Japanese ship – coastal station marine comms

0
Wednesday, October 26, 2022

 

Concept Diagram of Maritime Communications. Image source: soumu.go.jp

The shortwave frequency range is commonly used for two-way radio communications between ships at sea, as well as between ships and nearby coastal stations across the world. Usually, these are low-power, non-directional transmissions of around 1 kW and can only be heard well locally. For example, in London it is often possible to hear sailors in the territorial waters of France, Spain, Portugal and, occasionally, Greece. I was therefore very surprised when I discovered what appeared to be maritime communications in Japanese on 8261 kHz in a spectrum recording I made on October 10, 2022:



The nature of this transmission was kindly confirmed to me by the user @shinyaradio on Twitter:


The link in the tweet states that this frequency is indeed allocated for maritime communications in Japan and the power of these transmissions should not exceed 1.2 kW. If this transmission did in fact originate in Japan, the propagation conditions must have been truly excellent that evening!

0 comments:

Another momentous day on captured on shortwave

0
Tuesday, October 25, 2022

 


October 24th marked another day of significant international developments covered on shortwave. Rishi Sunak became the fifth Conservative UK Prime Minister in just over six years and the Chinese Communist Party concluded its 20th National Congress two days earlier. Below is a selection of news broadcasts extracted from the spectrum capture I made outdoors, starting from around 1600 UTC. The BBC World Service coverage expectedly focused on Rishi Sunak's ascent to the prime minister's office, while the KBS World Service (South Korea) aired a long discussion on the party congress in China. The Voice of Vietnam and China Radio International brodcasts were also noteworthy in terms of how they placed emphases on these and other important events of the day. The spectrum capture was made using GPD MicroPC, AirSpy Mini, SpyVerter 2, Wellbrook UMB130 balun and a 2x6m dipole. Demodulation and additional signal audio enhancement was performed in SDR#.




0 comments: