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Super User

SCOPE introduces state of the art precision single phase Transformer Turns Ratio Meter (TTRM ) designed for field testing as well as factory testing of power transformers, instrument transformers and distribution transformers of all types. TTRM 101 measures only turns ratio where as TTRM 102 along with turns ratio, measures ratio deviation, phase angle deviation, magnetizing current and detects tap-position of single phase transformer in charged switchyard condition. The range of AC voltage selection offers high accuracy in measurement.Both the instrument have in-built TFT display with touch screen and thermal printer. The user friendly, simple instrument makes the testing more easy. With the touch keypad it is possible to enter required DUT information.The ratio results are displayed with % error. Internal non-volatile memory gives the provision of storing test results.Further data can be downloaded to PC or copied to memory stick through USB port provided.

The C-Trans-software, gives the flexibility to download the stored results to PC and do the further analysis and report generation.

Features

  • Different voltage ranges provided for more accurate results
  • 5.7” TFT display with touch screen and simple menus to operate TTRM
  • Facility to configure transformer ID and details
  • Automatic OLTC operation for tap change
  • Date and time stamping to results
  • In-build memory to store the test results
  • Thermal printer to take quick print out for record
  • Ethernet port for PC interface to transfer records to PC Software
  • Mass storage device (USB 2.0) interface for copying records in pen drive
  • Lightweight, portable instrument household in rugged moulded case

 

Specifications

  Parameter Test Voltage      Range     Resolution Accuracy
1
                 
Ratio 10 V 0.8000 – 9.9999 0.0001

0.05 %

10.000 – 99.999 0.001

0.05 %

100.00 – 999.99 0.01 0.05 %
1000.0 – 1500.0 0.1 0.05 %
1500.1 – 2000.0 0.1 0.1 %
2000.1 – 4000.0 0.1 0.2 %
40 V 0.8000 – 9.9999 0.0001 0.05 %
10.000 – 99.999 0.001 0.05 %
100.00 – 999.99 0.01 0.05 %
1000.0 – 4000.0 0.1 0.05 %
4000.1 – 9999.9 0.1 0.25 %
10000 - 13000 1 0.25 %
100 V 0.8000 – 9.9999 0.0001 0.03 %
10.000 – 99.999 0.001 0.03 %
100.00 – 999.99 0.01 0.05 %
1000.0 – 4000.0 0.1 0.05 %
4000.1 – 9999.9 0.1 0.15 %
10000 – 13000 1 0.15 %
13001 - 20000 1 0.20 %
2   

Excitation Current

(Only in TTRM 102)

10 V 2000 mA 0.1 mA ± 1 mA
40 V 500 mA 0.1 mA ± 1 mA
100 V 200 mA 0.1 mA ± 1 mA
 3  Phase Deviation

(Only in TTRM 102)

10V / 40V / 100 V

± 180 Degree 0.01 Degree ± 0.05 Degree

 

Parameters TTRM 101
No of channels single HV channel and single LV channel
Test Voltages 10V, 40V and 100V AC selectable voltages
Measurements Ratio, Ratio error
OLTC Control Raise and Lower control to operate OLTC
Test Results Display (TFT) display, Thermal Printer.
Test Leads Suitable to test EHV Transformers
Printer Inbuilt Thermal Printer
Paper Thermal, 58 mm wide roll form
Memory Inbuilt memory, can store 50000 records, with date and time stamping. USB port to copy record in pen drive
Power (110V ± 15%) / (60Hz ± 10%) OR (230V ± 15%) / (50Hz ± 10%), 75VA..
Communication Port Ethernet port.
Housing Fitted in moulded case
Environment 0: -20°C to 55°C 95%RH (non-condensing) Electrical noise normally found in charged EHV switchyards
Dimensions 435 X 315X 175 mm. (Max.)
Weight 10 Kg Approx

SCOPE offers HPT Series of High Voltage Test Sets capable of injecting variable High Voltage from zero to maximum rated output voltage continuously. Wide range Hi-Pots, up to 50kV, are available in different output options such as power frequency AC or DC or AC-DC Combined. HPT Series is specifi cally designed for safe and accurate measurement of leakage current to evaluate insulation integrity of transformers, motors, insulators, cables etc. Years of Design, engineering and manufacturing experience have made HPT Series of High Voltage Testers the most durable, easily operated and best-designed sets in the segment.

