JAJSLG0B April 2021 – March 2023 TSER953
PRODUCTION DATA
For a typical design application, use the parameters listed in Table 8-3.
DESIGN PARAMETER | PIN(S) | VALUE |
---|---|---|
V(VDD) | VDDD, VDDDRV, VDDPLL | 1.8 V |
AC-Coupling Capacitor for Synchronous Modes, Coaxial Connection | DOUT+ | 33nF – 100 nF (50 V / X7R / 0402) |
DOUT– | 15nF – 47 nF (50 V / X7R / 0402) | |
AC-Coupling Capacitor for Synchronous Modes, STP Connection | DOUT+, DOUT– | 33 – 100 nF (50 V / X7R / 0402) |
AC-Coupling Capacitor for Non-Synchronous and DVP Compatible Modes, Coaxial Connection | DOUT+ | 100 nF (50 V / X7R / 0402) |
DOUT– | 47 nF (50 V / X7R / 0402) | |
AC-Coupling Capacitor for Non-Synchronous and DVP Compatible Modes, STP Connection | DOUT+, DOUT– | 100 nF (50 V / X7R / 0402) |
The SER/DES only supports AC-coupled interconnects through an integrated DC-balanced decoding scheme. External AC-coupling capacitors must be placed in series in the V3Link signal path as shown in Figure 8-5 and Figure 8-6. For applications using single-ended 50-Ω coaxial cable, terminate the unused data pins (DOUT+, DOUT–) with an AC-coupling capacitor and a 50-Ω resistor.
For high-speed V3Link transmissions, use the smallest available package for the AC-coupling capacitor to help minimize degradation of signal quality due to package parasitics.