HF- Analyzer
- SKU:
- 90210
- Item weight:
- 0,25 kg
- 5G Esmog Spy, broadband EMF receiver 50Hz - 8GHz
- HF telescopic antenna for FM radio, DAB+, DVB-T, BOS, TETRA, airband
- HF flat antenna for Wi-Fi, Bluetooth, microwave ovens
- HF antenna for mobile networks, UMTS, cordless DECT phones, smartphones, cell phones, and potentially radar signals, microwave ovens
- NF telescopic antenna for switch-mode power supplies, LEDs, TFT displays, longwave radio, radio clocks, electric fences, time signal transmitters, sferics (natural atmospheric phenomena) in outdoor environments
- Light sensor for measuring light modulation and assessing light quality
- Directional antenna (log-periodic) 1.3GHz - 9GHz
- 9V lithium battery (rechargeable via Micro-USB)
- Padded transport/ready-to-use case with practical belt loop for safe transport and storage
- SKU:
- 90205
- 9V rechargeable block battery format (6LR61, 6F22)
- Short circuit protection
- Overcharge protection
- Deep discharge protection
- Built-in charging electronics with LED charging indicator
- Charging via micro USB socket
- SKU:
- tasche3
- SKU:
- HF38B
- Broadband receiver with directional antenna
- Frequency range: 700MHz to 2.7GHz
- Measuring range: 0.01 µW/m² to 19.99 mW/m²
- Additional display of average, peak and peak hold values
- SKU:
- 90201
- Connection to the NF socket of the 5G Esmog Spion
- Illuminant test and room light test switchable
- Assessment of artificial light sources possible
- SKU:
- 90206
- SKU:
- SSP2
- Inexpensive test receiver with a large bandwidth: 200MHz to 8GHz
- Also detects the current 5G frequencies!
- High receiver sensitivity
- OLED display for precise readings: 0.01µW/m² to 2,500,000µW/m ²
- High-quality signal sound reproduction, 3-level volume
- Simultaneous display of peak, maximum and average values
- Detection of very short pulses (<5µs)
- LED traffic light display for readings evaluation
- Every device comes with a NEMKO calibration certificate!
- 3,5mm headphone jack
- Connection for external power supply
- 2 years warranty
- SKU:
- PE-TF2
- Item weight:
- 0,20 kg
- SKU:
- UBB27_G3
- Accessory for the Gigahertz measuring devices HFE35C, HF59B, HFE59B
- 27MHz to over 3.3GHz, depending on the connected measuring device
- "All-round reception": Horizontally isotropic directional characteristic
- Ideally suited for long-term recordings
- Compact design: Identifies so-called "hotspots"
- Can be plugged directly onto the HFE35C and HF59B
- SKU:
- r4059
Please send a message to priggen@priggen.com
- Available
-
: 1 - 3 Workdays (DE - int. shipments may differ)
- Available
-
: 1 - 3 Workdays (DE - int. shipments may differ)
- Available
-
: 1 - 3 Workdays (DE - int. shipments may differ)
- Available
-
: 1 - 3 Workdays (DE - int. shipments may differ)
What are magnetic alternating fields?
Magnetic alternating fields are fields generated by changing electrical currents. They differ from static magnetic fields in that they periodically change their direction and strength. These alternating magnetic fields occur in many everyday applications, such as when using alternating current in household appliances, transformers, or power lines.
How are magnetic alternating fields generated?
Magnetic alternating fields are created when an alternating current flows through a conductor. Since the current constantly changes, the magnetic field surrounding the current also changes. These fields are proportional in intensity to the current strength and change direction according to the frequency of the alternating current. In practice, this means that a field with a frequency of 50 Hz or 60 Hz (common power grid frequencies) changes its direction 50 or 60 times per second.
Where can magnetic alternating fields be found?
Magnetic alternating fields occur wherever alternating current flows. They can be found in household appliances, industrial plants, high-voltage power lines, and everyday electrical devices. Particularly strong magnetic alternating fields occur near transformers, electric motors, and induction coils. Wireless charging technologies also use magnetic alternating fields to transfer energy.
Effects of magnetic alternating fields
Magnetic alternating fields can affect electronic devices and measuring instruments as they can cause disturbances. In certain cases, especially with strong exposure, they may also have health effects, which is why limits have been set for the strength of such fields. However, in everyday life, the fields are generally relatively weak and do not pose a health risk.