The product was designed considering the importance of safety of the operator and thus we provide independent Control Unit & High Voltage Transformer. The kit has various interlock to avoid any kind of accident while doing the high voltage test set.

Features

    • User friendly and simple operation
    • Compact, Lightweight and Housed in rugged transport case
    • Ideal choice for testing dielectric withstanding capacity of insulation
    • Available with the option of Combine or Separate Control Unit
    • Analog or Digital meters is provided for displaying output voltage in kV and current in mA
    • Different Protections / Interlocks to ensure user safety such as Variac Zero Interlock, Emergency Stop,Overcurrent Protection, Short Circuit Protection, Earth OK Interlock, Input Supply Protection etc.
    • User-friendly indications such as Power ON, HV ON-OFF, Earth OK, Over / Under Voltage etc.
    • Optional Timer, Foot / Hand Switch and Beacon / Buzzer for additional Safety
    • Protective terminals to prevent any accidental contact with HV
    • Automatic discharge upon shutdown

Specifications

Model
Output Voltage


Max Output Current Option (Imax)


AC DC 10mA 20mA 25mA 50mA 100mA
HPT 3A 3kV -
HPT 3D - 3kV
HPT 3C 2kV 3kV
HPT 5A 5kV -
HPT 5D - 5kV
HPT 5C 3kV 5kV
HPT 10A 10kV -
HPT 10D - 10kV
HPT 10C 7kV 10kV
HPT 15A 15kV - -
HPT 15D - 15kV -
HPT 15C 10kV 15kV -
HPT 20A 20kV - -
HPT 20D - 20kV -
HPT 20C 14kV 20kV -
HPT 25A 25kV - -
HPT 25D - 25kV -
HPT 25C 17kV 25kV -
HPT 30A 30kV - - -
HPT 30D - 30kV - -
HPT 30C 21kV 30kV - -
HPT 40A 40kV - - -
HPT 40D - 40kV - -
HPT 40C 28kV 40kV - -
HPT 50A 50kV - - -
HPT 50D - 50kV - -
HPT 50C 35kV 50kV - -

 

Cable Fault Locator

Underground cable faults cannot be avoided due to many factors such as road widening, infrastructure improvement, digging carried out for repairs of other underground utilities etc.

These faults generally take long time to detect and hence long time to repair the damaged cables and restore the power supply. Long outages cause heavy production loss to industries, revenue loss to power distribution companies and inconvenience to general public. This calls for quick fault location and restoration of power supply in minimum possible time.

An ordinary fault locating kit comprising of diagnosis set and pin-pointing equipment can take long time to locate fault point. SCOPE offers pre-locator instruments that can give the fault distance to help the operator for reaching the spot quickly and pin-pointing the fault in a short time.

CFL PL3, new generation Cable Fault Pre-Locator from SCOPE is the ultimate solution for locating underground cable faults in minimum time. It uses advanced technology for fault distance measurement which helps even an unskilled operator to locate the fault with accuracy.

CFL PL3 is an advanced fault locating instrument. Three operating modes offered by the instrument enable the operator to locate all types of faults on any cable in minimum possible time.Complex and difficult to locate nature fault are located by CFL PL3 with high accuracy. These features classify the instrument to be a part of fault locating kit of Heavy Industries & Power Distribution Company.

Features

  • Measuring rage up to 16 km.
  • Large LCD & User friendly operation.
  • Adjustable Balance of instrument resistance to suit the cable under test.
  • Adjustable Gain for optimal waveform resolution.
  • Facility to store & compare the waveforms.
  • Memory to store up to 50 waveforms.
  • Housed in rugged, IP class moulded case.
  • PC connection via RS 232.
  • Printer connection via RS 232 (Printer is optional).
  • Compact and light weight.
  • Large range of Propagation Velocity from 90 to 300m/μS covers all type of cables including-pilot and telecom able with any type of insulation.

