Landis+Gyr AMI Solution
Contents
1. Modulo 10 3 Modulo 43 Modulo 11 The OBIS code identifies the type of measurement e g energy consumption high tariff Assigns date and time to each meter reading D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 46 83 AIM Central System Each meter reading data is clearly assigned to all three cross references from its generation in the meter until its storage in the database Therefore it is always ensured that the correct metering unit is controlled on the base of these cross references Each concentrator is identified by its unique manufacturer serial number 5 8 System platform 5 8 1 Database Landis Gyr AG The A M central system is based on Oracle technologies for database and applications servers Application servers are running J2EE based application logic and user interfaces are based on Java and C The AIM central system employs an Oracle database for data storage All data such as measurement values status and event logs etc remain in the database until the system administrator deletes them explicitly AIM system is designed to for storing the data for years The storage capacity can easily be expanded by adding additional disk space to the database server D 000 027 080 aen Landis Gyr AMI Solution System Description AIM Central System 47 83 5 8 2 Operating system The operating system for communication processes Communication Servers is Windows Server2. This number is the link between the slave registers witha meter data and the consumer It is owned byimaximum of 32 he utility The value is was given by the Utility and posted at the installation point Usually the number is the link to the customer During installation this number must be set in the OCR Module using the Xemtec s PDA deployment tool This is a world wide unique identification register with a number given by the manufacturer that is maximum of 16 used to clearly identify every device characters The value is printed on the Slave face plate read write and set in the OCR Module during installation by using the Xemtec s PDA deployment tool Manufacturer This is a world wide unique identification number given by Xemtec Number OCR The value is set during manufacturing Module process of the OCR module and can t be 1 to 4 changed any more Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Electricity Metering Equipment 61 83 The Configuration ID shows the current register with a hard and software configuration of the maximum of 16 Slave device It is used to do the grouping in characters he data concentrator The value is set during installation of the M Bus Master and the Slave devices 7 4 4 Profiles Consumption values of the master meter or of the slave meters are stored in the master meter in generic profiles according to IEC 62056 62
3. CS 6 2 The Data Concentrator DC200 Landis Gyr AG This chapter describes the new DC200 intelligent concentrator for large scale meter reading and controlling DC200 is the product name for the Landis Gyr Data Concentrator It is developed in a hardware and software wise modular design so that it delivers maximum flexibility This modularity will make it possible to add new functions as well as new technologies and protocols to ensure best possible solution also in the future and therefore satisfy future market demands with a flexible approach The basic device functionality is to collect data from metering devices store collected data and process that data through AIM Message Max platform or through direct Ethernet connection to upper level applications Message Max platform is the Landis Gyr interface for GPRS connected DC s and meters using push technology to send the data to the AIM AMR system or directly to an external AMR system This new concentrator communicates with the AMR system using TCP IP in different media like GPRS or LAN The DC200 will provide all basic functions and supports fully all the existing PLAN based meters D 000 027 080 a en Landis Gyr AMI Solution System Description Data Concentrator 49 83 The concentrator acts as master of the underlying PLC network For that it supports e The fully automatic detection of newly installed meters and PLC communication units plug and play e The ful
4. 4 83 4 3 4 4 4 4 4 1 4 5 4 5 1 4 5 2 4 5 3 4 5 4 4 6 5 1 DZ 5 2 1 5 2 2 5 2 3 5 2 4 5 2 5 5 3 sal 5 4 1 5 5 5 5 1 5 9 2 5 5 3 5 6 5 7 5 7 1 5 7 2 5 7 3 5 8 5 8 1 5 8 2 6 6 1 6 2 6 2 1 6 2 2 6 2 3 Table of Contents 31 31 31 32 32 32 32 33 Data integrity AIM Central System General functionality Data acquisition General 33 34 34 35 35 35 36 37 39 39 Export metering data Command input Scheduling User definition access rights segments Meter register configuration Unique identification System platform Database 42 42 42 43 43 43 44 44 LL 44 44 45 46 46 Operating system Data Concentrator General 47 48 48 48 Landis Gyr AG 49 50 50 D 000 027 080 aen Landis Gyr AMI Solution System Description Table of Contents 6 2 4 6 2 5 6 2 6 7 7 1 7 1 1 7 2 21 1 3 Tod 1 3 2 7 3 3 7 3 4 7 3 5 7 4 1 4 1 7 4 2 7 4 3 7 4 4 7 4 5 7 4 6 7 4 1 7 4 8 7 4 9 7 4 10 7 4 11 7 4 12 7 5 1 5 1 7 0 2 Vig 7 5 4 pore 7 6 7 6 1 7 6 2 7 6 3 8 Concentrator architecture PLC architecture Maximum demand fuse supervision for master meter only Firmware download i Interfaces 22 Switching part of the LV network to a different transformer Specific features of the GPRS GSM communication module GPRS GSM communication status indicators Power outages on the GSM GPRS module Keeping system time synchronise
5. Landis Gyr AMI Solution System Description Landis Gyr AG 72 83 Gas Metering Equipment 8 Gas Metering Equipment The Landis Gyr E6V gas meters are designed for household gas metering where an internal gas shut off valve and communication port is required The new LIBRA family for smart metering purpose consists of new single pipe casework and 250mm casework meters for the European gas market These meters can be enhanced with different modules for communication prepayment and the meter viewing index They are based upon the proven E6V meter technology and provide a stable and accurate metering platform 8 1 Single Pipe Casework The LIBRA Single Pipe meter is connected to the gas pipes by the DIN3376 2 standard DN25 connection The LIBRA Single Pipe meter module provides Smart metering functionality When fitted to a meter the module will account for gas consumption on a block tariff provide detailed information via its flexible LCD display and provide communication to a suitable M Bus wireless module The LIBRA Single Pipe meter provides advance metering information that can enable the analysis of energy usage patterns equivalent carbon loading provide control of the installation is designed to satisfy AMM AMR requirements Figure 18 Single pipe casework Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Gas Metering Equipment 73 83 Specifications for the Single pipe c
6. OBIS codes For transmission the standardised data structures are A XDR encoded according to IEC 61334 6 There are no proprietary rights involved in the described Landis Gyr PLC solution i e all procedures and protocols conform to published IEC standards and can therefore be provided by any manufacturer Network management Registration process according to IEC 61334 511 512 The concentrator periodically issues a discover report request service e g every hour configurable If the meter node is in the status new upon receiving the discover report request service it transmits its serial number to the concentrator and obtains a network address Collision on the reporting back process is avoided by randomly choosing a time slot for transmission The number of available time slots for the registration process is dynamically assigned by the concentrator and optimised according to the channel conditions A compressed 3 layer communication architecture according to IEC 61334 4 1 is used for PLC communication Application layer IEC 61334 4 41 DLMS is used in the application layer Short name addressing is used for efficiency reasons The supported data services are e ReadRequest e ReadResponse e WriteRequest e WriteResponse e UnconfirmedWriteRequest LLC sub layer IEC 61334 4 32 A very compact Logical Link Control layer which provides addressing capabilities within the physical metering device Differen
7. RF Communications 868 0 to 870 0 Mhz nominal range 30 metres RF Approvals Meets requirements of R amp TTE directive Metrology Approvals Weight Approximately 2 5Kg Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Gas Metering Equipment 75 83 8 3 Gas Smart Modules With this modular approach both gas meters are very flexible and deliver the following functionality e Future proof through the modular approach Add modules as you go Field changeable Smart metering enabled Advanced functionality temperature compensation capability e Supports Added Value functionality Prepayment AMM 2 way communications e Type of modules MBus wireless 868MHz MBus wired D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 76 83 Inhome Display Unit IHU ecoMeter 9 Inhome Display Unit IHU ecoMeter The In home Display Unit shows usage and supplier information to the customer Data is transferred from the electricity meter at a resolution and frequency to provide virtually instantaneous usage information to the customer Features of the IHU include Display of Electricity kW demand Display of Cost per hour etc for electricity Display of greenhouse gas emissions based on the electricity consumption Graphical information of usage over various periods Messaging from supplier Demand indicators green amber red Display of
8. The value is set in the meter during rom Z F max 24 manufacturing process according to the characters data given by the utility Copy from ZxF read only The differences in the voltage levels are due to the fact that the meter and the communication unit have different power supplies Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Electricity Metering Equipment This is a world wide unique identification register with a number given by the manufacturer that is maximum of 16 used to clearly identify every device in a characters dims system The value is set during manufacturing process of the meter and can t be changed any more All Landis Gyr devices contain LGZ and the 8 digit serial number All Landis Gyr devices contain LGZ and the 8 digit serial number LGZnnnnnnnn The value is set during manufacturing process of the module and can t be changed any more The firmware ID identifies the software ersion of the Landis Gyr ZxF meter Mxx The value is a read only part of the irmware code The value is taken from the identification String of the meter and updated after every communication with the meter The firmware ID identifies the software ersion of the module Txx read only register with a size of 3 characters read only register with a size of 3 characters read only 59 83 0 0 42 0 0 Cosem Logical Device Name Short Name base name
9. and transmitted to the Central System Meter node registers at next discover request from concentrator With the registration the meter is synchronised by the concentrator The concentrator adds the meter into the list of new meters and makes this list available to the Central System The Central System compares the new configuration with its DB and checks its validity The power down up is registered in the event log and transmitted to the Central System Meter node registers at next discover request from concentrator With the registration the meter is synchronised by the concentrator The concentrator adds the meter in the list of new meters and makes this list available to the Central System The Central System compares the new configuration with its DB and checks its validity The power down up is registered in the event log and transmitted to the Central System Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Electricity Metering Equipment 69 83 7 5 3 Keeping system time synchronised for PLC module The Central System keeps the system time GPS e Central System gt concentrator The clock in the concentrator is synchronised with every communication at least once a month e Concentrator gt meter node whenever the concentrator is synchronised from the Central System it broadcasts the time to all meter nodes synchronising their
10. automatically force the meter to status NEW and therefore lead to a new reading of the USN and to an update of the link between USN and MAC address e The concentrator keeps a separate data storage for each meter identified by MAC address or by the USN Remark A standardised EAN code or a utility specific number can be used as USN 3 3 Install new GPRS meter Landis Gyr AG During the installation process all necessary information such as IP ad dresses telephone numbers identifications etc is imported either from factory files or from the installation system WOM to the central system Meter data objects are created automatically in the database and are now ready for communication Two possible configurations are supported for GPRS communication Direct access with fixed IP address default case Typically the GPRS service provider offers direct static access via fixed IP addresses for each meter The IP addresses are programmed onto the SIM card The SIM card is mounted during the production process of the meter D 000 027 080 aen Landis Gyr AMI Solution System Description Key Processes 21 83 therefore a fixed link between the serial number of the meter and its IP address is established during production No direct access available optional case The telecom provider can only offer dynamic IP addresses In this case L G provides a GRPS router software The meter automatically connects to the GPRS rou
11. clocks e Concentrator gt meter node after a power up of the concentrator it broadcasts the time to all meter nodes synchronising their clocks e Concentrator gt meter node the concentrator periodically typically once an hour broadcasts the time to all meter nodes synchronising their clocks e Meter node upon receiving the time from the concentrator the meter corrects the time information considering the number of repetitions that were used to reach the meter and sets the clock accordingly If the time deviation is larger than sync_limit configurable an entry into the event log is created In the profiles the time change flag is set for the current registration period If the time deviation is smaller than sync_limit configurable nothing is registered However multiple small time shifts are not accepted 7 5 4 Isolate part of the LV network for repair Grid work is normally done by isolating a section of the network from the feeding transformer and then after completion of the work reconnecting it If the disconnection lasts for less than 6 hours configurable then the system continues to work normally If the disconnection lasts for more than 6 hours then the metering nodes go to status new and will after the re connection be rediscovered and re registered Then the system continues its normal operation 7 5 5 Switching part of the LV network to a different transformer lf part
