ZHCSMJ6B November 2020 – March 2021 LMK5C33216
PRODUCTION DATA
Each clock output can be individually configured as a differential driver (LVDS/HSDS/LVPECL). OUT4 or OUT6 can choose additional CML open collector mode. OUT0 or OUT1 has additional 1.8-V or 2.65-V LVCMOS drivers (two per pair). Otherwise, it can be disabled to save power if not used.
Each output channel has its own internal LDO regulator to provide excellent PSNR and minimize jitter and spurs induced by supply noise. The OUT0 and OUT1 channel (mux, divider, and drivers) are powered through a single output supply pin (VDDO_0_1), and similarly for the OUT2 and OUT3 channel (VDDO_2_3). OUT4 to OUT7 channels have their own output supply pin (VDDO_4_TO_7). OUT8 to OUT13 channels have their own output supply pin (VDDO_8_TO_13). OUT14 and OUT15 channels have their own output supply pin (VDDO_14_15). Each output supply pin should be powered by 3.3 V and always connected to the supply even if not used. CMOS output voltage levels are determined by internal programming of the CMOS output LDO to support either 1.8-V or 2.65-V LVCMOS.
For differential modes, the output clock specifications (such as output swing, phase noise, and jitter) are not sensitive to the VDDO_x voltage because of the channel's internal LDO regulator. LVDS/HSDS/LVPECL drivers have the capability to program output voltage swing and common mode. CML driver can support either normal output voltage swing or high output voltage swing. When an output channel is left unpowered, the channel's output(s) will not generate any clocks.
OUT_x_MODE[2:0] | OUTPUT FORMAT(1) |
---|---|
0x0 | Disabled (powered-down) |
0x1 | LVDS |
0x2 | LVPECL |
0x3 | HSDS |
0x4 | CMOS |
0x5 | CML Open Collector |