#KU BAND DOWNLINK FREQUENCY INSTALL#
Meanwhile, the materials required to fix a Ka-band antenna and the labour time needed to install the system are both lower, which also contributes to more favourable CAPEX.ģ. With a smaller antenna, Ka-band has a lower manufacturing cost and lower transportation cost, which both reduce the purchase price of solutions that use the band. Firstly, with an average bandwith cost of between $250 to $400 per megabits per second (Mbps) per month, Ka-band is more affordable than the Ku-band, which typically costs between $800 to $1,400 per Mbps per month.Īdditionally, Ka-band represents lower CAPEX for a number of reasons. Lower cost is a major reason why the Ka-band has emerged as a serious alternative to legacy and emerging Ku-band solutions. The VHF radio would transmit a crisper sound because of its higher frequency. An older AM radio typically has a low frequency of around 1MHz, whereas a more modern VHF radio would have a frequency of approximately 1GHz. With a higher frequency, you can extract more bandwidth from a Ka-band system, which means a higher data transfer rate and, therefore, higher performance.įor example, consider your choice of radio and the quality of music heard from it. Ku-band uses frequencies in the 12 to 18 GHz range, while Ka-band uses frequencies in the 26.5 to 40 GHz range. One major difference is the frequency of each band, which affects the quality of the connection provided. What are the main differences between Ka band and Ku band? To discover why, we spoke to Hamed Odeh, VP Global Strategic Business Development at YahClick, the leading satellite broadband service of UAE-based global satellite operator Yahsat and its partner Hughes.ġ. The Ka-band has emerged as the next big thing in satellite technology in recent years, representing a real alternative to the well-established Ku-band.
But did you know, the reliability of your connection can be affected by the frequency used? And more specifically, the ‘band’ used by your chosen satellite internet provider? In the humanitarian space, satellite connectivity is vital to successful relief efforts, being the lifeline for government, emergency services, aid organisations, and other parties collaborating on-ground.
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