12. contract tariff contract between the energy provider and the customer the energy is priced differently over different time intervals e g day tariff night tariff For that purpose the consumption is measured in different registers tariff registers The communication unit contains a tariff switching table schedule which activates the different tariff registers according to the tariff contract See above Typically rated registers which are captured and stored daily at midnight in the daily values profile Typically un rated register values captured and stored periodically in the energy values profile Time interval for the periodic capturing of registers into the profiles see above D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 10 83 General 1 4 List of abbreviations AMR Automatic Meter Reading AMM Advanced Meter Management CS Central Station Central System CS Current Loop interface DA Data Acquisition DC Data Concentrator DLMS Distribution Line Message Specification DP Data Processing DST Daylight savings time summer time EN Energy FW Firmware GPRS GSM Wireless technologies to transfer data voice information GPS Global Positioning System satellite based GUI Graphical User Interface IHU Inhome Display Unit MM MessageMax Module MV Medium Voltage in EU typically 3x 20kV 3x 12 KV LV Low Voltage in EU typically 3x230 V L G Landis Gyr Ltd PDA
13. e Status data e Events e Delivery quality e Outage statistic e Data validation e Data integrity e Data correction e Time and status e Estimation e Tariff calculation amp Mgt e Profile calculation and aggregation e Missing value handling with re reading e Data exchange e Alarm Handling e Scheduling with Task Flow concept e Basic Configuration Based on this platform a number of functions were specifically implemented for the handling of devices and measurements in residential metering and are discussed in more detail in the following section The graphical user interface GUI enables the operator of the system to display edit and manage all relevant functions and definitions within the system Powerful search filters can be used to directly access groups or individual data objects in order to display metering values present and modify object properties parameters etc The administrator can define automatic tasks and schedules according to needs of the daily operation Spontaneous tasks functions and actions can be executed manually or as a background job D 000 027 080 aen Landis Gyr AMI Solution System Description AIM Central System 35 83 Multi user system The system is built as a multi user system Each user must log on with his username and password Every user is assigned to a user group Privileges to access data and functions can be defined for such user groups Typical privileges are functions like view creat
14. installation work and tracking incidents and problems The WOM system may not only used during the installation but also during operation In this phase the WOM is the tool that executes all types of field services needed for the installed devices e g manual connect disconnect readout and the tool for the change installation and removal of meters All work orders for installation or field service are downloaded from the WOM system to the installers Pocket PC PDA A standard PDA is used for the deployment support and service work The PDA is equipped with all necessary interfaces and tools such as optical head for local readout bar code reader etc as well as with GPRS modem for the connection to WOM During installation and field service all device specific information e g device type serial numbers fuse size antenna type etc as well as site information such as coordinates addresses containment type etc are managed registered with the PDA and reported to the WOM Required software package for Windows Pocket PC based PDA devices is part of AIM Site Manager application Both during the rollout phase and the operation phase there is typically a centralized interface in operation between the utility systems and AIM central system The interface provides the requested services for the download and upload of device information contract information readout requests service requests etc AIM has integration platform AIMI
15. interface to the central system for data exchange e provide transparent access from the central system to a single meter The communication between data concentrator and central system is based on TCP IP communication All meters adaptors are equipped with Power Line Carrier PLC modules or with GSM GPRS modules that provide the communication interface to the central system either via concentrator for PLC or directly for GSM GPRS communication D 000 027 080 aen Landis Gyr AMI Solution System Description Introduction to the system solution 15 83 11 PLAN PLC 12 Multi Energy The main functions of the master meters are e Periodically register the consumption values for electricity and store these values into profiles e Register power outages for electricity e Register status and alarm information for electricity e Provide downloadable tables for tariff switching e Provide a disconnector which enables remote or local disconnection and reconnection of the customer premises The registration of the measurement values electricity into profiles is fully scheduled by the meter The meter provides local storage for the profiles in the non volatile memory PLC communication between the meter PLC module and the data concentrator is based on the standard protocols IEC61334 series GSM GPRS communication IEC 62056 series is used as an alternative solution when PLC is not efficient technically economic
16. kind of data provision daily readout of the meters and data storage in the data base is preferred Such daily readout scenario allows for example easy provision of billing values upon request in irregular cases such as change of supplier moving customers etc upon request 3 5 2 Periodic readout of periodic consumption values The meter node registers periodic consumption values and stores them locally in the meter for a predefined period of time e g 90 days Local storage depth depends on the register interval which can be defined as 60 30 15 minutes The consumption values are stored in the meter node autonomously and time stamped at zero second of the interval Daylight saving times are indicated in the time stamps In case of PLC meters the periodic consumption values are collected by the DC during the whole day and typically ready to be transferred to the central system on daily interval Readout scenarios can be handled the same way as for billing values 3 5 3 Periodic readout of event logs The meter node registers meter specific events events reflecting the quality of the power supply see chapter 3 6 and events for switches of the disconnector see chapter 3 7 For PLC meters connected to the DC the central system downloads a periodic task to the concentrators to collect all event log entries from assigned meters and to store them locally Events can be transferred by the DC at the same time as measurement values or a
17. metering needs are covered by three data entities measured in the meter D 000 027 080 aen Landis Gyr AMI Solution System Description Key Processes 23 83 For Electricity master meter e Daily Billing Values consisting typically of the rated register values captured at midnight each day The daily billing values are stored in data structures called profiles see chapter 7 4 4 e Periodic Consumption Values consisting typically of the un rated register values captured at periodic intervals 60 min 30 min 15 min capturing period The capturing time instances are synchronised to the full hour half hour or quarter hour depending on the capturing period The periodic consumption values are stored in data structures called profiles see chapter 7 4 4 e Events are logged in a data structure called event log The event logs are typically used to supervise the status of the meters the status of disconnector if used and the status of the electricity distribution network power down restoration over under voltages e Monthly Billing Values consisting typically of the rated register values captured at midnight of the last day of the month The Monthly Billing Values serve as emergency backup they are not regularly readout the monthly billing value is included in the daily values The monthly billing values are stored in data structures called profiles see chapter 7 4 4 For slave meters e g gas e Period
18. not foreseen Landis Gyr provide electronic meters for gas heat and water that are able to connect to the master meter over an RF module through a M Bus RF converter This M Bus RF converter is wired on the master meter side to the M Bus The readout of these meters is performed periodically by the E meters E meter acts as master The E meter stores the consumption data of the slave meters and makes it available for the CS via PLC or GPRS GSM Direct access from the CS to the slave meters is not foreseen The ecoMeter is a comprehensive display of consumption data for the energy consumer The electricity master meter communicates via radio with the ecoMeter The master meter permanently transmits the current consumption values to the ecoMeter D 000 027 080 aen Landis Gyr AMI Solution System Description Introduction to the system solution 16 Mechanical Meters 2 3 Summary of all solution components D 000 027 080 aen Landis Gyr AMI Solution System Description 17 83 Slave Meters with mechanical registers e g existing gas meters are integrated into the system via an OCR optical character recognition device using the M bus protocol wired or on a radio channel 868 MHz The readout of these meters is performed periodically by the E meters E meter acts as master The E meter stores the consumption data of the slave meters and makes it available for the CS via PLC or GPRS GSM Direct access from the CS t
19. of communication and meter nodes e Search for nodes with different criteria such as gaps failed specific status Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description AIM Central System 37 83 5 2 4 Manual acquisition Call centre mode Maintenance mode D 000 027 080 aen Landis Gyr AMI Solution System Description The central system software allows direct interactive connection to a single meter node or to the data concentrator Two different modes are available This mode is used by the operator to quickly display the measurements of a meter node and optionally to actualize periodic meter data or sponta neously acquire the current register values of the device This mode also allows controlling of relays and power quality information viewing Se ee ee a sat AIM Desibeard LO metem Feet i BLLELA t os Sete eee tee Seo bogs teereece Ie ed o vtte t es er HD Vie SES DE oem eot portis intse be s he m 7 i phd ALAL rent I wet tepare tta tesen ge 22222 ne te LE e em e p Beteg at la 4 l apars p roses re rt ats Mes Wee eed poe Mite A Gee tmesgy tk eh ET any L W j d 1 AR jl he A i gt te s L 4 i a Figure 6 Call Centre mode AIM Dashboard Application In the Call Centre mode the operator selects a specific meter and the software retrieves the current measurements stored in the data bas
20. of the network is switched to another transformer the following procedure Is initiated After 6 hours the meters affected by this switching will detect that they can no longer communicate with their concentrator Therefore they change their status to new and wait for a new concentrator to detect them The new concentrator periodically issues a discover request service to detect new meter nodes The new meters declare themselves and are registered by the new concentrator In the old concentrator the transferred meters appear in the lost meters list In the new concentrator the transferred meters appear in the new meters list These lists are made available to the Central System The Central System then updates its DB with the communication paths of the meters The operator is informed of this process See also Chapter 3 2 D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 70 83 Electricity Metering Equipment 7 6 Specific features of the GPRS GSM communication module In addition to the functionality described in 7 4 the GPRS GSM module supports GPRS GSM communication 7 6 1 GPRS GSM communication status indicators The AD xG module features 6 LED s to visualise the GSM and GPRS communication state Transmit data Receive data a GPRS operating mode GSM green GSM operating mode Receive signal level field strength Internal operating mode of GSM GPRS module SYNC Pi
21. registers and 1 total energy register for up to 4 slaves e Values are captured at the first day of the month at 00 00 NB the monthly billing values are not regularly read out It serves fro emergency purposes only For the regular readouts the daily profiles or hourly profiles for the slaves are used For each slave meter up to 4 the following profile is available The periodic consumption values profile e Consists of 240 rows e Each row contains 1 register e Values are captured with a period of 1 hour if hourly profiles are available in the slave the profiles are fetched by the master once a day for battery saving reasons or 1 day 7 4 5 Switching table for master meter only The switching table is structured according to IEC62056 62 Activity calendar In particular it consists of up to e 4seasons week tables e 8 days tables with up to 4 switching points per day e 50 special days The switching table can control the tariff registers in the meter and the control output The switching tables are stored and processed in the communication module 7 4 6 Event logs for master meter only Landis Gyr AG The communication unit provides two event logs e Standard Event Log with up to 200 entries Containing general meter events e g clock adjusted daylight saving enabled firmware updated error events and events related to the quality of supply comp 7 4 7 The registration of power qual
22. the meter node in the daily hourly profiles and in its event log The event logs are reported to the Central System If the clock status is desynchronised the daily values profile and the hourly values profile between power up and synchronisation time will be marked The tariff is set to LT until time is re synchronised The table below summarises the processes which will be automatically triggered to handle power down resume events with the GSM GPRS module T lt 7 days synchronised No action for the meter node required The power down up is registered in the event log and transmitted to the Central System T gt 7 days De synchronised The meter node is synchronised by the Central System with the next communication typically once a day 7 6 3 Keeping system time synchronised for GSM GPRS module The Central System keeps the system time GPS e Central System gt Meter node The clock in the meter node is synchronised with every communication at least once a week e Meter node upon receiving the time from the Central System the meter sets the clock accordingly If the time deviation is larger than sync_limit configurable an entry into the event log is created In the Profiles the time change flag is set for the current registration period If the time deviation is smaller than sync_limit configurable nothing is registered However multiple small time shifts are not accepted D 000 027 080 aen
23. time and room temperature The currency displayed by the IHU is Euro the language is English Figure 20 Inhome Display Unit ecoMeter Landis Gyr AG D 000 027 080 aen Landis Gyr AMI Solution System Description Inhome Display Unit IHU ecoMeter 77 83 9 1 Consumption indicators The ecoMeter is equipped with 3 consumption indicators Normal consumption i e the current consumption over the last 15 sec is below threshold 1 High consumption i e the current consumption over the last 15 sec is exceeding threshold 1 but below threshold 2 Very High consumption i e the current consumption over the last 15 sec is exceeding threshold 2 Thresholds 1 and 2 can be set via the electricity meter 9 2 Default screens for electricity only ee Of 006 Remarks screen 1 2 e This screen is updated every 15 secs e Cost per hour in either hr of Pence representing cents hour e Bar graph each bar representing on min of energy use over the last hour D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 78 83 9 3 Cost screens Inhome Display Unit IHU ecoMeter F n amp Vee Er peers Fossrg Ema r Preis ow a ate 1 RUE is Fr Le epee Peetro Total Restos a Je G UOJ 23e DHL TE os Lest 7 Cum 287 cour Lest 29 Oe 1629 i EUR LUS
