 The order of wires is not so important It can be corrected in the module configuration procedure v1 ee v2 E ox T N N N x b 7 N Vi y N N A A Ps Wa PX p 77 P K Pi N N d gt pe a olola 21212 PRIPOJOVACI KONEKTORY inVENTer RUN C VT 0102B teplotn sensor Ty NTC 1 CIB CIB Fig 5 2 1 Example of connections two fans of inVENTer system Notes 1 As temperature sensor on TSa TSb terminals can be used NTC 12k NTC thermistors can have max 160kOhm 2 Fans of inVENTer units are to be connected directly on the wire outlets by max 15m long wires 3 Module C VT 0102B has the consumption 5W at max speed of both fans 38 TXV00416 02 rev 1k odt Last change 28 7 2011 6 Lighting Light source classification LED stripes and LED powered by low voltage typically 12VDC 24VDC Light intensity is controlled by the voltage See module C DM 0006M ULED Recommended way how to switch the LED power supplies is in the chapter 6 1 1 Power LED supplied by the rated current typically 350 500 700 1000 mA Dimmable by controlled current source see the C DM 0006 ILED The recommended method of switching sources for LED is shown in chap 6 1 1 Compact LED light LED
48. able for this purpose Library of function blocks ready to control ventilation heat recovery units fan coil units etc is expanding step by step The advantage of this solution is the flexibility of hardware where custom control of ventilation can be combined with other technologies The SW and HW of the control system can be configured accordingly List of I O modules for different ventilation systems Fans Discrete speed control of 230V motors relay modules eg C HM 0308M Variable speed of 230VAC asynchronous motor embedded C FC 0230X Variable speed of 24 VDC EC motors embedded C FC 0024X Variable speed of 24 VDC EC motors 0 10V control Eg C HM 0308M Variable speed of motors with inverters 0 10V control Eg C HM 0308M Sensors Temperature sensors Eg C HM 0308M Condensation sensors C HM xxxxM CO sensor in interior design C AQ 0001R Servo drives 3 point controlled servo drive 230V or 24V Relay modules eg C HM 0308M Analog 0 10 V controlled servo drive AOUT eg C HM 03308M Damper actuator 1 point control Relay modules eg C HM 0308M Servo drive with protocol MP Bus UC 1203 It is also possible to control the electric heater by 16A relay outputs e g C OR 0008 It is also possible to read inputs from sensors filter etc from the remote control e g manual control of the bathroom etc 36 TXV00416 02 rev ik odt 5 1 Heat recovery system Fan speed control L
49. act represents the idle state 53 TXV00416 02 rev 1k odt Last change 28 7 2011 ALARM TAMPER 7 Nx Z GND Resistance of the loop Idle state iki Activation 2k2 Sabotage 8 1 2 Connecting of security sensor in double balanced loop C IT 0200S CIB CIB 12V GND Fig 8 1 2 1 Example of security sensor here JS 20 by Jablotron sensing by C IT 0200S module If the certified security system is required due to conditions of insurance companies etc you have to choose the security systems e g Paradox on the market equipped with a communication interface to be connected to the Foxtrot system In such case you can involve such security system into the management of the house and reuse the basic information for security purposes also during unlock period E g for lighting control and presence simulation attenuation of heating shutting down Socket circuits etc 54 TXV00416 02 rev 1k odt Last change 28 7 2011 8 2 Fire alarm systems wiring of detectors TBD 55 TXV00416 02 rev 1k odt Last change 28 7 2011 9 User interfaces Communication with the user 9 1 Wall switches flush mounted light control shutters control etc 9 1 1 Wall switches with CIB To control lighting blinds ventilation and similar applications you can use C WS 0200R with one gang and 2 buttons one on top one on bottom and or C WS 0400R with two gangs and 4 buttons Both types of drivers are made in the
50. and sensor is available in customized cover from different manufacturers NTC 12k 61 TXV00416 02 rev 1k odt Last change 28 7 2011 9 2 2 Heating control module RCM2 1 For comfortable very simple and clear way to control heating temperature correction changing heating mode manual fan speed control stepped and proportional to display outdoor temperature and time RCM2 1 module can be used The module is equipped with an internal temperature sensor and allows to connect also an external temperature sensor NTC 12k The module is to be fixed by 2 or 4 screws on the flush box 60 mm of diameter on the wall The module is equipped with a monochromatic display with special symbols CIB CIB NTC 12k teplotn sensor Fig 9 2 2 2 Example of connecting RCM2 1 module including temperature sensor 62 TXV00416 02 rev 1k odt Last change 28 7 2011 9 3 Infrared control The C RI 0401S module as IR code receiver transmitter is available on CIB The module consists of two parts Built in part contains electronics and plug to connect external transmitter receiver light sensor or button The built in part enables to be placed anywhere e g under the cover of devices like air conditioner or so It enables also to install IR receiver and IR transmitter separately on different walls of the same room The built in part can be combined with the upper visible part which is available in Time d
51. ast change 28 7 2011 The figure shows an example of control of heat recovery unit with two fans with EC motors actuator and valve up to three temperature sensors all connected to one module C HM 0308M 3 A4 A5 AG A7 A8 A9 ww oo o 5 a lt 4 x CIB LINE ANALOG DIGITAL INPUTS A OUTPUTS HW ADDRESS 19AE MANUAL CONTROL DO1 DO2 DO4 DO5 DO6 o e C HM 0308M DIGITAL OUTPUTS S tlloellel s VEN 85 B1 B2 B5 8 HHH 5 06 36 0 2 3 1 2 3 1 LM230A LM230A KLAPKOVY POHON KLAPKOVY POHON 1 BODOV RIZENI 3 BODOVE RIZENI 230 37 teplotn sensor 12 teplotn sensor d NTC 12k EC MOTOR VENTILATOR MOTOR VENTILATOR M V 3 24V ov TXV00416 02 rev 1k odt Last change 28 7 2011 5 2 Heat recovery system decentralized ventilation unit inVENTer To power and control up to two independent inVENTer ventilation units the C VT 0102B module was designed The module is fully powered from the CIB bus The maximum output power is 5W During the operation of two fans So the the module loads the CIB like about 5 normal CIB modules The module is equipped with an input for an external temperature sensor for interior or exterior temperature Two in
52. ating mode manual fan speed control stepped and smooth display of outdoor temperature and time Additional features can be programmed on RCM2 1 heating mode indication hot water preparation lighting control etc The module is equipped with an internal temperature sensor and it allows to connect one external sensor as well As option the module can be equipped by SSR output max 60V AC DC 600 mA to control heating or any other load The module consists of two parts The bottom one has terminals the hole for the cables and is to be mounted by 4 or 2 screws on the 60mm flush box The module is designed as a standard unit CIB bus integrated into the environment FoxTool and Mosaic The module is equipped with a monochrome display with special symbols icons They are controlled by the Foxtrot basic module In the Mosaic individual graphic symbols can be controlled individually as well as a numeric value on display 12345678 OCH ir fio 108 20 IDA 103 TXV00416 02 rev 1k odt 15 Literature 1 2 3 4 5 6 7 Designer user manual Tecomat a Tecoreg ord No TXV 001 08 PLC Tecomat Foxtrot manual ord No TXV 004 10 Serial communication of Tecomat manual ord No TXV 004 03 Foxtrot design and installation guide ord No TXV 004 11 Jablotron documentation 104 Last change 28 7 2011
53. bulb incorrectly Replace incandescent light bulbs available with standard light bulbs screw threads 230VAC usually can not be dimmed Tube LED light LED lamp incorrectly Replacement of fluorescent tube for 230 VAC usually can not be dimmed Incandescent bulbs Based on light emmiting which is generated by heating the solid at high temperature Thank you Mr Edison The advantage is simple installation and maintenance the disadvantage is low specific light power Wattage of 25W incandescent bulb is about 9 Im W Disadvantage is also short average life about 1000 hours They can be dimmed easily In EU without perspective Thank you Brusel Halogen bulbs Halogen bulb is filled usually by the mixture of nitrogen and argon krypton or xenon and compounds of them They are made for 230 VAC as well as miniature and special types for low voltage usually 12 VAC DC They have higher efficiency than conventional bulbs but they are expensive and have very little resistance to the surge They can be dimmed easily Fluorescent lamps low pressure lamps They are a popular source of light Approximately 21 of energy supplied is converted into light in fluorescent lamps Their life cycle is 8 12 000 hours For dimming there are used dimmable electronic ballasts Ballasts are controlled by analog signal 0 1 10V or by DALI interface For example see the C DL 0012S Compact fluorescent lamps Sometimes called energy saving lamps the
