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Digital Multifunction Protection
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INDEX 1.Key Features 2.Protection 3.Automation & Control 4.Metering and Power Quality 5.Recording 6.Scalability and Ergonomy 7.Applications 8.Models 9.Software
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Key Features smART P500
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Multifunctional Protection smART P500
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Key Features I Configuration scalable from Simple to Complex Distribution Networks thanks to Configuration Wizard Assistant Sampling Rate of 128 Samples / cycle ensures a very High Measurement Accuracy (detection of up to 63 Harmonic possible) More than 18 Protection and Control Functions including Synchrocheck and 4 Step Recloser Unlimited Directional Sensitivity Thanks to choice of Polarizing Voltages depending upon Application Trip / Close signals to Breakers with Single or Three Phase Control Advanced Metering and Power Quality: Total Harmonic Distortion CBEMA Events Voltage Sags and Swells Load Profile Trending smART P500
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Key Features II Sophisticated Oscillographic Records with User configurable Resolution (16, 32, 64 or 128 Samples / cycle), including Pre-fault Values and Fault Location 32 Fault Event Records 3500 Event records Reliability Indices reports for SAIFI, SAIDI, MAIFI, CAIFI, CAIDI and ASAI I /O Expandable up to 20 Programmable Inputs, 15 Programmable Outputs Programmable Front LEDs and Function Push Buttons including Manual Trip Close Push Buttons on the Front Local and remote Serial Communication Protocols: ArtCOM, MODBUS, DNP 3.0, Harris 5000, IEC 69870-5-101 & 104 smART P2P (16-Bit Peer to Peer) SMS ( Commands & Messages) and Web Server IEC 61850 Ready,… smART P500
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Key Features III Automation Configuration Flexibility through 40 Programmable Graphical Logic Equation Blocks Easy Coordination with Legacy Over Current Protection, thanks to configurable Reset Time Delay Local / Remote Control Switch Configurable Language: Spanish, English, Portuguese, French Configurable Nominal Current: 1 or 5 A Configurable Nominal Frequency 50 or 60 Hz Automatic Reconfiguration Algorithms for Distribution Networks Innovative Solutions: Load Shedding, Simple Busbar Protection, Back-up Protection,,… Tested against all International Standards (Dielectric, Impulse, EMI, Transients, Fast Transients,…) smART P500
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smART P500 Connecting Diagram
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HW Blocks smART P500 Blocks diagram
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HW 1 smART P500 Protective relay core consists of a DSP (CPU Digital Signal Processing). It performs Measurement and Protection algorithms as well as Data Storage and Communications. A FPGA supports the DSP, by controlling Analog Signal Acquisition, I/O ports, keyboard, display and LEDs, IRIG-B decoding and part of the basic algorithms for protection functions.
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HW 2 smART P500 In addition to the protection core consisting of DSP-FPGA dual management, it also features the following items: FLASH Memory. It contains the O.S. (Firmware) of the protection, the settings, and historical stored data. Flash Memory keeps all data stored in it whether the relay is powered or not. It also permits the modification of its stored data. Therefore, OS can be updated without any HW change. SRAM Memory. It stores time variable information. A lithium battery avoids data loss, in case of shutdown or no power supply.
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HW 2 smART P500 DRAM Memory. It stores dynamic data, not critical to protection relay operation. These data are loss in case of no Power Supply. QUART. A 4 x serial port control chipset. It allows the management of up to 4 serial ports simultaneously. Analog Input signals Acquisition system. Consisting of the analog inputs themselves, and a set of amplifying filters managing the signals prior to A/D conversion. After conversion, signals are translated into digital samples (128 samples/cycle) and processed by the DSP.