24. to section 2 11 Interoperability The AIM architecture is based on international standards Third party meters conforming to following specifications can be integrated without too extensive integration work On central system level e Meter connected via a public telecom network or internet and confor ming to DLMS COSEM and HDLC IEC 62056 46 53 61 61 Short name addressing as well as logical name addressing is supported e Meter connected via a public telecom network or internet and conform ing to IEC 1107 IEC 62056 21 On meter node level e PLC meter node optional extension Meters connected via CS bus and conforming to IEC 1107 IEC 62056 21 and using the OBIS identifiers IEC 62056 61 The meters must be configured considering the limited data transport capabilities of the PLC network D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 30 83 Communication e GPRS GSM meter node optional extension For meters connected via CS bus and conforming to DLMS COSEM and HDLC IEC 62056 46 53 61 61 transparent communication to the central system is provided 4 3 Applied communication standards 4 3 1 Common data models 4 3 2 PLC Landis Gyr AG Data is modelled independently of the communication channel and of the communication protocols Data models IEC 62056 61 62 All metering data objects conform to the COSEM standard Data objects are identified by their
25. to the location of the installation The link to customer data is only made in the utility system or in the Central System 4 5 2 Central System level Multi user access on different security levels is possible Additionally remote access can be protected by VPN tunnelling 4 5 3 Concentrator level Typically the connection between the CS and the concentrator uses VPN via GPRS In addition access to the concentrator is secured via a password Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Communication 33 83 4 5 4 Meter level 4 5 4 1 Security AIM uses the security mechanisms provided by DLMS COSEM and described in IEC 62056 62 53 46 in particular e The application association concept providing the possibility to define access rights for each user group on attribute level read access write access no access e Client identification with each link layer frame LLC for PLC HDLC for GPRS GSM 4 5 4 2 Extended security For the firmware download to the communication unit additional security by means of a keyed hash message authentication code K MAC is provided SHA 1 is used as hash algorithm See FIPS 180 1 FIPS 198 4 6 Data integrity On data level The COSEM data models define the structure of the data Modifications on the data would lead to inconsistencies with the standardised models and are detected by the Data Acquisition system On application level The DL
26. user The data described below is presented remotely via a communication channel or locally via the M bus interface The data structures and the encoding follow the rules of IEC 62056 62 and are independent of the communication channel used The corresponding data object presentation is provided by the communication modules based on data read out of the meter via an internal IEC1107 interface The communication module periodically reads out the meter every 60 seconds 7 4 1 Metering registers The communication modules provide access to metering objects according to IEC 62056 62 The following energy registers correspond to those of the ZMF meter 1 0 1 8 0 Active Energy Import A 1 0 2 8 0 Active Energy Export A 1 0 15 8 0 Combined Total AL1 AL2 AL3 And the following rated registers correspond to those of the ZMF meter 1 0 1 8 1 Active Energy Import A rate 1 1 0 1 8 2 Active Energy Import A rate 2 1 0 2 8 1 Active Energy Export A rate 1 1 0 2 8 2 Active Energy Export A rate 2 All registers contain cumulative values in Wh with a resolution of 9 digits no decimal places D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 58 83 Electricity Metering Equipment 7 4 2 Power quality registers The following registers support the supervision of the power quality Total power failure counter copy from ZMF counts the sum of all 3 phase power failures of
27. 0 aen Landis Gyr AMI Solution System Description Landis Gyr AG 66 83 Electricity Metering Equipment e For GSM GPRS module only configurable upon ordering alert input or SO input ZxF 100 non d s Pua DCR mo mM hej K Manar d gt Figure 17 Connecting slave meters to the master meter 7 4 11 Error status A red LED named ERR is used to indicate the following error states off No error lon Fatal error in the module flashing 1 Hz Critical error in the module In case of a fatal error all others LED s have no meaning to the user and must be ignored 7 4 12 Disconnector status indicator A yellow LED named Relay off is used to indicate the current state of the disconnector output i e if the premises are connected or disconnected flashing fast Premises connected 2 Hz Relay off flashing slowly 0 5 Premises disconnected Hz Defective LED status unknown Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Electricity Metering Equipment 67 83 7 5 Specific features of the PLC communication module In addition to the functionality described in 7 4 the PLC module supports PLC communication and fully automatic installation plug amp play 7 5 1 PLC communication status indicators The AD xP module features 4 LED s to visualise the PLC communication state i PLC operating mode 50 Hz synchronisation The various operating state
28. 2003 Database and Application servers for data management applications can be run on operating systems supported by Oracle Dedicated servers are used for database data acquisition data processing and user interface services Standard Windows PCs can be used for operators of the system All definitions and data are stored in an Oracle database Oracle Real Application Cluster RAC technology is available for guarantying high availability and scalability af AIM Web User G D Service Person PDA 1 Q Information Services AIMIA Metering Data Services Value Added Services S Site Manager Service Person PDAN AIM Ware S AIM AMR 1 AIM AMR N Communication Communication System NN Server Server _ Figure 8 System Configuration D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 48 83 Data Concentrator 6 Data Concentrator 6 1 General The concentrator is typically installed in the MV LV substation transformer Station It could also be mounted anywhere in the LV network i e at the customers premises together with the meter Figure 9 Data Concentrator DC200 By default GPRS is used to communicate with the Central System Alternative media direct Internet connection via Ethernet The concentrator is equipped with an Ethernet controller and a RJ45 socket The Software of the concentrator can be downloaded remotely from the
29. A see separate document AIM 3 0 AIMIA_ProductDescription_v230_EN pof for further information which offers wide range of services for integrating external systems for 2 way operation with A M AIMIA interfaces can be used through WEB services XML files and or CSV files Communication between data concentrator and central system The central system CS communicates with a large number of data concentrators DC using different channels and technologies The communication between CS and DC is based on public telecom network via GPRS or Wide Area Network via Ethernet The use of naturally D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 14 83 8 GPRS provider 9 Data Concentrator 10 E Meters Landis Gyr AG Introduction to the system solution TCP IP based technologies like LAN or GPRS is recommended because in residential full roll out AMM environments the amount of GPRS connections easily grows to substantial numbers The CS supports easy integration of future communication technologies Point to Point communication between meter and central system GSM GPRS communication is used as an alternative solution when PLC is not efficient due to technical or economic reasons Also for direct point to point communication with meters the GPRS communication is heavily recommended for environments with large number of metering points For the communication between the central sy
30. Advanced Metering Infrastructure Residential Landis Gyr Manage energy better Advanced Metering Infrastructure Landis Gyr AMI Solution System Description Date 20 02 2008 New Functionality Multi Energy Support 2008 Landis Gyr AG D 000 027 080 aen 2 83 Revision history Revision history Index Date Comments a 20 02 2008 First Edition Copyright 2005 2008 Landis Gyr All rights reserved Subject to change without notice Landis Gyr AG Feldstrasse 1 CH 6301 Zug Switzerland Phone 41 41 935 6000 www landisgyr com Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Table of Contents Table of Contents 1 1 1 2 1 3 1 4 2 1 2 2 2 3 Jid 3 2 3 2 1 3 3 3 4 eel 3 4 2 3 5 3 5 1 3 5 2 3 5 3 3 5 4 3 6 3 7 3 8 3 8 1 3 8 2 4 1 4 1 1 4 2 4 3 4 3 1 4 3 2 4 3 3 General Introduction to the system solution Solution overview Summary of all solution components Key Processes Installation of New Concentrator Installation of new PLC meter Install new slave meters connected via the OCR module OCR module connected to wired M bus OCR module connected via radio Collection of meter data Periodic readout of event logs Instantaneous meter reading Download of load switching time Communication Communication architecture Use of PLC D 000 027 080 a en Landis Gyr AMI Solution System Description 3 83 Landis Gyr
31. MS pdus are encoded using A XDR encoding a compact form of BER The encoding of the data block contains the encoding of the data type Modifications of the data would lead to inconsistencies between type and data and are detected by the Data Acquisition system On PLC communication level The MAC layer protocol contains a Cyclic Redundancy Check Code CRC of 24 bits Considering the fact that the code guarantees a minimal Hamming distance of 6 and that the MAC layer frames can have a maximum length of 242 data Bytes the probability of undetected errors is kept at a minimum The robustness of the Spread Frequency Shift Keying modulation provides addition protection against communication errors On GPRS communication level The HDLC layer protocol is equipped with a 16 bit CRC Together with the 16 bits of CRC in the IP layer the probability of undetected errors is kept at a minimum Further the GPRS channel is protected with error control mechanisms by the GPRS provider D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 34 83 AIM Central System 5 AIM Central System 5 1 General functionality Graphical User Interface Landis Gyr AG The A M central system has the following general functions e Data acquisition for following set of data incl similar data from multi energy meters i e gas water district heating e Meter values e Monthly values e Daily values e Profile data
32. OxFDOO 0 1 C 1 9 Device ID 10 1 0 0 2 0 Configuration program version number 1 1 0 2 0 Configuration program version Configuration ID The Configuration ID shows the current hard and software configuration of the device It is used by external tools e g MAP to adapt the functionality of the ool to the functionality of the device register with a maximum of 16 characters The value is set during manufacturing process of the module and can t be changed any more read only D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 60 83 Electricity Metering Equipment register with a 1 0 0 2 1 representing a specific consumer maximum of 3 contract Devices with the same characters in the parameterisation ID belong to consumerstrange of 0 to 255 ith the same contract Parameter record number The value is set during the parameterisation of the device In case of a AD xP device the PLC state is set to NEW and unlocked if the value is written directly or via TOU General purpose registers with no register with a Special meaning maximum of 8 The registers are owned by the utility and pnalactels can be changed at any time This registers are available only in the module and have no link to any data in he meter 7 4 3 2 Identification Numbers for Slave Meters The following table shows identification numbers for Slave Meters as Gas Water or Heat meter
33. Personal Digital Assistant Pocket PC Hand Held Computer HW Hardware PLC Power Line Carrier PLAN Powerline Local Area Network PQ Power Quality PSTN Public Switched Telephone Network SW Software TCP IP Transmission Control Protocol Internet Protocol Network protocol Landis Gyr AG D 000 027 080 aen Landis Gyr AMI Solution System Description Introduction to the system solution 11 83 2 Introduction to the system solution This section describes the functionality of the various components and their interaction 2 1 Solution overview Figure 1 Solution overview D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 12 83 Introduction to the system solution 2 2 Description of the main components The Solution system comprises the following main components and communication channels 1 Central System The central system A M is a powerful network management data acquisition and meter data warehouse application Beside data collection and control features A M has versatile data management and integration functionality The central system operates on the base of fully automatic scheduled tasks as well as on manual human intervention via sophisticated graphical user interfaces GUI Configuration data register values and status information acquired from the meters are historically stored in a relational database This database enables access from central system application soft
34. TANT ENT V rere Last 7 Gays 804 Leet 20 Deus 3747 Remarks to screen 1 If less that 4 rates are used their values are set to 00000 kWh lf the rate change is controlled externally then the time for the next rate change shows Change to rate 1 on 01 01 3000 at 00 00 Rate now in cents kWh display Pence kWh This screen is updated after a rate change or every 30 min Remarks to screen 2 Rate now in cents kKWh display Pence kWh This screen is normally updated every 30 min Remarks to screen 3 4 Landis Gyr AG Costs in display will show This screen is updated every day D 000 027 080 a en Landis Gyr AMI Solution System Description Inhome Display Unit IHU ecoMeter 79 83 Electricity screens hall re x wn WO as le as aad eT Laft 14 rat ethet Remarks to screen 1 e This screen is updated every hour e The bar graph shows the energy consumption per hour for the current day starting at 00 00 Remarks to screen 2 e This screen is updated every day at 00 00 e The bar graph shows the energy consumption per day for the last 7 days Remarks to screen 3 e This screen is updated every day at 00 00 e The bar graph shows the energy consumption per day for the last 28 days Remarks to screen 4 e This screen is updated at the end of every month e The bar graph shows the energy consumption per month for the last 12 m
