# CanX-5

> Canadian technology demonstration nanosatellite

**Wikidata**: [Q111471676](https://www.wikidata.org/wiki/Q111471676)  
**Source**: https://4ort.xyz/entity/canx-5

## Summary
CanX-5 is a Canadian technology demonstration nanosatellite developed by the UTIAS Space Flight Laboratory. Launched in 2014, it was part of the Canadian Advanced Nanospace eXperiment programme and served as a platform to test experimental technologies in space.

## Key Facts
- **Class**: Technology demonstration spacecraft and small satellite (under 1,200 kg)
- **Mass**: 15 kg at launch weight
- **Aliases**: Can X-5, Canadian Advanced Nanospace eXperiment 5, NLS 7.2, NLS7.2
- **Program**: Part of the Canadian Advanced Nanospace eXperiment programme
- **Operator/Manufacturer**: UTIAS Space Flight Laboratory
- **Launch Date**: June 30, 2014, at 04:22 UTC
- **Launch Vehicle**: Polar Satellite Launch Vehicle (PSLV-C23)
- **Launch Site**: Satish Dhawan Space Centre First Launch Pad
- **Orbit**: Sun-synchronous orbit
- **Spacecraft Bus**: Gryphon
- **Country of Origin**: Canada
- **COSPAR ID**: 2014-034D
- **NSSDCA ID**: 2014-034D

## FAQs
### Q: What was the purpose of CanX-5?
A: CanX-5 was a technology demonstration nanosatellite designed to test experimental technologies in space as part of the Canadian Advanced Nanospace eXperiment programme.

### Q: Who built CanX-5?
A: CanX-5 was built by the UTIAS Space Flight Laboratory, a Canadian space research facility.

### Q: When was CanX-5 launched?
A: CanX-5 was launched on June 30, 2014, at 04:22 UTC aboard the Polar Satellite Launch Vehicle (PSLV-C23).

### Q: What type of orbit did CanX-5 use?
A: CanX-5 operated in a sun-synchronous orbit.

### Q: What was the mass of CanX-5 at launch?
A: CanX-5 had a launch mass of 15 kg.

## Why It Matters
CanX-5 played a crucial role in advancing Canadian space technology by serving as a platform for testing experimental technologies in space. As part of the Canadian Advanced Nanospace eXperiment programme, it contributed to the development of nanosatellite capabilities, demonstrating the feasibility of small satellites for scientific and technological demonstrations. Its successful launch and operation provided valuable data for future space missions, reinforcing Canada's position in the global nanosatellite community. The mission also highlighted the effectiveness of the Gryphon spacecraft bus, which was used for the satellite's design and construction. Overall, CanX-5 was significant for its role in technological innovation and space exploration, particularly in the realm of nanosatellites.

## Notable For
- **Technology Demonstration**: Served as a platform to test experimental technologies in space.
- **Nanosatellite Innovation**: Part of Canada's efforts to advance small satellite capabilities.
- **Sun-Synchronous Orbit**: Operated in a sun-synchronous orbit, which is common for Earth observation and scientific missions.
- **Gryphon Bus**: Utilized the Gryphon spacecraft bus, a design developed by the UTIAS Space Flight Laboratory.
- **Collaborative Mission**: Launched alongside other satellites as part of the PSLV-C23 mission, demonstrating multi-satellite deployment capabilities.

## Body
### Overview
CanX-5 was a Canadian nanosatellite developed by the UTIAS Space Flight Laboratory. It was launched on June 30, 2014, aboard the Polar Satellite Launch Vehicle (PSLV-C23) from the Satish Dhawan Space Centre First Launch Pad. The satellite had a launch mass of 15 kg and operated in a sun-synchronous orbit.

### Mission and Technology
CanX-5 was part of the Canadian Advanced Nanospace eXperiment programme, which aimed to demonstrate the capabilities of small satellites for technological and scientific purposes. The satellite was equipped with the Gryphon spacecraft bus, a design developed by the UTIAS Space Flight Laboratory. The mission focused on testing experimental technologies in space, contributing to the advancement of nanosatellite technology.

### Launch and Operation
The launch of CanX-5 took place on June 30, 2014, at 04:22 UTC. The satellite was deployed into a sun-synchronous orbit, which is commonly used for Earth observation and scientific missions. The successful operation of CanX-5 provided valuable data for future space missions and reinforced Canada's role in the global nanosatellite community.

### Significance
CanX-5 was notable for its role in technological innovation and space exploration. The mission demonstrated the feasibility of small satellites for scientific and technological demonstrations, contributing to the development of nanosatellite capabilities. The use of the Gryphon bus and the successful launch and operation of CanX-5 highlighted the effectiveness of Canadian space technology.

## References

1. [Source](https://space.skyrocket.de/doc_sdat/canx-4.htm)
2. [Source](https://www.antrix.co.in/sites/default/files/PSLV-C23%20%281%29.pdf)
3. Jonathan's Space Report