Dupline Bus System Planning Aid and Product Information
Contents
1. Dupine Dupine Power supply CI DNP SA M Power supply Ci DPN SA Dupline bus signal Ze TT Dupline bus signal Ze Dr Connector for G2130 5511 Connector for channel encoder channel encoder 08 op op 05 04 03 02 01 POW BUS 08 07 06 05 04 03 02 o POW BUS VOKVOKOGKKLGOOYVOYO OQKOGLKEKNGCYSKYOYGGS BERBERBEHFG IF ee eee _ WOOO QW WWII 24V DC i j ov DC A mars Dupline Dupline 3931174EE 3931175EC Dupline Dupline DNP 8A Mi Tyee Mae Dupline oo a 00 Outputs DNP 8A O F Outputs DPN 8A O F V drop Current input Current at make KSE eee oltage Dupline Planning Aid and Product Information February 2006 v1 60 Page 105 5 System Components 5 4 Outputs 5 4 4 DND 8A DPN 8A 8 Way Binary Output Board 24 VDC Doe p Ke Min Typ Type Dimensions General technical data I O Ambient temperature 2006 c Atm humidity 20 80 Encl protection type standards LI Accessories A retaining clips for mounting the assembly Optional Support bracket for mounting on DIN rail Order number description 09 501 117 8 way output DNP 8A 09 501 133 8 way output DPN 8A 09 501 130 DIN rail support bracket DPH 1 09 501 152 DIN rail support bracket DPH 2 Page 106 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 5 DRO 1U Flus2. 3931264 _3A Connections Dupline signal conductor D D Dupline signal conductor D 24 VDC Operating voltage 24 VDC OVDC_ Operating voltage 0 VDC Min Tye Mae Power consumption 1 mA Channels Display 24 Navigation keys Operating keys Number of pages ECH Channels per page OS EEE Page 140 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 6 Components for Visual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC EEE yp Me SSES os Name ien Languages German English Polish Netherlands Platforms Microsoft Windows 2000 Windows XP 22 VDC 27 VDC 33 mA Po Contactarea 04mm 2S me Type I Front cover brilliant white housing black Dimensions front cover Dimensions housing Material Polycarbonate PC Operatingtemperature 0 TI 45 C 1 2 in the case of shutter controls and shutter master controls 2 After operating voltage is applied Dupline Planning Aid and Product Information February 2006 v1 60 Page 141 5 System Components 5 6 Components for Visual Display 5 6 2 DSC 10 Touch Screen Panel 3 8 24 VDC Doepke 5 6 2 DSC 10 Touch Screen Panel 3 8 24 VDC e Touch panel incorporating a 100 MHz RISC processor e Monochrome amber coloured LCD 8 grey tones 320 x 240 Pixel e Size of screen 79 mm x 60 mm 3 8 e 24 VDC power supply e Configuration via DSC 3 P software versio
3. Dupline Planning Aid and Product Information February 2006 v1 60 Page 41 5 System Components 5 3 Inputs 5 3 1 DBM 1 Surface Mounted Proximity Detector Do c p Ke Wiring Layout and Dimensions 104 Dupline i d W WALK a TRANSM TEST TIMER GND DUP 3931184_1B 01 12 1 Western socket for address encoding 2 Terminals for connecting the Dupline bus 3 LED for movement test 4 DIP switches see below 5 Potentiometer for fine tuning the transmission time Connections Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Channel Allocation Builening Sigaal NOG OF NICHT Indicators _ indicator Deren Red LED Indicator for movement test disconnectable DIP Switches Switch Description OFF ON Indicator for movement test LED off 2 Transmission time 12 St 2 min 1 min to 10 min 2 Min Typ Mae Dupline LI Gurentinput SA Input channels none Output channels 1 alarm switching signal NCC or NOC Page 42 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 1 DBM 1 Surface Mounted Proximity Detector SSES SSS min SSCS C ES Scanningange 90 OSS SS O e 12 Response rate 05 pulsesis 5 pulsesis Ten ee I Contactareal oam 15mm mousin S S Lens polyethylene General technical data eee EES 104 x 55 x 57 W
4. Dupline Channel Allocation Temperature data Not assigned Indicators none in x bpm OO S OO i men O oo Temperature sensor ee Oooo Measgra 2 og Time constant Messages m CODE vonas JI Termin mousin FT General technical data J Ambienttemperature 306 60 Order number description 09 501 112 Temperature sensor DTS 1 09 501 140 DKM 1 M12 cable 2 m 09 501 141 DKP 3 coding cable for DHK 1 Dupline Planning Aid and Product Information February 2006 v1 60 Page 81 5 System Components 5 3 Inputs 5 3 15 DTS 2 Temperature Sensor in Installation Housing Doe p Ke 5 3 15 DTS 2 Temperature Sensor in Installation Housing e Temperature sensor with PT1000 probe Temperature range 30 C to 60 C Neutral white coloured combined surface or flush mounted installation housing Easiest possible address encoding via modular socket Power supply via Dupline bus e Suitable for use inside buildings Product Description The DTS 2 temperature sensor permits conversion of analog room temperature data for transmission via the Dupline bus The temperature measurement is transmitted on an independently encodable channel Notes on Applications The DTS 2 is designed for use in internal areas and should be so mounted that the air vents are not obstructed by items such as e g curtains The installation housing consisting of an air permeable cover the installation frame and a surface mounted frame is s
5. Produktbeschreibung The DKG 20 and DKG 21 GSM channel generators are intelligent configurable central units which gener ate the Dupline carrier signal for 128 channels and are thus indispensable components for every system Compared to the DKG 1 and DKG 2 channel generators see Chapter 5 2 1 on Page 28 this new gener ation provides higher performance offers more functions in respect of visualisation and network construc tion and supports the use of a radio modem The DKG 21 GSM features the basic equipment of the DKG 20 but is additionally fitted with an integrated GSM modem which enables the system not only to be remotely controlled but also to transmit events via SMS In terms of software too these new DKGs are provided with most of the functions of the DKG 1 and DKG 2 any differences are explained in detail below Configuration These channel generators are to be configured with ProLineN see Chapter 5 10 1 on Page 174 The remote configuration is possible by means of the DCI 2 see Chapter 5 7 2 on Page 151 DKG networks You can link up to 32 DKG 20 or DKG 21 GSM or a mixture of both into one network thus having the use of 4096 channels The RS485 Modbus communication is via a shielded standard cable e g ISDY 2 x 0 8mm which may be up to 1000 m long and is connected directly to the terminals of the DKGs It is thus no longer necessary to provide interface converters The necessary termination of the RS485 bus a
6. interface cable for programming with ProLine To connect the DKG channel generators resp DKA 1 to a PC for configuration tasks using the ProLine software Techrtcol Bebe TI DSUB 9 pole for DSUB 9 pole or 25 pole with adaptor DKK 3 e To connect two DKG 1 or DKG 2 channel generators for data exchange Dupline Planning Aid and Product Information February 2006 v1 60 Page 167 5 System Components 5 9 Accessories 5 9 3 Adapters Cables and Special Accessories Doe p Ke DKK 2 Continued Interface cable for connection of channel generators DKG 1 DKG 2 chef oo DKK3 Adapter for connecting DKK 1 to a 25 pole serial PC port To convert the DSUB 9 pole to 25 pole for computers with a 25 pole serial connector Technical Data SE DSUB 9 pole for DSUB 25 pole Order number description 09 501 142 25 pole adapter DKK 3 DRM interface cable for modules with M12 connector e Connecting cable for system components with M12 connector such as e g DTS 1 Temana O DSA1 Adapter for touch panels DSC 2 DSC 3 e Adapter for connecting the touch panels DSC 2 DSC 3 and similar types to the DSI 1 Modbus interface Note Please use the DSA 3 instead of the DSA 1 for connecting the DSC 10 touch panels Technical Data OOO Connections Type Order number description Page 168 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 9 Accessor
7. 1 The x y cross sectional diagram shows the detection area 2 The differences in the detection zone patterns are indicative of the projections of the 16 lenses with single focal point and with five optical axes An object whose temperature differs from the background temperature and which crosses max 7 42 m within the detection zone will be detected Dupline Channel Allocation Enable infrared sensor Movement detection Disable infrared sensor 6 Twilight switch active Not assigned Permanent signal pA Not assigned se Status opto decoupled input 1 With Auto mode Feedback from channel 5 With Off mode Activation of DPM 1 by manual enabling 2 Has priority over channel 1 3 Signal for sabotage protection Indicators none Page 54 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs 5 3 5 DPM 1 Presence Detector UO O D S D in Typ Max Current inpu 280 uA 560 uA 1 mA Input channels 4 proximity twilight switches sabotage protection input Output channels 2 control channels infrared sensor enable disable Infrared sensor Type Passive infrared sensor with heat detection Scanning Radius Scanning angle Response time Twilight sensor di 3 LI 360 5 Light dependent resistor sensitivity adjustable 0 2 Lux Type Switching threshold Hysteresis factor 200 Lux O1 Opto decoupled semicondu
8. 148 09 501 117 8 way output DNP 8A ee 106 09 501 210 DSA 3 adapter DSC 10 DSI 1 169 09 501 121 8 Way Relay Output DSM 8 130 09 501 211 DSA 4 adapter DSC 10 DKG 20 169 09 501 122 Channel Generator DKG 1 32 09 501 213 DSC 10 UPG housing 172 09 501 124 Signal sensor DSS AR EIB 69 09 501 214 Shutter control unit DRO 4b 116 09 501 125 Encoder cable DKP 1 170 i 09 501 215 Shutter control unit DRO Ac 116 09 501 126 Encoder cable DKP 2 170 09 501 217 Smoke Detector DRD 3 58 09 501 127 Tester cable DKT 1 171 09 501 220 Room thermostat DRT 2 66 09 501 128 Tester cable DKT 2 171 i 09 501 222 DCI 2 Serial to Ethernet Port Server 154 09 501 129 Interface cable DKK 1 167 37 501 149 DDS 1 DDE Server ee 178 09 501 130 DNP DPN mounting unit DPH 1 172 37 501 182 Dupline webserver ssssssssnssrnssrnereenn 177 09 501 131 4 way input output DNP 4 aaaiasananaann 133 59 00 126 ProLine User Manual aaannannnaannnanaaa 174 09 501 132 4 way input output DPN 4 133 59 00 142 ProLineNG User Manual 174 09 501 133 8 way output DPN 8A ee 106 Pi ae Ap ee en eee ee ek 09 501 134 Pro
9. 25mm HE ND Housing Le Type Distribution installation housing to DIN43880 for rail mounting to DIN EN50022 General technical data PO foc S 45 C 85 Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 108 Shutter control unit DRO 2 Page 112 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units Control of 4 shutters 230 VAC to max 2A Electronic latching of the direction of shutter movement Priority drive directions Off Up and Down free selectable DRO 4c with Step Mode for adjusting louvered blinds Product Description With the DRO 4b and DRO 4c shutter control units four independent shutter motors or drives of blinds and skylights can be controlled Drives with a current rating of up to 2 A can be controlled at 230 VAC per channel These second generation shutter control units identified by the Up and Down arrows printed on the front panel are equipped with a micro controller which ensures that even with an incorrect channel generator configuration the required reverse idle time of 500 ms is maintained While the DRO 4b is designed for the classic control of shutters and skylights the DRO 4c offers a Step Mode fea
10. 155 5 mm 171 mm Sg 55 mm 138 mm O 5 mm Cut Out Area D Lk 156 mm o 123 mm D3931233_1 B 123 5 mm lt 4 R3 Gi D3931233_2 B Page 146 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 6 Components for Visual Display 5 6 3 DSC 3 Touch Screen Panel 24 VDC UO O D S D Typ Max Type of connection Via DSI 1 Modbus adapter to the Dupline bus or directly to the DKG Display Type STN colour LCD display Display format 320 x 240 Pixel Display size 115 2 x 86 4 W x H in mm resp 5 7 Number of character display Font size 8 x 8 Pixel 30 lines each with 40 characters Font size 64 x 128 Pixel 2 lines each with 5 characters Character size Height and width can be expanded 1 2 4 or 8 times Font size Atm humidity Touch panel 16 x 12 keys per screen Adjustment of brightness 4 settings via configuration menu inst in unit Adjustment of contrast 8 settings via configuration menu inst in unit Background lighting CFL service life 50 000 hours Serial interface SUB D 25 pole RS232 RS422 Transmission parameters Data length 7 8 bits stop bits 1 2 Parity None Even Odd Transmission rate 2400 bit s 115 2 Kbit s Application data User memory 1 MB FEPROM or CF Card resp Data formats Freely programmable Number of programmable screens max 640 at 3 2 kB screen Accuracy of internal real time c
11. No where in this document is the functionality of the components mentioned such as e g the DRO 2 shutter control unit Why This document only describes the hardware functions any special functions such as starting and stopping of the shutters with the DRO 2 are controlled by the software On the one hand the software controlled functions depend upon the operating system of the channel generator and on the other on the configura tion options available with ProLine 8 1 3 Dupline and the SI Building Management System Can incorporate SI components in a Dupline system Yes Some of the Dupline components DIN rail devices such as the DSM 4E offer control inputs 24 VDC or outputs which permit direct connection Examples of such link ups are given in Chapter 7 1 Incorporating SI Components on Page 184 Is it possible to connect the inputs of input and output boards of the Dupline system to signal out puts of SI components Outputs of boards provided they output 24 VDC can be utilized for this purpose if you observer the notes in Chapter 2 3 4 Power Supply on Page 14 Inputs are however not suitable as they are only switched towards 0 V whereas the SI system output is 24 VDC 8 1 4 Problems The system operates unstably different loads are obviously switched at irregular times for no obvious reason Such behaviour can have various Causes e Check the wiring and cable types unsuitable wiring or circuit within circuit arrang
12. Connections 1 1 1 5 Relay switching channel 1 Lin LouT 1 2 1 6 N conductor input acknowl signal 1 2 1 2 5 Relay switching channel 2 Lin LouT 2 2 2 6 N conductor input acknowl signal 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 125 5 System Components 5 4 Outputs 5 4 11 DSM AR 4 Way Relay Output with Acknowledge Feature DIN Rail Doe p Ke Wiring Layout and Dimensions SERGE Lin Lout Lin Louf Lin Louf Lin Lout el el BG N N N N N N N N Doepke On i 1 3 1 7 2 3 2 7 3 3 3 7 4 3 14 7 D D 1 4 1 8 2 4 2 8 3 4 3 8 4 4 14 8 DC DC Dupline Dupline 24V DC OV DC Indicators Indicator Description 7 Green BUS OK I Dupline bus Off bus fault On bus OK LED Red LED All or nothing relays 1 4 Off relay open or no N connection On relay closed Min Typ Max Se aaa Current input o 10 pA SS Input channels 4 acknowledge signals channels 5 8 Output channels 4 output switching signals channels 1 4 Type using N Potential Acknowledgement EI Necessary output voltage 100VAC DC Relay outputs EEE Type All or nothing relay Voltage 12VAC II 250VAG _ Load capacity per output ug mg A Voltage Gu OVC Load capacity per output m0m8 TI ua _ ro pe Page 126 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Co
13. DSS 8U operating signal inputs one F emiconductor inputs rovided by inputs not applicable Typ Power supply Current consumption No load voltage Contact load Permissible inh contact resistance Length of line Operating Voltage Trot required from Dupline signal Teminis O o ee Spring loaded Type Spring loaded terminals 2 pole with double connection points for terminals bus signal mounted _ Contactarea Omg MMB Screw term Screw terminals with wire guard enclosed Contctaeal o4mm L mmg DSS 2U 1 x 4 leads LiYv with end ferrules 84 Cable L DSS AUT 2 x 4 leads LiYv with end ferrules S2 S3 zo DSS 8U 3 x 4 leads LiYv with end ferrules S2 S2 S3 Contact area Top Flush mounted socket installation enclosure 8 0 VDC 1mA 1 kOhm General Technical Data gt Operatingtemperature 10 HB IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 09 501 194 Operating Signal Sensor DSS 2U 09 501 195 Operating Signal Sensor DSS 4U 09 501 196 Operating Signal Sensor DSS 8U Page 72 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 11 DSU 1U Flush mounted 1 Channel Binary Signal Converter 5 3 11 DSU 1U Flush mounted 1 Channel Binary Signal Converter e Converts 1 input signal e AC voltage from 90 VAC to 265 VAC e Easily fitted into local flush mounted installation box e Power supply via Dupline bus Product Descripti
14. For a detailed description of the configuration and operation refer to the operating instructions on the Building System CD Order no 09 501 001 or the Internet at http www doepke de uk Connections Terminal Description Description 1 2 1 6 Pulse width modulated output S S 4 1 4 5 Dimming channel 1 Lin Lou 3 1 3 5 N conductor input Dupline signal conductor Dupline Dupline signal conductor Dupline 0V 003 24 VDC DC Dupline Channel Allocation Central Off Lighting scenes 3 4 6 Ackn signal dimming output 2 Dimming On Off CH Ackn signal alarm Lighting scene 1 DER Lighting scene 2 45 6 nr Notassioned o 1 Overload at output cycling slowly short circuit at output permanently on Page 90 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 1 DDM 1Rplus 1 Way Light Scene Dimmer DIN Rail Mounted Indicators Indicator J Description 7 Green BUS OK LED Dupline bus Off bus fault On bus OK Alarm signal Monitoring Off status OK On flashing slowly overload On flashing rapidly short circuit Wiring Layout and Dimensions The N connection is essential for the operation of the dimmer The following example of a circuit layout shows the control of an LT 1200 load module on the PWM output and of a lighting medium at the dim ming output D
15. Linux Ambient temperature mg Encl protection type standards FCC Class B CE Class B UL CUL TUV Order number description 09 501 222 DCI 2 Serial to Ethernet Port Server Typ Page 154 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 7 Interface Components 5 7 3 DSI 1 Dupline Modbus Interface 5 7 3 DSI 1 Dupline Modbus Interface Enables the connection of the DSC 10 DSC 3 touch panels e Compact design e Power supply provided by the Modbus connection Product Description The DSI 1 enables master control units with Modbus protocol to be linked to the Dupline bus Recom mended master devices are e g the DSC 10 resp DSC 3 touch screen panels but it is also possible to connect PCs by means of the DSI 1 Upon receiving the data requirements of the master the DSI 1 responds by transmitting the appropriate channel data of the Dupline bus In so doing it supports the following modbus function codes e Function code 3 Read register e Function code 16 Write register With these functions both binary and analog data can be read and written by the AnaLink method Notes on Applications Modbus slave address With the DSI 1 two different Modbus slave addresses 1 and 2 can be set up Modbus communication parameters The DSI 1 offers the option of two communication speeds 9600 or 19200 Baud For a secure transmis sion we recommend 9600 Baud Adapt
16. Liy Lour 1 6 C6 Semiconductor switching channel C6 fT a Dupline Planning Aid and Product Information February 2006 v1 60 Page 119 5 System Components 5 4 Outputs 5 4 9 DSM 2 2 Way Relay Output with 4 Semiconductor Outputs DIN Rail Doe p Ke Wiring Layout and Dimensions Dupline Dupline 24 VDC OV DC Indicators indicator PT Ciescription Green BUS OK LED Dupline bus Off bus fault On bus OK Red LED All or nothing relay 1 2 Off relay open On relay closed Min Typ Max Genie mu Input channels Output channels 6 control channels 2 relay 4 semiconductor outputs Semiconductor outputs J gt O Load capacity per output PMA Page 120 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 9 DSM 2 2 Way Relay Output with 4 Semiconductor Outputs DIN Rail Min Type Max Relay outputs Te Voltage 12 VAC 250 VAC Load capacity per output 100 mA 16A Voltage 12 VDC 30 VDC Load capacity per output 100 mA 10A Incandescent lamps 3000 W HV halogen lamps 2500 W Fluorescent lamps 2400 W Fluorescent lamps with el ballas 600 W Gas discharge lamps max 1000 W 70uF 1250 W 100uF Capacitor for compensation max 70 uF 100uF 1250 W 300 W Energy saving lamps conv ballas Energy saving lamps el ballast Operating Voltage Rated operating voltage Current inpu Ripple voltage bg 21
17. SIWR SIRW via DSM AE 184 7 1 2 Link up of Wind Rain Detectors SIWR SIRW via DSU 8 nneessenneesssnnenennnnenn 185 7 2 RO WIN EE 186 7 2 1 Feed ini by One POWER SUD EE 186 7 2 2 Feed in by two Power Supplies ccccccsseccceceeseceeceeeeseeseeeeeeeeseeeeeeesseaeeeeseeaeeeeesaaneeess 187 Chapter 8 Suggestions Questions and Problems Salt Egeter EE 188 GEN General de TEE 188 8 1 2 Questions Concerning the Products ennneeosenreeeonrrrrrrerrenrrrnrsrnrrrrrrsrnrreersrnnrreereenne 189 8 1 3 Dupline and the SI Building Management System cccccccssseeeeeeeseeseeeeeeseaeeeeeeeeeeaes 189 8 14 PRODI TEE 189 8 2 COMA EE 190 Ile a ee erat ca ae a en ee aaa a eee eet Ge ae niece ee aa Dupline Planning Aid and Product Information February 2006 v1 60 Page 3 1 Introduction 1 1 General Doepke Chapter 1 Introduction 1 1 General Building installation technology is in a state of change no more rigid wiring systems but a flexible central and decentral intelligence which makes it easier for the electrical fitter to fulfil his customer s requirements at sensible prices Doepke is following this positive trend with its new product range Dupline This bus system combines easy handling with the flexibility of a bus system Due to its interference immunity and the wide range of products it is not only suitable for inside areas but also eminently for use in outside applications such as
18. camping sites and yachting marinas But also in inside applications Dupline can show strength easy to handle shutter controls temperature supervision or also fire alarms allow an uncomplicated solution for problems Outstanding characteristics of the Dupline system include its multi faceted bus technology and the easy installation of the bus This allows the installer to concentrate on providing the solutions to customers requirements without having to worry about the technical implementation of the automation system 1 2 About this Document This planning aid is intended to acquaint you with the Dupline building automation system and to enable you to plan practical solutions It is provided in loose leaf form to allow for the growing product range and possible technical improvements In order to ensure that this planning aid is always up to date Doepke will be supporting you with advice and service make use of our telephone support line our e mail update service or the information pre pared for you on our website http www doepke de uk to keep yourself fully up to date 1 3 Abbreviations and Terms Abbreviation Alternating current Configuration Adaptation of device s settings to the current application Some components as objects in ProLine or devices need settings which determine the device s configuration Dupline signal conductor Dupline signal conductor Input Output 1 0 General term for components of
19. eon Dupline Planning Aid and Product Information February 2006 v1 60 Page 99 5 System Components 5 4 Outputs Doe D ke 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail Connections Continued Description 1 1 1 5 Switching channel A Lin LouT 4 1 4 5 Switching channel B L n LouTt 2 1 3 1 El ballast control output 1 10 V 2 5 3 5 El ballast control output 1 10 V channel A channel B channel A channel B DDMU 2 DDMU 2plus 3 4 4 4 Pulse width mod output S 3 8 4 8 Pulse width mod output S channel A channel B channel A channel B 1 2 2 2 Supply Rin 10 30 VDC ackn 1 6 2 6 Acknowledge output Rout channel A channel BI channel A channel ST 1 The potentials between individual acknowledgement channels and between the acknowledgement channels and the operating voltage are isolated Indicators indicator Dosen BUS OK on Or as Ton Or Slow alternate flashing No mains power A B A B Rapid steady flashing Short circuit or overvoltage AB AB automatic switch on attempt after 30 s Slow steady flashing 3 unsuccessful attempts at switching on AB AB further attempts by activating a coded channel or press ing the dimmer button load outage of both outputs Slow single flashing Overload excess temperature Switch on after cooling A oder B down load outage 1 Only with DDM 2 and DDM 2plus Slow flashing 1 x per second rapid flash
20. mounting to DIN EN50022 Dimensions 35 x 85 x 58 W x Hx D in mm 2 modules Material Polycarbonate 2 5 mm General technical data Ambient temperature 60 C Atm humidity 95 Encl protection type standards IP 40 when mounted in cabinets IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 145 Pulse Counter DTZ 4 1 At moment of pulse 2 Between counter input and pulse generator output Am Page 86 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doep Ke 5 3 17 DWS 1 Water Stop Sensor 5 3 17 DWS 1 Water Stop Sensor Detection of water leakage e Unobtrusive installation at baseboards e Transmission of a life signal e Decentralised module with low current consumption 800 uA a e Protection type IP 67 Erz Product Description The DWS 1 water stop sensor permits the detection of water leakage and the transmission of the alarm via the Dupline bus The sensor is equipped with two Dupline channels the alarm channel and a channel for the transmission of a life signal While the alarm channel is activated only in the event of water penetration the live signal is permanently switched on The detection of a water leakage is done by means of two electrodes which are located at the lower PCB border Notes on Applications Due to the removable mounting plate the installation is very easy The mounting location s
21. 2 Active when signal conductors and smoke detector are connected every 50 s this channel is active for two cycles Indicators Indicator f Description Red LED Operation indicator Short flash one time every 50 s life signal Smoke detector is OK Short flash every 0 6 s Fire alarm in y Me ee m 650 HA SSSSCSCSS C C w Operating S O not necessary from Dupline signa Terminas TC Eee m Contaetareal ommo om ee Polycarbonate General Technica dee O _____Ambienttemperature 06 o Encl protection type standards CE IP 43 EN ISO 12239 this model bases on a device with the VdS Certification G 202055 Order number description 09 501 217 Smoke detector DRD 3 Page 58 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 7 DRT 1 Room Thermostat in Installation Housing 5 3 7 DRT 1 Room Thermostat in Installation Housing e Thermostat with selectable temperature range of 14 C to 28 C For the temperature dependent regulation of any heating units e Night time reduction by 4 C selectable via input channel e Easiest possible address encoding via rotary switch e Neutral white coloured combined surface or flush mounted installation housing e Power supplied by Dupline bus Product Description The DRT 1 is a manually settable room thermostat which transmits to the Dupline bus one switching channel for regulati
22. 20 21 Substation 2 wd DKG 20 21 Substation 1 kel D3931246_10 B Note It is not possible to transmit AnaLink data e g temperature or light level data via the radio modem in this case it is necessary to make use of multiplex analog data GSM modem for SMS data transfer DKG 21 GSM only The DKG 21 GSM is equipped with a GSM modem which enables remote control of the system via SMS enquiry of current data or transmission of events in the form of SMS messages To operate this modem you require the following accessories Dupline Planning Aid and Product Information February 2006 v1 60 Page 35 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators Doe p Ke 1 A mobile phone antenna with FME connector e g the Doepke DGA 1 2 A standard 3V SIM card from a mobile phone service whose transmitter network covers the location of the DKG 21 GSM This card requires the preset PIN code 9090 and must have been enabled for SMS data transfer The range of functions of the GSM modem is the same as that of the now no longer available GSM 8 e Specification of up to 4 mobile phone numbers which can poll data or have events transmitted to them Event messages are sent either to all 4 phone numbers or sequentially to one after the other until an acknowledgement is received e Specification of up to 4 mobile phone numbers to which changes in switching status can be restricted generally al
23. 24VDC m In 1300mA NT 24 1300 ci KK W WI u 1 4 1 8 2 4 2 8 3 4 3 8 44 48 B1 B2 B1 B2 Dupline Dupline 24V DC ov DC Connections NT 24 250 11 15 Volage supply 230 VACN SSS SSS 1 4 1 8 Voltage output B1 B2 2 4 2 8 Voltage output B1 B2 Connections NT 24 1300 41745 Voltage supply 230 VAG LIN 1 4 1 8 Voltage output B1 B2 2 4 2 8 Voltage output B1 B2 Indicators Indicator Deren S Red LED On when short circuit overvoltage parallel connection Min Tye Outputs NT 24 250 Output voltage Output current Rated capacity Dupline Planning Aid and Product Information February 2006 v1 60 Page 161 5 System Components 5 8 Load and Power Supply Units Doe D ke 5 8 2 NT 24 250 NT 24 1300 24 VDC Power Supply Units DIN Rail Mounted Min Type Max Residual ripple at rated load CTO mie Outputs NT 24 1300 C e 1800 mA Rated capacity TA _Residual ripple at rated load CTO MV Operating Voltage 250 VAC 50 Hz Terminals JI a Contactaeal 04mm 25mm Housing LI Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 Generalteoe a UK L Ambienttemperature io 11450 A DEE S Order number description 09 500 162 Power supply unit NT 24 250 09 500 163 Power supply unit NT 24 1300 Page 162 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 9 Accessories Doep Ke 5
24. 4 way input output DNP 4 09 501 132 4 way input output DPN 4 09 501 130 DIN rail support bracket DPH 1 09 501 152 DIN rail support bracket DPH 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 133 5 System Components 5 5 Combined Inputs and Outputs Doep ke 5 5 2 DSM 4E 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail 5 5 2 DSM 4E 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail e 4 way binary relay output with semiconductor input for installation in distribution boards e Switching channels each with a capacity of 230 VAC 16 A e Switch status indicated by LEDs Product Description The DSM 4E is a relay output for switching four independent loads which may be operated on different phases Each load can have a current consumption of up to 16 A The switching status indicators one LED each per switching channel are located on the front panel of the device Four semiconductor inputs permit the connection of e g components of the SI Building Management sys tem or any other 10 30 V DC signals The green LED located in the coding and test socket on the front of the device indicates that the Dupline bus signal is functioning properly The all or nothing relays are designed for retentivity which results in the status being stored should a power failure occur In addition and to safeguard in the event of a bus fault the status of the outputs can be preconfigured with the
25. 4M 124 DanC MING een 18 09 501 175 Scenario dimmer DDM 1Rolus 92 for 25 pole Connector ssnsssnesissinesiesennsnneen 168 09 501 176 DDMU 2 1 10 V dimmer 103 for connecting two DKG 1 DKG 2 167 09 501 179 DSC 3 touch screen panel 0 0 148 for encoding M12 modules sanooaeennnnnennannan 170 09 501 181 Lighting scene dimmer DDMU 1plus 96 for hand encocder ce ceeeeseceeeseeeesesseeeeesseeeess 170 Dupline Planning Aid and Product Information February 2006 v1 60 Page Index for MI2 MOdIUlES en 168 for programming DKG with ProLine 02 0 167 for ProLine and visualisation 167 ei 170 171 lengt zu een 20 HO MINING een 21 recommendations 19 BEES 20 FOUNO sans nee 18 STAN VIVA eegene Eege 18 terminalon susanne 20 NI S Deg nenne ea ee ern 18 camping site billing systems nen 179 capacity OPC ASS says a 19 Carrier signal u a 11 GE WEE 174 Channel generator ss nensnnsonnenennenennsnnnnennesnnnenn 28 33 configuration software 174 configuration COMB WS Osis cdc erh 10 WINN SAN en een een ee et ee eee ee 9 Of Dupline systems en 8 ING IYDe anti 9 SOMWA ee meer antenne 174 SALTY 1E inneren 9 IER CT EE 151 COMO STA EEN 12 counter e E sera 12 pulse and hours run meter en 84 ELOSS SECLON re E A E sees 18 D data Se WEE 12 Seiler we 12 COuntenMeler siemens 12 DENE Te eh
26. 5 VDC 3 mA 24 VDC 5 mA 26 5 VDC 8 mA 100mV Terminals Strain relief clamps 0 4mm Type 2 5 mm Torque 0 6 Nm O gt p Q O prn Q x D GN Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 Dimensions 35 x 85 x 58 W x H x Din mm 2 modules Material Polycarbonate General technical data Ambient temperature 10 C max 85 exposure to dew not permissible IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 45 C Encl protection type standards gt 3 3 Cc 3 O 2 Order number description 09 501 105 Two way relay output DSM 2 1 The data relate to a minimum service life of 25 000 switching cycles and the connection requirements as per IEC 60069 2 Min 5 000 switching cycles 3 These data are largely dependent upon the manufacturer In case of doubt please refer SON Dupline Planning Aid and Product Information February 2006 v1 60 Page 121 5 System Components 5 4 Outputs 5 4 10 DSM 4M 4 Channel Relay Output with manual operation DIN Rail Doe p Ke 5 4 10 DSM 4M 4 Channel Relay Output with manual operation DIN Rail Mounted e 4 channel relay output for installation in distribution boards e Manual operation available via slide switch on the front e Acknowledgement of switching states of the relays e Switching channels with high leading load capacity of 230 V 16 A each e Specially suitable for mercury and gas discharge
27. 501 193 DSA 1 Adapter DSC 3 DSI 1 CS 09 500 163 Power supply unit NT 24 1300 162 i BL ek 09 501 194 Operating signal sensor DSS 2U 72 09 501 195 Operating signal sensor DSS AU 72 09 501 196 Operating signal sensor DSS 8U 72 09 500 226 Remote dimmer module LT 500 159 09 500 227 Remote dimmer module LT 1200 159 u al eed ne cates Me 09 501 197 DWS 1 water stop sensor 88 09 501 103 Hand encoder DHK 1 164 09 501 199 Text display DDI 2 e 141 09 501 104 Channel Generator DKG 2 32 09 501 200 Adapter DSC 3 DKG 20 DKG 21 169 09 501 105 Two way relay output DSM 2 121 09 501 201 Presence detector DPM 1 55 09 501 106 Four way relay output DSM 4E 136 09 501 202 DSC 3 UPG2 housing sssaanannaennaena 173 09 501 110 Light level sensor DLUX 48 09 501 203 DSC 10 232 Touch panel 3 8 144 09 501 112 Temperature sensor DTS 1 81 S 09 501 204 DSC 10 485 Touch panel 3 8 144 09 50 1713 Teste DIS T EE 165 z 09 501 205 DSC 10 DUP Touch panel 3 8 144 09 501 114 Relay output DSM 1U 118 i 09 501 206 Signal converter DSU 1U 74 09 501 116 Modbus interface DSI 1 156 09 501 207 Software DSC 3 P USB
28. 9 1 DHK 1 Hand Encoder 5 9 Accessories 5 9 1 DHK 1 Hand Encoder e Portable address encoder for Dupline components e Head out and changing channel addresses of inputs and outputs e Setting the priority switching direction of output channels in the event of system malfunctions e LED display and rugged action point key pad e Current supplied by standard 9V battery plus power saving facility Product Description The DHK 1 is used for read out and entering of the channel addresses of inputs and outputs The encod ing of the channels can be carried out in groups or alternatively by channels It is also possible to define the status of the outputs in the event of a bus fault or a device malfunctioning The programming of the components is permanent i e it needs to be carried out only once for every device The DHK 1 also permits the priority switching direction of the outputs to be set which will be activated if a bus fault or other system failures occur lt is an indispensable tool for every installer as the channel addresses have always got to be adapted to the relevant installation in any event This can be undertaken either before installation and with no voltage applied or when the connection to the Dupline bus has already been established With its handy size and dirt repellent key pad the device is ideally suited for daily use when commission ing systems in rugged environments The 9V compound battery supplied with the device c