35. The profiles are generated in the communication modules with the energy values read from the ZMF meter or from the slave meters All profiles have a common structure 18 03 2005 00 00 00 930 184 22 154 19 03 2005 00 00 00 0 940 629 36 706 20 03 2005 00 00 00 0 951 012 51 165 Oooo oe ooe ES Column 1 Timestamp Time and date of register capturing Column 2 Status 8 bit or 16 bit status word for OCR connected meters the status word contains information related to the connection between the master meter and the slave meter Column 3 to 6 Registern Value of the register at the time of capturing Any of the registers listed in 5 1 4 1 can be captured The choice of the registers is config urable The captured registers resolution is in kWh with 3 decimal places Up to 4 registers can be captured Master Meter The daily billing values profile e Consists of 366 rows e Each row contains up to 4 registers e Values are captured at midnight 00 00 with a capturing period of 24 hours D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 62 83 Slave Meter Electricity Metering Equipment The periodic consumption values profile e Consists of 2160 rows e Each row contains up to 4 registers e Values are captured with a period of 15 min 30 min or 60 min The monthly billing values profile e Consists of 13 rows e Each row contains up to 4 e
36. allation of New Concentrator The concentrator is installed in a standard configuration at the MV LV transformation station The concentrator is normally communicating over GPRS or via LAN During the installation process all necessary information like IP addresses telephone numbers identifications etc is imported either from factory files or from the installation system WOM to the central system Concentrator data objects are created automatically in the database and are now ready for communication For GPRS communication two possible configurations are supported Direct access with fixed IP address default case Typically the GPRS service provider offers direct static access via fixed IP addresses for each concentrator The IP addresses are programmed onto the SIM card The SIM card is mounted during the production process of the concentrator therefore a fixed link between the serial number of the concentrator and its IP address is established during production No direct access available optional case The telecom provider can only offer dynamic IP addresses In this case L G provides a GRPS router software The concentrator automatically connects to the GPRS router via the Telecom Provider The GRPS router registers new concentrators and maps the dynamic IP address to a fixed identification for the central system Moreover the GPRS router perma nently maintains the link to the concentrator The central system is now able t
37. ally Communication between meter and data concentrator The PLC communication between the meter with PLC module and the data concentrator is based on standard protocols IEC61334 series As PLC communication in the LV network is free of charge the network is fully available for advanced metering applications Therefore mission critical communication tasks can be dispersed over time in order to achieve maxi mum reliability Thus PLC communication technology represents the best trade off in the context of conflicting technological and economic requirements The modular meter concept offers new modules for support of multi energy meter points The electricity meters are the master meters providing the gateway to the central system data concentrator for all meters at the metering point The slave meters are connected to the master meters via the M Bus interface A maximum of 4 salve meters can be connected to a master meter D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 16 83 13 M Bus meters 14 Wireless meters 15 ecoMeter Landis Gyr AG Introduction to the system solution The main functions of the master meters are e Periodically register the consumption values for electricity and the connected slave meters and store these values into profiles e Register power outages for electricity e Register status and alarm information for electricity e Pr
38. asework Natural gas consisting mainly of methane not LPG backlight ESD RF Susceptibility BS EN 61000 4 3 Level 3 BS EN 61000 6 3 RF Communications 868 0 to 870 0 Mhz nominal range 30 metres directive Metrology Approvals Weight Approximately 2 5Kg Water Resistance 8 2 250mm Casework The LIBRA 250mm meter is connected to the gas pipes by the EN ISO228 1 standard 114 connections The LIBRA 250mm meter module provides Smart metering functionality When fitted to a meter the module will account for gas consumption on a block tariff provide detailed information via its flexible LCD display and provide communication to a suitable M Bus wireless module The LIBRA 250mm meter provides advance metering information that can enable the analysis of energy usage patterns equivalent carbon loading provide control of the installation and is designed to satisfy AMM AMR requirements D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 74 83 Gas Metering Equipment Tony 00 Figure 19 250mm casework Specifications for the 250mm casework Better than 1 5 0 6m 6m Hn Gas type Natural gas consisting mainly of methane not LPG Deep drawn coated steel G11 to EN 1S0228 1 Measurement technology Ultrasonic time of flight Display 2 line by 16 character dot matrix with backlight Shut off valve Internal electrically operated 95 non condensing RF Emissions
39. at the switching to the new tariff table has happened correctly Simplifying the installation procedure lf the vast majority of the meters is operating under the same contract same tariffication scheme installation can be simplified by pre configuring just one type of tariff table all meters having the same param_id After installation and reporting of the meters to the central system the configuration is automatically checked and those few meters which need re configuration of the tariffication tables are treated according to the procedure described above D 000 027 080 aen Landis Gyr AMI Solution System Description Key Processes 27 83 3 8 2 Download of load switching time The Time Of Use table TOU includes one definition for tariff switching and one definition for switching the control output The load switching is therefore executed locally be the meter node independent of the current connection to the central system or the data concentrator The TOU table for load switching will be defined at system configuration and pre configured in the factory for every meter lf there is a need to change the load switching time during the operation time the TOU table can be changed in the central system and downloaded to the respective meter nodes in the same way as the tariff switching time see chapter 3 8 1 D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 28 83 Communication 4 Co
40. ation Processing Standards Publication 180 1 1995 April 17 Secure Hash Standard SHA 1 Federal Information Processing Standards Publication 198 2002 march 6 Keyed Hash Message Authentication Code Landis Gyr AG
41. cific events are logged D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 26 83 Key Processes 3 8 Change of contract 3 8 1 Download tariff change Landis Gyr AG For each meter node the utility system ERP system must download the valid contract information and activation time of the contract to the central system The download of tariff tables to the meters is defined as an action ofa central system task scheduled task ordered task or spontaneous task Such a task may be applied to one single meter or a group of meters Upon execution the central system checks the current tariff table installed in the meter by reading the current param_id in the meter In case of directly connected meters this download is applied to the meter directly In case of meters connected to concentrators the download is done via an immediate task defined for the concentrator ERP System LAN Optional ERP sends contract Update info to CS Optional CS sends confirmation Figure 4 Download tariff change The new tariff table is stored in the meter node as a passive table without interfering with the currently active table The passive table becomes active at the defined activation time Together with the activation of the oassive table the param_id is updated The central system is able to read this new param_id upon next connection to the meter and hence can verity th
42. cted against the penetration of dust and water according to IP51 The entire meter s plastic material is UL94 VO classified non burning The base is made of light grey polycarbonate PC reinforced with 20 glass fibre The cover is made of transparent polycarbonate and fastened on the base with two sealing screws The inner cover which is also made of transparent polycarbonate supports the electronic parts and acts as a base for the nameplate sticker The cover includes a separate sliding cover for an auxiliary nameplate The cover is equipped with an adjustable metal fixing eye The fixing eye has three adjusting positions which makes covered installation possible The terminal block fulfils protection requirements according to IP20 The terminal block is made of glass fibre reinforced polycarbonate The dimensions of the current connectors are in accordance with DIN 43857 for 5 6 mm and 9 7 mm terminals Figure 14 Terminal Block Cover D 000 027 080 a en Landis Gyr AMI Solution System Description Data Concentrator 6 2 6 2 6 2 6 3 6 2 6 4 Buttons LED Connectors 53 83 The DC200 has one push button and a four direction button The red button is located under the sealable sliding cover The four direction button is located on the upper right corner of the front cover The red button is the activating button and the black buttons is browse button The two buttons in the DC200 are used to display th
43. d communication conditions Whenever the CS contacts the concentrator it has all the relevant data available i e in general the CS never needs to contact the meter directly for data required periodically Concentrator failure In case of a concentrator failure all meter nodes are no longer addressed and will therefore change after a timeout into the status New From then on the meter nodes are ready to be rediscovered by a new concentrator Faulty concentrators are detected by the network supervision module in the Central System For a fast re configuration of the network the Central system can download the list of the meter nodes together with the reading tasks connected to the concentrator Alternatively a new installed concentrator can re discover the meter nodes while performing the standard discovering new meters process D 000 027 080 aen Landis Gyr AMI Solution System Description Electricity Metering Equipment 55 83 T 1 1 7 1 1 7 2 7 2 1 7 3 Electricity Metering Equipment Polyphase meter ZMF100AC See Technical data sheet Meter configuration parameters The meter configuration parameters are set during manufacturing They cannot be changed in the field Single phase meter ZCF100AC See Technical data sheet Meter configuration parameters The meter configuration parameters are set during manufacturing They cannot be changed in the field Disconnector The single phase m
44. d for GSM GPRS module Gas Metering Equipment D 000 027 080 a en Landis Gyr AMI Solution System Description 51 51 52 55 55 55 55 55 55 56 56 56 56 56 57 57 58 58 61 62 62 63 65 65 65 66 66 67 67 67 69 69 69 70 70 71 71 72 Landis Gyr 6 83 8 1 8 2 8 3 9 1 9 2 9 3 9 4 9 5 9 6 9 7 10 Landis Gyr AG Single Pipe Casework 250mm Casework Eco screens Message display Appendix Communication Standards Table of Contents 72 73 75 76 17 11 78 19 80 81 82 83 D 000 027 080 a en Landis Gyr AMI Solution System Description Table of Contents 7 83 D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr 8 83 1 General 1 1 Scope General Landis Gyr provides a complete and modern end to end solution for Advanced Metering Infrastructure projects It has been designed to cater for the special needs of liberalised energy markets and extends over the whole value chain from the meter to the billing interface It is also designed for large scale residential metering systems and provides all user friendly tools you need for handling data for large numbers of customers The Landis Gyr AMI solution revolutionises the traditional value chain of the energy market and adds value to the utilities process for metering data collection supplier change tariffication meter mana
45. e modify and delete which can be individually assigned to groups of data objects 5 2 Data acquisition 5 2 1 General The central system supports direct communication to meters connected over GPRS GSM using the standardized dims protocol or to meters connected to concentrators over PLC The communication to concentrators is done over GPRS GSM based TCP IP Metering data is stored in the database in a normalized format All meter nodes are identified by the manufacturer serial number the utility serial number EAN Code The values can be identified by their OBIS Code The data acquired and further processed from category 1 and 2 electricity meters gas and heat meters corresponds to the tables listed in the chapters describing the meters 5 2 2 Task management The system includes a set of predefined tasks for automatic acquisition of metering data and device information by the central system All parameters of these tasks can be modified by the operator to achieve maximum efficiency for the specific need of each system or part of the system Individual tasks can be joined into task flows which can be run automatically from start to end Tasks are needed for automatic operation manual execution spontaneous readout as well as for ordered readout Automatic task execution can be predefined for different intervals daily weekly monthly and specific start times They can be defined for groups types of meter nodes as well as for indi
46. e devices it can handle more devices reliably and effectively When MessageMax receives readings it makes sure that the data is complete and stores it to the metering system database Only if necessary for example if a special reading is needed AIM system will send a request to the metering device This means fewer and shorter GPRS connections and more efficient communication MessageMax can even use the public GPRS network for communication because connections can be authenticated and communication is encrypted using SSL In high volume installation it is recommended to use separated networks offered by operators Installation and management of the metering system is also easier with MessageMax Devices can be pre configured in production to contact the metering system after they have been installed MessageMax then automatically recognises and registers them and communication to the device is immediately available The PLC network is autonomously managed by the concentrator i e it automatically detects new PLC meters administrates network addresses and manages packet routing Required minimal network quality In order to use the distribution network for PLC communication the network operator must ensure a minimal quality level i e The voltage in the distribution network must fulfil the European standard EN 50160 Voltage characteristics of electricity supplied by public distribution system Particular attention must be drawn
47. e following information SW version for example 1 0 0 HW version 1 3 Serial number 1234567 Time 18022008 164318 which means 18 02 2008 16 43 18 Uptime xx days xx hours xx min xx sec Temperature Celsius Voltage level 231V GPRS field xxx dBm Above all it is even possible to activate functionalities like SW update with the buttons The concentrator has six LED indicators that can be seen through the transparent cover The function and placement of the LEDs Is printed on the nameplate Both DC200 types have a power line Twisted Pair RJ45 for the LAN RS interface USB and digital input connectors The DC200 type which comes delivered with an internal GPRS module have an SMA connector for the antenna pa Se lo A PS lt q EEE LAN RJ45 SERVICERS D9 SERIAL RJ45 _ Figure 15 DC200 connectors D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 54 83 Data Concentrator 6 2 6 5 Meter data acquisition Landis Gyr AG In order to achieve maximum reliability the concentrator keeps a copy of the most recent part of the Daily Values Profile of the Energy Values Profile and of the event logs see chapter 7 4 ff in its buffer Such a buffer is kept for each meter node In case of missing values in the buffer due to temporary communication problems the concentrator automatically re fetches the missing values of the corresponding meters during the time of goo