54. ch is flexible to connect different set of used devices IR light sensing AI DI measuring see table below according to a specific request The second part with the CIB interface is also available as the standalone module C RI 0401S for sensors and transmitter ready for customized placement and wiring This module must be connected to compatible light sensor IR transmitter and receiver and LED indicating the IR operations They are part of delivery 2 dry contacts and external temperature sensor Pt1000 W100 1385 can be connected in similar way as for another modules The connection of wires is shown below QE IR LED IRLED erven SO xX IRRec erven gt A IR RecData ern LED d FL GND co F LS Sed COM erven r AUDIT Seda e AIIDI2 Seda Fig 14 11 1 Terminal wiring of C RI 0401S including color of wires Notes 1 IR receiver IR Rec IR transmitter IR LED jare part of deliverd accesories of C RI 0401S 2 LED black grey wires is regular LED for IR reciving indicacion Anode of LED 3 LSis light sensor input 4 inputs AI DI1 a 2 are universal analog for Pt1000 Ni1000 NTC or for dry contacts 5 ern black Cerven red Seda grey modr blue 99 TXV00416 02 rev ik odt Versions of C RI 0401R Time module according the sensors assembled IR Tx IR Rx light sensor AI DI TXN 133 47 C RI 0401S TXN 133 47 01 C RI
55. commend install external external fuse with nominal value of T3 15L250V for the central module CP 10x0 fully equipped with both CIB branches SELV If the power supply meets the parameters of the source SELV according to EN 60 950 CSN 33 2000 4 41 then all I O circuits meet SELV accordingly Even if the relay outputs switch low voltage circuits it meets the requirement since isolation between relay output and the internal circuits of the system is 4kV AC Power supplies for system Foxtrot recommended above meet parameters of SELV Improvement the reliability of power supplies To ensure trouble free operation even in exceptional situations lightning effects poor quality of power grid or influence of other devices with the recourse to the grid it is recommended for the power supply 230VAC to install suitable surge protection equipment TXV00416 02 rev 1k odt Last change 28 7 2011 2 2 Foxtrot Basic modules The following chapters describe the basic modules CP 1000 and CP 1020 The other Foxtrot basic modules eg CP 1006 etc including the principles of usage and their installation are described in the Foxtrot design and installation guide TXV 004 11 2 2 1 CP 1000 example of powering without backup CP 1000 is the simplest variant of the basic module for home and building installation The basic module is powered from 24 VDC power supply Both branches of CIB on connector B are powered directly over the basic module No other
56. cted via flat cable the second one is for external sensor and can be wired to IN IN CIB CIB geen L CIB yelow CIB CFox blue 4 IN TYPE C RC O white IN Example of already available designs continuously extending for others please call us ABB Tango Alpha nea exclusive Time Element Legrand Galea Galea Life Valena a Cariva Bticino Light Light tech Living a Axolute Schneider Electric Unica Colours Basic Plus Top a Quadro EATON Moeller NIKO Original Intense a Pure Merten Antique Berker 98 TXV00416 02 rev 1k odt Last change 28 7 2011 14 11 C RI 0401R Design C RI 0401R Module C 0401R RI Time is a CIB flush mounted multipurpose module in the interior design The module contains 2 universal inputs AI DI1 and AI DI2 which can be connected to either a resistive temperature sensor or can be used for dry contacts It also includes an input for light sensor as well as for receiver and transmitter of IR infra red signal C 0401R RI Design is composed of two parts The first upper part is the user interface to be mounted on the wall and is available in different interior designs from different manufacturers white Time by ABB is a standard The second part is a module to be placed in the flush box under the upper part and it allows to connect two CIB wires Both parts are interconnected by a flat cable The second part is also available as C RI 0401R standing alone module whi
57. ctronic ballasts 58 TXV00416 02 rev 1k odt Last change 28 7 2011 9 1 4 Wall switch GIRA 2003 xx coupled to CIB over C IT 0504S module The wall switch GIRA 2001xx part of the SYSTEM 55 design has 2 dry contacts 24VAC DC and 2 LED 24VDC 1mA under 1 gang It can be connected to CIB over the C IT 0504S module placed under the upper part In such case this combination makes full CIB wall switch with LED indicators Still we have another 3 inputs for room or floor temperature etc C IT 0504S teplotn sensor Fig 9 1 4 1 Example of GIRA 2001xx wall switch connection to CIB via C IT 0504S module together with temperature sensor Notes 1 Analog outputs of C IT 0504S can give max 10V 3mA LED indicators of GIRA 2001xx driven by those analog outputs light normally Analog outputs must be handled as digital It means switched among 0 and 100 2 C IT 0504S has 100mm wire outlets which can be directly inserted into GIRA 2001xx connector The colors of wires and other detail are in chapter 59 TXV00416 02 rev 1k odt Last change 28 7 2011 9 1 5 Wall switches coupled to CIB over the DIN rail modules in the cabinet In the case you need to use other interior design of wall switches buttons you can choose practically any switch from any manufacturer and couple it to the CIB over any module with digital inputs for dry contacts For the installation where all modules will be placed in the central cabinet the C HM 1113 and or
58. dule consist of display for temperature 3 buttons for setting of temperature and mode LED indicator and embedded temperature sensor and terminal for external temperature sensor Such modules are available in various designs compatible with wall switches The module consists of two parts Built in part contains electronics with the 4wire outlets to connect CIB and external temperature sensor It contains the plug connector to insert the cable comming from the upper part The upper part is a customized design cover installed on the wall with a display buttons LEDs and visible temperature sensor Cable length is 70 mm with connector External temperature sensor NTC 12 kOhm to 100kOhm or NTC is for example for measuring floor temperature C RC 0002R design VESTAVNY MODUL KRYT V DESIGNU S displejem CIB CIB teplotni sensor Notes 1 External temperature sensor must be 12k NTC and other NTC with the resistance lt 100kOhm the length of cable can be up to tens of meters typical usage is floor sensor Recommended cable is SYKFY 1x2 or similar with diameter at least 0 5 mm 2 The module is designed as a small embedded module into a standard flush box KU68 the module is completed by four wires of length about 10 cm for CIB and for external temperature sensor and plug connector into which the cable is inserted from the upper part of the module 3 The upper part with the display buttons LED
59. e advisable to use balanced loop Balanced loop It can be used mostly where more detectors are wired in one loop So the contacts are wired in series Wiring is simple and transparent The disadvantage of this case are more detectors in the series so the exact place of activated element cannot be determined exactly Contacts TAMPER and ALARM are always normally closed so NC closed contact represents the idle state ALARM TAMPER 2k2 y INx 4 GND Resistance of the loop Idle status 2k2 Activation 0 Or Double balanced loop Each security detector usually gives two piece of information ALARM Activation like motion open the door and TAMPER disruption of the cover sabotage Using two values of resistance idle state and activation can be indicated Idle state is determined by baseline resistance activation is determined by doubling this value Short circuit or open loop is seen as loop sabotage or opening of the cover There is tolerance range of resistance value about 10 not to cause the wrong alarm due to resistance fluctuations by temperature If the security panel has sufficient amount of wire loops it is advantage to connect each detector to a separate loop The loop is then able to indicate both the activation as well as sabotage of the loop or the detector Connecting more detectors to a double balanced loop the wiring is more complicated Since TAMPER and ALARM contacts are always normally closed the closed cont
60. e Foxtrot including all remote management tools supervision and service In a similar way you can control also heat pumps which do not have intelligent communication with the control system of the house The room thermostat input can be used to master the heat pump Boilers equipped with Open Therm interface can be controlled using the UC 1204 module Example of connection to the Thermona boiler equipped by IUO5 interface including connection principles is documented in 4 4 7 Heating Heating pumps Heat pumps equipped with a communication interface can communicate with Foxtrot usually by the same interface In case of heat pump driven by Foxtrot as an inherent part of heat pump it can be connected to an intelligent home control system via Ethernet It can also be used for better control and sharing parameters E g it is possible to add the setting parameters of heat pump to the website of the house and handle all as one entity The data transfer between the heating pump and Foxtrot managing the whole house must be coordinated with the heat pump supplier or manufacturer 35 TXV00416 02 rev 1k odt Last change 28 7 2011 5 Ventilation Ventilation and heat recovery units are supplied with its own controller which often can not be integrated into building management system It is therefore preferable to control ventilation units with the heat recovery directly by Foxtrot Foxtrot is equipped with a range of input output modules suit
