#rfbiscuit – Use Case 1: Dummyload

In this first example I would like to design a 50Ohm-Dummyload capable to dissipate 10 Watts – the resistor I have chosen for this task is a Bourns PWR263S-35-50R0F – which is specified for 35 Watts (with proper cooling). This resistor is a thick-film resistor, because we want to keep parasitics inductances low and has a tolerance of 1%.

IMG_4681

To measure the performance I attached the DIY-Dummyload to a VNWA3E Networkanalyzer

IMG_4682

In the frequency range from 1-500Mhz the DIY-Dummyload shows up as a dot in the Smith Diagramm. Exactly what we want.

50Ohm_RFBiscuit_DUMMYLOAD_500Mhz

above 500Mhz the parasitic capacitance of the RF Biscuit starts to show – but depending on your application such a result might be considered still as good-enough.

50Ohm_RFBiscuit_DUMMYLOAD_1000Mhz

Let’s compare this result to a commercial 50Ohm-Termination

IMG_4675

The following Smith Diagramm shows the 50Ohm-Termination in the Frequencyrange of 1-1000Mhz:

50Ohm_termination_1000Mhz

In this Diagramm you can see that the dot is a bit broader – which can be explained as the VNWA3E is less accurate above 500Mhz . You can also see spurs which are releated to the measurement device and which are not part of the characteristics of the 50Ohm Termination.

I will update this part with an evaluation of the thermalperformance of the DIY-Dummyload.

Advertisements

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s