48. e it is possible to define which registers are delivered and handled in the central system There are different register sets for identification numbers network management billing registers etc that can be configured to the needs of the utility For each data object such as a concentrator or a meter the necessary customer specific attributes can be defined on a basic level User defined attributes can vary from individual address information up to specific device or contract information that needs to be monitored within the system D 000 027 080 aen Landis Gyr AMI Solution System Description AIM Central System 45 83 5 7 3 Unique identification Utility serial number of meter 8004 13 OBIS Timestamp The unique identification of a meter node and its values is a requirement throughout the whole system There is both a unique manufacturer serial number and a unique utility serial numbers referenced from the meter node up to the central system and used to identify the meter values in the export to the billing system The following description shows the usage of EAN code as an example Of course it is also possible to use a conventional utility serial number defined by the utility Cross references between databases concentrators and metering unit are e Utility serial number of meter e OBIS e Timestamp Utility s serial number of metering unit This unique number allows an explicit identification of the
49. e such as e Daily billing values e Current register values e Profile values e Event Logs e Power Quality and power break information e Immediate and scheduled reading of previous data e Immediate and scheduled controlling of relays e Basic device and contract information If the operator needs more recent values he can easily establish an on line connection to the selected meter device and interactively retrieve the necessary data by actualizing the periodic measurements or retrieve the current values of pre defined register sets This mode is used to interact with the meter or the concentrator for detailed maintenance and administration purposes Landis Gyr AG 38 83 Landis Gyr AG AIM Central System The Maintenance Mode offers detailed administration and analysis functions for the interactive maintenance of both the data concentrator and the directly connected meter Functions include Display and update of current device settings and parameters Remote update of firmware versions Manage different meter lists in the concentrator Parameter check and download of parameters Read status event log and communication statistics Download time of use tables for tariff switching and load shedding Check and download periodic tasks to the concentrator Initialize concentrator by downloading data dictionary basic and time parameters D 000 027 080 aen Landis Gyr AMI Solution System Description AIM Central Syste
50. e voltage of phase 1 exceeds y of the nominal voltage for at least yy minutes yy gt 1 minute Y and yy are configurable The event return to nominal voltage is also registered e Single phase outage if the voltage of phase n drops below y of the nominal voltage e g 70 of nominal voltage whereby x has to be gt 80 for single phase meters for at least xx minutes xx gt 1 minute xx is configurable The event phase n restored is also registered Remarks e Incase of a 3 phase power outage event no single phase power outage event and no under voltage event is registered e Incase of a single phase power outage event no under voltage event is registered The power outage supervision events are stored in the event log The registration of the events listed above is configurable Remark The voltage measurement accuracy is 2 D 000 027 080 aen Landis Gyr AMI Solution System Description Electricity Metering Equipment 65 83 7 4 8 Maximum demand fuse supervision for master meter only The maximum subscribed demand fuse type can be limited and any crossing of this limit can be registered in the standard log book This feature can be used to detect if a customer has exchanged the current limiting fuses that are prescribed by its contract e An over demand event is registered if the average demand over the last hour exceeds the parameter maximum demand The value o
51. environment e On MAC level the frame headers are protected with their own error correcting code Data is secured with a 24 bit CRC which makes sure that erroneous data is identified and can be rejected e The task manager in the data concentrator makes sure that only small LLC frames are transmitted via the PLC network thus reducing the probability of a frame error e Time diversity of the transmission The tasks in the data concentrator are set up so that the concentrator constantly tries to keep a current copy of the last few days of billing data hourly profile and daily profile of all its meters The PLC channel s permanent availability is optimally used to recollect any missing values of the most critical data Due to the time diversity of the collection process limited time intervals of channel disturbances cannot harm the data acquisition e Repeater failure Any meter node can act as a repeater Therefore a failure results in an appearance in the list of lost meter points The failure of a repeater generally does not have any consequence on the PLC communication since another meter node will automatically take over the role of the faulty repeater 4 5 Security issues 4 5 1 Protection of personal customer data Within the AIM system all data is referenced by the serial number of the measuring source the meter The serial number of the meter is defined by the manufacturer and there is neither a link to the customer nor
52. ering devices via a Current Loop Serial bus is possible In this case the external device is addressed directly by the CS using the HDLC addressing capabilities Serves as a gateway between the public WAN GPRS GSM PSTN and the LAN PLC In order to increase the system s reliability and the communication efficiency the concentrator autonomously performs data collection and data distribution tasks within the PLC network Tasks are typically defined in the CS and downloaded into the concentrator The communication with the CS is based on TCP IP Supports direct communication to the GPRS GSM meters and communica tion with the PLC meters via the concentrators For internet communication via GPRS a meter gateway is foreseen Typically a meter gateway function is provided by a corresponding service from the network operator Communication between A M system and certain devices can now also be handled through Landis Gyr s advanced communication platform MessageMax MessageMax is designed to make communication in a metering system more efficient flexible and reliable Instead of the traditional request reply communication between system and devices metering devices operating with MessageMax actively push their data to the system Since D 000 027 080 aen Landis Gyr AMI Solution System Description Communication 4 1 1 4 1 1 1 4 2 Use of PLC 29 83 MessageMax does not need to send reading requests to all th
53. erred approach AIM offers special tool application A M Data File Tool for creating new flat file data formats for different purposes For each destination the respective metering values can be assigned individually 5 5 3 Command input There are several functions that need to be initiated by the overlaying system most probably the billing system Changes of contract changes of tariffs soontaneous readout of current registers for customers that move in out or change supplier remote change of parameters etc are examples of such functions D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 44 83 5 6 Scheduling AIM Central System With the AIMIA integration platform AIM offers an interface for an external system to trigger such functions and receive the according feedback meter values execution status As far as the other interfaces are concerned there are several standard interfaces available based on file exchange text and xml format that can be customized to the project needs All major function to support the daily acquisition and processing within the central system can be automatically executed by the scheduler For the acquisition the scheduler is based on the functionality of the task management see above For the other functions such as processing reports and calculations or import export the standard scheduler function can be used The scheduler offers time definitions t
54. eter ZCF and the polyphase meter ZMF can be equipped with an optional disconnector Figure 5 shows the ZCF and ZMF meters equipped with disconnectors The switch for local disconnector operation is integrated into the terminal cover The design of the switch is such that unintentional operation is avoided Figure 16 Single Phase and Poly Phase meter with Disconnector D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 56 83 Electricity Metering Equipment 7 3 1 Safety requirements The disconnector connects and disconnects the customers premises The disconnector does not provide any overload protection Therefore installations that include a meter with a disconnector must be protected either by a fuse of 80 Amps or lower or by another protective device with an equivalent characteristic fuses according to EN62269 3 7 3 2 Electrical specification e Max switched current up to 80 A per phase at nominal line voltage and cos phi 1 e Short circuit current of 3000 A for 10 ms acc EN62053 21 e Impulse voltage of 12 kV according SP 1618 e Mechanical life time is 10 000 switching cycles 80 A cos phi 1 7 3 3 Environmental specification e Protection class IP52 e Operating temperature range 40 C 70 C 7 3 4 Tamper protection Tamper Protection against magnetic DC fields according to EN 62053 21 7 3 9 Functionality Landis Gyr AG Local operation mode In the local ope
55. f maximum demand is configurable between 1 and 256 kW e Information about the fuse type current is provided by the utility e A margin factor is to be agreed upon 7 4 9 Firmware download The firmware of the Communication Units in the meters only on master meter can be downloaded via GPRS GSM and PLC Misuse is prevented by Keyed Hash Message Authentication according to FIPS 180 1 FIPS 190 7 4 10 Interfaces The following interfaces are available for local access e M Bus interface to connect up to 4 slave meters using comp Figure 17 The M bus RF converter connected to the M bus to communicate with the ecoMeter via the OCR module with a meter with mechanical registers or directly via an wire based M bus NB the M bus master delivers max 16 mA e The M bus interface can also be used for local communication with the communication module e Optical interface according to IEC 62056 21 for local readout of basic meter data as described in the ZMF documentation e Configurable upon ordering interface EITHER a rate control input 240 V OR a combined solid state relay output or SO pulse output type A The functionality is configurable either as a solid state relay 240 V 100 mA for local load control or SO output with a pulse constant of 500 imp kWh NB remote configuration is not supported because re configuration of the interface implies changing of the local installation D 000 027 08
56. g the contract type and the config_id identifying the type of meter As soon as the new meter is introduced together with the according information e g contract address etc to the central system the attributes of the meter are updated in the database 3 2 1 Linking of the readout data to the utility serial number It is crucial that the readout data of the meter is strictly linked to the utility serial number USN The USN is not read out explicitly with each meter reading The following procedure guarantees a fixed link of the reading data with the USN without creating an undesired data overhead e When the meter is first installed in the network it is in the status NEW e Only NEW meters can be registered at a concentrator e During registration the concentrator reads the USN of the meter and assigns a fixed identification MAC address to the meter The concentrator keeps a reference list of the USNs the MAC addresses plus manufacturer serial nr parameter set identification configuration identification of all its meters e With the assignment of the MAC address the meter changes its status from NEW to REGISTERED From now on it can only be addressed by a specific concentrator Each data frame which is exchanged between the concentrator and the meter contains the identification of the concentrator and the identification of the meter i e the MAC address that is linked to the USN e Any exchange of concentrator or meter will
57. ge Lower than average Higher than median Lower than median Use check function D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 40 83 AIM Central System The checks and available actions for periodic meterings are Vabas coudielomt 224 sectioun for periodic meteria and periccdic metering of a certain curcoccer epe Periodic meterings and periodic meterines of a certain customer type a M Acton Vochanged Zere Previnms Poussins Tce Ter Tom 10 Dont vw c a duy werh defied dl Lima vuler ee distributes distributed Alining x value Zero Anrthing x wor xX mixing Hisler K than Lower than X Higher x than pres DE LL Lower than x previous Ilizher X thom pres LOL LE wouth Lower than x put at us mourh Ilizher thom pres nna rear Louve tlie previcus Poes Hixuer thu LEA veterence vahie Lewer iiuen scivrvece als P Hiyglicr than nrericus manne wurer nlu 5 Tower than L e rr HE on auveit sy wurer vauc Hixuer thu nrericus year s wurer b nlu 5 Louve iiuen piere HERTEN roe Te wuree vauc T ace leech Isactive Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description AIM Central System 41 83 Identification and reporting of missing meter data e Identification and reporting of gaps in meter values e Checking of consumption values for non zero non negat
58. gement and energy supply With this solution Landis Gyr is not only addressing utilities acting in the electricity market only but also offers possibilities for integration of multi energy metering in the gas heat and water market 1 2 About this document y Landis Gyr AG This document describes the Landis Gyr solution with key processes and all major components involved for Advanced Metering Infrastructure New functionalities are marked as new with the yellow sign D 000 027 080 a en Landis Gyr AMI Solution System Description General 1 3 Terminology 9 83 Some terms used in this document have different meanings in the different markets addressed by the system The following list contains some of these terms Profile Capture period Tariff Tariff switching table Daily Billing Values Periodic consumption values Capture period Interval data Integration period Rate TOU time of use TOU table tariff schedule rate switching table Daily values billing values Hourly values interval data Capturing period Registration period integration period registration interval The contents of measurement registers Energy or Power are periodically captured typically at the full hour or at half hour or at the quarter hour and stacked in a profile Each entry in this profile contains a time stamp a status word and several register contents See above According to the
