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Nrf9160 GPS long time to fix with healthy RF electronics

Helo Nordic support team,

I am supporting a client that has designed a product using the NRF9160 with GPS. The product has a small patch antenna mounted on the pcb board, a saw filter and a LNA upstream the GPS port of the NRF9160.

The product has been tested extensively in the open and they experience long time to fix - in some cases 10 to 15 minutes from cold start (and some time no fix at all). It was suspected that the antenna gain and match could explain long fix time due to lov SNR for the received GPS signal. The antenna match was investigated using a network analyser and found to be around -10dB RL for the GPS band.

We have compared the product respons with a Thingy:91 using a larger patch antenna with integrated LNA. This gave similar results with long time to fix (not tested as thorough as the product).

Next test was done in a lab version of an anechoic chamber called GTEM cell. It is not a perfect environment for antenna performance tests but gives a good indication on performance. Using this GTEM device with a signal source we were able to apply a -90dbm CW signal to the product (now running only with test software and battery power). The test software logged the SNR and RSSI using the AT AT%XRFTEST=2,1,-90 at command and after the test we extracted the data from the product to a log file using a J-link SEGGER with RTT Viewer. We did a similar test with the Thingy:91 with the external antenna and got similar results.

Our preliminary conclusion is that the product (and the Thingy:91) has good RF performance (around 14dB gain including LNA, SAW and antenna gain).

I tend to conclude that the long time to fix can be explained by software.

There are no other use of the radio between GPS read, the LTE is not used.

Can the Nordic team comment on why do we experience long time to fix from cold condition even with apparently healthy RF electronics ?

Thanks,

Regards

Bjørn

Top Replies

JONATHAN LL over 4 years ago in reply to bjornshnrf +1

bjornshnrf said: I have attached one of the log files here. There does not seem to be a file attached. Could you try to attach again ? Regards, Jonathan

Parents

0 bjornshnrf over 4 years ago

We have made some additional tests using both the Thingy:91 with external antenna and the product we have designed based on your NRF9160.

The Thingy has been tested using an external antenna. The Coax connector for external antenna has no longer an internal switch so we selected to remove the dc block capacitance downstream of the connector towards the internal GPS antenna. This to try to keep the 50ohm transmission line from the NRF to the external antenna. The external antenna has a LNA and the test software is configured to switch this power on (confirmed by measuring that the bias voltage is present on the external coax line).

We have three configurations (four if you add the GPS cold start hit the pedal drive test .. : ) ). The first test was done putting the Thingy:91 w/ext ant. on the roof of my car. The car was parked at Sunland in Drammen with no cars nearby and farily open space around the site. The second test was run at the exact same spot but now with the product as the GPS receiver. The third test was done on the dashboard for both the Thingy and the product. The last test was executed by giving Thingy (and also the product) a cold start and then immidiatly driving away in order to test or get a reference measurement for a moving receiver.

I still have a few more tests to run before I will share the results. I will upload these test when Ithe extended test has concluded.

In addition to these tests I have added a more dedicated test on SNR and RSSI. I put the receiver into a suitable GTEM cell and configured the lab. Signal source to give -90dBm field power at the antenna of the test device. The GTEM is EM sealed and very little exernal radiowaves can kreep into the test chamber. Could you please evaluate the data in this log file and comment on the RSSI and SNR?

All data in the attached log files have been extracted using the JLINK and the JLinkRTTViewer.exe from Segger.

There are two files attached:

gps_driver_share.zip : Code for test in the field
gps_rf_test_share.zip : Code to test the gps in the RF chamber
Chamber_test_Product_boresight_90dbm_vertical.log : log file from chamber test

These datafiles have been modified to remove client source code.

