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SMARTCONTROL
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1. Flash M Display 3 Readout 06 08 2007 10 46 09 Status io errers Result With the command 026 the status of all 7 inputs is read in The result 7F in hex is the digital CortrotID White cy ect le equivalent of 7 x 1 or s decimal 127 der Hysteresis fo 0 64 000 activated 026 Value comngutanor This means that all 7 relays are All seven of the module s outputs can now be set at once or the relays can be set individually Activating and deactivating individual relays The following command 0213 02X 02 gt address 1 gt set individual relay 3 gt relay no 4 0 based 02X gt Variable which will be replaced by the value of the address Switches relay no 4 on and off in accordance with the following conditions GMC Messtechnik GmbH Either a computer or a relay command can be used for the logic A relay command offers the advantages of variable limit values and the option of specifying a hysteresis as well as direct linking to the switching module Linking means as shown in the screenshot that the ID of the switching module is entered to the relay command as the output relay and the ID of the relay command is entered to the fieldbus module
2. GMC I Messtechnik GmbH 15 2 6 2 PCB Connections Figure 6 Omran as oe i a EAPANSION f 155 156 157 a io E ic rf so 200 fo e 8 oF H l Too Analog ISDN fej of Set l i l TEI i E i I i FRI Hli hess bli iL mY Tle 1 EF Eg EE i E E e j D ty 0 Dj SOCKET Nodem Analog IS0N GSN BT SSS Ag AU pa oe A i AGS AT ua Ta iE Ti i T2 yA a T4 T TS jis T T Tf a SS pad ae alSib aadh alap Pa Hmmm MMS s bbb fie u v v o u v u u cE 2 a ee ee O ETN is g A S 1 8 digital inputs pulse status tariff 15 Option compact flash card LN Jumper digital inputs a nean 2 active passive signal 16 Option LCD keypad 3 8 temperature inputs Pt 1000 17 Battery for real time clock 6 analog inputs 2 relay outputs or 2 Cat 4 additional analog inputs 18 EE OT DERG CEN eee aa ameni Input 12 to 24 V DC supply power Interface M Bus PRG RS 232 i Output 12 to 24 V DC supply power aa via level converter a J Jumper PRG firmware Connection analog telephone line m Ms s Interface FIELD 1 RS 232 22 Connection ISDN telephone line a fs 9 Interface FIELD 2 RS 232 23 LED GSM DCD TX RX Ha C ij DE Interface FI ELDBUS RS 485 Jumper socket supply 3 5 V 5 5 V Mif FES fae ag 11 Jumper RS 485 termination 25 Jumper analog or I SDN te
3. ssssssnnssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn n 55 The Menu Bar 55 The Toolbars 56 The Status Line 57 Wizard 57 The Scenario Browser 58 Network Toolbar 59 Data Toolbar 59 OPC Server Toolbar 59 The Toggle Tab Bars 59 Message Window 60 Numeric Format for Entering Values 60 3 4 Entering Projects Buildings and Devices with the Application Wizard 61 3 5 Entering Projects Buildings and Devices without the ADDICATON WIZI oisinn ine a a 62 3 6 The Configuration Tab sssssssssssussusuu2uu20u20222u20u20u20unuunnunnnnnnnnnnnnnnnnnnnnn 67 Password 67 Guest Password 67 TCP IP 67 Router 68 e mail Recipients 68 TCP IP Ziele 69 Phone Recipients 70 Configuring Error Messages for Status Relays 71 Time 72 Modem 74 Information 74 3 7 THE CallDratiOn LAD aurean aa 75 Temperature sensors 15 A D Converter 76 Meter digital Inputs 78 Status digital inputs 80 GMC Messtechnik GmbH 3 8 3 9 3 10 Relay Start Status The Programming Tab COMMANAS ssssssss22222 Priorities Program Command Characteristics in Tabular View Find Program Commands Transmitting Programs to the SmartControl and Starting Them Restarting the SmartControl M Bus Command Type M Bus Application Command Type Calculator Command Type Timer Program Command Type Multifunction Timer Command Type Power Calculator Command Type Status Command Type Status Integral Command Type Relay Command Type Peak Load
4. Installation Location Mounting the SmartControl IP 65 Mounting the SmartControl Standard Cable Inlets SmartControl IP 65 Low Current Leads Housing Layout IP 65 PCB Connections Analog Inputs Temperature Inputs Digital Inputs RS 232 Serial Interface M Bus Protocol RS 232 Serial Interfaces FIELD1 and Field 2 RS 485 Interface Ethernet Interface Applicable to All Modules Analog Modem Modules ISDN Modules Bluetooth Modules GSM Modules _NV Bus y Bus Relay Outputs Compact Flash Card Saving Configurations and Programs to a Compact Flash Card Serial Modem Port via TCP IP Fieldbus Modules via RS 485 Bus Functions and Protocols Available Upon Request Position of the LEDs LED Codes GMC I Messtechnik GmbH 2 13 ReESCE FL ROY nn a a i 44 2 14 Calculating Memory Range and Data Transmission TIME sssssssss222 45 2 15 NIAL Start Up eiiiai aaa 47 2 16 COMTI UN ACL OMN sa i ceiewawasiwewedecesuwseusewuweseceiee 47 2 17 Shutting Down and Restarting the SmartControl ccccccccccccccceceeceeeens 48 2 18 Deleting the PaSSW OMG spricar inao 48 2 19 Resetting Smartbox to default valUeS sssss2 2 2 5 49 2 20 Firmware Update vxciiiine anaes nawa socitaesvunvundndseulaenciur ued sdsauuseneneNveeresseesuns 49 2 21 Reale Time Clock Battery sinso aaa 50 2 22 TECHNICal Datel a E 51 3 SmartControl MAaNnaG eG sissi a a a a aa a 54 3 1 SEISTON 54 3 2 OVENI orner sa 55 3 3 User nterface
5. The gt return message is set in order to Paa determine whether or not returned data ID Type Field ii are valid Address 0 Field bus readout The checksum is set in order to assure E Wedl O me increased transmission reliability P awen Pan iFa ee ae However this must also be programmed M Fak ae eee Moers into the modems themselves t r I Display a L Result The hysteresis is taken into consideration E for both write and read access a Read Only those data are saved which lie Xj cycle outside of the specified hysteresis 2econds Write Only those values are written l Milliszeconds which lie outside of the specified Start End hysteresis or values are written for each r Field comnmands a memory cycle at least once per hour Type A Analog Anad Confirmation Unnecessary fieldbus communication can Baud 3600 Check sum be avoided in this way Sear white pa Dead G Controller ID and Preorder are only Pander 1 Hysteresis fo 0 64 000 required for write operations and are described below Order HOSA Value configuration Help The following dialog box appears after clicking the value configuration button Test 0K Cancel Field of values configuration Name Offset Temp Level 1 Temp Level 2 Temp Level 3 116 GMC Messtechnik GmbH The value can be changed after clicking the individual fields New values can be added after
6. This assures that switching commands are executed immediately after a change to the relay command The same applies to peak load optimization to calculator commands for the Status inputs to the timer program and to the multifunctional timer Attention Ds of greater than 4 are reserved for the relays mounted to the PCB and are thus interpreted as internal relays The value which is actually to be written in order to switch off the boiler is entered with the character string 02X within the command This character string is replaced by the value associated with the specified ID during operation Beginning of the replacement character string 02 The character string to be replaced must always have a length of two characters Shorter character strings are filled out with a 0 X Format in capital letter HEX and at the same time the end of the replacement Attributes Ed Bae es Cel 100 aD E VO pf hes ed gam BAG i 1 2 Name Heating ott Max 18 char Se Temp boa EE CAU D4 VIE Channel Relay_heating Unit E s General A PU ee Pei aesa aa LAU uojo petero cycle LCD Position C H Relay_heati JEA A Minutes a oan DE Aa Leto Flash C Seconds a p ne ee T Display C Yalue change m Saana co ee od l 7 Start time E Measuring cycle Seconds F 0 Milliseconds hosie avenge F Field commands e D Digital 1E Confirmation
7. A GOSSEN METRAWATT SMARTCONTROL ECS Energy Management System o h i 7 ii n ON i 2 Teal m p E l re Es i pe Ie a 3 e P B uS a0 4 io beT ge O zs f Co L a m ts n ce i i ii a a ais i z a e i D O GMC I Messtechnik GmbH 1 2 GMC I Messtechnik GmbH 1 Range of Applications Diverse Data Collector and Data Messenger Performance features of Gossen Metrawatt s SmartControl SmartControl renders energy consumption immediately measurable in a detailed fashion and thus makes it controllable This in turn is the basic prerequisite for a great variety of measures for the reduction of energy consumption and costs for example with regard to Optimized utilization Contracting Component modernization Conversion Gossen Metrawatt s SmartControl is an inexpensive user friendly easy to integrate data logging system and thus fulfills all prerequisites for quickly establishing efficient sustainable widespread energy management for buildings and properties Amongst other quantities Gossen Metrawatt s SmartControl is capable of recording the following Meter readings electrical power heat water gas etc Temperatures inside outside inlet return etc Statuses burner and pump on times etc Analog signals from external signal converters and measuring transducers
8. ID 7 Temperature 1 S Seconds Millisec Type Response delay Aes ONE delap Backslide delay Response and backslide delay Clock Wiping during switch on Wiping during switch otf fe Walue 0 Jt C Reference On delay delayed switch on Off delay delayed switch off Clock pulse as output signal Making pulse contact immediate switch on delayed switch off Breaking pulse contact immediate switch off delayed switch on A channel is specified which functions as an input signal e g for on delay In the image above calculator T gt 60 After clicking a window appears in which a program command can be selected Channel selection a Programs 8 Commands Programm 1 8 Commands ig Temperature sensor 2 Commands lia Temperature 1 ig Temperature Server Field 1 Commands A Calculator 2 Commands EA Ventilator H Relay 1 eammanes oe Mult Furctional timer 1 Commands t Message treshhold command 1 Cornimarn miia Network variables kS ill ta a T1 has various functions depending on command type Time can be selected in seconds or milliseconds With the response delay command type T1 is the response delay duration T2 is time from switch on to switch off In the above example As soon as calculator T gt 60 reads out a 1 signal and the condition for T gt 60 is thus fulfilled the input of the multifunction relay receives a 1 signal GMC I Messtechni
9. Import Procedure 1 Import must be executed after connection has been established to a SmartControl The connected network variables cannot otherwise be successfully referenced 2 In any program list navigate to the program to which the saved command template will be added 3 Open the context menu in the workspace by clicking the right hand mouse key and select Import command template New command Ctrl k Command template import 4 Select the command template to be imported in the file selection window which then appears You can see how many commands are included in the template by clicking Preview at the bottom left during selection This makes it possible to determine whether or not the programs to be imported will fit into the program sheet 5 The already familiar dialog box for assigning external IDs appears after clicking the OK button Attributes commands template Name Type Address Unit Attributes External ID s 7 Server Temperature sensor E A Da Temperuriwaminng Message treshhold ae IO p 0 Tempwarning Eb Message treshhold IO Temperature gt 26 Relay iO Ventilator E A Calculator NN Y entilator Field NN ModuleReset Field NN Please reference the external IDs for all commands i Boner 6 The external IDs used in the template can now be linked to the existing data channels in the online connected SmartControl after clicking the fields in the External IDs column A suitable data p
10. class 1 range of up to 100 m with unobstructed view GMC Messtechnik GmbH 53 3 SmartControl Manager 3 1 Installation Prerequisites A commercially available PC is adequate for initial use with several sources of data or measuring channels We recommend a system which fulfills the following minimum requirements e Windows NT 4 0 SP 6a RPC security patch Windows 2000 or XP e Pentium 300 MHz 256 MB RAM e Administrative authority e At least 500 Mbyte of available hard disk capacity for acquired measurement data Notes concerning installation Depending upon the utilized type of communication channels the following systems have to be installed e TCP IP All required interfaces included with the operating system e ISDN CAPI interface included with your ISDN card e Analog modem Please remove all modem drivers The SmartControl Manager communicates with all commercially available interfaces and initializes them directly via the serial interface It is advisable to deactivate all modems which have already been installed and are detected by the operating system Installation procedure 1 Insert the CD ROM into the appropriate drive 2 Ifthe auto start function has been activated the initial page of the setup program is displayed automatically Otherwise start the installation program by double clicking the SCM file which is included on the CD 3 Install the SmartControl Manager and follow the instructions which ap
11. s N N p AT as A5 OES Lu 4 A A Lu V wu s uw s O X l V l V 43 GMC I Messtechnik GmbH 2 12 2 LED Codes Description Status LED 14 Blinking short dot long dash Pause short pause _ long pause __ underline Normal operation _ General error So Fast short blinking Onboard flash 2 MB Short long and long pause defective Compact flash error Pu Short short and long pause Missing RTS CTS jumper Short long pause long long pause or JP5 not inserted Password deleted Long short long pause Deleting flash memory Very short blinking flickering Maintenance mode ee Short blink short pause short blink and as of firmware version long pause 1 1 34 2 13 Reset Fl Key See item 13 in figure 1 and item 14 in figure 1 For resetting or accessing special functions 44 GMC I Messtechnik GmbH 2 14 Calculating Memory Range and Data Transmission Time The flash memory on the PCB has a capacity of 1993 kByte 2 040 832 bytes for the storage of measurement data Remaining memory capacity is used for the user program Memory range depends upon e The type of signals to be saved e The interval at which signals are read out Signal Type Memory Occupancy per Value _ Input terminals 1 through 48 Status value 11 bytes Analog value and temperature 14 bytes Measured value meter reading 18 bytes M B
12. 0 05 C A D converter resolution 12 bit classes for platinum temperature Information regarding accuracy sensors The connector plugs are designated and must be connected as shown below polarity is arbitrary Temp Temp Temp Temp Temp Temp Temp Temp Input Input Input Input Input Input Input Input TO T1 T2 is T4 T5 T6 T7 The following points must be observed in order to achieve high measuring accuracy Use shielded cables only If possible connect the shield to a separate ground contact available with Gossen Metrawatt SmartControl P65 Keep cables as short as possible Large cable cross sections at least 0 5 square mm recommended 0 75 square mm Ferrite beads attached to both cable ends If the last two conditions cannot be fulfilled cable length and wire cross section can be adapted with the software If greater accuracy is required class 1 3 B sensors can be used If at all possible do not lay cables parallel to heavy current conductors Example of connection to temperature input 1 7 Pt 1000 20 GMC Messtechnik GmbH 2 3 Digital Inputs Pulse status tariff and synchronizing signals can be acquired The 8 digital inputs include ISO through IS7 terminals 33 through 48 see item 1 in figure 6 and the wiring diagram Either passive e g reed contacts or active pulse sources can be connected Examples of both types include electrical gas and water met
13. 5 seconds until the DIAG LED starts blinking U BWN GMC I Messtechnik GmbH 2 19 Resetting Smartbox to default values Press and hold the F1 key see item 43 in figure 6 Briefly press the reset key don t release the F1 key see item in figure 6 Release the F1 key after two seconds Wait until Diag LED starts flashing fast Press and hold the F1 key for five seconds Now the Diag LED will start flashing After a few seconds the Smartbox will reset to default values U BWN e Please note all saved values and settings are erased Default values means no password standard network settings IP address 192 168 130 190 no parameters and no program 2 20 Firmware Update New functions are also implemented via the firmware A firmware update must be executed in order to be able to use these new functions Complete instructions for updating the firmware are included in the firmware data files These are available from the download area at www gossenmetrawatt com Special firmware versions are available upon request e g for e M Bus router function e Serial modem port via TCP IP GMC Messtechnik GmbH 49 50 2 21 Real Time Clock Battery The battery on the PCB is a type CR2032 3V lithium button cell We recommend replacing the battery once every two years if the device is stored not used for long periods of time If the device is used continuously it is advisable to replace the battery eve
14. No repairs may be carried out by the customer Our devices are guaranteed for a period of 24 months beginning on the date of purchase If defects due to production errors should become apparent within this period of time the device shall be repaired or replaced by ourselves free of charge All other claims for the compensation of damages are excluded Return devices must be dispatched to us via the least expensive postal service Unauthorized modification of the device immediately renders the guarantee null and void We assume no liability for any further damages or for consequential damages In general liability is limited to the purchase price of our products The information provided in this brochure includes general descriptions and performance features only which do not always apply to the application in actual practice or which may change as the result of further development of the products The desired performance features are only binding if they have been explicitly agreed upon contractually GMC I Messtechnik GmbH 2 2 Scope of Delivery The following is included in the scope of delivery 1 Gossen Metrawatt SmartControl 1 Ethernet crossover patch cable approx 3 m 1 User s manual 1 Gossen Metrawatt screwdriver 1 Set of installation instructions 1 CD 1 Wiring diagram Depending upon selected device options Cables and antennas 2 3 SmartControl Components SmartControl Standard SC S Basic Device Compact H
15. 06 00 00 06 08 2007 06 15 00 06 08 2007 06 30 00 06 08 2007 06 45 00 13 9 A EE Smartcontrol_1 TCP IP 06 08 2007 09 40 07 fT The data can now be copied or exported as a data file which can be processed with the help of a spreadsheet program Enter checkmarks next to the desired data points to this end or enter checkmarks for all data points simultaneously as shown in the screenshot with the Selection function The data can be copied to the clipboard by clicking the Copy button or saved as a file by clicking the Save button If the data need to be imported again using a different time span the Reset button must first be clicked GMC I Messtechnik GmbH 135 pi project EER EEE A SBAA jo as Hg tae oa Gs Workspace project_1 2 Projec lk view T Copy aE Gave T H E Project_1 1 Building eet Building_1 2 Device a G6 09 2007 08 30 of Channel Colour i E Temp_Ou A S Pops ee J Luxmeter Y Temp utsi ms Smartcontral_ HE Project_2 3 Building Ek f Building_1 1 Device E Smartcontrol_3 A Building_2 0 Device a fat Building _3 0 Device joowooee sonewese I bs __esanees a m Ga Ey Data ES PES E Programming Ta Configuration Calibration ay fee Graphics Natwork variables sm eeecececooae Messages Q Smartcontral EE smartcontrol1 TcP IP 06 08 2007 09 41 42 E O Click the Graphics tab After readout channels are made available i
16. 8 9 10 11 12 13 i4 15 16 17 18 19 20 21 22 23 24 25 20 27 Zo 29 30 31 Oktober 2008 A Ff amp 98 1017 12 13 1415 16 17 18 19 20 21 22 23 24 25 26 Cone RSE RE SEIS oy q A 34 5 GB fF amp 4 Time commands Type Day f Week Delete Hew 00 00 00 Unlimited m Weekdays can be entered under Week on which switching takes place at certain times each week A day window appears after clicking the View button The switching time can be changed here GMC I Messtechnik GmbH 95 Time intervals The command can be checked by clicking the Test button 96 GMC Messtechnik GmbH Multifunction Timer Command Type Attributes General Mame MF Timer Max 18 char ID E Type Multi functional timer Address o Channel 0 Unit Fa Memory cycle LCD Position W Active f Minutes 1 l io eee i Flash Seconds Display gt 0 65 000 Stark time 06 05 2008 00 00 00 Measuring cycle f Seconds Millizeconds 400 E Multi Functional timer commarid ID E T gt 60 A Seconds C Milizec Type Response delay i e Value l 0 Value 10 0 I C Reference Te C Reference Cancel The multifunction timer is capable of generating diverse time linked output signals The measuring cycle can be specified in milliseconds for a faster reaction The following types are possible GMC Messtechnik GmbH 98 Multi functional timer command
17. IS7 can be used for synchronization if a quarter hour synchronizing pulse is available The meter is synchronized to the next quarter hour GMC I Messtechnik GmbH 79 Status digital inputs ee2e82884 e2e0e 0 eee aaan of Qe Temperature sensors 4 D converter Meter Status Fielays Input Up to date value O Read 1 Read 2 Read Read all Programming Configuration 4 as The current status of the digital inputs is displayed here as either O or 1 Relay Start Status Temperature sensors AD converter Meter Gtatus Relays 2 o e o Seoce oonoososo002 Relays Starting status E Read all Accept eo aaa Programming Configuration 3 Calibration 80 GMC Messtechnik GmbH The status of the on board relays after the SmartControl is started can be set here The status is updated immediately after clicking the Accept button 3 8 The Programming Tab Commands aD m LO je gee baw RS EL SO Y e yy Command 2 Command 4 Command 1 3 6 4 le a a7 Calibration Table pec Graphics B Network variables ry 29 Pewwwcncccceee The names of the current programs appear above the Programming tab Up to 16 programs can be added and programs can be deleted or renamed after clicking the program with the right hand mouse key or by clicking the appropriate button in the toolbar Programs can be saved to and read from a data file A command can be
