SWRA730 February 2022 CC1311P3 , CC1311R3 , CC1312R , CC1312R7 , CC1314R10 , CC1352P , CC1352P7 , CC1352R , CC1354P10 , CC1354R10
- Trademarks
- Acronyms
- 1Description of the PCB Antenna
- 2Test Setup
- 3Unmatched Results
- 4Single-Band Matching and Result
-
5Dual Band Matching and Results
- 5.1 433-MHz and 2440-MHz Smith Chart, SWR, Bandwidth, and Efficiency
- 5.2 470-MHz and 2440-MHz Smith Chart, SWR, Bandwidth and Efficiency
- 5.3 490 MHz and 2440 MHz Smith Chart, SWR, Bandwidth and Efficiency
- 5.4 510-MHz and 2440-MHz Smith Chart, SWR, Bandwidth, and Efficiency
- 5.5 868/915 and 2440-MHz Smith Chart, SWR, Bandwidth, and Efficiency
- 6Summary - Bill of Materials and Results
- 7Conclusion
- 8References
4.3 490-MHz Smith Chart, SWR, Bandwidth, and Efficiency
Figure 4-9 shows the theoretical Smith chart for matching the antenna for single-band 470 MHz with a theoretical SWR of 1.017.
Figure 4-9 Theoretical Smith Chart for Single-Band 490 MHz MatchingFurther tuning of the resonance of the antenna was needed after realizing the theoretical match. Figure 4-10 and Figure 4-11 shows the resulting impedance and SWR which at 1.05 is less than the threshold for a good match of SWR < 2.0. Table 4-3 shows the BOM with components used to relies the matching network given in Figure 1-2.
The bandwidth of the antenna defined by SWR < 2.0 can be seen in Figure 4-11 to be 503.3-478.5 =24.8 MHz.
| Ref. Designator | Murata Part Number | Value |
|---|---|---|
| Z60 | 0 Ω | |
| Z61 | DNM | |
| Z62 | GRM0335C1H6R2CA01 | 6.2 pF |
| Z63 | LQP03TN6N2H02 | 6.2 nH |
| Z64 | LQP03TN33NH02 | 33 nH |
Figure 4-12 shows the radiation pattern of the antenna matched for 490 MHz radiating at 13 dBm 490 MHz. The figure shows a TRP of 7.72 dBm, this with a measured conducted output power of 12.17 dBm gives us an efficiency of 35.89%.