61. e of DA2 22M connection 47 TXV00416 02 rev 1k odt Last change 28 7 2011 6 8 Dimming Incandescent lamps LM2 11B dimmer for flush box or DA2 22M double dimmer for DIN rail can be used for dimming 230VAC incandescent lamps Both they allow switching and dimming of RLC loads resistive inductive and capacitive They support auto detection of the load Note It is not permitted simultaneous connection of inductive loads and capacitive load It is also necessary to protect the L input by the fuse with F characteristics and it must be rated according to the connected load Dimmers LM2 11B and DA2 22M also have digital inputs 230 V AC which can be used for local control Following figure shows connection of inputs and outputs dimmer DA2 22M CIB CIB AB A9 RK 81 DA2 22M RUN 230 VAC Fig 6 8 1 Direct connection of dimmed incandescent lamps to DA2 22M module 48 TXV00416 02 rev 1k odt Last change 28 7 2011 6 9 Dimming DMX512 control DMX512 is a serial protocol to control devices such as light dimmers lasers and other special effects using digital interface The protocol is maintained by ESTA Entertainment Services and Technology Association since 1998 Multidrop topology of the bus contains one control station master and more controlled slave devices DMX512 uses the RS485 interface so the topology of the bus is line and the last station has to be terminated by 120
62. e power supply and CIB over analog input of the drive CIB bus and power supply 24 VAC must have strong wires and be installed together 4 For the bigger cable length like tens meters the motorized CIB drives or two position drives should be used 27 TXV00416 02 rev 1k odt Last change 28 7 2011 4 1 4 Alpha AA 5004 two position drive controlled by RCM2 1 The RCM2 1 has one SSR Solid State Relay output which enables direct control of the valve drive Alpha AA powered by 24V AC DC Max current is 600mA The output has galvanic isolation from other circuits of RCM 1 CIB4 CIB 24 VAC 24 E Fig 4 1 4 1 Example of two position drive of radiator valve controlled by RCM2 1 Notes 1 The SSR output is only for low safe voltage of 24VAC DC The output load can have any polarity It is possible to use SSR output in the same way as the relay contact 2 To switch bigger load than 600mA e g more drives SSR can control standard auxiliary relay mounted in the flush box which can switch bigger load 28 TXV00416 02 rev 1k odt Last change 28 7 2011 4 2 Underfloor heating hot water Usually two position drives located in the splitter can be switched by several types of modules It depends on the number of branches and or on other requirements for measurement and control Example of control of a 6 splitter actuators is on the following figure It is possible to place the C HM 0308 along the sp
63. e shielded type like JYSTY 1x2x0 8 is recommended Shield should be connected on MR 0158 side to the protective earth PE 78 TXV00416 02 rev 1k odt Last change 28 7 2011 11 9 Water level measurement In Foxtrot system large number of level sensors can be used for analog measuring or limit monitoring of water in wells in tanks for rain water or in pools 11 9 1 Water level continuous measurement in the well or in tank For continuous level measurement of non aggressive liquids in non pressure tanks boreholes wells pools etc it is suitable to use hydrostatic level meter such as HLM 25S by Dinel The height of liquid column up to 100 m can be measured by HLM 25S It is approved for usage for a drinking water and is equipped with surge protection inside the probe The sensor can hang in a tank on cable Cable is equipped with a capillary to compensate the hydrostatic pressure and with two wire of measuring and supplying current loop 4 20 mA An example of connection to the module 02001 is below 17 02001 hydrostaticky hladinom r M 25S Fig 11 9 1 1 Connecting the level meter HLM 25S to 02001 to read level over CIB Notes 1 Installation of level meter is done by dropping the probe into the measured area tank well The probe can hang on the cable or it can lay at the bottom 2 The cable contains capillary buffer so it is necessary to take care about the proper connection to the extension cable
64. e temperature sensor and window contact can be connected at the same time 25 TXV00416 02 rev 1k odt Last change 28 7 2011 4 1 2 Alpha AA Two position drive controlled by relay output To switch this drive any relay output in the system can be used The typical consumption of the drive is about 3W when energized As a local switch of drive C IR 0202S module is suitable Equipped with the 3A and relatively quiet relay and with 2 general purpose inputs for temperature and window sensors it is smart solution Be careful about the noise of relay switching in the bedroom Any relay output like outputs on the C HM 1113 etc can be used to switch the two position drive from the centralized cabinet C IR 0202S L N 230 VAC HLAVICE 230 VA Fig 4 1 2 1 Connection example of two position drives for radiator valves Notes 1 Alpha AA drives 230 VAC i 24 VDC AC have the continuous consumption about 1 8 W Power supply and circuit protection must be dimensioned for peak current during switch on up to 300 mA per one drive for up to 2 minutes Also other electrically controlled actuators of most manufacturers have similar consumption mA for Basic parameters of the two position drives Alpha AA AA 2004 230 V NC 230 V AC 10 10 Normally closed 300 AA 2104 230 V NO 50 60 Hz Normally open max 200 ms PIRA AA 4004 24V NC 24V AC 20 10 Normally closed 250 mA for
65. e to be connected between IN1 or IN2 and GND The resistance is converted to a numerical value of temperature and transferred to the central unit over the CIB For another type of RTD resistance measuring range can be selected from 0 to 160 k In such case the conversion to temperature and linearisation must be done at the application program level R 0 160kQ n low voltage balanced CIB cca 100 mm NTC12k KTY81 121 PT1000 Ni1000 93 TXV00416 02 rev 1k odt Last change 28 7 2011 14 6 C IR 0202S Module C IT 0200S is designed to connect two temperature sensors or dry contacts as well as the relay contact and the analog output 0 10V directly to the installation bus CIB Sensors contacts and loads are connected by flat cable To measure the temperature the resistive sensor PT1000 or Ni1000 thermistor NTC12k or KTY81 121 are to be connected between IN1 or IN2 and GND The resistance is converted to a numerical value of temperature and transferred to the central unit over the CIB For another type of RTD resistance measuring range can be selected from 0 to 160 k In such case the conversion to temperature and linearisation must be done at the application program level The dry contacts are to be connected between IN1 IN2 and GND Analog output 0 10V is available between OUT2 and GND Relay contact NO normally open is available at the separated wires with higher insulation max 16mm
66. ead 68 TXV00416 02 rev 1k odt Last change 28 7 2011 11 Metering energy and non electric values 11 1 Electric energy measurement by pulses To measure the energy costs eg monitoring the consumption of heat pumps can be used any meter with SO output Example of connecting the SO output of one phase meter ED 11 M to C AM 0400M is on figure below CIB LINE ANALOG DIGITAL IN AI1 Al2 AI3 Al4 HW ADDRESS 19AE 22007 C AM 0400M ANALOG DIGITAL INPUTS 230 VAC vystup XXXXXX K1 RTD2 RTD3 230 VAC vstup Fig 11 1 1 Example of reading SO output of ED 11 M meter by C AM 0400M module 69 TXV00416 02 rev 1k odt Last change 28 7 2011 11 2 Electric energy measurement by reading data by optical head EN 62056 21 Optical interface TXN 149 01 also optical head is designed for reading and communicating with the meter HDO ripple control and other devices via standardized optical interface The probe converts bidirectional optical signals of LED into serial port RS 232 RxD and TxD Its main purpose is to facilitate communication with energy meters ripple control receivers or other devices equipped with an optical interface according to standard EN 62056 21 The probe includes a galvanic isolation of transmitter and receiver The probe has a built in toroidal magnet which allows the removable attachment to the surface of meter and the centering o
67. ecessary to fix the termination impedance Completing can be done by KB 0290 TXN 102 90 1200 connected between the terminals TCL2 and TCL2 The terminator is a part of Tecomat Foxtrot delivery If the communication line Termination has to be always done at the most remote module on the whole line in case of multiple modules on TCL2 Module power supply RFox master requires 24VDC to be supplied It can be used the same power supply for both basic module and for external RFox master Internal RFox master is supplied directly from the internal circuits of the basic module RFox antenna To enable the access to wireless RFox network the screw type antenna with SMA coaxial connector should be used The small antenna fixed on the module can be used Also the external antenna with the connector on the cable can be used This second one enables to place the antenna outside the metallic cabinet and also to find the best place for radio waves 3 2 4 RFox router R RT 2305W R RT 2305W is one purpose router which increases the range of access of RFox network by means of the mesh topology Router is a plug in version for 230VAC power outlet and has one green LED indicator The router provides receiving the RF packet and its subsequent RF packet forwarding on In one RFox network under one RFox master you can use a maximum of 4 routers The router form factor of an adapter into an outlet 230VAC and besides the plug has no other connections 22 TXV