29. A e Switching status indicated by LEDs Product Description The DSM 8 is a relay output for switching eight independent loads which can be operated on different phases with up to 16 A However the maximum total load of 80 A may not be exceeded The switching status of each output is indicated by its LED on the front panel of the device The green LED located in the coding and test socket on the front of the device indicates that the Dupline bus signal is functioning properly As a Safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is ON Notes on Applications As described above each relay allows a maximum load of 16 A The total load of 80 A must not be reached Dupline Channel Allocation Relay output signals 1 4 Relay output signals 5 8 Connections 4 1 4 5 Relay switching channel 4 Ln Lour I 4 2 4 6 Relay switching channel 8 Lin Lem 1 3 Dupline signal conductor Dupline Dupline signal conductor Dupline 0 VDC operating voltage DC 24 VDC operating voltage DC Page 128 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 12 DSM 8 8 Way Binary Relay Output 230VAC DIN Rail Mounted Wiring Layout and Dimensions LA L2 L3 N Relais 2 Relais 3 EIN EIN Relais 6 Relais 7 EIN EIN Dupline 1 3 1 7 2 3 2 7 3 3 3 7 4 3 4
30. DRO 4 replaced by DRO 4b DRO Ach nsanasnnnnnnnnann 113 DRO AD ern een 186 DRO4C an nee en 186 DRT WE 59 DRT2 san seele 61 DSAT use east 168 DSA E 169 DSA ieee ies neh 169 Aer WE 169 DSG Id ara eo entries 142 flush mounted housing ssessnesnnsnnnsennnnnnnnnnnenne 172 DSC VOPR Gi a 172 DSG S EE 145 flush mounted bousemmg 173 DSG SP as ee asta iach 144 148 DSC P USB eers ea 148 DSC B UP G2 ri e i i 173 DSL TH arena 151 155 Dupline Planning Aid and Product Information Reide 1 WEE 117 DOM I caer nen Pane eno eee Pe ne eT 119 122 DSMAB u ee On Pr cee re Oe ae 134 184 DOMAN see rate each dace 122 DONAR E 125 DON is eran re ere to mn es ene Me en 128 DSS ZU ne ee ere eee 70 Re EE 67 RS ET nenne 67 188 DES Al ma 70 Eege ee ee ee 70 DEU AU ee 73 DEU ZU ee ee een 75 DOVO tee heit 77 185 BI IG E 165 BIST ren 80 DIS2DTISZP user 82 Bak 84 Dupline documentation 174 If e SSL san en 7 BFODIEMSWIIN ee 189 DVS WE 87 E IB puUSshB tlohs ans 67 188 EIICOGER EE 163 Ethernet See network F FAQs frequently asked questions 188 He EEN nee ans 56 G E EE 174 lege 35 H hand ens der sarah 163 NOUFSSLUNIMEIEN ee 84 infrared remote Control 44 input and output board esssssnnesnnnnnnnnnnennnnenneeenenae 131 MOUNTING unitS ueeenennenesensensenennnnnennnnnennnnnnnnnn 172 input board EE 49 input for key signals cc eeeceeesteeeesteeeesteeeesseeeeeeaes 70 inputs
31. DSMAE ee en 134 General zul einge 14 signal converter DSU 2 73 signal converter DSU 20 75 signal converter DG 77 installation notes ceecceeceseeeeesteeeeseeeeseeeesseeeeseaes 18 insulation resistance uunenseenennsenennenennennennnnennnenn 18 interfaces WOO DUS sn ee 155 remote actuator DEA DI Katie dE 149 Dupline Planning Aid and Product Information Index IS 17 L leisure facilities billing systems 179 light level Sensor 47 light scene dmmer ssssasnnannnnosnnnnsnnennnnennssrennnnnenne 89 93 lighting scene dmmer ssnnssnnnnsnnsennssennsnennnnnnnseennnenns 97 lightning protection sseesnnosnnnnsnnennnnennenennneennnnn 19 21 line termination 2 0 ee eeeececeeeesseeeeeeesssseeeeeeessnaeees 19 20 load modules LT 500 and CTI200 157 IOGIGCONMMEGCIIVES na 28 M DEE 12 Modbus WOKA RRE re 30 in DKG 20 DKG 21 GM 34 INTEL TAGE mensen E 155 modem IN DROZEGSM san 33 modules DOSIIOMING OT za 19 MOUNINO WAN zei 172 TOM GBS need 172 for touch panels ou eeeeeeesseeeeteeeeeteeeeees 172 173 N network remote configuration via ueeeeenseneenneneeenennnnn 151 viusalisation via Ethernet 175 with DKG 20 DKG 21 GSM 0 22 33 NT 2271900 Een 160 KREE 160 O open circuit board ONP WEE 131 BNP OA une anne 104 BIER E 49 DEN A sanieren eier 131 Ee 104 operating signal sensor BIR BC WE
32. Dimming speed Relay output for El Ballast DDMU 2 DDMU 2plus only Type Relay contact 2 NOCs zero potential Operating current 230 VAC 250 VAC Rated current load capacity 10 A max 25 el ballast of 58 W each per relay Outputs Acknowledgement all Dimmers Type Semiconductor outputs Rated voltage Rated current load capacity Voltage drop lt gt dp 5 30 VDC 50 mA O 7 Operating voltage Rated operating voltage 21 5 VDC 24 VDC 26 5 VDC CurrentinputDDM 12m Hm Current input DDMU 12m A d S 34 mA Type Strain relief clamps Contact area Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN 50022 Dimensions 72 x 85 x 58 W x Hx D in mm 4 modules Terminals No du 3 S Page 102 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail Polycarbonate General technical data Ambienttemperature 10 Il HO Atm humidity max 85 exposure to dew not permissible Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 2 Order number description 09 501 173 DDM 2 dimmer 09 501 187 DDM 2plus lighting scene dimmer 09 501 176 DDMU 2 1 10 V dimmer 09 501 185 DDMU 2plus 1 10 V lighting scene dimmer 1 The dimming capacity is dependent upon the ambient temperature and applies for the specified range E
33. For an entire protection it is to observe that not only the Dupline bus is protected but also the distribution voltage lines Following devices then are necessary Component Description Manufacturer Module Socket _ Protection of the Dupline bus Phoenix Contact PT 1x2 12DC ST PT 2x1 BE PT 2x1 BE F Protection of 24 VDC supply inputs PT 2 PE S 24AC ST PT BE FM Protection of 230 VAC supply inputs RGS 1 EM RGS BE 1 Use this socket to apply an available shielding grounded at one end 2 Use this socket to apply an available shielding without grounding Following figure shows a connection example using the shutter control unit DRO2 see also Chapter 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit on Page 110 PHOENIX PHOENIX CONTACT CONTACT RGS 1EM PLUGTRAB PLUGTRAB u zen In 26A PT 2 PEIS PT 1x2 24AC ST 12DC ST Class lll D d Dupline Dupline 24V DC OV DC L N PE Dupline Planning Aid and Product Information February 2006 v1 60 Page 21 4 Networks and Visualisation 4 1 Networks 4 1 1 Overview DO P Ke Chapter 4 Networks and Visualisation 4 1 Networks 4 1 1 Overview The use of Dupline in large buildings or commercial installations may result in requirements exceeding the 128 channels made available by a single system Frequently it will be possible to use several Dupline sys tems which work independently of each other However if data are to be exchanged betwe
34. K C Hysteresis 0 5 K C 10 C 10 C C Heat protection 20 C Standby lowering OK C Comfort time 1 K C 30 C 40 C 10 C 45 C 10 K C Set value heating Set value cooling Frost protection ji IN i oO D Ql 3 Application Data Number of pages Configurable Dupline channels Configurable groups Data formats Digital analogue AnaLink CA ch ch CO Initialisation time 20s Programming Software Name I DRTconf Languages German English Platforms Microsoft Windows 2000 Windows XP 22 VDC 24 VDC 2 VDC 22 5 mA 33 mA Screw terminals 0 4 mm Operating Voltage Rated operating voltage Current input Terminals Type 2 5 mm O O gt es Q O be Q S D Q Type Front covers in brill white blue and grey housing black Dimensions front cover 50 0 x 50 0 x 10 6 W x H x D in mm 42 3 x 42 3 x 38 0 W x H x D in mm Material Polycarbonate PC General Technical Data Operating temperature Dimensions housing C Atm humidity max 85 exposure to dew not permissible IP20 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 09 501 220 Room thermostat DRT 2 1 Total number of pages including thermostat functions group objects and Dupline channels After operating voltage is applied 45 C Encl protection type standards Order number Description _ NO Page 66 February 2006 v1 60 Dupline Planning Aid and
35. Planning Aid and Product Information February 2006 v1 60 Page 159 5 System Components 5 8 Load and Power Supply Units Doe D ke 5 8 2 NT 24 250 NT 24 1300 24 VDC Power Supply Units DIN Rail Mounted 5 8 2 NT 24 250 NT 24 1300 24 VDC Power Supply Units DIN Rail Mounted Rugged power packs for DIN rail mounting Outputs of 24 VDC 250 mA and 24 VDC 1300 mA respectively Integrated overload and overvoltage protection Parallel connection of structurally identical devices possible Product Description The NT 24 250 and NT 24 1300 are used to supply the power for Dupline DIN rail devices They provide the required 24 VDC and a current of 250 mA or 1300 mA respectively The power supply units are equipped with both overload and short circuit protection Structurally identical components can be connected in parallel however the total load capacity of the power supply units in such cases must be reduced by 10 Notes on Applications Not applicable Wiring Layout and Dimensions The connection principle of the power supply units is illustrated below using the DRO 2 shutter control as an example Uni 230V Un2 24VDC Jon 250mA 24V DC Page 160 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 8 Load and Power Supply Units 5 8 2 NT 24 250 NT 24 1300 24 VDC Power Supply Units DIN Rail Mounted Wiring Layout and Dimensions NT 24 1300 Un1 230V Un2
36. Planning Aid and Product Information February 2006 v1 60 Page 177 5 System Components 5 10 Software 5 10 3 DDE Server Visualisation in Office Applications Doe p Ke 5 10 3 DDE Server Visualisation in Office Applications e For visualising and controlling a Dupline network with the aid of DDE ActiveX capable applications e Very easy intuitive operation e Compatible with Microsoft Windows 95 98 NT 2000 XP Product Description This software enables data of a Dupline system to be incorporated in applications which master the Micro soft DDE protocol or which can handle ActiveX components e g Microsoft Office programmes such as Word Excel or Access Operating the DDE interface is incredibly easy the channels to be displayed are simply taken from the server face into the relevant application where they are immediately available The Dupline channels are simply controlled via Visual Basic programming which is by now supported by all Office programmes The interface created with the DDE server enables further processing of Dupline data in a very simple way whether digital or analog data are to be written into a log file or counter readings have to be proc essed for raising invoices these functions can be carried out without problems A demo version is available at http www doepke de uk General technical data I _ _ PC Requirements Min 2P with 450 MHz or equivalent 32 MB RAM e Serial connection to channel ge
37. Product Information Doep ke 5 System Components 5 3 Inputs 5 3 9 DSS AR DSS AR EIB Operating Signal Sensors with Acknowledgement 5 3 9 DSS AR DSS AR EIB Operating Signal Sensors with Acknowledgement e DSS AR Connection for standard 4 way switches and contacts e DSS 4R EIB Connection for 2 way EIB switches e 2 way acknowledgement each with 80 mA output current e Option of connecting a LED for indicating bus status e Easy decentralized installation behind the push button e 24 VDC power supply Product Description The DSS AR and DSS AR EIB operating signal sensors enable conventional and EIB push buttons to be linked to the system They are provided with 4 input and 2 acknowledge channels and in addition offer the possibility of indicating the bus status BUS OK LED Because of their compact design the operating signal sensors can be fitted behind a push button in a standard flush mounted installation box Conventional push buttons and potential free switching contacts can be operated with the DSS 4R via the two 4 wire system cables supplied complete with end ferrules An internal extended operating signal pre vents any multiple switching as a result of possible contact bounce The 24 V acknowledgement outputs of the DSS 4R are each designed for loads of max 80 mA 2 W Basically any desired lights may be employed however the maximum current on making may not be exceeded when using incandescent lamps For this reason and be
38. Push button Up Max Zei lt 3s Push button Down Relay Up Relay Down D3931270_5b Priority drive direction in the event of a bus fault The priority drive direction in the event of a bus fault UP DOWN or no movement can be preset for all relays with the hand encoder depending upon the A B bridge Normally this bridge is inserted and the pri ority direction is UP channel setting 1 If 0 is set the DRO 4 will in the event of a bus fault acti vate the drive direction DOWN provided the bridge is in place If the A B bridge is removed the DRO 4 will not activate the motors when a bus fault occurs Usage of DC drives You can find examples of circuit diagrams with DC applications in Chapter 7 2 DRO with DC Drives on Page 186 Page 114 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units Wiring Layout and Dimensions GER AUF AB AUF AB 1 2 1 6 2 2 2 6 3 2 3 6 4 2 4 6 Lin1 UN LIN2 LIN2 LIN3 LIN3 LIN4 LIN4 1 7 2 7 3 3 3 7 4 7 D 1 4 1 8 3 4 3 8 4 4 4 8 DC DC A B Dupline BEE Dupline 3931270_1a 24V DC ov DC Connections Motor 3 output rom A B fitted re ner Up or 1 On bus fault Dupline Channel Allocation 1 Motor 1 UP Motor 3 UP 2 Motor 1 DOWN CH Motor 3 DOWN Motor 2 UP ae Motor 4 UP EN Mo
39. The Basics 2 4 Standards and Enclosure Protection Do z p Ke 2 4 1 Standards 2 4 Standards and Enclosure Protection 2 4 1 Standards In order to ensure that the widest possible range of applications is covered Doepke Dupline components are designed to meet the latest IEC EN Standards This applies to the standards IEC60669 EN55022 EN6100 6 3 EN55024 EN61006 1 2 4 2 Enclosure Protection Type Unless otherwise specified the Doepke DIN rail devices offer enclosure protection type IP 40 after instal lation in the distribution board With other designs the protection type is normally specifically stated The technical specifications of the protection type conform to IEC Regulation 529 VDE 047011 This international protection code IP defines the degree of protection which the enclosure provides against contact with dangerous voltage at components penetration of solid objects and water A suffix gives additional information concerning special protection The following deals only with those protection types which are relevant to Doepke Dupline components Key to the IP protection code First index number Protection against contact and foreign objects 2 Protection against finger contact and protection against medium sized 12 5 mm solid objects 4 Protection against contact with tools wires or similar of over 1 mm diameter Dust proof no penetration of dust Second index number Protection against water 0 No specia
40. Thus following convenient func tions may be realised depending on the hardware configuration e Automatic switching on and off the energy supply on guests registration and checkout e Automatic acquisition of consumption values on checkout and further processing by billing programmes e Display of working conditions of RCCBs and MCBs by means of voltage supervision at relay outputs of DSM 4R e Remote actuating of RCCBs and MCBs requires the Doepke remote actuator DFA For realisation of large facilities the channel generators DKG 20 and DKG 21 GSM offer the possibility of creating networks with up to 32 systems please see also Chapter 4 1 3 Networks with DKG 20 DKG 21 GSM on Page 22 The PC executing DPCamp has to feature a serial RS232 com munication interface which is to be connected to the master of the Modbus network Further interfaces are not required DPCamp will be delivered with two software modules DPCamp Server and DPCamp Remote DPCamp Server Via a serial cable this module establishes the connection to the central device channel generators DKG 20 or DKG 21 GSM reads data and forwards switching commands to the bus The configuration of the server is done by means of a Microsoft Access database holding the definitions for all output and counter modules On the basis of configuration the server is able to address the hard ware devices The server makes the status of the actuators and the metered val
41. V leads in accordance with VDE 0100 Part 410 Located on the front of the device and covered by a blank is a coding connection and a LED to indicate the status of the present bus signal The status of the outputs in the event of a bus fault can be preconfigured and is set at the factory to UP 1 With the aid of the DHK 1 hand encoder the status can also be configured to DOWN 0 and changed at any time Notes on Applications Caution For the control of motors it is absolutely necessary to use the ProLine object Roller blind since otherwise the required reverse delays cannot be kept This may lead to damages at the relay contacts and motors connected to them The encoding of addresses must be carried out so that the UP channel gets an odd address A1 B5 etc and the DOWN channel gets the following even address A2 B6 etc Due to the software s locking the direction of control in the channel generator both signals will be trans mitted following a DOWN instruction This also has the effect that both signals are indicated by the tester this is therefore not a fault indication To ensure a trouble free function the DRO 1U has to be supplied with a permanently present line voltage 230 VAC Dupline Planning Aid and Product Information February 2006 v1 60 Page 107 5 System Components 5 4 Outputs 5 4 5 DRO 1U Flush Mounted 1 Channel Shutter Control Unit Doep Ke Wiring Layout and Dimensions Du
42. VAC resp Wiring Layout and Dimensions DKG 2 Noise Watchdog Dupline Dupline u 1 A l 35 115 230 V 50 60 Hz ee e o Co ONLINE BUSY FAULT 3931198_1D 21 22 23 24 j Backup 4 5 9V DC Connections BEER inductive lines 7 Watchdog LB Wa DKG 1 only Operating voltage 24 VDC Operating voltage 0 VDC DKG 2 only 21 Operating voltage 115 230 VAC Operating voltage N Indicators Indicator Description 77 Green LED Power supply Off no power On OK Yellow LED ON LINE Dupline bus signal Off bus fault On bus OK Yellow LED BUSY Processing a job via serial connection Off no processing On processing in progress Red LED FAULT Fault Off no fault On fault has occurred Frequency approx 1 kHz Dupline Planning Aid and Product Information February 2006 v1 60 Page 31 5 System Components 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC resp Doe p Ke Typ NPN transistor closed when Dupline bus is OK 35 VDC Rated current load rating 100 mA RS 232 9 pole SUB D socket Length of line o 10m Operating Voltage DKG 1 eae Power consumption Security of data in the event of power failure approx 7 W ooo Power consumption f e approx 7W o Operating Voltage DKG2 TI 115 230 VAC Configuration 10 years Clock and calendar approx 5 days Switching status not secure priority selec
43. a visible display area of 43 9 mm x 10 0 mm W x H e Configuration via DRIconf software runs on Microsoft Windows 2000 and XP Direct connection to Dupline bus e 24 VDC power supply Product Description The DRT 2 room thermostat is a component of the Dupline bus system and serves to regulate the temper ature of rooms The strength of the DRT 2 lies in its extensive application spectrum made possible by a whole range of configuration settings The configuration requires the free of charge Windows software DRIconf which can be downloaded in its most up to date version from our homepage http www doepke de uk The DRT 2 offers two basic operating modes Terminal and Thermostat operation Terminal mode In the Terminal mode the thermostat simply measures the room temperature and transmits it together with the desired temperature settings to a superset control circuit As neither the heating nor the cooling channels are being activated by the DRT 2 a superset control has to be programmed in such a way that it adjusts the temperature via heating valves or cooling units Thermostat mode In the Thermostat mode the DRT 2 operates independently and controls the heating valve or cooling unit via Dupline channels in accordance with the set values Based on the room temperature measured by the integral sensor the 2 point thermostat triggers the channels for the heating or cooling signals so that the temperature of the room
44. applications 178 touch panel DSC 10 142 touch panel DC 145 WIA MEIWOrK aussen 151 175 Webserver EE 175 W WACHA een 29 Water sto Sensor rasieren 87 W CDS CIV EE 175 NEE 18 Dupline Planning Aid and Product Information
45. bus signal e Support for mounting on DIN rail available Product Description The DNP 8E input board offers 8 binary inputs Because of its size and connection data it is particularly suitable for fitting in control and indicator boards where open circuit boards can be installed The DNP 8E permits contacts and switches to be connected towards the 0 V signal of the power supply The board is equipped with a LED to indicate that the bus signal is correct and a LED to show that operat ing voltage is applied Each input operates with pulse stretching respectively delay so that even extremely short changes in the input signal are registered and transmitted by the system Notes on Applications When connecting the board it should be noted that contrary to other inputs and outputs the O V lead as well as the Dupline signal conductor must be connected to the GND terminal Moreover any push buttons or switches which when operated connect with 0 V may not be directly con nected to the Dupline signal conductor For further details please refer to Chapter 2 3 4 4 Compo nents with external DC power supply on Page 15 Note This input board is not suited for dimming of lamps with the dimmers DDM 1Roplus DDMU 1Rplus DDM 2 und DDMU 2 Please use the operating signal sensors of DSS series or the signal converters of DSU series instead Wiring Layout and Dimensions aes Dupline EEN O Power supply
46. configured at one button When the lock is then applied the lighting scene will again be safeguarded against overwriting Dimmers equipped with load outputs DDM 2 DDMU 2plus are provided with comprehensive protective mechanisms to safeguard against overloads overvoltage and short circuits If the dimmers should switch off as a result of one of these problems an integrated automatic restart facility will be activated and this will attempt up to three times this will attempt to restore operations automatically Should this prove impossible the user can switch on again manually once the fault has been remedied by operating the dimmer button on the device or via Dupline Dimmers of the DDMU series are provided with 1 10 V outputs for connecting el ballast and also incor porate a special feature a rotary switch on the front panel of the devices which is used for selecting one of two dimming characteristics for these outputs The dimmers can thus be adapted to the sensitivity of the electronic ballast The status of the outputs can be preconfigured for the event of a bus fault by means of the DHK 1 hand encoder The dimmers are preset at the factory so that they retain their current status should a fault occur and the dimmer can then also be operated via the dimmer switches on the front panel Alternatively the outputs can be configured so that they switch to 100 in the event of a bus fault however manual opera tion is then no longer po
47. connection requirements as per IEC 60069 2 Min 5 000 switching cycles 3 These data are largely dependent upon the manufacturer In case of doubt please refer Page 130 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 5 Combined Inputs and Outputs 5 5 1 DNP 4 DPN 4 4 Way binary Input and Output Board 24 VDC 5 5 Combined Inputs and Outputs 5 5 1 DNP 4 DPN 4 4 Way binary Input and Output Board 24 VDC e Predestined for use in control boards e 4 binary inputs e 4 binary pole reversal proof outputs to 0 V or 24 VDC e LED indicators for operating voltage and bus signal e Support for mounting on DIN rail available Product Description The DNP 4 and DPN 4 input output boards provide 4 inputs and 4 outputs each Because of their size and connection data they are particularly suitable for installation in control and display panels where open cir cuit boards can be used The DNP 4 permits small loads to be connected to a DC voltage of 24 V which is made available by the board However with the DPN 4 the loads are jointly connected to the 0 V signal of the power supply Both boards are equipped with a LED each to indicate a correct bus signal as well as a LED to indicate that operating voltage is applied Each input operates with pulse stretching and delay in order to ensure that even extremely short changes in the input signal are detected and transmitted by the syst
48. done by means of the optionally available interface cable DKK 1 In case of using a self made cable the maximum length of 10 m should not be exceeded The following figure shows the connection 9 pole plug 9 pole socket to PC to DKG 6 6 kl amp 7 7 8 8 9 9 kl Interconnection of two Dupline nets Coupling two Dupline nets is applicable in cases where data need to be exchanged between two systems These two nets can also share inputs and outputs whereby the allocated addresses of such components may be assigned only once The channel generators use the Modbus I RTU protocol for the data exchange and are connected as follows via their serial interface 9 pole plug 9 pole plug t G Dupline Planning Aid and Product Information February 2006 v1 60 Page 29 5 System Components 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC resp Doe p Ke Here also the length should not exceed more than 10 m The cable DKK 2 which is preconfigured with these connections can be ordered separately Visualisation The serial connector of the DKG may also be used as an interface for visualisation components For this purpose the DKK 1 standard cable may be used Parallel operation of configuration with ProLine and visualisation is not possible You will find further details about visualisation in Chapter 4 2 Visualisation on Page 24 Changing the configuration during operation The channel generators
49. e The mounting location shall be as near as possible in the centre of the room e A gap of at least 0 5 m must be maintained from walls and furniture The DRD 3 must not be mounted at following locations e near to ventilation ducts or strong draughts e directly in the apex of pitched roofs a minimum distance of 30 cm from the apex must be kept e in rooms where under normal conditions a lot of steam dust or smoke is present for example in workshops bathrooms and laundry rooms e in rooms where the temperature rises above 40 C or falls below 5 C The bus interface board DFMS 3 which is integrated in DRD 3 may also ordered separately Doing this it is possible to connect smoke detectors equipped with a battery or siren to Dupline systems Please ask us Page 56 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doep Ke 5 3 6 DRD 3 Smoke and Fire Detector Wiring Layout and Dimensions 3931271_1A 3931271_2A Dupline 3931271 3A Connections red 1 Dupline signal conductor Dupline grey 2 Dupline signal conductor Dupline Dupline Channel Allocation channel Alarm signal active on alarm Not assigned Status signal BE EEE HE E 1 Default channel address encoding ex factory Dupline Planning Aid and Product Information February 2006 v1 60 Page 57 5 System Components 5 3 Inputs 5 3 6 DRD 3 Smoke and Fire Detector Doe p Ke
50. ee ee es 41 GOI CS ee ea en 186 PG APMC a eek 166 PGS en a a 151 EA a san ee a een 166 DDE SEWEr Zr sense 178 DOI ace NET epee eres a ree eee Rene nce m EE ere 137 DDM AIS anne 89 DDM Z DDM 2plus uusee en 97 DOMU TRPIUS aches Stes site ee el 93 DDMU 2 DDMU 2pius nsninnnnnnnnnnnnnnnnnnnnnnnssnnssnnnsennnn 97 detectors FAMINE LC WING ernste nenne 185 SMOKE and Tresen ee ee 56 VT E 87 DFA Dl 222 etettieng lta duties ee 149 DRIE Ti Sees cetacean ence Rasen ee ee 163 dielectric resistivity oo eee ccesecesseeeeseeeeeeeesseeesaeens 18 dimmer BIER ie EE 89 Page II February 2006 v1 60 Doepke DDM 2 DDM 2plus DDMU 2 DDMU 2plus 97 DDMUTRDIUS En 93 load modules LT 500 and LT 1200 157 DIR Z DIR 29 2er es 44 displays DDI 2 text display on nonnnoonoonnnnnnennnnnnnnnnnnnnnnenae 137 DRT 2 room thermostat aonnnnnnnnnennnnenaneennennae 61 DSG TO ee 142 DOGS een 145 TOUCH panel antenne ade 145 DRAHT ea ee 167 DRGT een 28 33 DRG 2 hebben et ee eege eebe 28 33 DRG 20 nn 33 DRG 21 GSM seo 33 DKK T re 29 167 Bio 30 167 DRRS EE 168 DRM SE Eee 168 DRP T KEE 170 DRP Z anne 170 DKP EE 170 DRT Tess 170 DKRT2 sea 171 RR 47 DNP A eene eege ee eer 131 ENEE ae ee 104 DNP EE 49 documentation ER WEE 174 WIIN POLING EE 30 IPG INDY essen 179 ie D ME 172 DPH 2 nennen 172 DRM See a 52 DPN KEE 131 OP NAG i nee neue 104 DRD 3 2 ner 56 DROTU Seas 107 DRO2 ege e EE 110 186
51. for coding the addresses with the DHK 1 The bus can not be tested via this connection with the DTG 1 tester Wiring Layout and Dimensions Dupline Dupline DSU 2U Dupline Weitere Busteilnehmer 42mm _20 300V DC 20 250V AC Additional UE Bus users _20 300V DC 20 250V AC N N SIS EI O O o o P 30 0 mm 3931196_1C 34 0 mm 3931196_2C Connections Input signal 1 Input signal 2 Dupline signal conductor Dupline D Dupline signal conductor Dupline Dupline Planning Aid and Product Information February 2006 v1 60 Page 75 5 System Components 5 3 Inputs 5 3 12 DSU 2U Flush mounted 2 Channel Binary Signal Converter Do e p Ke Dupline Channel Allocation Input signal 1 Not assigned Input signal 2 LC l Indicators Indicator Description Green LED BUS OK Dupline bus Off bus fault On bus OK in S e l o Dame CC ee a BEE BE 77 GE Je ooo Kg 1 u DC l Current input oopa S S O ae Ee e AC e m dT Operang vonas OOO S Terminals E Controlterminals SSC Contaetarea D nn ll osmm Mains terminais oo E m Housing Te Generaltechnicaldata U L SSCS __Ambienttemperature 100 SYS nun IT Sen Page 76 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 13 DSU 8 8 Channel Binary Signal Converter 5 3 13 DSU 8 8 Channel Binary Signal Converter e Converts 8 input
52. guard 04mmG 1 5 mm Cable Loom 10 leads LiYv with end ferrules DSS 4R Contact area 025mm Cable Loom DSS 4R EIB Type Dimensions Material D O C O gt Q D D N Type Type Contact area O O es Q O paan lt O D OD GN Flush mounted socket mounting plate for EIB switch 50 x 10 W x H in mm Polyamide glass fibre reinforced General Technical Data Operating temperature 10 C ax 85 exposure to dew not permissible C60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 lush mounted socket mounting plate for EIB switch 09 501 154 Operating Signal Sensor DSS 4R 09 501 124 Operating Signal Sensor DSS 4R EIB 45 C m Encl protection type standards Accessories DSS 4R EIB Order number description gt 3 gt 3 Q lt lt U Cc o 3 D ae Q gt Q gt Q Q Q U a O Q am O F Se n O CA 3 Q O February 2006 v1 60 Page 69 5 System Components 5 3 Inputs 5 3 10 DSS 2U DSS 4U DSS 8U Flush Mounted Operating Signal Inputs Doe p Ke 5 3 10 DSS 2U DSS 4U DSS 8U Flush Mounted Operating Signal Inputs e Connection for 2 4 or 8 key signals e Easy decentralized installation behind the push button Simplified installation with prefashioned connection cables e Power supply via the Dupline bus Product Description The operating signal sensors DSS 2U DSS 4U and DSS 8U are in
53. have invoked the key lock during configuration in DRTconf or in the sys tem menu operation of the DRI 2 can be temporarily enabled for approx 2 min utes with this combination 2 and 4 Resets the DRT after a bus fault Dupline Planning Aid and Product Information February 2006 v1 60 Page 63 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC Doep Ke System Menu Even after having been configured with DRIconf and installed you can change some basic settings on the DRT 2 itself The settings of the back lighting e The correction figure and e The key lock Press buttons 1 and 2 simultaneously to access the system menu To navigate within the menu use buttons 1 to move up and 2 to move down The settings can be changed with buttons 3 and 4 The menu is structured as follows Wout Le me Displays the current menu language Lighting or The back lighting will not be switched on The back lighting will always be switched on By pressing a button the back lighting will be switched on for the length of time defined in DRTconf Address The back lighting is controlled by the Dupline channel configured via DRTconf e g light level sensor DLUX Key lock Operation is not protected by key lock To operate the DRT 2 the key lock must first be disabled PIN Operation is protected by a 4 digit PIN between 0 9 as configu red in DRIconf After entering the correct
54. internet under http www doepke de uk or on our CD Page 182 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 6 Notes on Project Planning 6 3 Form for Assigned Addresses Sf 0 os lt o gt O D Rollerblind Rm Rollerblind master Md Measuring device Ls Light sensor Intruder alarm WA Water alarm Cs Common siren Cv Counter value Oo pat Q pe D Dupline Planning Aid and Product Information February 2006 v1 60 Page 183 Rb nA ek OI lt LI UI a _ is lt OI Ss O ISA alarm SA Smoke alarm c O Q O d D el gt c O Ce O o e W d O 2 TE le switch Ti Timer Rt Real time Mf Master function Motion detector IA EEE BER a Ss ae DE so a a BEE EIER DE BEE GE EEE a RO Ke Kl Ba Mod Push button Ts To Customer Ts Temperature sensor ne D 4Pb 7 Examples of Circuit Diagrams 7 1 Incorporating SI Components Doe D ke 7 1 1 Link up of Wind Rain Detectors SIWR SIRW via DSM 4E Chapter 7 Examples of Circuit Diagrams 7 1 Incorporating SI Components 7 1 1 Link up of Wind Rain Detectors SIWR SIRW via DSM 4E The following example of a circuit diagram illustrates how the wind detector or the wind relay SIWS SIWR and the rain detector SIRW can be linked to the system via the inputs of the DSM 4E Both the signal of the wind relay at the C5 input an
55. lamps Product Description The DSM 4M is a relay output with provision for manual operation for switching four independent loads which may be distributed on different phases Each load can have a current consumption of up to 16 A Each relay of the four switching channels has a mechanical facility for manual operation This is accessi ble on the front via an extended lever e g via a screwdriver The levers also indicate the current switch ing status of the relay The current relay status is transmitted back via channels 5 8 to the Dupline system The relays being of extremely high quality also permit the connection of loads with higher capacitance of up to 140 uF so that the module is particularly suitable for mercury and gas discharge lamps The green LED located in the coding and test socket on the front of the device indicates that the Dupline bus signal is functioning properly The all or nothing relays are designed for retentivity which results in their status being stored should a power failure occur In addition and as a safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is ON Notes on Applications None Dupline Channel Allocation SE Relay output signal 1 Switching status relay 1 Relay output signal 2 6 Switching status relay 2 Relay output signal 3 Switching status relay 3 Relay output signal 4 BEE Switching status relay 4
56. or consequential damages except in cases of compulsory liability e g as provided for by the Product Liability Law or in cases of premeditation gross negligence absence of promised capabilities or because of infringement of fundamental con tractual obligations Compensation for infringement of fundamental contract obligations shall how ever be limited to contract typical foreseeable damage provided there is no premeditation or gross negligence Copyright Doepke Schaltger te GmbH amp Co KG 2006 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke Contents Table of Contents Chapter 1 Introduction Ved 1 2 1 3 1 4 1 5 BEN ENEE ee ac onde ta tal elt een 4 ADOUINIS DOCOMO EE 4 AbBreviallons and Terms sr een een Eee re 4 Related Dokuments ee ee De cha a tls ee ge 6 VUE IS REI lt 7 to Gonera EE 7 152 ME MCCHMOlOGY E 7 EE We SUN a nt nee een tes ne nn Pe ee ORR OR Ae PO ema nT den 7 Chapter 2 Dupline The Basics 2 1 2 2 2 3 2 4 SV SIC COMMON e GE 8 Ee ed WE EE 8 2 1 2 TRANSMISSION EI ee 9 Sgal Ne E Te EE 11 SS Wu e lte EE 11 2 2 2 Carrier Signal and Channel Addresses ccccceccseeceeeeeeeeeeeeeeeeeeeseeeseessseeeeeeseeeeeeeneas 11 ey aS al 26 SS DEE 12 224 Iransmission Procedure ee EE 12 PAM ee 12 22242 e e EE 12 2 2 4 3 Analog measurements Anal mk 12 2 2 4 4 Counter data time division multiplex metbod 12 IADUSSAR O10 0 0 Eee ee a a