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Protection smART P500
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A sampling rate of 128 Samples per cycle (60 Hz Basis). leads to high measurement accuracy Open Phase: Settable 0,05 – 0,5 P.U. of I2 / I1 in steps of 0,01 P.U. Definite Time delay 0,05 – 300s in steps of 0,01s Current I
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Current II Phase, Ground and Neutral over current and Load Unbalance (Negative Sequence) / sensitive Ground, Current Settings 0,1 – 20 X IN in steps of 1 mA Sensitive Ground: 50 mA nominal, settable 0,025 – 10A in Steps of 0,001 A Instantaneous or Definite Time up to 60s in steps of 0,01s Various Over Current – Time curves as per IEC / ANSI / US / BS / Individual: Standard Inverse, Very Inverse, Short Time Inverse, Long Time Inverse and special Very Inverse, Moderately Inverse Up to 4 user defined curves are possible Time dial multiplier and Reset time delay (if applicable) Definite time for Individual curves. settable up to 600s
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A sampling rate of 128 Samples per cycle (60 Hz Basis) leads to high measurement accuracy Over and Under Voltage (Phase and Ground), Neutral Over Voltage 4 Steps Instantaneous or Definite Time up to 60s in steps of 0,01s Pick-up setting up to 300V in steps of 0,001V Voltage Unbalance: Negative sequence, 0,1 – 0,5 P:U. (V2 / V1 ) in steps of 0,01 P:U: Instantaneous or Definite time up to 60s in steps of 0,01s Voltage Transformer Fuse failure Voltage
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Frequency A sampling rate of 128 Samples per Cycle (60 Hz Basis) leads to high measurement accuracy 4 Independent Steps are available Under- Over Frequency: Pick-up 46 – 65 Hz in steps of 0,01Hz Definite time 0,05 – 600s in steps of 0,01s Hysteresis up to 1 Hz in steps of 0,1 Hz (user configurable) Rate of Change of Frequency: Pick-up 0,2 – 5 Hz/s in steps of 0,05 Hz/s Pick-up delay 3 -15 cycles in steps of 1 cycle Operate time delay up to 2s in steps of 0,01s Supervisory Frequency 40 – 70 Hz
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Directional A sampling rate of 128 Samples per Cycle (60 HZ Basis) leads to high measurement accuracy Phase and Ground / Sensitive Ground Over Current: Unlimited Directional Sensitivity for all asymmetrical faults thanks to choice of different Polarizing Voltages depending upon the application Forward / Backward / Bidirectional Maximum Torque Angle 0 – 900 in steps of 0,010 Operating time: as per settings of Over Current element Power: Active, Reactive and Apparent: Single and Three Phase, including Power Factor Operate time up to 60s in Steps of 0,01s Reactive Energy in 4 Quadrants Energy Accumulator In- / Outflow (independent)
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Automation & Control smART P500
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Synchrocheck A sampling rate of 128 Samples per Cycle (60 Hz Basis) leads to high measurement accuracy BUS / Line minimum Voltages up to 200V in steps of 0,1V BUS / Line Maximum Voltages up to 200V in Steps of 0,1V Voltage Supervision enables to choose one of different modes: Live line – Live Bus Dead BUS – Live line Live Bus – Dead Line Dead Bus – Dead Line Angle Difference: 0 – 900 in steps of 0,010 Frequency Difference: up to 5 Hz in Steps of 0,001 Hz Operating time: up to 100s in Steps of 0,01s
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Recloser Up to 4 Reclosing cycles can be selected or Recloser blocked Reclose Time: 0,1 – 600s in Steps of 0,01s Reset Time after Autoreclose / Manual Close: up to 600s in Steps of 1s (independently selectable) Current – Time Trip curves / Constant time Trip after each Reclose are independently selectable High Current Lock-out: Pick-up: 0,1 – 20 X IN Constant Time: up to 60s in Steps 0f 0,01s can be applied to each Reclose or by line pick-up independently
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Other Functions Breaker Failure: Pick-up: 0,2 – 2 X IN Operate Time: up to 60s in Steps of 0,01s Cold load Pick-up: Cold load Time: up to 10000s in Steps of 1s Operate Time: up to 3600s in Steps of 0,01s Load Profile (trending) Remote / Local Control Switches
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11 Digital Outputs expandable up to 15 without Firmware upgrade Trip outputs to operate Breakers with single or Three Phase control Programmable 11 Optoisolated Digital Inputs expandable up to 20 without Firmware upgrade Programmable 40 Programmable Logic Equation Blocks Trip / Close Pushbuttons 5 Programmable Buttons with LEDs Hot Line Tag Outputs & Inputs
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4 Ports to Support Local and Serial Communication: 2 X RS-232 1 X RS 485 Ethernet / USB / Bluetooth (Optional) IRIG-B for Time Synchronization Supported Protocols: BECO 7000, HARRIS 5000 MODBUS RTU, DNP 3.0 IEC 60870-5-101 & 104 smART P2P 16 Bit TCP / IP with Ethernet / Bluetooth Communication I
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Communication II Local / remote Access through these Ports enable to download the settings, upload the information stored in the relay (Records of Metering, Demand, Events and Oscillographic Fault Records as well as preliminary diagnostics Communication assisted Trip / Close operations possible IEC 61850 Ready Remote status via SMS Remote Control via ProART
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Metering and Power Quality smART P500
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Metering In addition to the Sampling Rate of 128 S / Cycle Measures such as Calibration at different Current Magnitudes enable to reach a Precision of Class 0,2% in Measurements (excluding the accuracy class of the customer CT core). Instantaneous RMS Values of Current (Phases, Ground and Sensitive Ground) Phase and Line Voltages (RMS) Sequence Currents and Voltages Active, Reactive and Apparent Power in all the 4 Quadrants including Power Factor (Single / 3 Phase) Active and Reactive Energy (Bi-directional) Rolling Maximum Demand of Currents, Voltages, Active and Reactive Power (Bi- directional) including Power Factor (calculated for Single or Three Phase) with User Configurable Integration Interval Sequence Components of Current and Voltage Signals Equipment Temperature Thermal Demand