59. gration between AIM and other systems based on XML files and WEB services architecture If needed other file formats can also be supported through adapter services of AIMIA Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description AIM Central System 43 83 Figure 7 Data Exchange structure See separate Product Specification AIM 3 0 AIMIA_ProductDescription_ v230_EN pdf for more detailed description 5 5 1 Import device information Residential metering usually comes along with large numbers of devices The aim is to import device information from factory information files or deployment tools rather than to enter all information manually The central system software includes an import interface for device information of data concentrators and meter nodes PLC or direct meters Device information includes identification numbers manufacturer utility serial number parameterization etc device info device type configu ration antenna type etc location info location name address coordi nates etc and any other customer information needed on the central system to clearly identify and manage this number of devices efficiently Import can be performed automatically by the scheduler or executed manually 5 5 2 Export metering data Metering values can be exported to different destinations in different formats with different content and in different schedules When flat files are there pref
60. households and small Industrial commercial sites 4 Site Manager A Work Order Management system WOM is a software package for the planning of the device installation AIM has an application module for work order management application AIM Site Manager For more detailed infor Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Introduction to the system solution 13 83 5 Site Manager PDA 6 AIMIA Interfaces 7 LAN GSM GPRS mation see separate document AIM 2 2 SiteManager_ProductDescrip tion_v220_EN pdf If utility s or installation company s own WOM is used offers AIM interfacing application AIMIA for importing and exporting installation information for fluent setting up of devices in AIM see separate document AIM_3_0_AIMIA_ProductDescription_v230_EN pdf for further information The planning is based on the geographical grid information as well as the device and customer information delivered by the utility After detailed planning of installation times and sites the specific work orders for the various installers are downloaded to their Pocket PC PDA After installation the installation reports are uploaded from every installer to the WOM and verified and checked Completed work orders and progress reports can be sent to the utility daily AIM Site Manager is able to keep track on progress and status of all installation work and to manage all planning changes pending
61. ibution Line Carrier Systems Part 4 Data Communication Protocols Section 32 Data Link Layer Distribution Automation Using Distribution Line Carrier Systems Part 4 Data Communication Protocols Section 41 Application protocol Distribution Line Message Specification DLMS Distribution Automation Using Distribution Line Carrier Systems Part 4 Data Communication Protocols Section 42 Application Layer Distribution Automation Using Distribution Line Carrier Systems Part 4 Data Communication Protocols Section 511 Systems Management using profile CEI 61334 5 1 CIASE protocol Distribution Automation Using Distribution Line Carrier Systems Part 4 Data Communication Protocols Section 512 Systems Management using profile CEI 61334 5 1 MIB protocol Electricity metering Data exchange for meter reading tariff and load control Direct Local data Exchange Electricity metering Data exchange for meter reading tariff and load control Data link layer using HDLC protocol Electricity metering Data exchange for meter reading tariff and load control COSEM application layer 62056 61 Electricity metering Data exchange for meter reading tariff and load control Object identification system Electricity metering Data exchange for meter reading tariff and load control Interface classes Information processing systems Open Systems Interconnection Basic Reference Model Federal Inform
62. ic Consumption Values consisting typically of the un rated consumption values captured at periodic intervals 60 min or daily The capturing time instances are synchronised to the full hour The periodic consumption values are stored in data structures called profiles see chapter 7 4 4 3 5 1 Periodic readout of billing values The meter node stores daily billing values registered every midnight time stamped with 00 00 for predefined registers For PLC meters connected to the concentrator the central system downloads a periodic task to the concentrators to collect all daily billing values from their meters and to store them locally for several tens of days depends on the number of meters and number of series For direct meters the central system periodically collects the data from all meters For PLC meters the data concentrator autonomously collects the data from all assigned meters and transfers the values on regular intervals to the central system Register values which are not yet available at that point in time will automatically be re fetched Register values are normally requested by the utility at the end of each month for billing purposes This requirement can actually be met by establishing automatic tasks that transfer the data once per month from the devices to the central system D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 24 83 Key Processes In order to be flexible for any
63. io Last 12 Monthe 125 9 Display the emission of greenhouse gas CO2 during the production of the energy used The equivalent of kg CO2 kWh is different for electricity and gas Even for electricity the CO2 equivalent may vary depending on the mix of fossil fuel and hydro electricity The corresponding equivalents depending on the energy delivery contract can be downloaded to the meter Remarks to screen 1 e This screen is updated every 15 secs e The bar graph shows the electricity consumption related CO2 emissions per minute over the last hour The CO2 emission is displayed in kg hr based on the measured consumption over the last 15 sec Remarks to screen 2 e This screen is updated every 1 hour e The bar graph shows the electricity consumption related CO2 emissions per hour over the current day starting at 00 00 The numeric display shows the total emission of the current day Remarks to screen 3 restricted use e This screen is updated every 1 hour However for battery operated gas meters for battery saving reasons the readout period may be restricted to one day In this case this screen does not contain relevant information e The bar graph shows the gas consumption related CO2 emissions per hour over the current day starting at 00 00 The numeric display shows the total emission of the current day Remarks to screen 4 e This screen is updated at the end of every day e The bar graph shows the total CO2 emi
64. ity information can be enabled or disabled locally or remotely D 000 027 080 aen Landis Gyr AMI Solution System Description Electricity Metering Equipment 63 83 e Disconnector Event Log with up to 20 entries Only for meters with disconnectors Containing information on disconnector status changes due to local and remote operations Typically the disconnector event log is read out with each remote switching command The event logs are generated in the communication module An event log has the following structure a om EE ES The timestamp defines time and date when an event occurred The status word contains information on the status of the meter and the communi cation device at the time of the event The event number identifies the actual event When the event log is full the oldest event is overwritten 7 4 7 Quality of supply supervision for master meter only The metering units support quality of supply supervision by means of e Counters for different power outage events as described in 7 4 2 e Registration of power outage events in the event log as described in 7 4 6 The following events may be registered in the event log e Total power down of the meter when the voltage of all 3 phases drops below 120 V e Power restoration after a short power down event Indicating that the power returned before the long power down threshold has been reached e Power restoration after a long power dow
65. ive and continuously increasing values e Comparing meter values with maximum e Identification and reporting of any communication error e Identification and reporting of status of meter event logs Meter data which fail validation checks are marked with the according status information and can be monitored and possibly corrected by manual intervention repetition of query substitution of values or sophisticated automatic interpolation of values Meterings detected by validation can be directed to different groups which can be used further in other data management or reporting operations or as input for the next steps in the task flow D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 42 83 AIM Central System 5 4 Data processing 5 4 1 Reports and calculation The data processing functionality offers a wide range of reporting and calculation functions to monitor and process metering data Two of the most extensive calculation applications are Profile Calculation and Tariff Calculation AIM Profile Calculation is a tool for calculating new profile metering typically with periodicity of 5 10 15 30 or 60 minutes values from existing profile values already stored in the AIM system Calculation is performed according to a specified calculation formula wide variety of arithmetic operations available Calculations can be launched manually or as scheduled tasks and results new profile metering a
66. ly automatic switching over process in case of a feeder change in the LV network the PLC units are released from one concentrator and re registered at the new concentrator e Supervision and optimisation of the PLC communication network by computing performance statistics and by optimising the repetition credits in order to achieve maximal channel capacity e Automatically synchronising the clocks of the communication units in the LV network Besides the basic tasks which support the maintenance of the communi cation network all tasks for the data exchange with the meters are programmed by the CS 6 2 1 DC200 as part of the AMR system DC200 is targeted to function with Landis Gyr s Advanced Metering Infrastructure solution It communicates with the central system through TCP IP based communication networks The connection to third party systems is possible through DC200 ODEP2 interface By using the definition of this interface it should be possible to take in use the DC200 with other systems User interface Data management 5 AMR LL Imegration inig external sytemns M3 Service i Ste Manager Figure 10 DC200 in AIM system D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 50 83 Data Concentrator 6 2 2 Communication Options One concentrator type will be created with two communication options Upper communication options e GPRS LAN e LAN PLC communica
67. m 5 2 5 Transaction logging 39 83 The acquisition job processing is logged in detail The individual actions can be sorted hierarchically and presented for each job This provides a quick overview of events that have already been processed or are still Current Data validation The central system features a range of different validation functions that can be individually applied to metering data Both periodic and profile data can be validated using AIM validation functionality Values which fail validation checks are marked with the according status information and can be monitored and possibly corrected by manual substi tution of values or sophisticated automatic interpolation of values Data validation is indispensable because only verified data can be further processed The central system provides comprehensive data validation and substitute value generation features The central system includes a range of different validation functions and plausibility checks that can be individually applied to meter data The checks and available actions for profile meterings are Value conditions and actions for profile metering Profile meterings Action Unchanged Zero Previous Previous User Distribute week defined defined cumulative distributed value pa Missing value pd Zero pa Anything ya Not missing ya Negative ya Positive ya Higher than pa Lower than LA Higher than avera
68. metering unit This number is the link between the meter data and the consumer It is owned by the utility The value is set in the meter during manufacturing according to the data given by the utility The number is taken from the readout of the meter and updated in the module after every successful communication The two meter registers Customer ID display code 0 0 and Manufacturer ID display code C 1 1 are added to a register in the module The utility serial number is typically defined as an EAN number see following example The number is represented differently on the bar code sticker the meter plate and the readout Bar code 80047350028740014881 Clear view 8004 7350028740014881 Readout 735002874840014881 Application Identifier 4 digits defining the type of number The Al is shown inside brackets in the clear view but not in the barcode Country code 2 digits defining the registration country of this EAN UCC Company Prefix No indication as to where the meters are being produced or where the company is located 73 represents Sweden Company Prefix Registration from EAN The company prefix can be provided by the customer The Landis Gyr Company Prefix is 5002874 Individual Asset Reference Unique Number defined by supplier during manufacturing Test Digit over the code without Application Identifier 8004 L G offers different ways for the calculation of this Test Digit all of them standardised and approved
69. mmunication 4 1 Communication architecture PLC metering device GPRS metering device PLC concentrator Central system CS Landis Gyr AG The meters are connected to the concentrators via PLC power line carrier In cases where the installation of a concentrator is economically not feasible direct GPRS communication to the central system is used Uses the IEC61334 5 1 based communication stack with two major applications running on it The applications are modelled as logical devices LD according to IEC 62056 62 and connected to their corre sponding Link Service Access Points L_SAP The LD PLC Management handles the PLC communication processes whereas the LD Metering provides all metering functions and data The External Device Handler is an optional extension enabling the integration of external meters into the AIM system NB the LD Metering offers exactly the same functionality for PLC and GPRS Metering devices Uses the IEC 62056 46 link layer to communicate directly with the Central System CS either via GPRS or via GSM The applications are modelled as logical devices LD according to IEC 62056 62 and connected to their corresponding Link Service Access Points L_SAP The LD GPRS Management handles the GPRS and the GSM communication processes whereas the LD Metering provides all metering functions and data As an option transparent communication to external met
