6135A/PMUCAL Phasor Measurement Unit Calibration System

6135A/PMUCAL
6135A/PMUCAL
6135A/PMUCAL
6135A/PMUCAL
6135A/PMUCAL
6135A/PMUCAL

Fast, automated, traceable calibrations that comply with IEEE C37.118.1™-2011

Today’s smart grid relies on phasor measurement units (PMUs) to deliver real-time, mission critical data on the voltage, current, frequency and phase within the distribution grid. To ensure consistent, accurate and credible PMU data, it is essential that PMUs be properly calibrated.

The 6135A/PMUCAL Phasor Measurement Unit Calibration System is the only fully automated and traceable PMU calibration system available today. It is an ideal solution for PMU designers and manufacturers, as well as for national metrology institutes (NMIs). It’s also a perfect solution for third party calibration houses, electrical power utilities and organizations associated with electrical power transmission.

Applications include calibrating PMUs before they are installed, and as required throughout their operational life; performing type tests of PMUs and other power grid tools; and performing first article approvals. Because the 6135A includes a three-phase 6135A Electrical Power Calibration Standard, you can also use it to calibrate wide workload of electrical power and power quality test instruments.

The integrated 6135A/PMUCAL system fully complies to the IEEE C37.118.1-2011 and section 7 of IEEE C37.242:2013 standards for PMU operation and verification. Because it is fully automated, even non-expert users can start using it quickly, performing a complete complement of required tests in just a few hours, as opposed to many days with manual techniques.

6135A/PMUCAL at a glance

The 6135A/PMUCAL system enables you to:

  • Calibrate and test a PMU from a client PC, either at the site of the test system or remotely over the Internet
  • Quickly set up a PMU test
  • Speed through automated calibration procedures or interactively do custom PMU testing
  • Provide the required static and dynamic voltage and current conditions that occur in a power distribution grid specified by the standard
  • Apply those signals to a phasor measurement unit
  • Capture the PMU’s reported results
  • Evaluate the total vector error (TVE), frequency error (FE), and rate of change of frequency error (RFE)
  • Compare those results with the original stimulus
  • Evaluate against the thresholds defined in IEEE Std C37.118.1™-2011
  • Create test reports, graphs and calibration certificates that can be readily printed or shared electronically

 

The 6135A/PMUCAL system is made up of these hardware components, shipped in a 19-inch system rack with an integrated test connection panel:

  • Three-phase 6135A Electrical Power Standard: Includes one 6105A Electrical Power Standard Master Unit and two 6106A Electrical Power Standard Auxiliary Units. Provides voltage and current stimuli to the PMU under test
  • 6105A System Timing Unit: controls timing and synchronizes the tests done throughout the calibration system
  • GPS receiver: supplies the 6135A/PMUCAL system and the PMU under test with a source of Universal Coordinated Time (UTC)
  • Server PC: functions as a dedicated application controller, receiving commands from the client PC to control the calibration system

A user-supplied client PC is also required, separate from the server PC but connected via a common network.

Calibration software is the control interface to the 6135A/PMUCAL system, enabling you to configure the testing process and control the testing and calibration of the PMU under test. The software is also an advanced capability analysis tool for the test results. Two modes of operation are available. In Simulate Mode, the software operates without being connected to an actual PMU, but rather simulates the PMU responses in order to do test development, system training, or use the calibration software without actually being connected to a calibration system. The PMU Test Mode enables you to test a PMU and collect actual testing data.

With the software on a client PC, you can use it to:

  • Fully test a PMU to the IEEE C37.118.1-2011 standard with the pre-loaded suite of required tests
  • Perform custom testing on a PMU to verify operation in ways not specifically required by the standard.
  • Refer to test data for results and analysis
  • Modify and create new testing procedures as needed

The test system architecture allows the client PC to access the test system over the Internet, from anywhere in the world. You can complete an automated PMU test in approximately six to twelve hours per PMU configuration (frequency, sample rate, class), compared with many days using manual techniques. And the initial setup is also fast – less than an hour of user interaction is required at the beginning of the automated test.

System accuracy yields a typical test accuracy ratio of 40:1 against the the IEEE C37.118.1-2011 measurement requirements.

Creating reports with the 6135A/PMUCAL system is flexible and convenient. Pre-configured reports are included with the system to help you minimize creation time. Use these reports “as is” or as templates that you customize to meet your specific needs.

6135A Electrical Power Standard Three-Phase System

The 6135A Electrical Power Standard Three Phase System at the heart of the PMU calibration system can be operated in standalone mode, independent of the 6105A System Timing Unit and the server PC. The 6135A sets a new benchmark for accuracy in electrical power calibration standards. Voltage and current are generated with up to six digits precision and accuracies better than 0.005% (50 ppm). Phase adjustment provides for 1 milli-degree or 10 micro-radian resolutions. Phase performance is exceptional, with voltage to current phase accuracy to 2.3 milli-degrees for the 6105A. Voltage-to-voltage phase accuracy is 5 milli-degrees.

