TBTC3 TEM Cell

OPEN TEM CELLS FOR EMC PRE-COMPLIANCE TESTING

Radiated emission tests are typically carried out in anechoic chambers, using antennas to pick up the radiated signals. Due to bandwidth limitations, several antennas are required to cover the complete frequency range. Furthermore, it requires much space and the cost of the equipment for a standard conformant setup is immense.
An engineer of a small or medium size enterprise usually has to rely on his experience and on best practice methods in order to design an EMC compliant product. Nevertheless, it is estimated that > 50% of products fail testing first time around. Anytime an engineer sends a new product for compliance testing, it is a shot in the dark. Failing is very expensive. Not only that re-testing costs are high, but also the project schedule and market introduction gets delayed.
What is needed is an affordable laboratory set up to measure radiated emissions in the own lab, prior to compliance testing. A TEM cell is the right piece of equipment for desktop testing of radiated emissions. Tekbox developed open TEM cells to cover the complete frequency range up to 2GHz and with usability even at frequencies beyond.
Combined with a spectrum analyzer, products can be tested before and after EMC related design modifications. A set up with a TEM cell will not deliver exactly the same quantitative results as a measurement in a certified test house, however it will give an excellent indication on whether the design suffers from excessive radiated noise or not. The engineer will clearly see, whether his changes improved or deteriorated the EMC performance or whether it remained unchanged. Using TEM cells eliminates the guesswork.

A TEM cell is a stripline device for radiated emissions and immunity testing of electronic devices. It is not a replacement, but due to its size and cost it is a convenient alternative to measurements in an anechoic chamber.

A TEM cell consists of a septum, the conductive strip in the centre section and walls which are connected to ground. The geometry is designed to present a 50Ω stripline. The device under test (DUT) is placed in between the bottom wall and the septum.

The TBTC1/2/3 are so called “open TEM cells”, which got no side walls for convenient placement of the DUT. It may pick up RF background noise, which however can be taken into account by doing a measurement of the cell output signal before powering on the DUT.

Tekbox open TEM cells got a better frequency response compared to standard TEM cells of similar size. TEM cells suffer from higher order wave modes which limit the usable bandwidth. A unique design feature of the Tekbox TEM cells implements resistance perpendicular to the desired propagation direction of the wave. Consequently higher order wave modes and resonances are suppressed.
All TEM cells are supplied together with a 50Ω/25W RF termination, a DC block to protect the spectrum analyzer or RF receiver input and a N-Male to N-Male coaxial cable.

SPECIFICATIONS

TBTC0 TEM cell dimensions:
Length: 390 mm
Width: 100 mm
Height: 62 mm
Septum height: 28 mm

Rectangular area under the septum: 19 cm x 7 cm x 2,8 cm

TEM cell connectors: N-female
Nominal cell impedance: 50 Ohm
Wave impedance: 377 Ohm
Maximum RF input power: 10W (limited by supplied 50 Ohm Termination)
Input return loss: S11 up to 3.15 GHz < -15dB
Transmission loss: up to 3 GHz < 3dB, up to 6 GHz < 4dB

TBTC1 TEM cell dimensions:
Length: 390 mm
Width: 200 mm
Height: 108 mm
Septum height: 50 mm

Rectangular area under the septum: 19 cm x 13 cm x 5 cm

TEM cell connectors: N-female
Nominal cell impedance: 50 Ohm
Wave impedance: 377 Ohm
Maximum RF input power: 25W (limited by supplied 50 Ohm Termination)
Input return loss: S11 up to 1.2 GHz < -20dB, up to 2.1 GHz < -17dB, up to 3GHz < -14dB
Transmission loss: up to 1.4 GHz < 1 dB, up to 2.1 GHz < 3dB, up to 3 GHz < 6dB

TBTC2 TEM cell dimensions:
Length: 636 mm
Width: 300 mm
Height: 205 mm
Septum height: 100 mm

Rectangular area under the septum: 23 cm x 28 cm x 10 cm

TEM cell connectors: N-female
Nominal cell impedance: 50 Ohm
Wave impedance: 377 Ohm
Maximum RF input power: 25W (limited by supplied 50 Ohm Termination)
Input return loss: S11 up to 800 MHz < -15dB, up to 1.5 GHz < -10dB, up to 3GHz < -8dB
Transmission loss: up to 800 MHz < 1 dB, up to 1.15 GHz < 3dB

TBTC3 TEM cell dimensions:
Length: 1038 mm
Width: 501 mm
Height: 305 mm
Septum height: 150 mm

Rectangular area under the septum: 36 cm x 48 cm x 15 cm

TEM cell connectors: N-female
Nominal cell impedance: 50 Ohm
Wave impedance: 377 Ohm
Maximum RF input power: 25W (limited by supplied 50 Ohm Termination)
Input return loss: S11 up to 700 MHz < -16dB
Transmission loss: up to 730 MHz < 3 dB

 

DC-Block 50V-6GHz-N
Connectors: N-Male/Female
Nominal impedance: 50 Ohm
Max. continuous RF power: 2W
Max. continuous RF voltage: 50V RMS
Frequency: 500kHz to 6 GHz
VSWR: ≤ 1.2

RF-Termination 50Ω-3GHz-25W-N
Connector: N-Male
Nominal impedance: 50 Ohm
Max. continuous RF power: 25W
Frequency: DC to 3 GHz
VSWR: ≤ 1.2
Third order intermodulation: ≤ 120 dBc

LINKS AND REVIEWS

electromagnetic compliance with GaN switching devices

Silent Stepper Brick EMC testing

TEM cell guide from EMC Fastpass

EMI/EMC Testing: DSA815 w/ DIY Probes, TekBox Probes, TEM Cell

Susceptibility testing with a Signal Source and a TEM Cell

FCC/CE Radiated Pre-compliance, FCC / EN55022 with Rigol DSA815, TekBox TEM cell and shielding bag

Bil Herd and Mike Fikes talk about EMC, starting min. 12:30

ACCESSORIES

Often purchased together with:

Tekbox shielded bags TBSB

Tekbox shielded tents TBST

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