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Metering
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Load Profile - Trending Up to 25 Parameters can be selected to be stored Instantaneous, Maximum and Minimum Demands per Phase and Three Phase Currents, Voltages Active, reactive and Apparent Power including Power Factor Average Interval up to 60 min in Steps of 1 min. Up to 3000 Values can be stored
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Power Quality Total Harmonic Distortion (THD), Crest Factor (CF), Distortion Factor (DF) of Current and Voltages for each Phase PQ Events: Voltage-Sags, -Swells, Voltage and Current imbalances, Phase and Supply Voltage loss, Short and long Voltage Variations, Frequency Variations CBEMA Parameters Reliability Indices: System Average Interruption Frequency SAIFI) System Average Interruption Duration Index (SAIDI) Momentary Average Interruption Frequency Index (MAIFI) Customer Average Interruption Frequency Index (CAIFI) Customer Average Interruption Duration Index (CAIDI) Average Service Availability Index (ASAI)
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Power Quality
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Recording smART P500
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Event Records I For the last 32 Faults: Pick-up, Trip, Reclose, Lock-out, and Fault Duration Pre-fault Values of Voltage and Current for each Phase, Neutral and Sensitive Ground Activated Protection Elements Reason for Trip Fault Direction Active Settings Group
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Event Records II Sequence of Events Changes in Protection Configuration States of Digital Inputs and Outputs Automated Functions, Statistical Data related to the operation and Supervision of the Equipment Metering Accuracy Signals from Supervision Elements, etc Each Event contains its corresponding RMS Values of Current and Voltage A Total of 3500 Events can be stored. The customer can configure the Events to be Recorded.
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Fault Record
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Oscillographic Records Current and Voltage Waveforms up to 3000 Cycles for Faults and for User selected Events can be stored Customer can choose: The Number of Samples / Cycle (16, 32, 64 or 128) The Number of Cycles of Pre-Fault Values (up to 20) Total Number of Cycles per Record Total Number of Records that can be stored depends upon the choice of the above Parameters For each Fault Record, the Fault Location is also calculated Harmonic Analysis
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Oscillography II
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SOE- Sequence of Events
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Reliability - Monitoring and Self Diagnostics Auxiliary Voltage Supply Breaker Control Circuits (Close / Trip) Voltage Transformer Secondary Circuits (Fuse Failure) Breaker Wear Phase Sequence Continuous Monitoring Internal (Continuous Monitoring) Voltages Hardware (A/D-Converters, Flash SDRAM, SRAM,…) Inputs and Outputs Display Keyboard
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Scalability and Ergonomy smART P500
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Configuration I Configuration Wizard allows the User to select only those Functions and Features required for his application. All the other Functions will be masked out providing Flexibility of Configuration Simplicity of choosing the Settings Ease of Navigation Configurable Settings include: Protection, Control and Measurement Functions LEDs and Front Programmable Keys Communication Parameters for Serial Ports and Communication Profile
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Configuration II The Programmable logic Blocks can be configured easily to design the Automation and Operation needs Waveform Records IRIG-B Time Synchronization,… etc Up to 6 Setting Groups can be configured enabling Easy Adaptation to changing Service Conditions and to the future operating requirements of Smart Grids The Settings can be uploaded to the Equipment either locally or using Remote Communication Thanks to the programmable Reset Time delay of the Current Elements, Easy Coordination with Legacy Equipment is possible.
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Using the Keyboard in the Front Panel the stored Values: Relay Parameters Event reports Other records Relay Status,… etc Can be checked on the Display above the Keyboard Ergonomy
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Applications smART P500
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Applications Reconfiguration of a Distribution Network (Ring) Reconfiguration of Loads in a Distribution Substation Using Load Profiles, Frequency and Voltage Simple Busbar Protection Using Directional Comparison (Incoming Vs Outgoing) Load Shedding Simple Busbar Protection Directional comparison allows better coordination and selectivity Upstream and feeder blocking schemes
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Applications
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Models smART P500
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Models ApplicationModel Recloser ControlsmART P500 RC Feeder Management RelaysmART P500 AL Cap Banks ProtectionsmART P500 BC
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Software Software proART
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Monitor and configuration SW
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Real Time Monitor
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