Downloads

ELVA-1 Booklets, Datasheets, Manuals and Cerificates

Booklets for mm-wave radars

Booklets for mm-wave lab equipment

Datasheets and booklets for 60 GHz radio links

Datasheets and booklets for 40 GHz and 70-80 GHz radio links

Datasheets and booklets for mm-wave wireless mesh network

Certificates for radio links

Independent RFC for ELVA-1 radio links

Manuals

Manual for PPC-10G / PPC-10G-HP / PPC-10G 2+0 (PDF, 1.6 MB)

Manual for MobiBridge-10G Instalaltion (PDF, 1.5 MB) 

Manual for MobiBridge-10G web interface (PDF, 0.4 MB)

Manual for PPC-1000_Low_Latency_radio (PDF, 1.4 MB)

SDM-76 76 GHz Railway Radar User Manual (PDF, 1.9 MB).

PPC-1000 1.25 Gbps MMW Link User Manual (1 GE link for E-band and Q-band, PDF 2.5 MB).

PPC-10G WEB Interface Manual

Link Budget Calculator, User Manual

SDM360-76 Short-range marine radar 76 GHz

mm-Wave Power Meter User Manual

mm-Wave Power Meter Interface Guide

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Application Notes:

1.  Method of Broadband Noise Source Calibration (PDF Format, 43K).

2. HP8530-COMPATIBLE MM-WAVE FRONT-END INSTRUMENTATION FOR OCTAVE BANDWIDTH COHERENT ANTENNA MEASUREMENTS (PDF Format, 325K).

3. MILLIMETER-WAVE FRONT-END INSTRUMENTATION FOR THE ESTEC COMPACT ANTENNA TEST RANGE  (PDF Format, 430K).

4. “Terahertz Spectroscopy for Proximal Soil Sensing: An Approach to Particle Size Analysis”. Full text article at Sensors 2017, 17(10), 2387 journal about agricultural application of ELVA THz Analyser (PDF 12 M).

5. “BWO and IMPATT Millimeter Wave Probing of c-Si, and Perovskite”. Presentation features ELVA-1 BWO and CIDO sources for experiments. Presentation was made within conference Track: “Microwaves and Electromagnetics”, April 21, 2018 at IEEE SoutheastCon 2018 (PDF 1.7 MB).

6. “A combined millimeter wave and CO2 interferometer on the C-2W Jet plasma”. The article is devoted to Jet plasma research, using ELVA-1 1 mm (300 GHz) millimeter wave interferometer (model MMI-300R2). Published in year 2018. (PDF 1.2 MB).

7. D. Jasteh, E. G. Hoare, M. Cherniakov and M. Gashinova, “Experimental Low-Terahertz Radar Image Analysis for Automotive Terrain Sensing,” in IEEE Geoscience and Remote Sensing Letters, vol. 13, no. 4, pp. 490-494, April 2016. 

8. E. Marchetti et al., “Radar cross-section of pedestrians in the low-THz band,” in IET Radar, Sonar & Navigation, vol. 12, no. 10, pp. 1104-1113, 10 2018.

9.  S. Gishkori, L. Daniel, M. Gashinova and B. Mulgrew, “Imaging for a Forward Scanning Automotive Synthetic Aperture Radar,” in IEEE Transactions on Aerospace and Electronic Systems.

10. L. Daniel et al., “Application of Doppler beam sharpening for azimuth refinement in prospective low-THz automotive radars,” in IET Radar, Sonar & Navigation, vol. 12, no. 10, pp. 1121-1130, 10 2018.

11. L. Daniel, D. Phippen, E. Hoare, A. Stove, M. Cherniakov and M. Gashinova, “Low-THz radar, lidar and optical imaging through artificially generated fog,” International Conference on Radar Systems (Radar 2017), Belfast, 2017, pp. 1-4.

12. Example of using ELVA-1 waveguide components for plasma physics and fusion:
Research paper describing our system at the Asdex Upgrade Tokamak diagnostics system.
The system has been upgraded with receivers for 70 GHz and 140 GHz. All local oscillators, millimeterWave mixers, VCVA PiN attenuators are from Elva-1.

 

PPC-10G 70/80 GHz 10 Gbps MMW Link