Radeus Labs
Radeus Labs - Series 2000 Antenna Control System (ACS)
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Radeus Labs - Series 2000 Antenna Control System (ACS)
Model 2200 and Model 2300 Antenna Control Systems are specifically for full-motion LEO and MEO antenna applications. With velocity control of smart motors, antenna speeds well beyond ten degrees per second are supported.
When coupled with the 2048 Drive Interface (Smart Motor Controller), the 2200 is well-suited to — and interfaces seamlessly with — M2 Antenna Systems’ AE-2000S and its Moog Animatics SmartMotors.
Performance – Flexible tracking modes, intuitive menu layouts and a compact parameter set keep your antenna applications on point.
Availability – We understand the need for quick delivery. Lean manufacturing methods allow us to ship most systems within 30 days of an accepted order!
World-Class Support – You are never on your own with a Radeus Labs product. The experts at Radeus Labs are standing by if you need help.
This antenna control system meets the requirements of retrofits and new installations. The 2200/2300 Antenna Control System provides a flexible approach for the higher speed, full motion antenna systems normally used in LEO/MEO applications. The 2200 with the SMC 2048, gives more of an OEM option with smart motors and a power source provided by the OEM or end customer. The 2300/2350 ACS offers a more traditional drive cabinet approach for use with DC or AC motors on full motion antenna systems.
Model |
2200™ ACU, 2300™, 2350™ Drive Cabinet |
---|---|
Steptrack |
Advanced algorithm for periodic or signal-level-triggered scans to peak the signal level |
Predictive Track |
Tracks targets based on an orbital model developed from prior Step Track data points |
NORAD TLE |
Automated tracking based on NORAD two-line element sets |
TLE with Steptrack |
Track using TLE as a base model but add periodic Step Tracks to correct for offsets over time |
Longitude |
Points the antenna to AZ and EL angles determined by the longitudinal orbital slot |
Look Angles |
Points the antenna to user-supplied AZ, EL and POL angles |
Manual Jog |
Dedicated front-panel antenna jog controls |
Features
- Touchscreen controls for all operations
- Efficient, intuitive graphical user interface
- Hardware jog buttons with LED indicators
- Data and parameters secured in nonvolatile storage
- Innovative setup wizard eases installation
- Secure TeamViewer integration for remote and shared ACU operation
- Motion warning output
Modes of Operation
Manual — Front-panel buttons for two-speed, manual jog control.
Move to Longitude — Position to AZ and EL angles determined from the longitudinal orbital slot.
Move to Look Angles — Position to user-provided AZ, EL, and POL angles.
Step Track — Periodic algorithm to perform an AZ-EL scan pattern to peak up signal strength.
Predictive Track — Point the satellite dish using an orbital model created from previous peak AZ and EL step-track data points.
TLE (Two-Line Element) — Track automated positioning based on NORAD two-line element sets.
TLE with Steptrack — Steptrack incorporated with TLE to provide closed loop correction and superior pointing accuracy.
Intelsat-11 — Automated tracking to AZ and EL coordinate sets derived from Intelsat 11 parameters.
Intelsat-11 with Steptrack — Steptrack incorporated with Intelsat-11 to provide closed loop correction and superior pointing accuracy.
Computer Track — Automated positioning using commanded angles supplied from an external computer.
Sun and Moon Track — Automated positioning to AZ and EL locations of the sun and the moon.
Star Track — Automated positioning to AZ and EL locations of radio stars.
Radeus Labs - Series 2000 Antenna Control System (ACS)
Model 2200 and Model 2300 Antenna Control Systems are specifically for full-motion LEO and MEO antenna applications. With velocity control of smart motors, antenna speeds well beyond ten degrees per second are supported.
When coupled with the 2048 Drive Interface (Smart Motor Controller), the 2200 is well-suited to — and interfaces seamlessly with — M2 Antenna Systems’ AE-2000S and its Moog Animatics SmartMotors.
Performance – Flexible tracking modes, intuitive menu layouts and a compact parameter set keep your antenna applications on point.
Availability – We understand the need for quick delivery. Lean manufacturing methods allow us to ship most systems within 30 days of an accepted order!
World-Class Support – You are never on your own with a Radeus Labs product. The experts at Radeus Labs are standing by if you need help.
This antenna control system meets the requirements of retrofits and new installations. The 2200/2300 Antenna Control System provides a flexible approach for the higher speed, full motion antenna systems normally used in LEO/MEO applications. The 2200 with the SMC 2048, gives more of an OEM option with smart motors and a power source provided by the OEM or end customer. The 2300/2350 ACS offers a more traditional drive cabinet approach for use with DC or AC motors on full motion antenna systems.
Model |
2200™ ACU, 2300™, 2350™ Drive Cabinet |
---|---|
Steptrack |
Advanced algorithm for periodic or signal-level-triggered scans to peak the signal level |
Predictive Track |
Tracks targets based on an orbital model developed from prior Step Track data points |
NORAD TLE |
Automated tracking based on NORAD two-line element sets |
TLE with Steptrack |
Track using TLE as a base model but add periodic Step Tracks to correct for offsets over time |
Longitude |
Points the antenna to AZ and EL angles determined by the longitudinal orbital slot |
Look Angles |
Points the antenna to user-supplied AZ, EL and POL angles |
Manual Jog |
Dedicated front-panel antenna jog controls |
Features
- Touchscreen controls for all operations
- Efficient, intuitive graphical user interface
- Hardware jog buttons with LED indicators
- Data and parameters secured in nonvolatile storage
- Innovative setup wizard eases installation
- Secure TeamViewer integration for remote and shared ACU operation
- Motion warning output
Modes of Operation
Manual — Front-panel buttons for two-speed, manual jog control.
Move to Longitude — Position to AZ and EL angles determined from the longitudinal orbital slot.
Move to Look Angles — Position to user-provided AZ, EL, and POL angles.
Step Track — Periodic algorithm to perform an AZ-EL scan pattern to peak up signal strength.
Predictive Track — Point the satellite dish using an orbital model created from previous peak AZ and EL step-track data points.
TLE (Two-Line Element) — Track automated positioning based on NORAD two-line element sets.
TLE with Steptrack — Steptrack incorporated with TLE to provide closed loop correction and superior pointing accuracy.
Intelsat-11 — Automated tracking to AZ and EL coordinate sets derived from Intelsat 11 parameters.
Intelsat-11 with Steptrack — Steptrack incorporated with Intelsat-11 to provide closed loop correction and superior pointing accuracy.
Computer Track — Automated positioning using commanded angles supplied from an external computer.
Sun and Moon Track — Automated positioning to AZ and EL locations of the sun and the moon.
Star Track — Automated positioning to AZ and EL locations of radio stars.