1 / 29

Automatic Meter Reading (AMR) & Relevance of Interoperability

Automatic Meter Reading (AMR) & Relevance of Interoperability. Motivation beyond AMR Benefits Various communication options Interoperability Standardization issues Present status Conclusion CPRI’s activities in AMR. Topics covered.

gackley
Download Presentation

Automatic Meter Reading (AMR) & Relevance of Interoperability

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Automatic Meter Reading (AMR) & Relevance of Interoperability

  2. Motivation beyond AMR Benefits Various communication options Interoperability Standardization issues Present status Conclusion CPRI’s activities in AMR Topics covered

  3. Necessity to automate the operation of Energy Meter Reading. To generate data base – can be used for different application apart from billing – e.g. Load profile, network expansion etc. Methodology oriented towards use of available infrastructure & technology. Tariff – open plan – (Metering tariff similar to Telecommunication sector) Motivation

  4. For better relationship between utilities (Electricity provider) and Electricity Consumers. Utilities get better control and monitoring of electricity consumption. Utilities are implementing 100% metering and Static Meters are also finding their place in utilities. Online data base. Need Control Centre System Meter Communication Channel

  5. Benefits of an AMR system include • Save on regular "on-cycle" meter reading. • Obtain more easily (and in some cases, instantly) initial and final meter readings for opening and closing accounts. • Streamline high bill investigations. • Flag potential high consumption before customers get a high bill. • Help pinpoint system losses. • Help detect theft of service.

  6. Enable custom billing dates. • Support customized rates (e.g., for large customers). • Provide detailed consumption information to customers. • Provide watchdog services, like leakage monitoring, • peak period billing. • Improve cash flow management. • Improve revenue forecasting, by tying detailed • consumption information to production data and • expected billings. • Aid in tariff design (postpaid / prepaid – various packages).

  7. Enable more frequent readings with little incremental cost. • Enable more sophisticated rates; i.e., more closely track costs, or encourage energy conservation. • Improve meter management; ensure meters are properly sized; determine optimal time in service or cumulative registration. • Reduce bill adjustments.

  8. Metering Information Disconnections & Reconnections Transfers & Vacancies Managing Credit Customer Complaints Collecting Cash Revenue Protection Power Quality Customer Billing What a Distribution Utility does Tariff design Load Forecasting System Expansion System Operation Energy Accounting Distribution Automation System Losses System Maintenance Load Control Information We Can Get From Intelligent Metering State of art Energy Meters with Automatic Meter Reading system & backend I.T. support can provide all these information. INFORMATION WE CAN GET FROM INTELLIGENT METERING

  9. Most of protocols derived from OSI 7 layer model and most of them are based on 3-layer DLMS (Distribution Line Message Specification) IEC standards IEEE standards ANSI standards European CENELEC standards Proprietary standards Communication Protocols

  10. For economical and the nature of data flow, different media are used. Power Line Carrier Communication (PLCC) Public Switched Trunk Network (PSTN) – Conventional Telephone Radio - VHF & Microwave / VSAT & GSM/CDMA Optical Fiber Cables (OFC) Communication Medium

  11. Various AMR Technologies • PLCC (Power Line Carrier Communication) also known as Distribution Line Carrier Communication (DLCC) for Low Voltage lines. • PSTN (Public Switched Telephone Network) • GSM (Global System of Mobile Communication) • CDMA (Code Division Multiple Access) • LPR /SRR (Low Power Radio / Short Range Radio) • VSAT (Very Small Aperture Terminal)

  12. New Technologies • ZigBee • It works on 2.4 Ghz ISM (INDUSTRY SCIENTIFIC MEDICINE) band • Use of this band do not require any license in many countries • Frequency used is 915 Mhz in USA and 868 Mhz band in Europe • Has low power consumption • Simpler & cheaper than Bluetooth • Can form routed mesh network

  13. High Initial cost Suitable for Grid metering. Used where real time data is required VSAT (Very Small Aperture Terminal)

  14. AMR – Capturing meter data electronically (local / remote) and transferring to billing centers. AMI – Collecting as much as details of consumer loads (load profile), process and present relevant data & statistics to relevant users (billing, planning, vigilance, regulatory, consumer, executive management, energy audit /account group etc) – Software centric. Smart Metering – AMI + (Demand Side) control (consumer / utility or both) AMM – Generic AMR / AMI / Smart Metering / AMM

  15. Meter data is becoming vital part in deciding many of the performance and planning parameters of utilities. Many of utilities are looking for automation to manage huge amount useful data generated from meters and other sources of grid/network. AMR is becoming part of DA/DSM/SCADA leading to AMI / Smart metering solution. AMR / AMI is becoming best tool to check AT & C losses and control / detect pilferages. Why Immediate Attention?

