Power rating of a resistor jumper in an RF antenna path?
时间:04-05
整理:3721RD
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If I want to jumper an 0201 footprint in line with an output RF path between a PA and chip antenna (ZigBee 2.4 GHz) using a zero ohm, and I'm looking at +20 dBm (100 mW), how do I determine the power rating of the resistor, is it directly related eg I need a 0.1w jumper? Or is RF power totally different energy and I need to calculate component power ratings differently?
Also, should I be using a 100pF cap as an RF jumper instead of 0 ohms, or does it really matter at this frequency?
Either way I'd still like to know the relationship between output RF power and power rating of components in line.
Thanks
Also, should I be using a 100pF cap as an RF jumper instead of 0 ohms, or does it really matter at this frequency?
Either way I'd still like to know the relationship between output RF power and power rating of components in line.
Thanks
Conductor width/gap ratio to ground should be ~1 for 50 Ohm , otherwise jumpers will appear inductive and cause a return loss problem. More precise calculations can be done with microstrip calculators and network analyzers
Jumper resistance is in a several 10 milliohm range maximal. A certain rise due to skin effect can be expected at 2.4 GHz, but not much. Jumper losses in a 50 ohm circuit will be respectively below 1 mW.
www.vishay.com/docs/31017/rcwp99.pdf
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