57. permit configuration changes to be carried out while the system is in operation any changes of processes which are relevant to safety should nevertheless only be undertaken while the process is in a non dangerous state because the change is not without jolts Documentation ProLine offers various functions for providing documentation It is thus possible to print out following infor mation e channel addresses e time switch channels e logic connectives e central master channels Installation in distribution cabinets When installing the channel generators in distribution cabinets it should be noted that the serial connec tion has to be arranged from the right hand side This means that a free space of approximately 3 module widths needs to be provided here in order to allow the programming plug to be inserted The space required for the connector can be reduced by using the optionally available DKA 1 front adapter It allows the serial cable to be connected from the front and has a width of only one module see also Chapter 5 9 3 Adapters Cables and Special Accessories on Page 166 Wiring Layout and Dimensions DKG 1 Noise Watchdog Dupline Dupline en 14 35 24V DC e e e ON LINE BUSY FAULT 3931194 1A Backup 4 5 9V DC Page 30 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230
58. rules as for the bus conductors apply Notes on power supply for local components can be found in Chapter 2 3 4 Power Supply on Page 14 1 Measured with a test voltage of at least 500 V If the resistance of existing installations is less than 1000 kOhm all junction boxes and terminal points of cables must be tested 3 2 Cable Recommendations Following cable types have been proven in practise pe capacity inn Remark my OCS em mm wew w wen e 7 Indoor Use nym East oo Ten Outdoor Use Dupline Planning Aid and Product Information February 2006 v1 60 Page 19 2 Dupline The Basics 3 3 Cable Length and Resistance Doep ke 3 3 Cable Length and Resistance Even if the use of very different cable types hardly causes problems in practise the following cross sec tion and capacity values on given length must be observed Maximum length Max capacity 1 This is the distance between channel generator and the outermost lying component which is supplied with voltage by the bus signal For exact determination of the allowed length it has to be considered that the voltage drop for the outer most lying components must not go beyond 2 V This voltage drop depends on following characteristics 1 the specific loop resistance of the line 2 the distance between channel generator and the outermost lying component 3 the maximum current An example You are using a standard cable with a loop resistance of 1
59. should be deleted In the case of outputs with digital signals the hand encoder also generally permits configuration of the out put status if a system defect occurs e g cable break For information about the hand encoder see Chapter 5 9 1 DHK 1 Hand Encoder on Page 163 2 3 3 Functions The function range of inputs and outputs depends only partly upon their hardware equipment It is the implementation of the relevant item in the channel generator or in the ProLine configuration software which is the decisive factor The simplest example for different functions are the items push button function and touch contact func tion both of which are based on input signals from simple buttons In the case of the push button function the relevant channel is only active for as long as the button is pressed in the case of the touch contact function the signal remains permanently set upon one actuation of the button It is also possible for example to assign certain types of operational behaviour to a shutter control when the button is pressed Start Stop Reverse It is for this reason that the description of the Dupline components goes into very few if any details in respect of their logic function 2 3 4 Power Supply 2 3 4 1 General Dupline signal conductors are always operated free of potential i e without connection to earth potential or to the potential of external power supply sources The types of
60. signals DC voltage from 20 VDC to 300 VDC AC voltage from 20 VAC to 250 VAC Easily fitted into installation box Power supply 24 VDC Product Description The DSU 8 signal converter is an input device for up to eight signal voltages whose data are converted for transmission on the Dupline bus By using opto decoupled inputs it is possible to employ the eight inputs for DC as well as AC voltage which may also take place simultaneously In neither case is there a need to observe polarity A green LED located in the coding and test socket on the front panel indicates that the Dupline bus signal is functioning properly The DSU 8 has a width of 4 modules and is supplied by the 24 VDC operating voltage Notes on Applications With proper installation and using only one type of voltage for all channels the device meets the require ments for protective low voltage between mains and control circuit Wiring Layout and Dimensions 1 5 3 1 IN 1 IN 3 2 IN 7 IN7 IN 8 ine PTs a cal ial Tl a 1 4 1 8 bad 2 8 3 4 3 8 4 4 4 8 3 DC IDC Dupline I Dupline one ov DC Dupline Planning Aid and Product Information February 2006 v1 60 Page 77 5 System Components 5 3 Inputs 5 3 13 DSU 8 8 Channel Binary Signal Converter Do c p Ke Connections 1 1 1 5 Input Signal 1 IN 1 1 2 1 6 Input Signal 5 IN 5 2 1 2 5 Input Signal 2 IN 2 2 2 2 6 Input Signal 6 IN 6 3 1 3 5 Input Signal 3 IN 3 3 2 3 6
61. switching on off Planning the components a Selecting the components central or decentral b Possible provision of more flush mounted sockets for components c Optimising the operating signals to DSS 2U 4R 4U 8U d Layout of the bus upgradability length Planning the distribution components a Space required for distribution allow approx 30 reserve b Calculating the current requirements of DIN rail devices decentral devices with central power supply Power supply units should be utilized up to max 90 c Calculating the current requirements at the Dupline bus DKG 1 and DKG 2 supply up to 100 mA DKG 20 and DKG 21 GSM up to 130 mA Defining the Dupline addresses a Assigning addresses for the individual channels of components The form provided in chapter Chapter 6 3 on Page 182 or on the the building management CD can be used for this purpose b The maximum number of 128 different addresses may not be exceeded if necessary extra provision must be made by interconnecting two or more channel generators Preparing the configuration with ProLine a Configuration of individual addresses and their function using the form provided in chapter Chapter 6 3 on Page 182 b Preparing the list of addresses via ProLine Print menu c Encoding and labelling the input and output devices d Transferring the configuration to the channel generator this may also be done later during distribution Installatio
62. the user manuals on http www doepke de uk No licence fees are charged for the configuration software Note For transfer of configuration a PC with a serial RS232 COM interface is required General technical data Contents Documentation about SI Building Management System and Dupline this document as PDF Other documents Calculation aid Prepared texts for the tendering phase Data file for tenders according to GAEB Latest version of ProLine Order number description 09 501 001 Building Management Documentation CD 59 00 126 ProLine User Manual via internet 59 00 142 ProLineN User Manual via internet Page 174 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 10 Software 5 10 2 Webserver Visualisation Software 5 10 2 Webserver Visualisation Software e Visualisation of all loads and sensors connected to a Dupline system either locally or via the Internet or network e Visualisation of networks with DKG 20 DKG 21 GSM also possible e Extremely simple intuitive operation e Many predefined installation items e Supports languages English and Danish e Server runs on Microsoft Windows 98 ME NT 2000 XP Clients require only an Internet browser for visualisation Product Description The Dupline Webserver is an inexpensive PC based visualisation software which permits a Dupline sys tem to be visualized and remotely controlled Schematically express
63. up to 25 el chokes 58 W Sn dam e plus series 6 storable and lockable lighting scenes n e Switch for automatic dimming reduction and increase with memory gt mse setting e e e Acknowledgement of operational status of both channels via electrically isolated outputs Product Description The dimmers of the DDMx 2 series permit the switching and dimming of different lamp types or el ballast with a 1 10 V output Models with the suffix plus offer in addition the possibility of individually storing and recalling via Dupline up to six lighting scenes per channel All dimmers are fitted on the front panel with a button for dimming and for switching lamps off and on again with the light level setting last saved memory setting The button therefore has the same function as the Dupline channel 2 of the devices but in the event of a bus failure it can also be used for controlling the lighting manually The dimmers of the p us series are able to store up to six light level settings preset at the factory between 0 and 100 Several dimmer channels can thus be combined to create lighting scenes The procedure for saving lighting scenes has been simplified in comparison to single channel dimmers After disabling the lock at the dimmer s rotary switch all that is required is to set the relevant light level and to actuate for more than 3 seconds the channel combination which is also used for recalling the light ing scene normally
64. with outstanding reception characteristics e For use indoors e Temperature range of 0 C to 50 C Notes on Applications Mount the antenna in a location in the interior where interference free reception of the DCF signal is ensured It is not recommended to install it in a metal enclosed distribution box window less cellars basements or rooms surrounded by reinforced concrete The antenna should preferably be aligned horizontally across to the local DCF emitter Wiring Layout and Dimensions 3931250_1B Dupline Kanalgenerator DKG 21 GSM 115 230 V 50 60 Hz C4 D1 D2 D3 T 3931250 2a Antenna Rated operating voltage KT Page 166 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 9 Accessories 5 9 3 Adapters Cables and Special Accessories Connections TI Ps 2 wire round cable with screen length approx 2 5 m I Grey plastic housing General technical data fe Operating temperature o OT 5 9 3 2 Adapters and Standard Cables DKAI 2222 Angle Adapter for channel generator DKG 1 DKG 2 e 1 module housing with lateral connector for DKG male and connection to PC in front Allows front sided connection of ProLine interface cable in distribution installation e Simple mounting by clicking on DIN rail and pushing to the DKG Techaiesl Det EEE DSUB 9 pole male for DSUB 9 pole female 17 5 x 85 x 58 W x Hx D in mm 1 module DKK1 222 22
65. 20 Ohm km The local components you re going to employ have an overall power consumption of 5 mA which approximately corresponds to 50 pieces of the operating signal input DSS 4U you will find the power consumption of each module in the data sheet or in our calculation scheme Assuming that all components are located at the outermost end of the bus conductor the maximum line length can be calculated as follows where S is the value for the loop resistance t l an ta 120 5 mA km Thus the maximum line length I is 3 3 km 3 4 Line Termination With longer distances gt 1 5 km between channel generator and line terminals there is a danger of signal reflections occurring which adversely effect the transmission In such cases it is advisable to fit terminal resistors at both line terminals The line termination should be arranged as illustrated below Dupline 150 nF Resistor 0 3 W Resistor 150 Ohm Diode 0 3 W 2V7 Dupline 0 5 W DM LTerm A The line termination is also available separately as a DIN rail mounted device DT 01 37 501 006 Page 20 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 3 Notes on Wiring and Installation 3 5 Lightning Protection 3 5 Lightning Protection Dupline systems which could be exposed to lightning strikes should be provided with suitable lightning protection This applies especially to aerial lines and lines installed outside of buildings
66. 250 or NR24 1300 power supply units the maximum length of the leads for the power supply is limited to 50 m Controls The DDI 2 is provided with the following controls Shutter Left f Lr Down 1 Move up one 2 Move down page one page 3 Switching on off or UR command 4 Switching on off or DOWN command 3931264 4A In addition to the key functions described in the illustration the following combinations provide extra func tions 1 and 2 Displaying the system menu see next chapter Page 138 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 6 Components for Visual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC 2 and 4 Overriding the keypad lock If the keypad lock has been activated while configuring in DDIconf or in the system menu operation of the DDI 2 can be temporarily enabled for approx 25 s by pressing this combination Resetting DDI 2 events If events configured in DDIconf occur the DDI 2 will display the configured event text and lock the navigation of buttons 1 and 2 In order to enable operation again press buttons 2 and 4 If further events have occurred in the interim then these should also be acknowl edged Resetting after a bus fault System Menu You can change some basic settings at the device itself even after the DDI 2 has been installed and con figured with DDIconf e The language The settings for
67. 26 Skz Notec on Product DESEIDUONS u een ae 26 GE TMI eege 28 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC reen 28 5 2 2 DKG 20 DKG 21 GSM Channel Generators n00nnnnnennnnnennnnneennnennnrnnnnnrerrnnnrrreenenee 33 MOUS ae ee res EN 41 5 3 1 DBM 1 Surface Mounted Proximity Detector nennen nenne 41 5 3 2 DIR 2 Infrared Remote Sons ee 44 5 3 3 DLUX Surface Mounted Light Level Sensor nenn 47 5 3 4 DNP 8E 8 Way Binary Input Board 24 VD 49 5 3 5 OPIN TEPresence Detel sinne ee een Be 52 5 36 DARD Sr Smoke and Fire Detector nu nn u ea dee 56 5 3 7 DRT 1 Room Thermostat in Installation Housmg nenne nennen ernennen 59 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VD 61 5 3 9 DSS 4R DSS 4R EIB Operating Signal Sensors with Acknowledgement 67 5 3 10 DSS 2U DSS 4U DSS 8U Flush Mounted Operating Signal Inputs 70 5 3 11 DSU 1U Flush mounted 1 Channel Binary Signal Converter 73 5 3 12 DSU 2U Flush mounted 2 Channel Binary Signal Converter 75 5 3 13 DSU 8 8 Channel Binary Signal Converter 77 5 3 14 DTS 1 Surface mounted Temperature Gensor nn 80 5 3 15 DTS 2 Temperature Sensor in Installation Housing nnnonnnneannneennnnnnnnennnnnnnnnsnrennnnnnne 82 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meier 84 5 3 7 DWS 12 Walter Stp SOM SOM eco en 87 Te 89 5 4 1 DDM 1Rplus 1 Way Light Scene Dimmer DIN Rail Mounmted 89 5 4 2 DD
68. 3 km the position of the bus components must be observed and the possible usage of a line termination should be considered Existing cables may be used if they fulfil the requirements listed in the table below For your assistance the following table shows the most important line characteristics for the two different areas of applications If you have doubts concerning influence quantities in your application use the higher demands coming from industrial buildings and don t hesitate to ask us fo Domestic buildings Industrial buildings Cable twist Yes approximately 5 times per meter Only when installed near to consum Yes ers with more than 1 kW The shielding must have an earth wire resistance of less than 2 Ohm and may only be earthed at one point You will find cable recommendations in Chapter 3 2 on Page 19 Reference figures and calculation examples can be found in Chapter 3 3 Cable Length and Resistance on Page 20 NN Use only cable with same characteris tics Insulation resist The insulation resistance should meet Insulation resistance ance and dielectric the requirements for protective low at least 100 000 kOhm resistivity voltage VDE0100 Part 410 Dielectric resistivity at least 500 V Multicore cables The usage of such cables is uncritical in respect to Dupline All unused wires Cross section capacity resist ance have to be earthed at one point lt is not allowed to connect multi wire
69. 7 D D 1 4 1 8 2 4 2 8 3 4 3 8 4 4 DC DC IL Dupline D Dupline D WM 24V DC OV DC 3931182_1E Indicators Indicator Description S Green BUS OK LED Dupline bus Off bus fault On bus OK Red LED Switching relays 1 8 Off relay open or no N connection On relay closed Typ Max Current input Input channels None Output channels 8 control channels Switching relay outputs 1 8 All or nothing relay 10 uA of Voage ewe T T owe Dm TEA of Mobagel t2VDC FOV 100m OA e POA Dupline Planning Aid and Product Information February 2006 v1 60 Page 129 5 System Components 5 4 Outputs 5 4 12 DSM 8 8 Way Binary Relay Output 230VAC DIN Rail Mounted Doe p Ke Min Type Max Jeondescert lompe IL COW 1 2900 W 1 2000 W ll 600 W last el 3 Energy saving lamps conv bal 1250 W Operating Voltage I Tee 26 5 VDC Cent in S mA Ripple vottage le 290 mV KSE ES mm 25mm BEER Boeing TI Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 72 x 85 x 58 W x H x D in mm 4 modules Lamp Loads 300 W General technical data J o Ambienttemperature 209 45 C Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 121 8 Way Relay Output DSM 8 1 The data relate to a minimum service life of 25 000 switching cycles and the
70. ANNEL nennen 110 d ER 113 sticking he 190 SI Building Management System 174 189 signal Inputs and outputs cece cecseceeteeeeseeeesseeeees 19 signal converter OS LEE 73 DSU 2U une na 75 RSR 77 single room temperature control 59 61 le urn 184 185 SIWR aan 184 185 SV EE 184 smoke deiechor a 56 Page IV February 2006 v1 60 e JENES ER oer eee ene reer eee ee eee ee ene eee 35 software for channel generator ssnsssnnseennnennnsernneeennn 174 for touch panels ceesceesesseeseteeessseeeeens 144 148 SWITCHING CONlaels a ee 15 SYSTEM Configuration uuueeeseneennennennennennennnnnennnnennnn 8 T temperature sensor Be pare meres ree Metre een 61 DIS Teenage 80 DTS ZDIS 2 Pr anne 82 tendering phase 0 eccceceteeeeseeecseeeeseeeeseeesseeesseees 174 termination UNE es a re 19 20 of RS485 at DKG 20 DKG 21 GSM 33 Of RS485 CONNECTIONS uneeeesseeeennneneennenennennnn 22 les ler er Leeman ee 165 IEXLASBIaY ee 137 THCRIMOSIAL Hull 59 61 time division multiplex method ss ansnnnsnnnnnnennneennennnn 12 touch panel DIS EE 145 BS ee 142 NOUSING un as een 172 173 programming software ssssssessenennernnernereeen 144 transmission or Sonal nnec aan 11 V visualisation BDESEWIEr eonen 178 TPG AID nee 179 IN leisure facilities 0 00 eeeeseesesteesesteeeesneeens 179 Of DKG VDKG 2a 30 of DKG 20 DKG 21 GSM mnir 34 office
71. Connections Description 1 1 Switching ch 1 Lin Switching ch 3 Lin Switching ch 1 Lour Switching ch 3 Lout Switching ch 2 Lin Switching ch 4 Lin Switching ch 2 Lour Switching ch 4 Lour 1 3 Dupline signal conductor Dupline Dupline signal conductor Dupline 0 VDC operating voltage 24 VDC operating voltage Page 122 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 10 DSM 4M 4 Channel Relay Output with manual operation DIN Rail Wiring Layout and Dimensions L1 L2 L3 a FEN N Doepke Relais 1 Relais 2 ml BUS OK Dupline 1 7 2 3 2 7 13 3 3 7 4 3 4 7 D 1 4 1 1 8 2 4 12 8 13 4 3 8 4 4 4 8 DC DC Dupline II Dupline 24V DC ov DC Indicators Green BUS OK LED I Dupline bus Off bus fault On bus OK All or nothing relays 1 4 Down Relay open or no N connection UP Relay closed Min Typ Max Current input 10 uA Input channels 4 acknowledge channels channels 5 8 Output channels Operating Voltage EEE Rated operating voltage 26 5 VDC Current input 12 mA Ripple voltage 100 MV 0g Relay outputs T_T Type All or nothing relay ST O Voltage 12 VAC VE 250 VAC S Load capacity per output 100 mA A Dupline Planning Aid and Product Information February 2006 v1 60 Page 123 5 System Components 5 4 Outputs 5 4 10 DSM 4M 4 Channel Relay Out
72. DHK 1 hand encoder The standard setting is ON Notes on Applications As shown in the wiring layout below the 0 V potential of the input control voltage has to have a connection to the 0 V potential of the DSM 4E power supply to keep potential differences as low as possible In addition the inputs do neither have a prevention for contact bounce nor a signal prolongation as they are implemented for example in DSS 4U This means that the input signal has to be present for at least two bus cycles thus 256 ms Dupline Channel Allocation Relay output signal 1 4 Input signal C5 C8 Connections 4 1 4 5 Relay switching channel 4 Ch Lour 4 2 C8 Input 4 A VDC Bi Dupline signal conductor Dupline Dupline signal conductor Dupline 0 VDC operating voltage DC 24 VDC operating voltage DC Page 134 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 5 Combined Inputs and Outputs 5 5 2 DSM 4E 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail Wiring Layout and Dimensions Dupline Dupline 24V DC OV DC Indicators Indicator Description Green BUS OK LED Dupline bus Off bus fault On bus OK Red LED All or nothing relay 1 2 Off relay open On relay closed Min Typ t Current inpu Input channels 4 semiconductor inputs channels 5 8 Output channels 4 relay output channels 1 4 eee Type Inputvolt
73. DM 1Rplus R C RL Dupline Dupline 24V DC 0V DC EEE Pp Gurrent input A 4 control channels channels 1 4 Outputs oo e AC modulation control dimming incandescent lamps HV halogen Types of Z s lamps and LV halogen lamps with electronic ballast Dimmable Lamps Phase angle control dimming incandescent lamps LV halogen p RL lamps with conventional transformer Dupline Planning Aid and Product Information February 2006 v1 60 Page 91 5 System Components 5 4 Outputs 5 4 1 DDM 1Rplus 1 Way Light Scene Dimmer DIN Rail Mounted Doepke SEENEN Type Rated voltage 20 V 26 V Rated current load capacity RR 80 mA Operating voltage Rated operating voltage 26 5 VDC Current input 15 mA Terminals SR Type Contactarea 04mm 2S mm ee Type I Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 Dimensions 72 x 85 x 58 W x H x D in mm 4 modules Material General technical data ee Ambient temperature SG LEE RE 45 C Atm humidity Encl protection type standards Order number description 09 501 175 Lighting scene dimmer DDM 1Rous 1 The dimming capacity is dependent upon the ambient temperature and applies to the specified range There should be sufficient ventilation in the distribution box If several dimmers are mounted next to each other and are subject to heavy loads provision of a ventilation space of approx 10 mm is recommended Dimming from 10 up
74. DRO 4c then starts to pulse in the DOWN direction with a pulse pause ratio of 100 ms 900 ms And the same applies correspondingly for the opposite direction of course Note Please be sure to observe the following points when using the DRO 4c e Not every drive is suitable for the step mode Therefore operate the DRO 4c only with those drives which according to their manufacturer will not be damaged by frequent pulsing of 100 ms duration e Due to the wide range of different shutters and blinds perfect slat adjustment cannot be guaranteed in every case If in doubt check the interaction between DRO 4c and blinds beforehand e As the actual slat adjustment with the DRO 4c is carried out by hardware the Tilting Blinds Dupline Planning Aid and Product Information February 2006 v1 60 Page 113 5 System Components 5 4 Outputs 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units DO e p ke option should be deselected in ProLine or ProLine To use the step mode please adjust the Reverse Delay in the configuration of the object Shutter Control in ProLine or ProLine to the minimum value of 500 ms By increasing the reverse delay to 2000 ms you may disable the step mode for single outputs of the DRO 4c The timing of the Step Mode looks like following Max 1s Push button Up Max Zei gt 3s a Push button Down Relay Up Relay Down D3931270_4b Max 1s
75. Doep ke 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators signals takes place in the logic connectives where 8 markers are reserved for input and output Terminals Description Markers semiconductor inputs In Ind Q1 04 semiconductor outputs Out1 Out4 Saving the status upon power failure The built in EEPROM memory now makes it possible permanently to save the status of all channels in the event of a new start or a power failure This means that the switching status of e g toggle switch functions and real time switches are restored when restarting provided this option is activated in the configuration Radio modem In addition to the modbus protocol for visualisation the COM2 port offers the option of operating the radio modem by the Finnish manufacturer Satel With the aid of this modem it is possible to set up a locally dis persed Dupline system whereby the distance between the radio modem master and the associated slaves can be up to 3 km Even if such a system consists of several channel generators one master Radio Modem Central and up to 31 slaves Radio Modem Substation a total of 128 addresses will be available The master undertakes all automatic tasks within the system and polls cyclically the data of the connected slaves The latter do not get their own configuration The following diagram illustrates the structure of such a system DKG 20 21 2 Central 32 DKG
76. Dupline Bus System j Planning Aid and Product Information February 2006 v1 60 Dupline Bus System Planning Aid and Product Information February 2006 v1 60 Doepke Registered Trademarks IBM and IBM PC are registered trademarks of the International Business Machines Corporation Microsoft MS DOS and Windows are registered trademarks and Windows NT Windows 2000 and Windows XP are trademarks of the Microsoft Corporation Dupline is registered trademark of the Carlo Gavazzi Group Liability All information contained in this document of Doepke Schaltgerate GmbH amp Co KG is protected by copyright The reproduction and processing altering and or transfer against payment of such informa tion is permissible only with the express written approval of Doepke Schaltgerate GmbH amp Co KG This information is provided solely as customer information and does not constitute a binding guaran tee or undertaking It is subject to changes at any time be it in technical content or in price commer cial terms Binding statements can only be given following specific enquiries Being non binding no liability of any kind can be accepted for the accuracy of the information The use of this document is solely at your own discretion Doepke Schaltgerate GmbH amp Co KG accepts no liability for any damages arising from the use of this document in particular breakdown of operations loss of earnings loss of information and data
77. E 70 with acknowledgement n ennnnnnnnnonnnnnnnnnnenenennnn 67 output board AAWAY sense 131 O WAV aan 104 OUIP NS sea 14 P planning Of Projects 181 power SUPPLY ueeeseseennnnsennennnnnennonnnnennennonnnnnennnnnennnennnnnn 14 NT 24 250 and NT 24 1300 eee 160 presence detector BAS Ob EE 41 DPM EE EE 52 Sieten 189 programming software TOU DUE nennen 137 February 2006 v1 60 Page Ill Index TONE Ca EE 174 OF BSGC 3 D S610 A 144 148 ProLine bro mehco raerssnnunn an a 174 DIOLCCHON TY DOS Hause 17 proximity detector DBM EE 41 BPM Tessa 52 SIE n EE 84 R radio transmission distributed system radio modem 35 relay output Way ee 117 WAN een 119 A CHAMING Baier 122 4 way with acknowledge ensnoonennnennnennnnenae 125 4 way with Inputs uceeeeenseneenennennennnennennnnnennnnnn 134 Ge E 128 remote configuration visualisation via network 151 ENEE Ee 44 control with SMS GM 33 control with webserver nneen 175 Lei leet 18 ORCaDIES 2 een 20 RGS LE Mo wre ee ee 21 Ebert 21 Room thermostat DAT ee 59 BIG RE 61 Kee 22 S sensors for operating signals ueeeeeeennennen 67 70 for proximity detection nasnnoennnenannneenaennne 41 52 TON Faln and WIN BE 185 ION level Sense 47 temperature a 61 80 82 WIIEL een 87 SNIEIANG nee einer 18 shutter control TecChannel EE 107 A CH
78. E Serial to Eihnermet Port Sener anmain oi Sege 151 5 7 3 DSI 1 Dupline Modbus Interface AA 155 58 Load andiPOWer SUDDIY UNE ana ae ae seele 157 5 8 1 LT 500 LT 1200 Remote Dimmer Load Modules DIN Rail Mounted 157 5 8 2 NT 24 250 NT 24 1300 24 VDC Power Supply Units DIN Rail Mounted 160 9 9 ACCES Eeer 163 591 DARK Hand Lee EE 163 oe DTO TEEN 165 5 9 3 Adapters Cables and Special Accesesores 166 5 9 3 1 DDA 1 DCF Antenna for DKG 20 DKG 21 GDM cc eecceeeeeeeeeeeeeeeeeeeeees 166 5 9 3 2 Adapters and Standard Cables 167 5 9 3 3 Cable for Hand Encoder DHK 1 and Tester DT 170 5 9 4 Installation ee EE 172 5 1 0 SOWA eurer ee ee 174 5 10 1 ProLine ProLineNG Configuration Software for Channel Generators 174 5 10 2 Webserver Visualisation Software nnnannnnannunannenennnnernnsnnresnrrrsrrrrrnnrrenrrrsnnrennrrrennne 175 5 10 3 DDE Server Visualisation in Office Applications ccccceccccceceeeeeeeeaeeeeseeeeeeeeesseeesees 178 5 10 4 DPCamp Software for Commissioning and Interfacing in Leisure Facilities 179 Chapter 6 Notes on Project Planning Ol E i E 1 E E SAA EEA nr seien 181 62 Gu ideline Tor Project Planning sesi ee 181 6 3 Form Tor Assigned Adaresses us innen lan 182 Chapter 7 Examples of Circuit Diagrams 7 Incorporating SL Components Eee 184 7 1 1 Link up of Wind Rain Detectors
79. I DNP 8E Dupline bus signal Connector for channel encoder DC BUS 8 17 16 5 14 13 D H POW BUS ov DC es Dupline Dupline Dupline Planning Aid and Product Information February 2006 v1 60 Page 49 5 System Components 5 3 Inputs 5 3 4 DNP 8E 8 Way Binary Input Board 24 VDC Do c p Ke Connections 11 14 Inputs 1 4 15 18 Inputs 5 8 DUP Dupline signal conductor Dupline GND Dupline signal conductor Dupline and 0 V operating voltage 24 VDC operating voltage Dupline Channel Allocation inputs 1 4 inputs 5 8 Indicators Indicator 1 Deseegen S Green LED Operating voltage Off no supply On operating voltage OK Yellow LED Dupline bus Off bus fault On bus OK Coo o Wal o Me C J SCS ee CS urrentinput T NEE EEE ee Weieaiugdsgel sowe Contactor EEE Peakourrentatmakef a Transition resistance I Great voas JI e Oms mA Currentatmake ll 2 Screw terminal ooo coda oam O zsm Open circuit board General technical data J o BE ee po Atm humidity 20 3 80 Ambient temperature Page 50 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doe p ke 5 3 4 DNP 8E 8 Way Binary Input Board 24 VDC Min Typ Mae Encl protection type standards o Accessories 4 retaining clips for mounting the assembly Optional Support bracket for mounting on DIN rail Order number des
80. In Dupline this method is realised for in all 128 signal values which means that every value is transmitted in each cycle Since the naming of the channels with pure numbers from 1 to 128 is difficult to understand an address value is assigned to each channel Thus the signals transmitted by Dupline can be called either channels or address values Contrary to other bus systems these addresses or channels do not serve as a physical response to inputs or outputs but represent a function e g input and output signals Such a function could be to quote the simplest example the switching of a lamp This function is then carried out simply by the con figuration of the input and the output with precisely this address lf the input now switches the signal on i e it activates the function the output will react accordingly 2 2 2 Carrier Signal and Channel Addresses Inputs and outputs require a transportation so called carrier signal for transmission of signals this one is generated by the channel generator DKG 1 This carrier signal consists of a synchronising signal of 8 ms length and up to 128 channel pulses each with a length of 1 ms The following diagram illustrates the signal sequence and the address assignment Tu II Channel re Channel Caine Au Synchronisation lt Channel Signal 1 e 1 1 ae 8 ms 1 pe The channel pulse following immediately after the synchronising signal is al
81. Input Signal 7 IN 7 4 1 4 5 Input Signal 4 IN 4 4 2 4 6 Input Signal 8 IN 8 Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Channel Allocation Input signal 1 4 Input signal 5 8 Indicators Indicator Ci escription S Green BUS OK LED I Dupline bus Off bus fault On bus OK 8 red LED EIN Input signals 1 8 Off no input signal detected On input signal detected Current input Input channels 8 input signals IN 1 IN 8 Output channels electrically isolated with rectification Voltage Current input Line length I Currontinput ma SS Termin ES DS Sontaetarea o4mmo Housing Type I Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 Page 78 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 13 DSU 8 8 Channel Binary Signal Converter Min Type Max 72 x 85 x 58 W x Hx D in mm 4 modules Polycarbonate General technical data ee E Ambienttemperature DOC 45 C Dupline Planning Aid and Product Information February 2006 v1 60 Page 79 5 System Components 5 3 Inputs 5 3 14 DTS 1 Surface mounted Temperature Sensor Doep Ke 5 3 14 DTS 1 Surface mounted Temperature Sensor e Temperature sensor with PT1000 probe e Temperature range 30 C to 60 C e Compact housing e Power supply via the Dupline bus e Suited for outside use P
82. MU 1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted 93 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail mounted 97 5 4 4 DNP 8A DPN 8A 8 Way Binary Output Board 24 VD 104 5 4 5 DRO 1U Flush Mounted 1 Channel Shutter Control Un 107 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Un 110 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units 113 5 4 8 DSM 1U Flush Mounted 1 Way Binary Relay Output 117 5 4 9 DSM 2 2 Way Relay Output with 4 Semiconductor Outputs DIN Rail Mounted 119 5 4 10 DSM 4M 4 Channel Relay Output with manual operation DIN Rail Mounted 122 5 4 11 DSM AR 4 Way Relay Output with Acknowledge Feature DIN Rail Mounted 125 5 4 12 DSM 8 8 Way Binary Relay Output 230VAC DIN Rail Mounted 128 eine le Retter e EE 131 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke Contents 5 5 1 DNP 4 DPN 4 4 Way binary Input and Output Board 24 VD 131 5 5 2 DSM AE 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail 134 5 6 Components Tor Vis al TEE 137 564 DDI2 2 Row Text Display Z4 VDE anna LH 137 5 6 2 DSC 10 Touch Screen Panel 3 8 24VDC nennen nn 142 563 DSC 3 Touch Screen Panel NEE 145 5 7 JEE EE DEE 149 5 7 1 DFA DI Dupline Remote Actuator Iniertace 149 5 f 2 BEI T
83. On Valid telegram received 1 After switching on the bus the LED remains activated until the first valid command has been received Technical Data Min Type Max Currentinput 18mA MA Input channels Output channels 8 switching commands Plug terminals screw terminals included in package 04mmo 25mm Neutral polar white housing Dupline Planning Aid and Product Information February 2006 v1 60 Page 45 5 System Components 5 3 Inputs 5 3 2 DIR 2 Infrared Remote Control Doe p Ke Technical Data Continued Min Te General technical data 000 Ambienttemperature 10 TI 45 C Am hung TI 85 Encl protection type standards EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 169 IR receiver DIR 2 Mins Typ ized Operating Voltage Transmission TI Number of switching channels 8 Housing G General technical data TI Ambienttemperature 201 Am humidity LI End protection type standards S Order number description 1 The maximum range is dependant upon the ambient temperature and light intensity and may therefore vary Number of channel groups I 8 A to H Page 46 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 3 DLUX Surface Mounted Light Level Sensor 5 3 3 DLUX Surface Mounted Light Level Sensor Permits the transmission of light levels via the Dupline
84. PIN operation beco mes possible Temp correction 9 8 49 8 C Enables the room temperature measured by the DRT to be cor rected down or upwards e g for compensation for a possible temperature rise within the device itself Displays the version of the DRT 2 s system software 1 The default language of the DRT 2 upon delivery is English The existing language is dependent upon the language setting during configuration Connections D Dupline signal conductor D OD Dupline signal conductor D 24 VDC Operating voltage 24 VDC 0 VDC Operating voltage 0 VDC Page 64 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC Wiring Layout and Dimensions 3931264_2A 24 VDC 3931264_1A 3931264_3A Technical Data Channels 16 general Dupline channels channels for temp control ze Background ightng Programmes Standard standby comfort party thermostat inhibit heat frost protection thermostat reset Dupline Planning Aid and Product Information February 2006 v1 60 Page 65 Display 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC UO O D S D echnical Data Continued Typ Max Measuring range 45 C oO Resolution 0 25 K C Measuring error 1