18. Socket Phone or ISDN RS 232 a FIELD RS 232 FIELD 1 ol SMARTCONTROL analogue modem GSM Bluetooth ISDN aptional M Bus protocol via external level converter N 2 so 8 Inputs pulse Status tariff 8 Analogue inputs 0 10V 0 20 mA 8 Tem perature inputs PT 1000 2 Relay outputs GMC Messtechnik GmbH 2 5 Installation 2 l Installation Location Close proximity to water sources of heat direct sunlight radiators devices which generate electromagnetic fields transmitters high frequency sources radiation emitting devices locations which are exposed to excessive vibration or shock must be avoided Ambient temperature should lie within a range of 5 to 50 C Recommended installation height at least 50 cm and not more than 150 cm from the floor to the bottom edge of the cabinet The wall to which the device is mounted must be flat dry and sturdy Before drilling holes make sure that there are no cables pipes or other lines which have been laid inside the wall in close proximity to the intended installation position 2 512 Mounting the SmartControl IP 65 The standard version of the IP 65 housing has the following dimensions approx 380 x 380 x 210 mm Wx Hx D The 4 holes in the housing are used to mount the box Remove the right hand cable duct cover in order to expose all four mounting holes Figure 2 2cm 2cm 2cm The box must be securely mounted wi
19. added after clicking the white area with the right hand mouse key oo a a 2 After adding the first program with the C button the user is asked whether or not default commands should be created If yes the layout shown above appears The attributes of a given command can be accessed by double clicking it or by clicking it with the right hand mouse key GMC Messtechnik GmbH 81 82 1 2 Comman Attributes E General 40 Command comma Name EE Max 18 char Commane i Comman ID 1 Type Temperature Sensor mE Address E Channel 0 Unit ie T aai blemo cycle LCD Position cE Minutes 15 fe Sie Flash 9 Seconds Display Value change 0 65 000 Start time 02 08 2007 00 00 00 Measuring cycle f Seconds m 0 Moving average ia SiS yl Maes 2 It s advisable to enter a clear cut designation as a name The name can have a length of up to 18 characters Additional entry fields appear depending upon which type is selected These are described below along with the individual types e g timer program If applicable select the input s address Input type is set up automatically With meters for example the digital inputs are linked and with temperature sensors the temperature inputs are linked Thus address 3 selected here refers to temperature input 3 or the corresponding terminals which belong to T3 Please enter the unit of measure If active is selected the input i
20. and reading out data may effect all they may be read and saved with a considerable time offset If no errors occur at the M Bus meters repeated unsuccessful read out results in further delays the time offsets are always roughly the same for all data points There are different methods for assuring or correcting time synchronization of the data to be recorded 1 First of all it s advantageous to read out and Save internal data points pulse inputs temperatures and analog inputs at the respective point in time Enter them to a separate program sheet for this reason Assign a higher priority level to this data sheet for example 1 Enter slow M Bus commands to a program sheet with a priority of for example 9 This assures that internal data are read and Saved first 2 Slow M Bus data can be read out synchronously with meters which for example are capable of making use of the Sync signal Please refer to the M Bus Application instructions for further information in this regard 3 As an alternative you can of course also use server software which automatically corrects the recorded time offsets Time Correction Correction Correct the number of seconds entered to Deviation per Day every day This value is calculated by the box automatically Allow the SmartControl to run for at least two days without time correction to this end Automatic calculation is otherwise not executed As an alternative time correction
21. can be calculated manually for example by the SmartControl Manager and entered manually GMC Messtechnik GmbH 73 Modem For analog modem modules The number of rings until the modem answers a call can be entered here For ISDN modules If available an MSN can be entered here For GSM modules Ifa GSM module has been installed the PIN for the SIM card must be entered here Information Various information regarding the SmartControl such as device firmware version manufacturer and serial number is displayed here 74 GMC I Messtechnik GmbH 3 7 The Calibration Tab The 8 temperature inputs TO T7 terminals 1 16 the 8 analog inputs AO A7 terminals 17 32 and the 8 digital inputs ISO IS7 terminals 33 48 can be calibrated with this tab and their current data can be displayed w Temperature sensors Temperature sensors Ajo converter Meter amp o CS wansesoe eo Input Cable lenath Cross section Offset Up to date value o jomo fomm fn 1 Fead o oo foim foo 2Read fo foo jp ooo 3 Read o joo b o 4 Fead o joo ff SRead fo foo f fo foo pRead fo x fow 0 po 7 Read de de CT Read All Accept Reset e282 2 4 S e2e05 oor Pee oe e P Programming Configuration r Calibration Table peck Graphics Inputs 0 through 7 can be read in individually or all together by clicking the Read All
22. device Find device is active when a building is selected In this way devices can be searched for by means of broadcast via TCP IP connection Search for devices _ Domain DNS Server Alternative IP Standard gateway Subnet mask Up tod Up tod x Search Found devices can be marked and transferred directly to the building In addition to this network data such as TCP IP addresses of devices which have been found are displayed Red mean power from Data Toolbar currently active MP DIU Se Read in measurement data delete read in data read in network variables read in global variables tabular display graphic display OPC Server Toolbar LAEE IEC Et as ae New network add networks from workspace import OPC server structure export OPC server structure find network OPC server status start OPC server exit update configuration The Toggle Tab Bars Various modes can be selected with the toggle tab bars The windows directly above the respective bars are then switched for example from a network view to a data view jp em a GMC Messtechnik GmbH 59 60 Message Window i nenon 5 os A ocs Network 5 Data E OPC 5 Configuration 4 Calibration Table peck Graphics ne Network variables 06 05 2008 09 39 17 INFO main 1798 49 06 05 72008 09 39 16 NF main 1797 46 06 05 2008 09 39 15 INF main 1797 49 06 05 2008 09 39 14 INFO main 1799 48 06 05 2008 09 39 13 INFO main 1799 49 OR OS ANNS bbe
23. gt hl Check sum H Control IL k Write i Read Te dP H Programm 1 Preorder Hysteresis E 0 64 000 Programming Configuration ES Jizer R Value configuration Help rea GMC I Messtechnik GmbH 119 120 Example 2 5 2F 5 2 Write no more than 5 characters with 2 places to the right of the decimal point f Floating point number With the help of the preorder which can have the following values Negation of the value of the command ID 0 5 gt X gt 0 5 Clear yes no 0 5 lt X lt 0 5 Integer absolute number F Floating point number 1 1 Value is used 1 1 for formatting if the values of the application IDs can be prepared before use in the formatting Example 3 Ho Functor Type Value Re Ineratnr Reference F WAS ura A calculator provides only unclear logic due to mean value generation for example 0 85 If this value were used directly 00 would always be entered in the subsequent formatting 02X 0 85 is changed to 1 as a result of the preorder Activating or deactivating groups of relays With the 020A 02X command An entire group of relays can be activated or deactivated with a single command Important changes Set the preorder to integer Set up a calculator for the control logic in which the relays to be activated and deactivated are specified Example 4 In order to activate relays 2 3 and 5 simultaneously create a command which reads out either
24. in the Status tab Explanation of error types Hardware error The device is defective and must be replaced For example this error may occur in the event that fatal errors have been reported to an internal controller e g A D converter flash memory network etc during reading and writing operations General error General errors occur for example when a connection is interrupted a bus device no longer responds or when an invalid command is received Field device errors The relay is activated whenever field device errors are indicated in the protocol This means that although communication with the device is still possible the device is reporting an internal or external error Warnings These are non critical error messages which have little or no effect on performance They include for example attempts to log in with an incorrect password or issue non existing commands If you plan to use the relays for other applications don t activate any of the checkboxes GMC Messtechnik GmbH 71 Time Password Guest password TERAP L e Frmters be E Mail recipients TCPVIP recipients Phone recipients Status Time Modern Info o aa of Pm eccce eeceeeee eee eoooweooes ee mee won oe p 4 Device time i 05 2008 10 26 24 Synchronize device time with PC and deviation automatically compute PC time 06 05 2008 11 29 01 Devices time adjust and deviation left Correction Deviation
25. our representatives or subsidiaries for service in other countries 7 Product Support If required please contact GMC I Messtechnik GmbH Product Support Hotline Phone 49 911 8602 500 Fax 49 911 8602 340 e mail Ssupport gossenmetrawatt com GMC I Messtechnik GmbH Index Active 82 Active Operating Mode 22 Active Pulse Sources 21 A D Converter 76 Add Program 57 Address 82 Analog Inputs 17 Analog Modem 30 BMP Files 136 Broken Cable Detection 24 Building 63 Cable Inlets 14 Cables 14 Calculator 92 Calibration 75 Command 81 Compact Flash Card 37 Configuration 47 Connection Options 11 Context Menu 58 Conversion 77 Cooling Load Meter 52 Correction Factor 75 Crossover Patch Cable 47 Current Measurement 18 76 Cut 56 Data Points 136 DHCP Server 27 Diagnosis LED 43 Digital Inputs 21 Display 82 Electrical Isolation 22 e mail Settings 68 70 Establishing Connection 66 Ethernet Interface 27 47 FIELD Interface 26 53 Fieldbus Interface 26 Fieldbus Modules 41 Firmware Update 49 Firmware Version 74 Flash 82 Graphic Representation 134 GSM 34 Heat Load Meter 52 HT 23 Hysteresis 103 Initial Configuration 47 Initial Start Up 47 Installation 12 GMC Messtechnik GmbH Installation Location 12 Internal Memory 52 ISDN 31 ISDN SO Bus 31 JP1 17 JP2 22 JP3 27 JP4 26 JP5 30 JP6 17 LED Codes 44 Level Converter 36 LT 23 Main Window 55 Maintenance M
26. per day 0 0 9 9 9 9 a Accept Last time correction A All timers in summer time Automatic 01 01 1980 00 00 00 anual 06 05 2008 10 19 44 eeeeooeea eeee 0 e2 aaa o s Use SNTP Server iv Address TSsesesennnnneneee t7 Frotocol Status RFC 667 AFC 868 Test rd ey 1932 4500 244 18 time nist gow 2 123 6 15 28 time a nist gow 4 We 43 244 18 time nist gow 4 192 168 130 122 O AFC 86 APFC 868 Test RFC 667 C AFC 868 Test ey AFC 86 APFC 868 Test Device time zone VEL MM breed IR Teta lat Pence ay E be md PC time zone GMT 0 OU Amsterdam Berlin Bem Rom Stockholm Wien Read Accept Time is read out of the SmartControl after clicking the Device time button SmartControl clock time can be synchronized with PC time by clicking the appropriate button Several SNTP servers can be specified if the Use SNTP server checkbox has been activated After it has been entered a server can be checked by clicking the Test button The settings are saved to the SmartControl after clicking the Accept button Please note Not all time servers support this protocol It may be necessary to enter a gateway to the TCP IP attributes in order to be able to access the time server via the Internet Time Server protocol RFC 868 72 GMC Messtechnik GmbH As of firmware
27. regardless of whether or not a change in state has taken place Invert signal changes a O output signal to a 1 output signal and vice versa GMC Messtechnik GmbH 101 Status Integral Command Type Attributes General Name Status 2 Max 18 char IL 12 Type Status integral T Address D Channel 0 Unit E Memon cycle LCD Position M Active g Minutes ED iS it Mw Flash Seconds Display 0 65 000 Start time 08 05 2008 00 00 00 Measuring cycle f Seconds gt 60 Moving average Status integral commands Invert signal The status integral polls the digital input specified in Address once per measuring cycle The internal denominator register is increased by one after each read operation The internal meter register is also increased by one for each read value which is not equal to 0 If the command value is polled the quotient of the meter and the denominator are read out i e a value expressed as a percentage between O and 1 which indicates how long the input Signal has a value within the selected save cycle Moving average In order to avoid large jumps the mean value of the respective previous storage cycle is averaged into the new cycle 102 GMC Messtechnik GmbH This command can be used for example to determine how long a machine a boiler a pump etc has run per hour per quarter hour or per day in order to be able to generate cor
28. see section entitled SmartControl Manager GMC I Messtechnik GmbH It is also possible to record tariff data for example high tariff HT and secondary tariff ST There are three tariff inputs 1S1 1S3 and 1S5 They specify whether or not the respectively previous inputs namely ISO IS2 and 1S4 are allocated to HT or ST For example tariff input IS1 specifies whether pulses from ISO will be allocated to HT or ST Inputs ISO 1S1 1S2 153 1S4 1S5 1S6 1S7 E Synchronizing x These tariff and synchronizing inputs are configured with SmartControl Manager software see section entitled SmartControl Manager The following points must be observed in order to achieve high measuring accuracy e Use shielded cables only If possible connect the shield to a separate ground contact available with Gossen Metrawatt SmartControl P65 Keep cables as short as possible Large cable cross sections at least 0 5 square mm recommended 0 75 square mm Ferrite beads attached to both cable ends If at all possible do not lay cables parallel to heavy current conductors Connection example 1 passive measurement at digital input 1 Jumper Setting Connection example 2 passive measurement at digital input 1 J umper Setting mP TS oO P2000 TS oe ext ext ext ext 1 i 1 device device Inserted n device device Inserted active i passive Aeee a active W passive p 17 240 max Cree
29. the module to be inserted If this is not the case insert jumper J P3 such that the correct voltage is available Module Type Voltage to be Selected Analog modem 3 3 V ISDN 3 3 V Bluetooth 3 3 V GSM 3 3 V version 3 3 V GSM 5 V version 5 0 V The GSM modules can be easily differentiated visually GSM 3 3 V version GSM 5 V version Altec 7020 UNGSM UNSGSM sw CE M000 0 UO AD N NUTI S N 7AA14406 INU 000 A TO INO INONDO O N IMEI 353001000002031 MLM ON ANEAN g IMEI 352219 0 n MSN 0 AE S0Z021 Y Wn S 1486A0998 MA MODEL F3004DL If the supply voltage setting is incorrect the module may malfunction or it may be damaged If a previously inserted module needs to be removed pull it out carefully Grip the module at the left and right hand sides with both hands underneath the PCB and pull it out slowly and carefully The module must not be tilted during removal 28 GMC I Messtechnik GmbH Caution Never insert a module when the system is switched on Unpack the new module and make Sure that all of the pins are straight The module is inserted into the slot provided to this end see item in figure 6 Jack A at the socket serves as a point of orientation on the PCB see arrow below a white marking is located in close proximity to the jack for easier locating Figure 10 JackA Marking eheleleleleleiel eee v T frf s g jierg ksosnasiboreuy seedy BOPO laS g TFE NIFER HE L
30. to SMS Seconds 7 Piia 7 Set the ID to the command E xl erie l EEEE to be compared If applicable use the multifunctional timer in Limit monitoring command order to receive immediate notification via REM 10 i Temp_Inside i 8 Deactivate standard format Notice gt eate ae This is only required for Type Notice Fey is J gt oreater E as J special computer based Shere Standard format messaging functions 9 Format the message by Message from H 2M command N device time 1 walt making the desired entries to the text field The special placeholders are explained in the section entitled Message Threshold E Mail GMC I Messtechnik GmbH E Set the destination phone numbers in the Configuration Destination Telephones tab as follows e For SMS via GSM Please note that destination phone numbers for SMS services begin with the applicable country codes Germany 49 Austria 43 Switzerland 41 France 33 Italy 39 Example for Germany Enter 49173xxxx instead of 0173xxxx If SMS messages are sent via the fixed network a leading zero 0 e g 0173xxxx or two leading zeros 00 followed by the country code must be used for example 0049173xxxx Messages which include more than 160 characters will be cut short gt Acknowledge by clicking the Accept button Transmit the commands to the SmartControl by clicking the test programs in SmartContr
31. to the specified tightening torque The housing must be water proof If applicable the included connectors must be replaced with suitable ones and unused connectors must be replaced with blanking plugs It must be assured that only Standardized materials which are suitable for the IP 65 standard and which seal the openings appropriately are utilized GMC I Messtechnik GmbH b SmartControl Standard The shields of all shielded cables must be connected to a ground bus bar by means of shield terminals assuring large surface area connection Connect the ground bus bar to the building s equipotential bonding Identify all cables with the respective cable number in accordance with the wiring diagram in a readily legible fashion using cable ties Secure the cables firmly with cable ties if necessary See the connection overview below Ground SUS Bar regarding connection options Be sure to observe additional notes included in the operating instructions as well c All SmartControl Variants Retighten all screws and fasteners after installation has been completed Insulation testing must be executed in accordance with VDE Do not expose components which are not voltage proof to high voltages during testing Green connector plugs for the various inputs analog temperature digital are located on the PCB Wires with cross sections of up to 1 5 square mm can be connected 2 6 Component Views 2 6 1 Housing Layout IP 65 Figure 5 schematic
32. with 2 MBytes of capacity as a standard feature to which data are saved even in the event of power failure Internal memory can be expanded with the compact flash card e g for e Large networks Short readout cycle for M Bus meters Infrequent or no data transmission Data security For automatic saving of current configuration and programming SmartControl can adress cards with a capacity of up to 2 GB vy Pre configuration is executed by means of software with the SmartControl Manager refer to the section entitled SmartControl Manager for further details and by means of hardware with a compact card reader which has been connected to the PC Maximum memory capacity is 2 GB a GMC I Messtechnik GmbH 37 38 The preconfigured cared is inserted into the flash card slot see item 15 in figure 6 with the contacts facing the PCB ar i m i x i Sonay r gt T s ne a Aage go oS ES gt E NDS Eog e A E E E E S y sips E f meo doe 2 z Bime Pie e u u o p u a y m CE Refer to the section entitled Shutting Down and Restarting regarding how to save recorded data to RAM After the card has been inserted the SmartControl must be restarted by pressing the reset key see item 43 in figure 6 The flash card is then automatically detected by the SmartControl and data is stored to it parallel to internal flash memory The compact flash card is also organized as a ring buffer The curren
33. 01 1980 00 00 00 WA 11303 01 01 1980 00 00 00 vA 11304 0 01 01 1980 00 00 00 VA 11305 0 01 01 1960 00 00 00 WA 11306 01 01 1980 00 00 00 VA 11307 01 01 1980 00 00 00 YVA 11308 0 01 01 1980 00 00 00 VA 11501 0 01 01 1980 00 00 00 H 11502 0 01 01 1960 00 00 00 H 11503 01 01 1980 00 00 00 H E Programming Configuration 37 Calibration Table Jx Graphics ae Network variables Example ieteerentacenell Six virtual IDs 11201 through 11206 are created for a command with device internal ID 12 and six defined values and are refreshed for each readout These IDs allow for access and further processing from any command with referenceable input values Option GMC Messtechnik GmbH 127 Command Templates As of version 1 7 1 0 of the configuration software groups of commands from a program can be gathered into an SBT file as a command template and exported which can be Subsequently imported into other programs as a functional block IDs of the commands to be exported which make reference to other commands which will also be exported need not be adapted Only so called external IDs which make reference to ranges outside of the selected command range have to be furnished with descriptions by the user when exported During import reference must be made to IDs which exist in the currently open program Export Procedure 1 Select the desired commands and acknowledge by pressing the right mouse key Delet
