TABLE 3.
Comparison between this work and recently published microstrip couplers.
| Design method | Coupling factor (dB) | Center frequency (MHz) | Normalized bandwidth* (%) | Directivity (dB) | Size** (λg) | Tunable capability | |
|---|---|---|---|---|---|---|---|
| This work at 7 T | Microstrip with lumped elements | 25 | 298 | 8.8 | 48.2 | 0.05 x 0.03 | Yes |
| This work at 9.4 T | 25 | 400 | 8 | 43.7 | 0.07 x 0.04 | Yes | |
| This work at 10.5 T | 25 | 440 | 7.8 | 41.2 | 0.07 x 0.05 | Yes | |
| [8] | Epsilon negative transmission line | 10 | 2000 | 8.7 | 40 | 0.4 x 0.27 | No |
| [9] | Double coupled lines with an unmatched load | 20 | 1500 | - | 40 | 0.07 x 0.08 | No |
| [10], (structure 1) | Microstrip with fragment structure | 20 | 2000 | 45 | 48 | 0.25 x 0.1 | No |
| [11] | Wiggly microstrip line | 20 | 2250 | 20 | 35 | 0.25 x 0.04 | No |
| [12] | Microstrip with shut inductors | 20 | 2400 | 16.3 | 56 | 0.25 x 0.21 | No |
*
Normalized bandwidth = fC/fBW, fc: center frequency, fBW: bandwidth of 20 dB directivity with less than 20 dB return loss
**
Normalized coupling structure size (λ0: the guide wavelength at the center frequency)