85. PN xx input and output boards e For mounting input and output boards such as e g DNP 4 on DIN rail e Consists of one base mounting unit and two side parts e This mounting unit can be used in standard sized distribution housings Technical Data BE 67 x 87 x 39 W x H x D in mm mounted Order number description 09 501 152 DNP DPN mounting unit DPH 2 DSC 10 UPG Flush mounted housing for DSC 10 touch panels e For installing DSC 10 touch screens in cavity or solid walls e Very simple installation due to the plaster guard as supplied e Magnetic fixing of the touch panel in the housing Elegant design with black anodised frontplate Technical Data Dimensions flush mounted section 127 x 106 x 54 W x H x Din mm 158 x 132 W x H in mm 0 to 35 mm electro galvanized metal 1 0 mm Aluminium 1 0 mm black anodised 09 501 213 Flush mounted housing for DSC 10 Page 172 February 2006 v1 60 Dupline Planning Aid and Product Information Doe D ke 5 System Components 5 9 Accessories 5 9 4 Installation Accessories e For installing DSC 2 DSC 3 touch screens in cavity or solid walls e Very simple installation due to the plaster guard as supplied e Magnetic fixing of the touch panel in the housing Technical Data Dimensions flush mounted section 169 x 127 x 77 W x Hx Din mm 217 x 176 W x H in mm 0 to 30 mm electro galvanized metal 0 8 mm 09 501 202 Flush mounted housing for DSC 2 DSC 3 Dup
86. Please simply call us General technical data J PC Requirements Min P3 with 500 MHz or equivalent min 64 MB RAM 128 MB recommended e Serial RS232 connection COM interface to channel generator e Network card mouse Software Requirements Microsoft Windows NT 4 2000 XP Pro German English on request Functions Display and control of Dupline channels counter value acquisi tion forward of data to billing programmes Order number description 08 501 010 DPCamp 25 license for 1 25 berths 08 501 011 DPCamp 50 license fur 26 50 berths 08 501 012 DPCamp 100 license fur 51 100 berths 08 501 013 DPCamp 200 license fur 101 200 berths 08 501 014 DPCamp 200plus license for 201 berths and more Page 180 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 6 Notes on Project Planning 6 1 General Chapter 6 Notes on Project Planning 6 1 General Although the planning and commissioning of Dupline installations is not at all complicated proceeding in a structured way it will facilitate such planning and commissioning This chapter provides a guideline on how to proceed as well as model templates which can be used for planning the project 6 2 Guideline for Project Planning 1 2 3 Preparing the performance specifications a Defining the switch control points push buttons IR remote controls b Defining the loads shutters lamps c Defining the functionality delayed
87. Polyamide PA6 General technical data Ambient temperature Atm humidity Encl protection type standards 35 C 85 IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 09 501 138 Shutter control unit DRO 1U 10 C Order number description Dupline Planning Aid and Product Information February 2006 v1 60 Page 109 5 System Components 5 4 Outputs 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit DO e p ke 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit e Control of 2 shutters 230 VAC to max 2 A e Electronic and mechanical latching of the direction of shutter movement Product Description With the DRO 2 shutter control unit two independent shutter motors or drives of blinds and skylights can be controlled Drives with a current rating of up to 2 A can be controlled at 230 VAC per relay provided that they are part of the same circuit The DRO 2 is equipped with a safety circuit which locks the control direction electronically as well as via the software furthermore any incorrect operation is prevented by the channel generator s logic facility The green LED situated in the coding and test socket indicates that the Dupline bus signal is functioning properly Two further LEDs per output UP and DOWN indicate the current control direction of the out put The status of outputs in the event of a bus fault can be preconfigured and is adjusted to UP 1 by fac tory by means o
88. Scene Dimmer DIN Rail Mounted Doepke caused by a short circuit has to be reset manually after the fault has been rectified by disconnecting the Lin phase for approx 3 seconds from the mains supply The lighting scenes are retrieved via a combination of the Dupline channels 1 4 of the dimmer the fol lowing table provides an overview of the combination inputs Factory Setting of Light Channel 1 Channel 2 Channel 3 Channel 4 Value Dani a a Ton u M e o tight scenet E en Tosen E on tight scenes im en tight scenes S SO tight scenes 1 D mm tight scenes en 100 neat po 100 not changeable 1 This scene is the priority switching in the event of a bus fault The light value is achieved in approx 3 seconds Every lighting scene can be retrieved via one or more channels In order to recall e g lighting scene 4 the input channels 1 and 4 have to be activated simultaneously All lighting scenes are preset at the factory with the dimming factors specified in the table they can be altered to any value In order to design lighting scenes with several dimmers the individual dimmers simply require an identical channel configuration e g addresses A1 A3 A4 for input 1 3 4 for retrieval and storage of lighting scenes and input 2 for the individual setting of the lighting scenes By using central control items in Pro Line it is thus very easy to set up made to measure lighting arrangements
89. This product from Messrs Carlo Gavazzi Industri A S Denmark stands the test for many years in more than 100 000 industrial applications and has now been optimized for use in building installation by Doepke By observance of the absolute compatibility between the products of Carlo Gavazzi Industri A S and those of Doepke you are able to fall back on a very large product range Ask us 1 5 2 The Technology Dupline is a programme of modules for transmitting signals which can be configured to provide economic solutions for a very wide range of applications in the industrial sector as well as in building installations This system for signal acquisition and remote control could also be termed as follows e Building installation bus Field bus e Remote actuating system e Field multiplexer e Remote I O system e Remote control system e Decentralized signal acquisition and control system e Transmission system for monitoring and control e etc The basic function of Dupline can be summed up as follows Input of different signals at various remote locations transmission of these signals to different locations and output of the signals either in the form in which they were input or in a different form As opposed to conventional point to point wiring of all signals in one system with Dupline all signals are routed via only two industry standard wires The simplicity of Dupline s application makes it very attractive for installers electrician
90. V Dupline Planning Aid and Product Information February 2006 v1 60 Page 95 5 System Components 5 4 Outputs 5 4 2 DDMU 1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted Doep Ke Min Type Mae Rated current load capacity Y y used and the shielding connected to OV DC Operating voltage S n 26 5 VDC 29 mA ee NNT S Contactareaf um 2 5 mm Housing o oo Type I Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 Generalteehnealaa OOOO oo O Ambient temperature 060 eg Order number description 09 501 181 Lighting scene dimmer DDMU 1plus The wiring should not be installed in parallel to live mains cables If necessary provide shielding Dimming from 10 up to 100 or from 100 down to 10 Pulse width modulation Any current consumption at this signal output represents an additional load on the 24V supply One LT 500 or LT 1200 typically requires 1 mA Rated current load capacity St N Dt SN 4 2 3 4 SN ON Page 96 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail mounted e DDM 2 DDM 2plus RE MERKUR 2 outputs each of 200 W protected against overload short cir ee Ier cuit overvoltage outage s Bis e DDMU 2 und DDMU 2plus Ke d Si i 2 outputs 1 10 V for
91. a the Dupline bus It is therefore suitable e g for burglar alarm and lighting control purposes The DBM 1 has a range of 12 m and an angular coverage of 90 Its various switches permit selection of the transmission time on the Dupline bus and the configuration of the switching characteristic normally open or normally closed sabotage control setting and the activation of the LED operation check indi cator Any slow movements which correspond to a scanning frequency of less than 0 5 pulses second are not detected Neither are fast movements corresponding to a scanning frequency above 5 pulses second are registered Several DBM 1 units installed in one room do not affect each other lt does not require an external power supply as it is supplied by the Dupline signal line Notes on Applications Installation The DBM 1 should not be mounted in the following locations e in outdoor areas e in locations which are exposed to either sunlight or car headlights direct exposure in locations subject to direct air flow from heating or air conditioning equipment in locations subject to rapid temperature changes in locations subject to strong vibrations in the vicinity of glass or other objects which reflect the emitted infrared rays Maximum capacity Up to 32 proximity detectors may be connected to one Dupline bus With 32 connected DBM 1 no further inputs or outputs can be operated Scanning angle distance
92. a transfer by the channel generator configured as master i e a PC or touch screen is no longer required Easy access to data of other channel generators by means of external references e Visualising is possible at every DKG with some qualifications see Chapter 4 2 Visualisation on Page 24 e Synchronisation of clocks of all DKGs via the master in the network When setting up such a network please note in addition to the points in Chapter 4 1 2 Installation of RS485 Networks on Page 22 the following e Allocation of device addresses to the slaves should start with 1 and be consecutive i e gaps in the numbering are to be avoided as these may cause delays in communication e If a DCF and or GSM antenna is to be connected to the master it is important to select the correct positioning Such antenna may normally not be fitted in the distribution box For details on installation and operation refer to the operating instructions for the DKG 20 DKG 21 GSM and to Chapter 5 2 2 DKG 20 DKG 21 GSM Channel Generators on Page 33 The following illus tration shows the layout of a modbus network with DKG 20 and DKG 21 GSM Page 22 February 2006 v1 60 Dupline Planning Aid and Product Information 4 Networks and Visualisation 4 1 Networks Doep Ke 4 1 3 Networks with DKG 20 DKG 21 GSM DKG 20 21 DKG 20 21 DKG 20 21 32 Master 1 Slave 2 Slave RS485 Modbus Please note that the visualisation at several PCs or touch pan
93. age 10vDC 0 VC Internal resistance LC 22 KOM Relay outputs EEE Type Voltage Load capacity per output Voltage Load capacity per output ES pe Dupline Planning Aid and Product Information February 2006 v1 60 Page 135 5 System Components 5 5 Combined Inputs and Outputs Doep ke 5 5 2 DSM 4E 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail Min Type ECH Incandescentlamps IL OO WW 1 2900 W 1 2000 W ees 600 W last el 3 Energy saving lamps conv bal oT 1250 W Operating Voltage I Tee 26 5 VDC 20 mA e Dreier 280 mV KSE ES mm Am BEER Boeing TI Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 72 x 85 x 58 W x H x D in mm 4 modules Lamp loads 300 W General technical data J o Ambienttemperature 209 45 C Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 106 Four way relay output DSM 4E 1 The data relate to a minimum service life of 25 000 switching cycles and the connection requirements as per IEC 60069 2 Min 5 000 switching cycles 3 These data are largely dependent upon the manufacturer In case of doubt please refer Page 136 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 6 Components for Visual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC 5 6 Component
94. age Protection Channel 7 of the DPM 1 generates a static 1 signal If it is disconnected from the Dupline bus this can be detected by means of an appropriate configuration in the channel generator and an alarm signal trig gered For this purpose it is advisable to use an alarm system in the DKG Wiring Layout and Dimensions 3931254_2A 3931254_1A 1 Operating mode rotary switch 2 RJ12 jack for address encoding 3 Potentiometer for adjustment of twilight sensor s switching threshold Connections D Dupline signal conductor D SC Dupline signal conductor ee decoupled input potential Opto decoupled input S 2 0 30V AC DC 0 30V AC DC Dupline Planning Aid and Product Information February 2006 v1 60 Page 53 5 System Components 5 3 Inputs 5 3 5 DPM 1 Presence Detector Doep Ke Scanning Angle Distance Draufsicht Seitenansicht Top View Side View 3931254 3A X Y Querschnitt Hinweise X Y Cross section Detektierungszone 1 Das x y Diagramm zeigt die Messbereiche Detection zone projeziert auf die x y Ebene 2 Die unterschiedlichen Muster zeigen die Mess bereiche der 5 optischen Achsen mit den 16 Linsen Ein Objekt dessen Eigentemperatur sich von der Hintergrundtemperatur unterscheidet und sich von einem Messfeld zum anderen bewegt wird sicher erkannt Remarks
95. allel to live mains cables If necessary provide shielding The lighting scenes are retrieved via a combination of the Dupline channels 1 4 of the dimmers the fol lowing table provides an overview of the combination pue is Factory Setting of Light Channel 1 Channel 2 Channel 3 Channel 4 Value C0 rot change Tht scret ll En Tight scone O 9 ion scones ooo tight scones mn Dupline Planning Aid and Product Information February 2006 v1 60 Page 93 5 System Components 5 4 Outputs 5 4 2 DDMU 1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted Doep Ke inputs is Factory Setting of Light Channel 1 Channel 2 Channel 3 Channel 4 Value 1 This scene is the priority switching in the event of a bus fault The light value is achieved in approx 3 seconds Every lighting scene can be retrieved via one or more channels In order to recall e g lighting scene 4 the input channels 1 and 4 have to be activated simultaneously All lighting scenes are preset at the factory with the dimming factors specified in the table they can be altered to any value In order to design lighting scenes with several dimmers the individual dimmers simply require an identical channel configuration e g addresses A1 A3 A4 for input 1 3 4 for retrieval and storage of lighting scenes and input 2 for the individual setting of the lighting scenes By using central control items in Pro Line it is thus very easy to set up mad
96. and times AnaLink Data The DSC 3 permits representation of analog values which are transferred to the bus by the AnaLink pro cedure numerically as well as graphically e g as bar charts Freely Programmable Functions The DSC 3 can be programmed extremely freely by means of scripts typical applications being tempera ture and sequence control Notes on Applications Compact Flash Card CF Card The DSC 3 is equipped with a slot for standard CF cards as commonly employed in e g photographic technology Cards with memories of 16 and 32 MB can be used They permit retrospective exchange of Dupline Planning Aid and Product Information February 2006 v1 60 Page 145 5 System Components 5 6 Components for Visual Display 5 6 3 DSC 3 Touch Screen Panel 24 VDC Doep Ke an application e g in order to carry out corrections The CF card is exchanged on the back of the DSC 3 the cards are not supplied with the unit Flush Mounting As the DSC 3 is a unit intended to be semiflush mounted and as it is cooled by natural ventilation a suffi cient flow of air must be ensured when installing Alternatively the DSC 3 may also be installed in the Doepke DSC 3 UPG2 flush mounted housing Order no 09 501 202 This rugged housing makes it easy to install the DSC 3 in cavity or solid walls and ensures sufficient dissipation of heat For further details see Chapter 5 9 4 Installation Accessories on Page 172 Wiring Layout and Dimensions
97. as with a LED to indicate that operating voltage is applied As a Safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is OFF Notes on Applications When connecting the boards it should be noted that contrary to other inputs and outputs the OV lead as well as the Dupline signal conductor must be connected to the GND terminal Moreover any small loads or switches which when operated connect with OV may not be connected directly to the Dupline signal conductor For further details please refer to Chapter 2 3 4 4 Compo nents with external DC power supply on Page 15 Connections O1 04 Output 1 Output 4 Output 4 O5 08 Output 5 Output 8 a signal conductor Dupline Dupline signal conductor Dupline and 0 VDC operating voltage 24 VDC 24 VDC operating voltage 24 VDC operating voltage DC Voltage for output load Dupline Channel Allocation Output 1 Output 4 Output 5 Output 8 Indicators Indicator 1 Deseegen O S Green LED Operating voltage Off no supply On operating voltage OK Yellow LED Dupline bus Off bus fault On bus OK Page 104 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 4 DNP 8A DPN 8A 8 Way Binary Output Board 24 VDC Wiring Lavout and Dimensions
98. be sited so that visual contact between hand transmitter and receiver is ensured and reflection reception is possible In so doing the maximum range of 15 m may not be exceeded Walls and glass panes prevent reception and are therefore to be avoided In addition light and exposure to sun can impair reception characteristics The following diagram shows the recommended mounting of the receivers on the wall 2 Transmitter The transmitter is powered by two standard AA mignon cell batteries Page 44 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doep Ke 5 3 2 DIR 2 Infrared Remote Control Wiring Layout and Dimensions DIP Switches Dupline Switching group O ON DIP ON DIP ON DIP ON DIP WEHA HEAS 6A HERR 123 4 123 4 123 4 123 4 Switching group EI ON DIP ON P ON DIP ON DIP DI SC 6 RB SB BN AAAR H IN 123 4 123 4 123 4 12 3 3931222 3A 3931222 2A Connections Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Channel Allocation The assignment between Dupline addresses and the switching commands is independent from the channel groups of the transmitter receiver unit and is as follows Transmitter switching commands 1 4 Transmitter switching commands 5 8 Indicators Indicator PC escription 77T Red LED Reception of valid telegrams Off No or invalid telegram received
99. bus Light range from 0 1 Lux to 100 kLux e Compact size e Power supplied by the Dupline bus e Suited for outside use Product Description The DLUX analog light level transmitter is designed to convert analog light intensity data for transmission via the Dupline bus The light intensity data can be transmitted on 8 independently encodable channels and can thus be compared in the channel generator with 8 different threshold values in order to control loads Because of its compact design the DLUX can be mounted unobtrusively on e g walls of houses It does not require an external power source as it is supplied by the Dupline signal line Notes on Applications Installation The DLUX should normally be fitted in a position where light from outside illuminates the room to be con trolled e g on a wall with windows which are to be blacked out by shutters Any shadow thrown on the sensor by e g eaves or similar protrusions results in the sensor s registering higher levels of darkness and if it is functioning as a twilight switch leads to its loads being switched on too early and switched off too late which has to be considered when defining the threshold values Optic feedback from light shining on the DLUX must be avoided as far as possible as the effect of such light on the sensor when the lighting is switched on may result in a cyclic make and break operation When selecting the installation site consideration should also be given to envi
100. bus systems Encoding Assignment of the Dupline address to a component When encoding the Dupline component gets an address e g B5 which ena bles the device to exchange data with other device Firmware Process or operating system This software most often is located on fixed programmed intelligent devices as e g DKG 1 It makes basic functionality available Page 4 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 1 Introduction 1 3 Abbreviations and Terms Abbreviation FPROM Flash Programmable Read Only Memory Memory module which is permanently programmed with data by applying a voltage Human Machine Interface Previously called Men Machine Interface MMI today also called SCADA see SCADA Light emitting diode Light emitting semiconductor diode Modbus Protocol for data exchange via serial interfaces Modbus RTU the basic pro tocol has been standardised by Messrs Gould Electronics NPN Transistor Semiconductor component with np junction for switching currents This design permits the switching controlling of loads which are connected to the supply voltage e g 24VDC Printed Circuit Board PNP Transistor Semiconductor component with pn junction for switching currents This design permits the switching controlling of loads which are connected to neutral Profibus Abbreviation for Process Field Bus This is a bus system that original
101. cables in parallel in order to increase the size of cross section When using multiple voltage levels in one multicore cable the national regula tions for protective low voltage have to be observed Cable routing Not critical Do not install near to power cables more than 500 V Cable branching The resistance of the clamp terminals should be as low as possible pay spe and terminals cial attention to the clamp contact being properly tightened Page 18 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 3 Notes on Wiring and Installation 3 2 Cable Recommendations Domestic buildings Industrial buildings Positioning of mod On line lengths of more than 3 km or high line resistance the arrangement of ules the modules may influence the functionality of the Dupline system The chan nels generator then should be located in the centre of the application Where this is not possible the channel generator should be installed near to the high est concentration of input modules Line termination Should be considered on line length of more than 3 km See Chapter 3 4 on Page 20 Lightning protec Has to be provided always on outdoor applications see Chapter 3 5 on tion Page 21 Signal inputs and Put sensors as close as possible to the input modules the length of lines must outputs not exceed the length specified in the data sheet Generally the same parasitic induction and thus also same the
102. cause of their longer lifespan we recommend the use of LEDs EIB enabled 2 way switches of Messrs Berker Gira Peha and Siemens can be linked to the Dupline bus with the aid of the DSS 4R EIB Connection is made easy with the flexible circuit board supplied com plete with system plug connectors The switch can subsequently be fitted on the mounting board pro vided Notes on Applications Because of their compact design the operating signal sensors will fit behind the push button in a normal socket installation box If the switches are locally distributed the line between the switches and the sen sors may be up to 1 m long The clips provided facilitate the installation and allow the Dupline signal and the 24 VDC voltage to be connected and looped through Both sensors are equipped with a 4 pole flat plug connection for encoding the addresses with the DHK 1 coding cable DKP 2 It is not possible to carry out a bus test with the DTG 1 tester via this connection Connections DSS 4R Cable Loom 1 Cable Loom 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 67 Signa 24 VDC Cathode LED Operating signal input T1 Operating signal input T2 green black Operating signal input T4 Operating signal input T3 Cathode LED2 Cathode BUS OK LED 5 System Components 5 3 Inputs 5 3 9 DSS 4R DSS AR EIB Operating Signal Sensors with Acknowledgement Doe p Ke Wiring Layout and Dimensions 3931176_1A D
103. connections for different module types are explained below Page 14 February 2006 v1 60 Dupline Planning Aid and Product Information 2 Dupline The Basics 2 3 Inputs and Outputs Do c p Ke 2 3 4 Power Supply 2 3 4 2 Components with AC power supply Components which operate with AC voltage always have their own separate connections for their supply It must of course be ensured that the correct operating voltage is applied 2 3 4 3 Components with internal DC power supply In the case of components which are supplied by the Dupline bus signal the Dupline signal conductor has to be utilized for supplying e g switching contacts see DSS 4U In so doing it should be ensured however that the distance between the connection to the neutral con ductor and the component is not too long as shown in following figure Right Wrong Caution Lines should be kept identically long therefore even if you only need to use the signal conductor always install the signal conductor as well Different line lengths can cause transmission faults Supplying power to switching contacts by the Dupline signal conductor results in the termination of the data transfer and is therefore not permissible 2 3 4 4 Components with external DC power supply As Dupline is a bus system which is separated from potential there should basically be no connection established between external power supplies and the bus conductors An exception to thi
104. cription 09 501 139 8 way input DNP 8E 09 501 130 DIN rail support bracket DPH 1 09 501 152 DIN rail support bracket DPH 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 51 5 System Components 5 3 Inputs 5 3 5 DPM 1 Presence Detector Doep Ke 5 3 5 DPM 1 Presence Detector Extra sensitive passive infrared sensor which reacts to thermal movement Radius of detection max 5 m 360 Integrated twilight switch and power input Selection of operating modes For use indoors Product Description The DPM 1 presence detector is a locally installed component of the Dupline installation system and ena bles the presence of people to be monitored and any movements within rooms to be detected Its typical power consumption is only 560 uA Its highly sensitive infrared optical unit with a 360 scanning angle and a mounting height of approx 2 m above the persons to be detected can register the slightest temper ature movements of people animals or objects within a 5 m radius Being equipped with an integrated twilight sensor enables the DPM 1 to be operated dependent upon the light conditions in the room The light level below which the detector is to be triggered is adjustable between 0 2 and 200 Lux via the potentiometer on top of the housing The signal function of the DPM 1 can be influenced via the Dupline bus thus the Dupline channels can permanently enable or disable the infrared sensor By means of feedi
105. ctor inputs for DC and AC voltage 30 V Type Input voltage Switching threshold Operating voltage w o lt lt Not required from Dupline signal conductor Terminals Type Screw terminals Contact area Type polar white housing for surface and flush mounting Dimensions surface mounted 80 x 80 x 35 W x H x D in mm flush mounted surface 15 mm depth 20 mm Material Polycarbonate General technical data Ambient temperature Atm humidity max 85 exposure to dew not permissible Encl protection type standards IP20 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 201 Presence detector DPM 1 1 When mounted 2 m above the persons to be detected 2 After bus voltage is applied 2 5 mm 50 C e Dupline Planning Aid and Product Information February 2006 v1 60 Page 55 5 System Components 5 3 Inputs 5 3 6 DRD 3 Smoke and Fire Detector Doe p Ke 5 3 6 DRD 3 Smoke and Fire Detector e Smoke detector according to Tyndall effect Detection of smouldering fires and flaming fires with smoke development e Without radioactive sources e Detection of up to 60 m e Transmission of alarms and life signal via Dupline e Operating voltage supplied by Dupline bus Product Description The smoke detector DRD 3 allows an early detection of smouldering fires as well as flaming fires that develop smoke It operates on the proven light scatter principle Inside the se
106. d the signal of the rain detector at C6 require a coded address and should be configured in ProLine as a push button function Note Since the inputs of the DSM 4E are not potential free please particularly pay attention to the general notes concerning the operation voltage supplies Chapter 2 3 4 on Page 14 Especially in this case the DSM 4E and the SIWR respectively the SIRW should be provided by the same power supply unit to avoid potential differences L1 12 EEE L3 3 2 C5 3 6 C6 4 21C7 4 6 C8 SIWS A2 Alarm COM VCC GND Dupline IT pupine PP DE TT woo Jo BE EEE OV DC Page 184 February 2006 v1 60 Dupline Planning Aid and Product Information Doe ke 7 Examples of Circuit Diagrams 7 1 Incorporating SI Components D 7 1 2 Link up of Wind Rain Detectors SIWR SIRW via DSU 8 7 1 2 Link up of Wind Rain Detectors SIWR SIRW via DSU 8 The next circuit example illustrates how the wind detector or the wind relay SIWS SIWR and the rain detector SIRW can be linked to the system via the inputs of the DSU 8 Both the signal of the wind relay at the IN1 input and the signal of the rain detector at IN2 require a coded address and should be config ured in ProLine as a push button function 3 1 IN 3 IN 7 In7 IN 8 1 31 1 7 23 27 3 3 3 7 43 47 D l D COM 1 4 lilli 24l 28 3 4 3 8 44 as VCC GND DC DC Dupline iia Dupline fP ft eg Ie OV DC Duplin
107. e DSI 1 Modbus Interface When employing the DSI 1 for visualising it is basically immaterial whether this takes place within a net work or which channel generators are being used You have the possibility of operating practically any number of DSI 1s on a Dupline bus see illustration below left The right hand illustration shows the complete visualisation in a network consisting of connected DKG 1 and or DKG 2 Because the serial ports are already in use here visualisation can be via the DSI 1s whereby the latter must be assigned different slave addresses This has the advantage that the data exchange between DKGs takes place automatically For detailed information on the DSI 1 please refer to Chapter 5 7 2 DSI 1 Dupline Modbus Schnittstelle on Page 148 Dupline Planning Aid and Product Information February 2006 v1 60 Page 25 5 System Components 5 1 General Information 5 1 1 Overview DO c p Ke Chapter 5 System Components 5 1 General Information 5 1 1 Overview In the following chapters the available system components are introduced and their technical characteris tics described in detail The components are subdivided into the following groups and chapters respectively Gentral Units nn Chapter 5 2 uiid Page 28 These are channel generators which constitute the necessary component of any Dupline system Jeu Chapter 5 3 nee Page 41 This group encompasses all devices which capture data and transmit them to th
108. e DTG 1 is a small pocket sized tester for displaying as well as changing the channel status of the Dupline bus With its choice of operating modes the DTG 1 can be used to display and change binary data as well as counter and analog data Its combination of size LCD display and practical key pad means it Is ideally suited for demanding commissioning jobs in rugged environments Being powered by the Dupline bus it does not require batteries It is supplied complete with a connecting cable to connect it to Dupline components Western connector and a cable which can be clipped directly on to the Dupline signal conductors This makes it possible to determine the channel status at any locations of the bus Min Type Max Dupline JI lU EU 4 mA Controls and Indicators Te Operating Voltage TI Housing LI Polycarbonate grey General technical data J Ambienttemperature Of Atm humidity 2 1 cable jack for Western plug DKT 1 1 cable jack for grip testing clips DKT 2 Order number description 09 501 113 Tester DTG 1 09 501 127 DKT 1 09 501 128 DKT 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 165 5 System Components 5 9 Accessories 5 9 3 Adapters Cables and Special Accessories Doe p Ke 5 9 3 Adapters Cables and Special Accessories 5 9 3 1 DDA 1 DCF Antenna for DKG 20 DKG 21 GSM e Enables reception of the DCF time signal from the transmitter in Rugby UK e Active antenna
109. e Dupline bus for processing These also include e g sensors OUND ONS see een Chapter E Page 89 These components output the data e g 24 VDC or 230 VAC switching signals Also included are special devices such as shutter controls and dimmers Combined Inputs and Outputs s000 Chapter 9 nennen Page 131 Components which both input and output signals can be found in this chapter This also includes for example the DSM 4E Components for Visual Display Ghapler 9 6 EE Page 137 Here you will find modules which assist in displaying the data and status of a system This includes e g the DDI 2 text display Interface Components uuu2uu200nnn nnn0n0nenn Chapier D T en lie Page 149 This chapter contains a list of those devices which can be used for communication with other systems such as e g the DSI 1 Load and Power Supply Units uuu 0 CINADU ON EE Page 157 EENEG Chapter 3 9 EE Page 163 Here you will find encoding and test equipment cables and other accessories SOlWare u n anne Chapter 5210 a en Page 174 Here you will find the ProLine configuration software and further visualisation software 5 1 2 Notes on Product Descriptions The description of every component normally includes the following sub sections Characteristics Here you will find a short summary of the most significant characteristics Product Description This section provides a detailed descriptio
110. e Dupline signal conductors at a component have been transposed lt may result in the failure of the Dupline bus transmission on the bus lines is then no longer possible What happens in the case of a bus failure e g a break in the signal line Provided there is no short circuit the components connected to the damaged section of the bus will merely adopt the preconfigured switching status This means that the outputs emit the priority switching direction ON or OFF previously programmed with the DHK 1 hand encoder Page 188 February 2006 v1 60 Dupline Planning Aid and Product Information 8 Suggestions Questions and Problems 8 1 FAQs Doep ke 8 1 2 Questions Concerning the Products 8 1 2 Questions Concerning the Products require a Dupline component with special functionality Which options are available to me Please contact us We will be able to tell you whether such a device is already in preparation or on offer from a partner company or whether we will be developing the device as a one off especially for you would like to use a different visual display component on the Dupline bus Is that possible This is always possible provided the visual display component can cope with the Modbus I RTU protocol This protocol is supported by the DSI 1 modbus interface and permits the connection of any control dis plays It is thus also possible to use visualising software which can be run on a PC provided there is a modbus driver
111. e Planning Aid and Product Information February 2006 v1 60 Page 185 7 Examples of Circuit Diagrams 7 2 DRO with DC Drives 7 2 1 Feed in by one Power Supply Do c p Ke 7 2 DRO with DC Drives Often skylights are equipped with DC drives with operating voltages of 12 V or 24 V You can use these motors with the DRO 2 as well as with the DRO 4b resp DRO 4c if you observe the following 1 When using only one power supply the DRO 2 is able to control one drive the DRO 4b c two drives 2 The DRO 2 version has to be a new one i e the input terminals Liy must not be jumpered Using a continuity tester is the easiest way to check this Older models also can be recog nised by means of missing terminals 2 2 2 6 7 2 1 Feed in by one Power Supply Encode the shutter controls resp configure the channel generator as follows Motor 1 DRO 2 DRO 4b c Motor 2 DRO 4b c only Configuration in ProLine Shutter Control on A1 A2 Shutter Control on A3 A4 Encoding of Channels Perform the wiring of the DRO 4 according to the following drawing for DRO 2 use terminals with the same signification see Chapter 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit 24VDC owe l Gi H SS Gi gt fe A A L N AUF e Doepk NT 24 1300 W K 5 Bi u W WM 1 4 1 8 2 4 2 8 3 4 3 8 4 4 4 8 B1 B2 B1 B2 Dupline Dupline 24V DC ov DC Page 186 February 2006 v1 60 Dupline Planning Aid and Product Inf