70. n With these 6 LED s it is possible to operate and install a GSM GPRS module without additional software tools All information e g regarding the positioning of an antenna is given via the LED s GPRS not logged in GPRS GPRS logged in TCP IP listening GPRS logged in TCP IP open off GSM disabled e g outside time window GSM flashing GSM listening on GSM connected off GSM GPRS module not ready flashing 600 ms on 600 ms off flashing 75mson 3s Receive signal detected level is shown via RSL off Call in progress off Receive signal level 1 RS value 0 10 equals 110 dBm 100 dBm Receive signal level 2 RS value 11 20 equals 99 dBm 90 dBm Receive signal level 3 RS value 21 30 equals 89 dBm 81 dBm Receive signal level 4 RS value 31 63 gt 80 dBm Receive signal level low lt 113 dBm or no signal detected flashing slowly flashing fast on No SIM Card If no SIM Card is inserted all communication status LED s are switched off From time to time the Rx LED flashes shortly Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Electricity Metering Equipment 71 83 SIM Card Error If a wrong SIM Card inserted or if a wrong PIN Code is programmed the module shows an error with RSL off but GPRS on and GSM on 7 6 2 Power outages on the GSM GPRS module In all cases the power down up events are registered by
71. n The network quality information includes power failure information and voltage information Power failures in the meter node are defined as short power down and long power down Both events are registered locally in the event log of the meter node The number of power down events is counted and stored in specific registers The voltage level is checked in the meter node for each phase Over voltage and under voltage events are locally registered in the event log of the meter node The current value of the voltage level of each phase is stored in specific registers update period 1 minute The central system can periodically acquire the event log information and specific registers 3 7 Disconnect connect with disconnector The meter unit can be equipped with a disconnector that can be controlled both locally and remotely to completely disconnect and connect the electrical supply to the customer Upon a request from the utility the central system software is able to send disconnect or connect commands to the meter node Each remote command is confirmed for successful execution Further confirmation may be given by reading the current logical status of the disconnector from the meter unit The status read from the meter unit contains specific information on the disconnector e g if the last switching was done locally or remotely Further the meter unit provides a special disconnector event log where the last disconnector spe
72. n event The threshold of the long power down can be configured between 10 sec and 65535 sec D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 64 83 Landis Gyr AG Electricity Metering Equipment e Undervoltage of phase 1 if the voltage of phase 1 drops below x of the nominal voltage for at least xx minutes xx gt 1 minute Where x and xx is configurable The event return to nominal voltage is also registered X has to be gt 80 of the nominal voltage for single phase meters e Undervoltage of phase 2 if the voltage of phase 2 drops below x of the nominal voltage for at least xx minutes xx gt 1 minute x and xx are configurable The event return to nominal voltage is also registered e Undervoltage of phase 3 if the voltage of phase 3 drops below x of the nominal voltage for at least xx minutes xx gt 1 minute x and xx are configurable The event return to nominal voltage is also registered e Overvoltage of phase 1 if the voltage of phase 1 exceeds y of the nominal voltage for at least yy minutes yy gt 1 minute Y and yy are configurable The event return to nominal voltage is also registered e Overvoltage of phase 2 if the voltage of phase 1 exceeds y of the nominal voltage for at least yy minutes yy gt 1 minute Y and yy are configurable The event return to nominal voltage is also registered e Overvoltage of phase 3 if th
73. net IP Access PPP Service GPRS Authentication for GPRS network login PAP CHAP GPRS transmission multi slot class 12 class B mobile station PBCCH coding scheme 1 The GPRS modem is upgradeable over the air The following well established protocol standards are used Link layer HDLC IEC 62056 46 Service GSM Communication reliability Reliability on PLC network The PLC channel is an unprotected communication channel i e there is no authority enforcing rules which regulate the interferers on this channel For unprotected channels no guarantee on the channel availability can be given However the following measures guarantee optimal performance under the given conditions e The S FSK modulation scheme permanently audits the channel conditions and adapts its demodulation strategy accordingly Thus D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 32 83 Communication optimal robustness against wide band and narrow band interferers is achieved e Anerror resistant preamble sequence provides a robust synchronisation of the data frames e Error rates under defined channel conditions for additive white Gaussian noise for narrow band interferers and for impulsive noise can be found in IEC 61334 5 1 sect 2 4 e The adaptive repetition with credit scheme makes optimal use of every metering node as repeater and thus routes the message optimally through a heavily disturbed
74. o connect to the concentrator and reads its serial number to clearly identify the equipment Afterwards the central system can be used to download the data definition and all necessary parameters to the concentrator In addition the standard set of tasks is downloaded to the concentrator It is now ready to start working and detecting meters in its LV network By doing so the DC automatically builds up the PLC communication network 3 2 Installation of new PLC meter Newly installed meters with PLC modules are automatically detected by the concentrator and added to the list of newly detected meters The concentrator permanently updates its inventory of meters For PLC meters the LV network topology does not need to be known The system configu ration is done automatically i e after installation the installer just checks the LED on the communication unit showing synchronisation to the PLC network and then leaves Upon first detection of the communication module the concentrator sets the clock of the meter node and reads the necessary identification numbers and parameters of the meter D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 20 83 Key Processes The central system can periodically check the concentrator s inventory list and search for new meters in the list A new meter is reported by the con centrator with its manufacturer serial number the utility serial number the param_id identifyin
75. o execute jobs daily weekly monthly or at predefined start times Besides scheduling different tasks can be combined into Task Flows where execution of different tasks can follow each other in fluent flow 5 7 Basic configuration There are several basic configurations used by the system administrator to customize the system to the specific needs of the utility Some configuration examples are described in the following chapters 5 7 1 User definition access rights segments Every user is defined with username password language and other attributes and belongs to a user group For each user group the system administrator can define individual access rights to the different functions Every access to a data object can be restricted to create view modify delete These access rights can be applied individually to all types of data objects in the system For specific functions the administrator can assign execution privileges to user groups The graphical user interface is auto matically adapted to the user s individual access rights In addition data objects can be assigned to different data segments Users can be assigned to a number of data segments so that the user can only access data he is authorized to 5 7 2 Meter register configuration Landis Gyr AG All metering values can be normalized to OBIS Code The different registers and their individual naming can be customized by the system administrator For each meter typ
76. o the slave meters is not foreseen El meter residential single phase without disconnector El meter residential single phase with disconnector El meter residential poly phase without disconnector El meter residential poly phase with disconnector Communication unit PLC for ZMF ZCF each with and without disconnector Communication unit GSM GPRS for ZMF ZCF each with and without disconnector control Concentrator for PLAN PLC meters GPRS or LAN Gas meter E6V single pipe casework Gas meter E6V 250mm casework The entire ZxD meter portfolio GSM GPRS communication unit for ZxD PSTN communication unit for ZxD Central system software with related applications ZCF120AC class 2 ZCF120AB class 2 ZMF120AC class 2 ZMF120AB class 2 ZxF Modul V3 0 AD xP ZxF Modul V3 0 AD xG DC200 LIBRA Single Pipe LIBRA 250mm ZxD 300 400 CU P3x CU M2x AIM The ZxF Module V3 0 is capable to communicate with the following additional devices provided by 3 party via M Bus Interface Xemtec Comet Optical Character Reader wired Xemtec M Bus RF 868 MHZ converter Comet Optical Character Reader wireless RF 868MHz XMB 6x wired M Bus RF Converter XRS 6x wireless Landis Gyr AG 18 83 Introduction to the system solution Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Key Processes 19 83 3 Key Processes 3 1 Inst
77. onths D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 80 83 Inhome Display Unit IHU ecoMeter 9 5 Gas screens a bJ ih Reis z Ji oil YUBA E plaid 5147 Mill Remarks to screen 1 restricted use for battery operated meters e This screen is typically updated every hour However for battery operated gas meters for battery saving reasons the readout period may be restricted to one day In this case this screen does not contain relevant information e The bar graph shows the energy consumption per hour for the current day starting at 00 00 Remarks to screen 2 e This screen is updated every day at 00 00 e The bar graph shows the energy consumption per day for the last 7 days Remarks to screen 3 e This screen is updated every day at 00 00 e The bar graph shows the energy consumption per day for the last 28 days Remarks to screen 4 e This screen is updated at the end of every month e The bar graph shows the energy consumption per month for the last 12 months Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Inhome Display Unit IHU ecoMeter 81 83 9 6 Eco screens edt tom 6 ohte Aorta oe Lu hi cd te D 000 027 080 a en Landis Gyr AMI Solution System Description ein de amp OU a 4 h ess r 7 coa Oh amp Fmt p ete VW L R a pou Last 7 Deus Last 26 Dave Od
78. ormats M bus addresses for the attached M bus devices e Mapping of the slave data into standard registers according to IEC 62056 61 OBIS identifiers NB The correct installation of slave meters can only be checked by calling the operator in the central system D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 22 83 Key Processes 3 4 2 OCR module connected via radio In addition to the parameter settings described 3 4 1 the M bus address of the M bus RF converter see Figure 17 must be set NB The correct installation of slave meters can only be checked by calling the operator in the central system 3 5 Collection of meter data Landis Gyr AG Meter data is stored in all components of the system in a redundant way as shown in Figure 2 below The meter stores meter data for a predefined period For direct GPRS meters the central system collects the stored meter data from all meters by periodically scheduled readout tasks In case of PLC meters the concentrator collects all meter data from all attached meters periodically and stores them locally Upon regular intervals the DC pushes the collected data to the central system The central system transfers the required data to the IT system s of the utility ERP System GPRS LAN Daily values Hourly Values Event Log Figure 2 Redundant data storage The basic
79. ovide downloadable tables for tariff switching e Provide a disconnector which enables remote or local disconnection and reconnection of the customer premises e Support the In House Display ecoMeter with near time consumption data e Serve as a gateway to send messages from the utility to the ecoMeter e Provide a communication interface s to remotely read the consumption values for electricity and for the slave meters to remotely operate the disconnector to communicate with the In House Display The registration of the measurement values electricity and of the slave meters into profiles is fully scheduled by the meter The meter provides local storage for the profiles in the non volatile memory PLC communication between the meter PLC module and the data concentrator is based on the standard protocols IEC61334 series GSM GPRS communication IEC 62056 series is used as an alternative solution when PLC is not efficient technically economically Electronic meters for gas heat and water can be connected over the M Bus wired interface to the master meter Such type of meters must support M Bus protocol according to EN 13757 2 They are handled as M Bus slave meters The readout of these meters is performed periodically by the E meters E meter acts as master The E meter stores the consumption data of the slave meters and makes it available for the CS via PLC or GPRS GSM Direct access from the CS to the slave meters is
80. ration mode the customer can use the local button to connect or disconnect his premises manually Remote disconnection is possible remote connection is NOT possible in the local operation mode Remote operation mode In the remote operation mode local disconnection and connection is not possible In order to safely perform remote re connection of a disconnected customer the local connection enabled function is provided After local connection is enabled the customer can re connect his premises by operating the local button Once the premises are reconnected local disconnection is no longer possible Changing operation modes The operation mode of the disconnector can be remotely changed from remote operation mode to local operation mode and vice versa Default Operation mode on delivery the disconnector is delivered in the Local operation mode During a power outage the disconnector remains in the same status as before the outage After the power restoration the disconnector remains in the same status as before the outage D 000 027 080 aen Landis Gyr AMI Solution System Description Electricity Metering Equipment 57 83 Disconnector status e The disconnector status may be read e Every status change of the disconnector locally or remotely triggered is registered in the disconnector log book 7 4 Communication modules The communication modules make the metering data available to the
81. re saved into the AIM database and can be used for reporting or as a basis for new calculations For example they can be used for data aggregation purposes like combining the hourly profiles from all the metering points of a supplier AIM Tariff Calculation application is a versatile tool for converting profile metering data into periodic metering data to be used as the basis for billing Different periodic meterings can be generated from the same source profile meterings When hourly or with other periodicity profile data is available with AIM Tariff Calculation Time Of Use TOU tariffing can be done flexibly on the system levels without any limitations of nr of used tariff components switching times or nr of special days From the same raw profile data can even multiple tariffs be calculated for totally unbundled market situation like different tariff for energy sales company and another for distribution company needs It is also useful when planning new products and estimating the revenue incomes the new products would generate with the current consumption Reports can be generated manually or automatically Output can be directed to the GUI e mail printer or export file The format of the output varies from HTML Excel Workbook to Text format 5 5 Data exchange AIM has very versatile interfacing with other systems Besides the traditional making of flat files of data there is AIMIA integration platform which offers full 2 way inte