68. er and up to 64 slaves peripheral I O modules Master of the network can be implemented as an external DIN rail mounted module connected by TCL2 system bus Wireless peripheral modules are available in different form factor for the interior for mounting on DIN rail in cabinets hand held remote controls 3 2 1 RFox basic characteristics RFox network is designed to be compliant with the ERC Recommendations mentioned above The system is designed not to increase the load of the environment by the additional radio wave operations Transmit power is about 3 5 mW maximum allowed is 25 mW and the system is designed to minimize radio operations to a minimum time It uses low power to achieve higher battery life cycle of battery powered modules Minimal transmitting power also eliminates an impact on human health Standard system configuration satisfies the maximum 1 duty cycle although due to the implementation of the LBT listen before talking the duty cycle is not limited It uses the multichannel operations and there are 8 channels as a standard available in the frequency range g1 868 000 to 868 600 MHz according to general authorization 3 2 2 RFox functions configurations properties Communication among RFox master and RFox slave is supported for star and mesh topology Star topology means the direct wireless access between master and slave master always communicates with all slaves directly y e a X
69. esign by ABB as a standard All other designs can be customized according the order 63 TXV00416 02 rev 1k odt Last change 28 7 2011 9 3 1 IR transmitter and receiver C RI 0401R Time with the design on the wall Module C 0401R RI Time contains IR transmitter and receiver Both are designed to sense and generate signals to control different types of devices such as air conditioning units It can learn the IR commands of different IR remote controls save it and release again under control of Foxtrot It can be used for Air conditioners audio video devices and others with IR control 64 TXV00416 02 rev 1k odt Last change 28 7 2011 10 Temperature measuring Various temperature like outdoor indoor in pipeline etc can be measured by wide range of modules of CFox wired and RFox wireless system To help to understand all variants the overview table of modules and plug types of temperature sensors as well as other analog values can be found below RANGE MODULE Pt1000 Ni1000 NTC 12k NTC 5 15k KTY 81 121 0 20 mA 0 10V Termocouples Condensation RTD 0 600 RTD 0 6 MO DI dry contact Balanced inputs C IT 0200R C IT 0200S C IR 0202S C IT 0504S C IT 0908S C RC 0002R RCM2 1 C IT 0200I C IT 0100H C HM 0308M C HM 1113M C HM 1121M C HC 0201F E C W S 0200R C W S 0400R C FC 0024X C VT 0102B C AM 0400M C AM 0600I C RI 0401 R IT 0100R R IT 0100H A R RC 0001R R HC 0
70. f the optical interface location The optical probe is to be connected to the serial port of Foxtrot by the cable with separated wires The interface is connected to screw terminals RS 232 basic module TECOMAT For more information on communication channels Foxtrot see the documentation 4 Probe TXN 149 01 PLC Foxtrot Terminal on CH1 ignal green A8 TxD bue GND B 70 TXV00416 02 rev 1k odt Last change 28 7 2011 11 3 Heat and flow measurement To measure the heat eg heat produced by the solar system flow meters with integrated temperature sensors can be used Standard water meters for cold or hot water with the pulse output can be used It is possible connect the pulse outputs to inputs of C AM 0400M or C AM 0600I These water meter pulses should be completed by two temperatures output and return to have all values to calculate heat delivery as a part of application program Such water meters can also be used for flow measurement eg monitoring of leaking water at the weekend house or so The AV 23 flow meter with simultaneous temperature measurement of media can be connected to C AM 0600I The second temperature sensor has to complete the system in order to calculate heat consumption This flow meter has no moving parts so the advantage is in greater range of temperatures and viscosity media making it suitable for the primary circuit of solar system 71 TXV00416 02 rev 1k odt Last change 28 7 2011 11
71. l typically fluorescent ballasts etc the protocol converter CIB DALI C DL 0012S was designed It is ready to control devices with DALI protocol according to specifications NEMA Standards Publication 243 2004 Digital Addressable Lighting Interface DALT Control Devices Protocol PART 2 2004 CIB and DALI signals are connected via terminated color cables Supplying of module comes from the CIB The module does not provide galvanic isolation of CIB and DALI Module C DL 0012S allows to control independently up to 12 DALI ballasts on one DALI bus C DL 0012S DIMMING DIMMING DIMMING BALLAST BALLAST BALLAST LAMP 1 LAMP 2 4 LAMP 12 Fig 6 5 1 Example of C DL 0012S connection to control DALI dimming ballasts Notes 1 For DALI standard cable with 5 x 1 5 mm should be used together with power cable of 230VAC The total cable length is up to 300m Topology of DALI can be linear tree or star 2 DALI bus is not polarized so you can swap the two signal conductors of the DALI slave elements The bus need not to be terminated by any element DALI bus has galvanic isolation from the operating voltage 230VAC meets SELV requirements 45 TXV00416 02 rev 1k odt Last change 28 7 2011 6 6 Dimming Fluorescent lights and compact fluorescent lamps To control the electronic ballasts of fluorescent lights by 0 10V or 1 10V voltage the C IR 0202S module can be used The module has one relay output for switching on off the power to av
72. l control of fan motor speed 0 10096 Thus the smooth air flow cooling and heating is enabled teplotn sensor e ITC 12k teplotn sensor jai S 1 A2 4 5 zlzzlse 5 lt lt 1 CIB LINE ANALOG DIGITAL INPUTS OUTPUTS HW ADDRESS 19AE MANUAL CONTROL DO2 DOS DO4 DOS DOG C HM 0308M ITAL OUTPUTS 230 VAC L N PE FAN COIL FCXi AERMEC Fig 4 5 1 1 Example of connection of FCXI fan coil by AERMEC Notes 1 For 2 pipe fan coil unit FCXI only the valve actuator is connected to terminals 3 and 4 is controlled 2 For 4 pipe fan coil unit the heating actuator is on terminals 3 4 the cooling terminal is on terminals 1 2 drives are powered from 230 VAC 34 TXV00416 02 rev 1k odt Last change 28 7 2011 4 6 Heating Boilers Boilers for gas automatic pellet automatic coal etc can be controlled by any relay output in the system Foxtrot In the more complicated set of heat sources it is recommended to limit or to avoid the own intelligence of the boiler like ekviterm heating curve etc The optimal control algorithm of the boiler should be discussed with the specialist and should be integrated in the Foxtrot system This allows you to set to change to monitor the behavior of the whole system directly in th
73. litter CIB CIB LINE ANALOG DIGITAL INPUTS A OUTPUTS HW ADDRESS 19AE MANUAL CONTROL 002 DO4 DOS C HM 0308M DIGITAL OUTPUTS a e e Q o o o o ljal o B1 2 B5 o a N 230 VAC HLAVICE 230 VAC 6x HLAVICE S VENTILEM V ROZD LOVACI Fig 4 2 1 Example of hot water underfloor heating with 6 valves for 6 branches The C HM 0308M module is used 29 TXV00416 02 rev 1k odt Last change 28 7 2011 4 3 Underfloor heating electrical Heating cables or heating mats must be switched by relay outputs according to the switched current The relays of C OR 0202B for flush mounting can be used with the possibility of simultaneous measuring of floor temperature Also the C OR 0008 can be used to switch up to 8 branches It can be placed in the distribution cabinet next to circuit breakers for individual heating branches Also RFox wireless module R OR 0008M can be used powered by 24VDC from power supply DR 15 24 For wireless control RFox network must be installed M A5 A7 AB 9 B2 B3 B4 BS B6 B7 B8 B9 B 2laele 5 545 SJ SNS amp 8 2352 8 252 DIGITAL OUTPUTS M
74. me Besides the communication over 2 wires CIB bus enables to power all connected modules The care must be taken only about the max voltage drop along the wires so the voltage on the most remote module should be within recommended tolerances Rated voltage of the CIB bus with backup 27 2 VDC 10 25 Rated voltage of the CIB bus without backup 24 VDC 25 15 Topology Arbitrary Max distance between master and most remote slave about500m Max length of one branch is mostly limited by the voltage drop along the cable Also at the most remote module there must be voltage within the tolerances seen above For the CIB wiring can be used any 2 wire or more cables However it is recommended as a good practice to use the shielded twisted pairs with the wire diameter 0 6mm at least the optimum is 0 8 mm with the resistance of the wire approx 7 Q 100 m e g J Y St Y1x2x0 8 or YCYM 2x2x0 8 The cross section and topology has to be designed primarily with respect to voltage drops in cables according to amount of CFox modules Basic rules for CIB installation CIB bus enables arbitrary topology line star tree Only avoid to enclose the circle tis recommended to minimize the parallel layout of CIB and power cables with 230VAC as a good practice It depends on the real possibilities at the site But no special requirements and limitation for it is not set Forlarger installations the voltage drop
