Hunter Communications Launches Ku-Beam Managed Ku-Band Satellite Connectivity Service

Hunter Communications Launches Ku-Beam Managed Ku-Band Satellite Connectivity Service

Hunter Communications, a satellite communications service provider specializing in managed bandwidth and teleport services, is highlighting Ku-Beam, the Ku-band satellite connectivity offering designed to support enterprise, government, broadcast and mobility users requiring reliable and flexible satellite communications. Ku-Beam is positioned as a managed Ku-band SATCOM service, integrating satellite capacity, ground infrastructure and network management into a single operational framework. The service is designed for customers that require dependable satellite links without the complexity of managing space-segment capacity, teleport interfaces or network operations internally.

Managed Ku-Band Connectivity Built on Teleport Infrastructure

Ku-Beam leverages Hunter Communications’ teleport facilities and partner satellite networks to deliver Ku-band connectivity across regional and international coverage zones. The service is designed to support fixed, transportable and mobile terminals operating in environments where terrestrial networks are unavailable, unreliable or insufficient for operational requirements. Hunter Communications manages the end-to-end service delivery, including space-segment access, teleport routing, monitoring and operational support. This managed approach allows customers to focus on mission or business objectives while relying on a single provider for bandwidth availability, service continuity and network oversight.

Ku-Beam is structured around a centralized network management model, enabling controlled routing of traffic between user terminals and customer networks. The service supports IP-based communications and is compatible with commonly deployed Ku-band VSAT terminals and modem platforms used in enterprise and government environments. Key operational characteristics of Ku-Beam include stable link provisioning, coordinated bandwidth management and integration with redundant ground infrastructure. The service can be configured to align with customer-specific requirements for availability, performance prioritization and geographic coverage, depending on satellite footprint and terminal deployment.

Hunter Communications positions Ku-Beam for a wide range of operational use cases. These include enterprise connectivity for remote sites, backup communications for business continuity, government and public-sector communications, broadcast contribution and distribution and temporary or mobile field deployments. The service is also applicable to maritime, transportable and expeditionary scenarios where Ku-band terminals are used to maintain communications over wide geographic areas. By providing a managed service layer, Ku-Beam reduces the operational burden associated with coordinating multiple vendors or satellite operators. Ku-Beam is supported by Hunter Communications’ operational teams, providing ongoing monitoring and service coordination through the network operations framework. Customers benefit from a single point of contact for service provisioning, troubleshooting, and performance management rather than managing separate relationships for satellite capacity, teleport access and network services. This integrated support model is intended to simplify deployment timelines, improve service predictability and support long-term operational reliability for customers operating in demanding or remote environments.

Ku-Beam forms part of Hunter Communications’ broader satellite communications portfolio, which includes managed bandwidth services, teleport operations and customized network solutions. The offering reflects the company’s focus on delivering practical, service-oriented SATCOM solutions built on established Ku-band infrastructure and operational experience. By continuing to offer Ku-Beam as a managed Ku-band service, Hunter Communications provides organizations with a dependable option for satellite connectivity where control, operational simplicity and service continuity are key requirements.

About Hunter Communications

Hunter Communications is a US-based provider of satellite communications systems and services, supporting government, defense, enterprise and mobility users with secure and reliable connectivity solutions. Headquartered at 25 Archer Road, Harrison, New York 10528 (USA), the company specializes in the design, integration, deployment, and lifecycle support of SATCOM networks and terminals across land, maritime, and expeditionary environments. Hunter Communications’ portfolio spans satellite terminals, ground systems, network engineering and managed services, enabling customers to establish communications in remote, infrastructure-limited, or mission-critical scenarios. Through a focus on system integration, operational reliability and designed support, Hunter Communications helps organizations maintain dependable satellite connectivity aligned with their specific operational and security requirements.