gps_driver_share.zip

gps_rf_test_share.zip

Fullscreen Chamber_test_Product_boresight_90dbm_vertical.log Download

# SEGGER J-Link RTT Viewer V6.88a Terminal Log File
# Compiled: 15:12:58 on Nov 18 2020
# Logging started @ 14 Feb 2021 13:37:26
00> *** Booting Zephyr OS build v2.4.0-ncs1-24-gdac3d0802faa  ***
00> 
00> AT response: %XRFTEST: 289,-19411
00> 
00> AT response: %XRFTEST: 286,-19391
00> 
00> AT response: %XRFTEST: 284,-19411
00> 
00> AT response: %XRFTEST: 283,-19391
00> 
00> AT response: %XRFTEST: 285,-19411
00> 
00> AT response: %XRFTEST: 284,-19411
00> 
00> AT response: %XRFTEST: 288,-19411
00> 
00> AT response: %XRFTEST: 287,-19411
00> 
00> AT response: %XRFTEST: 286,-19411
00> 
00> AT response: %XRFTEST: 288,-19411
00> 
00> AT response: %XRFTEST: 284,-19391
00> 
00> AT response: %XRFTEST: 288,-19391
00> 
00> AT response: %XRFTEST: 287,-19411
00> 
00> AT response: %XRFTEST: 285,-19371
00> 
00> AT response: %XRFTEST: 289,-19391
00> 
00> AT response: %XRFTEST: 289,-19371
00> 
00> AT response: %XRFTEST: 284,-19411
00> 
00> AT response: %XRFTEST: 285,-19411
00> 
00> AT response: %XRFTEST: 286,-19371
00> 
00> AT response: %XRFTEST: 286,-19391
00> 
00> AT response: %XRFTEST: 285,-19411
00> 
00> AT response: %XRFTEST: 291,-19391
00> 
00> AT response: %XRFTEST: 292,-19411
00> 
00> AT response: %XRFTEST: 287,-19391
00> 
00> AT response: %XRFTEST: 289,-19371
00> 
00> AT response: %XRFTEST: 288,-19391
00> 
00> AT response: %XR1
00> 
00> 1
00> 
00> Measurement: 0, snr: 289, antenna_power: -19411
00> 
00> Measurement: 1, snr: 286, antenna_power: -19391
00> 
00> Measurement: 2, snr: 284, antenna_power: -19411
00> 
00> Measurement: 3, snr: 283, antenna_power: -19391
00> 
00> Measurement: 4, snr: 285, antenna_power: -19411
00> 
00> Measurement: 5, snr: 284, antenna_power: -19411
00> 
00> Measurement: 6, snr: 288, antenna_power: -19411
00> 
00> Measurement: 7, snr: 287, antenna_power: -19411
00> 
00> Measurement: 8, snr: 286, antenna_power: -19411
00> 
00> Measurement: 9, snr: 288, antenna_power: -19411
00> 
00> Measurement: 10, snr: 284, antenna_power: -19391
00> 
00> Measurement: 11, snr: 288, antenna_power: -19391
00> 
00> Measurement: 12, snr: 287, antenna_power: -19411
00> 
00> Measurement: 13, snr: 285, antenna_power: -19371
00> 
00> Measurement: 14, snr: 289, antenna_power: -19391
00> 
00> Measurement: 15, snr: 289, antenna_power: -19371
00> 
00> Measurement: 16, snr: 284, antenna_power: -19411
00> 
00> Measurement: 17, snr: 285, antenna_power: -19411
00> 
00> Measurement: 18, snr: 286, antenna_power: -19371
00> 
00> Measurement: 19, snr: 286, antenna_power: -19391
00> 
00> Measurement: 20, snr: 285, antenna_power: -19411
00> 
00> Measurement: 21, snr: 291, antenna_power: -19391
00> 
00> Measurement: 22, snr: 292, antenna_power: -19411
00> 
00> Measurement: 23, snr: 287, antenna_power: -19391
00> 
00> Measurement: 24, snr: 289, antenna_power: -19371
00> 
00> Measurement: 25, snr: 288, antenna_power: -19391
00> 
00> Measurement: 26, snr: 286, antenna_power: -19411
00> 
00> Measurement: 27, snr: 292, antenna_power: -19391
00> 
00> Measurement: 28, snr: 284, antenna_power: -19371
00> 
00> Measurement: 29, snr: 285, antenna_power: -19371
00> 
00> Measurement: 30, snr: 284, antenna_power: -19391
00> 
00> Measurement: 31, snr: 289, antenna_power: -19411
00> 
00> Measurement: 32, snr: 288, antenna_power: -19371
00> 
00> Measurement: 33, snr: 286, antenna_power: -19411
00> 
00> Measurement: 34, snr: 290, antenna_power: -19391
00> 
00> Measurement: 35, snr: 289, antenna_power: -19391
00> 
00> Measurement: 36, snr: 286, antenna_power: -19411
00> 
00> Measurement: 37, snr: 286, antenna_power: -19391
00> 