75. mend a DR 60 24 stabilized power supply of 24 VDC complying SELV Power consumption of CP 1000 is the sum of its own power typically 3W and the total wattage of all connected modules CFox on both of CIB branches 2 Onterminal B there is the output of both powered CIB branches for a maximum current of 1 A for each branch 3 Inputs to AI DIO up to AI DI3 are 4 universal inputs for dry contacts or temperature sensor NTC Pt1000 Ni1000 4 IN 230 VAC input terminals F1 and F2 is designed for monitoring the presence of 230V mains directly on the grid It is a standard 230VAC input galvanic isolated 5 HDO input terminals F4 and F5 is for connection of the tariffication signal coming from the grid This input is tolerant to many failures of the power grid even to installation mistakes 6 DOO and DO1 outputs are standard electromechanical relay the contact electrically isolated from other circuits TXV00416 02 rev 1k odt Last change 28 7 2011 2 2 2 CP 1020 example of backup powering The CP 1020 basic module on the contrary to CP 1000 is equipped with an internal master of RFox network Together with 2 x32 peripheral modules on the two branches CIB bus you can directly connect up the 64 RFox peripheral elements on the basic module Antenna output is on the front panel as SMA connector The antenna has to be placed according to the best RF coverage of the desired amount and placement of all RFox modules You can use either a shor
76. n layer according to standard CEN TC 176 The bus is realized by two wires from which the meter can be powered and communication can be provided Meters are connected in parallel way on the bus regardless of the polarity connection since most of meters do not take care about the polarity see connection requirement of the meter manufacturer the topology is the bus length up to 4 km the maximum number of meters connected to the bus is 250 Each meter has a unique network address Max communication speed is 38400 baud The limitation is due to cable length and to number of connected meters The idle status of the bus corresponds with the voltage of 36 V DC Master in our case the SX 1181 module transmits data by changing voltage between 36 24 VDC Slave heat meter is acknowledging and answering by the change of current consumption between 1 5 20 mA in the idle state it takes 1 5 mA according to standard The voltage and current on the bus is outlined in Figure 11 7 1 ark Space Nap tina sb rnici aster TERI TER C A Proudov odb r od Slave Fig 11 7 1 M Bus timing and levels The modules providing conversion to M Bus interface are divided by the M Bus User Group into several categories Module SX 1181 corresponds to the middle category of converters Example of M bus module wiring to the basic Foxtrot is shown below The serial port CH1 with RS232 interface is connected to module SX 1181 If he mod
77. n mistakes DOO and DO1 outputs are standard electromechanical relay the contact electrically isolated from other circuits 10 TXV00416 02 rev 1k odt Last change 28 7 2011 3 CIB bus RFox network TCL2 bus 3 1 the principles of design and installation CIB bus enables to connect CFox peripheral modules to the Foxtrot basic module CFox modules are intended for building and home automation for HVAC etc but they can be used in any application as a standard I O respecting their characteristics CIB bus is master slave One CIB master enables to connect max 32 slave modules CP 1000 and CP 1020 has 2 embedded and powered CIB masters Other basic modules CP 10x4 CP 10x5 CP 10x6 and CP 10x8 have only one CIB master More CIB slaves can be connected via external CIB masters CF 1141 Each CF 1141 contains 2 powered CIB masters for 2x 32 CIB slave modules Max 4 CF 1141 modules so totally 8 CIB masters can be connected to one Foxtrot basic module CF 1141 modules have to be connected via TCL2 system bus See chap 3 3 3 1 1 CIB characteristics CIB Common Installation Bus is 2 wire bus with arbitrary topology The communication is modulated and superimposed on the DC supply voltage CIB bus can be powered by the standard power supply 27 2VDC or 24VDC coupled by the couplers embedded in basic modules CP 1000 1020 in CF 1141 or by standing alone coupler C BS 0001M Such power supply can supply the basic module at the same ti
78. n the application program according to specific engines and controlled shading elements 7 1 Control of 230V motors for outdoor shutters awnings etc To control motors with reversing 230VAC coil similarly to the 3 position actuators for valves and dampers and to avoid the simultaneous presence of control voltage on both relay outputs we recommend external connecting of relay contacts NC1 and DO2 as on picture below CIB CIB C OR 0202B ZALUZIE SERVO CIB CIB Ala RUN 001 002 ole OVLADAC 230 VAC Y ALUZIE Fig 7 1 1 Example of shutter motor control by C OR 0202B module Notes 1 Relay outputs with mutual interlocking of both outputs when DO1 switches on the motor goes up DO2 switches on the motor goes down If both DO1 and DO2 switch on the motor stops 2 Relay contacts on C OR 0202B allows 80A of peak current so they can overcome short current peaks during closing and opening of contacts 3 Due to power of motors for shading elements the control and power cable with cross section section 1 5 mm2 fully complies 4 Two universal inputs AT1 AI2 can be used either for buttons for manual control 5 Itis possible to place the module into deep flush box or into flush box with side space or just under the mechanical wall switch 50 TXV00416 02 rev 1k odt Last change 28 7 2011 C OR 0008M module can be used to control the shutters from the central cabinet ZALUZIE SERVO
79. ned function as the push of the button or by time schedule 20 TXV00416 02 rev 1k odt Last change 28 7 2011 3 2 3 RFox master RF 1131 RFox master implements the wireless communication with peripheral modules and transmits the data via TCL2 system bus to the Foxtrot basic module Master is available in two variants Either as an internal part of Foxtrot basic modules CP 102x and CP 103x and referred internally as RF 1130 or as an external peripheral module on TCL2 referred as RF 1131 We recommend to use external master since it gives much better result concerning the distance of access One RFox master can handle up to 64 peripheral RF modules The Foxtrot basic module can control one up to 4 external masters RFox together 256 wireless modules Fig 3 2 3 1 Connection of terminals of RFox master RF 1131 External master RF 1131 is to be connected to the PLC via TCL2 system bus on the A1 to A3 TC terminals referred as TCL2 21 TXV00416 02 rev ik odt Last change 28 7 2011 Zakon ovac len KB 0290 m L A1 A2 A4 A5 A6 A7 A8 AQ LE 6 aga Qo TE id PLC Tecomat Foxtrot RF 1131 Fig 3 2 3 2 Connection RF 1131 module to PLC TECOMAT Foxtrot At the PLC side the TCL2 bus has the impedance terminal inside the PLC On the side of the RF 1131 module is n
80. o MR 0158 so the terminals have different signals for different sub modules See the following pictures CP 10x6 CP 10x8 MERIC TEPLA nap ALMESS MERIC TEPLA ALMESS MERIC TEPLA ALMESS Fig 11 8 1 Connecting the M Bus meters to CP 10x6 CP 10x8 to SCH2 interface with inserted MR 0158 sub module Notes 1 Max 20 meters can be connected to MR 0158 interface sub module 2 Max M Bus cable length is 350 m as standard If the max voltage drop is 0 5V at each wire up to 4 km line can be reached 3 The recommended cable is a standard telephone type with wire diameter 0 8 mm The shielded type like JYSTY 1x2x0 8 is recommended Shield should be connected on MR 0158 side to the protective earth PE 77 TXV00416 02 rev 1k odt Last change 28 7 2011 CP 10x0 CP 10x4 CP 10x5 az 20 m i Xu A s Ne X o4 M RIC TEPLA ALMESS MERIC TEPLA nap ALMESS MERIC TEPLA nap ALMESS Fig 11 8 2 Connecting the M Bus meters to CP 10x0 CP 10x4 CP 10x5 to SCH2 interface with inserted MR 0158 sub module Notes 1 Max 20 meters can be connected to MR 0158 interface sub module 2 Max M Bus cable length is 350 m as standard If the max voltage drop is 0 5V at each wire up to 4 km line can be reached 3 The recommended cable is a standard telephone type with wire diameter 0 8 mm Th
81. oid the consumption during idle period and has analog output to control the brightness It can be fitted directly into the lights or wired in flush box Any other module with both relay and analog output can be used for the same purpose as well E g module C HM xxxxM for DIN rail C IR 0202S r ap N 230 VAC DIMMING BALLAST HELVAR EL1x21sc LAMP Fig 6 6 1 Example of 1 10V ballast controlled by C IR 0202S 46 TXV00416 02 rev 1k odt Last change 28 7 2011 6 7 Dimming Low voltage lights with inductive and electronic transformers LM2 11B dimmer for flush box or DA2 22M double dimmer for DIN rail can be used for dimming low voltage lamps powered by inductive or electronic transformers Both they allow to switching and to dim RLC loads resistive inductive and capacitive They support auto detection of the load type Note It is not permitted simultaneous connection of inductive loads and capacitive load It is also necessary to protect the L input by the fuse with F characteristics and it must be rated according to the connected load Dimmers LM2 11B and DA2 22M also have digital inputs 230 V AC which can be used for local control Following figure shows connection of inputs and outputs dimmer DA2 22M CIB CIB swi Oou2 swz DIGITAL OUTPUT L N 230 VAC 12V 50W 230 V 12V B E B H1 Fig 6 7 1 Exampl