112. e ProLine configuration programme available No As we are not selling the software you are actually able to download the original version from our homepage http www doepke de uk without incurring licence fees Are texts for tenders available for Dupline components Yes You will find the most up to date version on our homepage http www doepke de uk How much do Dupline components cost A complete price list is available from us upon request Please also take a look at our homepage http www doepke de Is it possible to connect products from third parties to the Dupline bus Yes The DSM 4E see Chapter 5 5 2 DSM 4E 4 Way Binary Relay Output with 4 Semicond Inputs DIN Rail on Page 134 allows to feed 24 VDC signals into Dupline In addition the components DSU 2U see Chapter 5 3 12 on Page 75 and DSU 8 see Chapter 5 3 13 on Page 77 allow converting DC volt ages from 20 up to 300 V and AC voltages from 150 up to 250 V The incorporation of such components is illustrated by means of examples in Chapter 7 1 Incorporat ing SI Components on Page 184 By means of the DSS 4R EIB you also may integrate 2 way EIB operating signal sensors from different manufacturers Therefor please read Chapter 5 3 9 on Page 67 Can link the Dupline bus to other systems Yes There is the possibility of connecting Dupline to foreign systems via the Profibus and the Modbus Simply call us we willingly advice you What happens if th
113. e option of grouping intuitively operable surfaces can be generated The readability of the display is further facilitated by the configurable back lighting which can be set either to permanently On and Off mode to operation at the touch of a button with preset time or activation by a Dupline channel Protection against accidental or unauthorised operation is provided by a key lock and a PIN the basic key lock can be cancelled by simultaneously pressing two button keys the PIN enquiry by entering a four digit numerical code Data Types The DRT 2 can display digital or analogue Dupline channels Digital channels such as e g push button functions time switch channels and master controls can also be operated switched On or Off provided the channel generator is so programmed Analogue channels such as e g those of light level or temper ature channels can be scaled and displayed with the relevant physical unit Shutter control objects which occupy two channels Up Down are shown on one page so that switching in both directions is possible without scrolling to another page Note Analogue data which are transmitted by the DRT 2 always have a measuring range of 0 C to 45 C This applies to e g room temperature but also to any set values which are transmitted Configuration The configuration of the display is carried out via the free DRTconf software which can be downloaded from our from our homepage http www doepke de uk With
114. e to measure lighting arrangements For a detailed description of the configuration and operation refer to the operating instructions on the Building System CD Order no 09 501 001 or the Internet at http www doepke de uk Connections Dupline Channel Allocation Central Off Lighting scenes 3 4 6 Ackn signal dimming output Dimming On OF e use Lighting scene 1 06 Lighting scene 2 4 576 e ise Indicators Indicator _ Description __ Green BUS OK LED Dupline bus Off bus fault On bus OK Red LED EIN Off 1 10V resp PWM control output are switched off On 1 10V resp PWM control output are switched on Page 94 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 2 DDMU T1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted Wiring Layout and Dimensions 230V 500VA GU Is LT 500 3931235A 02 08 S S Dupline Dupline 24V DC 0V DC Mi Type 1 Max po Currentinputy 50 pA OO Input channels 1 acknowledge signals dimmer on off Outputs El Ballast Jo oo Semiconductor control output for el ballast sink electrically iso lated from operating bus and mains voltage Ratedvotagef VP Rated current load capacity OMA Dimming velocity P a Relay output for El Ballast f 10 A max 25 EVG each with 58 W Outputs LT 500r 1200 gt S S SS PWM control output approx 70 Hz Rated voltage 26
115. ebruary 2006 v1 60 Page 7 2 Dupline The Basics 2 1 System Configuration 2 1 1 Overview Do c p Ke Chapter 2 Dupline The Basics 2 1 System Configuration 2 1 1 Overview A Dupline system basically consists of four components Symbol Two wires A pair of wires connects all Dupline components with each other and thus permits the signals to be relayed One channel generator The channel generator provides the carrier signal on the Dupline bus lead This signal permits the components of the bus to exchange data by means of the time multiplex method Input modules Input modules or inputs for short within a Dupline system detect the switching status or pick up analog data and make these available to other items connected to the bus Output modules Output modules or outputs for short emit the signals of the Dupline system e g via relays or instruments Combined inputs and outputs such as e g the DSM AE provide a practical addition to the Doepke Dupline system But as they function like standard components they are not specifically listed here This chapter deals with the structure of single Dupline systems networks consisting of single systems are described in Chapter 4 Networks and Visualisation on Page 22 Page 8 February 2006 v1 60 Dupline Planning Aid and Product Information 2 Dupline The Basics 2 1 System Configuration Doe D Ke 2 1 2 Transmission Line Structure 2 1 2 Transmission Line Structure The
116. eck the following e Have you coded out non required channels of the the DSM 4R will generate a signal on the acknowledge channels 5 8 whenever the relevant output channels have been switched on Also the additional channels 2 7 of the DLUX light level sensor have frequently not been coded out so that the transmission of the analogue value results in switching on these channels e Are there logic connectives which access previously unused addresses Time and again the relay points of my shutter control unit are sticking Why Here too there may be several causes e The DRO 1U and DRO 2 shutter controls may only be operated with the relevant roller blind Up Down ProLine item so that the switch over idle time when changing direction from UP to DOWN and vice versa is maintained Under no circumstances may the shutter control units be operated with other items Even the use of the tester if incorrectly configured may result in the destruction of the relay points Do not make any changes to the bus system as long as the mains voltage for the shutter controls is switched on When connecting the bus conductors switching channels could be activated sporadically and the reverse idle time might be disregarded Check the current at make and constant current of the shutter If the figures exceed the relay points maximum load capacity of 2A the shutter control unit is being operated outside the limits of its specifications Check w
117. ed it looks as follows Client Viewer IE Configurator local operation The software consists of three parts 1 Webserver This makes available the HTTP port which can be accessed locally or via the network e g Internet It contains the images and data which have already been prepared with the configurator and which the server continuously receives from the Dupline system connected to the PC Dupline Planning Aid and Product Information February 2006 v1 60 Page 175 5 System Components 5 10 Software 5 10 2 Webserver Visualisation Software Doe p Ke If the Webserver is to be accessed via the Internet it requires a connection with a TCP IP address al smart house server JJANSSEN 3 15 x Server Language Look amp Feel Help Control panel ud 0 Stop weh server J About x Exit Server setup Server user status Web server HTTP port L Ho users Master Generator COM port Master Generator status lt Communication ok 2 Configurator This is used to prepare the visualisation images First the channel definitions and description are read in by opening the appropriate ProLine file With a simple and easy to use drawing tool ground plans can then be prepared in no time at all Using the drag and drop method predefined symbols icons can be positioned on the screen with the mouse Finally these symbols are assigned a control and display address from the previously read channel descr
118. eed Transmission parameters Line length Serial interface RS 485 O D Oo 3 adjustable 2400 4800 9600 19200 38400 57600 115200 Baud Line ent o 1000 m Real time clock better than 1 minute month Buffer time 48h GSM modem DKG 21 GSM only Type Siemens TC35 Dual band EGSM900 and GSM1800 Antenna connector FME socket Output power Typ 2 W EGSM900 1 W GSM1800 gt Q O C o O lt Dupline Planning Aid and Product Information February 2006 v1 60 Page 39 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators Doe p Ke O Mn O Typ Terminals Screw terminals 2 5 mm ing to DIN EN 50022 Material Polycarbonate Ambienttemperature oi 50 C Order numbers description 09 501 191 Active DCF antenna DDA 1 09 501 190 GSM antenna DGA 1 09 501 188 channel generator DKG 20 09 501 189 channel generator DKG 21 GSM Page 40 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 1 DBM 1 Surface Mounted Proximity Detector 5 3 Inputs 5 3 1 DBM 1 Surface Mounted Proximity Detector Passive infrared sensor which reacts to human movement For indoor use Range up to 12m with a 90 angular coverage reaction time selectable Power supplied by the Dupline bus Product Description The DBM 1 infrared proximity detector detects the movement of people inside rooms and transmits the data vi
119. een Panel 3 8 24 VDC Wiring Layout and Dimensions 130 mm gt LA nm 104 mm 92 mm D mm D3931259_1 04 01 A Cut Out Area lt lt 118 5 mm D3931259_2 04 01 A e 92 5 mm Mn ype Max O l Type of connection Via DSA 3 directly to DKG e Via DSA 4 and modbus adapter DSI 1 to Dupline bus Display ee Type Screen diagonal dimension Display size Resolution Touch surface Contrast adjustment 8 settings via the unit s configuration menu Function keys 8 soft keys programmable Background lighting LED service life 50 000 hours Brightness adjustment 2 settings via the unit s configuration menu Dupline Planning Aid and Product Information February 2006 v1 60 Page 143 5 System Components 5 6 Components for Visual Display 5 6 2 DSC 10 Touch Screen Panel 3 8 24 VDC Doepke Mi Tye Character sets ASCII code Chinese Japanese Taiwanese and Korean 8 x 8 8 x 16 16 x 16 and 32 x 32 dots SS User memor interfaces gt y TE DSUB 9 female RS485 2 DSC 10 DUP DSUB 9 male RS422 DSI 1 connected via DSA 3 _ Text _ Chars D 3 O lt lt lt Connection of Dupline signal lines via screw terminals slave addresses 1 or 2 All types Interface for download cable Operating Voltage EE Power consumpionf IM 24 VDC 28 8 VDC Housing Le General Technical Data PO Operating temperature OF 50 10 90 ex
120. eer 14 231 Sem EE 14 2 3 2 Address Lee TEE 14 2 3 3 FUNCUONS rise esr id a ts a i a a arcana tee sel eal eh ae edna coe Sate ate 14 2 3 4 ee e EE 14 234 1 GOING Male EE 14 2 3 4 2 Components with AC power supphy nacioni a 15 2 3 4 3 Components with internal DC power supply sssssessseserrseerrrreerrrrrerrreresrrreeen 15 2 3 4 4 Components with external DC power supply cccceeeccceceeeeeeecaeeeeeesseeeeeesaaees 15 Standards and Enel sure Protection aa a eal eanacturaeiegseitne wants 17 24 1 SION ANOS ee A aa 17 242 Enclos re Protection Lie 17 Chapter 3 Notes on Wiring and Installation 3 1 3 2 3 3 3 4 3 9 General et 18 Cable eil ele Eden EE 19 Cable Lengihi and Resistance nes en 20 EINE OVUM AO I WEE 20 EIGRININGIPLOTEELON near Rain 21 Chapter 4 Networks and Visualisation 4 1 NELWOTKS ses ae N ee sense Anl Mies tele 22 Dupline Planning Aid and Product Information February 2006 v1 60 Page 1 Contents Do e D ke 4 2 AA OVERVIEW ee ee ea Eee a el 22 4 1 2 Installation of HGAOb Networks 22 4 1 3 Networks with DKG 20 DKG 21 GSM Aerar a EE E iaai 22 VISUGIIS aUo Yun re ana Eee 24 2 OVERVIEW een as ae ae Be ee NE A 24 4 2 2 Visualising at the Channel Generator 24 4221 DRG EEN 24 4222 DRG20 DKG2TF OSM ei ee 24 4 2 3 Visualising with the DSI 1 Modbus Intertace 25 Chapter 5 System Components 9 1 5 2 5 3 5 4 5 5 Page 2 General MTOR AON aueh 26 ST e
121. els is a functionality of the visualising soft ware and hardware Dupline Planning Aid and Product Information February 2006 v1 60 Page 23 4 Networks and Visualisation 4 2 Visualisation 4 2 1 Overview DO P Ke 4 2 Visualisation 4 2 1 Overview Dupline offers numerous possibilities of visualising the open modbus protocol permits the linking of the most diverse display devices HMI or SCADA from PC to touch screen There are two basic ways of linking 1 Directly at the serial port of the channel generator or 2 Via the DSI 1 modbus interface The following table illustrates which functions in respect of visualisation are available with the individual system configurations 4 Detailed information on networks in provided in Chapter 4 1 Networks on Page 22 above Channel Switch Status read write AnaLink Values read only Counter Values read only Setpoint Values read write Switching Times read write Channel Switch Status read write AnaLink Values read only Counter Values read only Setpoint Values read write Switching Times read write Note If for example you want to employ several touch screens which are to have access to the same data records then this can be accomplished within one network by using several DSI 1s 4 2 2 Visualising at the Channel Generator 4 2 2 1 DKG1 DKG 2 The first generation of channel generators permits connection of a visualising component not only locall
122. em As a safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is OFF Notes on Applications When connecting the boards it should be noted that contrary to other inputs and outputs the 0 V lead as well as the Dupline signal conductor must be connected to the GND terminal Moreover any small loads or switches which when operated connect to 0 V may not be wired directly to the Dupline signal conductor The corresponding power supply has to be installed very close to the board For further details please refer to Chapter 2 3 4 4 Components with external DC power supply on Page 15 Dupline Channel Allocation inputs 1 4 Connections DM 14 pImputt 4 00 4 O1 04 Output 1 4 ee a signal conductor Dupline Dupline signal conductor Dupline and 0 V operating voltage 24 VDC operating voltage 24 OUT Voltage for output load Dupline Planning Aid and Product Information February 2006 v1 60 Page 131 5 System Components 5 5 Combined Inputs and Outputs Doep ke 5 5 1 DNP 4 DPN 4 4 Way binary Input and Output Board 24 VDC Indicators Indicator fT Description S Green LED Operating voltage Off no supply On operating voltage OK Yellow LED Dupline bus Off bus fault On bus OK Wiring Layout and Dimensions Dupline Power s
123. em present i Bu 1 Connecting to net Red LED D3 Red LED DKG 21 GSM only ale 3 Ga SIM card missing i No mobile phone network present El No answer from modem Sending SMS Receiving SMS D OI ND Page 38 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators Mi Typ Max Dupline Output voltage 8 2 V pulsed frequency approx 1 kHz Output curren Cycle time 16 128 channels Short circuit protection Operating Voltage Rated operating voltage 115 230 VAC 15 45 65 Hz Power consumption Typ 7 VA 3 W Power on delay Output voltage Terminals 32 33 Digital Outputs 130 mA 24 ms 136 ms Yes 2 55 10 VDC 1 V D PNP transistors programmable O Typ Short circuit protection Rated operating voltage Rated current load rating Digital Inputs 35 VDC 100 mA Type Semiconductor Threshold limit n gt 5 5 V Off lt 1 5 V Rated operating voltage Rated current Serial interface COM1 30 V AC DC 6 mA RS 232 9 pole SUB D socket Modbus I RTU 115 kBaud Type Transmission speed Transmission parameters 8 bit no parity 1 stop bit Line length Serial interface COM2 w 3 RS 232 9 pole SUB D socket Modbus I RTU adjustable 2400 4800 9600 19200 38400 57600 115200 Baud 8 bit no parity 1 stop bit Transmission sp
124. ements may result in reflections These could perhaps be reduced by providing a compensating circuit at the DKG or by providing a terminal resistor Please refer to Chapter 3 Notes on Wiring and Installation on Page 18 Does the system include loads which require high start up currents and which are not switched via Dupline In such cases it may well be possible that the Dupline signal conductors are subject to interference from load lines and initiate switching operations This can normally be remedied by shielding the signal conductors Are tableau boards of types DNP DPN being used If so check the wiring of the 24 V supply and of the Dupline signal conductors The OV lead of the voltage supply must on every board be precisely connected to the Dupline signal conductor DUP at the COM terminal Similar to the cause quoted above is the position of the voltage carry over if several decentral distribution facilities with Dupline components are being used then equipotential currents may occur These are only dangerous if they flow via the Dupline signal conductor Dupline Planning Aid and Product Information February 2006 v1 60 Page 189 8 Suggestions Questions and Problems 8 2 Contact 8 1 4 Problems DO c p Ke and can thus interfere with the communication This can be remedied by interconnecting all OV wires of the 24 VDC voltage supply Having installed a new component other loads are also unintentionally being switched Why Ch
125. en the systems then interlinking is unavoidable 4 1 2 Installation of RS485 Networks When setting up a RS485 network with DKG 1 DKG 2 DKG 20 and DKG 21 GSM please note the follow ing points e A linear layout is essential running continuously not radially from DKG to DKG e Use only twin core shielded cabling the shielding must reach all bus members The cross section of the cabling should be at least 0 8 mm e The shielding should be low impedance connected to earth potential e The maximum cable length from the first to the last DKG is limited to 1000 m at max 115 000 baud e You should provide a termination at the first and the last bus member in the case of DKG 20 DKG 21 by inserting jumper wires or with DKG 1 DKG 2 by inserting terminating resistors e It is recommended that you install all DKGs of a network at one location and thus benefit from the advantage Dupline has over the RS485 network the long cable lengths 4 1 3 Networks with DKG 20 DKG 21 GSM The new generation of channel generators DKG 20 DKG 21 GSM have been equipped with an enhanced modbus interface offering the following advantages e Up to 32 channel generators can be linked to form a network e Interface converters are no longer required RS485 connection is direct at the DKG e Configuration of all network members is via the PC connected to the master in addition the DCI 2 allows remote configuration see Chapter 5 7 2 on Page 151 e Automatic dat
126. ent phases Each load can have a current consumption of up to 16 A Each switching channel is provided with an acknowledge feature to indicate the output voltage which is actually present This acknowledgement can be given on the one hand by the LED and on the other hand by transmission via the Dupline bus The green LED located in the coding and test socket on the front of the device indicates that the Dupline bus signal is functioning properly The all or nothing relays are designed for retentivity which results in their status being stored should a power failure occur In addition and to safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is ON Notes on Applications The DSM 4R is suitable for usage in distribution cabinets in outside applications and thus can be used on camping sites and yachting marinas In order to utilize the physical acknowledgement of the module each channel to be acknowledged has to be wired to the relevant N terminal The N connections should not be used as a feed through for the N conductors of several loads In the case of circuits involving differing RCCBs care should be taken that N is correctly assigned The LED of a switching channel will not be lit if there is no N connection The right connection of Liy and Lour has to be observed Dupline Channel Allocation Relay output signals 1 4 Acknowledge signals 1 4
127. ents sensors light wind and temperature sensors e Proximity detectors with time extension e ISA fire water and intruder alarm systems make and break contacts acknowledgement reset lamp check and audio alarm signal e Shutter control and central shutter control Logic connectives The channel generators permit up to 64 logic combinations to be programmed with the following opera tors e AND OR XOR Exclusive Or e Rising Falling flank e Disabling of operators In addition to the 128 Dupline channels also 32 internal markers from W1 up to Z8 may be used LC Display The back lit 4 digit LCD display shows all relevant information concerning the device which can be changed by use of the control buttons The time clock is displayed as a standard feature in the event of an error an error code will appear Time clock The time of the integrated real time clock is used in the sequencing programme and is also shown on the Page 28 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC resp LCD display It incorporates time of day date day of the week and year and can be set either via the con trol buttons or by means of ProLine Serial interface On the one hand the interface enables the DKG to be connected to the PC in order to carry out the config uration with the ProLine software and on the other
128. erdischnicl dee O Oo Page 150 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 7 Interface Components 5 7 2 DCI 1 Serial to Ethernet Port Server 5 7 2 DCI 1 Serial to Ethernet Port Server e Enables e g configuration of channel generators DKG 20 and DKG 21 GSM as well as visualisation of a Dupline net via Ethernet media e Data transfer from PC to DCI 2 via a virtual COM port e Power supply either by means of a plug power pack or via the serial connection Product Description The DCI 2 is an interface component with the capability of converting data packets from Ethernet on to a serial line and vice versa For this purpose the driver included in the package emulates a serial port a serial interface at the PC and diverts data sent to it to an Ethernet network The re conversion from Ether net to serial is then undertaken by the DCI 2 close to the DKG By equipping the master in a DKG network with two DCI 2 at COM1 and COM2 of the DKG you will be able to remotely configure as well as to visualise from a remote location For further information on DKG networks please refer to Chapter 4 on Page 22 Notes on Applications General The configuration of slaves in a DKG network requires after the initial assigning of slave device numbers only one DCI 2 which is connected to the master However if it is necessary to furnish the slaves remotely with new firmware then e
129. f the hand encoder DHK 1 the status can also be configured to DOWN LO and changed at any time Notes on Applications Caution For the control of motors it is absolutely necessary to use the ProLine object Roller blind since otherwise the required reverse delays cannot be kept This may lead to damages at the relay contacts and motors connected to them The encoding of addresses must be carried out so that the UP channel gets an odd address A1 B5 etc and the DOWN channel gets the following even address A2 B6 etc Note lf the motor runs in the wrong direction despite a correct address configuration then the relevant connecting wires of the motor have been interchanged In such a case reconnect the wires correctly under no circumstances may the address be exchanged Due to the software s locking the direction of control in the channel generator both signals will be trans mitted following a DOWN instruction up to channel generator version 3 06 This also has the effect that both signals are indicated by the tester this is therefore not a fault indication Usage of DC drives With the newer design of DRO 2 with separated Lu terminals for the motors you can also control DC drives You ll find details about this in Chapter 7 2 DRO with DC Drives on Page 186 Dupline Channel Allocation emm Motor 1 UP em Not assigned 2 o Motor 1 DOWN 6 Not assigned Motor 2 UP aa Not assigned Motor 2 DOWN os N
130. ficient ventilation They may not be mounted in closed airtight distribution boxes Wiring Layout and Dimensions RL DDM 1Rplus Dupline Dupline 24V DC ov DC Dupline Planning Aid and Product Information February 2006 v1 60 Page 157 5 System Components 5 8 Load and Power Supply Units Doe D ke 5 8 1 LT 500 LT 1200 Remote Dimmer Load Modules DIN Rail Mounted Connections 1 1 1 5 Dimming channel Lin Lour 2 1 2 5 N conductor input Control input S S Indicators Description Red LED Malfunction Slow sequence flashing 1 Hz Temperature too high Quick sequence flashing 4 Hz Short circuit incorrect operating mode no load monitoring overvoltage Typ Type Control inputs of e g DDM 1Rpius Length of control cable Outputs LT 500 100 m Type Semiconductor output Output voltage 230 VAC 50 Hz Rated load 10 VA cos 1 00 500 VA Type Semiconductor output Output voltage 230VAC 50Hz Rated load 10VA cos 1 IT 1200 VA Dimmable Loads Phase angle control Incandescent lamps HV halogen lamps LV halogen lamps With conventional transformers Operating Voltage Rated operating voltage 210 VAC 50 Hz 230 VAC 50 Hz 250 VAC 50 Hz 4 5 VA Power loss at rated load LT 500 Power loss at rated load LT 1200 17 VA Terminals Outputs LT 1200 LI D Gu Strain relief clamps 0 4mm Type 2 5 m
131. figuration data It is thus now in addition possible to change the following data e Time entries of the Real time Switch object e Limit data of AnaLink objects light sensor temperature sensor wind sensor and general sensor e Reading and writing of the channel generator clock Please refer to Chapter 4 2 Visualisation on Page 24 Internal real time clock and DCF radio signal synchronisation Like their predecessors the DKG 2x are also equipped with an internal back up battery supported real time clock You can improve its accuracy in two stages 1 By configuring in ProLineN a calibration with the mains frequency 2 By connecting the optimal DDA 1 active antenna so that the clock is synchronised with the time signal from an atomic clock The pulse is sent via the transmitter in Rugby UK and has a reception radius of approx 1000 km For details on the DCF antenna please refer to Chapter 5 9 3 1 DDA 1 DCF Antenna for DKG 20 DKG 21 GSM on Page 166 Note lf a network is used the master will always update the clocks of the connected slaves It is therefore advisable to connect the active antenna to the master Integrated semiconductor inputs and outputs Both the DKG 20 and the DKG 21 GSM are equipped with 4 each semiconductor inputs and outputs which have to be separately supplied with a voltage of between 10 and 30 VDC The processing of the Page 34 February 2006 v1 60 Dupline Planning Aid and Product Information
132. h 0 75 m Special note When connecting to the component care must be taken to ensure the correct polarity Order number description 09 501 126 Encoder cable DKP 2 DKP3 22 22 Spare cable for hand encoder DHK 1 To connect DHK 1 hand encoder to system components with M12 connection such as e g DTS 1 Temnica SSCS DKT 1 Spare cable for tester DTG 1 e To connect DTG tester to system components with Western plug connection such as e g DSM 2 Page 170 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 9 Accessories 5 9 3 Adapters Cables and Special Accessories Technicabaa O S DKT 2 Spare cable for tester DTG 1 e To connect DTG tester directly to the Dupline conductors DKT 1 Continued Spare cable for tester DTG 1 Ja Jack to testing clips 0 6 m 9 501 128 Tester cable DKT 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 171 5 System Components 5 9 Accessories 5 9 4 Installation Accessories Do c p Ke 5 9 4 Installation Accessories Mounting unit for type DNP xx DPN xx input and output boards e For mounting input and output boards such as e g DNP 4 on DIN rail e his mounting unit might not be used in standard sized distribution housings Technical Data DOOS O oyo 26 7 x 59 2 x 80 6 WxHxD in mm Order number description 09 501 130 DNP DPN mounting unit DPH 1 Mounting unit for type DNP xx D
133. h Mounted 1 Channel Shutter Control Unit 5 4 5 DRO 1U Flush Mounted 1 Channel Shutter Control Unit e Controls one shutter actuator 230 VAC 2A e 3 input channels for connecting standard push buttons or contacts e Locking provided electronically as well as by software to prevent simultaneous raising and lowering e Power supply via 230V mains connection e Compact outside dimensions to fit into standard flush mounted installation box Product Description The locally installed DRO 1U shutter control permits the control of a shutter motor or a drive of blinds and skylights The all or nothing relay is designed for voltages up to 230 VAC and 2 A The DRO 1U is equipped with a safety facility which prevents both electronically and by means of the software the simultaneous raising and lowering of shutters furthermore any incorrect operation is avoided by the channel generator s logic facility Three non electrically isolated inputs permit e g connection of standard push buttons for raising or lower ing shutters on site and hook up of contacts for monitoring the building at the windows As these inputs can be addressed as required their field of application is not restricted The control cables between input and push buttons can be up to 15 m long The housing of the DRO 1U is designed to fit into a flush mounted installation box and can thus be located close to the drive itself Free load lines permit the separation of earthed and 230
134. he other efficient programming The 5 7 screen 115 2 mm x 86 4 mm with 64 colours and a resolution of 320 x 240 pixel provides the user with a safe and efficient work surface The setup of the unit such as e g the contrast can be adjusted via the configuration menu The housing was designed for use in rugged industrial environments as is evidenced by the service life of the background lighting and the IP65 1f protection type of the front end The DSC 3 is linked to the two line bus of the Dupline system via the DSI 1 modbus adapter which can be connected at any desired location of the bus or via the DKG channel generators The Modbus I RTU pro tocol is always used for the actual data transfer The DSC 3 is configured via an optionally available Windows based software Microsoft Windows 95 98 NT 4 2000 XP which also includes the downloading cable This provides for the following func tions Displaying and Changing Switching Signals of the Dupline System Switching signals can be incorporated in texts and output as text There is of course the write option for this type of data i e to change their value in the Dupline bus system Events Certain events in buildings which have been transmitted by sensors can be processed so that the DSC 3 displays either plain text or alarm messages Alarms Alarms can be managed via the DSC 3 either by confirming or by resetting It is also possible to keep alarm lists specifying dates
135. hich version of the DKG 1 or DKG 2 channel generator is being used by pressing lt Enter gt It should be at least 3 07 as the switch over idle time of older versions is not maintained under certain conditions If necessary replace the channel generator If the motor connections for directions Up and Down have been mixed up under no circumstances this may be corrected by means of the encoding of the shutter control unit exchanging of the channel addresses Here it is absolutely necessary to adapt the wiring 8 2 Contact If you have any questions or suggestions on the subject of Dupline or this document please contact us by telephone e mail fax or post at Doepke Schaltgerate GmbH amp Co KG StellmacherstraBe 11 26506 Norden Germany Tel 49 4931 1806 0 Fax 49 4931 1806 101 Email info doepke de Internet http www doepke de uk Page 190 February 2006 v1 60 Dupline Planning Aid and Product Information Do e D ke Index Index 09 501 185 DDMU 2plus scenario dimmer 103 09 501 187 DDM 2plus scenario dimmer 103 Numerics 09 501 188 channel generator DKG 20 40 08 501 01x Licences of DPCamp sssssnsnnennnnennnas 180 ee SoSe tees be 09 501 190 GSM antenna DGA 1 40 09 500 102 Remote actuator IF DFA D 150 09 501 191 Active DCF antenna DDA 1 40 167 09 500 162 Power supply unit NT 24 250 162 09
136. hould be selected so that the sensor only temporarily is exposed to water Note The sensor meets the requirements of the IP 67 standard and is thus protected against temporary immersion lt may not however be immersed in water for longer periods or used for the monitoring of other fluids For encoding the sensor PCB is equipped with a pin strip feed through The hand encoder can be con nected to the PCB by means of the pin strip connector provided with the sensor Wiring Layout and Dimensions Dupline Dupline N x N bel Q o Dupline Planning Aid and Product Information February 2006 v1 60 Page 87 5 System Components 5 3 Inputs 5 3 17 DWS 1 Water Stop Sensor Doep Ke Dupline Channel Allocation 1 Alarm channel Life signal Connections 1 Dupline signal conductor D Dupline signal conductor D Min Typ Max ss I Frigger resistance 150k SCS operano vonas JI Terminas e Contact area j 0 4mm 0B mm White surface mounted housing General technical data J Ambienttemperature 20 TI 50 C input Screw terminals Page 88 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 1 DDM 1Rplus 1 Way Light Scene Dimmer DIN Rail Mounted 5 4 Outputs 5 4 1 DDM 1Rplus 1 Way Light Scene Dimmer DIN Rail Mounted e Stores 6 lighting scenes in memory e Acknowledgement of switching status e Switching dimming capacity fo
137. ies 5 9 3 Adapters Cables and Special Accessories DSA2 222 2 J Adapterfor touch panels DSC 2 DSC 3 e Adapter for connecting the touch panels DSC 2 DSC 3 and similar types to the DKG20 and DKG 21 GSM channel generators Note Please use the DSA 4 instead of the DSA 2 for connecting the DSC 10 touch panel fechhleal Bala eee DSUB 9 pole male to DSUB 25 pole male Encapsulated PCB Order number description 09 501 200 Adapter DSC 2 3 to DKG 20 DKG 21 GSM DSAAS 2222222 Adapter for touch panel DSC 10 485 to DSI 1 e Adapter for connecting the touch panel DSC 10 485 to the DSI 1 Modbus interface Techrtcol Bebe TI 9 pole SUB D male to 25 pole female DSAA 222 2 Adapter for touch panels DSC 10 232 to DKG e Adapter for connecting the touch panels DSC 10 232 to the DKG 20 and DKG 21 GSM channel generators Temnica O OOOO O Dupline Planning Aid and Product Information February 2006 v1 60 Page 169 5 System Components 5 9 Accessories 5 9 3 Adapters Cables and Special Accessories Doe p Ke 5 9 3 3 Cable for Hand Encoder DHK 1 and Tester DTG DKPIi Spare cable for hand encoder DHK 1 To connect DHK 1 hand encoder to system components with modular plug connector e g DSM 2 Temnica SSCS DKP2 _ Spare cable for hand encoder DHK 1 e To connect DHK 1 hand encoder to system components with flat plug ports such as e g DSS AU Technical Data Western for flat pack connectors Lengt
138. ing 3 x per second Page 100 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail Wiring Layout and Dimensions Doepke O EIN OEN O EIN O EIN 3931249 1a 1 3 1 7 2 7 3 7 4 3 4 7 D D Dupline u puptine O TPP YT wavoc LI LJ 0V DC PE DSU 8 DSM 4E LED x A Dupline Dupline 24V DC 0V DC Dupline Planning Aid and Product Information February 2006 v1 60 Page 101 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU Zplus 2 way Dimmer DIN Rail Do c p Ke Min Type Mae Dupline E po Currentinputp OMA 8 control channels Output A 1 4 Output B 5 8 Outputs DDM 2 DDM 2plus Rated current load capacity OW Dimmingspeed As TI Types of dimmable AC modulation control incandescent lamps HV halogen lamps lamps with electronic ballast Phase angle control LV halogen lamps with conventional transformer max phase shift 21 38 Outputs PWM Pulse width modulation DDMU 2 DDMU 2plus only Type PWM control output approx 110 Hz Rated voltage 26 V Rated current load capacity o o 30 mA Outputs El Ballast DDMU 2 DDMU 2plus only Type Semiconductor control output for el ballast current sink electrically isolated from operating bus and mains voltage 10 V 40 mA Rated operating voltage Rated current load capacity