34. 100 All components P and D as well as the sum of all components i e the control signal are limited to a value of O to 100 And thus the component which is critical in this case does not approach infinity Examples A room temperature controller P 30 0 03 D 0 delay 60 s This example is taken from actual practice The 60 second delay allows the control signal i e the system to settle in a bit and doesn t have any negative effects on the targeted results Adaptation to the respective system must take place In addition to the actual value the individual components and the resultant setpoint are also written to flash memory for a more accurate analysis 126 GMC I Messtechnik GmbH Network Variables Network variables are created automatically by the SmartControl for Modbus fieldbus and M Bus commands with defined values A new virtual ID is assigned to them automatically which is calculated as follows Virtual ID 10 000 ID of the fieldbus command x 100 numeric value Reload No O60 z Copy Cave Reset Unit Metwork ID Status Entry time 11201 0 01 01 1980 00 00 00 COs phi 11202 0 01 01 1980 00 00 00 cos phi 11203 T 01 01 1980 00 00 00 cos phi 11204 01 01 1980 00 00 00 COs phi 11205 01 01 1980 00 00 00 COS phi 11206 01 01 1980 00 00 00 Cos phi 11207 0 01 01 1980 00 00 00 cos phi 11206 0 01 01 1980 00 00 00 Cos phi 11301 0 01 01 1980 00 00 00 WA 11302 01
35. 15 After the backup has been successfully restored it might not be possible to establish direct connection with the SmartControl via TCP IP using a network connection with network switches or it might only be possible after a given period of time This can be remedied by resetting the respective switches or by waiting until the switches have learned the new MAC GMC I Messtechnik GmbH 39 40 2 11 5 Serial Modem Port via TCP IP A SmartControl can be transformed into a Smart Modem Box with this firmware option It s not always possible to connect a GSM modem an analog modem or an ISDN modem directly to a PC The Smart Modem Box makes the integrated modem module available to all via the TCP IP network Advantages in comparison with conventional RS 232 to Ethernet converters Automatic detection and initialization of the installed modem For GSM automatic start up and PIN setting Monitoring of the modem and automatic re initialization in the event of a recognized malfunction Client IP report with connection start and ending times accurate to the second The first thirty transmitted characters are recorded as well As a rule these include the phone number can be used for billing connections All of the functions included with SmartControl are retained but dial up via modem is no longer possible for the effected SmartControl itself GMC I Messtechnik GmbH 2 11 6 Fieldbus Modules via RS 485 Bus This section des
36. 2 domain_name com E Mail 3 recipient3 domain_name com User name Useri Password Server 192 168 VBffrneencecfeceeneee Sender Emailaccount amp domain_sender com Language English Read Accept Three recipients of outgoing e mails can be specified in this tab This is only possible if the SmartControl is connected to a network via TCP IP A user name and a password must allow for access to the e mail account in an SMTP server entered next to Sender The address of the SMTP servers from which the e mails are to be sent is entered to the Server line Numerous recipients separated by semicola can be entered per line GMC I Messtechnik GmbH TCP IP Destinations Password Guest password TCF IF Router E Mail recipients lt TCP IP recipients a Phone TCPVIF 1 192 168 130 191 Fort E Name Ziell TERIER Port jo Hame NERA 3 Fort ja em Read Accept A destination for the transmission of messages can be entered in this tab a a any GMC Messtechnik GmbH 69 Phone Recipients ee e202 EET 092 ooon o My Password Guest password TEPIP Fouter E Mail recipients TCPYIP recipierits Phone recipients 3 ime Mumber 1 No of Recipient 1 Mame Recipient 1 Humber 2 No of Recipient 2 Name Recipient 2 Number 3 No of Recipient 3 Mame Recipient 3 SMS gateway Gateway SMS viaISDN Protocok UCP i ti tst lt s lt is lt i R
37. 22 binary 00010110 or 0 Caution Heed the fieldbus during writing Set the measuring cycle to 0 This assures that the current value of the linked command is always written and not the mean value calculated on the basis of the measuring cycle Deactivate storage to memory for write commands Quotes provided by the fieldbus while writing values are unusable for evaluations Use the log function of the controlling command instead It is not possible to apply various groups or more than one group to a single module at the Same time Each write operation for a given group always sets all relays simultaneously to the specified status Even if you try to set individual relays separately later on the group always overwrites all relays GMC I Messtechnik GmbH ModBus Command Type Prerequisites e Connection to one or more Modbus devices via the RS 485 interface at the SmartControl fieldbus see item in figure 6 e SmartControl with installed Modbus firmware available upon request instructions for flashing the firmware are included e Complete documentation for the Modbus device to be read out Attributes General Regarding ModBus Name jModBus_1 Max 18 char The device address and a code for the function as well as the data to be transmitted and an error test field are D e Type ModBus Mee sent by the querying device master The response B frame includes fields for acknowledgement
38. 255 0 D 7F000 x Search Accept Ena Found devices can be marked and transferred directly to the building In addition to this network data such as TCP IP addresses of SmartControls which have been found are displayed H Nt Establish or interrupt connection to the SmartControl Not active until a SmartControl has been selected in the scenario browser Reads all programs from the SmartControl Not active until connection has been established to a SmartControl E Display current values from the programs Only available in the Programming tab GMC I Messtechnik GmbH 100 J o Zoom the main window Only available in the Programming tab Various zoom factors can be entered directly with the dropdown list Prone zooming can be increased one step with the button or reduced one step with the button and the zoom factor can be reset to 100 with the CG button Refresh data from the SmartControl Not active until connection has been established to a SmartControl O Ge S Add a new program delete the selected program delete all programs b g Save program read program from file E bie Transmit and test save programs restart SmartControl See section 2 16 Reset before restarting Online help The Status Line Information regarding menu items as well as other system information is displayed here Wizard oe If this button is available it can
39. 5 00 06 08 2007 04 00 00 06 08 2007 04 15 00 06 08 2007 04 30 00 06 08 2007 04 45 00 06 08 2007 05 00 00 06 08 2007 05 15 00 06 08 2007 05 30 00 06 08 2007 05 45 00 06 08 2007 06 00 00 06 08 2007 06 15 00 06 08 2007 06 30 00 06 08 2007 06 45 00 27 4 06 08 2007 00 00 00 06 08 2007 00 15 00 06 08 2007 00 30 00 06 08 2007 00 45 00 06 08 2007 01 00 00 06 08 2007 01 15 00 06 08 2007 01 30 00 06 08 2007 01 45 00 06 08 2007 02 00 00 06 08 2007 02 15 00 06 08 2007 02 30 00 06 08 2007 02 45 00 06 08 2007 03 00 00 06 08 2007 03 15 00 06 08 2007 03 30 00 06 08 2007 03 45 00 06 08 2007 04 00 00 06 08 2007 04 15 00 06 08 2007 04 30 00 06 08 2007 04 45 00 06 08 2007 05 00 00 06 08 2007 05 15 00 06 08 2007 05 30 00 06 08 2007 05 45 00 06 08 2007 06 00 00 06 08 2007 06 15 00 06 08 2007 06 30 00 06 08 2007 06 45 De nen ocln244 a Network rea Data A OPC S EJ Programming fs as R pon JS Table Table pa ais es Network variables o a T 06 08 2007 00 00 00 06 08 2007 00 15 00 06 08 2007 00 30 00 06 08 2007 00 45 00 06 08 2007 01 00 00 06 08 2007 01 15 00 06 08 2007 01 30 00 06 08 2007 01 45 00 06 08 2007 02 00 00 06 08 2007 02 15 00 06 08 2007 02 30 00 06 08 2007 02 45 00 06 08 2007 03 00 00 06 08 2007 03 15 00 06 08 2007 03 30 00 06 08 2007 03 45 00 06 08 2007 04 00 00 06 08 2007 04 15 00 06 08 2007 04 30 00 06 08 2007 04 45 00 06 08 2007 05 00 00 06 08 2007 05 15 00 06 08 2007 05 30 00 06 08 2007 05 45 00 06 08 2007
40. Entering Projects Buildings and Devices without the Application Wizard After clicking New in the File menu a window appears with which a simple project or a project including one building can be entered Depending upon whether or not a workspace has already been created a new one can be defined in the Workspaces tab or an existing one can be searched for Projects Workspaces Simple project Project name Ar Froject including one building Path Project description Project including one building fe new workspace Enter a clear cut project name The project path can be entered either directly or can be selected after clicking the button In the case of a project including one building the building data have to be entered after acknowledging with OK Several projects can be created within a single workspace after clicking New in the File menu The workspace is saved in the SBM file format after clicking Save as in the File menu It is advisable to make backup copies of all data on a regular basis Workspaces which have been saved to memory can be re accessed by clicking Open in the File menu 62 GMC Messtechnik GmbH ES Workspace project_i 2 Projects SeeaeProject_1 1 Building 2 4 Building 1 2 Device El Smartcontrol_ 1 E Smartcontrol_ 2 Project_2 3 Building fat Building 1 1 Device E Smartcontral_3 Ai Buildin
41. M Bus protocol ModBus One of the system s important advantages is its ability to access all relevant data at any time quickly and conveniently For example an integrated display allows for visualization of the building s energy consumption in Gossen Metrawatt s SmartControl and any defects above average consumption levels and irregularities are identified immediately We would be happy to place ourselves at your disposal if you would like to make actual energy consumption more transparent in the future and optimize it as well Information regarding all facets of GMC I Messtechnik GmbH as well as other industry information is available at GMC I Messtechnik GmbH Sudwestpark 15 90471 Nuremberg Germany Phone 49 0 911 8602 111 Fax 49 0 911 8602 111 e mail info gossenmetrawatt com Internet www gossenmetrawatt com GMC Messtechnik GmbH 3 2 2 1 2 2 2 3 2 4 2 5 2 5 1 2 5 2 2 5 3 Zieh Zuo 2 6 2 6 1 2 6 2 2 7 Didi d 2 7 2 Zico 2 8 2 9 2 9 1 2 9 2 2 9 3 2 9 4 2 10 2 10 1 2 10 2 2 10 3 2 10 4 2 10 5 2 11 Zed A ydk 2 11 2 ZL 2 11 4 2 11 5 2 11 6 211 7 2 12 2 12 1 2 12 2 Gossen Metrawatt SmartControl I mportant Notes Scope of Delivery SmartControl Components Overview of Connection Options I nstallation Component Views Example Broken Cable Detection Namur Interfaces Socket Modules or socket modems Options Diagnosis Status LEDs Table of Contents
42. Optimization Command Type Message Threshold E Mail Command Type Message Threshold SMS Command Type System Monitoring Command Type Field Command Type ModBus Command Type SBus Command Type PID Controller Command Type Network Variables Command Templates Global Variables Tab sssssunsnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnn Timer Program Special DayS sssssssnnnnnnnnnnnnnnnnnnnnnnnn Reading in Data Displaying Data as Graphics OPTIONS papire A snteetadagunentaees Save Repair and Replacement Parts Service DKD Calibration Center and Rental Instrument SerV C sssuusussnnnnnunnnnnnnnnnnnnnnnnnnnnnn Product SUD DOME orriren 80 84 85 86 87 87 88 90 92 94 97 99 101 102 103 104 110 112 123 GMC I Messtechnik GmbH 2 Gossen Metrawatt SmartControl 2 1 I mportant Notes Please keep these instructions in a safe place and make them accessible to new users or hand them over to the new owner in the event of a change of ownership These instructions must always be available must be adhered to during installation operation and maintenance and must be provided to the installation technician for his or her perusal All other instructions including those contained in the installation instructions and the wiring diagram must also be adhered to Our manuals are prepared with care examined and continuously updated Errors and omissions are excepted No liability can be assumed f
43. a has a significant influence on transmission speed The Bluetooth module allows for wireless connection to a Bluetooth compatible PC or notebook inside of a building Please note that the Bluetooth module has a limited transmission range class 1 100 meters with unobstructed view The Bluetooth compatible PC or notebook must also comply with class 1 i e 100 meter range Walls windows and doors reduce transmission range considerably Connection is established from the Bluetooth compatible PC or notebook to the SmartControl via a virtual COM port see section 3 Software in the SmartControl operating instructions e Install the Bluetooth stick to the PC and test it for correct functioning After initial start up of the SmartControl see section 2 14 ff e After switching the SmartControl on wait for approximately 30 seconds until connection has been established e Look for Bluetooth devices under Bluetooth Neighborhood in the Explorer e Establish connection with the SmartControl at found device gt Bluetooth Socket Smartbox e A new icon appears in the task bar 3i Double click the icon if the dialog box for entering your PIN does not appear automatically e The PIN code is set to default at the factory Enter default here As a rule the PIN code is saved by the PC so that it only has to be entered once e Check the serial COM connection You can specify the desired COM port manually depending upon
44. an be further processed directly at the SmartControl e g for limit value observation Enter the number of values received from the meter to the general address field in the M Bus command to this end The M Bus data are then broken down and the corresponding values are accessible via the network variables list Caution If the received number doesn t correspond with the entered number the values in the network list are rendered invalid and the M Bus frame is not saved GMC Messtechnik GmbH 89 90 M Bus Application Command Type M Bus devices can be addressed at times other than during normal M Bus read out with this command for example in order to enter new settings to the devices from a remote location via the SmartControl Manager Read the corresponding protocol descriptions for the respective devices to this end This command can also be used for example to start simultaneous read out in a larger M Bus network Example 1 Set the C field to 0X00 is converted to M Bus Sync or set all fields manually address field A to 255 broadcast to all C field to 0x53 transmit data to slave Cl field to synchronize action 0x54 and leave the data field empty How it works The command is should be started roughly 1 or 2 seconds before the respective quarter hour e g set start time to 00 59 58 Furthermore the command must be in a separate program sheet with a higher priority than the M Bus meters to
45. ard to installation also observe the user s manuals and installation instructions Test your settings in any case and check the results which should be expected in the field as well Set targeted power to a correspondingly low level to this end e g momentary power Ancillary conditions for example temperature change continuously in a running system Results should be checked at regular intervals for this reason and readjusted if necessary 2 Peak Load Optimization General The relays are connected using failsafe logic This means e Relay off no peak load to be expected device on e Relay on peak load to be expected device off The relay which is to be controlled with the entries made for this command is entered under address It must be assured that the SmartControl is synchronized at regular intervals The use of a quarter hour synchronizing pulse from an electrical meter is best This ensures that the SmartControl s billing periods are identical with those of the energy supplier GMC I Messtechnik GmbH Memory Cycle Start Specifies the billing period and must be set to 15 minutes for electrical power and 60 minutes for gas Optimization is not started until after a new billing period has begun If anew command list program is uploaded to the SmartControl or if the SmartControl is restarted the peak load optimization algorithm waits until a new period begins Power measured during this start up phase is used f
46. ariables a d S 9 o eS Pee Messages ESI Smartcontrol E Smartcontrol_1 TCP IP 06 08 2007 09 35 32 FT After connection to the SmartControl has been successfully established select the Table tab specify the desired readout time span and click the Read button Data which have been recorded to the SmartControl are now transmitted which may take several minutes depending upon connection quality 134 GMC I Messtechnik GmbH uf project_1 scm Smartcontrol Manager File Fdit View Programming Device TTE 2 Workspace project_1 2 Projec Project_1 1 Buildige z 5 4 Building_1 2 Bevice as Smartcontrol Boor 898 Program Progre Temp_Inside Luxmeter Y Temp_Outs SI Smartcontrol_2 Project_2 3 Building Building_1 1 Device Smartcontrol_ A Building_2 0 Devige fat Building_3 0 Defice Mh gt Messages Q Smartcontrol Extra M a E T oh fot Gl a e roo JA Langs 20020009 00 v Date Time M Temp_Insid Copy Save Date Time aalala Reset M Luxmeter S Ta a os Date Time _Wv Temp_Outsi 06 08 2007 00 9p 00 2 ode BOG 00 1 5 00 06 08 2007 00 30 00 06 08 2007 00 45 00 06 08 2007 01 00 00 06 08 2007 01 15 00 06 08 2007 01 30 00 06 08 2007 01 45 00 06 08 2007 02 00 00 06 08 2007 02 15 00 06 08 2007 02 30 00 06 08 2007 02 45 00 06 08 2007 03 00 00 06 08 2007 03 15 00 06 08 2007 03 30 00 06 08 2007 03 4
47. ason the GSM module is not inserted at the factory as standard equipment Please check the condition of the module and make sure that module accessories are complete module adapter cable including cable gland antenna Prerequisites for operation with this module include a contract with a network service provider and an enabled SIM card The installation site must also be checked for good reception The SIM card furnished by the network service provider must be inserted into the GSM module before the module is installed The module is then inserted into the slot provided to this end and securely plugged in The included adapter cable approx 50 cm connects the module to the antenna The adapter cable is furnished with an MMS FME mounting plug The MMS plug is connected to the module The FME plug serves to connect the antenna and is used as a housing feed through at the same time A drill hole with a diameter of 11 mm is required for the SmartControl IP 65 to this end The included antenna cable length of approx 300 cm is connected to the FME plug adapter cable by means of the FME socket Please refer to the included data sheet for exact technical details Positioning of the antenna has a significant influence on reception quality The following points must be observed in order to assure good reception e Install the antenna in close proximity to openings to the outdoor environment e If possible install the antenna above the h
48. at the factory In order to measure an active signal active operating mode the red jumpers which correspond to the respective digital input must be inserted as follows in accordance with the schematic shown below i ext 1 ext device device active p passive hed 24 max Creed Jumper Setting Jumper Setting device active device passive active passive 24V max Terminal a pulse input status Terminal a contact GND Terminal b pulse input status Terminal b contact open collector Connection of for example pulse generators Connection of for example pulse with their own 12 to 24 V power supply generators with reed contact and a output signal and a load capacity of at least minimum contact open collector load 15 mA capacity of 15m A GND earth Electrical isolation connected to each other No electrical isolation Polarity is determined by the jumper setting Polarity must be correct 33 34 35 36 37 38 39 40 1 42 43 4 45 40 47 48 rtrttttrttrtrtttrttititl Digital Digital Digital Digital Digital Digital Digital Digital Input Input Input Input Input Input Input Input ISO IS1 S2 IS3 1S4 IS5 IS6 IS7 If a digital input is used as a status input e g door contact burner on time etc SmartControl Manager software must be correspondingly configured in order to assure that every change to the input signal is recorded
49. be read out A so called sync signal is then transmitted to broadcast address OxFF immediately before M Bus read out is started as a rule every quarter hour In response all M Bus devices which Support this command save their current meter readings These meter readings can then be read out at leisure before the next quarter hour starts This command is not supported by all M Bus devices In addition to this further settings at the devices themselves are also required Please contact the manufacturer supplier of your M Bus devices for further information Example 2 Setting a new primary address at a device Prerequisite The device must allow resetting parameters configuring mode available Please refer to the manufacturer s manual for details The fact that only one device with the primary address to be changed may be present within the M Bus network remains unchanged For example if several meters with the default address primary 0 are in the network the following procedure cannot be used M Bus application commands Procedure A i 0 256 C 0453 O0 FF Baud 2400 Port Default CI data zend 045 l Data Enter the old primary address to field A and enter 0x53 to field C User data please in Hes ever two indications write used data enter and by blanks separately Set field Cl to send data parameterization Test Cancel GMC I Messtechnik GmbH Then write
