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Raditeq RSI1041S RadiSense 40, Field Probe Set

Specifications

  • Frequency Range: 10 MHz to 40 GHz
  • Measurement Speed: 100 M/s
  • Measurement Range: 2 - 1000 V/m

Applications:

  • CE Marking
  • Pulse Modulated
  • Anechoic Chamber
Products included in set
CTR1001S RadiCentre® 1-slot, USB/RS232
RSS2040S RadiSense® 10 MHz – 40 GHz, ISO
LPS2001B RadiSense® laser power card, FC/ST
CBL2001-10M RadiSense® fibre extension cable, 10m

Product Number:

RQ-RSI1041S

Manufacturer:

Raditeq

Quantity:

Total
Unit price
Base Product
Availability:
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E-field probes

RadiSense® Series E-field probes are crucial instruments for measuring the true field strength in an anechoic chamber and calibrating it. The accuracy of such measurements greatly depends on the size, shape, and number of measuring elements of the probes. Raditeq has extensively optimized these parameters and incorporated patented technology to provide the best accuracy available in the market. The importance of E-field probes in achieving precise measurements in an anechoic chamber cannot be overstated.

During immunity testing, the accuracy of the overall test setup depends solely on the E-field probe. As such, accuracy mainly determined by isotropy, is of the utmost importance. Over the years, Raditeq’s development team has been committed to developing probes with increasing accuracy.

The best probe available on the market.

The Raditeq development team discovered that the isotropic behavior of e-field probes on the market was far inferior than expected. Even the RadiSense 6, which was not the worst probe available, did not meet their high standards. This knowledge led the team to design a probe with better isotropic behavior, resulting in the RadiSense® 10, which is now the best probe available on the market.

The spherical shaped probe is a testament to Raditeq’s dedication to innovation and excellence in the field of electromagnetic testing. The RadiSense® Series provides accurate and reliable measurements, allowing for more precise testing and calibration. Raditeq’s commitment to continuous improvement and their use of advanced research techniques ensures that their products are always at the forefront of the industry. Experience the difference for yourself and see why the RadiSense® 10 is the best isotropic e-field probe on the market.

E-field probes, their size matters!

Additionally, the RadiSense® 10 is inherently small, making it perfect for (G) TEM cell measurements. For measurements in (G) TEM cells, the size of the probe is even more important. If compact cells are used, substantial errors will occur with an E-field probe that is relatively large to the dimensions of the cell. To obtain reliable and accurate measurement results, the EMC probe must be small, isotropic and fast. The RadiSense® 10 offers all these aspects and is therefore the most reliable choice for an E-field probe.

Internal calibration data

By default, the factory linearity adjustment data is stored inside the probe. In addition, the frequency response correction data for all three axis, which is obtained from an accredited calibration laboratory, can be stored inside the probe as user correction. Due to this internal correction, there is no need to apply frequency dependent corrections for individual axis’ in software anymore. This results in a high accuracy and ease-of-use.

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Description
Reviews
Query on the Item

E-field probes

RadiSense® Series E-field probes are crucial instruments for measuring the true field strength in an anechoic chamber and calibrating it. The accuracy of such measurements greatly depends on the size, shape, and number of measuring elements of the probes. Raditeq has extensively optimized these parameters and incorporated patented technology to provide the best accuracy available in the market. The importance of E-field probes in achieving precise measurements in an anechoic chamber cannot be overstated.

During immunity testing, the accuracy of the overall test setup depends solely on the E-field probe. As such, accuracy mainly determined by isotropy, is of the utmost importance. Over the years, Raditeq’s development team has been committed to developing probes with increasing accuracy.

The best probe available on the market.

The Raditeq development team discovered that the isotropic behavior of e-field probes on the market was far inferior than expected. Even the RadiSense 6, which was not the worst probe available, did not meet their high standards. This knowledge led the team to design a probe with better isotropic behavior, resulting in the RadiSense® 10, which is now the best probe available on the market.

The spherical shaped probe is a testament to Raditeq’s dedication to innovation and excellence in the field of electromagnetic testing. The RadiSense® Series provides accurate and reliable measurements, allowing for more precise testing and calibration. Raditeq’s commitment to continuous improvement and their use of advanced research techniques ensures that their products are always at the forefront of the industry. Experience the difference for yourself and see why the RadiSense® 10 is the best isotropic e-field probe on the market.

E-field probes, their size matters!

Additionally, the RadiSense® 10 is inherently small, making it perfect for (G) TEM cell measurements. For measurements in (G) TEM cells, the size of the probe is even more important. If compact cells are used, substantial errors will occur with an E-field probe that is relatively large to the dimensions of the cell. To obtain reliable and accurate measurement results, the EMC probe must be small, isotropic and fast. The RadiSense® 10 offers all these aspects and is therefore the most reliable choice for an E-field probe.

Internal calibration data

By default, the factory linearity adjustment data is stored inside the probe. In addition, the frequency response correction data for all three axis, which is obtained from an accredited calibration laboratory, can be stored inside the probe as user correction. Due to this internal correction, there is no need to apply frequency dependent corrections for individual axis’ in software anymore. This results in a high accuracy and ease-of-use.

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