# ABS-2A

> communications satellite

**Wikidata**: [Q14915003](https://www.wikidata.org/wiki/Q14915003)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/ABS-2A)  
**Source**: https://4ort.xyz/entity/abs-2a

## Summary
ABS-2A is a communications satellite launched in 2016, designed for telecommunications. It was built by Boeing and operated by Agility Beyond Space, with a mass of approximately 2,000 kilograms. The satellite was launched aboard a SpaceX Falcon 9 Full Thrust rocket from Cape Canaveral.

## Key Facts
- **Class**: Communications satellite, artificial satellite of Earth
- **Mass**: Approximately 2,000 kilograms (circa)
- **Operator**: Agility Beyond Space
- **Launch Date**: June 15, 2016, at 14:29 UTC
- **Launch Vehicle**: Falcon 9 Full Thrust (Booster B1024)
- **Launch Site**: Cape Canaveral Space Launch Complex 40
- **Manufacturer**: Boeing Satellite Development Center
- **Orbit**: Geostationary orbit
- **Spacecraft Bus**: Boeing 702
- **Power Source**: Two spacecraft solar arrays
- **Aliases**: ABS 2A, MongolSat-1
- **COSPAR ID**: 2016-038A
- **NSSDCA ID**: 2016-038B

## FAQs
### Q: What type of satellite is ABS-2A?
A: ABS-2A is a communications satellite designed for telecommunications, operating in geostationary orbit.

### Q: Who operates ABS-2A?
A: ABS-2A is operated by Agility Beyond Space, a satellite communications company.

### Q: What was the launch vehicle for ABS-2A?
A: The satellite was launched aboard a SpaceX Falcon 9 Full Thrust rocket (Booster B1024) from Cape Canaveral.

### Q: What is the mass of ABS-2A?
A: ABS-2A has a mass of approximately 2,000 kilograms.

### Q: What is the spacecraft bus used for ABS-2A?
A: ABS-2A is based on the Boeing 702 spacecraft bus.

## Why It Matters
ABS-2A played a crucial role in providing telecommunications services, particularly for Agility Beyond Space. Its launch marked a significant milestone for the company, demonstrating its capability to deploy and operate advanced communications satellites. The satellite contributed to global connectivity by offering reliable communication links in geostationary orbit. Its successful deployment also highlighted the growing collaboration between Boeing and SpaceX in satellite manufacturing and launch services.

## Notable For
- **First Commercial Deployment**: One of the first communications satellites deployed by Agility Beyond Space.
- **Boeing Collaboration**: Built using the Boeing 702 spacecraft bus, showcasing Boeing’s satellite development expertise.
- **SpaceX Launch**: Launched aboard a Falcon 9 Full Thrust rocket, demonstrating SpaceX’s reliability in orbital deployments.
- **Geostationary Orbit**: Operates in geostationary orbit, providing stable and continuous communication coverage.
- **Dual Power Source**: Equipped with two spacecraft solar arrays, ensuring robust power supply for its operations.

## Body
### Overview
ABS-2A is a communications satellite designed for telecommunications, operating in geostationary orbit. It was launched on June 15, 2016, aboard a SpaceX Falcon 9 Full Thrust rocket from Cape Canaveral Space Launch Complex 40. The satellite has a mass of approximately 2,000 kilograms and is based on the Boeing 702 spacecraft bus.

### Technical Specifications
- **Mass**: 2,000 kg (circa)
- **Power Source**: Two spacecraft solar arrays
- **Orbit**: Geostationary orbit
- **Spacecraft Bus**: Boeing 702

### Launch Details
- **Launch Date**: June 15, 2016, at 14:29 UTC
- **Launch Vehicle**: Falcon 9 Full Thrust (Booster B1024)
- **Launch Site**: Cape Canaveral Space Launch Complex 40
- **Launch Contractor**: SpaceX

### Operational Details
- **Operator**: Agility Beyond Space
- **Aliases**: ABS 2A, MongolSat-1
- **COSPAR ID**: 2016-038A
- **NSSDCA ID**: 2016-038B

### Significance
ABS-2A is notable for its role in providing telecommunications services and for being one of the first satellites deployed by Agility Beyond Space. Its launch marked a significant achievement in the collaboration between Boeing and SpaceX, demonstrating their capabilities in satellite manufacturing and launch services. The satellite’s operation in geostationary orbit ensures continuous and reliable communication coverage.

## References

1. [Source](https://space.skyrocket.de/doc_sdat/abs-2a.htm)
2. [Source](https://absatellite.com/satellite-fleet/satellite-fleet-overview/)
3. SATCAT
4. Jonathan's Space Report