Click here to learn more about Hunter Communications' Ku-Band Satellite Connectivity 

Publisher: SatNow

GNSS Constellations - A list of all GNSS satellites by constellations

beidou

Satellite NameOrbit Date
BeiDou-3 G4Geostationary Orbit (GEO)17 May, 2023
BeiDou-3 G2Geostationary Orbit (GEO)09 Mar, 2020
Compass-IGSO7Inclined Geosynchronous Orbit (IGSO)09 Feb, 2020
BeiDou-3 M19Medium Earth Orbit (MEO)16 Dec, 2019
BeiDou-3 M20Medium Earth Orbit (MEO)16 Dec, 2019
BeiDou-3 M21Medium Earth Orbit (MEO)23 Nov, 2019
BeiDou-3 M22Medium Earth Orbit (MEO)23 Nov, 2019
BeiDou-3 I3Inclined Geosynchronous Orbit (IGSO)04 Nov, 2019
BeiDou-3 M23Medium Earth Orbit (MEO)22 Sep, 2019
BeiDou-3 M24Medium Earth Orbit (MEO)22 Sep, 2019

galileo

Satellite NameOrbit Date
GSAT0223MEO - Near-Circular05 Dec, 2021
GSAT0224MEO - Near-Circular05 Dec, 2021
GSAT0219MEO - Near-Circular25 Jul, 2018
GSAT0220MEO - Near-Circular25 Jul, 2018
GSAT0221MEO - Near-Circular25 Jul, 2018
GSAT0222MEO - Near-Circular25 Jul, 2018
GSAT0215MEO - Near-Circular12 Dec, 2017
GSAT0216MEO - Near-Circular12 Dec, 2017
GSAT0217MEO - Near-Circular12 Dec, 2017
GSAT0218MEO - Near-Circular12 Dec, 2017

glonass

Satellite NameOrbit Date
Kosmos 2569--07 Aug, 2023
Kosmos 2564--28 Nov, 2022
Kosmos 2559--10 Oct, 2022
Kosmos 2557--07 Jul, 2022
Kosmos 2547--25 Oct, 2020
Kosmos 2545--16 Mar, 2020
Kosmos 2544--11 Dec, 2019
Kosmos 2534--27 May, 2019
Kosmos 2529--03 Nov, 2018
Kosmos 2527--16 Jun, 2018

gps

Satellite NameOrbit Date
Navstar 82Medium Earth Orbit19 Jan, 2023
Navstar 81Medium Earth Orbit17 Jun, 2021
Navstar 78Medium Earth Orbit22 Aug, 2019
Navstar 77Medium Earth Orbit23 Dec, 2018
Navstar 76Medium Earth Orbit05 Feb, 2016
Navstar 75Medium Earth Orbit31 Oct, 2015
Navstar 74Medium Earth Orbit15 Jul, 2015
Navstar 73Medium Earth Orbit25 Mar, 2015
Navstar 72Medium Earth Orbit29 Oct, 2014
Navstar 71Medium Earth Orbit02 Aug, 2014

irnss

Satellite NameOrbit Date
NVS-01Geostationary Orbit (GEO)29 May, 2023
IRNSS-1IInclined Geosynchronous Orbit (IGSO)12 Apr, 2018
IRNSS-1HSub Geosynchronous Transfer Orbit (Sub-GTO)31 Aug, 2017
IRNSS-1GGeostationary Orbit (GEO)28 Apr, 2016
IRNSS-1FGeostationary Orbit (GEO)10 Mar, 2016
IRNSS-1EGeosynchronous Orbit (IGSO)20 Jan, 2016
IRNSS-1DInclined Geosynchronous Orbit (IGSO)28 Mar, 2015
IRNSS-1CGeostationary Orbit (GEO)16 Oct, 2014
IRNSS-1BInclined Geosynchronous Orbit (IGSO)04 Apr, 2014
IRNSS-1AInclined Geosynchronous Orbit (IGSO)01 Jul, 2013
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