Specifications

  • Transmitting Pulse Amplitude : 30V
  • Transmitting Pulse width : 40ns-3.56μs
  • Voltage withstand : 400V AC (50Hz)
  • Output impedance : 5-80Ω
  • Measuring Range : 0-16 km
  • Sampling Speed : 100MHz
  • Resolution : TDR Mode and SIM Mode : <± 1m up to range <4km <± 4m for ranges >4 km ICM Mode : <± 4m up to range <4 km <± 16m for ranges >4km
  • Propagation Velocity : 90-300m/μs.This range covers all the cables including pilot and telecom cable with any type of insulation.
  • Ranges : 500m, 1km, 4km, 5km, 8km & 16km. The operator can choose right range to get better resolution at fault point.
  • Balance Adjustment : Under TDR mode it is required to balance the instrument resistance to suit the cable under test with this control the instrument resistance can be varied between 5 ohms to 79 ohms.
  • Memory : 50 waveforms
  • Display : 320x240 pixels
  • Charging voltage : Input: 230V AC: Output: 8.4V±10% DC
  • Operating time of rechargeable batteries: Approx. 5hrs
  • Operating Temperature : -10˚C to 50˚C
  • Storage Temperatures : -10˚C to 70˚C
  • Type of protection IP 54 : Splash proof and dust protected
  • Dimensions : 330 x 305 x 152mm
  • Weight : 3kg

Video

 

”XC 2100E, a Fault Location System based on principle of travelling wave detection is the solution to above problem. It can detect not only permanent fault, but also transient fault within one tower span accuracy (with best accuracy of ±50 meters). It is a kind of Line Monitor for continuous monitoring of transmission lines and gets triggered whenever travelling waves are generated on line due to switching, lightening or fault.

There are various methods employed for fault location detection. However the most suitable is Double End Method in which XC 100E are installed on both ends of the line, and are time synchronised by built-in GPS Module.

The data from both Units is brought to a Master Station where the Master Station Software XCF 2100E is installed. It automatically calculates the distance of fault from each end of line. Each XC 100E is capable of monitoring up-to 8 lines and the Master Station Software is capable of handling large no. of lines in a network.

Features

  • TWFL system is free from influence of following factors which aff ect fault location accuracy of impedance based measurement methods like:
    • Resistance of line
    • Voltage & Current Transformer (CT & PT) errors
    • Insufficient accuracy of line parameters due to neglecting of line transposition, distributed capacitance etc.
    • Uncertainty of zero sequence impedance due to variation of earth resistance along the line corridor
    • Load flow
  • TWFL system monitors travelling waves at both ends of transmission lines & provides accurate fault location(fault distance, tower number) for all type of power lines including:
    • AC, HVDC and Series Compensated Transmission Lines
    • Lines with T branches
    • Lines containing cable and overhead line sections
    • Measuring fault distance of single phase to ground fault in non-eff ectively earthed Distribution System
  • Travelling wave measurement technique used gives fault location within one tower span and with best accuracy of ±50 meters irrespective of line length, line parameters, fault resistance, CVT transients, conductor & tower geometry.
  • Such accurate fault location greatly reduces the search time to find out the fault to help quick recovery of the system.

Specifications

Parameter XC-2100E
No. of Channels 3-24 configurable for 1-8 line
Input Module AD Module: Direct current input from substation Protection CT
AI Module with split core CT: Current Input through a split core CT
AI Module with external CT: Current Input through an external CT
AV Module: Input from substation VT
Length of Transient Record 1 to 20ms Programmable
Power 85 to 264V, 50/60 Hz AC or 90 to 260V DC
Sampling Frequency 36 MHz, 12 MHz, 8 MHz, 6 MHz, 4.8 MHz, 4 MHz, 3 MHz, 2.4 MHz, 1.5 MHz, 1 MHz & 500 kHz
Accuracy of Fault Location Best Accuracy to ±50 meter
GPS Accuracy 100ns
Memory 8 GB
Communication port 2 Ethernet ports, 2 DB9 RS232, USB
Communication protocol IEC60870-5-104, IEC 61850
Immunity Conforms to relevant IEC standards
Operating Temperature - 10°C - 55°C
Storage Temperature -40°C to 85°C
Physical Dimension 2U, 19”