82. onfiguration and regular operation of CIB peripheral modules Also it provides the data handling and data transfer to Foxtrot over the TCL2 system bus see chap 3 3 Max 4x CF 1141 can be connected to one Foxtrot basic module each for 2x CIB masters Configuration of CF 1141 can be done either from the free programming tool MOSAIC or from parametrization SW FoxTool Master module provides also the auto diagnostics which enable to analyze the status of module communication statistics etc CF 1141 has also the terminals for direct connection of backup accumulator It simplifies the wiring of the backup system which can supply the CIB master as well as all peripheral modules on the CIB bus during the fail of mains All inputs and outputs are protected against the short circuit by the reversible electronic fuse The front panel contains one two color LED indicator The green indicates the bus operations the red one indicates the failure of the module There is also the rotary encoder to set the module address on the TCL2 system bus The master module is supplied either from 24VDC or 27 2VDC in case of backup It contains the circuits to couple CIB to the standard power supply No additional coupling modules are necessary in this case The power consumption of the master module is sum of its own consumption and the consumptions of all slave modules on the both CIB branches The same rules for the choice of the power supply can be used also for CF
83. owered CIB branches on terminal B for a maximum current of 1 for each branch 3 The backup accumulators should be encapsulated lead acid type with the capacity from 7Ah up to 28 Ah The capacity is calculated from the total consumption and the period which the system should be backup 4 In case of current presence of both CF 114 and the Foxtrot basic module the backup output A8 A9 terminals can be used to power both of that modules Backup accumulator is connected only to CF 1141 15 TXV00416 02 rev 1k odt Last change 28 7 2011 3 1 4 CIB coupling to the power supply C BS 0001M coupler The coupler C BS 0001M enables the proper coupling of the the power supply to CIB separating the communication pulses of all CFox modules from the power supply Module is available in the 1M box for DIN rail mounting On the front panel the green LED indicates right voltage on the module output The output is protected by the reversible electronic fuse against the short circuit on the CIB C BS 0001M is designed to exceed the power of internal coupler in the CP 10x4 10x5 10x6 10x8 basic modules They have limited capacity to power full loaded CIB or for older Foxtrot basic modules which have no coupler inside Maximum current for CIB powering from this module is 1A For this load the power supply has to be dimensioned 16 TXV00416 02 rev 1k odt Last change 28 7 2011 3 1 5 CIB surge protection DTNVEM 1 CIB and DTNVE 1 CIB In case the C
84. ox modules on CIB RFox modules are also available in different housings for DIN rail powered by 230VAC or 24VDC for flush box powered by battery or 230VAC in interior housing and in IP65 housing Detailed descriptions of RFox modules are shown in following chapters TCL2 bus It is the system bus of PLC There is not so wide range of types of peripheral modules The bus has to be wired strictly as linear line and it has other strict requirements for installation Detailed description of the TCL2 bus is in the TXV 004 11 manual Peripheral modules on the TCL2 bus are available only for DIN rail installation In building control installations this bus is often used to connect external master modules CFox CF 1141 and RFox RF 1131 or some communication modules like Open Therm and MP Bus Input and output modules connected via any bus above are equal from the point of programming parametrization and configuration Only RFox modules powered from batteries has slight differences like longer period of refresh of the new value measuring the battery status To switch the light it is not important if the light is connected to the relay output of CFox RFox TCL2 module or directly to the relay on the basic module Apart the initial configuration the programmer need not take care about which relay is used TXV00416 02 rev 1k odt Last change 28 7 2011 2 Power supply Foxtrot basic modules 2 1 Power supply System Foxtrot and the C
85. s along the whole installation has to be checked to eliminate the voltage below the tolerance at each CIB module The galvanic isolation of inputs and outputs in each module should be taken into account during the installation Only modules declared for 230VAC usage have safe galvanic isolation always CIB installation has to be designed always with respect to SELV or PELV safety requirements Basic rules for shielded cable usage shield of the internal and external wires in the cabinet has be connected only at one side and to the main protective earth PE of the cabinet together with the earth rack of the cabinet At the metallic cabinet the shield of the external cables are to be connected at the entry into the cabinet directly to the metallic case 11 TXV00416 02 rev 1k odt Last change 28 7 2011 At the plastic cabinet the shield of the external cables are to be connected as close as possible at the entry into the cabinet directly to the base metallic mounting plate The shield is connected by cross section as large as possible directly to the grounded areas of cabinet base plate etc In case of using terminals the unraveled and then twisted shield should be used The shield cannot be connected using extension wires N Fig 3 1 1 1 Example of the shield wiring in the cabinet Variants a b The shield of the incoming cable is connected with the ground using the special metallic
86. s done with CIB inside the house The main part of the installation is located inside of the protected object and its protection is implemented on the system power supply 230 V protection covers the entire application a central unit and bus unit Part of the units Q are located in an adjacent building garage which leads the CIB bus cable laying in the ground It is necessary to install protection always at entry point into the building So that both parts of the installation are protected against ingress of over voltage which may occur in the cables in the ground One unit is located under the roof eg wind speed meter CIB wiring goes along the lightning rod mounted outside on the perimeter wall Suitable place for surge protection is on the end of parallel layout with the lightning rod The unit is unprotected but the rest of the application is protected properly BLESKOSVOD CENTRAL UNIT DTNVEM 1 CIB CIB OUTPUT DTNVEM 1 DTNVEM 1 CIB Fig 3 1 5 2 Typical protection variants by DTNV 1 CIB 18 TXV00416 02 rev 1k odt Last change 28 7 2011 3 2 RFox principles of design and installation RFox is wireless mesh network operating like a bus It is operated in accordance with the RECOMMENDATION 70 03 RELATING TO THE USE OF SHORT RANGE DEVICES SRD For operations in unlicensed radio band 868 MHz no additional permission is required RFox bus is always composed of one mast
87. s of hot water panel radiators These drives are powered directly from the CIB bus They use the motor with proportional 0 100 setting of the valve position C HC 0101F has an extremely low power consumption about 0 6 W during the positioning It is mechanically identical with the RFox drive R HC 0101F C HC 0201F E is a smaller drive the positioning takes more power then the previous one It allows connect 2 external sensors eg Temperature and window contact In case of wireless installation the battery powered valve RFox R HC 0101F should be used This drive is powered by one or two AA batteries 3 6 V Other possibility is to use standard electrically controlled on off drives and switch them by relay outputs or by analog output 0 10V The 24VDC voltage level for control is preferable due to the electrical safety access of children The disadvantage of this version is the necessity to install wires for 24VDC power The 230VAC is available practically everywhere and no 24VDC has to be wired The proportional controlled valves 0 10V enable better feedback control but the price is rather high Alpha AA drives are recommended These drives have large range of adapters for standard and less standard radiator valves on the market They have smart design and several versions of control The list of drives available AA Alpha 230 NC 230VAC powered normally closed AA Alpha 230 NO 230VAC powered normally open Alpha AA 24V DC AC NC 24 VDC AC
88. t RTD NTC OV 4 7 kQ impedance 0 10V 0 5V 2 2V 1 1V 54 6 kQ TC HI 1 1V HI 100mV 100mv 4 MO Current loop 0 20mA 4 20mA 50 Q Pt1000 W100 1 385 90 C 320 C Pt1000 W100 1 391 90 C 320 C Ni1000 W100 1 500 60 C 200 C Ni1000 W100 1 617 60 C 200 C NTC12k 40 C 125 C KTY81 121 55 C 125 C TC type J 210 C 1200 C TC type K 200 C 1372 C TC type R 50 C 1768 C TC type S 50 C 1768 C Measuring Tc type T 200 C 400 C range TC type B 250 C 1820 C TC type N 200 C 1300 C OmV 10000mvV OmV 5000mV 2000mV 2000mv 1000mV 1000mv 1000mV 1000mv 100mV 100mV Current loop 0 20mA OmA 20mA Current loop 4 20mA 4mA 20mA OV 200k 200kQ 0 ee Fig 14 12 1 coupling of 02001 position of terminals and jumpers 101 TXV00416 02 rev 1k odt Last change 28 7 2011 Measure range Measure range 0 10V Pt1000 Measure range Measure range 0 20mA Thermocouple Type J KR S T B N CIB CIB Measure range 1 1V HI 100mV 100mV 102 TXV00416 02 rev 1k odt Last change 28 7 2011 14 13 RCM2 1 RCM2 1 is the room control module on a wall intended primarily for heating or air conditioning in the interior The module offers a comfortable very simple and clear control of heating in one or more rooms e temperature correction change of he