  16. Area - 56,000 sq km. Number of districts - 7 Total population - 130 Lakhs Total Consumers - 3 Million. No. of Distribution transformers - 75,000 Length of HT lines - 49,000 Circuit Kms Length of LT lines - 97,000 Circuit Kms Statistics - DISCOM

  17. Interface & Feeder meters (mostly along with integrated SCADA) HT consumers (Industrial & Commercial) Distribution Transformers (DTs) LT consumers (commercial and domestic) All other categories (100% metering, 100% AMR) Implementation Phases

  18. Different user groups and applications require different sets of data from meter data bank. A simple application may require merely a daily consumption for simple billing and pilferages monitoring (ex. residential). Planning wing of a utility may require load profile data for a typical industrial / commercial area to make decision for load splitting or for enhancing capacity of transformers. This calls for standardized open protocol for accessing required / selective meter data for each type of user in a more efficient, secured and reliable way. Interoperability

  19. At present there is no unique International product standard for AMR. Few countries are already having their own National specific AMR standards (e.g. China). However many National and International bodies / organisations are working on standardization. Standardization Issues

  20. Generic standard for AMR is available (adopted from relevant IEC standards) – IS 14451 (part 1 & 2): 1999 (Reaffirmed 2004) - Telemetering for Consumption and demands. This standard refers following cross references for type test requirements of AMR systems and meters IS 1766: 1998 - Time Switches for Metering and Load control. IS 13779: 1999 - AC Static Watt-hour Meters, Class 1 & 2 - Specification. IS 14697:1999 - AC Static Transformer operated watt-hour and VAr -hour Meters, Class 0.2 S and 0.5 S - Specifications. IS 15707:2006 Testing, Evaluation, Installation and Maintenance of AC electricity meters - Code of practice. CBIB TR No. 88: 1999 – Specifications for AC Static Electrical Energy meters ( + cross references within above all standards) Apart from above, specific communication protocol tests are required – few standards are IEC 62056 (DLMS /COSEM). Indian Scenario

  21. IEC 62056 (dlms) FEATURES Meter Protocol standard ADOPTED BY IEC AND CEN OPEN STANDARD MULTI ENERGY MULTI MEDIUM SELECTIVE ACCEESS INTEROPERABLE CONFORMANCE TEST TOOL INSTANTANEOUS VALUES PROFILES TARIFF READINGS POWER QUALITY PARAMETERS AND OTHERS OBJECT MODELLING - COmpanion Specification for Energy Metering [COSEM] DATA IDENTIFICATION – Object Identification System [OBIS]

  22. Worldwide many utilities are having pilot / commercial deployment of AMR / AMI systems (many with integrated SCADA). In India too, many utilities are coming up with pilot / commercial deployment of AMR To name a few - BESCOM, NDPL, BSES- R & Y, BEST, SOUTHCO, MGVCL, MPMKVVCL (source: Websites/periodicals/reports/correspondence) Present Scenario

  23. GSM CDMA Mobile Telecom Scenario Global Standards • User Friendly. • Manufacturers adhere to standards. • Voice • Data Supported • Many value added services. • Rate of growth is Fast.

  24. Future Meters - Vision Local Intelligent Meter Display Unit Pole mounted Cluster AMR meter cubicles 45.00 230V 11kV/440V 35.25 SS 33/11kV 07.00 Internet Billing Server / EMS DISCOM – HQ MIS

  25. To have a similar growth in power sector any meter of any make shall be needed by any application from anywhere. Need for Seamless Connectivity For any AMR system, mix up of different communication technology is required for end to end complete solution. The communication technology for different levels of AMR systems are to be decided based on existing communication infrastructures of utility, cost, purpose of AMR (billing, load profile, valued added services, outage management etc) and ease of installation. Conclusion

  26. Integrated AMR enabled meters reduces cost Modem cost is falling & further reduction in overall cost is possible in near future due to massive deployment of AMR systems by utilities. Selection of appropriate communication medium also plays vital role in determining cost & reliability of AMR. Conclusion (Contd.)

  27. Utilities get online data regarding energy consumption, generation, loss and revenue. Energy theft can be minimized and defaulters can be penalized by disconnecting the supply remotely. Use of available technology & infrastructure - by integrating system to suit the requirements like adapting different communication media & protocols like IEC. Open protocol implementation simplifies integration of meter network to ERP / SCADA system of utility. Conclusion

  28. Offer consultancy in building AMR system and testing & evaluation of AMR systems. AMR Feasibility studies. Technology & product assessments including communications technologies. Conformance test tool for IEC 62056 / DLMS compliant meters and developmental assistance. Collaborative work in development / standardization of product, evaluation & testing of product and commercial / pilot scale deployment. CPRI’s Services in AMR

  29. Questions ? shiva@cpri.in

More Related