This is an ‘All in One’ solution for testing and analysing partial discharges in the insulation of high-voltage transformers, cables, GIS and electric machines. The DIMRUS ‘PD Analyser’ help diagnose their insulation state and find any type of defects very effectively.It can be used for temporary or constant monitoring of partial discharge in medium and high voltage systems and cables of any rated voltage.The PD Analyser is the most useful device for condition estimation of high-voltage insulation. This multipurpose device is designed for -

  • Partial discharge measuring in high-voltage insulation at a high noise level.
  • Fast detecting of the defects in different high-voltage equipment and identifying how dangerous they are.

Features

  • It separates stray noise pulses and partial discharge pulses while comparing their frequency and time of arrival.
  • It uses phase resolved partial discharge (PRPD) and time frequency analysis (PD- Cloud).
  • It has the database of the most defects which can be upgraded with new diagnostic information.
  • Danger level shows how severe the signal can be.
  • It uses special algorithms to estimate if the received data is authentic.
  • Automatic report generation on the condition of the insulation of the high-voltage equipment.

Specifications

Parameters PD Analyser 3 PD-Analyzer HF/UHF
Sensor options HF, UHF HF, TEV, UHF
HF discharge pulse frequency 0.1 to 20 MHz
UHF discharge pulse frequency 200- 1500MHz
HF discharge amplitude 20 to 100000pC
UHF discharge amplitude -70dBm to -25dBm
Computer connection USB, Wi-Fi USB
Supply voltage 90 to 260V AC
Operating temperature range  -10 to 50
Dimension 222 x 160 x 45 mm 520 x 435 x 230 mm
Weight 12 Kg 25Kg

 

PD Defect Location in High-Voltage Equipment Insulation by Acoustic Sensors To act on deteriorating insulation the source of PD must be known.The insulation defects produce partial discharges, which emits electrical impulses, radiation of electromagnetic waves as well as acoustic signals.The AR700 measures acoustic signals with multiple sensors spread over the transformer. Then the software determines the failure location using the time difference of all incoming signals. Finally, these coordinates are shown in a 3D model of the transformer. AR700 device is used for measuring of acoustic signals on the external surfaces of gas-insulated breakers and substations, power transformers and other tank high-voltage equipment. The acoustic signals are caused by partial discharges in the insulation, which is the sigh of the defects.The advantage of “AR700” device is the quick installation of the acoustic PD sensors on the external surface of high-voltage equipment tank. The sensors have magnetic holder that is why there is no need to de-energize the equipment for the sensors installation. “AR700” device has 4 syn-chronic channels for acoustic signal measurement. This gives the possibility not only to find the defects in the insulation, but also to locate them. The location function of the “AR700”device is unique for acoustic devices.

 

Features

  • The signal analyses and the PD zone location could be carried out both in manual and automatic modes.
  • Software calculates the fault location based on the time difference between the incoming signals.And report is generated about PD source location.
  • Convenient and handy through light weight, small size and battery operation.
  • Can be used for multiple assets like Transformers, CTs, GIS, Cables etc.
  • Defect type identification by synchronised measurement of PD

Specifications

Parameter AR700
Acoustic channels for PD measuring 
Frequency range of acoustic sensors 30 - 300 kHz
High-frequency channels for PD measuring 1
Frequency range of high-frequency sensors 0.1 - 20 MHz
LCD resolution  480x272pixel
PC connection USB
Operating temperature range -20 to +60 ºc 
Humidity <98%, noncondensing 
Operating time from build-in accumulator 8 hours
Device weight, without sensors 1.1 kg
Dimensions of transportation case 520x435x230mm
Device weight in carrying case 12kg

SWITCHGEAR AND CABLE MONITORING SYSTEMS.

The portable multipurpose 3i device (Intellectual Insulation Indicator) is for eff ective high-voltage equipment insulation monitoring on-line. The 3i device measures and analyses partial discharges (PD). For eff ective PD measurement and noise rejection, there are two types of sensors used in the device: the acoustic sensor and the TEV sensor. Both the sensors are built into the device case, and so do not need any connection cables. The device is supplied in a strong metal case; at the faceplate there are the colored screen and two buttons: power button and function button.

