Table design specification symbol | description | value | units |
$A_{R}$ | Minimum value of the receiver transmission coefficient $A$ | $4.046 \cdot 10^{-7}$ | $\mathrm{s}$ |
$A_{Rmin}$ | Minimum value receiver transmission coefficient $A$ (integrating receiver) | $4.046 \cdot 10^{-7}$ | $\mathrm{s}$ |
$B_{T}$ | Maximum value of the transmitter transmission coefficient $B$ | $27.07$ | $\mathrm{\Omega}$ |
$I_{L}$ | Receiver current drive capability | $0.000125$ | $\mathrm{A}$ |
$Io_{p}$ | Minimum peak drive current of the transmit coil | $0.03694$ | $\mathrm{A}$ |
$R_{g max}$ | Show-stopper value for noise contribution of I_noise_R2. | $6.464 \cdot 10^{8}$ | $\mathrm{\Omega}$ |
$SR_{vR}$ | Receiver voltage slew rate | $7854$ | $\mathrm{\frac{V}{s}}$ |
$SR_{vT}$ | Transmitter voltage slew rate | $3.332 \cdot 10^{4}$ | $\mathrm{\frac{V}{s}}$ |
$S_{iR max}$ | Show-stopper value for noise contribution of I2. | $9.484 \cdot 10^{-24}$ | $\mathrm{\frac{A^{2}}{Hz}}$ |
$S_{iT max}$ | Show-stopper value for noise contribution of I1. | $\frac{1.071 \cdot 10^{-11}}{R_{g}^{2}}$ | $\mathrm{\frac{A^{2}}{Hz}}$ |
$S_{vR max}$ | Show-stopper value for noise contribution of V3. | $3.893 \cdot 10^{-18}$ | $\mathrm{\frac{V^{2}}{Hz}}$ |
$S_{vT max}$ | Show-stopper value for noise contribution of V2. | $1.071 \cdot 10^{-11}$ | $\mathrm{\frac{V^{2}}{Hz}}$ |
$V_{TRcoil}$ | Transmitter peak voltage drive capability | $0.3536$ | $\mathrm{V}$ |
$V_{TRp}$ | Peak transmitter voltage | $1.061$ | $\mathrm{V}$ |
$V_{rec}$ | Peak receiver input voltage | $0.004494$ | $\mathrm{V}$ |
Table functional specification symbol | description | value | units |
$R_{\ell}$ | Receiver load resistance | $2000$ | $\mathrm{\Omega}$ |
$V_{i}$ | Transmitter peak input voltage | $1$ | $\mathrm{V}$ |
$V_{o}$ | Receiver peak output voltage at maximum input voltage | $0.25$ | $\mathrm{V}$ |
$Z_{i}$ | Transmitter input impedance | $1.0 \cdot 10^{4}$ | $\mathrm{\Omega}$ |
$f_{fpl}$ | Maximum frequency for full-power | $5000$ | $\mathrm{Hz}$ |
$f_{max}$ | Small-signal -3dB low-pass cut-off frequency | $1.5 \cdot 10^{4}$ | $\mathrm{Hz}$ |
$f_{min}$ | Small-signal -3dB high-pass cut-off frequency | $60$ | $\mathrm{Hz}$ |
$v_{on}$ | Zero-signal RMS output noise over -3dB frequency range | $0.0001$ | $\mathrm{V}$ |