00> Measurement: 38, snr: 288, antenna_power: -19371
00> 
00> Measurement: 39, snr: 286, antenna_power: -19371
00> 
00> Measurement: 40, snr: 290, antenna_power: -19411
00> 
00> Measurement: 41, snr: 293, antenna_power: -19411
00> 
00> Measurement: 42, snr: 287, antenna_power: -19351
00> 
00> Measurement: 43, snr: 289, antenna_power: -19391
00> 
00> Measurement: 44, snr: 291, antenna_power: -19391
00> 
00> Measurement: 45, snr: 283, antenna_power: -19411
00> 
00> Measurement: 46, snr: 287, antenna_power: -19391
00> 
00> Measurement: 47, snr: 286, antenna_power: -19411
00> 
00> Measurement: 48, snr: 290, antenna_power: -19411
00> 
00> Measurement: 49, snr: 289, antenna_power: -19391
00> 
00> Measurement: 50, snr: 291, antenna_power: -19441
00> 
00> Measurement: 51, snr: 290, antenna_power: -19391
00> 
00> Measurement: 52, snr: 288, antenna_power: -19391
00> 
00> Measurement: 53, snr: 289, antenna_power: -19391
00> 
00> Measurement: 54, snr: 291, antenna_power: -19411
00> 
00> Measurement: 55, snr: 292, antenna_power: -19391
00> 
00> Measurement: 56, snr: 290, antenna_power: -19391
00> 
00> Measurement: 57, snr: 290, antenna_power: -19391
00> 
00> Measurement: 58, snr: 292, antenna_power: -19411
00> 
00> Measurement: 59, snr: 293, antenna_power: -19391
00> 
00> Measurement: 60, snr: 286, antenna_power: -19441
00> 
00> Measurement: 61, snr: 289, antenna_power: -19391
00> 
00> Measurement: 62, snr: 290, antenna_power: -19371
00> 
00> Measurement: 63, snr: 289, antenna_power: -19371
00> 
00> Measurement: 64, snr: 286, antenna_power: -19391
00> 
00> Measurement: 65, snr: 290, antenna_power: -19411
00> 
00> Measurement: 66, snr: 286, antenna_power: -19411
00> 
00> Measurement: 67, snr: 290, antenna_power: -19411
00> 
00> Measurement: 68, snr: 295, antenna_power: -19391
00> 
00> Measurement: 69, snr: 297, antenna_power: -19411
00> 
00> Measurement: 70, snr: 290, antenna_power: -19391
00> 
00> Measurement: 71, snr: 288, antenna_power: -19371
00> 
00> Measurement: 72, snr: 292, antenna_power: -19411
00> 
00> Measurement: 73, snr: 288, antenna_power: -19411
00> 
00> Measurement: 74, snr: 291, antenna_power: -19391
00> 
00> Measurement: 75, snr: 287, antenna_power: -19411
00> 
00> Measurement: 76, snr: 290, antenna_power: -19411
00> 
00> Measurement: 77, snr: 293, antenna_power: -19371
00> 
00> Measurement: 78, snr: 290, antenna_power: -19391
00> 
00> Measurement: 79, snr: 292, antenna_power: -19391
00> 
00> Measurement: 80, snr: 294, antenna_power: -19371
00> 
00> Measurement: 81, snr: 290, antenna_power: -19411
00> 
00> Measurement: 82, snr: 289, antenna_power: -19391
00> 
00> Measurement: 83, snr: 291, antenna_power: -19411
00> 
00> Measurement: 84, snr: 290, antenna_power: -19391
00> 
00> Measurement: 85, snr: 295, antenna_power: -19411
00> 
00> Measurement: 86, snr: 294, antenna_power: -19411
00> 
00> Measurement: 87, snr: 290, antenna_power: -19411
00> 
00> Measurement: 88, snr: 295, antenna_power: -19391
00> 
00> Measurement: 89, snr: 293, antenna_power: -19371
00> 
00> Measurement: 90, snr: 294, antenna_power: -19391
00> 
00> Measurement: 91, snr: 291, antenna_power: -19411
00> 
00> Measurement: 92, snr: 292, antenna_power: -19411
00> 
00> Measurement: 93, snr: 294, antenna_power: -19391
00> 
00> Measurement: 94, snr: 286, antenna_power: -19411
00> 
00> Measurement: 95, snr: 293, antenna_power: -19411
00> 
00> Measurement: 96, snr: 285, antenna_power: -19391
00> 
00> Measurement: 97, snr: 287, antenna_power: -19391
00> 
00> Measurement: 98, snr: 293, antenna_power: -19391
00> 
00> Measurement: 99, snr: 290, antenna_power: -19391
00> 

# Logging stopped @ 14 Feb 2021 13:40:42

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