 

Features

      The multipurpose 3i device is for on-line insulation condition estimation in the following equipment:
  • 6 - 35 kV switchgears of various designs;
  • Terminations and joints of cables;
  • High-voltage gas-insulated equipment (Gas-Insulated switchgear (GIS)) of any rated voltage.
  • The tanks of power transformers, breakers, etc.

Specifications

Parameter 3i
In-built PD sensors acoustic, TEV
In-built acoustic sensor frequency range, kHz 40 ± 2
In-built TEV sensor frequency range, MHz 10 - 100
LCD resolution, pixels 240 x 320
PC connection USB
Battery life, hours 10
Operation temperature range, °C -20 ÷ 40
Device dimensions, mm 187 x 78 x 43
Weight, kg 0.6

SCOPE introduces 50 A state of the art precision winding resistance meter, specially designed for field testing as well as factory testing of large transformers up to 500 MVA. Winding resistance value of transformer and rotating machine are directly displayed on 5.7” TFT display. TRM 50 is designed to work in live EHV switchyard conditions, ensuring operator’s safety and repeatability of results. Maintenance time saving is ensured by one time connection to transformer with simultaneous resistance measurement of three / six windings, measurement of resistances of all taps with automated tap change and demagnetization facility. The meter is protected against the back-EMF offered by large inductive windings.

 

Features

  • Can measure DC winding resistance of large rotating machines, highly inductive test objects like Transformer, Generators and Motors etc.
  • 50 A DC current makes it possible to measure low resistances with high accuracy.
  • One time connection to either all windings of primary and / or secondary. Simultaneous measurement reduces connection and measurement time.
  • Change in winding resistance, short or open windings can be detected from measured values.
  • Automatic temperature measurement and temperature corrected value calculation.
  • Measurements of winding resistance of all taps of phases in one go. Recoding, printing and storage of results.
  • OLTC contact opening and compete OLTC performance test facility. Testing of either single or three phases in one test. Single report generation.
  • To know condition of OLTC contacts, OLTC mechanism, transition resistor.
  • Discharges and demagnetizes the object after test.

Specifications

Parameter TRM 50/ TRM 50+
No of Channels  3/6 Current Channels, 3/6 Volatge Channels , 1 tempreture Channel 
Connections One time connection to primary or secondary winding of transformer
Current Ranges 50A, 40A, 25A, 10A, 5A, 1A, 100mA, 10mA
Resistance Ranges Up to 2000 Ω (Auto ranging)
Resolution  4 ½ digit
Accuracy Value ± 0.5% ± 5 counts
Current and Resistance ranges  
Open Circuit Voltage 50 V 
Demagnetization Facility Yes
Display 5.7” TFT display with touch screen
Printer 58 mm, Inbuilt thermal printer
Communication Port Ethernet for PC communication
Data Port USB for extrernal memory stick connection
External Control Possible via Notebook PC through Ethernet port and software
Temperature measurement Range 0 to 100 deg, Accuracy ± 1 deg, Resolution 0.1deg
Temperature correction For Aluminium & Copper 
Temperature Input Channel Compatible to accept RTD input
User Interface Resistive touch screen
Back EMF Protection Yes. Automatic protection after measurement and during accidental disconnection of current path. Protection operates even if Mains supply fails.
Discharge Facility & Indication Automatic Discharge of DUT & messages on screen
Tap Changer Test Detects discontinuity during tap changer test
OLTC Test Facility(Optional) OLTC test facility with current v/s time graph, Single or Three Phases simultaneously. Available in control through PC option only.
OLTC current Ranges 50A, 40A, 25A, 10A, 5A
Protection Shut down of power source on Over voltage, Over current,Over temperature
Indications Polarity reversal, Test connection continuity and discharge
Diagnostics Check At power On instrument does self-check of channels and shows the message
Test Leads Measuring leads, AC supply, earth leads and temperature sensor lead
Operating Environment -10°C to 50°C, 95% RH (non condensing)
Storage Temperature -20°C to 60 °C
Heat Run test Yes
Delta connection Measurement  values of each arm of delta winding is calculated and displayed
One side earthing Instrument is able to do the measurement with one side earthing (with Neutral earthing)
Input Supply 110V AC ±15% 50/60 Hz ±10% Or 220V AC ±15% 50/60 Hz ±10%.
Dimensions 630 x 500 x 302mm
Weight 22 Kg. Approx 