Use the 6135A to generate a wide variety of complex signals, including flicker; harmonics; dips and swells; interharmonics; fluctuating harmonics; simultaneous application.

This feature gives you enormous flexibility to calibrate a wide workload of electrical power test instruments, including:

  • AC voltmeters
  • AC ammeters
  • Current transformers
  • Flicker meters
  • Phase angle meters
  • Power factor meters
  • Power analyzers
  • Power recorders
  • Power transducersrelay testers
  • VA meters
  • VAR meters
  • Voltage transformers
  • Wattmeters (3- or 4-wire)
  • Watthour meters
  • and more

Client PC requirements

  • Microsoft Windows 7 operating System
  • Microsoft Excel 2003 or later
  • 2 GHz processor
  • 2 GB RAM
  • 20 GB free hard disk storage space for program and data
  • Network connection at > 300 KB/s
  • 32X DVD drive to install calibration software

Electrical Source Accuracy Specifications

See specifications in the 6100B/6105A Users Manual.

Output voltage, per phase 1008 V
Output current, per phase 21 A
Output current compliance 9 V
Output frequency range 16 Hz – 6 kHz

Performance Specifications for C37.118.1-2011 Tests

Parameter TVE (%) FE (Hz) RFE (Hz/s)
Steady state 0.1 0.0005 0.001
Dynamic, modulation 0.3 0.001 0.02
Dynamic, ramp 0.1 0.0005 0.01

PMU Test: Limits to Range of Influence Quantities General Test Limits

Influence Quantity Range (voltage) Range (current)
PMU nominal frequency 50 Hz or 60 Hz 50 Hz or 60 Hz
PMU nominal magnitude 10 V to 240 V 0 A to 10 A
Signal magnitude (percent of PMU nominal) 10 % to 120 % 10 % to 200 %
Signal frequency range 44.0 Hz to 65.9 Hz 44.0 Hz to 65.9 Hz
Test duration (single test) 1 to 65,535 seconds 1 to 65,535 seconds

Steady State Tests

Influence Quantity Range
Phase angle ±180 ˚
Harmonic distortion - harmonic order1 2 to 100
Harmonic distortion - harmonic index 2 0 % to 40 %
Out of band interference frequency 5 Hz to 180 Hz
Out of band interference magnitude (percent of PMU nominal voltage) 3 0 % to 40 %
Notes: 1 Maximum harmonic frequency is 6 kHz. 2 Within the 6135a amplitude/frequency profile limits. See the the 6100B/6105A user’s manual for details. 3 Limited to 30% of 6135A range setting. See the 6100B/6105A user’s manual for details.

Modulation Tests

Influence Quantity Range
Signal magnitude 100 % of PMU nominal voltage/current
Signal phase angle ±180 ˚
Modulation frequency 0.1 Hz to 12 Hz
Amplitude modulation index 0 to 0.1
Phase modulation index (radians) 0 to 0.1 radians
Settling time 0 to 10 seconds

Frequency Ramp Tests

Influence Quantity Range
Signal magnitude 100 % of PMU nominal voltage/current
Frequency ramp 44.0 Hz to 65.9 Hz
Ramp rate 0.1 Hz/s to 6 Hz/s
Phase shift ±180 ˚
Transition time 0 to 255 reports

Input Step Change Tests

Influence Quantity Range
Signal magnitude 100 % of PMU nominal voltage/current
Frequency 44.0 Hz to 65.9 Hz
Phase shift ±180 ˚
Amplitude step magnitude1 0 to ±50 %
Delay before step 255 seconds
Number of steps 2 1 to 40
Notes: 1 Positive amplitude step cannot exceed the 6135A range limit. See the the 6100B/6105A user’s manual for details. 2 PMU response and delay times are small relative to PMU reporting intervals so multiple steps are staggered to increase the resolution of the measurement.

General Specifications

Input Power
Voltage 100 V to 240 V with up to ±10 % fluctuations
Frequency 47 Hz to 63 Hz
Maximum consumption 3,500 VA Max
Dimensions
Height 1,170 mm (46 in)
Width 600 mm (24 in)
Depth 800 mm (32 in)
Weight 170 kg (374 lb)
Weight in shipment crate 210 kg (462 lb)
Environment
Warm-up time 1 Hour
Temperature and performance:
Operating 5 °C to 35 °C
Storage 0 °C to 50 °C
Transit temperature range and limited time transit conditions 0 °C to 50 °C. Transit outside this temperature range (-20 °C to 0 °C, or 50 °C to 60 °C) must be limited to <100 hours
Relative humidity:
Operating <80 % 5 °C to 30 °C ramping down linearly to 50 % at 35 °C
Storage <95 %, non-condensing 0 °C to 50 °C
Operating altitude 0 m to 2,000 m
Storage altitude 0 m to 12,000 m
Standard and Agency Approvals
Safety Complies with IEC 61010-1, overvoltage category II, Pollution degree 2
EMI/RFI/EMC IEC 61326-1: Controlled EM environments, FCC part 15 sub-part B class A
Model Name Description
6135A/PMUCAL

 Phasor Measurement Unit Calibration System