50. be use to access the help function for example in order to establish a connection A new window appears GMC Messtechnik GmbH 57 The Scenario Browser All objects which pertain to the current workspace are displayed in the scenario browser in a clear cut fashion The following rough breakdown applies BB sh workspace project_1 2 Projects Workspace consisting of for example Project 1 1 Building e Project 1 3 4 Building 1 2 Device e Building 1 El Smartcontral_1 e Data source 1 Program Program 1 e Program 1 Temp Inside C e Command 1 Luxmeter Y e Command 2 Temp _ Outside C e Command 3 E Smarkcontral_ 2 e Data source 2 Project_ 3 Building e Project 2 fat Building_1 1 Device e Building 2 E Smartcontral_3 e Data source 3 A Building 0 Device A Building_3 0 Device All objects offer attributes and methods which can be accessed via a context menu right hand mouse key For example attributes can be displayed or various functions are displayed Workspace attributes Pah E projects project_1 sc Hame project 1 Description cit For example information regarding the element selected in the scenario browser Is displayed in the Attributes box shown above This information can be modified and Supplemented GMC Messtechnik GmbH Network Toolbar F y a iat st eK k Close workspace new building delete building new device delete device and find
51. blish connection to SmartControls read in programs Extras find SmartControl delete measurement data prepare flash card Help help information etc GMC Messtechnik GmbH 55 The Toolbars The SmartControl Manager makes it possible to select frequently used menu items directly from the toolbars For example the following functions are made available depending upon which element has been activated in the scenario browser upon the selected element and whether or not for example a connection has been established with a SmartControl D a i New project or workspace open a workspace and save b Ga a Cut copy paste KD Da Undo or repeat last action Er Display program attributes Only available in the Programming tab A new window appears which display the program attributes oh Search Not active until a building has been selected In this way SmartControls can be searched for by means of broadcast via TCP IP connection Search for devices Domain DNS Server Alternative IP Standard gateway Subnet mask Up to date IP Up to date gateway Up to date subnet r 44 21 37 a E 192 168 130 122 192 168 130 254 255 255 255 0 192 168 130 122 192 168 130 254 255 255 255 0 46 30 30 192 168 130 97 255 255 255 0 192 166 130 97 0 0 0 0 255 255 255 0 30 30 Od 192 168 130 121 255 255 255 0 192 168 130 121 0 0 0 0 255 255 255 0 E 192 168 130 102 192 168 130 254 255 255 255 0 192 168 130 102 192 168 130 254 255 255
52. button All of the offsets are writt n to the Smart ontrol after clicking the Accept button After entering cable length and cross section for the individual inputs the program calculates an offset i e distortion of measured values caused by cable resistance are taken into account automatically through the use of a correction factor This offset can also be entered manually For example if temperature at input 1 deviates from the actual value by plus 1 degree this can be compensated for by entering an offset of 1 GMC Messtechnik GmbH 75 A D Converter e002 S22 6 S88e0 we ee Pee eo Temperature sengors A D converter Peter aa oe Pmewcwe ccc cnnee o Input Voltage Curent Range Unit Offset Gradient Up to date value Crn Acct Reset Selection must be made at to whether a voltage or a current signal will be measured The measuring range can be changed 76 GMC Messtechnik GmbH The unit of measure for the quantity to be measured can be specified Current Range LU rit Offset Ce DA e 2 222222 ae Help A D converter m The following from 4 to 20 m Table from i ta 100 4 s Offset 2222222 Gradient 2 radien 5 625000 S Calculate P Accept Exit a e With the help of an offset and a gradient the measured analog signal can be directly converted into the measured unit of measure The dialog box shown above appears afte
53. ci 0000000 900000000000000 Pin A Marking Top View of Socket Module The right hand pin see arrow at the corner of the module identified with a white dot pin A serves as a point of orientation on the module Carefully insert the module Pin A on the module must be inserted into jack A at the socket Make sure that all of the other pins are also inserted into their corresponding jacks Depending upon the type of module some of the pins in the middle portion of the module might not be connected i e the sockets are far away Grasp the module at the sides of the PCB with both hands and push it into the socket carefully and evenly avoiding any tilting Make sure that none of the pins are at the sides of the sockets which would cause them to bend during insertion Failsafe Initialization If no connections are established from outside over the period of one day last 25 hours the integrated modem is reset via an internal reset line GMC I Messtechnik GmbH 29 2 10 2 Analog Modem Modules See instructions included in section 2 10 1 as well For SC and IP 65 Feed the RJ11 plug at the end of the modem s connector cable into the box via one of the cable glands Lay the cable into the cable duct in the box For all SC versions Insert the plug into the connector jack RJ 11 for analog connection PHONE on the PCB see item 21 in figure 6 Plug the other end of the cable into a TAE N telephone socket An analog conn
54. clicking the button and the order of the values can be changed with the scroll keys If the inputs which are returned by the module have been defined in the value configuration they can be accessed directly via the network variables table Continue with the section entitled Network Variables to this end Virtual ID 10 000 ID of the fieldbus command x 100 numeric value Example for heater temperature Temp _ Level 2 Virtual ID 17 202 10 000 72 x 100 2 Control and Regulation with Fieldbus Modules The following applies in this case as well Attributes A new fieldbus address must first be assigned to the respective module Hensia Name Heating off Readout Status No emors Result i Didi j a fee l F 0102400600 D Digital 16 Confirmation 01 gt old address 19600 Check sum I 02 gt new address 40 gt for DIO modules Control ID i write Read C 06 gt baud rate ee Hysteresis fo 0 64 000 00 gt format 20102400600 Pesce tion Help OK Cancel A module with 7 relay outputs type xx67 serves as an example in this case GMC Messtechnik GmbH 117 118 Afterwards check to make sure that the module responds to the new address Attributes General Name Heating oft Max 18 char o te rer gt Address E Channel Temp gt 65 Deg Unit z i ei i Active MEARE tll
55. cribes connection and configuration as well as the readout and setting writing of values Please refer directly to the manufacturer s instructions for use in the case of special tasks Physical Connection The RS 485 interface included on the SmartControl is used to connect a fieldbus module to the SmartControl The RS 485 plug has three contacts A B and C Wiring is always looped through 1 to 1 from module to module Observe the following Smart Module 1 with Module 2 with Supply Module n with Control External Power Power from the External Power Supply SmartControl Supply Data Data Data B Data Data Data C C V V V V Caution Do not use terminal C data ground if the modules are supplied with power from the SmartControl This terminal is used exclusively to compensate for extraneous voltages from other devices It is thus not suitable for supplying power to the devices Power Supply Supply power for the modules may lie within a range of 10 to 30 V Power consumption depends upon module type and manufacturer and usually lies within a range of 1 to 2 W per module Data Cabling Network Termination If at all possible use a shielded twisted data cable for data transmission e g type RD Y ST Y or JE Y ST Y Bd Each network must be terminated on both ends with a 100 to 250 Q resistor If the SmartControl is located at one of the ends of the bus the t
56. d Connection example 3 active measujS nihet fear d L O E EOE e ie ee a input 1 GMC I Messtechnik GmbH T P2 FI ting re ce contaetice Inserted ve passive Open collector max Creed T Current voltage source max 24 V 23 2 8 Example Broken Cable Detection Namur Connection example Namur broken cable detection for passive pulse sources only no internal voltage A SmartControl digital input in this example 33 34 is set to the passive operating mode with the help of jumpers An analog input in this example 1 2 is set to the voltage measuring mode for 0 to 10 V with the help of jumpers A 15 kQ resistor is installed at the pulse generator and 1 5 and 1 kQ resistors are installed at the SmartControl Digital Inputs b _ e e a 15 KQ Pulse Generator e g Meter 1 kQ Analog Inputs 7 es F 1 5 kQ Mode of operation As usual the digital input acquires data from the meter The analog input is configured in the SmartControl Manager as a 0 to 10 V voltage input As soon as the measured voltage falls below 0 2 V this is indicated as a broken sensor See details regarding programming in the section entitled SmartControl Manager The alarm limit set here to 0 2 V and the resistor values must be adapted to the system Limitations Long cables can only be used under certain circumstances with this circuit layout and must thus be caref
57. d sedteteiteyspe mman drar AR e S oe Peecwccccccees s SA Demo TCP IP 06 05 2008 10 36 43 By HA 6 Messages regarding operations being executed by the SmartControl appear continuously in this window This is above all helpful when you need to know exactly how the SmartControl responds to certain circumstances The display window Is only active if a TCP IP connection has been established Numeric Format for Entering Values Please use the English numeric format when entering values i e decimal point instead of decimal comma Example Enter the number 3 33 instead of 3 33 for the calculator command GMC I Messtechnik GmbH 3 4 Entering Projects Buildings and Devices with the Application Wizard Application assistant Step 1 l BR Entrance Which entrance would you like to use for your application assistant f Quick C Detailed Start automatically After clicking Application Wizard in the File menu a dialog box appears which guides you step by step to a finished workspace including project buildings etc Each entry is activated by clicking the Accept button A comprehensive procedure can be used or only the most essential entries can be made by selecting Quick thus shortening the procedure Further entries can be added later All of the necessary steps are self explanatory and are outlined further in the following section GMC Messtechnik GmbH 61 3 5
58. d for shorter distances less than 10 meters Termination must be carefully implemented for larger installations Under no circumstances may bus voltage drop to below 0 3 V Under normal circunmstances this termination can be selected directly on the PCB with the green J P4 jumper see item 41 in figure 6 220 Ohm In extreme cases lower ohmic values may be required must be correctly laid out by an expert Attention The RS 485 and the FIELD 1 interfaces see item 7 in figure 6 are wired in parallel Simultaneous use of both interfaces depends upon the protocol GMC I Messtechnik GmbH 2 9 4 Ethernet Interface The integrated Ethernet interface see item 42 in figure 6 works with the usual TCP IP protocol at 10 100 MBit per second The Gossen Metrawatt SmartControl can be read out and its parameters can be configured via this interface The TCP IP address can either be retrieved from a DHCP server or statically assigned Static addresses are absolutely essential for the creation of a SmartControl network with several devices which are required to communicate with each other data measured value exchange A public IP address is required for readout via the Internet and port 2083 must be open or routed to the SmartControl firewall Internet access must be set up with a flat rate permanent connection Required hardware includes a DSL modem and a router In the case of a non static public IP address the router mus
59. dbus ASCII protocol reading MO RS 485 ModBus acquisition package Read Modbus RTU CN Controller Writing for bus systems Modbus and ASCII PS Peak load single peak load optimization For simple systems and single devices PC Peak load complex Peak load optimization for complex systems upon request GMC Messtechnik GmbH 35 2 11 1 VBus For larger objects it is possible to address and read out M Bus compatible meters and terminal devices in accordance with EN1434 3 via an optionally available M Bus level converter with serial interface In this case the level converter is connected to Gossen Metrawatt s SmartControl via the M Bus interface see item 6 in figure 6 with a serial cable Level converters are available for 3 20 30 60 or 250 devices You now have an M Bus data logger with nearly unlimited communications options If the optional flash card is installed SmartControl memory capacity is expanded as well e g for large networks short readout cycles and infrequent or no remote readout The usually required M Bus pulse converters for meters which are not M Bus compatible are unnecessary for up to 8 pulse counters They can be attached directly to the Gossen Metrawatt SmartControl Eight PT 1000 temperature sensors can be directly attached to each Gossen Metrawatt SmartControl etc Up to 480 M Bus compatible terminal devices can be addressed by the Gossen Metrawatt SmartControl via ap
60. e in the program Manual entry at the bottom next to M Bus command type In the case of primary readout the address and the baud rate must be entered M Bus command Type Secondary Address 11010226 OOO O Primary Fage 5B Prod by HYD Baud 2400 Versions Cie Hex Media Heat Cooling load meter Ded eeeeeeces 2ee 0q aa C3 4 Test Cancel o o eooee In the case of secondary readout entry fields are also available for the following data Prod by Manufacturer Version and Media The following can be entered Address secondary M Bus ID for the data point Prod by 3 character manufacturer designation M Bus compliant Version additional manufacturer specific selection hexadecimal Leave this field empty or enter FF 88 GMC I Messtechnik GmbH Media additional selection of a medium Leave this field empty as well or use the selection menu Port interface selection The standard serial M Bus interface at the SmartControl is the default setting A new window appears after clicking the Test button by means of which the respective M Bus device is retrieved M Bus readout Readout ne Prod by SSS Primary E Media fs Versiorr Packet size nnd Unit Ho entries eooowsoor wom mteenn of a The current device is read out after clicking the Start button M Bus frame analyzer As of firmware version 2 0 17 received M Bus data c
61. e mark Ctrl Del Export mark as template Strg T Properties Ctrl Enter 2 Click Export selection as template 3 A dialog box appears which prompts you to enter a name for the export template as well as descriptions for the external IDs Attributes commands template Commands template _ Mh Name Type Address Unit Attributes _Exteral ID s 7 Server Temperature sensor 1 C P Temperrwamning Message treshhoald 1 2 3 0 TE OF Tempwarning EM Message treshhald 1 0 a OF Temperature gt 26 Relay Fall a OF Ventilator E 4 Calculator NH ae OF Ventilator Field NH j Ok ModuleReset Field Mh z OF D 1 2 3 4 5 B gt Ds Ei Please describe the external ID s for all commands BSa 128 GMC Messtechnik GmbH 4 After clicking in the External IDs column a window appears to which the necessary external IDs can be entered line by line The OK button is enabled after the IDs have been entered for all lines Description external ID s Mame Type Unit Attributes Description 7 Server Temperature sensor C i Temperature server room Cancel 5 A file selection window appears after clicking the OK button Select a directory path and a file name for the command template here File name Folders Commands template_NN spt G 1 318517 Beeeae459c56 File type Smartbox Manager commands template spt on Dives a a a a aay GMC Messtechnik GmbH 129
62. e other end of the cable into an ISDN telephone socket RJ 45 An unused digital number must be available If no number is programmed the module answers all incoming digital calls X 75 protocol only As a rule ISDN telephones do not respond ring D a ms 7 If applicable use an ISDN tester in order to check your ISDN connection a a a a GMC Messtechnik GmbH 31 32 2 10 4 Bluetooth Modules The Bluetooth module is inserted at the factory as standard equipment Please check the condition of the module and make sure that module accessories are complete module adapter cable including cable gland antenna See instructions included in section 2 10 1 as well The prerequisite for establishing connections with this module is a Bluetooth compatible PC or notebook The included adapter cable approx 25 cm connects the module to the antenna The adapter cable is furnished with an MMCX FME mounting plug The MMCX plug is connected to the module The FME plug serves to connect the antenna and is used as a housing feed through at the same time A drill hole with a diameter of 11 mm is only required for the SmartControl IP 65 An antenna must be additionally installed to the Bluetooth module The antenna is used to establish connections to Bluetooth compatible devices The included antenna cable length of approx 300 cm is connected to the FME plug adapter cable by means of the FME socket Positioning of the antenn
63. ead Help Accept Help phone recipients Please note not all phone companys support sending SMS via feed line networks Please refer to your local phone companies for information Current SMSC provider and protocols in Germany Gateway Protocol Provider Phone number blocks 090032669005 UCP 4nnyay only for clhents of accom AACOR DOKOM EWE TEL Heli NET NetCologne osnatel and T COM 0193010 UCF T COM only for chents of T COM Please adhere to the format of phone numbers for SMS For sending SMS via GSM modems the county code has to be added without leading zero s Le 49s for Germany For sending SMS via fied line networks the county code may be added with leading zeros Le 0049s for Germany Three recipients of SMS messages can be specified in this tab This function can only be used if the SmartControl is connected to the telephone network via modem or GSM Please observe additional limitations for example transition from the fixed network 70 GMC Messtechnik GmbH e Configuring Error Messages for Status Relays Password Guest password TLPYIP __ Router Ettailiecipients TCP IP recipients Phone recipients n tatus 2 Time Modem Info Relay 1 Relay 2 Indicate 3 D E UO duration Hardware error E E General error E E Field device error e g MBus Modbus ete a i arrirngs E Accept How long which error messages will be indicated at which relays can be configured
64. ecial SmartControl firmware option Adr DataCnt Register PreCmd Hysteresis Address of the SBus user Number of data which are queried Always 1 in the case of transmission because only one value can be determined via the address The register in the SBus user See fieldbus modules See fieldbus modules Values configuration See fieldbus modules GMC I Messtechnik GmbH PID Controller Command Type Attributes General Name PIDI a ID i N PID control PD out gt Address hl Channel NN p Memory cycle LCD Position if Active Minutes T rae lw Fash f Seconds z m Value change 0 65 000 m Start time 19 03 2010 00 00 00 Measuring cycle f Seconds a a o C Milliseconds oving average PID control command Hommnal value aoo FF ak tor Ele 3 Set mar to Faktor to zs Set min Bo DF aktor oO s Delay oO 3 Control value mirc 0 0 Control value mar Wo 100 2 PID controller A PID controller includes a P component an component and a D component P stands for proportional for integral and D for differential The control variable value calculated by the P component is proportional to system deviation The portion of the control variable value calculated by the component increases continuously for the duration of system deviation and finally results in correction of system deviation Due to the component PID and PI controllers do not have any lasti
65. econd line has been created A function can be selected by clicking the box underneath Function in the respective line Meanings a Negation c 3 Logic converts all values lt 0 5 and gt 0 5 to 1 and all others to 0 Functions such as sine and tan can also be selected These functions can then be linked with either values numbers or references program commands e g a temperature channel via operators calculation functions such as or x GMC Messtechnik GmbH After clicking Value or Reference you can switch back and forth for example from Value to Reference If several lines have been filled in you can move the values up or down with the buttons If Reference has been selected a dialog box appears after clicking the which a program command can be selected directly ET button at Channel selection pl Programs 17 Commands modbus 17 Commands Temperature sensor 1 Commands Me4 ModBus 15 Commands fg Calculator 1 Commands nes Network varables In the above example temperature 1 is read in as a reference and comparison takes place to determine whether or not temperature is greater then 22 And thus the command reads out 1 as soon as temperature exceeds 25 and otherwise 0 This function can be tested with the Test button Up to 40 command lines are possible per program command If a measuring cycle of greater than O
66. ect e Corresponds at the same time to the clock cycle pulsing during measuring cycle e Influences measurement of momentary power the shorter the measuring cycle MP the shorter the time period during which momentary power can be ascertained In concrete terms this means that if the metering device furnishes only rough or very few Signals the measurement of momentary power is quite inaccurate In this case it is advisable to activate the moving average How it works A new maximum targeted power value Is calculated for each measuring cycle based upon the already consumed quantity allotment shown in the diagram below as a thick black dashed line from the end of measuring period 3 to the end of the billing period If momentary power exceeds the calculated maximum targeted power value maximum monitoring is activated Moving Average The moving average is calculated in a special way for peak load optimization Mean power from the just elapsed billing period mean power from the currently active billing period averaged power from the preceding measuring period power from the just elapsed measuring period not shown in the diagram 4 106 GMC I Messtechnik GmbH Consumption m kWh Example Blue momentary power ascertained at end of MP Red mean power from currently active MP Green current mean value based on red and blue lines moving average schematic Black r
