In order to utilize this module within our product we need to perform spurious emissions testing with the module where we change settings of the module such as putting it into continuous mode and change the channel, the transmit power, and various other configurations. Very similar to th...
The RTC can also be fed externally to provide reuse of an existing clock on the system and to reduce overall cost. 7.15.5.1 Slow Clock Using Internal Oscillator The RTC crystal connected on the device supplies the free-running slow clock. The accuracy of the slow clock frequency must be ...
You and your friend might not talk over each other, but that still left every other walkie-talkie user near you who happened to be using the same channel. Every time you wanted to get a word in, someone would already be on your channel, forcing you to wait...and wait...and wait. ...
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 ...
The RTC can also be fed externally to provide reuse of an existing clock on the system and to reduce overall cost. 5.17.5.1 Slow Clock Using Internal Oscillator The RTC crystal connected on the device supplies the free-running slow clock. The accuracy of the slow clock frequency must be ...
The RTC can also be fed externally to provide reuse of an existing clock on the system and to reduce overall cost. 7.15.5.1 Slow Clock Using Internal Oscillator The RTC crystal connected on the device supplies the free-running slow clock. The accuracy of the slow clock frequency must be ...
Where feasible, use via stitching along the RF trace to reduce emissions, and keep the fields confined to the trace boundary. Use a ZO of 50 Ω with only a tolerance of 10%. Use the stackup and trace width provided for reference in Table 2. Add multiple ground vias for the filter ...
Where feasible, use via stitching along the RF trace to reduce emissions, and keep the fields confined to the trace boundary. Use a ZO of 50 Ω with only a tolerance of 10%. Use the stackup and trace width provided for reference in Table 2. Add multiple ground vias for the filter ...