Aerospace - Case Study - PLANET Technology

Country: USA
Application Site: Aerospace

» Original article by Versa Technology

Background and Challenge

PLANET Technology USA proudly congratulates Firefly Aerospace on the successful completion of the first Blue Ghost mission. We sincerely appreciate the opportunity to have contributed to that success by having one of our PoE industrial managed switches used in testing. It was a joy to watch as the mission accomplished so many firsts in lunar exploration:

This mission was the longest commercial operation on the moon, lasting 14 days.
Blue Ghost tracked GPS signals on the moon for the first time.
Firefly’s robotic subsurface probe drilled three feet beneath the lunar surface, the deepest-reaching probe to date.
Blue Ghost captured the first high-definition images of a total solar eclipse taken by a commercial company.

The mission sent 119 GB of data and collected numerous samples, providing scientists with essential information to advance lunar research.

Industrial L3 16-Port 10/100/1000T 802.3at PoE + 2-Port 10/100/1000T + 2-Port 1G/2.5G SFP Managed Ethernet Switch

IGS-20160HPT

Industrial 8-port 10/100/1000T 802.3at PoE + 2-port 1G/2.5G SFP Managed Switch

IGS-10020HPT

What is Blue Ghost?

Firefly’s Blue Ghost is a lunar lander that delivers customized payloads for technology and exploration. The first mission, known as ‘Ghost Riders in the Sky’, carried 10 NASA payloads, all of which were successfully executed. It launched on January 15, 2025, spent 25 days in Earth’s orbit, and then entered the Moon’s orbit. After 16 days in orbit, the lander reached the surface on March 2, 2025. Firefly is expected to launch Blue Ghost missions on an annual basis.

◆ Why Blue Ghost?

Firefly named its lunar lander after a rare firefly. The Blue Ghost firefly is native to the Appalachian regions of North Carolina. This rare firefly only appears for two to four weeks in late spring, and unlike other fireflies, it produces a blue-white glow that can last up to a minute. Like its namesake, the Blue Ghost lander is one of a kind.

◆ What Was its Mission?

During its 14 days on the lunar surface, the lander operated during 346 hours of daylight and just over five hours of lunar night, sending its last transmission on March 16. In that period, the lander completed the following payload milestones:

Blue Ghost acquired and tracked Global Navigation Satellite System (GNSS) signals, suggesting that GPS signals can be used to navigate future space missions.
Blue Ghost’s gimbal antenna reflected laser pulses from Earth-based observatories, allowing scientists to precisely measure the Moon’s shape and distance from Earth.
Blue Ghost’s Lunar Environment Heliospheric X-ray Imager (LEXI) captured a series of X-ray images of solar wind and Earth’s magnetic field activity to better understand the impact of space weather on Earth.
The lander deployed four tethered electrodes on the surface, reaching a distance of up to 60 feet from the lander, as well as a six-foot mast to measure electric and magnetic fields to learn more about the Moon’s composition.
Equipped with special cameras, the lander captured images during its descent and landing, showing how engine plumes impacted the surface.
The Lunar Instrumentation for Subsurface Thermal Exploration with Rapidity (LISTER) is a pneumatic, gas-powered drill capable of reaching three feet into the Moon’s surface to measure temperature and heat flow.
During its journey to the Moon, the Blue Ghost demonstrated that a specially designed computer can withstand space radiation.
The mission also included payloads to study lunar regolith, the loose rock, dust, and debris that rest on a layer of bedrock. Regolith attaches to surfaces and appears in collected samples. Pressurized nitrogen gas was used to separate regolith from samples, making it a low-cost, low-mass solution for future sample collection.

The Electrodynamic Dust Shield (EDS) lifted and removed lunar regolith from glass and thermal radiator surfaces, mitigating dust that often obscures observations. The Regolith Adherence Characterization (RAC) instrument studied how lunar regolith adheres to a range of materials, providing insights into better protecting spacecraft, habitats, and spacesuits from regolith damage.

The lander was able to capture 51 GB of science and technology data from its payloads because of Firefly’s rigorous testing. The complex laboratories used to create the lander required a reliable infrastructure to ensure effective communication between operators and the lander. Part of Firefly’s infrastructure included PLANET Technology USA’s PoE industrial managed switches.

What is a PoE Industrial Managed Switch?

An industrial switch is designed to withstand the extreme temperatures, vibrations, and electrical noise found in harsh industrial environments, ensuring reliable and uninterrupted communications. Companies like Firefly Aerospace choose industrial switches for the following reasons:

They are housed in metal enclosures that use hardened components to withstand physical stress and harsh conditions.
They operate in a broader range of temperatures, usually -40 to 75 °C.
They are designed to withstand vibrations and shocks while also minimizing electrical noise.
By using Ethernet and Power over Ethernet (PoE) technology, industrial switches can offer reliable data transmission during simulated space travel.

What is PoE?

PoE technology allows power and data to be transmitted over a single Ethernet cable, eliminating the need for an external power source. PoE simplifies network infrastructure and reduces costs by eliminating the need for separate power outlets and cables for individual devices.

The Institute of Electrical and Electronics Engineering (IEEE) maintains PoE standards such as 802.3af (PoE), 802.3at (PoE+), and 802.3bt (PoE++). These standards support devices requiring up to 90W of power and multiple gigabits of data transmission. PoE reduces infrastructure costs, centralizes power management, and simplifies installation.

Why Use PoE Industrial Managed Switches?

Industrial managed switches offer features such as network segmentation, traffic prioritization, redundancy, and remote management, making them essential for mission-critical networks.

◆ Network Management

Managed switches allow for remote configuration, monitoring, and troubleshooting. They can provide visual mapping of network topology, simplifying operations. Features like cable continuity checks, topology detection, and fault isolation help resolve issues quickly.

◆ Network Segmentation

Organizations can create virtual local area networks (VLANs) with managed switches to isolate traffic, improve network security, and enhance performance. Managed switches offer advanced traffic management for optimum network performance.

◆ Enhanced Security

Access control lists (ACLs) restrict access based on either the user or the device. Port-based authentication (802.1X) and MAC filtering further limit unauthorized access to a network.

◆ Traffic Management

Using Quality of Service (QoS) features, network administrators can prioritize critical traffic and reduce unnecessary traffic, ensuring optimal performance.

Blue Ghost Mission 2

PLANET Technology USA continues to support lunar exploration through its PoE products and eagerly awaits Blue Ghost’s second mission to the far side of the moon in 2026. For more information on PLANET’s PoE products, please speak with one of our advisors.

Contact PLANET Representative for More Details

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Case Study:

How a PoE Industrial Managed Switch Helped Blue Ghost Reach the Moon