67. ection with TAE N socket must be available at the SmartControl Analog private branch extensions are possible Jumper J P5 see item 25 in figure 6 is used to configure the RJ 45 connector jack to analog operation Make sure that the jumper configuration is correct before initial start up The number of rings before the modem answers a call can be selected with the SmartControl Manager It is advisable to enter a 1 y A reset must then be executed in order to assure that the new setting is transferred to the modem see section 11 Shutting Down and Restarting the SmartControl to this end After restarting make sure that the communication LEDs between the RJ 45 jack and the modem see figure 9 in section 2 12 blink briefly several times 30 GMC Messtechnik GmbH 2 10 3 ISDN Modules See instructions included in section 2 10 1 as well The prerequisite for operation with this module is an RJ45 ISDN connection socket on an I SDN SO bus For SC and IP 65 Feed the RJ 45 plug at the end of the connector cable to the module via one of the cable glands Pg Lay the cable into the cable duct in the box For all SC versions Insert the plug into the connector jack for ISDN connection RJ 45 on the PCB see item 22 in figure 6 Jumper J P5 see item 25 in figure 6 is used to configure the RJ 45 connector jack to ISDN operation Make sure that the jumper configuration is correct before initial start up Plug th
68. eference lines gt Time Figure 1 Diagram Demonstrating Function of the Moving Average Value simplified Explanations The X axis MP 1 through 5 symbolizes the time axis over a complete billing period The measuring period MP is identical to the priority time span in the sample diagram If the measuring period is shorter than the priority time span switching operations may occur at intermediate times The Y axis symbolizes permissible consumption for the billing period top edge of the diagram Example transition from measuring period 3 to measuring period 4 Actually ascertained power would result in enabling restart in this case The moving average increases power based on the previous measurement so that the device remains switched off Average power does not drop below maximum power until the transition to MP 5 so that the device can be started up again The same applies in the event that relatively low power has been ascertained at the beginning of a billing period and power does not drastically increase until the middle or end of the period Shutdown is thus delayed for as long as possible GMC I Messtechnik GmbH 107 Moving Average Off Even without a moving average the calculation of momentary power is averaged to a certain extent Mean power from the currently active billing period power from the just elapsed measuring period 2 In this operating mode peak power optim
69. entered to the relay command as an address O means enabling not used Meter Input Targeted Power Only pulse inputs at the SmartControl can be used as meters It must be assured that the meter input reads out the correct unit of measure kWh is converted to kW and e m cubic meters is converted to m h If a different unit of measure is used when the meter inputs are calibrated targeted power must also be adapted to the utilized unit of measure GMC Messtechnik GmbH 105 Enter desired targeted power in kW or m h The peak load calculator then attempts to arrive at precisely this value This value should be adapted to any special technical object and control conditions In concrete terms Targeted power should be set to a lower value if it must be assured that targeted power is not exceeded under any circumstances Targeted power can be set to the same value or higher if it may be exceeded occasionally The following must be observed One peak value optimization with individual settings is created for each device or group of devices to be switched off i e for each relay output which needs to be switched Cross links when device 1 off then can be implemented via enabling in combination with additional commands e g calculator type command Measuring Cycle or Measuring Period MP The measuring cycle determines how frequently the specified conditions will be checked Several points must be observed in this resp
70. erminal resistor in the SmartControl can be used jumper on the PCB Resistors will otherwise be required in order to terminate the bus In the case of special requirements for example a very large number of devices very long cables and high transmission speeds terminal resistors must be balanced with an oscilloscope GMC Messtechnik GmbH 41 Transmission Speeds The default transmission speed of 9600 baud to which the devices are set is adequate for most applications as well as for long transmission distances The data blocks which as a rule amount to only a few bytes are transmitted within just a few milliseconds when a transmission speed of 9600 baud is used 2 11 7 Functions and Protocols Available Upon Request Fieldbus protocols available upon request BACnet 1 Wire LON interface IEC 1107 ZigBee 42 GMC I Messtechnik GmbH Status LEDs lagnosis D 2 12 f the LEDs ition O Pos 212 1 Figure 9 LEDs for LED 15 Communication Status COM Socket Module t NAS NEC USI ital igi ei ei a tun uv uss Aga Wee ml V om a GY GY Co Ca Co Cor vig Fl eld AUDE apaa a als TTESI P i i i 1 1 1 f cedgcoeee Ceecceces 1 oo fa WAI RT S_ 4 E E E E E E E E f f f f E f f NE E St Rap oed 3 ME Is eu 5 a BARRA Wepo 14x30S is usa nosi boTeuy ze c 9 a g T d os A gt Lf s gt m E q2 p j mn o gt
71. ers as well as door and window contacts and the like All digital inputs are preconfigured for passive switching contacts at the factory All of the red jumpers located on the PCB must be replugged for active pulse sources see item 2 in figure 6 Active pulses indicate current and voltage values They are electrically isolated by an optocoupler on the SmartControl Digital I nputs Passive reed contact load capacity Active signals Edge slope Filter debouncing Pulse sequence Frequency Detection method Maximum cable length Storage of meter readings Maximum meter reading Smallest resolution Units Inputs which can be setup as pulse inputs Inputs which can be setup as status inputs Inputs which can be setup as tariff inputs Input which can be setup as synchronization input Optical pulse display GMC Messtechnik GmbH 12 mA typical input voltage 12 or 24 V Min 12 mA max 24 V Any Digital 5 ms At least 10 10 ms 0 1 Max 100 Hz Interrupt 200 m Every 15 minutes 9999 9999 9999 99 0 000001 M Bus protocol 8 8 3 1S1 1S3 and IS5 1 1S7 LED on the PCB 21 22 The signal type or operating mode is set with jumper series J P2 see item 2 in figure 6 which determines electrical configuration These jumpers red jumpers included in scope of delivery are assigned to the respective digital inputs from left to right ISO to IS7 and are set to the passive operating mode
72. erter with RS 232 interface is required in order to read out M Bus compatible devices in accordance with EN1434 3 Up to 480 devices can be addressed via corresponding M Bus level converters with serial interface and booster At this time up to 480 devices can be addressed by the ennovatis SmartControl via corresponding M Bus level converters with serial interface and booster Maximum cable lengths for M Bus networks must also be adhered to We recommend limiting the size of M Bus networks to 250 devices per SmartControl interference management operating reliability etc Prerequisite M Bus protocol EN1434 3 unlimited read out interval e g every 15 minutes devices preprogrammed at the factory with unique primary addresses The baud rate can be set individually for each meter to either 300 2400 or 9600 baud Primary or secondary readout selection is possible For further characteristics refer to the Options and M Bus sections 2 9 2 RS 232 Serial Interfaces FIELD1 and Field 2 Serial interfaces see item 7 and in figure 6 2 9 3 RS 485 Interface firmware upon request Distances of up to 1 2 km can be spanned with the fieldbus interface see item in figure 6 terminals A B C equipotential bonding Do not use a ground The terminal assignments are printed on the SmartControl PCB at X10 The RS 485 bus must be correctly terminated with one or two resistors at the ends No termination is require
73. ese jumpers are assigned to the respective analog input from left to right AO to A7 and are set to the voltage measurement operating mode 0 to 10 V at the factory blue jumper included in scope of delivery In order to measure a current signal 0 to 20 mA the blue jumper which corresponds to the analog input must be inserted in accordance with the following schematic diagram amp n l eo QV LJ 20mA i The connector plugs are designated and must be connected as shown below polarity as specified GMC I Messtechnik GmbH 17 O E 47 5 6 7 8 91 10 dia pt I J J S J J J J j J T l j j J J Analog Analog Analog Analog Analog Analog Analog Analog Input Input Input Input Input Input Input AO Al A2 A3 A4 A5 A6 A7 Relay Relay Output Output K1 K2 jumper jumper 6 6 Measuring signal All eight inputs have a common ground which also functions as the negative terminal They are not electrically isolated The following points must be observed in order to achieve high measuring accuracy e Use shielded cables only If possible connect the shield to a separate ground contact available with Gossen Metrawatt SmartControl P65 Keep cables as short as possible Large cable cross sections at least 0 5 square mm recommended 0 75 square mm Ferrite beads attached to both cable ends If at all possible do not lay cables parallel to heavy cur
74. ess 0 Field bus readout fx If only a few modules need to be i configured they can be configured e i A AA manually with the SmartControl V Active Readout 06 08 2007 10 13 21 managels Flash Status No emors p First create a Field type command Display Leave all of the settings at their default values Now enter the command to be transmitted to the command window and click the Seconds Test button C Milliseconds Result 2M Type lA Analog Confirmation module 3 ea PT100 B aud 9600 Checksum i r 0103240600 ContoliD Wie ute Examples Field commands Enter a new address for an RTD 01 gt old address 03 gt new address 24 gt sensor and value range 06 gt 9600 baud 00 gt readout in C Preorder 1 r Hysteresis fo 0 64 000 60103240600 Value configuration Help Activate the SmartControl Manager monitor as well activate the right hand tab in the bottom window Incorrectly entered commands can be detected more quickly here Important Do not leave the default address 1 unchanged The configuration of a second device would otherwise no longer be possible at the same bus GMC Messtechnik GmbH 115 The module is now ready to be read out All three channels are read out at the Attributes x same time with the command 03A General Set device type to A for analog signals Name Command Max 18 char
75. g measuring cycle or On Off rule 8 Peak load shutdown active but time outside of priority 16 No peak load expected However the output has been activated due to the minimal off period All values from 1 through 16 not including O are written for every measuring cycle so that a complete analysis can be subsequently completed All conditions are added up so that it can be determined which rule or rules have overridden peak power optimization 108 GMC I Messtechnik GmbH Recommended Settings Depending upon the type of machine characteristics and performance may differ greatly in the event of maximum shutdown For this reason it must be determined in advance whether or not a given machine is a viable candidate for maximum shutdown The settings shown here represent typical values only They must be calculated separately for each device project and tested in the field For electrical power Memory cycle Measuring cycle Moving average Meter input Priority Targeted power Type Min and max times Enabling For gas Memory cycle Measuring cycle Moving average Meter input Priority Targeted power Type Min and max times Enabling GMC Messtechnik GmbH 15 minutes standard billing period 30 45 60 90 or 180 seconds On Energy pulse input to be monitored For non critical devices 2 to 3 otherwise 4 to 5 Max power for non critical devices 20 For importa
76. g 2 0 Device Ai Building 3 0 Device rai Network Data a OPC Server After clicking a project with the right hand mouse key new buildings can be added projects and buildings can be deleted and attributes can be viewed GMC Messtechnik GmbH 63 Project_i 3 Building Mg Building_1 0 Devic at Building 2 0 Devic Ai Building 3 0 Devic New device Chrl h Search device Ctrl F Delete TT Del Attributes Ctrl Enter After clicking a building with the right hand mouse key a new SmartControl can be added to the building gt New device If a network connection is used any SmartControl within the network can be found and then transferred to the building gt Search device SmartControls are now searched for by means of broadcast via UDP Search for deyices Name ae Domain DNS Server Alternative IP Standard gateway Subnet mask Up to date IP Up to date gateway Upto date subnet r eT FEOJ AE NE E 192 168 130 97 255 255 255 0 192 168 130 97 7 0 0 0 255 255 255 0 192 168 130 121 255 255 255 0 192 168 130 121 0 0 0 0 255 255 255 0 B 192 168 130 102 192 168 130 254 255 255 255 0 192 168 130 102 192 168 130 254 255 255 255 0 gt Search Accept era Found SmartControls can be marked and transferred directly to the building In addition to this network data such as TCP IP addresses of SmartControls which have been found are displayed 3 5 workspace project 1 1 Pro
77. gram table has the following buttons Import Import timer program from GTT file Export Export timer program to GTT file Sort Sorts the table according to ID and time chronologically Reset Resets all table entries Read in Reads timer programs in from the currently connected device Accept Reads all entries to the connect device The timer program table has the following columns I D A number between 65020 and 65029 used a a program ID it s possible to create several programs with the same ID but with different times Name Program name all programs with the same ID have the same name as well Value A number which returns the program ID during referencing to a command Time Time e g 08 00 00 as switch on time gt a value of 1 to 13 00 00 switch off time gt a value of 0 M S Day of the week TD1 D9 Special days GMC Messtechnik GmbH 133 4 Reading in Data Displaying Data as Graphics J project_1 scm Smartcontrol Manager File Edit View Programming Device E DS WE amp Ss 2 E E A oh W 06 08 2007 6 00 0C v Read Sopy Gs Workspace project_1 2 Projec aes TTi 5 Projbu_a a vunding fat Building_1 2 Device Smartcontrol_1 E Smartcontrol_2 8 Project_2 3 Building fat Building_1 1 Device 4 Building_2 0 Device A Building_3 0 Device tra ili amp we Network Data opc s ffi Programming Configuration CaliStion Table Graphic s Network v
78. hensive functions The SmartControl must be connected to the PC for initial configuration This connection can be established by means of the Ethernet interface or with the optional analog modem or ISDN module 1 Connection via Ethernet interface see item 42 in figure 6 A crossover patch cable must be used for the connection between the SmartControl and the PC Each SmartControl has the following static IP address as a default setting 192 168 130 190 There are two possibilities for data exchange e either IP address 192 168 130 XXX and subnet mask 255 255 255 0 are selected at the PC or notebook XXX being a number between 1 and 254 but not 190 e or the TCP IP address at the SmartControl is changed The procedure is described in detail beginning with the section entitled SmartControl Manager Setting Up Projects Buildings and SmartControls 2 Configuration via analog modem or ISDN A PC with a phone jack and an analog modem or an ISDN card must be used Please note The ISDN module in the SmartControl cannot be queried by an analog modem without additional hardware Start Gossen Metrawatt SmartControl Manager software and then establish connection and configure the SmartControl as described beginning in the section entitled SmartControl Manager Setting Up Projects Buildings and SmartControls GMC Messtechnik GmbH 47 48 2 17 Shutting Down and Restarting the SmartControl Maintenance Mode Approxima
79. housing top to this end Now insert one end of the tool into the threaded drill hole at either side of the SmartControl for the bottom housing screws in the SmartControl base plate from the outside Insert the other end of the tool into the drill hole for the bottom screw in the housing top after it has been tipped up GMC Messtechnik GmbH 13 Terminal Block 2 5 4 Cable Inlets SmartControl IP 65 Figure 3 Cables must be tension free The cables must be lead in from the bottom It must be assured that the cables are long enough to reach the connector terminals The power supply cable may have no more than 3 conductors with a maximum cross section of 1 5 square mm each and must be connected to the 230 V terminal block PE N and L1 Terminal Block 2 5 5 Low Current Leads a SmartControl IP 65 Figure 4 The shields of all shielded cables must be connected to a ground bus bar by means of shield terminals assuring large Surface area connection Identify all inserted cables with the respective cable number in accordance with the wiring diagram in a readily legible fashion using cable ties Secure the cables firmly with cable ties if necessary See the connection overview below regarding connection options Be sure to observe additional notes included in the operating instructions as well Retighten all screws and fasteners after installation has been Ground completed Bus Bar Tighten the threaded cable glands
80. ics in Tabular View As of version 1 7 0 1 all command characteristics can also be edited in the tabular view Program attributes Priority E ID s from fi to E Position i Hame Programm 1 m Table Al Hame HAH H S52N 5515 Cooling Trafo 1 Uwo JT H52 5515 1 Unit 02 Trafo 2 HAZM Unit 01 HASH UYVOS_ SV 5513 3 Lire M D 2 3 4 5 6 f E As of version 1 7 0 1 all programs can be converted with uninterrupted IDs Y GMC I Messtechnik GmbH 85 Program attributes Table W Al F a Programs Ej Frogramm 1 16 Commands E3 Meter 2 Commands CA Trafo 1 Trafo 2 ae Bus M Bus 14 Commands Accept Exit ae im Find Program Commands Search command Name HVA MEJ E Match case Whole words only Address Program sheet Programm 1 Prograrn 1 Frogramm 1 As of version 1 7 2 0 all referenced commands can be searched for any given ID 86 GMC Messtechnik GmbH Search command Type In 13 W Referenced commands Type Program sheet Calculation Calculator Programm 1 Transmitting Programs to the SmartControl and Starting Them Programs are transmitted to the SmartControl and tested by clicking the test programs in SmartControl button SE but they are not permanently saved to memory The save programs to SmartControl button Ws is then enabled by means of which the programs can be permanently saved to the SmartControl Re
81. ified here for connection via TCP IP or modem In the case of guest access the configuration and the programs can be read However no changes can be saved to memory TCP IP Password Guest pass ard TEPYIP Routes E Mail rec Mame Smartcontrol 1 Domains PO ONS Server PO Alternative IF 192 168 130 191 Subnet mask 255 255 255 0 0 Standrd gateway PO DHCP a Up to date network configuration IP address 192168130191 Subnet mask 255 255 255 000 Gateway O00 2 MAC A4 DF CE 000M C3 Read Help Accept The current TCP IP configuration can be viewed and edited here The Read button is used to display current data from the SmartControl and the Accept button transfers data to the SmartControl GMC Messtechnik GmbH 67 68 Router eee eee eee OP Otten of a Password Guest JEsi TCPAP Router EMail recipients cog innemen ennenen T ae Pmewewccnsccese UDP Slave gE Fort AS485 Slave Speed Parity None N Head Accept An entry can be made here specifying whether or not the SmartControl is permitted to communicate with other devices via RS 485 If this is the case SmartControl acts as a slave Port transmission speed and parity can be specified Note Functionality is firmware dependent e mail Recipients Password Guest password TCPAIP Route E Mail recipients Pi So Ree eee MT E Mail 1 recipient domain_name com E Mail 2 recipient
82. ighest point of local terrain e Install the antenna above components which might function as a shield e g reinforced concrete ceilings e A booster is required for long cable lengths gt 7 m because attenuation due to the antenna cable is otherwise too great Never operate the SmartControl without an antenna if a GSM module is used GMC Messtechnik GmbH 2 11 Options Overview Various function modules can be integrated into the firmware depending upon the task at hand The additional modules included with the SmartControl are displayed in the Options field on the information page in the SmartControl Manager with the help of abbreviations The abbreviations have the following meanings Firmware Options Abbreviation Description LO LON MA Firmware for M Bus analyzer MB M Bus function MP Firmware for serial modem port via TCP IP A modem module included in SmartControl is made accessible via the TCP IP network with this firmware MR Firmware for M Bus router function Transforms the SmartControl into an M Bus router TheSmartControl is installed between for example the building management system and the M Bus level converter Two RS 232 ports on the SmartControl are used for incoming and outgoing lines Allows for read out and remote querying of the M Bus Access to the M Bus is maintained for the building management system which has precedence AA RS 485 fieldbus acquisition package Fiel