139. iptions During the creation of an application the configurator already allows the display to be tested 3 Viewer The viewer can be used to display the prepared pictures however the browsers of the PC operating systems e g the Microsoft Internet Explorer or the Netscape Communicator are Page 176 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 10 Software 5 10 2 Webserver Visualisation Software equally suitable The Webserver offers the possibility particularly from remote locations of obtaining an overview of the actual status in the building at any time whether with a Notebook via PDA or with a mobile phone The Webserver is currently available in English and Danish A demo version for 2 digital and one analog value is available for downloading on the Building System CD and on the Internet at http www doepke de uk Registration requires a licence number and is carried out online via the Internet General technical data PC Requirements Min P2 with 450 MHz or equivalent 32 MB RAM Serial connection to channel generator Network card mouse Microsoft Windows 98 ME NT 2000 XP English Danish connected DKG 20 DKG 21 GSM Operation even without image creation Function keys definable Notification of events by e mail Visualisation of WAP capable handies Operation via PDA possible Password protection 37 501 182 Dupline webserver Dupline
140. it serves to couple two Dupline bus systems for the purpose of data exchange and in order to increase the number of channels Power failure back up In the event of the operating voltage supply failing the real time clock will continue to be powered by a condenser of sufficient capacity to ensure that at normal ambient temperatures the date and time of day will continue to run internally for approximately 5 days To provide back up for longer outages an external 9 VDC power supply needs to be connected The configured sequencing programme is permanently stored in aFPROM immediately after downloading to the DKG Watchdog Alarm function The channel generators are equipped with a so called watchdog output which displays the status of the bus When the system is operating properly the transistor will be blocking in the event of a bus signal fault or the power supply failing it will connect Notes on Applications For detailed information on applications refer to the operating instructions of the channel generator and the ProLine configuration software The latter offers complete menu guided operation for ease of use Number of channel addresses Reducing the number of channels will soeed up the configuration time and the maximum cycle time on the Dupline bus see also Chapter 2 2 Signal Transmission on Page 11 Connection between DKG and PC The connection between the DKG and a PC for configuration with ProLine preferably should be
141. l mobile phones can send commands Password protection e Specification of a facility identification text which is always contained in the SMS message Depending upon the mobile network event messages may also be transferred to landline numbers and will there be output as a spoken report Alternatively it is often possible to forward the SMS to landline numbers of fax machines in which case the result will be in the form of a protocol printout A list of the supported objects can be found in the ProLineN manual Wiring Layout and Dimensions 10 30 VDC 0 VDC a ae a eee In1 In2 In3 In4 IEN ee Wi iii Wi E 11 12 13 14 15 16 Doepke Dupline Kanalgenerator DKG 21 GSM 115 230 V 50 60 Hz D bg LO N jea CO CO bel CI FF D1 D2 D3 T 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 YMDMHOOHMHHHOHAHSHHSOSe L 230 V N DCF V DCF S in DCF V Term Failsafe B Failsafe A GND B A The wiring layout of the DKG 20 corresponds to that of the DKG 21 GSM with the exception of there being no GSM antenna socket Page 36 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators DKG 20 DKG 21 GSM PC 9 pole DSUB plug 9 pole DSUB jack 3931246_2a D3931246_6A Wiring in an RS485 Network PC ProLine Touchscreen Serial Serial Interface Interface 10 30 VDC Dupline Dupline Du
142. l protection 5 Protected against water jet 6 Protected against strong water jet 7 Protected against short immersion in water Suffix letter B Finger contact safe VBG4 Articulated test probe 12 mm length 80 mm D Wire safe 1 0 mm length 100 mm IP key Suffix letter First index number Second index number Dupline Planning Aid and Product Information February 2006 v1 60 Page 17 2 Dupline The Basics 3 1 General Notes Doep ke Chapter 3 Notes on Wiring and Installation 3 1 General Notes This chapter provides an overview of suitable measures to prevent problems with the Dupline bus system Basically because inputs and outputs only detect the pulse pause ratio of the bus signals the interfer ence liability is very low provided the influences effect both signal conductors equally This means in effect that both signal wires should be installed together and have the same characteristics Problems may arise when external sources of interference in rugged environments are able to effect the signal conductors in different degrees Because the operative ranges of Dupline are manifold and the influence quantities which may have effects on the system are unknown we as the manufacturer of the system only can give hints for the proper usage of Dupline Generally following applies e The longer the lines and the expected interferences are the higher the wire quality must be e On large line lengths from
143. line Planning Aid and Product Information February 2006 v1 60 Page 173 5 System Components 5 10 Software 5 10 1 ProLine ProLineNG Configuration Software for Channel Generators Doe p Ke 5 10 Software 5 10 1 ProLine ProLineN Configuration Software for Channel Generators e Very simple intuitive operation e Many predefined installation objects e Several languages available Runs on Microsoft Windows 95 98 NT 2000 XP Product Description ProLine resp ProLineN are the configuration programmes for the DKG 1 and DKG 2 resp DKG 20 and DKG 21 GSM channel generators They offer user friendly programming of the addresses in the channel generators with the aid of predefined objects The options available include all the objects which have already been described for the channel genera tors in Chapter 5 2 Central Units on Page 28 such as shutter controls or light level sensors The software is continuously being updated so that any new components on the Dupline bus are available immediately after their development The latest version can always be accessed via http www doepke de uk It requires no other drivers and is very compact Currently three versions are available with following correlation DKG Version DGK 1 DKG 2 up to version 1 04 ProLine version 1 03 DGK 1 DKG 2 from version 3 00 ProLine version 3 07 and newer DGK 20 0KG 21 GSM You ll find a detailed description of all functions of ProLine and ProLineN in
144. lock deviation max 65 s month Terminals Strain relief clamps 0 4mm 2 5 mm Operating Voltage Rated operating voltage Power requiremen 19 2 VDC 24 VDC 13 W 28 8 VDC 22 W Flush mounted metal enclosure Outside dimensions 171 x 138 x 60 W x H x Din mm Inside dimensions 156 x 124 x 55 W x H x D in mm Ventilation Natural air flow General technical data Ambient temperature 50 C 90 oO 10 ot to be used if corrosive gases are present 65f front CE 2 kg Ambient conditions Encl protection type standards Weigh Dupline Planning Aid and Product Information February 2006 v1 60 Page 147 5 System Components 5 6 Components for Visual Display 5 6 3 DSC 3 Touch Screen Panel 24 VDC Doep Ke Order number description 09 501 179 Touch Screen Panel DSC 3 09 501 180 CF card for DSC 3 09 501 202 Flush mounted housing DSC 3 UPG2 09 501 148 Programming software DSC 3 P 09 501 207 Programming software DSC 3 P USB 1 At 25 C ambient temperature and normal atm humidity The luminous substance can be replaced by the user Page 148 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 7 Interface Components 5 7 1 DFA DI Dupline Remote Actuator Interface 5 7 Interface Components 5 7 1 DFA DI Dupline Remote Actuator Interface e Enables a DFA remote actuator to be hooked up to Dupline e Easy to install circuit board e Powe
145. ly has been used in industry for cross linking input and output devices also on system level Today this bus system is used in various applications Profibus DP Abbreviation for Process Field Bus Decentralized Periphery This is a special version of Profibus tuned in reaction time on signal level Programming This in general is the configuration see above of the channel generator by means of ProLine there objects are inserted and configured DIN rail mounted device device for mounting on distribution facility Supervisory Control And Data Acquisition Software or device that offers the possibility to display and or to modify process signals Touch Screen Panel Touch and control panel Screen which enables commands to be input by directly touching the screen surface AC voltage DC voltage Dupline Planning Aid and Product Information February 2006 v1 60 Page 5 1 Introduction 1 4 Related Dokuments Doep ke 1 4 Related Dokuments Beschreibung E ProLine 59 00 126 Configuration Software for the Dupline Bus System User Manual 2 ProLine 59 00 142 Configuration Software for the Dupline Bus System User Manual 3 Dupline CAT DUP GER System Katalog Carlo Gavazzi GmbH 13 06 00 Page 6 February 2006 v1 60 Dupline Planning Aid and Product Information 1 Introduction 1 5 What is Dupline Doepke 1 5 1 General 1 5 What is Dupline 1 5 1 General Dupline is not anew bus system
146. m Type Distribution installation housing for rail mounting to DIN EN50022 Dimensions LT 500 35 x 85 x 58 W x H x Din mm 2 modules Dimensions LT 1200 72 x 85 x 58 W x H x D in mm 4 modules Material Polycarbonate General technical data Ambient temperature 45 C 80 10 C IEC60669 gt O S S S al a lt Q Encl protection type standards Page 158 February 2006 v1 60 U KE 5 D u pe gt gt CL pe CL U O CL E CH 5 h O en 3 pe Er O 5 Doep ke 5 System Components 5 8 Load and Power Supply Units 5 8 1 LT 500 LT 1200 Remote Dimmer Load Modules DIN Rail Mounted Mi Type Max Order number description 09 500 226 remote dimmer load module LT 500 09 500 227 remote dimmer load module LT 1200 With NV halogen lamps it is necessary to allow for the transformer s own consumption in addition to the lamps capacity when EE the total power loss With a matched transformer this may be assumed to be approx 10 of the lamps capacity 2 The actual load must not be lower than the minimum load specified by the manufacturer 3 Conventional transformers for LV halogen lamps should be loaded to at least 20 If the inductance is too high the dimmer will be switched off no load detection As a genera rule only those transformers which have been specified by the manufacturer as being suitable for phase angle control dimmers should be used Dupline
147. m n Cable Type Input 1 5 mm 150 mm Black flush mounted installation housing General technical data J Ambienttemperature 29 THO po Am bung 80 Page 74 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 12 DSU 2U Flush mounted 2 Channel Binary Signal Converter 5 3 12 DSU 2U Flush mounted 2 Channel Binary Signal Converter e Converts 2 input signals e DC voltage from 20 VDC to 300 VDC AC voltage from 20 VAC to 250 VAC Easily fitted into local flush mounted installation box Power supply via Dupline bus Product Description The DSU 2U signal converter is an input unit for up to two signal voltages whose data are converted for transmission on the Dupline bus By using opto decoupled inputs it is possible to employ both inputs for DC as well as AC voltage which can also take place simultaneously In neither case is there a need to observe polarity The DSU 2U is supplied by the Dupline signal and thus does not require its own power supply Its com pact design means that it will fit into a standard switch installation box Notes on Applications With proper installation and using only one type of voltage for both channels the device meets the requirements for protective low voltage between mains and control circuit The two pole plug terminals permit through looping of the Dupline bus signal The DSU 2U is equipped with a 4 pole flat plug connection
148. mponents 5 4 Outputs 5 4 11 DSM 4R 4 Way Relay Output with Acknowledge Feature DIN Rail cl HV halogen lamps Fluorescent lamps Fluorescent lamps with el ballas Gas discharge lamps Capacitor for compensation Energy saving lamps conv ballas 1250 W Energy saving lamps el ballast 300 W Operating Voltage Rated operating voltage 21 5 VDC 24 VDC 26 5 VDC Typ 2500 W 3000 W Lamp Loads bh Current input 12 mA Ripple voltage mV KSE ES Strain relief clamps 0 4 mm 2 2 5 mm 0 6 Nm Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 General technical data PO 10 C EEE EEE Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 100 Four way relay output DSM AR 1 The data relate to a minimum service life of 25 000 switching cycles and the connection requirements as per IEC 60069 2 Min 5 000 switching cycles 3 These data are largely dependent upon the manufacturer In case of doubt please refer Dupline Planning Aid and Product Information February 2006 v1 60 Page 127 5 System Components 5 4 Outputs 5 4 12 DSM 8 8 Way Binary Relay Output 230VAC DIN Rail Mounted Doe p Ke 5 4 12 DSM 8 8 Way Binary Relay Output 230VAC DIN Rail Mounted 8 way binary relay output for installation in distribution panels e 8 switching channels each with a capacity of 230 VAC 16
149. n for example be configured for ranges up to 99 up to 9 999 or up to 99 999 999 thus requiring up to four channel groups for the transfer lf you wanted to transfer several data in BCD format the total number of available Dupline channels would soon be exhausted For this reason an additional transfer mode was introduced the time division multiplex method This procedure permits the transmission of data from several independent channels via the same channels The selection of the counter meter readings to be transmitted is carried out with an address mechanism via the channels B2 to B8 the channel generator writes a bit sample to these addresses which corre sponds to that set of the input channel If the input module recognizes its address it makes the appropri ate counter meter reading available on the configured channels of the bus The current firmware up to version 1 03 of the channel generators supports 16 of these multiplex chan nels addressed via channels A1 to A4 Generators from version 3 0 on will have addressing via chan nels B2 to B8 implemented and will thus be able to serve up to 128 device channels Dupline Planning Aid and Product Information February 2006 v1 60 Page 13 2 Dupline The Basics 2 3 Inputs and Outputs 2 3 1 General Do z p Ke 2 3 Inputs and Outputs 2 3 1 General Inputs and outputs are devices with at least one channel which are connected in parallel via the Dupline net They can be divided into
150. n 6 30e or subsequent operates in Microsoft Windows 95 98 NT 4 2000 XP Product Description The low cost DSC 10 is a programmable touch screen panel for changing and displaying switching status and alarm messages within the Dupline bus system With a resolution of 320 x 240 pixel this fully graphics capable panel offers up to 48 freely assignable touch fields The background lighting is supplied by high performance LEDs which give the monochrome LC display its characteristic amber colouring and provide a high contrast picture Furthermore they are designed to be completely maintenance free and subject to virtually no wear There are two options for linking the DSC 10 to a Dupline system 1 Directly to the COM port of the DKG 1 or DKG 2 or to the 2nd serial port COM2 of the DKG 20 or DKG 21 GSM For this you will require the DSA 3 screen adapter supplied with the DSC 10 232 which enables a DKK 1 type cable to be connected 2 Directly to the Dupline bus via the DSI 1 modbus adapter Here you can use the DSC 10 485 which already includes the touch panel the DSI 1 and the DSA 4 screen adapter The panel then only needs a power supply and the Dupline signal conductors to be con nected Because the DSC 10 incorporates over 300 different communication drivers it can also be employed inde pendent of the Dupline system e g in conjunction with many PLCs The projects of the DSC 10 are generated with the optionally available editing softwa
151. n adapter for DSC 10 485 Page 156 February 2006 v1 60 Dupline Planning Aid and Product Information General technical data es Doep ke 5 System Components 5 8 Load and Power Supply Units 5 8 1 LT 500 LT 1200 Remote Dimmer Load Modules DIN Rail Mounted 5 8 Load and Power Supply Units 5 8 1 LT 500 LT 1200 Remote Dimmer Load Modules DIN Rail Mounted For actuating capacitive or inductive dimmer loads E E m GG e For increasing the capacity of e g the Dupline DDM 1Roplus dimmer e e Dimming loads up to 500 VA or 1200 VA resp up to 2400 VA with parallel operation vw e Integrated overload and overvoltage protection with automatic restart e No load monitoring for conventional transformers Product Description With the LT 500 and LT 1200 dimmer load modules resistive inductive or capacitive loads can be dimmed They are ideally suited for use with the Dupline DDM 1Rpius DDMU 1Roplus or the DDMU 2 dim mer series The selection of the loads to be dimmed is carried out with a change over switch before start up Provided the same operating mode and phase are used two LT 500 or LT 1200 can be connected in parallel Both load modules are equipped with thermal overload as well as an overvoltage protection The devices will automatically restart after a thermal trip as soon as the temperature reaches a normal level again Notes on Applications When installing the load modules it should be insured that there is suf
152. n of LT 500 and LT 1200 modules even when connected to different phases is possible too The following are also located on the front panel e a button for switching on and off as well as dimming e the coding and test socket with integrated LED to indicate that the Dupline bus signal is functioning properly As a safeguard in the event of a bus fault the status of the output can be preconfigured with the DHK 1 hand encoder The dimmer is preset at the factory so that they switch off when a fault occurs this has the advantage that the dimmer can then still be operated via the dimmer switch on the front panel In addition to the functions described above the DDM 1Rplus also offers on two further channels an acknowledgement facility of the dimmer output on off as well as of the alarm status Notes on Applications In order to safeguard against accidental resetting and as the switch is disabled during operation the required operating mode should be selected before connecting the Lin phase Turn to the left Turn to the right E as AC modulation control Phase angle control Although an incorrect setting will result in malfunctions it will not cause irreparable damage to the dim mer An alarm signal caused by an overload will automatically be reset upon removal of the overload An alarm Dupline Planning Aid and Product Information February 2006 v1 60 Page 89 5 System Components 5 4 Outputs 5 4 1 DDM 1Rplus 1 Way Light
153. n of the Dupline signal conductors a Installation of the bus signal conductors in accordance with the notes in Chapter 3 Notes on Wiring and Installation on Page 18 D Verification of the proper installation of the wires with not connected components by means of an isolation test with at least 500 V Dupline Planning Aid and Product Information February 2006 v1 60 Page 181 6 Notes on Project Planning 6 3 Form for Assigned Addresses Doep ke 7 Installation of the components a Connecting the decentral components to the Dupline bus b Mounting the components in the distribution facility Connecting the power supply and the Dupline bus c Connecting the load cables of the outputs For purposes of clarity the use of terminal blocks and through terminals is recommended 8 Commissioning and testing the bus a Checking the bus LED at the components testing that the Dupline bus is functioning properly b If necessary simulate and display the signals with the aid of the tester 9 Final tasks a Producing the final documentation address assignment etc with the aid of the ProLine software b Saving the channel generator configuration on a storage medium 6 3 Form for Assigned Addresses On the following page you ll find a table that shall help you in planning and documentation of address assignment If you ve received this document in A5 size the cells will be too small In this case please use our Microsoft Excel forms in
154. n of the product and its characteristics Application Information This section generally includes a connection diagram or an example thereof and gives information on the configuration and employment of the component Page 26 February 2006 v1 60 Dupline Planning Aid and Product Information Doe ke 5 System Components 5 1 General Information P 5 1 2 Notes on Product Descriptions Important notes on planning and applications are also contained in this section Dupline channel allocation If provided a table shows the assignment and function of the available Dupline channels addresses With the aid of the DHK 1 hand encoder any addresses can be assigned to these channels A component normally has 8 channels to which one channel group is assigned e g group AT Should some of these channels not have a function then all channels should be assigned a single address and those without a function explicitly no address Connections In addition to the connection diagram the table for the connections shows in a clear and easily under stood manner the existing terminals and connecting lines Indicators lf components are equipped with indicators their function is described under this heading Technical data Any data relevant to the components are specified here In addition to the order references of the compo nent itself any optical accessories and repeat order data are listed Dupline Here the relevant data of the module in res
155. nd resetting lighting scenes via rotary switch Load outputs individually dimmable 1 10 V outputs individually dimmable PWM outputs individually dimmable Automatic disconnection of outputs oe U zer HE ee ODM zo 1 Indicates only operational status Notes on Applications The wiring should not be installed in parallel to live mains cables If necessary provide shielding The lighting scenes are retrieved via a combination of the Dupline channels 1 4 of the dimmers the fol lowing table provides an overview of the combination Dimmer channel A Dimmer channel B Lee N o n N Gei Factory Setting of Light Value f E i E E E i E O O O O O O O O ooo fm jm dining IFE a 10 100 aseene P m tight scene W aseene E Fi Ei im tight scenes FE Page 98 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU Zplus 2 way Dimmer DIN Rail Light scene 5 Light ae 6 1 This scene is one possible setting for the priority switching in the event of a bus fault Every lighting scene can be retrieved via one or more channels In order to recall e g lighting scene 4 of dimmer channel A the input channels 1 and 4 have to be activated simultaneously In the case of dimmer channel B these would be channels 5 and 8 All lighting scenes are preset at the factory with the dimming fac
156. nerator e Network card mouse Software Requirements Microsoft Windows 98 ME NT 4 2000 XP English Display and control of Dupline channels Order number description 37 501 149 DDE Server DDS 1 Page 178 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 10 Software 5 10 4 DPCamp Software for Commissioning and Interfacing in Leisure Facilities 5 10 4 DPCamp Software for Commissioning and Interfacing in Leisure Facilities e Software for Commissioning and visualising of leisure facilities with Dupline e g camping sites and marinas e Immediate display of switching states and counter values of energy supply electricity gas water e Integrated interfaces Microsoft Access Database and TCP IP Socket for connecting billing programmes Very easy intuitive operation e Compatible with Microsoft Windows NT 4 2000 XP Pro Product Description DPCamp is a software package for commissioning and visualising of Dupline systems in leisure facilities Most likely such systems include both switching of energy supply of electricity gas and water as well as the acquisition of consumption values The base for this automated control are energy pillars which preferably are designed for 4 8 12 etc berths In this case each berth can be switched by means of one of the Dupline relay modules and it s consumption value can be recorded using the counter modules DTZ 4
157. ng 2 3 CH DCD RxD B Data B 1 Automatic Data Direction Control Page 152 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 7 Interface Components 5 7 2 DCI 1 Serial to Ethernet Port Server Wiring Layout and Dimensions 9 pole plug 25 pole socket to DKG 20 21 to DCI 2 2 2 TxD RxD 3 3 RxD _ 8 TxD 5 l 2 Signal Ground Signal Ground 12 a 24V DC 8 3 13 x UN DC 8 green green orange O Technical Data DCI 2 has malfunction configuration Indicators Indicator Description PWR o Power Is off or power error condition exists Se Ethernet connection established in off No Ethernet connection of short cut green DOTRis ready Serial data is being transmitted No transmission of serial data ed off off off off Serial data is being received ff No reception of serial data Operating Voltage T2 VDC Tome TI EE Ethernet 10 Mbps Ethernet interface Protocols TCP UDP IP ICMP ARP DHCP BootP Telnet RS 232 422 485 Port up to 230 4 kBaud Rugged sheet steel housing imensions 90 2 x 22 x 100 4 W x Hx Din mm Dupline Planning Aid and Product Information February 2006 v1 60 Page 153 5 System Components 5 7 Interface Components 5 7 2 DCI 1 Serial to Ethernet Port Server Doepke Technical Data Continued K GE NPort Management Suite Windows 95 98 Me NT 2000 XP 2003
158. ng back the switching channel for the light to the detector you therefore have the possibility of preventing a continuous switching on off With the rotary switch accessible when the housing is opened the desired operating mode can be set AUTO internal twilight switch utilized ON without twilight switch and OFF external twilight switch use able In addition the DPM 1 offers an electrically isolated 0 30 V AC DC input via which an external signal may be input in the Dupline bus and processed further Notes on Applications Mounting The location of the DPM 1 substantially affects its functionality For this reason please observe the follow ing points e The DPM 1 is designed exclusively for ceiling mounting Do not install the DPM 1 in the immediate vicinity of heat sources such as e g lamps or radiators Do not install the DPM 1 near moving objects such as ventilators Please ensure that the DPM 1 is not exposed to strong air flows as these might be registered as movements Attach the DPM 1 only to surfaces free from vibration Please ensure that the twilight sensor is not exposed to a direct light source as this might result in undesired switching The scanned area should not be restricted by large objects such as e g furniture If only small or few movements are to be detected then a time delay configured at the channel generator can prevent the premature switching off of the lighting The DPM 1 can be either surface mounted u
159. ng units such as e g radiator control valves The desired temperature can be preselected with the setting valve within a range of 14 C to 28 C and is then compared to the room temperature if the set temperature is below the room temperature the switching channel will be activated or conversely the channel will be deactivated The hysteresis is 0 25 C An input channel permits the night time reduction to be pre programmed if this is set the DRT 1 will lower the room temperature by 4 C in relation to the preselected temperature Notes on Applications The address to which the switching channel is to be transmitted can be freely selected with rotary switches within an address range between A1 to P8 The channel for the night time reduction can be preset via a rotary switch within an address range of B1 to B8 but cannot be switched off When not using the night time reduction it should be ensured that other input channels do not energize the set channel The DRT 1 should be so mounted that the air vents are not obstructed by items such as e g curtains The installation housing consisting of an air permeable cover the installation frame and a surface mounted frame is suitable for both surface mounting and flush mounting in standard socket boxes The DRT 1 requires no external power supply as it is supplied by the Dupline signal line Wiring Layout and Dimensions 3931226_1A Installation depth Surface mounted frame D
160. nsing chamber a light source and a light sensor are arranged so that light normally does not fall on the sensor It is only when airborne particles enter the chamber that light is scattered onto the sensor Tyndall effect to produce the electrical signal This design means that no radioactive source is required The DRD 3 only needs the connection to the Dupline conductors The smoke alarm as well as the status signal which indicates the correct connection between the smoke detector and the in built Dupline circuit board as well as a successful self test are transmitted via the Dupline bus Besides the alarm the LED in the housing of the DRD 3 shows also the state of function of the device At the same time the LED is the test button which allows a visual check of the alarm function whereas also an alarm is given via Dupline bus The power supply solely is done by means of the bus signal a battery is not required Notes on Applications To achieve a minimum protection one DRD 3 should be installed in front of the of each sleeping area respectively in each floor A better protection will be reached if one smoke detector is present in every room except for the kitchen and the bath here false alarms are possible due to steam development When using the DRD 3 following issues have to be observed e Rooms may have a floor area of up to 60 m and a height of up to 6 m e Hallways and narrow corridors may have a width of 3 m and a length of 15 m
161. nsure that there is sufficient ventilation in the distribution box If several dimmers are mounted next to each other in a distribution box and are subject to heavy loads provision of a ventilation space of approx 10 mm is recommended 2 Dimming up from 10 to 100 or down from 100 to 10 3 Observe the manufacturers instructions 4 Any current consumption at this signal output represents an additional load on the 24V supply One LT 500 or LT 1200 typically requires 1 mA Dupline Planning Aid and Product Information February 2006 v1 60 Page 103 5 System Components 5 4 Outputs 5 4 4 DNP 8A DPN 8A 8 Way Binary Output Board 24 VDC Doe p Ke 5 4 4 DNP 8A DPN 8A 8 Way Binary Output Board 24 VDC e Predestined for use in control boards e 8 binary pole reversal proof outputs which are switched towards 0 VDC or 24 VDC e LED indicator lamp for operating voltage and bus signal e Support for mounting on Din rail available Product Description The DNP 8A and DPN 8A output boards offer 8 outputs each Because of their design and connection data they are mainly suitable for installation in control and display panels where open circuit boards can be used The DNP 8A permits small loads to be connected to a DC voltage of 24 V which is made available by the board With the DPN 8A the loads can be jointly connected to neutral of the DC power supply Both boards are equipped with a LED to indicate a correct bus signal as well
162. oduct Information February 2006 v1 60 Page 83 5 System Components 5 3 Inputs 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meter Doe p ke 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meter e 4 channel counter for pulses and running times e S0 type inputs to DIN 43 864 e Measuring range from 0 to 99 999 999 e Resolution 20 Hz and 1 ms respectively e Enclosure protection type IP 40 with installation in distribution board e 24 VDC power supply Product Description With the DTZ 4 pulse counter running times can be recorded or pulses counted at four inputs Measured data can always be read and reset via the Dupline bus making the DTZ eminently suitable for recording energy consumption on camping sites and yachting marinas The measured data are transmitted by the multiplex procedure the data being in BCD code The measur ing range is selectable from 0 99 to 0 99 999 999 the set range thereby determining the number of mul tiplex channels 1 to 4 channel groups For further information see Chapter 2 2 4 4 Counter data time division multiplex method on Page 12 Notes on Applications Up to 128 counter channels are available for use in a Dupline system 82 DTZ 4 4 channels The four channels of a DIZ 4 always work in one operating mode running time recording or pulse counting Wiring Layout and Dimensions Electricity metering Energy Counter 1 SO Output Hours run recording 00 in
163. ombined with the power saving LED and an energy saving facility ensure a long service life The programming cables supplied are suitable for Dupline components with Western plug connection as well as for those with flat connectors Notes on Applications For details regarding the use of the DHK 1 please refer to the operating instructions supplied with every device Min 000 00 Typ 1 Max Western digital socket Controls o Key pad 5 action point keys 4 x 8 red LED 1 8 mm Operating Voltage E 9V alkaline battery 400mAh Type IEC 6F22 Life span approx 1 year Housing LI Dupline Planning Aid and Product Information February 2006 v1 60 Page 163 5 System Components 5 9 Accessories 5 9 1 DHK 1 Hand Encoder Doep Ke Min Tye Max General technical data 0 EEE BE 20 EEE o y O8 O IP 40 2259 1 coding cable with 2 modular Western plug connectors DKP 1 1 coding cable Western for flat plug connectors DKP 2 Order number description 09 501 103 Hand encoder DHK 1 09 501 125 DKP 1 09 501 126 DKP 2 09 501 141 DKP 3 Coding cable Western for M12 e g for DTS i Page 164 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 9 Accessories Doep Ke 5 9 2 DTG 1 Tester 5 9 2 DTG 1 Tester e Portable device for checking and simulating signals on the Dupline bus e LCD functions display e Operating voltage supplied by the Dupline bus Product Description Th
164. on The DSU 1U signal converter is an input unit for one signal voltage which data is converted for transmis sion on the Dupline bus The input is suitable for AC voltages from 90 V to 265 V There is no need to observe a specific polarity The signal converter activates the encoded channel when exceeding a voltage difference of 90 VAC and disables the channel when the voltages drops below 60 VAC As it is supplied by the Dupline bus and due to the compact housing size of the device it is excellently suited for mounting e g in switch socket boxes or cavities Notes on Applications The DSU 1U is equipped with a 4 pole flat plug connection for coding the addresses with the DHK 1 The bus can not be tested via this connection with the DTG 1 tester Wiring Layout and Dimensions DSU 1U Eingangsmodul 90 265 V AC Dupline Bus wei Bus schwarz D3931256_1 04 12 A II ald 17 gt D3931256_2 04 12 A y Connections Red Input signal Input signal Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Planning Aid and Product Information February 2006 v1 60 Page 73 5 System Components 5 3 Inputs 5 3 11 DSU 1U Flush mounted 1 Channel Binary Signal Converter Doep ke Dupline Channel Allocation 1 nput signal Not assigned Indicators none in x bpm S S T II E TT T input signal mes o ES Ve BT ee o Power consumption Su Operatingvohage JI ee m