 

Video

SCOPE introduces state of the art precision three phase Transformer Turns Ratio Meter (TTRM ) designed for field testing as well as factory testing of power transformers, instrument transformers and distribution transformers of all types. Along with turns ratio, this light weight and reliable instrument measures ratio deviation, phase angle deviation, magnetizing current and detects tap-position of single as well as three phase transformers in charged switchyard condition. The instrument has facility to automatically detect vector group of all majority configurations available. The differant AC voltage selection offers high accuracy in measurement.

Instrument has in-built TFT display with touch screen and thermal printer. The user friendly, simple instrument makes the testing more easy. With the touch keypad it is possible to enter required DUT information. The ratio results of all the phases are displayed in tabular form with % error. Internal non volatile memory gives the provision of storing test results. Further data can be downloaded to PC or copied to memory stick through USB port provided. The CTrans-TTRM software, gives the flexibility to download the stored results to PC and do the further analysis and report generation.

Features

  • Different voltage ranges provided for more accurate results
  • 5.7” TFT display with touch screen and simple menus to operate TTRM
  • Facility to configure transformer ID and details
  • Automatic OLTC operation for tap change
  • Date and time stamping to results
  • In-build memory to store the test results
  • Thermal printer to take quick print out for record
  • Ethernet port for PC interface to transfer records to PC Software
  • Mass storage device (USB 2.0) interface for copying records in pen drive
  • Lightweight,portable instrument household in rugged moulded case

 

Specifications

  Parameter Display      Range     Resolution Accuracy
1 Turns Ratio 1.9999 : 1 0.8-20000 : 1 5 Digit

0.8 - 100: ± 0.05% @ 10V

101 - 1000: ± 0.05% @ 10V

1001 - 1500: ± 0.05% @ 10V

1501 - 2000: ± 0.10% @ 10V

2001 - 4000: ± 0.20% @ 10V

 

0.8 - 100: ± 0.05% @ 40V

101 - 1000: ± 0.05% @ 40V

1001 - 1500: ± 0.05% @ 40V

1501 - 2000: ± 0.05% @ 40V

2001 - 4000: ± 0.05% @ 40V

4001 - 13000: ± 0.25% @ 40V

 

0.8 - 100: ± 0.03% @ 100V

101 - 1000: ± 0.05% @ 100V

1001 - 1500: ± 0.05% @ 100V

1501 - 2000: ± 0.05% @ 100V

2001 - 4000: ± 0.05% @ 100V

2001 - 4000: ± 0.05% @ 100V

4001-13000: ± 0.15% @ 100V

13001 - 20000: ± 0.20% @ 100V

2 Excitation Current 0.1mA to 1.999A 0-2A 0.1mA ± 1mA
3 Phase Deviation 0.05 Deg to +179.95 Deg ± 180 Deg 0.05 Deg ± 0.05 Deg

 

Parameters TTRM 302
No of channels Three HV channels and three LV channels
Test Voltages 10V, 40V and 100V AC selectable voltages
Measurements

Ratio, Ratio error, Phase Angle Deviation, Excitation current, Vector group and

Magnetic balance (optional)

OLTC Control Raise and Lower control to operate OLTC
Test Results Display 5.7” touch-screen (TFT) display, thermal printer
Test Leads Suitable to test EHV Transformers
Paper Thermal, 58 mm wide roll form
Memory Up to 50000 records inbuilt memory, with date and time stamping
Power (110V ± 15%) / (60Hz ± 10%) OR (230V ± 15%) / (50Hz ± 10%), 75VA.
Communication Port Ethernet port for PC Communication, USB port for data downloading to pen-drive
Housing IP 65 rated moulded case
Operating Environment -20°C to +55°C, 95%RH (non-condensing)
Storage Environment -40°C to +60°C, 95%RH (non-condensing)
Dimensions 435 X 315X 175 mm. (Max.)
Weight 10 Kg Approx