83. ing a hysteresis assures that a Cancel given period of time elapses between breaking and making operations A large hysteresis results in fewer switching operations but this makes the controller more Sluggish GMC Messtechnik GmbH 103 104 How it works If the command variable is larger than the lower threshold the relay is switched to 1 If the command variable is larger than the upper threshold assuming the upper threshold has been activated the relay is switched back to 0 By inverting the output the switching logic can be reversed a greater than condition is changed to a less than condition Additional conditions can be represented by means of calculators or time functions Example Due to Inversion relay output 1 is set to 1 unless the signal from the luxmeter with ID 2 is between 3 8 and 9 3 Example The luxmeter reads out 4 as a Signal which is greater than 3 8 and the relay output is switched from 1 to O green range in screenshot above Peak Load Optimization Command Type 1 Preface The peak load optimization function integrated into the SmartControl includes comprehensive setup options which allow for effective prevention of excessive loads This description is not a set of instructions for laying out and or implementing peak load optimization This must be taken into separate consideration in each individual case and the prevailing conditions must be taken into account With reg
84. is entered only one mean value is generated during the memory cycle For conditions for example this means that if the condition is true 1 is added to the internal mean value For control tasks which are intended to act immediately and without delay the memory cycle should thus be set to for example 1 second and the measuring cycle to 0 The Flash checkbox is not activated in this case GMC Messtechnik GmbH 93 Timer Program Command Type Attributes General Name Timer Max 18 char ID a Type Time program Address o Unit fizo Memory cycle LD Position V Active Minutes 212 W Flash C Seconds ae age T Display Value change fO 000 0 65000 pepe E 06 05 2008 00 00 00 Se a Measuring cycle Seconds C Hilliseconds Time commands Ho entries Hew O Mo FP tu wel th F M Sa Su ew Cancel Date specific calender days can be entered under Day and switching times can be entered during these days A calendar window appears after clicking the View button A trigger range can be selected here 94 GMC Messtechnik GmbH Time intervals 4 Mai 2005 Juni 2008 12 13 14 15 16 17 18 19 20 21 22 23 EN 25 2G 27 28 29 30 31 4 5 amp 3 9 10 1i 12 13 14 15 16 17 18 19 20 21 22 23 24 25 20 27 28 29 30 31 23 45 G 7 8 g 10 11 12 13 14 15 1G 17 18 19 20 21 22 23 24 25 2G 27 28 29 15 16 17 18 19 20 21 22 23 24 25 2G 27 28 Juli 2008 fo
85. ization Address meter input target power and enabling can be entered GMC Messtechnik GmbH 131 3 9 Global Variables Tab The following global variables are available and can be referenced EIA a z Reload No k z Read Copy Save Reset Mo Name ID Status Value 1 Year 65001 1 2010 000000 2 Month 65002 1 3 000000 3 Day 65003 1 17 000000 4 Hour 65004 1 13 000000 5 Minute 65005 1 23 000000 6 Second 65006 1 24 000000 7 Week day 65007 1 3 000000 8 Day minute 65008 1 803 000000 9 Error status_1 65011 1 0 000000 10 Error status 2 65012 1 0 000000 11 65020 0 12 65021 0 15 65022 0 14 65025 0 15 65024 0 16 65025 0 17 65026 0 132 GMC I Messtechnik GmbH 3 10 Timer Program Special Days A timer program which takes special days into consideration e g holidays Sundays on which the shops are open inventory days etc is required in order to assure smooth operation of the controller Password Guest password TCP IP Router E mail recipients TCEF IF recipients Phone recipients Status Time program Special days Modem in Info N ID Name Value Time MIT TWIT 5 Mt 65020 NewYer 000130000 m e mmm a s c 5 5 ma 1 31122010 Like T1 T2 T3 T4 T No Day Type As of version 1 7 2 0 of the configuration software timer programs can be exported from a device as a template in a GTT file which can be subsequently imported as timer programs into other devices The timer pro
86. izing reacts in a much more aggressive fashion Devices may be switched of too early and unnecessarily The moving average function should only be deactivated for non critical devices Optimization Type e Immediately Off The relay is activated immediately if an excessive value is anticipated It remains active until the anticipated violation is no longer pending e Pulsing During Measuring Cycle The relay is switched off and back on again during every measuring cycle if an excessive value is anticipated Power is thus cut in half on the average e On Off Switching times are in line with the specified minimum and maximum on and off periods Please note The specified on and off periods take precedence over peak power optimization and enabling Recoding flash ring buffer It is advisable to record all switching operations to the flash ring buffer in order to document peak load characteristics The Flash checkbox is activated to this end The recorded logic values from 1 through 16 have the following significance 1 Initialization synchronization or error 0 No peak load expected This value is written at least at the end of every billing period or at the transition from active to inactive 1 Peak load shutdown active relay has picked up 2 Peak load shutdown active but switching output not enabled 4 Peak load shutdown active but switching output within a limit pulsing durin
87. jec Project_1 3 Building A Building_1 1 Device ES m pipiens A Building a Building New device via R5485 Ckrl L Logics 2 Connect Disconnect Delete device Del TCPIIP attributes Ctrl Enter If the connection is to be established via a network and if the interconnected PC or laptop is listed in another network as 192 168 130 XXX the SmartControl s network address can be changed Click the SmartControl with the right hand mouse key to this end and select TCP IP attributes GMC Messtechnik GmbH TCPAIP attributes Hame Domain DNS Server Altemative F 192 168 130 100 c ubnet mask AA ASS 2550 Standard gateway 142 166 730 170 DHCP Up to date network configuration IP address 19216813093 0 Subnet mask 255 255 255 0 00 Gateway 192 168 130 10 MAC OO50C2719F 40 OOOO sco a Now ascertain your PC s own IP address and subnet mask for example with the ipconfig command enter it to a DOS console run gt cmd for Windows 2000 and XP gt ipconfig and adapt the SmartControl s IP address accordingly enter a new IP address free IP within the network other than your PC s own IP address and the same subnet mask Specify a gateway and a DHCP Server if applicable Now click the Accept button The TCP IP data are activated automatically Any existing connections are reset by the SmartControl GMC Messtechnik GmbH 65 The following window appears after double c
88. k GmbH Delay time entered at T1 on delay is then started After delay time has expired the multifunction relay is switched to 1 T2 is time from switch on to switch off Where T2 is 0 switch off does not occur until calculator T gt 60 switches to O If calculator T gt 60 switches to O and back to 1 during T1 re switching occurs i e response delay time is started over again Power Calculator Command Type Attributes General Mame Power Calc 1 Max 18 char ID i Type Power calculator E Address D Pulse Input 0 Unit kat Memon cycle LCD Position Minutes 15 z Bele a Seconds 0 65 000 E 08 05 2008 00 00 00 Measuring cycle f Seconds gt o Moving average Power calculation commands Temperature flow iS Flot a o awn o Latent Cp kg oe Td PC Tu PC W Active if Flash Display Start time Temp returns Heat capacity rea A heat cold quantity calculator can be set up with this command Prerequisites A flow meter with pulse input and a temperature sensor for inlet and return must be connected to the SmartControl The address of the pulse input is entered to Address and the program command ID for the inlet return temperature sensor is entered to I nlet Return Temperature Channel selection F Programs 11 Commands Programm 1 11 Commands ia Temperature sensor 4 Commands ig Tempe
89. le for explosive or corrosive atmospheres Conductive contamination loose small parts and moisture may not be allowed to penetrate the control cabinet Storage 5 to 50 C no condensation dry frost free dust free Power Pack Gossen Metrawatt s SmartControl is supplied with electrical power from the integrated primary switched mode power supply which complies with the following performance data Input 100 to 240V 50 60 Hz Output 24 V An optional 24 V power pack can be integrated into the Gossen Metrawatt SmartControl IP 65 for simultaneously supplying multiple external sensors for example with electrical power LED Display Various LED displays are included on the PCB The DIAG and COM displays can be found here see figure 6 item 18 and refer to the section entitled Diagnosis Status Display LEDs DIAG LED Blinks green status OK COM LED Blinks green to indicate data transfer 8 LEDs for the digital inputs Blink red to indicate input signal 1 LED for 3 3 V supply power Lights up red 1 LED for 5 V supply power Lights up red 1 LED for each switching output K1 and K2 Light up green when relay contact is closed GMC I Messtechnik GmbH 2 4 Overview of Connection Options Figure 1 o D D 4 TI a wn sian Ethernet Komp act Hash care Numerical keypad 16 keys 10 100 MBit LCD display 4 x 20 char aptional Q aff E a G RS 485 Bus i iLe ModBus
90. lephone output utilized P 10 Module socket analog I SDN GSM Bluetooth 12 Interface TCP IP 10 100 MBit g Blu by Jumper use A6 A7 as analog input or 13 Key F1 2 Y as K1 K2 relay output 14 Key reset 16 GMC Messtechnik GmbH 2 7 Inputs 2 7 1 Analog Inputs The 6 analog inputs AO through A5 terminals 1 through 12 see wiring diagram and item 4 in figure 6 are intended for the connection of measuring transducers e g pressure sensor atmospheric humidity etc with O to 10 V or O to 20 mA output signals Depending upon the jumper setting terminals 13 through 16 can be used either as analog inputs A6 and A7 or as relay outputs K1 and K2 Jumper series J P6 see item 27 in figure 6 determines whether an analog input or a relay output will be used These jumpers are set to the relay output operating mode at the factory jumpers are included in the scope of delivery Oconee fol BR Meer fanana J umper plugged onto relay output default Relay Output Relay Nominal voltage 1 NO contact 1A 60 V no inductive loads Analog Measurement Measuring range O to 10 V O to 20 mA Internal resistance Voltage measurement 200 kQ Current measurement 249 Q Accuracy better than 0 02 V Calibration 0 005 Vat 10 V Frequency Max 1 Hz A D converter resolution 12 bit The signal type or operating mode is determined with jumper series J P1 see item 5 in figure 6 Th
91. licking a SmartControl Connect Type TCPVIP ISDN CO AModemSerial C Serial Ethernet Gateway Attibubes IP 192 168 130 191 Fort 2083 Password i A selection must be made as to whether connection will be established via TCP IP ISDN a modem serial cable or a serial gateway Refer to the section entitled Configuration regarding additional prerequisites for establishing a connection In the case of connection via TCP IP either the SmartControl s IP address or its name can be entered Upon shipment from the factory the name is SmartControl and the IP address is 192 168 130 190 In the case of connection via ISDN a telephone number and if applicable a password must be entered In the case of connection via modem serial interface the PC s serial interface must be entered and if applicable a password If a modem is used the telephone number must also be entered If necessary the standard modem initialization must be adapted After connection has been successfully established additional menu items become available in the toggle tabs 66 GMC I Messtechnik GmbH 3 6 The Configuration Tab eoooeeooes wow wmecn ae Programming Configuration aA Calibration me Hetwork variables Password A password prompt can be set up here for connection via TCP IP or modem The password is encrypted before it is transmitted Guest Password A password for guest access can be spec
92. life support device in safety relevant systems or other vitally important equipment Examples fire alarms reactor monitoring medical devices aircraft It is the responsibility of the user to install suitable safety and protective devices in all areas of application We make explicit reference to the fact that hardware and software designations are as a rule protected by the brand name trade mark and patent rights of the respective manufacturers All of the devices may only be operated in accordance with the instructions and within the stipulated range of specifications For example overvoltage excessive temperature moisture inside the housing even for short periods of time as well as careless handling and operating errors render the guarantee null and void The devices must be tested for correct functioning after all installation and connection work has been completed Inspection is also required in order to assure that all screws have been securely tightened Furthermore insulation testing must be conducted in accordance with VDE Do not expose components which are not voltage proof to high voltages during testing Wherever possible low voltage cables must not be laid parallel to heavy current conductors adequate clearance to heavy current conductors should be maintained and ferrite beads should be attached to both cable ends If any of the devices demonstrates a defect please contact your dealer or Gossen Metrawatt
93. mmend entering the transformation ratio here Reason In this way the display of the SmartControl meter reading can be compared with the display at the electrical meter For low voltage systems a voltage transformation ratio can be entered as well Unit kwh The Unit of measure must be specified Status signals can also be processed e g door contact burner on time etc If applicable the current meter reading can be entered Tariff data for example high tariff HT and secondary tariff ST can be processed as well 3 tariff inputs can be set up IS1 IS3 and IS5 If they have been defined as tariff inputs they determine whether or not the respectively previous inputs namely ISO IS2 and IS4 are allocated to HT or ST For example the tariff field next to IS1 can be selected In this case tariff input IS1 specifies whether pulses from ISO will be allocated to HT or ST Switching back and forth between HT and ST by is accomplished by means of a lead at the meter to which 230 V is applied in the case of logic high and O V in the case of logic low As a rule logic low corresponds to HT and logic low to ST This signal is read out to a relay with a floating contact The floating contact is connected to IS1 IS3 or IS5 In the case of logic high the relay is closed and a logic high signal is also applied to IS1 IS3 or 1S5 The meter is thus switched from HT meter with ISO IS2 or 1S4 to ST meter with IS1 IS3 or IS5 Input
94. n the left hand window under SmartControl Pull them into the main window in the middle by means of drag and drop The data are then displayed as a graphic If several channels are displayed in the graphics window the units of measure along the Y axis are adapted automatically Graphics can be saved as BMP files by clicking the Save button and they can be cleared from the main window by clicking the Reset button After the data have been read in the display is switched automatically from the Network tab to the Data tab Click the Network tab first in order to establish a connection with an additional SmartControl 136 GMC Messtechnik GmbH 5 Options Save You can enter the current workspace and programs path for the backup copy in the Save index tab Options dialog in the Extras menu Options save Disconnection Alb fi min W Workspace backup copy WorkspaceBackupSCM W Program backup copy ProgramsBackupSBT Save directory C Programme GMC SmartControManager Backup Abbrechen Hilfe GMC Messtechnik GmbH 137 138 6 Repair and Replacement Parts Service DKD Calibration Center and Rental Instrument Service If required please contact GMC I Service GmbH Service Center Thomas Mann Str 20 90471 Nuremberg Germany Phone 49 911 817718 0 Fax 49 911 817718 253 e mail service gossenmetrawatt com This address is only valid in Germany Please contact
95. n to one or more SBus devices via the RS 485 interface at the SmartControl fieldbus see item in figure 6 e Complete documentation for the SBus device to be read out Attributes Name SBust a ID Type Bus EN Unit NN M Fash M Display ka SBus commands Baud 0 l bd ode Data Cmd 0 00 Read Counter Adr Mool DataCnt Moo l Register ho Fremd fs Hysteresis Values configuration SBus The SBus is very similar to the ModBus The SBus in the SmartControl functions only as a master This means that the SmartControl actively queries the other device Baud Transmission speed GMC Messtechnik GmbH 123 124 Mode Please read the description of the SBus device in order to determine whether or not the respective mode is supported Cmd The command which is transmitted to the SBus user Status RSO 0x00 0x01 0x02 0x03 0x04 0x05 0x06 0x07 OxOA OxOB OxOC OxOD OxOE OXxOF 0x14 Ox15 Oxl16 0x17 0x18 0x19 Ox1A Ox1B Read Counter Read Display Register Read Flag Read Input Read Real Time Clock Read Output Read Register Read Timer Write Counter Write Flag Write Real Time Clock Write Output Write Register Write Timer Read Status RSO Read Status RS1 Read Status RS2 Read Status RS3 Read Status RS4 Read Status RS5 Read Status RS6 Read Status RS7 RS7 describes the status of the individual CPUs Write is a sp
96. neous use of both interfaces depends upon the protocol Connector pin assignments upon request Layout parameters configuration of the SmartControl directly via TCP IP at 10 100 MBit s TCP IP address via DHCP server or static A public IP address is required for readout via the Internet and port 2083 must be open or routed to SmartControl firewall Internet access must be set up with a flat rate permanent connection Required hardware includes a DSL modem and a router In the case of a non static public IP address the router must support DynamicDNS service As a rule DynDNS is available on the Internet free of charge Use of a VPN channel virtual private network must be made available via separate hardware Bus termination internal 120 Q can be disconnected with jumper 1 free slot for Modem for connecting the SmartControl to an analog telephone system An analog connection must be available analog private branch extensions are possible Module for connecting the SmartControl to an ISDN telephone system The prerequisite for operation with this module is an RJ 45 ISDN connection socket on an ISDN SO bus Module for connecting the SmartControl to a GSM network The prerequisites for operation with this module include a contract with a network service provider and an enabled SIM card The installation site must also be checked for good reception For wireless connection inside a building to a Bluetooth compatible PC
97. ng system deviation In addition to the amount of system deviation and its duration the rate at which deviation changes Is also taken into consideration by the PID controller in calculating the control variable which determines the differential component If system deviation occurs this means that at the moment of occurrence system deviation also has a rate of change GMC Messtechnik GmbH 125 In contrast to PI controllers PID controllers react immediately when system deviation occurs If the rate of change declines the D component of the calculated control variable is also reduced Setpoint ID of the setpoint P factor 0 to 100 factor O to 100 D factor 0 to 100 Delay time constant Tau SetMin ID of the input which sets the setpoint to 100 e g antifreeze The ID is for example the ID of the freeze guard If the signal is 1 the control signal is set to 100 SetMax ID of the input which sets the setpoint to 0 e g fire summer mode or no enabling for heat SetpointMin and SetpointMax specify control signal scaling 0 100 0 10V 2 10V 0 20 MA 4 20 MA The ID of the actual value is entered to Address The Setpoint can also be an address In this way for example temperature reduction at night can be implemented with a computer If both signals are 0 the controller calculates the control signal in which case the component is correspondingly initialized at 0 or
98. nt machines 0 to 10 Depends upon project device Depends upon project device Depends upon project device 60 minutes standard billing period 60 100 150 or 300 seconds On Energy pulse input to be monitored 4 to 9 corresponds to 15 or 40 min respectively Power for non critical devices 10 For important machines O to 5 Depends upon project device Depends upon project device Depends upon project device 109 110 3 Cyclical Results Checking Results should be checked at fixed intervals and programming should be adjusted if necessary Flexible reactions are this assured in the event of changing circumstances Message Threshold E Mail Command Type Prerequisite for e mails e TCP IP connection with access to an e mail server Procedure Attributes 1 Create a Message Threshold command General 2 Set the type to e mail 3 Enter the number of the e mail address to which the e mail will Name be sent to the address field Set the command to active ID i0 Type Message treshhold command x fA Ernail Treshhold_1 Max 18 char A 5 Set the memory cycle If the support domain_name t NN respective condition is fulfilled Address I fsupport domain_namet Unit NN e mails are sent at the frequency specified here wd vane Memory cycle LCD Position 6 Set the measuring cycle The e Minutes 15 elie condition is checked every xxx W Flash C Seconds seconds In this way messages gi i
99. ode 48 Manufacturer 88 M Bus 36 88 M Bus Application 90 M Bus Frame Analyzer 89 Measuring Cycle 83 Measuring Transducers 17 Medium 88 Memory Cycle 82 Memory Range 45 Memory Range in Days 45 Menu Bar 55 Message Threshold 110 115 Message Window 55 Meter 78 80 Meter Factor 78 Minimum Requirements 54 Modbus 121 123 125 Mounting the Box 12 MSN 74 Multifunction Timer 97 Namur 25 Numeric Format 60 Offset 75 Passive Operating Mode 22 Passive Switching Contacts 21 Password 48 67 Paste 56 PCB 16 Peak Load 104 PIN 74 Power Calculator 99 Power Pack 10 Primary Readout 88 Priority 84 Program Attributes 56 Programs 81 Project 62 Range 45 Reed Contact 21 Relay 103 Restart 87 RS 232 26 RS 485 26 Save Program 5 7 Scenario Browser 58 Search 56 59 Secondary Readout 88 Shutdown 48 Smallest Resolution 52 SmartControl IP 65 9 SmartControl Standard 9 SMTP Server 68 Socket Module 27 Status 101 Status Input 22 Status Integral 102 Status Line 55 57 Storage 10 Synchronization 79 Synchronizing Input 21 Synchronizing Time 72 System monitoring 114 Tariff Data 23 Tariff Inputs 79 TCP IP Address 27 56 59 64 TCP IP Configuration 67 TCP IP Ziele 69 Temperature Inputs 20 Terminating Resistor 31 Timer Program 94 Toggle Tab Bar 55 59 Toolbar 56 Transformation Ratio 79 Transmission Time 46 Undo 56 Voltage Measurement 17 76 VPN 27 Wizard 57 W
