Overview
The Helmholtz-Coils are especially designed to generate precisely defined magnetic fields from DC to the upper end of the audio frequency range and beyond. The generated fields are in a strongly linear relation to the coil current. The fieldstrength can be calculated exactly by analytical (or numerical) methods, based on the coils' geometry, the number of turns and the coil current.
Therefore the HHS 5204-36 is ideally suited for the calibration of magnetic field probes or sensors. Due to the high temperature proof Teflon wire packet it is possible to generate magnetic fields up to approx. 3000 A/m for short times. Typical applications are magnetic immunity testing according to automotive standards or MIL STD 461.
When generating magnetic fields with Helmholtz coils the coil current is directly proportional to the magnetic fieldstrength. The calibration of the magnetic field is finally traceable to a current measurement (or to a voltage drop at a known resistor). The Helmholtz Coil itself does not require a calibration. Alternatively a small loop sensor can be used to determine the actual fieldstrength.
Installation
The Helmholtz-Coils should be installed on a desk in a sufficiently large seperation from sources of unintentional magnetic fields, e.g. transformers in power supplies, conductors carrying high currents, computer monitors, loudspeakers, cathode ray tubes (CRT) and more.... All kind of magnetic material (e.g. steel, Nickel, Cobalt) shold be removed from the near surrounding of the coil. The wires which are used to connect the current source with the Helmholtz-Coil should be twisted to avoid an unwanted injection of magnetic flux
The coil terminals are assigned with the characters A, B, C and D. The generator (current source, audio-amplifier...) is connected to the terminals A and C, the terminals B and D are connected with the short cable supplied with the coil.
An additional verification can be done by measuring the magnetic fieldstrength between the coils. Assuming a wrong connection, the fieldstrength decays very sharply in the center between the coils, because the fields compensate each other.
The Helmholtz coils can be operated at three different coil separations. The 'classic' operation mode has a coil spacing of 200 mm, which results in a maximum fieldstrength at medium field homogenity (0.5 dB) and smallest EuT-volume. The mean spacing of 250 mm yields a medium fieldstrength, best field uniformity (0.36 dB) and medium EuT-volume. The largest spacing yields low fieldstrength, a large EuT volume with a slightly reduced field uniformity of 1.24 dB.
The following drawing shows the HHS 5204-12 with the medium coil spacing of 250 mm. The diagram at the right part of the drawing indicates the contributions of each single coil and the resulting sum - fieldstrength caused by a coil current of 1 A.
Specifications | |
Number of turns (per Coil) | 12 |
Maximum Coil Current | 60 A, 5 min. |
Nominal Coil Current | 30 A continuous |
Coil Spacings | 200 mm, 250 mm, 300 mm |
(the following data corresponds to a coil spacing of 200 mm) | |
Maximum Magnetic Field Strength | 2500 A/m, 5 min. |
Nominal Magnetic Field Strength | 1288 A/m continuous |
Magnetic Fieldstrength, 1 A Coil Current | 42.93 A/m 152.66 dBµA/m |
Current required for 1 A/m | 23.29 mA |
Conversion Current-Fieldstrength | 32.66 dB/m |
Coil diameter | 400 mm |
Mechanical Dimensions | 0.38 m x 0.58 m x 0.42 m |
Terminals: 4 mm female with universal wire fixture | 4 mm |
Usable Frequency Range | DC - 500 kHz |
Inductance (per Coil) | 120 µH |
Inductance (Pair of Coils) | 240-260 µH |
Resistance (per Coil) | 47.5 m? |
Coil Capacitance (Pair of Coils) | 35 pF |
Resonant Frequency (Pair of Coils) | > 1.4 MHz |
Weight | 10.2 kg |