82. rough the application interface This interface hides all the PLC specific parts and it looks similar for all PLC technologies PLAN is implemented in the PLC broker behind Application interface Development of PLC broker is made very modular so that it could be used with other solutions as well For example the code could be implemented into different vendor s meters Inside the PLC broker it is possible to implement also different types of communication protocols and technologies The following standards are implemented e S FSK IEC 61334 5 1 as MAC amp Physical layer for modulation repetition scheme amp error control e IEC 61334 4 32 as LLC for addressing amp reporting mechanism D 000 027 080 a en Landis Gyr AMI Solution System Description Landis Gyr AG 52 83 Data Concentrator e IEC 61334 4 511 for network management detection of new stations Plug amp Play e COSEM Green Book amp Blue Book with additional PLC objects for metering data models Application interface DLMS Cosem AMIS AMIS D M va IDEP LON PL3120 Ve f X PL X Protocol X PLC C A Figure 13 PLC broker structure 6 2 6 Mechanical Design 6 2 6 1 Case Terminal Block and Terminal Cover Landis Gyr AG The case of the DC200 fulfils the requirements of IEC EN 62053 21 The case fulfils the requirements of protection class Il and is prote
83. s are shown in the following table o flashing 0 5 Hz Waiting for 50 Hz mains detection aii Waiting for synchronisation with data concentrator Ready to receive data flashing 3 3 Hz Receiving data flashing 3 3 Hz Transmitting data Module not registered at data concentrator on data concentrator unknown unlocked NEW flashing 0 5 Hz Module not registered at data concentrator g but data concentrator known locked off Module registered at data concentrator Jon Module is synchronised to the 50 Hz mains SYN off Module is not synchronised to the 50 Hz mains 7 5 2 Power outages on the PLC module In all cases the power down up events are registered by the meter node in the daily hourly profiles and in its event log The event logs are reported to the Central System If the clock status is desynchronised the daily values profile and the hourly values profile between power up and synchronisation time will be marked The tariff is set to LT until time is re synchronised The table below summarises the processes which will be automatically triggered to handle power down resume events with the PLC module D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 68 83 T lt 6h synchronised registered configurable 7 T gt 7 days de synchronised Electricity Metering Equipment No action for the meter node required The power down up is registered in the event log
84. ssions over the last 7 28 days and over the last 12 months Landis Gyr AG 82 83 Inhome Display Unit IHU ecoMeter 9 7 Message display Landis Gyr AG The ecoMeter can display messages sent by the utility The messages are sent via the electricity meter An incoming message is signalled by a flashing blue light After pushing the message button the message is displayed The messages are limited to 43 characters D 000 027 080 a en Landis Gyr AMI Solution System Description Appendix Communication Standards 83 83 10 Appendix Communication Standards CENELEC 50065 1 A1 IEC 61334 4 1 IEC 61334 5 1 IEC 61334 4 32 IEC 61334 4 41 IEC 61334 4 42 IEC 61334 4 511 IEC 61334 4 512 IEC 62056 21 IEC 62056 46 IEC 62056 53 IEC 62056 61 IEC 62056 62 ISO 7498 1984 FIPS 180 1 FIPS 198 D 000 027 080 a en Landis Gyr AMI Solution System Description Signals transmission on the low voltage electrical network in the frequency band of 3 kHz to 148 kHz Part 1 General rules frequency bands and electromagnetic disturbances Distribution Automation Using Distribution Line Carrier Systems Part 4 Data Communication Protocols Section 1 Reference Model of the Communication System Distribution Automation Using Distribution Line Carrier Systems Part 5 Lower Layer Profiles Section 1 The Spread Frequency Shift Keying S FSK Profile Distribution Automation Using Distr
85. stem and devices typically a service called GPRS IP Connect is used This service offers a GPRS GSM based connection from the central system over the telecom network to both the data concentrators and the meters equipped with the GPRS GSM module The service provider assigns a fixed IP address for each meter and concentrator End to end security is achieved by means of VPN tunnels The data concentrator is typically installed in the medium voltage MV low voltage LV transformer station and serves as a gateway between the LV PLC network and the public telecom network via GPRS or a Wide Area Network via Ethernet He manages the PLC communication over the power line The data concentrator performs scheduled or immediate readout tasks which have been downloaded from the central system It stores the daily billing values hourly profile values and events locally and keeps them available for transfer to the central system The concentrator polls the meters in regular intervals to supervise the connection to the meters to detect new meters and to gather registered values and status information from all meters Concentrators can exchange data with the central system over different communication channels The main functions of the concentrator are e manage the inventory and the status of the connected meters e execute jobs according to the defined task list e periodically gather registered values and store them locally e provide an
86. t independent intervals In case of direct meters the central system is responsible to collect events automatically by scheduled tasks upon requested intervals 3 5 4 Instantaneous meter reading The instantaneous reading of meter values is mainly focussed on the operator in the call centre that needs to directly connect to a single meter and check its current or historical values The operator can connect to the meter online and interactively select the type of values for readout The results are displayed on the screen and stored in a database for further usage The reaction time is optimized so that the whole procedure can usually be performed by the operator in the time frame of a telephone call The desired meter node can be selected through search filters using different search criteria such as serial number address information etc After selection the internal addressing is done with the serial number of the meter node see Figure 3 Instantaneous meter reading is restricted to electricity master meters Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Key Processes 25 83 Meter Co trator Centre m ERP System GPRS LAN LAN lects gt gt Optional ERP Sends request Optional CS forwards result to ERP Figure 3 Instantaneous meter reading Alternatively requests for an instantaneous meter reading through an electronic interface are possible 3 6 Network quality informatio
87. t logical devices can be addressed via link service access points L SAP MAC sub layer IEC 61334 5 1 Every meter node can be used as repeater The repetition with credit scheme defined in IEC 61334 5 1 allows optimal routing of the messages D 000 027 080 aen Landis Gyr AMI Solution System Description Communication 4 3 3 4 3 4 4 4 4 4 1 GPRS GSM 31 83 through the PLC network No prior knowledge of the network topology is required The initial repetition credits are permanently supervised by the concentrator and adapted to the current transmission conditions on the LV network In case of a communication problem the concentrator resends the message with maximum repetition credit of 7 Under good channel conditions the credits are decremented down to its optimal values Error control is done by means of a 24 bit Cyclic Redundancy Check code With a minimal Hamming distance of 6 this code can detect communi cation errors even under very bad channel conditions Physical layer IEC 61334 5 1 Spread Frequency Shift Keying S FSK is chosen because it offers the best robustness cost relation Further S FSK is the only modulation scheme which is standardised and published There are no property rights attached to this standard The following well established protocol standards are used Application Layer DLMS IEC 61334 4 41 IEC 62056 53 Link layer HDLC IEC 62056 46 Transport Layer TCP Inter
88. ter via the telecom provider The GRPS router registers new meters and maps the dynamic IP address to a fixed identification for the central system Additionally the GPRS router permanently maintains the link to the meter The central system is now able to connect to the meters and reads the manufacturer serial number the utility serial number the param_id identifying the contract type and the config_id identifying the type of meter The rest of the procedure is the same as for a meter with PLC module see above For GPRS GSM the coverage must be ensured prior to the installation GPRS GSM may be affected by the geographical topology and some other factors Sometimes an external antenna must be used Upon installation the signal strength can be checked and the antenna position optimized with the built in LED 3 4 Install new slave meters connected via the OCR module 3 4 1 OCR module connected to wired M bus The OCR modules are preconfigured during production The following oarameters must be set locally in the OCR modules during installation e Utility Serial Number of the slave meter connected to the module e Manufacturing Serial Number of the slave meter connected to the module e M bus address of the OCR module e ConfigID of the slave meter connected to the OCR module In addition the following parameters must be set in the communication module of the e meter e Communication parameters e g bus speed data f
89. the meter A 3 phase power failure is an event where the voltage of all 3 phases of the meter drops lower than 120 V for more than 200 msec Long power failure counter generated in comm module counts the sum of all 3 phase power failures gt N seconds A 3 phase power failure is an event where the voltage of all 3 phases drops lower than 150 vi N is configurable between 10 and 65536 seconds Voltage in phase 1 copy from ZMF in ZMF RMS over 5 seconds Voltage in phase 2 copy from ZMF Voltage in phase 3 copy from ZMF 1 1 31 7 0 Phase current A1 copy of the corresponding meter register only available in ZCF meters 7 4 3 Identification numbers The following information is available as Register objects according to IEC62056 62 Identification numbers can be used for several purposes Some of them can be set by the utility for its own purposes e g the utility IDs Other identification numbers are fixed and identify the hardware or the software of the device e g manufacturer serial number firmware ID Identification numbers are alphanumerical strings that can be read via communication All identification numbers are given a code according to the OBIS standard 7 4 3 1 Identification No for the Electricity Meter and Communication Unit This number is the link between the register with a 1 0 0 0 meter data and the consumer It is maximum of 32 Electricity ID e meter owned by the utility characters Copy
90. tion options e PLAN based 6 2 3 Communication interfaces to systems DC200 has several different interfaces to upper level systems components Main parties are AMR MessageMax and Configuration tool Message Max will handle push data according the schedules set in the DC200 Only predefined data will be sent from concentrator to MM interface AMR will handle add hoc readings direct controls and other additional commands that are not defined in push data context Configuration tool will be used for DC200 configuration and installation as well as software updates Non sctduled Open alons l crt 3 4 oor ee Figure 11 communication DC system Landis Gyr AG D 000 027 080 a en Landis Gyr AMI Solution System Description Data Concentrator 51 83 6 2 4 Concentrator architecture The concentrator platform can be roughly divided in three different platforms hardware OS and Embedded SW and application software 7 Buttons N Loo AMIS Pluto ul Qulputs lapus ARTE Terperaiure sens Convener i EEPROM GS matem COM Ports Fthermnet USB Hardware platform a Figure 12 DC200 architecture 6 2 5 PLC architecture The PLC architecture of the concentrator has a system component called PLC Broker PLC Broker communicates to other SW components th
91. vidual lists of meter nodes Tasks are also used to download schedules to the concentrators setting parameters to the devices download time of use table or download new firmware versions to devices D 000 027 080 aen Landis Gyr AMI Solution System Description Landis Gyr AG 36 83 AIM Central System E si ame Meee 5 La Thre a m age N 5 Ji as T o lea mr gt _ 2 EIRE b bes te ee wee tte Fos me et 04 0 cg ot wre IT Let m n S a ae lim Crt of tt foe at r et os s i gt r eee t e La ee mre pee bape bows simon pre I geo 4 tr ame Figure 5 Task Flows for Data Management 5 2 3 Network management A major challenge of residential metering is the administration and management of a high number of concentrators and meter nodes This core functionality of the central system is based on its highly efficient and powerful network management offering the following tools e Visualisation of the network structure with regions and concentrators e Search filter for quick access to all communication and meter nodes Search criteria and attributes of the nodes can be predefined at system setup and modified by the operator e Display of parameters attributes statistics status etc of all communication and meter nodes e Summary reports of new failed lost etc communication and meter nodes e Summary reports of statistic information status
92. ware as well as from external systems and programs 2 Operation Desk The Operation Service Desk is in charge of the daily operation of the whole system in the operation phase The Service Desk engineers have access to the A M central system The AIM central system provides a client software with a graphical user interface GUI to enable the operator to manage the system and visualize any definitions and data within the system The operator can access the application from his standard workstation PC located within the company network intranet or from external sites internet The access is protected by standard security policy such as user name password VPN RAS etc In addition the privileges to access functions and data can be managed by a super user AIM has also application which is targeted to utility s customer service or similar internal user group This application AIM Dashboard see separate document AIM_2 3 Dashboard_ProductDescription_v100_EN pdf is ext remely easy to use and provides immediate access to collected infor mation add hoc readings and relay controls 3 AMR Module The data collection module A M AMR communicates with data concentrators PLC connected meters or directly with the meters GSM GPRS connected meters in order to acquire daily register values profile values and all other related data and passes data on for further processing and presentation The meters adaptors are installed in private
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