165. operating signal 4 Input operating signal 5 o6 Input operating signal 6 Input operating signal 7 oe Input operating signal 8 Dupline channels without any corresponding inputs are not used and should not get an address Indicators none Page 70 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 10 DSS 2U DSS 4U DSS 8U Flush Mounted Operating Signal Inputs Wiring Layout and Dimensions Doepke Tastsignalsensor DSS 2U COMMON COMMON T2 T1 Dupline Dupline 24 VDC 3931242 1a blau schwarz blue black gelb schwarz yellow black gr n schwarz green black braun brown braun brown grau grey 24 VDC Doepke Dupline Tastsignalsensor DSS 4U COMMON COMMON grau grey Doepke Tastsignalsensor Dupline blau schwarz blue black gelb schwarz yellow black 3931242 2 gr n schwarz green black blau schwarz blue black gelb schwarz yellow black grun schwarz green black grau grey Dupline Dupline 24 VDC 0 VDC gt N D de S i Color Signal u A Common T1 T4 resp T8 ZYZLEGE Connections Dupline Planning Aid and Product Information February 2006 v1 60 Page 71 5 System Components 5 3 Inputs 5 3 10 DSS 2U DSS 4U DSS 8U Flush Mounted Operating Signal Inputs Doe p Ke Typ Current inpu Input channels Output channels 100 uA 100 uA 380 uA DSS 2U 4 DSS 4U or 8
166. ormation 7 Examples of Circuit Diagrams 7 2 DRO with DC Drives Doe p Ke 7 2 2 Feed in by two Power Supplies 7 2 2 Feed in by two Power Supplies When using two power supplies for the drives each output can be used for one single shutter 24 VDC 24 VDC tt 0 voc a ES L N Ei 5 L N Doepke Doepke BETRIEB ferries oserast vserLast 5 AB Un4 230V Una 24VDC m Una 24VDC m Jon 1300mA In 1300mA NT 24 1300 1 4 1 8 2 4 2 8 3 4 3 8 4 4 4 8 B1 B2 B1 B2 3931270_3b Dupline Dupline 24V DC ov DC Dupline Planning Aid and Product Information February 2006 v1 60 Page 187 8 Suggestions Questions and Problems 8 1 FAQs 8 1 1 General Questions Do c p Ke Chapter 8 Suggestions Questions and Problems 8 1 FAQs This chapter deals with frequently asked questions FAQs which will be regularly updated 8 1 1 General Questions Can I use an existing telephone line as the signal conductor Yes You simply have to make sure that no strong electromagnetic interference could affect the line have got more than 128 components which I want to connect to the bus Is this possible Most probably With Dupline the addresses are used as functions not as physical addresses for actuat ing the inputs and outputs The deciding factor here is which functions the Dupline bus is intended to fulfil In this context please read Chapter 2 2 Signal Transmission on Page 11 Is a demo version of th
167. ors for touch panels The touch panels DSC 3 resp DSC 10 485 are equipped with screen adaptors DSA 1 resp DSA 3 to adapt the pin assignment to the DSI 1 For operation of other touch screens of the manufacturer Pro face these adapters also are available separately Connections Terminal 1 Dupline signal conductor Dupline 2 Dupline signal conductor Dupline SUB D 25 pole Pin Description Pin Desorption 22 DIP Switches Switch Description oF o 7 Modbus address BEE EEE BEE BEE 3 Modbus baud rate 9600 19200 _ 2 Dupline transmission mode Read Only Read Write Dupline Planning Aid and Product Information February 2006 v1 60 Page 155 5 System Components 5 7 Interface Components 5 7 3 DSI 1 Dupline Modbus Interface Doep Ke DIP Switches Continued Switch Wiring Layout and Dimensions ON Dupline Dupline DIP Schalter DIP switch H Eat i OUR Tr Indicators Indicator Description Red LED Flashing in quick succession 2 ms per 132 ms Communication OK Slower flashing 0 25 s Dupline bus fault Min Typ Max Dupline S uA en vonage oS DET p Strain relief clamps m Contaetareal ommo m m mousing EEE Ambient temperature 20C 860 C Atm humidity 80 Encl protection type standards IEC60664 Order number description 09 501 116 DSI 1 Modbus interface 09 501 193 DSA 1 Screen adapter for DSC 2 3 09 501 210 DSA 3 Scree
168. ot assigned Page 110 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit Connections 1 1 1 5 Motor 1 output UP DOWN 1 2 1 6 Motor 1 phase input Liy 2 1 2 5 Motor 2 output DOWN UP 2 2 2 6 Motor 2 phase input Lin Dupline signal conductor Dupline Dupline signal conductor Dupline 0 VDC operating voltage DC 24 VDC operating voltage DC 1 CAUTION At the former design of DRO 2 terminals 1 2 1 6 were used for common phase input of motors 1 and 2 terminals 2 2 2 6 were not connected internally Wiring Layout and Dimensions Qar C Aur Os Oase BUS OK Dupline D Dupline D 24V DC 0V DC Indicators Indicator IL escription S Green BUS OK LED Dupline bus Off bus fault On bus OK 2 red LED AUF All or nothing relay 1 2 Off no upward movement On upward movement 2 red LED AB All or nothing relay 1 2 Off no downward movement On downward movement Dupline Planning Aid and Product Information February 2006 v1 60 Page 111 5 System Components 5 4 Outputs 5 4 6 DRO 2 Rail Mounted 2 Channel Shutter Control Unit DO P Ke ee Mi Tp Mx Op 4 control channels shutters 1 2 each UP and DOWN Outputs Ll 230 VAC ST 2A Operating vota TI 26 5 VDC e am 25mA Po o Ripple voltage 100 V Ey Temnas DEE o4mm
169. ounted 1 Way Binary Relay Output Doe p Ke Mins Typ Max a a a a Im a um ma ae Rated current load capacity dP Inoandescent lamps 0S Dinge BEE BEE ow unser 2 0 Fluorescent Tamps with el balast 0 Gas discharge lamps max 1000 W 70uF 1250 W 100uF min 5000 switching cycles Energy saving lamps conv ballast 1250 W _ Energy saving lamps el ballast 200 Operating Voltage o o Teminis O O OOS S S SS Type Cable connection Dupline 2 x 0 75 mm 150 mm Output 2 x 1 5 mm 150 mm S o o Dimensions S General technical data SS Ambienttemperature 201 HOT po Atm bung 80 1 Peak current at make 2 The data relate to a minimum service life of 25 000 switching cycles and the connection requirements as per IEC 60069 3 These data are largely dependent upon the manufacturer In case of doubt please refer D E 2 z o a Page 118 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 9 DSM 2 2 Way Relay Output with 4 Semiconductor Outputs DIN Rail 5 4 9 DSM 2 2 Way Relay Output with 4 Semiconductor Outputs DIN Rail Mounted e 2 binary 230 VAC 16 A relay outputs e 4 binary 24 VDC 50 mA semiconductor outputs e Switching status indicated by LEDs e Compact DIN rail mounted device Product Description The DSM 2 is a relay output for switching two independent loads which can be operated on different
170. out with manual operation DIN Rail Doe p Ke Min Type Max z Voltage 12VDC J 30vDC A Load capacity per output omg POA cycles sated pens Q Fluorescent lamps load lag cir 2 x 2500 W 2 x 1200 W former sated Strain relief clamps po Contactareal 04mm 25mm Torque EN Type Distribution installation housing to DIN 43880 for rail mounting to DIN EN50022 72 x 85 x 58 W x Hx D in mm 4 modules Polycarbonate max 85 exposure to dew not permissible Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 45 C O gt Order number description 09 501 174 4 channel relay output DSM 4M 1 These data relate to connection requirements in accordance with IEC60669 Switching cycles for lamp loads not listed here are available upon request Page 124 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 11 DSM AR 4 Way Relay Output with Acknowledge Feature DIN Rail 5 4 11 DSM 4R 4 Way Relay Output with Acknowledge Feature DIN Rail Mounted e 4 way binary relay output for installation in distribution panels e Switching channels each with a capacity of 230 VAC 16 A e Physical acknowledgement of switching status via Dupline bus and LED Product Description The DSM 4R is a relay output with acknowledge function designed for controlling four independent loads which may be allocated to differ
171. pect of the Dupline bus connection are listed e g Current input The current requirements of the device which are covered by the Dupline bus Inout channels The number of channels or addresses on the Dupline bus which supplies the module with data Output channels The number of channels or addresses on the Dupline bus from which the module receives data and which it then outputs General technical data Here you will find data of a general nature Ambient temperature It is necessary to keep within this temperature range in order to ensure the proper functioning of the device In respect of the Storage temperature for which no details are specified it may safely be assumed that this covers a range approximately 20 C larger than that of the ambient temperature Atmospheric humidity This specification always assumes in the case of DIN rail devices that they are not exposed to dew condensation can under certain circumstances render the device unserviceable Enclosure protection type Standards Here the standards applicable to the device are listed In the case of DIN rail devices the enclosure protection type refers only to the status after connection in the distribution board Note lf not mentioned differently the component described has been designed for usage within buildings Dupline Planning Aid and Product Information February 2006 v1 60 Page 27 5 System Components 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generato
172. phases with up to 16 A The switching status of these outputs is indicated by two LEDs located on the front panel of the device lt also permits the connection of four additional loads with a 24 VDC power supply and a current con sumption of up to 50 mA per channel e g control inputs from devices in the SI Building Management range These loads have to be connected to the OV conductor of the power supply The green LED located in the coding and test socket on the front of the device indicates that the Dupline bus signal is functioning properly The all or nothing relays are designed for retentivity which results in their status being stored should a power failure occur In addition and to safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The standard setting is ON Notes on Applications When using the semiconductor outputs C5 to C8 it should be noted that the outputs are not short circuit proof and could be destroyed if a short circuit occurs Dupline Channel Allocation Description 1 Relay output signal 1 5 Semiconductor output signal C5 2 Relay output signal 2 6 Semiconductor output signal C6 2s Not assigned za Semiconductor output signal C7 EN Not assigned S Semiconductor output signal C8 Connections Description 1 1 1 5 Relay switching channel 1 Liy Loyt 1 2 C5 Semiconductor switching channel C5 2 1 2 5 Relay switching channel 2
173. pline Dupline Anschluss fur DHK 1 Connector for DHK 1 DRO 1U Dupiine D RO 1 U O Dupiine 3931195 1B blau blue schwarz black 3931195 _2C Connections Semiconductor input 08 Semiconductor input 67 TTSS D Dupin signal conductor Dupline Black Phase C Dupline Channel Allocation e Reyon e mwe ooo a Moase j e asso ooo Indicators Indicator J Description 7 Green BUS OK LED Dupline bus Off bus fault On bus OK Current input Input channels 3 Semiconductor inputs C5 C7 Page 108 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 4 Outputs 5 4 5 DRO 1U Flush Mounted 1 Channel Shutter Control Unit UO O D S D K Output channels 2 control channels shutter UP and DOWN Type Semiconductor inputs Contact load Permissible switch bounce time Permissible int contact resistance 1mA 10 ms 1 kOhm Type Relays Voltage Rated current load capacity Power factor 230 VAC N gt cos 9 0 6 1 Operating Voltage Rated operating voltage 210 VAC 230 VAC Current input 10 mA 250 VAC 12 mA Terminals Control terminals 2 and 3 pole plug terminals fitted 0 6mm Type Contact area 0 8mm Mains terminals A leads LiY with wire end ferrules 0 75 mm Type Contact area Type Strap type enclosure Dimensions 42 x 42 x 34 W x Hx Din mm Material
174. pline Line 1 Line 2 Line 32 E3931246_7 C Connections Dupline signal conductor D Dupline signal conductor D 7 10 Semiconductor inputs Int Ind 11 OVDC operating voltage for inputs outputs 12 10 30 VDC operating voltage for 13 16 Semiconductor outputs Out1 Out4 inputs outputs Operating voltage 115 230 VAC L Operating voltage 115 230 VAC N RS485 bus termination RS485 failsafe termination B Dupline Planning Aid and Product Information February 2006 v1 60 Page 37 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators Doe p Ke Connections Continued RS485 failsafe termination A RS485 signal B 31 RS485 signal A 32 0 VDC operating voltage output for inputs outputs 33 10 30 VDC Dun voltage out 34 DCF signal V put for inputs outputs x DCF signal S in DCF signal V 1 This voltage output may only be used for the power supply of the semiconductor inputs outputs when the RS485 connector is not used Indicators tome en E Ty p Pw SS o repower SCS YelowteD D ieebs SSS yy ewok SS fr 4 No signal Short circuit manual restart required Short circuit automatic restart Red LEDs D1 and D2 TTT meer ewe coma IT passe No communication ME Transierofappicaton inprogress Il 5 El Transfer of application failed 7 R6485 network connection 9 Mommen LB oeme o BEE e OK or no mod
175. posure to dew not permissible Order number description 09 501 203 DSC 10 232 Touch panel 3 8 with RS232 interface 09 501 204 DSC 10 485 Touch panel 3 8 with RS4xx interface 09 501 205 DSC 10 DUP Touch panel 3 8 with DSI 1 interface 09 501 210 DSA 3 Adapter DSC 10 485 to DSI 1 09 501 211 DSA 4 Adapter DSC 10 232 to DKG 20 21 GSM 09 501 213 DSC 10 UPG Flush mounted housing for DSC 10 09 501 148 Programming software DSC 3 P 1 The service life of a lithium battery is approx 10 years at an ambient temperature of 25 C or below 2 Data length 7 8 bits stop bits 1 2 parity none even uneven transfer rate 2 4 115 2 kBit sec Page 144 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 6 Components for Visual Display 5 6 3 DSC 3 Touch Screen Panel 24 VDC 5 6 3 DSC 3 Touch Screen Panel 24 VDC e Touch screen panel incorporating 100 MHz RISC processor e 64 colours 320 x 240 Pixel e Size of screen 115 2 mm x 86 4 mm 5 7 e 24 VDC supply voltage e Configuration via DSC 3 P software can be run on Microsoft Windows 95 98 NT 4 2000 XP Product Description The DSC 3 is a programmable touch screen panel for changing and displaying switching status and alarm messages within the Dupline bus system At the heart of the DSC 3 is an extremely fast processor which on the one hand permits the design of a complex but user friendly screen layout and on t
176. principle of data transfer with Dupline systems means that the requirements for the mechanics and configuration of the bus are minimal Installation of the transmission line may be linear star type ring type or any combination of the above The following diagrams illustrate the possibilities Linear Installation Star type Installation With a total bus line length of approxi In order to calculate the total bus line mately 10 km this type of configuration length of this type of installation it is only is probably the most frequently used necessary to add the lengths of the two lanes Ring type Installation With ring type installations the circle may be closed Dupline Planning Aid and Product Information February 2006 v1 60 Page 9 2 Dupline The Basics 2 1 System Configuration 2 1 2 Transmission Line Structure Doep Ke Combined Installation With combined installations all the lengths of the individual lanes must be added together Note Interlocked closed rings are not allowed Page 10 February 2006 v1 60 Dupline Planning Aid and Product Information 2 Dupline The Basics 2 2 Signal Transmission Doepke 2 2 1 Introduction 2 2 Signal Transmission 2 2 1 Introduction Dupline is a bus system based on a time division multiplex method The basic idea of this method is to record signal values at fixed times and to transmit them on only two wires which otherwise are sent on parallel wires channels
177. put modules for up to eight operating signals and permit either conventional push buttons or potential free switching contacts to be connected The sensors only differ in the number of their inputs the DSS 2U has two the DSS 4U has four and the DSS 8U has eight inputs The inputs are prevented from contact bounce of up to 10 ms by integrated fil ters As the sensor are supplied by the Dupline signal they do not require any external power supply Notes on Applications Because of its compact design the operating signal transmitter will fit behind the button in a normal socket installation box Any extensions of the leads between push buttons and sensors must be kept as short as possible and may not exceed 1 m In case of an extension please observe that both signal conductors must have the same length This new generation of operating signal sensors comes equipped with three system cables These are fit ted at the sensor end with 4 pole system plugs and at the switch end with wire end ferrules and thus greatly facilitate the connection of the switches All sensors are equipped with a 4 pole push on connector for encoding the addresses with the aid of the DHK 1 encoder cable DKP 2 It is not possible to carry out a bus test with the DTG 1 tester via this con nection Dupline Channel Allocation pss Channel Description Channel Deseription a Input operating signal 1 Input operating signal 2 Input operating signal 3 Input
178. r supplied by the DFA Product Description The DFA DI serves to hook up a DFA remote actuator for residual current circuit breakers DFS 2 and DFS 4 or miniature circuit breakers DLS 5 to the Dupline bus The PCB is mounted in a space in the DFA provided for this purpose and makes available the following functions e Connect or disconnect RCCB MCB e Trip RCCB e Feedback of the RCCB MCB s status e Feedback of the DFA s operation indicator All necessary connections operating voltage Dupline signal line between the DFA DI and the DFA are via a socket board The signal conductors are connected to the DFA Notes on Applications None Wiring Layout and Dimensions Dupline Dupline Dupline circuit board Coding plug connection E 3931200_1EA Dupline Planning Aid and Product Information February 2006 v1 60 Page 149 5 System Components 5 7 Interface Components 5 7 1 DFA DI Dupline Remote Actuator Interface Do z p Ke Connections Connections between DFA and DFA DI are made via a socket board Indicators none Dupline Channel Allocation Connecting ROCB MCB RCCB MCB switching status connected 2 Disconnecting RCCB MCB 6 RCCB MGB switching status disconnected Tripping RCCB MCB RCCB MCB switching status tripped 4 Notassigned 8 Display DFA control LED in DR Mes C a A E T S SSO UA Operang SY Supply via DFA remote actuator e Deum ema 5 Temirek SSSSCSC lt C 7 lt C MH C Ger
179. r up to 600 W e AC modulation and phase angle control dimming selectable on the front e Automatically controlled dimming up and dimming down according to memory setting e Control output for up to ten LT 500 LT 1200 load modules Product Description The DDM 1Rpius dimmer permits different types of lamps to be switched and dimmed The lighting is switched on via a bulb preserving soft start function The dimmer setting selected last is stored in the built in memory and can be reselected next time the lighting is switched on The dimmer also provides for six lighting arrangements to be stored which can be retrieved by means of channel combinations The lighting scenes are preset at the factory in 15 steps within a range of 25 to 100 and are safeguarded against inadvertent changes This block can easily be disabled and restored after any changes have been carried out The load output of the dimmer provides up to 600 W for various types of loads e g incandescent lamps HV halogen lamps and LV halogen lamps The change over from phase angle control to AC modulations control dimming and vice versa is carried out via the rotary switch on the front of the housing The output is electronically protected against overloads and short circuits Faults are indicated by a LED on the front panel Located next to the load output is a control output to which up to ten LT 500 or LT 1200 load modules may be connected to increase dimming capacity Mixed operatio
180. re DSC 3 P from ver sion 6 30e onwards The software can be used on any IBM compatible computer with Microsoft Win dows 95 98 NT 4 2000 XP With the aid of the editor the pictures are generated for the subsequent user interface More than 1 800 predefined objects are available for this task such as e g switches lamps bar and trend graphics as well as indicating and measuring instruments The calendar function serves to switch Dupline channels on and off accurately to the minute The finished objects are transferred to the unit via a download interface specially provided for this purpose A flash EPROM in the unit serves as a power failure secure memory When operated on line with Dupline the current process variables such as alarm messages will be shown in real time Notes on Applications Flush mounting As the DSC 10 is a unit intended to be semiflush mounted and as it is cooled by natural ventilation a suf ficient flow of air must be ensured when installing Alternatively the DSC 10 may also be installed in the Doepke DSC 10 UPG flush mounted housing Order no 09 501 213 This rugged housing makes it easy to install the unit in cavity or solid walls and ensures sufficient heat dissipation For further details see Chapter 5 9 4 Installation Accessories on Page 172 Page 142 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 6 Components for Visual Display 5 6 2 DSC 10 Touch Scr
181. re will erase the memory setting The dimmer also provides for six lighting arrangements to be stored which can be retrieved by means of channel combinations The lighting scenes are preset at the factory in 15 steps within a range of 25 to 100 and are safeguarded against inadvertent changes This block can easily be disabled and restored after any changes have been carried out The lighting is invariably switched on via a bulb preserving soft start function Delays by electronic ballast may lengthen the switching on process In addition to the 1 10V output the DDMU 1Rplus is equipped with a control output to which up to ten LT 500 or LT 1200 load modules or a mixture thereof may be connected This provides for an additional output capacity of up to 12 000 W The dimmer is factory fitted with a jumper wire so that the full voltage range is available at the 1 10V out put characteristic A Removal of this jumper wire will result in characteristic B being set which limits the output voltage to max 6 5 V The setting of the characteristic does not affect the PWM output As a safeguard in the event of a bus fault the status of the outputs can be preconfigured with the DHK 1 hand encoder The dimmers are preset at the factory so that they switch off when a fault occurs this has the advantage that the dimmers can then still be operated via the dimmer switch on the front panel Notes on Applications The wiring should not be installed in par
182. reaches the corresponding manually selected set values When in this mode the DRI offers with a corresponding configuration various temperature pro grammes e Standard In the normal programme the DRT compares the actually measured room temperature with the pre selected set values for cooling and heating If the measured temperature is below the heating set value it energizes the heating switching channel if it exceeds the cooling setting it energizes the cooling switching channel The difference between the set values must be at least 2 K the thermostat works internally with a hysteresis of 0 5 K C Night time lowering standby mode This programme i e a reduction in the room temperature by a configurable amount can be activated either via a Dupline channel or manually If the device is operating in party mode it can be switched off by manually activating the night time lowering Party comfort mode This programme extends the comfort temperature control i e the setting of the room temperature according to the pre selected night time lowering This function can only be manually activated or de activated at the DRT 2 Dupline Planning Aid and Product Information February 2006 v1 60 Page 61 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC Doep Ke e Thermostat inhibit In order to be able to stop the thermostat altogether e g in the event of condensation of the cooling unit
183. rect access via status channels With the new Status Channel object you can import external channels so that the status channel always adopts the value of the imported channel This enables easy processing in logic connectives To summarize it could be said that on the one hand the new implementation of the network capabilities is easy and yet on the other that it also opens up many new possibilities Note It is not possible to couple channel generator types DKG 1 or DKG 2 to a network based on DKG 20 DKG 21 GSM Visualisation Visualisation is closely linked to the network s structure Every DKG has an additional COM2 port which may be utilized either for connecting a visualising component or for operating a radio modem This port too offers the Modbus protocol on the basis of a RS232 connection so that standard touch screens e g the Doepke DSC 3 or visualising programmes on PCs can be employed there being the option of setting a transfer rate between 2400 and 115 200 baud The extent of data access depends upon which channel generator is used for the connection e Without network Here you can read and write the data of the DKG e In a network at the master Here you can read and write the data of the master and all the slaves e In a network at a slave Here you can read and write the data of the connected slave but only read the data of all other network members The possibilities of visualisation have also been extended by some con
184. roduct Description With the DTS 1 temperature sensor analog temperature data can be converted for transmission via the Dupline bus The temperature measurement is transmitted on an independently encodable channel The DTS 1 is suitable for applications in both indoor and outdoor areas and can be mounted unobtrusively because of its compact design lt requires no external power supply as it is supplied by the Dupline signal line Notes on Applications When measuring the air temperature the DTS 1 should not be mounted directly on to a wall The temper ature sensors should be fully exposed to the air flow Wiring Layout and Dimensions Connections The standardized M12 connection cable is provided with up to 4 wires The following table specifies the assignment of the wires 1 Dupline signal conductor Dupline 4 Dupline signal conductor Dupline 3 Dupline signal conductor Dupline 2 Dupline signal conductor Dupline Page 80 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 14 DTS 1 Surface mounted Temperature Sensor Connections Continued The 4 pole M12 socket of the housing has the following configuration Pin Description Pin Description 1 Dupline signal conductor Dupline 4 Dupline signal conductor Dupline The M12 connecting cable DKM 1 must be arranged separately The coding of addresses requires a special cable DKP 3
185. ronmental factors dust dirt and snow which over the longer term will reduce the light transmission of the DLUX Wiring Layout and Dimensions Encoding Flat Pack Connector gw 3931186BE Dupline Planning Aid and Product Information February 2006 v1 60 Page 47 5 System Components 5 3 Inputs 5 3 3 DLUX Surface Mounted Light Level Sensor Do c p Ke Connections Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Channel Allocation Light intensity value Light intensity value Indicators none in x C TI SS Reactiontime Gel SC A o o ooo Measwingrange Ol 2 oka Deviation from characteristic 10 Measuring error over temperature range s0 Terminals OOOO p EA T Housing P gt Generaltechnicaidaa OO O Oooo OOOO Ambienttemperature 299 EN S DEE EEE P44 Order number description 1 When put into service channel generator with 16 channels 2 When put into service channel generator with 128 channels 3 Characteristic adapted to human perception of brightness 4 In relation to linearized value Page 48 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doe p Ke 5 3 4 DNP 8E 8 Way Binary Input Board 24 VDC 5 3 4 DNP 8E 8 Way Binary Input Board 24 VDC Predestined for use in control boards 8 binary inputs e LED indicator for operating voltage and
186. rs 24 VDC and 115 230 VAC resp Doe p Ke 5 2 Central Units 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC resp e Generator for up to 128 channels e e LCD display for real time clock and control functions e Channel characteristics time functions and logic functions WW j configurable with ProLine PC software es l e Operating voltage 24 VDC DKG 1 and 115 230 VAC DKG 2 resp Product Description The DKG 1 and DKG 2 channel generators are intelligent configurable central units which generate the Dupline carrier signal for 128 channels and are therefore the necessary central units for every system They differ only in their supply voltage the DKG 1 requires a 24 VDC voltage while the DKG 2 can be connected directly to the AC supply net 115 230 VAC The graphic configuration software ProLine which can be run on Windows 95 98 NT 2000 permits easy implementation of the control functions The channel generators offer a multitude of functions some of which are listed below Different channel types The channel generators support existing inputs and outputs in the form of channel types These are con figured by use of ProLine and can be combined as desired The following items are currently available for selection e Push buttons e Touch contacts e Timer with delay feature e Time switch with 4 switch on and off times Central control Analog sensors measurem
187. s and control cabi net manufacturers who want to achieve a reduction in manpower and cabling costs Dupline is also the ideal system for connecting widely branched monitoring and control signals to a central location e g indi cator control boards Such facilities and devices can range from e g simple push buttons and indicator lamps to control programmes for PCs or touch screen panels With Dupline almost every building system signal or process digital analog counter level temperature etc can be connected and transmitted to any desired location As opposed to systems which transmit a specific number of signals from A to B the transmission with Dupline works fully bi directional and the cable can be branched in many directions A signal may be received anywhere along these two wires and as often as necessary At the same time a signal can be locked on for transmission at any desired point of the two wires 1 5 3 The Quality All components of the Dupline system is permanent subject to quality controls no matter whether within the scope of ISO 9001 CE certification or Europe standardisation no matter whether the products are manufactured in Denmark or Germany But we also know that quality can not only be described by guidelines Therefore many proposals and suggestions for improvements from planners electrical fitters and end users flow into the design and the handling of our components Dupline Planning Aid and Product Information F
188. s for Visual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC e Comfortable monochrome text display e 2 line display with 16 alphanumeric characters each on a visible display area of 43 9 x 10 0 mm W x H e Configuration via DDIconf software can be run on Microsoft Windows 2000 and XP e Direct connection to the Dupline bus e 24 VDC power supply Product Description The DDI 2 text display is a value for money visualising component of the Dupline bus system and enables up to 128 channels to be displayed and operated within one system Display and Operation The greenish LC display shows every Dupline function on one page by means of two lines each with 16 characters The navigation buttons located on the outside can be used to move back and forth between the displayed pages With the two inner buttons the relevant channel status On Off resp Up Down may be changed provided the keypad is operational and can be altered Data Types The DDI 2 can present switching channels on off as well as analogue data AnaLink channels These include e g toggle switch functions real time switch channels but also straightforward output channels such as an alarm siren Furthermore analogue data as used with the DLUX or DTS can be scaled and displayed together with their physical units The display also permits the switch status to be changed provided that this is possible with the channel generator s configuration There is thus the op
189. s rule is the wiring of the input and output boards DNP 8A DNP 4 etc In order to pre vent equalising currents from occurring the neutral conductor of the power supply must in these cases be connected to the Dupline signal conductor Connecting the supply voltage If the device has been provided with a separate neutral input connection for the power supply then this must be used If no neutral input is provided the negative pole of the supply voltage must be connected directly to the terminal of the Dupline signal conductor Right Wrong Note The power supply for such a component has to be installed direct neighbourhood of the component Several components which are locally distributed e g in sub ordinate distribution cabinets must not be supplied by the same power supply Connecting switching contacts If the switching inputs and outputs of the components need to be connected to 0 VDC then only the neu Dupline Planning Aid and Product Information February 2006 v1 60 Page 15 2 Dupline The Basics 2 3 Inputs and Outputs 2 3 4 Power Supply Do e p ke tral conductor of the external power supply may be used for this purpose Right Wrong Hidden connection to earth When establishing the power supply care must be taken that no hidden connections are created between the Dupline neutral and the earth potential Right Wrong Page 16 February 2006 v1 60 Dupline Planning Aid and Product Information 2 Dupline
190. sing the mounting plate supplied or flush mounted in an installation box dia 68 mm In both cases the fixing screws supplied can be used Operating Modes The DPM 1 is equipped with two controls e a rotary potentiometer for setting the switching threshold this is located next to the infrared Page 52 February 2006 v1 60 Dupline Planning Aid and Product Information 5 System Components 5 3 Inputs Doep Ke 5 3 5 DPM 1 Presence Detector lens and e the operating mode rotary switch on the circuit board These controls enable you to influence the function of the twilight sensor in relation to the presence detec tor Thus different applications are possible e Twilight dependent operation of the presence detector The DPM 1 operates automatically in accordance with the selected twilight setting Only when the lighting is below the set level will the DPM 1 respond upon detecting a person and can thus be used to switch the lighting in a room on oft e Twilight independent operation of the presence detector The DPM 1 ignores the light conditions in the room and responds every time a person is detected It can thus be used purely as a proximity detector e Operating the presence detector as a slave in a group of DPM 1s Any number of DPM 1s can signal the presence of a person in dependence upon a twilight sensor With this group option you can ensure that all presence detectors in a room with different lighting zones are working in unison Sabot
191. so be assigned to several input devices so that they act as an Or function If several outputs have the same address as an input the input signal will act on all outputs It is therefore possible for one input signal to be output at several locations simultaneously The following diagram illustrates the input of two signals at address A3 with an output at two devices 2 2 4 Transmission Procedure 2 2 4 1 Overview On the Dupline bus there are three different transmission formats for relaying input data e Control status ON OFF e Counter values e Analog measurements by the AnaLink method This chapter shall give you an insight into the details of the transmission methods that however goes far beyond the absolute necessary knowledge about Dupline 2 2 4 2 Control status This standard transmission format is employed in the majority of standard inputs and outputs It repre sents for example the status of a switch i e OFF or ONT and uses exactly one freely programmable channel Such control states are also called binary coded values 2 2 4 3 Analog measurements AnaLink Analog measurements can be transmitted as AnaLink or as BCD data see following chapter With the AnaLink procedure the data are transmitted serially via only one freely eligible channel or address e g P5 In this process the states 0 or 1 are added up over a total of 256 cycles This means that in an extreme case nothing but 0 val