89. t antenna fitted directly to the SMA connector or a vertical whip antenna connected over the 2 m cable with SMA connector More information about RFox network elements are presented in chapter 3 2 Other features are consistent with the basic module CP 1000 see the previous chapter Using Foxtrot also for security purposes it is essential to back up all the system by batteries The power supply must be capable of providing power from battery for the required period and vice versa it must ensure the continuous charging of the backup battery For this purposes the PS2 60 27 power supply with output voltage 27 2V DC is recommended It can supply the system and charge the batteries PS2 60 70 has also output of 12 VDC max 300 mA for security sensors This power supply is active even when running applications from connected batteries For backup it is necessary to use two encapsulated lead acid batteries 12V DC typically with a capacity of 7 Ah to 28 Ah connected in series see following figure The presence of AC voltage 230 VAC in the mains can be detected at input IN 230VAC mains voltage connected to terminals F1 and F2 The basic module measures the value of the main supply voltage ie voltage at terminal C The state of the input IN 230VAC and voltages can be evaluated as the presence of mains voltage 230VAC so running from the battery and measuring the voltage we can indicate a time upcoming discharge by SMS etc TXV00416 02 rev 1k odt
90. t directly to LAN switch with POE in case the supply voltage does not exceed 30VDC Power supply can be realized also by POE Splitter module with AC adapter when POE Splitter combines a standard Ethernet with power supply for the weather station Then the weather station requires to be supplied from standard power adapter from the mains socket The only connection is by shielded UTP cable via RJ45 connector Dimensions 250 x 277 6 x 77 9 mm POE Power 12V 60mA Operating temperature 30 to 60 C Fig 11 6 1 Weather station GIOM3000 74 TXV00416 02 rev 1k odt Last change 28 7 2011 11 7 M bus meters integration SX 1181 module SX 1181 is a module designed to connect up to 64 devices equipped with an M Bus EN 1434 usually heat meters The mechanical design is suitable for installation on the DIN rail EN 60715 The module is equipped with fixed screw terminals and has to be connected to the serial port RS232 on the basic module Foxtrot M Bus interface is to be connected to the screw terminals M bus interface is powered by 24 V DC 30 to 150 mA Consumption depends on the number of connected devices RS232 Bus and M bus are mutually isolated with insulating voltage of 1 kV M Bus is the bus designed to connect heat meters and similar power meters This bus should be able to power all connected meters and enable remote reading of measured data The physical layer is defined by EN 1434 link layer according to IEC 870 and applicatio
91. t value and other sensor detects the presence of snow or ice at the same time The area is heated during snowfall or freezing rainfall and is kept at temperature above the freezing point so the ice is not forming The system shuts down when the ice or snow is not detected or the temperature rises above the set value The parallel connection of two sensors increase the reliability of detection Using two sensors will prevent tunnel effect when the layer of ice crust close the small space above the sensor to prevent contact with humidity Wiring example below considers the heated temperature and humidity sensor ESF 524 001 or ESF 524 011 by Eberle and a separate temperature sensor suitable for smaller areas For larger areas the unheated temperature and humidity sensor TFF 524 002 or TFF 524 012 can be connected accordingly Heating cables can be connected to any relay output in the system with respect to switching power Connection to the C HM 0308 shows the following picture r NOUO CIB CIB 6 a 6 n SS 5 e m lt lt LINE ANALOG DIGITAL INPUTS A OUTPUTS teplotn sensor 20 HW ADDRESS 19 NTC 12k MANUAL CONTROL DO2 DO4 DOS l C HM 0308M 2 o Dot SUM w DO2 wo w Dos
92. ter CF T141 iiie ide edet T ee Ramat eevee OPE REL 13 3 1 4 Coupling of CIB to the power supply C BS 0001M 15 3 1 5 Surge protection of DTNVEM 1 CIB DTNVE 1 CIB eee 16 3 2 RFox network principles of design and 18 3 2 1 REOX Dasic characteristics oce aera a Exe eso Re Ta o deo LETS EORR e DU 18 3 2 2 System function configurations properties eeeseseeeeeeee nennen nennen 18 3 2 3 RFox master RF 1131 e ete doter Gon eve eode aeo eee aa 20 3 24 RFox router RPRT 2305W 5 toc inen paite rh aa Eco as edi erra aa A HR EORR iN LEY ERO 21 3 3 TCL2 system bus principles of design and installation seeeeeneeennennnn 22 xu E 22 4 1 Hot water heaters actuator nennen enne nnn nnne n nnn nnn nnn nnns 22 4 1 1 Motorized drive 0201 24 4 1 2 Two position drive Alpha AA controlled by relay 25 4 1 3 Proportional drive Alpha AA 5004 controlled by 0 10V 26 4 2 Underfloor hot water heating sinimi nnna nennen nnne Ia aA 2
93. ternal temperature sensor must be NTC 12k type or other NTC lt 100kOhm the length of cable can be up to tens of meters typical use of cable for floor sensor is SYKFY 1x2 wires with diameter of min 0 5 mm 2 Module is designed as dummy in ABB design The terminals are on the backside of module to be fixed into a standard flush wall box KU68 The depth of module is about 12mm 67 TXV00416 02 rev 1k odt Last change 28 7 2011 10 2 IP65 temperature measuring Temperature in the other parts of building especially technologies as the heat source solar systems outdoor temperature or in the pipeline can be measured in several ways There are temperature sensors in IP65 housing with embedded CIB interface C IT 0100H P with the plastic head with the immersion sleeve C IT 0100H P with the plastic head with the immersion sleeve for higher range of temperatures R IT 0100H A with the metallic head and battery with immersion sleeve etc You can use the standard temperature sensors available on the market like Pt1000 Ni1000 NTC etc which can be connected to analog or universal inputs of a many CFox and RFox modules or directly to the inputs on Foxtrot basic module eg CP 1006 CP 1008 The range of sensors available are in the price list the suitable modules are in Tab 10 1 CIB CIB Fig 10 2 1 Example of connection of C IT 0100H P with plastic head Fig 10 2 2 Example of connection of C IT 0100H A with metallic h
94. ters 53 9 1 1 Syst m wall switches on CIB To control lighting blinds ventilation and similar applications you can use the driver C WS 0200R with one gang and 2 buttons one on top one on bottom and or C WS 0400R with two gangs and 4 buttons Both types of drivers are made in the design of ABB Time and enable to attach up to two temperat re SGrISQrs enano nui RR aRARR CRT A REPRE RRITRA ADR RR ET ces 53 Indoor temperature with 12k NTC sensor available also in ABB s Time design 53 Floor temperature with sensor fixed on the 53 9 1 2 Wall switches coupled to CIB over input module eene 54 9 1 3 Push buttons coupled over the module in cabinet eseseeseeeeeee nnn 55 9 2 Displays and Heating control on the wall esee nemen nnne nnn 56 9 2 1 Heating control module 00028 56 9 2 2 Heating air conditioning light control module RCM2 1 sees 57 9 3 Infrared control ieri ec ELE er neni EE EXER RE Ed 58 9 3 1 IR transmitter and receiver C RI 0401R Time with the design on the wall 59 10 Temperature Serisirig s e ies ire eorr erai eere esee inei mir tae 60 10
95. tes 1 Power supply for the motors and the relevant protection must follows the recommendations of the shutters manufacturer 2 An external temperature sensor and or the window contact can be connected to general purpose inputs A1 A2 52 TXV00416 02 rev 1k odt Last change 28 7 2011 8 Security Systems Fire Alarm Systems 8 1 Security sensors PIR Security sensors PIR motion detectors glass break sensors etc available on the market are equipped with two relay outputs alarm and tamper They are suitable for connection to inputs of CFox or RFox modules Connecting and evaluation in the Foxtrot system can be done by several ways see Chap 8 1 1 In chapter 8 1 2 we present a basic example of the dual balanced PIR sensor For 12 VDC power supply the PS2 60 27 power supply is recommended Its 12V voltage level stay active during power failure running from the backup battery 8 1 1 Configuration of inputs for security sensors based on documents 7 More detailed information can be found there NC contact Normally Closed Such connection is usually used for connecting of detectors where is low probability of the loop sabotage You can find such simple connecting in home security and alarm systems frequently Basically it is not wrong connection But it cannot exclude detection of the detector failure or whole group of detectors gfailure in case of short circuit in wiring or on terminal block Therefore it is mor