100. oint is selected to this end in the now open Reference External IDs dialog box via the Data Points field The configuration software offers suitable data points of the same type in this field Addresses can be entered offline 130 GMC Messtechnik GmbH Attributes commands template Attributes Attributes External ID s Name Server E Uk z OF Type Temperature sensor i i a OK T EAEE OF Addess I Gene ress il OK l OF r Memory cycle gt r LED Fosition Acti sa DK W Active C Minutes See W Flash C Seconds CoCa r Display fe Value change 0 100 0 65 000 m 5 a G are eE ancel Start time 25 05 2007 00 00 00 perks eect il STEE 7 The OK button is once again enabled after all data points have been successfully allocated 8 All of the commands from the template are added to the open program and the new IDs are generated correspondingly in the current program sheet The following limitations for supported data types still apply to version 1 7 1 0 Mbus Data point addresses port primary secondary can be entered Mbus application no support Modbus Device Address can be entered up to function 4 as well as reference address as of 5 Status integral Address can be entered Peak load optim
101. ol button save the programs to flash memory by clicking the save programs to SmartControl button and break off the connection so that the SmartControl has an open line a GMC I Messtechnik GmbH 113 System Monitoring Command Type Attributes General Name Message 1 Max 18 char ID z Type System monitoring F Address Selection Unit 10 Memory cycle LD Position If Active fe eiiives is h i w Flash C Seconds cs M Display C Yale change 0 000 9 65 000 r AE 08 05 2008 00 00 00 ie Measuring cycle Seconds pi Movi Milliseconds 1 Rimage oO System monitoring command Protocol aA cy This command transmits a formatted system message to the destination which is entered under Address and pre configured in the Configuration tab for example an e mail address or a phone number for an SMS Save cycle The message is transmitted during the save cycle 114 GMC Messtechnik GmbH Field Command Type Prerequisites e Fieldbus module connected to the RS 485 bus Procedure Configuring the Modules Its best to configure the fieldbus modules with the software included 1 with them and an RS 485 to RS 232 converter Alternatively the SmartControl can be used as a converter In this case you ll need Name Command 1 special firmware and a free RS 232 i port at your PC as well as at the ID 3 Type Field SmartControl General Addr
102. ommand Date and time of the message Value real number Value of the operator lt gt Comparative value Value of another command XXX 3 place command ID Transmit the command to the SmartControl by clicking the test programs in SmartControl button and save the programs to flash memory by clicking the save programs to SmartControl button GMC Messtechnik GmbH 111 Message Threshold SMS Command Type Prerequisites e SmartControl with ISDN module and the recipient s service provider Telekom Arcor or DoKom or e SmartControl with GSM module and card with enabled SMS function e Analog modem upon request Procedure 1 Create a Message Threshold Rjiiientet command 2 Enter the number of the General destination telephone to which the SMS will be sent to the address field Activate the checkbox ID 10 Type Message treshhald command je Set the memory cycle Messages will be sent at this Address i Recipient_1 Unit NN interval if the respective condition is fulfilled 5 Set the measuring cycle The Ww Active ot f Minutes 15 pe aO condition is checked every xxx i W Flash C Seconds seconds In this way messages are also sent at Display O 65 000 intermediate times but never more frequently than once per Stark time 03 08 2007 00 00 00 Mame 5M5_Treshhold_ Max 18 char e UW blemon cycle LCD Position memory cycle Measuring cycle 6 Set the type
103. or faulty information Gossen Metrawatt reserves the right to implement technical improvements to the function and or the design of software and hardware products and to revise manuals at any time without notice The SmartControl may only be installed by trained authorized personnel In particular all VDE regulations as well as other connection regulations and stipulations must be complied with Electrostatic charging must be avoided For this reason avoid touching the PCB and provide for electrostatic discharging of personnel and tools before beginning work Do not install during a thunderstorm Correct polarity must be assured when making connections and ground terminals must be properly connected Do not supply power to any other devices directly from the mains power terminals Unused terminals may not be utilized for other connections The devices are not intended for use in explosion proof zones Make sure that all sources of electrical power have been disconnected before conducting work on the system s electrical section Please note that the system does not function during configuration i e the relays do not work No guarantee can be made regarding the achievement of specified accuracies The complexity of conditions which prevail depending upon local circumstances make it impossible to specify any general guarantee stipulations GMC Messtechnik GmbH 7 The SmartControl is not approved for use as a
104. or the generation of a mean value for the first controlled billing period Priority The priority determines as of which point in time this relay may be switched off during the billing period The billing period is broken down into 5 equal segments to this end or for gas into 12 Priority 1 means that the relay may be switched off immediately The following priorities are arranged according to time Priority 2 means that the relay may be switched off after the first segment of the billing period is concluded priority 3 after the second segment is concluded etc Example with electrical power 15 min 5 segments Priority 2 Switch device off no earlier than 3 minutes after the billing period has begun Example with gas 60 min 12 segments Priority 4 Switch device off no earlier than upon completion of the full hour The following must be observed A billing period other than 15 or 60 minutes may also be entered In this case however the priority function is disabled and mean value generation for the calculation of momentary power may react differently Enabling Any desired analog data point can be specified here If the value is greater than 0 5 or less than 0 5 peak load optimization is enabled for the respective relay It is advisable to use the calculator command type for this data point in order to define enabling logic However a relay can also be used for the logic A valid relay number for example 99 is then
105. orking Range 62 Zoom 5 7 139 Edited in Germany e Subject to change without notice e PDF version available on the Internet A GOSSEN METRAWATT Phone 49 911 8602 111 GMC I Messtechnik GmbH Fax 49 911 8602 777 S dwestpark 15 e mail info gossenmetrawatt com 90449 Nuremberg Germany www gossenmetrawatt com
106. ousing Housing Steel sheet metal approx 225 x 210 x 70 mm W x H x D Power consumption Approx 2 5 W Control keys Two function keys F1 and Reset in device Display LCD connection available as option Operating conditions 5 to 50 C no condensation SmartControl IP 65 Gossen Metrawatt s SmartControl is supplied in a control cabinet which fulfills the IP 65 standard A lockable control cabinet is available as an option but not with IP 65 protection Gossen Metrawatt s SmartControl see figure 5 consists of a single PCB system see figure 6 a power pack a circuit breaker and various attachable components In addition to this options e g M Bus can be secured to the integrated mounting rails or inserted into available slots on the PCB e g socket modules or memory expansions The housing is furnished with Pg connectors at the bottom 1 ea M25 4 ea M16 SC IP 65 Basic Device 12 or 24 V IP 65 Control Cabinet Variant Housing Steel sheet metal 380 x 380 x 210 mm W x H x D Weight Approx 10 kg Protection IP 65 when correctly mounted Power consumption Approx 2 5 W Power Supply 230 V Built in power pack Input 100 to 240V 50 60 Hz Output 24 V Additional 24 V power pack Optional e g for sensors Operating conditions 5 to 50 C no condensation Actual power consumption depends upon power pack efficiency as well as any other connected sensors and devices GMC I Messtechnik GmbH 9 Not suitab
107. pear in the dialog boxes 4 The setup program inserts appropriate menu items Start gt Programs gt Gossen Metrawatt 5 Start the SmartControl Manager GMC I Messtechnik GmbH 3 2 Overview The tasks which can be executed with the SmartControl Manager include configuration and programming of the SmartControl as well as acquisition and display of its measurement data 3 3 User I nterface In addition to the main window the user interface for the SmartControl Manager includes the following elements e Menu bar e Toolbar s e Main window e Message window e Status line e Scenario browser e Toggle tab bars of project_1 scm Smartcontrol Manager Time Die 41 21 30 33 Od G Workspace project_1 1 Projec Project_1 3 Building f Building_1 1 Device a Building_2 0 Device A Building_3 0 Device 41 3e 2b 303 31 2e 3 A gt 071 95 lt ILIRIA gt Re Network 4 OPC 5 Programming A analog gt F Messages REI Smartcontrol E disconnected 01 08 2007 16 32 26 K3 41 21 30 32 7 Od Various pull down menus are available in the menu bar depending upon the main window the active document or the drawing The Menu Bar File Edit View Programming Device Extra Help The menu bar includes the following functions File new open close save exit etc Edit cut copy paste View show and hide user interface elements colors etc Programming create and administer programs Device esta
108. propriate M Bus repeaters However we recommend limiting the size of M Bus networks to 250 devices per SmartControl interference management operating reliability etc In the case of very large networks several Gossen Metrawatt SmartControls can be installed and connected via network Primary addressing 1 250 as well as secondary addressing with address manufacturer medium and version is possible for individual M Bus devices Beyond this the baud rate can be separately configured for each terminal device The included PC software SmartControl Manager is used to find and adjust readout parameters see section entitled SmartControl Manager M Bus Further information is available at htto www gossenmetrawatt com and http www m bus com 36 GMC Messtechnik GmbH 2 11 2 Relay Outputs Further relay outputs in addition to relays K1 and K2 which are included on the PCBs can be implemented with the help of RS 485 fieldbus modules Refer to the section entitled Fieldbus Modules with regard to connection and programming The following applies to relays K1 and K2 as well as to RS 485 modules Before beginning any work disconnect the entire system from all sources of electrical power Electrostatic charging must be avoided Provide for electrostatic discharging of personnel and tools before beginning work 2 11 3 Compact Flash Card Gossen Metrawatt s SmartControl is equipped with internal flash memory
109. r clicking the Help button Example Humidity sensor with 4 to 20 mA current output for 10 to 100 humidity Offset and gradient are ascertained after clicking the Calculate button The calculated values can now be activated by clicking the Accept button GMC I Messtechnik GmbH 77 Meter digital Inputs Pulse status tariff and synchronizing signals can be adjusted Temperature sensors AMD cor verter Meher S aa o o eewce cnc oeeoe Input Factor Unit Meter reading Help 0 013699 kwh jo Enter meter reading 1Read Tariff Help fp kwh gt O00 Enter meter reading 2 Read Help lz kwh oO Enter meter reading 3Read Tariff Help i kwh gt oO Enter meter reading 4 Fead Help lz kwh gt jo Enter meter reading 5Read Tariff Help po kwh gt O00 Enter meter reading 6 Read Help 1 kwh jo Enter meter reading T Read C Synchron Help fi kwh jo Enter meter reading Read Accept Reset Programming Configuration 444 Calibration ES Table p Graphics ae Network variables A meter factor can be specified LE For example if a meter generates 1000 pulses per kWh the meter factor is 1 1000 0 001 A window appears which can be used to calculate the meter factor after clicking the Help button 78 GMC Messtechnik GmbH If the pulses originate from a transformer operated meter current we do not reco
110. rature 1 li Return 1 Ti ret ID 3 pat Address part Unit E rat Active No perl Flash Mo ret Display No Js Temperature Server 4AM Field 1 Commands M After clicking a window appears in which the program commands can be selected GMC I Messtechnik GmbH 99 The thermal capacity of the medium has to be entered After clicking Help an appropriate window appears Heat capacity power factor m Flow in 1 2 3 4 a 6 T 5 P The corresponding line can be selected depending upon the flow meter s unit of measure and the desired output unit of measure In addition to this latent energy quantities which are released or extracted at certain temperatures can be entered under Latent in the command s attributes window 100 GMC I Messtechnik GmbH Status Command Type Attributes General Name Status 1 Max 18 char ID 12 Type Status Lo Address i Channel Unit 10 l Memory cycle LCD Position W Active p Minutes a9 gg W Flash amp Seconds Display lt 0 65 000 Stark time 08 05 2008 00 00 00 Measuring cycle C0 Seconds Milliseconds ste dE Status commands Invert signal The status command polls the digital input specified in Address once per measuring cycle Changes of state are saved no more frequently than once per measuring cycle Saving always takes place once per storage cycle
111. rent conductors In addition to this if an input is used for 0 to 20 mA measurement the corresponding input must be set to current measurement with the help of SmartControl Manager software see details in the section entitled SmartControl Manager All temperature and analog inputs must be safeguarded with suppressor diodes against over and undervoltages which may occur for example in the event of distant lightening or due to electrostatic discharge as well as due to defective third party devices I deal overvoltage protection lightning protection can only be assured by means of lightning protection for the entire system laid out in accordance with applicable standards 18 GMC I Messtechnik GmbH Connection example voltage measurement at analog input O Jumper Setting Voltage source OtoldV l l Oto5V Measuring range adjustable OtolV with software Connection example current measurement at analog input 0 Jumper Setting Inserted Current source Oto 20 mA GMC Messtechnik GmbH 19 2 7 2 Temperature Inputs The 8 temperature inputs TO through T7 terminals 17 through 32 see item G in figure 6 and the wiring diagram are intended for direct operation of eight Pt1000 platinum temperature sensors with 2 wire connection Temperature Platinum 1000 Measuring rnge 0 to 170 C Accuracy Better than 0 5 C depending upon DIN class Calibration At the factory at 0 C and 100 C
112. responding limit values and alarm messages All values less than 0 5 and greater than 0 5 are not equal to 0 Relay Command Type Procedure Attributes The address specifies the relay outputs Addresses O or 1 are interpreted as an onboard relay address Mame Relay_1 Max 18 char All other addresses are interpreted Type Relay Ej as command IDs These are then executed immediately after a Relay 1 Unit 10 change of value 1 is entered under Address if intermediate results for subsequent W Active calculations are desired General Memory cycle LCD Position e Minutes 1 gj a if Flash C Seconds P With regard to the lower threshold l Display U 165 000 either a value can be entered or a channel can be entered as a Start time 03 08 2007 00 00 00 reference Measuring cycle icki f Seconds After clicking the button a rine oo B Pana window appears in which a channel Vegconas can be selected With regard to the upper threshold Relais commands as well either a value can be a entered or a channel can be lower treshhold W upper treshhald Hysteresis 0 entered as a reference f Valuef Reference Value Reference Command variable The measuring cycle for this Luxmeter command can be specified either in seconds or milliseconds If the 38 a3 2 vs measuring cycle is specified in milliseconds the relay reacts more quickly to status changes i Invert output ee Enter
113. ressor diodes for voltage peaks A D converter resolution Relay Nominal voltage 8 Temperature I nputs Measuring range Accuracy Calibration A D converter resolution Suppressor diodes for voltage peaks Connection option 8 Digital Inputs Passive reed contact load capacity Steel sheet metal 380 x 380 x 210 mm W x H x D Approx 10 kg IP 65 when correctly mounted lt 2 5 W 230 V Input 100 to 240V 50 60 Hz Output 12 or 24 V Optional e g for external 24 V devices 5 to 50 C no condensation x Actual power consumption depends upon power pack efficiency as well as any other connected sensors and devices e g for connecting measuring transducers pressure sensors humidity etc O to 1 V O to 5 V O to 10 V or 0 to 20 mA Voltage measurement 200 KQ Current measurement 249 Q Better than 0 02 V 0 005 V at 10 V Common ground no electrical isolation No connection to frame ground The SmartControl may be subjected to external voltage for this reason Max 1 Hz Yes 12 bit 2 normally open 1 A photo MOS 60 V Pt 1000 platinum temperature sensors with 2 wire connection 50 to 170 C Better than 0 5 C depending upon DIN class At the factory at 0 C and 100 C 0 05 C 12 bit Yes Suitable housings available for indoor use outdoor temperature and sensors for attachment to a pipe Either passive e g reed contacts or active pulse sources can be connected 12 mA typical inp
114. ry 5 years Black reference lines Kel H p m i r i i t ici l UE invcLt 5 i J fifa 1 os HRR 8 29 O08 8 0 E TTF on ar L a 5A B1 52 53 B4 155 Agr F RAIF on D oo o oo i u Lerig Hula ins volegr T a s HAANAAIA Fane ehur Mu ar ran BEH Jd bw H ae C JM EWE eluy 0 lady dell ia A o ie ba Ai Ome oa TaD Te h i wll ites gt HHT SOCEET Modem Analog ISON GSH BT PRG M BUS x3 Fee A A T TAT aA A A E N O ete LAA eee ae ee Err aN LEP Fh E Fee CT SNA TEE a a ap EI Re pO ted beso bet p HeRR Hpac F TA TA Te Te T T TATA T4 T4 TA TA TS TS T7 T7 mnn es CEE 2 Sdp 2 S2p sih a ti MMS S k e a o a E yw y a GMC I Messtechnik GmbH 2 22 SC S Basic Device Technical Data Compact Housing Housing Power consumption Mains power Control keys Display Operating conditions SC IP 65 Basic Device 12 or 24 V IP 65 Control Cabinet Variant Steel sheet metal approx 226 x 210 x 70 mm W x H x D lt 2 5 W 12 V via external power pack Two function keys F1 and reset in the housing LCD connection available as option 5 to 50 C no condensation Housing Weight Protection Power consumption Mains power Built in power pack 24 V power pack Operating conditions Inputs Max 8 Analog I nputs Measuring range Internal Resistance Accuracy Calibration Electrical Isolation Frequency Supp
115. s activated and is able to read in data and if flash is selected the data are saved to flash memory If display is selected a position within a range of 1 to 8 can be selected at the optional LCD Start time is the day hour minute and second on which the first value is acquired and serves as a reference time point for all subsequent cycles The measuring cycle entry specifies how many seconds elapse between sampling cycles Observe the following 0 Off 1 1 second 60 1 minute 3600 1 hour 86400 1 day 604800 1 week The memory cycle specifies the interval at which values are written to flash memory GMC I Messtechnik GmbH The measuring cycle For analog signals temperature sensor A D converter calculator etc Measurement is executed based upon the measuring cycle interval and an arithmetic mean value is generated from the values which occur during the measuring cycle time span This mean value is then continuously available for all other commands PC as well If the moving average function is also activated the arithmetic mean value from the previous cycle and its weighting is taken into account as well For all other types of commands the measuring cycle has a respectively specific Significance Peak load optimization measuring cycle evaluation switching cycle Status and status integral sampling interval of the status signal Meter the internal value is refreshed Timer program no significance Rela
116. sciey O 65 000 are also sent at intermediate times if the respective condition Start time 03 08 2007 00 00 00 l is fulfilled but never more Measuring cycle frequently than once per OaE memory cycle m 0 Moving average 7 Set the ID to the command to be compared If applicable use ies T z the multifunctional timer in order Tins t elre eant to receive immediate notification Yia E Mail ID Temp_Inside p 8 Deactivate standard format This is only required for special Type Notice I p greater as 27 computer based messaging Standard format functions Text field 9 Format the message Message fram H AM command l N device time ST val 10 Special placeholders are included below GMC I Messtechnik GmbH Enter the destination phone numbers in the Configuration which can be accessed after clicking E Mail Recipients Enter up to three recipient addresses Enter the server s IP number DNS name resolution has not been activated for Space reasons A user name and password can also be entered if this is required by your service provider Enter the return address This must be the same as the mailbox owner s address for some e mail service providers The individual placeholders included in the test field are as follows H M l N T V 0 S XXX Name of the SmartControl MAC address of the SmartControl Command ID Name of the c