192. ssible For indication of the operating status all dimmers are equipped with a LED on the front panel as well as with acknowledge outputs which in the case of DDM 2 devices also display the error code These out puts are electrically isolated and can be routed e g to inputs of a DSM 4E or DSU 8 An example of a con nection layout is provided under Wiring Layout and Dimensions Dupline Planning Aid and Product Information February 2006 v1 60 Page 97 5 System Components 5 4 Outputs 5 4 3 DDM 2 DDM 2plus DDMU 2 DDMU 2plus 2 way Dimmer DIN Rail Do c p Ke The following table illustrates the functions of the dimmers Saving the dimmer setting selected last 1 Acknowledge semiconductor Multi function channel 100 per soft start ON Switch off directly via Dupline Acknowledgement of operation overvoltage load outage overload and short circuit a Joon apts output Dimming On Off button Operating mode switch Characteristics change over switch Lighting scenes Lighting scene switch 2 outputs of 200 W each 2 outputs 1 10 V 2 outputs PWM Detection of overload overvoltage short circuit of load outage Linked to Dupline via input modules Manual operation option in the event of a bus fault corresponds to channel 2 or 6 Switch over between phase angle and AC modula tion control Switch over between two drive characteristics 6 lighting scenes can be stored and recalled Enabling disabling a
193. sual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC Doep Ke e configure which channels are to be displayed e specify the text to go with the displayed channels e determine which of the displayed channels may be changed scale analogue AnaLink channels e define up to 16 event channels e specify the order in which the pages will be displayed e configure the LED background lighting e select the language of the DDI system menu The configuration can be transferred to the DDI 2 and retrieved at any time As it is saved on Flash PROM it will be retained even in the event of power failure Configuration is carried out via the rear mounted 9 pole SUB D socket for this purpose you can use the DKK 1 interface cable which also serves for the channel generator configuration Connections In addition to a 24 VDC power supply the DDI 2 only requires a Dupline bus system Notes on Applications Design and Mounting The DDI 2 is designed to be fitted into deep flush mounted installation boxes dia 68 mm The cover plate permits the use of adapter frames available in most of the standard switch product ranges so that the DDI 2 can be neatly integrated In order to ensure the full functionality of the DDI 2 please observe the following points e The DDI 2 should be positioned at eye level Selecting too low a location reduces the visible display section of the device and impairs its legibility e When using NT24
194. t Page 116 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 8 DSM 1U Flush Mounted 1 Way Binary Relay Output 5 4 8 DSM 1U Flush Mounted 1 Way Binary Relay Output e 1 way relay output for local installation e g in flush mounted installation boxes e 1 relay output NOC for 250 VAC 13A Power supply by the Dupline bus Product Description The DSM 1U was designed for applications in local installations for controlling loads with voltages of up to 250 VAC and a current consumption of up to 13 A Its compact size makes it suitable for fitting into flush mounted installation boxes and similar limited spaces The DSM 1U does not require an external power supply as it is supplied by the Dupline signal line As a safeguard in the event of a bus fault the status of the output can be preconfigured with the DHK 1 hand encoder The standard setting is OFF Notes on Applications Not applicable Wiring Layout and Dimensions white Dupline Dupline E3931180_2 02 05 E Connections Terminal Description Switching channel Liy Dupline signal conductor Dupline orange Switching channel Lour Dupline signal conductor Dupline Dupline Channel Allocation Output signal Not assigned Indicators none Dupline Planning Aid and Product Information February 2006 v1 60 Page 117 5 System Components 5 4 Outputs 5 4 8 DSM 1U Flush M
195. t the start and at the end is accomplished by the simple expedient of inserting jumper wires A failsafe circuit can also be provided in this way it will ensure that any breakdown of network members is quickly and reliably detected For details refer to the respective operating instructions and to Chapter 4 1 Networks on Page 22 The transfer rate is selectable between 2400 and 115 200 baud and can thus be adapted to any possibly adverse environmental conditions The communication parameters are set once with the aid of the new ProLineN software directly via the modbus master repeated unplugging replugging is therefore unnec essary When all channel generators one master and up to 31 slaves have been configured with ProLine the master will automatically initiate the data exchange whereby every individual DKG receives a transcript of the data of all other DKGs Access to the data of other DKGs is always source addressed i e it is restricted to read only There are two options of including external data the so called references Dupline Planning Aid and Product Information February 2006 v1 60 Page 33 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators Doe p Ke 1 Direct access within the channel objects Every configured channel contains a list which can be filled with external references to channels of other DKGs Every channel listed here is or linked to the configured channel 2 Indi
196. table on modules Real time clock Better than 1 minute month Buffer time Says Screw terminals 0 4mm Type I Distribution installation housing for rail mounting to DIN EN 50022 144 x 78 x 65 W x Hx D in mm 8 modules Polycarbonate 10 C 45 C 85 Encl protection type standards IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 Order number description 09 501 122 channel generator 24 VDC DKG 1 09 501 104 channel generator 115 230 VAC DKG 2 09 501 129 interface cable DKK 1 PC DKG 09 501 137 interface cable DKK 2 DKG DKG 2 5 mm 09 501 142 25 pole adapter DKK 3 DKK 1 PC 09 501 143 angled adapter DKA 1 1 Without backup power supply Page 32 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 2 Central Units 5 2 2 DKG 20 DKG 21 GSM Channel Generators 5 2 2 DKG 20 DKG 21 GSM Channel Generators e Generators for 128 channels each REES e Serial ports for configuration and visualisation e Channel properties time functions and logic functions configurable with ProLineN PC software e Four each integrated semiconductor inputs and outputs e Simplest possible set up of networks with up to 32 DKG 20 or DKG 21 GSM e DCF radio clock synchronization with optional DCF active antenna e Remote control and remote monitoring via mobile phone SMS if connected to optional GSM antenna DKG 21 GSM only e Operating voltage 115 230 VAC
197. ter 3 SO Output ter 4 SO Output ne DTZ 4 e 2 3 12 7 D ine DTZ 4 Dupline Dupline 3931202_1EB Dupline Dupline Page 84 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meter Connections 1 2 Input counter 1 Dupline signal conductor Dupline Input counter 2 Dupline signal conductor Dupline 22 mum 14 Operating votage 0 VDC D07 2 6 1 4 Input counter 4 Operating voltage 24 VDC DC Dupline Channel Allocation Groups Description Groups Desorption B Measuring range 0 99 B D Measuring range 0 999 999 Measuring range 0 9 999 Measuring range 0 99 999 999 DIP Switch Switch Description oF o Reset via Dupine bus disabled Operating mode Rotary Switch Sich J Deere 1 2 Setting the device s address Indicators Indicator f Deren O Green LED Betrieb Status indicator Off equipment malfunction or no power On equipment OK in 9p x bpm S e S a T 0 me poo 21 5 VDC Current input em Dupline Planning Aid and Product Information February 2006 v1 60 Page 85 5 System Components 5 3 Inputs 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meter Doep Ke Typ Terminals Type Strain relief clamps Contact area Type Distribution installation housing to DIN 43880 for rail
198. the DRT can be fitted into the individual switch programme In order to guarantee the DRT 2 s fully functioning please take not of the following points e Position the device so that it is not exposed to a direct heat source e g from the sun or a radiator e Make sure that the DRT 2 is not exposed to draughts e g near windows which could affect the measurements taken by the internal temperature sensor e Ensure that the output of the controlled heating facilities e g radiator panels is matched to the room to be regulated If the calorific output is too low or too high it could negatively affect the control behaviour of the DRT 2 e The DRT 2 should be installed at eye level If positioned too low the visible display section of the device would be reduced and readability impaired e The maximum lengths of the leads for the power supply cables is limited to approx 50 m with the NT24 250 and NT24 1300 supply units Controls The DRT 2 features the following controls Shutter Left fi IF Down J 1 Scrolling 2 Scrolling down page Up page 3 On Off switch 4 On Off switch Up command Down command Entry into display groups Entry into display groups In addition to the button functions detailed in the illustration the following combinations provide further functions 1 and 2 Calls up the system menu see next chapter Exits from display groups to the group element above 2 and 4 Disables the key lock When you
199. the aid of this programme you can e specify the operating mode of the DRT 2 Terminal Thermostat e combine thermostat and channel functions into folders max 16 e configure which channels are to be displayed max 16 channels e define the sequence of the pages in the display e specify the text of the displayed channels e determine which of the displayed channels are changeable e scale analogue AnaLink channels e determine the parameters of the temperature regulator e configure the LED back lighting e configure the key lock Page 62 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC e select the language of the DRT system menu The configuration can be transferred to and read out from the DRT 2 at any time As it is saved in Flash PROM it will be retained even in the event of a power failure The configuration is via the 9 pole SUB D port fitted on the back of the device for this purpose you can utilize the DKK 1 interface cable which is also used when configuring the channel generators Notes on Applications Structure Mounting and Design The DRT 2 is designed for fitting into deep flush mounted installation boxes dia 68 mm The DRT 2 can be integrated here as the cover enables you to use the adapting frames of most standard switch pro grammes Please check beforehand that
200. the background lighting and e The keypad lock To access the system menu press buttons 1 and 2 simultaneously You can navigate within the menu using button 1 moving up and 2 moving down The settings can be changed with buttons 3 and 4 The menu has the following structure wen em Option 1 Bone Language Menu language set to English Vode Bg Ligh Push The background lighting will be switched on for the duration set in DDIconf Addr The background lighting is controlled via a Dupline channel e g light level sensor DLUX Keypad Lock Operation is not protected by the keypad lock To operate the DDI 2 the keypad lock must be cancelled System Version Displays the DDI 2 software version in use Exit Menu Y If you want to exit from the menu press buttons 3 or 4 By pressing buttons 1 or 2 the menu items will be repeated es Store Data es Select this to save the settings and to exit from the menu Select this to exit from the menu without saving any changes 1 The basic language with which the DDI 2 is equipped ex factory always is English 2 The second language is dependent upon the language setting when configuring Dupline Planning Aid and Product Information February 2006 v1 60 Page 139 5 System Components 5 6 Components for Visual Display 5 6 1 DDI 2 2 Row Text Display 24 VDC Doep Ke Wiring Layout and Dimensions 3931264 2A 3931264_1A
201. tion in the case of e g toggle switch functions to switch lights and other loads on or off Shutter control objects which tie up both channels Up Down are dis played on one page so that it is possible to switch in both directions without having to turn to another page Events The DDI 2 provides the option of defining up to 16 event channels As soon as any such channel is acti vated the configured message e g fire alarm will be displayed All event messages have a freely selectable priority rating so that a higher priority message can be shown if a message with a lower priority is already pending By means of acknowledging it is possible even while an event channel is still active to recall a previous display or to access the next event message Background Lighting The DDI 2 features background lighting whose function can be programmed With this energy saving illu mination the display can be used in locations with limited light You may configure the lighting in the way that it e does not switch on or e switches on for an adjustable time or e is activated by a Dupline channel e g set by the light level sensor DLUX Configuration The display is configured with the DDIconf software which can be downloaded free of charge from our homepage at http www doepke de With the aid of this programme you can Dupline Planning Aid and Product Information February 2006 v1 60 Page 137 5 System Components 5 6 Components for Vi
202. to 100 or from 100 down to 10 Observe the manufacturer s instructions Pulse width modulation Any current consumption at this signal output represents an additional load on the 24V supply One LT 500 or LT 1200 typically requires 1 mA Veo Page 92 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 4 Outputs 5 4 2 DDMU T1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted 5 4 2 DDMU 1Rplus 1 Way Light Scene Dimmer 1 10V DIN Rail Mounted e Stores 6 lighting scenes in memory e Acknowledgement of switching status e Switching dimming capacity for up 25 electronic ballast devices each with 58 A e Automatically controlled dimming up and dimming down according to memory setting e Control output for up to ten LT 500 LT 1200 load modules Product Description The DDMU 1Reolus lighting scene dimmer is a component of the Dupline installation system It permits electronic ballast and Doepke load modules to be dimmed and switched on or off the operating status being indicated by means of a LED on the front panel as well as via a Dupline acknowledgement channel The outputs can be dimmed and switched on or off with the aid of the push button on the front panel and Dupline channel 2 Upon switching off the dimmer setting selected last is stored as a so called memory setting in the internal memory and is reselected next time the lighting is switched on A power failu
203. tor 2 DOWN EC Motor 4 DOWN Dupline Planning Aid and Product Information February 2006 v1 60 Page 115 5 System Components 5 4 Outputs 5 4 7 DRO 4b DRO 4c Rail Mounted 4 Channel Shutter Control Units Doe p ke Indicators Indicator Description Green BUS OK LED Dupline bus Off bus fault On bus OK 4 red LED Jr All or nothing relay 1 2 3 4 Off no upward movement On upward movement 4 red LED All or nothing relay 1 2 3 4 Off no downward movement On downward movement Typ Current inpu Input channels none Output channels 8 control channels shutters 1 2 3 4 each UP and Down 10 uA All or nothing relay Voltage 230 VAC Rated current load capacity N gt Power factor Step Mode DRO 4c only ee eee Timing Operating Voltage BEE Rated operating voltage Curentinpt om TL em Ripple voltage 00 me Terminals Strain relief clamps 0 4mm 2 5 mm 0 6 Nm Contact area O EAR e CH OCH OD OD CD Type I Distribution installation housing to DIN43880 for rail mounting to DIN EN50022 Dimensions 72 x 85 x 58 W x Hx D in mm 4 modules Material Polycarbonate General technical data Ambient temperature 106 t IEC60669 EN55022 EN61000 6 3 and EN55024 EN61000 6 1 09 501 214 Shutter control unit DRO 4b 09 501 215 Shutter control unit DRO 4c Encl protection type standards Order number description gt 3 3 C 3 Q l
204. tors specified in the table In order to design lighting scenes with several dimmers the individual dimmers simply require an identical channel configuration e g addresses A1 A3 A4 for input 1 3 4 for retrieval and storage of lighting scenes and input 2 for the individual setting of the lighting scenes By using central control items in Pro Line it is thus very easy to set up made to measure lighting arrangements For a detailed description of the configuration and operation refer to the operating instructions on the Building System CD Order no 09 501 001 or the Internet at hito www doepke de uk Dupline Channel Allocation Central Off Dimming On Off Pen Soft On Description Dimming Ch Dimming Ch Central Off Dimming On Off 100 Soft On Central Off light scene 3 4 6 Dimming On Off Light scene 1 3 5 6 Light scene 2 4 5 6 Dimming On Off Light scene 1 3 5 6 Light scene 2 4 5 6 DDM 2plus DDMU 2plus KEEEDDR KEE il Central Off light scene 3 4 6 Connections Terminal Description Terminal Description 3 1 3 5 Supply L channels A amp B 1 1 1 5 Output Lout channel A S 3 2 1 2 5 Supply N channels A amp B 4 1 4 5 Output Lout channel B amp 1 2 2 2 Supply Rin 10 30 e ackn 1 6 2 6 Acknowledge output Rout SE channel A channel Bt channel A channel B Q 18 Dupline signal conductor 14 0 VDC D KA Dupline signal ren ECH 24 VDC
205. ture for adjusting louvered blinds or shutters with slats When using the latter model the option Tilting Blinds in the ProLine object Roller blind should therefore not be activated The green LED situated in the coding and test socket indicates that the Dupline bus signal is functioning properly Two further LEDs per output UP and DOWN indicate the current control direction of the out put The status of outputs in the event of a bus fault can be preconfigured and is adjusted to UP 1 by fac tory by means of the hand encoder DHK 1 the status can also be configured to DOWN LO and changed at any time Notes on Applications Address Assignment The encoding of addresses must be carried out so that the UP channel gets an odd address A1 B5 etc and the DOWN channel gets the following even address A2 B6 etc Note lf the motor runs in the wrong direction despite a correct address configuration then the relevant connecting wires of the motor have been interchanged In such a case reconnect the wires correctly under no circumstances may the address be exchanged step Mode DRO 4c only The DRO 4c is provided with an automatic feature which facilitates the slat adjustment of blinds and shut ters The unit will generally switch to the so called Step Mode if the UP command is activated for no more than 1 second and the DOWN command is given immediately afterwards within max 2s The
206. two categories those with their own power supply and those without Devices with their own power supply should be used wherever possible because they do not use the Dupline signal as their source of power and thus increase the maximum transmission distance of the whole system Devices without their own power supply are supplied directly by the Dupline net This type of input and output is designed for decentralized measurement acquisition and signal output at locations where no external power supply is available These devices act as a load on the Dupline bus so that the maximum transmission distance is reduced Generally speaking the maximum allowed distance between the sensors e g contacts measuring devices and the input devices is dependent upon the environment in a commercial or business environ ment such as e g an office block the distance at the input side can be up to 12 m But in an industrial environment the length of a cable at the input end may not exceed 3 m 2 3 2 Address Assignment A Dupline component may have one or more channels depending upon its equipment Thus it is possible e g for an output also to have input channels for return communication DSM 4R The channel addresses must be allocated to the devices with the aid of the hand encoder DHK 1 the addresses themselves can be freely selected Unused channels should always remain uncoded e g they should not be assigned an address and any previously assigned addresses
207. ues equate to an analog value of 0 while nothing but 1 s correspond to 100 The absolute value will always depend upon the measuring range of the sensor Because of the serial transfer this procedure is primarily suitable for the transfer of slowly graduating measurements 2 2 4 4 Counter data time division multiplex method In the transfer of counter meter data a distinction should be made between the transfer format and the transfer mode of the data The transfer format for counter meter data is normally by means of the so called BCD representation This representation is based on decimal points power of ten in which the values O to 9 are each expressed by 4 bits The following diagram illustrates the conversion of data into BCD representation and Page 12 February 2006 v1 60 Dupline Planning Aid and Product Information 2 Dupline The Basics 2 2 Signal Transmission Doe p Ke 2 2 4 Transmission Procedure of BCD into decimal format BCD Decimal Decimal gt BCD 0101 1001 7584 8 rem 4 rem 2 rem Be 71151 0 4 141 0 0 0 0 2 0 0 2 0 1 0 0 0 0 0 WER 0 4 0 9 1 9 0 5 1 1 0 1 0 f 1 3 1 1 0 8 0 SEH 5 10 50 Sum 5 Sum 9 Sum 59 0111 0101 1000 0100 The number of BCD places used and thereby the number of Dupline channels used generally depends upon the range of the input channels Thus the DTZ 4 pulse counter see Chapter 5 3 16 DTZ 4 Rail Mounted 4 Channel Pulse Counter Hours Run Meter on Page 84 ca
208. ues through an Access based database which serves as a data basis for both the billing as well as the DPCamp Remote see below programme There are two software interfaces for further processing of the values available currently 1 The Microsoft ODBC Access interface for direct access to the database Provides access using Microsoft ODBC data requests 2 The TCP IP socket connection for direct requests of values from the server Provides access by means of text requests via TCP IP connections The server also features a diagnosis tool which is able to display all states within the entire bus system It thus is excellently suited for commissioning and troubleshooting Dupline Planning Aid and Product Information February 2006 v1 60 Page 179 5 System Components 5 10 Software 5 10 4 DPCamp Software for Commissioning and Interfacing in Leisure Facilities Doe p Ke DPCamp Remote This module enables you to operate the Dupline system remotely In practice this means that you are able to control your facility from any PC that is connected via network to the DPCamp Server PC Thereby DPCamp remote uses the same software interfaces that are provided to the billing programmes Due to this several PCs may access the central DPCamp Server PC and switch relays respectively request counter values Note Of course it is a pleasure to us to develop visualisation applications and additional software interfaces for billing programmes
209. uitable for both surface mounting and flush mounting in standard socket boxes The DTS 2 is also available as an open circuit board without housing Order no 09 501 172 DTS 2P if the sensor electronics are to be fitted into the installation housing of another manufacturer The DTS 2 requires no external power supply as it is supplied by the Dupline signal line The analog data are transmitted in the AnaLink process i e the transmission of a complete measurement takes approx 35 sec The DTS 2 is therefore suitable only for slowly changing temperatures Wiring Layout and Dimensions Socket for channel programming 4 6 84 0 558 a N N 9 D 9 Ww bal Installation Depth Surface Mounted Frame Dupline Connections Dupline signal conductor Dupline Dupline signal conductor Dupline Page 82 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 15 DTS 2 Temperature Sensor in Installation Housing Dupline Channel Allocation 1 Temperature Data Not assigned Indicators none KENT Ye oo Measuringrange s00 II og Operang vonage OoOo Terminas O O O T Strain relief clamps Contact areal oammg zme LITT Gererdischricl dee OOOO Ambient temperature s00 1 P20 Order number description 09 501 168 Temperature sensor DTS 2 09 501 172 Temperature sensor circuit board DTS 2 P Dupline Planning Aid and Pr
210. upline 19 0 mi r al Dupline Planning Aid and Product Information February 2006 v1 60 Page 59 5 System Components 5 3 Inputs 5 3 7 DRT 1 Room Thermostat in Installation Housing Doep Ke Connections Dupline signal conductor Dupline Dupline signal conductor Dupline Dupline Channel Allocation 1 Input Switching channel heating 2 Output night time reduction command Indicators Indicator Description 77T Red LED Switching channel heating command Off Room temperature exceeds set temperature switched off On Room temperature lower than set temperature switched on Temperaturesensor U TE RER EES Dupine SS OperatingVolage O S ee ee Clevis terminal Contact areal 0Ammo 25mm BE Housing for flush and surface mounting General technical data Ambienttemperature 30 60 C 09 501 171 Room thermostat DRT 1 Night time reduction 4 C at address group B Dimensions 84 x 84 x 34 W x H x D in mm Page 60 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC 5 3 8 DRT 2 Room Thermostat with 2 line Display 24 VDC e Ergonomic room thermostat with monochrome LCD display e Selection of different control programmes e 16 Dupline channels can be displayed and operated e 2 line display each with 16 alphanumerical characters on
211. upline 24 VDC 0 VDC DSS AR EIB 3931176_2A Dupline Dupline 24 VDC 0 VDC Connections DSS AR and DSS AR EIB Dupline signal conductor Dupline signal conductor 0 VDC Operating Voltage 0 V DC 24 VDC Operating Voltage 24 VDC DC Dupline Channel Allocation Input operating signal 1 T1 Acknowledge signal 1 LED 1 Input operating signal 2 T2 6 Acknowledge signal 2 LED 2 Input operating signal 3 T3 Page 68 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 3 Inputs 5 3 9 DSS AR DSS AR EIB Operating Signal Sensors with Acknowledgement Dupline Channel Allocation Continued Channel Description Input operating signal 4 T4 8 Notassigaed Indicators none Min Typ Max EEE EEE EEE EEE Gurentinpat 2A 4 operating signal inputs Output channels 2 acknowledgement outputs Semiconductor inputs 21 5 VDC 24 VDC 26 5 VDC not applicable Type Voltage Power supply Contact load Permissible inh contact resistance Length of line Outputs Acknowledgement Type Load capacity outpu Operating Voltage Rated operating voltage Own current consumption Terminals Terminals mounted Terminals enclosed 1 mA 1 kOhm Semiconductor outputs 24 VDC open collector 2 W 80 mA 21 5 VDC 24 VDC 26 5 VDC ee 98mA spring loaded terminals 2 pole with double connecting points 0 4mm 0 8mm Screw terminals with wire
212. upply DNP 4 Dupline bus signal G2140 5510 Bupline O Power supply DPN 4 Dupline bus signal G2140 5520 Connector Tor channel encoder Connector for channel encoder 59 0 mm 59 0 mm DC US O04 03 02 01 4 3 2 N POW BUS OSSSSSSSOSSSSOS n gees DC Bus 04 03 02 01 4 13 DH POW BUS Dupline 3931178EC 3931179EC Dupline Current input Input channels 4 semiconductor inputs channels 1 4 Output channels 4 semiconductor outputs channels 5 8 4 contacts via NPN transistors T C Breaking capacity Rated current per channel Page 132 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 5 System Components 5 5 Combined Inputs and Outputs 5 5 1 DNP 4 DPN 4 4 Way binary Input and Output Board 24 VDC Min Typ Max Leakage current in Off status P00 AP Outputs DPN 4 See Type Voltage drop OV 2 8 V Breaking capacity Rated current per channel Leakage current in Off status Operating Voltage Rated operating voltage Current inpu Current at make Terminals ln Contactareal _O4mm mm SS eee Type Dimensions General technical data SS aaa Ambient temperature 060 T 20 Atm humidity 20 S O 80 Encl protection type standards LI Accessories 4 retaining clips for mounting the assembly Optional Support bracket for mounting on DIN rail Order number description 09 501 131
213. very slave must be connected to a DCI 2 For ProLine the emulated port must be within the range of between COM1 and COM4 Power Supply Power can be supplied either via the supplied plug power pack or by unregulated 12 30 VDC e g with the NT 24 250 NT 24 1300 system power supply units see Chapter 5 8 2 on Page 160 Ethernet In the Ethernet network the DCI 2 requires a free TCP IP address which can also be assigned by a DHCP service Mounting The DCI 2 can be mounted on a DIN rail using the supplied bracket Interface Configuration The following screen shots illustrate the configuration of the virtual port with the aid of the Real COM Installer The baud rate for configuring the DKGs is 115 000 the rate for visualisation may not exceed Dupline Planning Aid and Product Information February 2006 v1 60 Page 151 5 System Components 5 7 Interface Components 5 7 2 DCI 1 Serial to Ethernet Port Server Doepke 57 600 Port Properties i wl Port 1 at konfig DEG Doepke Test Port Settings l x Select the COM port that you would lke curent port to map to Baud Rate MERANI Map to COM Data bits E Mapping COM number consecutively Parity None Interface AS 232 Stop bits fi Transmission Mode FIFO Flow control None Hi Performarce Ce Enable Ce Classical Disable al Fast Flush Only Flush Local Buffer Cancel Connections SUB D 25 pole IL BE a BEER RE e 1 a
214. ways assigned to channel address A1 In general the cycle time Toyo with n channels can be expressed by the following equation Toye 8ms 1msx Nchannels As the figure above illustrates a definite address is assigned to each channel the addressing of these channels is in groups A to P of 8 channels each 1 to 8 With a maximum configuration of 128 channels the first channel has the designation A1 and the last the designation P8 With the aid of the ProLine configuration software the number of channels within the 16 to 128 range can be set up in steps of 8 channels so that depending upon the channel number the following addresses and cycle times result Number of Channels Cycle Time WRC A1 H8 72ms For further information on the channel generator and its functions see Chapter 5 2 1 DKG 1 DKG 2 Channel Generators 24 VDC and 115 230 VAC resp on Page 28 Dupline Planning Aid and Product Information February 2006 v1 60 Page 11 2 Dupline The Basics 2 2 Signal Transmission 2 2 3 Addressing Do e p ke 2 2 3 Addressing As already mentioned the addressing does not serve to physically activate input or output devices so that it is possible and even desirable to assign identical addresses to input and output devices lf an input and an output have the same address then the input signal is transmitted directly to the output by a channel generator which has been configured correspondingly The same address can al
215. x H x D in mm Ambient temperature 10 50 Atm humidity o Encl protection type standards IP 40 for indoor use approx 150 g Order number description 09 501 134 Proximity detector DBM 1 85 Dupline Planning Aid and Product Information February 2006 v1 60 Page 43 5 System Components 5 3 Inputs 5 3 2 DIR 2 Infrared Remote Control Doe p Ke 5 3 2 DIR 2 Infrared Remote Control e 8 x 8 different transmission channels 64 switching options e Power supply of receiver provided by the Dupline bus e Range of 15 m Transmitter powered by standard batteries Product Description The Dupline infrared remote control consists of two components a receiver DIR 2 and a hand transmit ter DIR 2T Each DIR 2 receiver is capable of receiving 8 switching commands and of transmitting these to the coded channels of the Dupline system Up to 8 switching commands each pertaining to one of the 8 switching groups A H can be selected via the DIP switch of the DIR 2 and via the rotary switch of the DIR 2T trans mitter However the switching groups A H have no connection with the channel groups of the Dupline system By grouping it is thus possible to configure up to 64 switching commands with 8 receivers and one or more hand transmitters and to remotely operate within one room Provision for labelling on the back of the transmitter facilitates the operation Notes on Applications 1 Receiver The receiver must
216. ximity detector DBM 1 43 A 09 501 136 Signal converter DSU 2U 76 actuator interface for remote ACCESS 149 09 501 137 Interface cable DKK 2 168 Ae Ee 166 09 501 138 Shutter control unit DRO 1U 109 adapters 09 501 139 8 way input DNP 8E aassnsnensnnennennenan 51 OL DRG VDRO 2 167 09 501 140 M12 interface cable DKM 1 168 TOP DKK T ernennen 168 09 501 141 M12 encoder cable DKP 3 170 addresses 09 501 142 25 pole adapter DKK 3 168 ASSIQNMENL ccecccesececeeeeceseeceesseeeeseeeesseeees 12 14 09 501 143 Angle adapter DKA 1 167 forms f r ASSIGNING unse 182 09 501 145 Pulse counter DIANA 86 AnaLink 09 501 148 Software DSC 3 P 144 148 display Ol Cale esse 145 09 501 152 DNP DPN mounting unit DPH 2 172 EE iu 12 09 501 154 Signal sensor DSS AR 69 andog Re EE 12 09 501 155 Signal converter DSU 8 79 angle adapter for DKG 1 DKG 2 167 09 501 168 Temperature sensor DTS 2 83 B 09 501 169 IR receiver DIR 2 46 BCD 12 09 501 170 IR transmitter DIR 28 anne 46 Gei e Ehe e 09 501 171 Room Thermostat DRT 1 60 g prog OSE Ee 09 501 172 Temperature sensor DTS 2 P 83 C 09 501 173 DDM 2dmmer 103 cable 09 501 174 4 channel relay output DSM
217. y at the device but also within the network but not at one and the same time Within the network the visualising component must adopt the function of the modbus master The master has the task of exchanging the data between the other members this also means that should there be a failure of the visualising component then the data exchange will also stop This data exchange has nor mally to be programmed either via scripts on the DSC 3 touch screen or via scripts or HLLs in software componenis 4 2 2 2 DKG 20 DKG 21 GSM The new generation of channel generators provides the option of reaching the data of all other network members via the channel generator which functions as the Modbus master lf the visualising component is connected to one of the slaves the data of the other network members can Page 24 February 2006 v1 60 Dupline Planning Aid and Product Information Doep ke 4 Networks and Visualisation 4 2 Visualisation 4 2 3 Visualising with the DSI 1 Modbus Interface normally be read but not written Both options are illustrated in the diagram on Page 22 in Chapter 4 1 3 Networks with DKG 20 DKG 21 GSM lt should be pointed out that when using the solution with the DKG 20 and DKG 21 GSM a breakdown of the visualising component would not impair the data transfer between the channel generators and fur thermore additional functions e g changing of set point and switching time are available 4 2 3 Visualising with th
218. you can activate and de activate the thermostat inhibit manually at the DRT 2 or via a Dupline channel De activation of this programme has also to be carried out manually Heat frost protection The thermostat can be switched via the Dupline bus into protective mode whereby only the separately configurable values for heat and frost protection in the room are monitored Upon exceeding or falling below these values the DRI 2 energizes the relevant output channels irrespective of the set values for cooling and heating Thermostat reset The thermostat can be returned to a defined initial status via the Dupline bus When the relevant reset channel is transmitted via Dupline the thermostat discards all manually activated changes made hitherto and reloads the original configuration default settings Display and Operation The DRT 2 is able to display three basic types of pages thermostat functions Dupline channels and dis play groups submenus In the display groups it is possible to combine thermostat functions and Dupline channels so that an intuitively operated structure is created The external button keys are used to scroll through the pages while the inner keys are used to enter into the display groups or to change thermostat settings e g desired temperatures run time of the comfort mode and Dupline channel states On Off Thanks to the easy to understand representation of texts on the two lines of the light green LCD display and th
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