CSA.20 Cellular Device Passive Mode Antenna Testing

What is the problem or concern we are addressing?

Post-integration optimization of antenna performance through physical and electrical matching as well as orientation and position changes. All antennas are sensitive to their surrounding environment. Once an antenna is integrated into a product it is very common for the exact tuning of the antenna to differ from the design target or development board implementation.

The resonant frequencies for most antennas can be adjusted either by implementing a lumped element electrical matching network, or through small physical modifications to the antenna itself. This tuning effort results in optimal performance of the product as a whole.

The Processes

Part 1

• Taoglas will modify your prototype device to allow for direct access to the antenna feed point at the beginning of your feed transmission line.
• The antenna will be matched to the desired operational frequencies of the product with all mechanical system elements in place including the enclosure, any batteries, displays or other system elements. The tuning is intended to account for everything in the system in the typical use-case so this includes any human body interaction that would be encountered in certification. If the device is worn or held by a person a human body phantom part will be used to account for this.
• Measure radiation pattern and efficiency installed in the device or on the board and in as much as the real use case as possible.
• Complete report detailing test set up, results and conclusion.

* Note: Tuning is not comparable to a custom antenna. It is a simpler onboard or transmission line or cable modification that can be implemented to improve performance but use the same antenna part number and avoid new parts that require new design techniques and tooling etc. to implement that part.

** Note that while the device itself may have more than one physical use-case, the tuning of the antenna
is limited to a single use-case unless active tuning is implemented, which is beyond the scope of this effort.

What does Taoglas need?

• We need the schematic for all the boards in the device. PDF format at a minimum and native Altium files if you happen to use Altium.
• PDFs of your PCB layout for each board, all layers. Again if you use Altium, then native Altium files would also be helpful. Please include a document defining the PCB stackup, layer thicknesses, materials and finishes for the PCB.
• A spreadsheet of your bill of material for each PCB in the design.

Part 2

Taoglas engineering in consultation with the customer on the final report will determine if the measured performance factors are sufficient for the product to meet it’s performance and certification requirements. If the antenna performance is not acceptable, Taoglas sales and engineering can make recommendations to improve the antenna performance. If the antenna performance is acceptable the next step would be active device performance measurements such as TRP, TIS or radiated receive sensitivity and RSE testing. Taoglas offers a number of follow-on test services; your Taoglas sales contact can cover all the various options.

• We will need 2 copies of your device including all the bits and pieces. Things like any battery, LCD display, peripherals, cables, etc. all mounted in some sort of enclosure that’s at least close to what the final enclosure will be like. SLA or FDM proto enclosures are sufficient but the final plastic material can yield slight differences in performance.
• 3D PDF or eDrawing files for your mechanical assembly. We really do need the ability to hide parts, do cross sections and make measurements so an eDrawing with these features turned on is highly recommended.


Taoglas will compile a report on the antenna measurements including:
• Details of any electrical or mechanical tuning techniques
• Matching network diagram and values include device sample with implemented changes
• Return loss plots of before and after
• Radiation pattern plots for each band
• Efficiency plots vs. frequency for each band

Service Delivery Objectives

A. Antenna installed on a customer device prototype board, with extra antenna prototypes
B. Matching circuit diagram and documentation of values if relevant (or cable routing diagram, antenna position/mounting etc.)
C. Final antenna position and integration method
D. Return Loss, VSWR, Average Gain, Efficiency, Peak Gain, Radiation Patterns
E. Documented performance measurements