TEKBOX TBSB-105-60 TBSB Shielded Bags Instruction Manual
- June 13, 2024
- TEKBOX
Table of Contents
TEKBOX TBSB-105-60 TBSB Shielded Bags
The TBSB line of shielded bags is designed to suppress interference from
ambient noise when carrying out EMC pre-compliance measurements. The shielded
bags are a low cost alternative to shielded tents for test equipment such as
LISNs or TEM-cells.
The shielded bags are composed of two layers of conductive fabrics. The access
opening is sealed with conductive Velcro tape. Suggestions on how to feed
cables into the bags are given in the application section of this manual.
Specification
Outer dimensions: TBSB-105/60: 105 cm x 60 cm
TBSB-70/40: 70 cm x 40 cm
Opening dimensions: TBSB-105/60: diagonal 80 cm
TBSB-70/40: diagonal 60 cm
Frame: none
Shielding: 2 layers of conductive fabrics
Seal: conductive Velcro tape
Filter panel: none
Attenuation: ~ 50 dB in the range DC to 2 GHz
Weight: TBSB-105/60: 250 g
TBSB-70/40: 140 g
Application
Conducted and radiated noise pre-compliance measurement set-ups typically suffer from ambient noise picked up by open TEM-cells, antennas, supply lines connected to LISNs or cables fed through RF current monitoring probes. Though upfront measurements with unpowered DUTs give a good overview on the ambient noise spectrum, working with a shielded set up offers significantly more comfort.
If a laboratory does not offer sufficient space for a permanently set up shielded tent, shielded bags will be a useful and affordable alternative.
Applying suitable methods to feed cables into the bags, shielding performance similar to a shielded tent will be achieved.
Open TEM-cells can be inserted directly into the bags. The structure of the TEM cell will prevent the DUT getting into contact with the conductive fabrics. Other set ups can be protected with a cardboard box, as an example.
Warning
Make sure that your set up prevents main phase getting into contact with the fabrics of the tent. Always connect protective earth to avoid any hazard of electrical shock.
Cable feed through
In any application it is necessary to feed at least a coaxial cable and supply cables for the DUT into the shielded bag.
Coaxial cables:
In order to feed a coaxial cable into the shielded bag, an electrical contact between the conductive Velcro tape and the cable shield needs to be established. There are two simple options. Either strip the insulating outer jacket of the coaxial cable or use two cables, connected through a coaxial adapter. When using the TEM-cell inside the shielded bag, the DC-block can be used to establish contact with the Velcro tape. Clamps can be used to avoid gaps and to secure the cable.
The type of coaxial cable has great influence on the overall performance of a shielded set up. Using RG58 cables is not recommended, due to poor shielding of the outer mesh. Use at least a RG223 cable or a double shielded coaxial cable.
Power supply cables:
Power supply feed through should be implemented using shielded cables, with the shield on ground and the jacket stripped, where the cable passes the conductive Velcro tape. At the power supply side, connect power supply ground with housing earth, to reduce the risk of picking up ambient noise from within the power supply housing and channel it into the shielded bag.
Depending on the properties of the power supply, a shielded cable may not be enough. Insert a filter, if you encounter excessive ambient noise inside the bag, despite using a shielded supply cable. A simple pi-filter in a shielded housing should do the job. If you own a DC-LISN which is not part of the set up inside the bag, you can use it as supply line filter.
Signal cables:
Use shielded cables and remove the insulating jacket where you feed it through the Velcro tape. Many signal cables such as for example USB or HDMI are shielded by default. All that is necessary is removing the outer jacket.
Sample Plots
Example: Radiated noise pre-compliance set up using a TBTC1 TEM-cell
The ambient noise spectrum plots below were taken with a TBTC1 TEM-cell outside and inside of the shielded bag. No DUT was placed inside. The plot shows the ambient noise picked up by the septum.
The yellow curve in Picture 19 above shows the ambient noise picked up by the
TEM cell when placed outside the shielded bag. RBW: 1 MHz, Attenuator = 0 dB,
Pre-amplifier = ON
The pink curve in Picture 19 above shows the ambient noise picked up by the
TEM cell when placed inside the shielded bag. The RBW was reduced to 30 kHz to
reduce the base noise floor in order to better show the difference.
Example: conducted noise pre-compliance set up
The yellow curve in Picture 20 above shows the ambient noise picked up by the conducted noise set up when placed outside the shielded bag. RBW: 1 MHz, Attenuator = 0 dB, Pre-amplifier = ON The pink curve in Picture 19 above shows the ambient noise picked up by the conducted noise set up when placed inside the shielded bag. The RBW was reduced to 30 kHz to reduce the base noise floor in order to better show the difference.
History
Version | Date | Author | Changes |
---|---|---|---|
V 1.0 | 29.1.2019 | Mayerhofer | Creation of the document |
V 1.1 | 16.4.2019 | Mayerhofer | Dimensions updated, chapter 5 updated |
Ordering Information
Part Number | Description |
---|---|
TBSB-105/60 | Shielded bag 105 cm x 60 cm, RF cable RG223/N-male to N-male/1m, |
repair patch fabrics
TBSB-70/40| Shielded bag 70 cm x 40 cm, RF cable RG223/N-male to N-male/1m,
repair patch fabrics
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