If the line must be routed to multiple locations, use a separate line driver for each line. • If the lines are longer compared to the rise time, add series-terminating resistors near the driver for each high-speed line to match the driver impedance to the line. Typical terminating-...
Typical peak gain Average gain at OMNI plane Efficiency (typical) VSWR Specification 2.4 GHz to 2.5 GHz +1.9 dBi 0 dBi –1.3 dB (73%) 2:1 4.1.2 Filter Placement and Routing The RF filter on the board performs the important function of attenuating the out-of-band emissions from the ...
and district locations are in the second tab. Highlighted column K in the first tab is where things stand at the moment, but you’ll see there are still a number of “#N/A” errors. These can either be corrected manually (if people have the time & inclination), or perhaps they can ...
If the line must be routed to multiple locations, use a separate line driver for each line. • If the lines are longer compared to the rise time, add series-terminating resistors near the driver for each high-speed line to match the driver impedance to the line. Typical terminating-...
Users must take great care of the power inductors components to ensure reduced emissions and optimum EVM and mask performance. Place the power inductors very close to the device, and minimize the length of the power traces. The CC3x35 device is sensitive to the layout of components of DC/DC...
Typical peak gain Average gain at OMNI plane Efficiency (typical) VSWR Specification 2.4 GHz to 2.5 GHz +1.9 dBi 0 dBi –1.3 dB (73%) 2:1 4.1.2 Filter Placement and Routing The RF filter on the board performs the important function of attenuating the out-of-band emissions from the ...
If the line must be routed to multiple locations, use a separate line driver for each line. • If the lines are longer compared to the rise time, add series-terminating resistors near the driver for each high-speed line to match the driver impedance to the line. Typical terminating-...