nRF52832 ANTENNA

RE: nRF52832 ANTENNA

Luna Harris — Sat, 27 Dec 2025 13:00:41 GMT

Yes, the 2450AT43A100E antenna should work with the nRF52832, especially since the chip has an integrated balun.Regarding L1 and Wolf Winner Casino C3, these are antenna tuning components—you should keep them unless you are designing a custom antenna. Slight impedance variations from 50 Ω are normal and can be fine-tuned by adjusting track widths or clearances on your PCB.

RE: nRF52832 ANTENNA

sh4k3jkeee — Tue, 23 Sep 2025 11:40:56 GMT

For them to provide a proper match, it is important the layout gannelectricks surrounding them are as close to the reference design as possible.

RE: nRF52832 ANTENNA

zhufangli123 — Sun, 22 Jun 2025 12:47:41 GMT

Yes, the 2450AT43A100E antenna should work with the nRF52832 as long as the impedance is matched.
L1 and C3 are likely antenna tuning components, so keep them unless designing a custom antenna. logomate
A 46.2851 ohm impedance is normal; slight variations from 50 ohms can be adjusted by modifying track width or clearance.

RE: nRF52832 ANTENNA

financecajole — Tue, 30 May 2023 01:27:25 GMT

Every 360 degrees of rotation on a smith chart equals half a wavelength. All of these components would simply circle the smith chart's center if they were all 50 ohm. However, they are not, and a mere 10 or 20 degrees will significantly alter the situation. free games
When you eventually match your antenna, just check that it is conjugate to the nRF (as it shows on your board) and that you do it while the antenna is inside any enclosures you are planning.

RE: nRF52832 ANTENNA

AmbystomaLabs — Fri, 23 Jun 2017 14:41:40 GMT

By the way here is your design info with all the correct constants applied. Looks like you got it spot on!

RE: nRF52832 ANTENNA

AmbystomaLabs — Fri, 23 Jun 2017 14:33:15 GMT

I disagree with Jorn though on the significance of 2 mm change in electrical length. On a board the wave travels at less than the speed of light due to Er. In this case about 64% of the speed of light. At 2.4GHz every 1.2mm of distance is 10 degrees of rotation around the smith chart. On a smith chart every 360 degree rotation corresponds to half a wavelength. If all these things were 50ohm they would just spin around the center of the smith chart. However, they are not and 10 or 20 degrees will change things considerably.
When you finally do your antenna match just make sure it is conjugate to the nRF (as it appears on your board) and make sure to do the match while it is in any enclosure you are planning. Any plastic, metal or skin if it is worn nearby will change the antenna match.

RE: nRF52832 ANTENNA

AmbystomaLabs — Fri, 23 Jun 2017 14:26:13 GMT

As Jorn mentioned below, Er for standard RoHS FR4 (Tg 170c) generally has a dielectric constant of 4.2 to 4.4. The reality is unless you make that part of your spec the board vendor will not guarantee consistent 50ohm performance. In a spec'd 50ohm situation you tell them which artwork should be 50ohm and they control the board thickness and amount of epoxy vs. glass to get the solution to 50ohm. However, for your purposes don't worry about it. Anything 45 to 55 ohms will be fine. In your calculations you forgot to subtract 2xT from your H value. H is between the outer copper sheets. The outside is 0.062 so H is .062 - .0028 or 0.0592.

RE: nRF52832 ANTENNA

Tizana — Fri, 23 Jun 2017 13:04:16 GMT

thx for the answer, so no need for me to move from the NRF51822 to the nRF52832 , because my only goal was to improve the range, and the nRF52840 only available later in Q4 2017 ? right ?

RE: nRF52832 ANTENNA

Jørn — Fri, 23 Jun 2017 12:59:44 GMT

Hello Tizana

1 – The nRF52832 does not support the Long Range part of Bluetooth 5, only the 2Mb/s PHY. For Long Range you will need to use the nRF52840. As for the antenna it should work fine with Long Range as it has a maximum input power of 2W, while the nRF52840, which has a higher output power than any of our previous products, has a maximum output power of 8dBm (6.3 mW)

2 – The output impedance of the chip is not 50 Ohm. L1 and C3 are there to match it to 50 Ohm, and suppress harmonics. For them to provide a proper match, it is important the layout surrounding them are as close to the reference design as possible.

As you're using a chip antenna a PI network, as shown in your figure, may be necessary to properly tune the antenna to 50 Ohm.

In regards of layout for the nRF52 I recommend this blogpost.

3 – I see the reference design has listed 4.8 as its dielectric constant. This is quite likely too high as the dielectric constant will become lower as the frequency goes higher. The development kit uses 4,4 which I believe to be more correct. The design there gives a bit more accurate result, closer to 50 Ohm. I will look further into the exact numbers of the reference layout.

The exact dielectric constant of the substrate you use will differ based on who produced it. For a more accurate number you will either have to make measurements yourself, or contact the company who made your substrate.

That being said a mismatch of 5 Ohm is not bad giving a reflection coefficient just above 4,5% if the antenna is perfectly matched to 50. The trace in the reference layout is 2,4 mm long (94,5 mil) which corresponds to about 3% of the wavelength. This is not enough to have any significant impact on the impedance.

Best regards

Jørn Frøysa