CSIR-National Physical Laboratory
सीएसआईआर-राष्ट्रीय भौतिक प्रयोगशाला
Electromagnetic (EM) Metrology at CSIR-NPL comprises of various measurement facilities in frequency range from 1 Hz to 110 GHz of electromagnetic spectrum for devices from household electronic appliances to advanced strategic communication and instrumentation. CSIR-NPL (NMI of the country) provides measurements for microwave frequencies from 9 kHz to 110 GHz frequency range that are precise, accurate, reliable, internationally recognized and traceable to the SI units through Microwave Metrology and Magnetic Metrology. The Microwave and Magnetic based National Standards and measurement capabilities are realized, established, maintained, and upgraded at CSIR-NPL. These standards are disseminated to reference laboratories across India to provide traceability to various sectors: strategic, defence, manufacturers, testing industries, government regulators and research institutions. Electromagnetic metrology at CSIR-NPL has a unique combination of comprehensive capabilities of various parameters of Electromagnetics such as attenuation, microwave power, E-Field and specific absorption rate (SAR), Magnetic flux Density, Magnetic flux, turn area of search coil, power loss measurement of electrical steel, along with various free space measurements parameters. Upcoming 5G technology is not just a routine technological change but a platform to enable several smart technologies such as smart banking, smart city, smart village, smart healthcare smart automobile and many more. This shows the overall impact of Electromagnetic metrology on country’s upcoming technological needs.
Microwave metrology includes parameters such as attenuation, impedance, insertion loss followed by free space microwave measurements such as Electric Filed, SAR, Shielding effectiveness, dielectric measurements along with advanced Quantum E-Field measurements traceable to Plank Constant. Each parameter have their associated primary standards, their calibration and measurement capabilities (CMCs) and their degree of equivalence with the leading NMIs of the world, and associated on-going research for advanced measurements including quantum standards.
Microwave Metrology at CSIR-NPL exhibits an international degree of equivalence for various measurement parameters such as Microwave Power, Attenuation, Impedance, E-Field, Shielding Effectiveness, Radiated power density, Specific Absorption Rate in the frequency range from 9 kHz to 50 GHz with fifteen registered CMC’s and seven international inter-comparisons. Microwave Metrology also engages in Dielectric Material characterization (ε and σ) for Lossy Liquids and biological materials by using commercial open ended Dielectric probe, along with VNA (ZNB 8), for frequencies up to 6 GHz as recommended in IEEE-1528 2013 standard. However, the IEEE-1528:2013 standard, is now superseded by the new IEEE/IEC-62209 1528: 2020 standard, which has made few advancements to measurement methods and standards used.
Electromagnetic metrology section has already completed a technology transfer for “process-know how for Tissue Equivalent liquids as per IEEE-1528 standard” on Sept 24, 2020. We are working to extend the scope of this by preparation or standard TELs for upcoming 5G frequencies. These TELs are being prepared as per by the new IEEE/IEC-62209 1528: 2020 standard, which require different chemicals from the ones used for previous studies.
Vector SAR measurement system, NPL has partnered with EURAMET consortium for development of calibration methods for probe calibration of time domain probes and arrays for vector SAR measurement systems. These probe measure simultaneous amplitude and phase at much faster rate than the existing SAR measurement systems/probes. A Specific Absorption Rate (SAR) evaluation system is indigenously developed by CSIR- NPL. In this setup E-Field Sensor, Tissue equivalent liquid, Robotic automation (Robotic arm procured from epson) and a controlled GUI are being indigenously developed. The system is capable to evaluate SAR upto 3W/kg with an expanded uncertainty of ±0.15W/kg per 1.6W/kg.
This section is responsible for maintaining and upgrading National Standard related to the magnetic parameter like Magnetic flux Density, Magnetic flux, turn area of search coil, power loss measurement of electrical steel, through continuous development and providing calibration/test services (as per ISO/IEC: 17025 guidelines) to more than 100 customers (MSME sectors, Large scale industries, Govt. organizations and R&D institutes like Indian Air Force, Air India, Power Grid, CPRI, IDEMI, ERTL, ETDC, ABB, Siemens, Samsung, GE Healthcare, L&T, Adani power, Genus Power, Secure Meters etc.) to improve the quality infrastructure of India.Available Facilities
- Scalar RF reflection coefficient and attenuation: reflection coefficient in waveguide5.8 GHz to 18 GHz
- Vector/ Scalar RF reflection coefficient and attenuation: VSWR in coaxial line 1 MHz to 50 GHz
- Scalar RF reflection coefficient and attenuation: attenuation in coaxial lineupto 40 GHz
- Scalar RF reflection coefficient and attenuation: attenuation in coaxial line: 1 MHz to 40 GHz
- Scalar RF reflection coefficient and attenuation: attenuation in waveguide from 5.8 GHz to 18 GHz
- E- Field Measurements Upto 3 GHz
- Low magnetic field measurement facility (AC/DC): 1 to 2000 μT (expanded uncertainty 1.6-0.5 %).
- AC magnetic field measurement setup: range 10 mG to 20 G (50 Hz).
- Magnetic flux measurement of range 0.0001-10 weber with uncertainty of ±0.005 to 0.15 %.
- Cesium magnetometer: measuring magnetic field of Nano tesla range i.e., 10000-1 nT.
- Epstein frame setup: measurement of parameters of electrical steel strips such as specific power loss, peak value of magnetic polarization, and peak value of magnetic field strength .
- VSM (Vibrating sample magnetometer): magnetic characterization of materials (system under maintenance).
- MPMS (magnetic properties measuring system):Measures magnetic properties of materials i.e., Magnetic moment: magnetization, susceptibility (T=1.8–400 K & B=0–7 T).
- Calibration of permanent Magnet
- Calibration of AC/DC Gaussmeter
- Calibration of Magnetic field indicator
- Calibration of low field magnetometer
- Calibration of Helmholtz Coil
- Calibration of Fluxmeter
- Calibration of Turn area of search coil
- Testing of AC/DC electromagnet
- Power loss measurement of Electrical Steel
- Magnetic Radiation Measurement
The second major activity of our group is actively involved in research on Magnetic materials, Multiferroic materials, Spintronic, Magneto Resistance materials for development of magnetic sensor.
- Materials R & D for Magnetic Metrological Applications.
- R & D on Magneto resistance based Material.
- Thin Film Preparation by RF Sputtering & Spin Coater Facility.
- Dr. Ashish Agarwal
Sr. Principal Scientist & Professor (AcSIR)
- Dr. Satyakesh Dubey
- Dr. Alok Prakash
- Mr. G. Anurag Reddy
- Mr. Anurag Kr. Katiyar
- Mr. Mange Ram
- Mrs. Manno