96. the current loop or voltage output To sense these probes it is suitable to use C IT 0200I module It is equipped to measure both current loop and output voltage of the probes Some probes convert the measured value of pH or redox to the current loop in the range 0 20mA or 4 20mA The probes with the voltage output differs by the output voltage Some of them convert the measured value to the standard range 0 to 10V some of them provide the native output voltage directly from the probe In the case of measuring of native voltage of the probe the C IT 0200I should be configured for ranges HI 1V 1V and or HI 100mV 100mV Measuring the native voltage of pH and redox probes is influenced by the high output impedance of that probes So C IT 0200I measures voltage of open circuit reduced by the voltage drop on the internal impedance of the probe Necessity of calibration arises from this fact Calibration of both types of probes is accomplished using calibration solutions First dip the probe into the solution with a known value of the pH or redox concentration measure the value and subtract the corresponding voltage This procedure is to be repeated for different values Thus we get a set of values by which we can express the conversion characteristics of the couple sensor input From this calibrated characteristic the exact value of pH or redox can be derived The calibration is not to be done in the full range but only for a few values Usuall
97. ules are not side by side the shielded cable is recommended M Bus interface can be powered from the same power supply though it is not necessary to separate the heat meter electrically Otherwise this part can be powered from a separate source 75 TXV00416 02 rev 1k odt Last change 28 7 2011 24V ov TCL2 24VDC CIB CH1 RS232 CP 1004 CP 1005 xr Tie As A6 GND GND GND RxD TxD RTS SX 1181 24V 24V GND1 GND1 Mbus Mbus 8 52 e 85 56 az 64 m i A MERIC TEPLA nap ALMESS MERIC TEPLA nap ALMESS Fig 11 7 2 Connecting the SX 1181 module to serial port CH1 of CP 1004 module Notes 1 Up to 64 meters can be connected to the SX 1181 module This implies a maximum idle current of 96 mA bus The total consumption module is up to 150 mA 2 The maximum M Bus cable length is 350 m as standard In case of maximum line resistance 30 Q and and maximum capacity of 0 82 uF the total length can be up to 4 km The max speed is 9600 Bd recommended speed is 2400 Bd 3 The recommended cable is a standard telephone type with wire diameter 0 8 mm The shielded type like JYSTY 1x2x0 8 is recommended Shield should be connected on SX 1181 side to the protective earth PE 4 Module SX 1181 is a modem type device so the TxD terminal on SX 1181 has to be connected to the TxD terminal on Foxtrot
98. umidity sensor In such case appearance of moisture at one of them put the system into operation Wiring example considering a heated sensor ESD 524 003 by Eberle and NTC 12K or NTC10k like TFD 524 004 sensor by Eberle Sensors can be connected to any inputs of the system Only humidity sensor is to be connected to the input for condensation measuring See C HM 0308 connection on the following picture ESD 524 03 2299 A2 A3 A4 A5 AG A7 AD 5 z z 9292 a 5 8 8 ai a ao 4 Ed CIB LINE ANALOG DIGITAL INPUTS A OUTPUTS 2 teplotn sensor HW ADDRESS 19AE du MANUAL CONTROL DO2 DO4 DOS DOG NTC 12k C HM 0308M 8 VDC 3W 230 VAC OVL D N OH EV Fig 12 2 Example of connecting sensors and heating cables for defrosting the gutters Notes 1 Defrosting circuits for gutters and pavement surfaces both can be powered from the same power supply 2 Relay output for heating is necessary to be chosen according to the actual switching power 83 TXV00416 02 rev 1k odt Last change 28 7 2011 12 3 Pool technology control integration 12 3 1 pH and Redox chlorine measuring To measure the acidity alkalinity of the solution or the concentration of substances in solution different types of sensors such as pH or redox probes are used These probes have different types of outputs which are mostly
99. urrent the C DM 0006M ILED can be used It can independently control up to 6 output for 6 power LED with following rated currents 150mA 350 mA 500 mA 700 mA Power supply for LED can vary from 4 5 up to 48 VDC The power supply is the same for all LED controlled by this module CIB CIB a 5151616 HW ADDRESS 19AE RU ON Manual contROL LED1 LED2 LED3 LED4 LEDS LED6 00 C DM 0006M ILED LED1 LED6 Fig 6 4 1 Example of connecting the LED chips to the multichannel LED dimmer C DM 0006M ILED with controlled current outputs Notes 1 max current per output LED1 up to LED6 is configurable for 350 mA 500 mA 700 mA 1000 mA Output current per output is always controllable in the range from 0 to max current 2 Supply voltage for the LED is connected to the doubled terminals Un and GND The power source must have an output voltage in the range of 4 5 V to 48 V 3 Itis possible to control the current of more LED in series The supply voltage max 48V should be used 4 Negative terminal of CIB A3 A4 has galvanic connection with the negative terminal of power supply A8 A9 It is recommended to supply more C DM 0006M modules from one power supply only in case they are side by side in order to use wires as short as possible 44 TXV00416 02 rev 1k odt Last change 28 7 2011 6 5 Dimming DALI interface To control lighting devices over DALI protoco
100. value of resistor can change the level limit of the measured analog value set by the application program The resistor can be of any type and can be placed directly into C IT 0200I module in area of terminals 3 Probe cable of length up to 15m can be connect directly to module C IT 0200I It is recommended to use shielded cable eg JYSTY 1x2x0 8 in case of using extension cable Shielding should be connected to protective earth PE at the side of the module Level limit detection in the tank can be done using a conductivity probe like CNP 18 by Dinel It should be connected to the specific analog inputs sensitive enough like for condensation sensors which are part of C HM 0308 To scan min and max level we need three probes with Istems so that we can evaluate the upper and lower limit Resistance is always measured between two probes For tanks made of conductive material one probe can be metallic tank enclosure itself 80 TXV00416 02 rev 1k odt Last change 28 7 2011 12 Control and monitoring of other technologies in the house Coming soon Integration of camera surveillance Irrigation water handling 12 1 Defrosting of outdoor areas To defrost outdoor areas the electric heating cables are usually used Defrosting can be controlled by Foxtrot according to the outdoor temperature rainfalls snowfalls The temperature and humidity sensors has to be mounted in the treated area The system is activated if the temperature drop below the se
101. y are light sources that combine the features of fluorescent lamps and the appearance of incandescent bulbs Compact fluorescent light belongs to the low pressure mercury discharge sources and is designed as a fluorescent tube with electronic ballast integrated the socket Specific performance ranges from 50 to 100 Im W Usually they cannot be dimmed For dimming purposes special types are produced explicitly labeled as dimmable The brightness is usually dimmed as other ordinary incandescent bulbs High pressure discharge lamps mercury lamps or sodium lamps with a very high pressure xenon lamps This light sources are typically used for street lighting and similar purposes High pressure discharge lamps are usually not dimmed 39 TXV00416 02 rev 1k odt Last change 28 7 2011 6 1 Switching LED lights 6 1 1 Switching LED power supplies at the 230V side Most of switching power supply designed to power LEDs have a negative characteristic a big initial current peak when connected to mains voltage 230VAC Therefore control of switching power supplies is not recommended to use any module or any relay which is not specifically designed for high initial currents Common used power supply MW LPV 35 12 for 35W 12VDC can take shortly current up to 60A while connected on the mains 230VAC Cold start according to the manufacturer s data sheet For switching such power sources the C OR 0008M module is highly recommended
102. y we need to monitor the pH values out of the limits So it is enough to know the values near these limits In the example redox probe SRH 1 PT S6 with the 6m and pH probe SPH 1 S6 with 6m both manufactured by SEKO was used C IT 02001 CIB CIB Redox sonda SRH 1 PT S6 oo UI H 1 S6 Fig 12 3 1 1 Example of C IT 0200I connection to measure pH and Redox potential concentration 84 TXV00416 02 rev 1k odt Last change 28 7 2011 13 Design and installation information Cumming soon Warming elements in the cabinet Surge protection Suppression components 85 TXV00416 02 rev ik odt Last change 28 7 2011 13 1 Consumption of CFox modules from CIB or from external power supply Extern power supply CIB 24 VDC 230VAC Min Min max Max min Min max Max min Min max Max Power Current Power Current Power Current Power Current Power Current Power Current w mA IW mA IW mA IW mA mA IW mA CF 1141 C IT 0200R ABB 0 3 13 0 4 17 C IT 0200R design 0 3 13 0 4 17 C IT 0100H A 0 2 0 3 13 C IT 0100H P 0 2 0 3 13 C HM 0308M 0 5 21 21 88 C HM 1113M 0 6 25 3 5 146 C HM 1121M 0 0 0 0 13 8 60 17 02001 0 3 13 1 5 63 C DL 0012S 0 5 21 2 83 C IR 0202S 0 4 17 0 6 25 C IT 0200S 0 25 10 0 3 13 C IT 0504
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