117. shing a connecti example taken into consideration Transmission time with analog modem approx Average data transmission speed for example 7 kByte s Transmission time with ISDN approx Average data transmission speed for example 6 kByte s Transmission time with GSM approx Average data transmission speed for example 1 kByte s Transmission time with network connection approx Average data transmission speed for example 35 kByte s on and disconnection is not for 15 seconds 18 seconds 1 minute 45 seconds 3 seconds k Attention It may take 30 seconds or more for an analog modem to establish a connection Analog modems are capable of compressing data before transmission V42bis V9Obis thus allowing for higher transmission speeds than those achieved with for example ISDN With analog private branch extensions transmission speed typically drops to approximately 3 5 kByte s GMC I Messtechnik GmbH 2 15 Initial Start Up Make sure that all cables power supply data channels communication lines are connected After the circuit breaker is switched on the green DIAG LED see item in figure must blink after initialization In order to start data recording the SmartControl must be configured and the individual channels commands must be entered 2 16 Configuration The SmartControl is configured with SmartControl Manager software refer to section 3 SmartControl Manager regarding compre
118. ss of the device to be read out next to Parameter Ind 11 The following window appears after clicking the Value Configuration button Modbus of values configuration No Name Type Factor Temperature_ NO_TYFE 0 Data which are returned by the Modbus can be defined with the help of this dialog box Make an new entry for every value in the command to this end by clicking the button The values can have various lengths and different data types Values for example name and unit of measure can be changed by clicking the column within the line If several lines have been filled in you can move the values up or down with the buttons Data entered here are processed directly by the SmartControl interface so that the recorded Modbus data can be evaluated correctly with unit of measure and factor The Status field indicates whether or no the specified number of words in the command corresponds to the stipulated data definition The selected values can be checked by clicking the Test button In the SmartControl itself a virtual ID is created for each selected value Any value can be referenced in the field with this device internal ID and can be further processed for evaluations In order to write to the ModBus or switch relays please read the previous section regarding Control and Regulation with Fieldbus Modules GMC I Messtechnik GmbH SBus Command Type Prerequisites e Connectio
119. starting the SmartControl Observe the section entitled Shutting Down and Restarting the SmartControl in order to obtain recordings from the last 20 minutes which have been saved to RAM before restarting The SmartControl can be restarted by clicking the f button Depending upon the type of connection communication with the SmartControl is not possible for a given period of time thereafter approx 2 seconds with TCP IP approx one minute with GSM GMC Messtechnik GmbH 87 M Bus Command Type The M Bus Meter Bus is a new European Standard for remote reading of heatmeters and it is also usable for all other types of consumption meters as well as for various sensors and actuators source http www m bus com The SmartControl Manager can communicate with all devices which function in accordance with M Bus standard EN 1434 3 and which are connected to the M Bus serial interface at the SmartControl via a level converter Primary or secondary addressing can be used for the individual meters However the SmartControl Manager cannot configure various devices from the individual manufacturers This must be done by the manufacturer of the respective device or with the software intended for this purpose Procedure M Bus commands can be generated automatically in a file after clicking the Generate M Bus Commands function in the Extras menu Manual procedure for individual commands Select M Bus command typ
120. t Support DynamicDNS service As a rule DynDNS is available on the Internet free of charge Use of a VPN channel virtual private network must be made available via separate hardware 2 10 Socket Modules or socket modems optionally available not included in scope of delivery 2 10 1 Applicable to All Modules Before beginning any work disconnect the entire system from all sources of electrical power refer to section 2 16 Shutting Down and Restarting SmartControl to this end Electrostatic charging must be avoided Provide for electrostatic discharging of personnel and tools before beginning work An optionally available module can be plugged into the socket module slot see item in figure 6 An extra power pack and serial connector cable as required with external modems are unnecessary A combination connector socket for analog connections and ISDN are included on the Gossen Metkaavatt SmartControl see items 21 and 22 in figure 6 The antenna must be mounted at a suitable location for Bluetooth and GSM GPRS The operating voltage of the module is determined by jumper series J P3 Socket_PWR_ Supply see item 24 in figure 6 Koco uae Socket _Pur Supply 3 ld l Eme 5 The default setting is 3 3 V which is correct for operation with analog modems and ISDN modules Before inserting the module make sure that the right voltage has been selected GMC Messtechnik GmbH 27 with the jumpers for
121. t user program Is also saved to the compact flash card each time the SmartControl is started and each time reprogramming takes place This is required for Subsequent readout of the card at a PC GMC I Messtechnik GmbH 2 11 4 Saving Configurations and Programs to a Compact Flash Card As of firmware version 2 0 15 configurations and programs are saved automatically to the installed CF card Please note that these data must be available in their entirety from the CF card in order to successfully restore configuration data The configuration data are written to the CF card each time one of the following events occurs e Each time configuration data are written e Each time a program is started e Each time the system is started Use the following procedure to restore a backup to a new SmartControl If applicable create a backup of the programs and delete all data and programs from the new SmartControl Switch the device off and then back on again and make sure that no more commands are listed in the programs index card This is a prerequisite for a successful restore operation Insert the CF card with the backup Restart the device Data are restored automatically The SmartControl then executes a reset automatically which indicates that various settings have been read in which require a reset Check to make sure that the restore operation was successful Please not that the restore function only works as of firmware version 2 0
122. tely once every 15 minutes the SmartControl transfers recorded data from volatile RAM to non volatile flash memory Data stored in RAM which have not yet been written to flash memory are lost in the event of a restart A maintenance mode is provided as of firmware version 1 1 34 allowing for immediate Saving of data before a restart Press and hold the Fl key for 5 seconds to this end The blinking pattern at DIAG LED 17 changes The SmartControl can now be shut down or restarted by pressing the reset key If no further action is taken after pressing the F1 key the SmartControl resumes normal operation after 60 seconds Information regarding the current firmware version can be displayed in the SmartControl Manager by accessing Info in the Configuration tab Password Guest password TEPIP Router E Mail recipients TEP IP recipients J Phone recipients Status Time Modem Info ss eS e a a sacospopeor Device type Boo Firmware PW 2D26 00 blanufacturer Gossen Metrawatt GmbH Serial number SN 490721000561 Options MOAAMAMS Size of command list elle Eytes Size of compact flash card 0 000 KBytes eee 8g Programming E Configuration ae Calibration 2 18 Deleting the Password Press and hold the F1 key see item 13 in figure 6 Briefly press the reset key see item 14 in figure 6 Release the F1 key Wait until the DIAG LED goes out See item in figure 6 Press and hold the F1 key max
123. th 4 suitable 38 cm screws and anchors s aaa TEM depending upon substrate and material 2cm Box Mounting Hole Diameter Approx 8 2 mm Please check housing dimensions in the case of special variants GMC I Messtechnik GmbH 22553 Mounting the SmartControl Standard The housing has the following dimensions approx 225 x 210 x 70 mm W x H x D The 3 holes in the housing are used to mount the SmartControl Remove the 4 housing screws and lift off the housing cover in order to expose the mounting holes Top Housing Screw Top Housing Screw 11 3 cm 11 3 cm ey The box must be securely mounted with 3 suitable screws and anchors depending upon substrate and material Bottom Housing _ 22 6 cm gt Box Mounting Hole Diameter Approx 5 mm The top mounting hole is laid out as a slot and the thickness of the housing wall is approximately 1 mm The SmartControl Standard is shipped with 4 installed housing screws Only the two screws at the bottom need to be loosened for mounting because the opening in the housing top is only intended for the LED cable with version 1 x and for the fiber optic cable with version 2 x The top screws may not be loosened for this reason The housing top can be tipped up after removing the two bottom screws with the included tool stiff wire approx 25 cm long in order to work on the installed SmartControl Remove the bottom two screws and tip up the
124. the data Address i Unit kvar and once again an error test field Transmission speed transmission type ASCII RTU and Active Memory cycle LCD Position parity must be the same for all devices within a single Minutes jis e 1a bus network RTU is the only transmission type v Flash p CaCa supported by the SmartControl I Display WEE aa e aE Start time 06 08 2007 00 00 00 7 oy or Procedure Measuring cycle Seconds Create a ModBus command C Miliseconds jo I Moving average Select the unit of measure 1 2 3 Set the command to active Modbus tonn nd 4 Set the memory cycle meadi l Hysteresis D 0 64 00 5 Set the measuring cycle The field device is read out at the selected interval Function 003 Read Holding Registers 6 Dec Hex Decide whether you want to enter the Control ID l Dec Hex configuration in decimal or hexadecimal format 7 Enter the desired function read functions only in this case Enter the address of the device to be read out to the address field at bottom 8 Enter the baud rate and the parity which have been selected for the Modbus devices etic T 1 255 Baud 3600 Mo of words fa 1 129 Parity Even E Parameterind 0 65835 Value configuration GMC Messtechnik GmbH 121 122 9 Enter the number of values to be returned by the device next to No of words 10 Enter the register addre
125. the driver version e Enter the port number to the COM setting in the SmartControl Manager Make sure that the COM number if less than or equal to 16 It is not currently possible to enter higher port numbers GMC I Messtechnik GmbH Further instructions regarding Bluetooth 1 2 GMC Messtechnik GmbH The Bluetooth serial connection is now ready to communicate with the SmartControl You won t need to make any further settings in the future As a rule connection and disconnection are automatic when an application initializes the serial port Experience has shown that with some drivers the Bluetooth software assigns various COM ports Enter a password to the SmartControl Manager This increases security for the prevention of unauthorized data access and changes to the SmartControl configuration Although serial connections can still be established no other commands can then be executed in the SmartControl We supply class 1 Bluetooth modems and USB sticks only They have a range of at least 100 meters with unobstructed view Tip If you re using a mobile laptop with integrated Bluetooth adapter deactivate the adapter and use our class 1 USB sticks You ll avoid a great deal of frustration irritation and lost time Never operate the SmartControl without an antenna if a Bluetooth modem has been installed 33 2 10 5 GSM Modules See instructions included in section 2 10 1 as well IMPORTANT y For this re
126. the following character string separated by blanks to the Data field O1 7A XX Replace XX with the new primary address According to M Bus definitions you can use addresses 1 through 250 Please note that the address must be entered in hex format 01 through FA Attention Make sure that the same primary address is not assigned to any other devices Otherwise it won t be possible to address these devices with their primary addresses gt Clear cut documentation and identification of the meters with their primary addresses will help you to avoid faulty installation GMC Messtechnik GmbH 91 Calculator Command Type Attributes General Name Calculator 1 Max 18 char ID 30 Type Calculator E Address n Unit HN Memory cycle LCD Position Iv Active Minutes A g W Flash C Seconds M Display Value change 0 65 000 Start time 06 05 2008 00 00 00 Measuring cycle Seconds 0 Moving average C Milliseconds Z J g Function Type ValueHe Operator Reference 33 gt Greater than Value fe Rules regarding precedence of multiplication and division before addition and subtraction are not observed Enter numbers using the English numeric format i e decimal point instead of decimal comma Example 3 33 instead of 3 33 A new command line is created after clicking the button The operator of the first command line cannot be configured until the s
127. tive inlet and return temperatures TCP IP Static and or dynamic addressing NetBIOS ping Storage rules Cyclical dynamic or based on conditions Status signals Yes Pulses Yes 5 10 10 debouncing pulse duration pause Time server e mail SMS Three RS 232 one RS 485 one Ethernet 52 GMC Messtechnik GmbH RS 232 serial interface RS 232 serial interface FIELD 1 RS 232 serial interface FIELD 2 Ethernet interface RS 485 interface Socket Module Options Gossen Metrawatt analog modem module Gossen Metrawatt ISDN module Gossen Metrawatt GSM module Gossen Metrawatt Bluetooth module Protocol M Bus or uploading of firmware updates An M Bus level converter with RS 232 interface is required in order to read out M Bus compatible devices in accordance with EN1434 3 Up to 480 devices can be addressed baud rate can be set to 300 2400 or 9600 baud primary or secondary readout selection Prerequisite M Bus protocol EN1434 3 unlimited readout interval e g every 15 minutes devices preprogrammed at the factory with unique addresses Actuation of various fieldbus devices which are not equipped with an RS 485 interface e g 1 Wire Additional interface converters may be required to this end Fieldbus interface distances of up to 1 2 km connection of up to 250 additional Gossen Metrawatt SmartControls as well as ModBus compatible meters FIELD 1 and the RS 485 interface are parallel wired Simulta
128. ully configured 24 GMC I Messtechnik GmbH Connection example 2 Namur broken cable detection for devices with Namur output for passive pulse sources only no internal voltage A SmartControl digital input in this example 33 34 is set to the passive operating mode with the help of jumpers An analog input in this example 1 2 is set to the voltage measuring mode for 0 to 10 V with the help of jumpers A1 kQ resistor is installed at the SmartControl If a SmartControl with 12 V power pack is used a 0 47 KQ resistor must be installed Digital Inputs b ee a 1 kQ 0 47 kQ for 12 V power ne ee ee pack Pulse Generator e g Meter Analog Inputs 7 Mode of operation same as above See details regarding programming in the section entitled SmartControl Manager The alarm limit and the resistor values must be adapted to the system A SmartControl with 24 V power pack is recommended higher measuring voltage Limitations Long cables can only be used under certain circumstances with this circuit layout and must thus be carefully configured GMC Messtechnik GmbH 25 26 2 9 Interfaces The Gossen Metrawatt SmartControl is equipped with three serial interfaces an RS 485 interface and an Ethernet interface which are used as follows 2 9 1 RS 232 Serial Interface M Bus Protocol This interface see item 6 in figure 6 is intended for use with the M Bus protocol An M Bus level conv
129. us Depends for example upon M Bus device 60 bytes Memory range in days with interval of Readout Readout Readout Readout Readout every 5 every 10 every 15 every 30 every 60 minutes minutes minutes minutes minutes Range in days with 1993 kByte of onboard memory I nput terminals 1 48 a a S 2 meter signals 69 byte 188 1133 4 meter signals 138 byte 47 566 5 status 10 temperature and 10 meter signals 345 byte External data M Bus 3 M Bus meters with 60 bytes 3 M Bus meters with 60 bytes and 10 M Bus devices with 160 bytes 3 7 12 23 47 Example 10 M Bus meters with 60 bytes readout every 15 minutes corresponds to 4 x 24 96 readouts per day Data volume per day 10 x 60 bytes x 96 readouts per day 57600 bytes per day Memory range in days 2 040 832 bytes 57600 bytes per day 35 4 days GMC I Messtechnik GmbH 45 46 Transmission time depends upon e Transmission speed e The amount of data to be transmitted Example System with 5 status 10 temperature and 10 5 minutes meter signals data logging interval Amount of data to be transmitted with daily remote readout Data logged 288 times per day x bytes 108 000 bytes 108 000 bytes 1024 105 47 kByte Actual data transmission speeds depend upon the utilized connection and may deviate greatly depending upon the respective installation for which reason sample values are used for calculation Time required for establi
130. ut voltage 12 or 24 V GMC I Messtechnik GmbH 51 Active signals Electrical Isolation Edge slope Filter debouncing Pulse sequence Frequency Maximum cable length Storage of meter readings Maximum meter reading Smallest resolution Min 12 mA max 24 V Active operating mode electrically isolated Passive operating mode not electrically isolated Any Digital 5 ms Max 10 10 ms 0 1 Max 100 Hz 200 m Every 15 minutes 9999 9999 9999 99 0 0000 O1 Units M Bus protocol Inputs which can be setup as pulse 8 e g meter with pulse input inputs Inputs which can be setup as status 8 e g door contact inputs Inputs which can be setup as tariff 3 IS1 IS3 and 1S5 the respective upstream inputs ISO 1S2 1S4 inputs are counted Input which can be used as a 1 1S7 the clock is synchronized to the next quarter hour synchronizing input Optical pulse display LED on the PCB PCB CPU Internal memory 2 MByte flash ring buffer Maximum number of commands Approx 480 field M Bus timer calculations etc Watchdog Yes Real time clock Yes Ring buffer Yes Selective memory readout Yes time span Password protection Yes admin guest Mean value generation for data Yes reduction Calculations Yes Timer Yes time of week or day Heat load meter Cooling load meter Required for metering volumetric flow meter with pulse output for heating and cooling circuits as well as the respec
131. version 2 0 22 current time can be queried from the SmartControl via the RFC 868 protocol Use this option in order to execute simultaneous read out at different locations within a local network A possible scenario The respectively current billing period is ascertained at a central location by means of a synchronization pulse This may deviate from current local time Synchronized clock time is transmitted to the other SmartControls via time server In order to transmit clock time to the other SmartControls enter exactly one SNTP sever with the IP address of the master to the Time configuration page for the clients If you enter more than one server including perhaps one or more from the Internet the internal actually correct server might be rejected due to a deviating measurement period Important Be absolutely sure that clock times are not set from different sources This could result in measurement periods which are too long or short at the point in time of time correction Data are rendered useless in this case For this reason it s absolutely essential to deactivate time synchronization which usually runs automatically at the data management server when polling data Note Simultaneous Read Out of Data Points If you ve connected for example an MBus network with M Bus meters to a SmartControl this may influence the point in time of read out Depending on which ID has been assigned to the commands for saving
132. y evaluation switching cycle for the switching conditions Heat or cold calculator same as analog GMC Messtechnik GmbH 83 84 Priorities np Inside i Program attributes Mame Program 1 4s_Coun Priority Bo Fosition w All i Programs Program 1 5 Commands Temperature sensor 2 Commands as Coun AUD 4 0 converter 1 Commands ABus M Bus 2 Commands N Program 1 As of firmware version 1 4 12 it is possible to assign different priorities to various programs In this way important commands can be executed with preference This function can be accessed by clicking the program tab with the right hand mouse key in this case program 1 In particular control procedures in combination with slow fieldbus protocols e g M Bus can be optimized with this function Priority is determined for all commands on a program page How it works Priority O All commands are executed immediately and in order This is the standard procedure and is used as long as nothing to the contrary has been specified Priorities 1 through 5 All commands are executed immediately and in order in accordance with their priorities Programs with priority 1 are executed first Priorities 6 through 10 All commands are executed individually as long as no other commands with higher priorities are pending Programs with priority 6 are executed first GMC I Messtechnik GmbH Program Command Characterist
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