 

Video

SA 30i+, the wireless Leakage Current Analyser from SCOPE is a State of the Art, On-line test system for Residual Life Assessment of Metal Oxide Surge Arresters. The instrument measures and directly displays the values of Total Leakage Current and Third Harmonic Resistive Leakage Current. It provides system harmonic compensation as per IEC 60099-5-B2. It provides Corrected Resistive Leakage Current after applying correction factors for change in system voltage & temperature.

The SA 30i+ can be pre-loaded with the LA identity details (LA Identification, Type, Serial Number,Location, Rated Voltage etc.) and tests conducted on the same ID of the arresters are saved under the same folder. Trend analysis software, SAData picks up this data and stores them in a similar fashion on a PC. This analysis software enables the user to take a decision to repair/replace the arresters considering safety limits.

SA 30i+ is designed to work under the hostile electrostatic noise found in live EHV switch yards upto 765 kV

 

Features

  • Safe Online measurement due to wireless CT and Field Probe
  • In built temperature measurement facility enables calculation of temperature corrected leakage currents.
  • Correction of results to rated voltage of LA to eliminate eff ect of change in system voltage.
  • Date and time stamp on test results Results are displayed on large font, Big, back-lit LCD, printed on in-built thermal printer and can be stored in memory of the instrument.
  • SA 30i+, CT unit and Field Probe unit are powered by easily available re-chargeable Lithium-ion batteries. It works for a day’s testing needs on a single charge
  • The SA 30i+ is a switchyard compatible instrument. This makes the instrument extremely convenient to use.
  • Built-in standard calibration source and self-calibration check facility
  • USB communication port to transfer data to PC and Windows based PC Downloading & Analysis Software.
  • Facility for testing of GIS LAs available optionally

Specifications

 Parameter  SA30i+
 Total Leakage Current Range  1 μA to 20 mA
 Resistive Leakage Current Range 1 μA to 20 mA 
Resolution   1 μA
 Accuracy Value ± 5% ± 1 μA 
 Inputs Wireless Clamp on CT and Wireless Field Probe optional external field PT Input (Voltage Peak method as per IEC 60099-5-A1 for GIS)
 Display 4 line x 20 character large backlit LCD with large font
 Compensation Automatic for System Harmonics, Temperature & System Voltage
 Temperature Sensor

Inbuilt Platinum Resistance Thermometer

with measurement range of -20°C to 55°C

Self-calibration Check Available
PC Connectivity USB Port (Standard), RS 232 & Ethernet (Optional)
Memory Storage capacity of 2000 results
Printer  58mm Inbuilt Thermal Printer
Power

Battery as well as Mains powered Main Unit

Battery powered CT and FP Units

Internal Battery

SA30i+ - 11.1 V / 2200mAh Internal Rechargeable battery,

CT Unit - 11.1 V / 1150mAh Rechargeable battery,

Field Probe Unit - 11.1 V / 1150mAh Rechargeable battery. 

8 hours Battery life with full charge

Mains Supply  88 to 264 VAC, 47 to 63 Hz, Single Phase
Battery Charger Inbuilt in Main Unit, Connection to CT and Field Probe Provided
 Dimension

 

SA30i+ - 340 x 295 x 155 mm,

CT Unit - 340 x 73 x 40 mm,

Field Probe Unit - 340 x 82 mm Cylindrical 

 Weight

 

SA30i+ - 3.8 Kg,

CT Unit - 0.7 Kg ,

Field Probe Unit - 0.75 Kg 

Environment 

-20°C to 55°C, up to 95% RH (non-condensing), Storage Temp - 0-70°C

Type Testing

As per IEC 60068 / IS 9000 for Dry Heat, Damp Heat, Change of Temperature, Bump, Vibration and Mechanical Shock. For EMI / EMC & Safety as per relevant IEC Standards

Video

 

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