Exhibition News
Insights from GES USA on Custom Rechargeable Solutions
jan 23, 2026
From the outset, it helped establish regulatory frameworks and centralized data platforms to monitor habitable environments
for endangered species worldwide, while also safeguarding workers exposed to environmental hazards.
Why Were Early Monitoring Systems Restricted to Indoor Applications?
Early monitoring systems relied on stable mains electricity and were designed primarily for indoor environments.
While reliable, this dependency on fixed power sources limited deployment to stationary locations and prevented
effective outdoor or remote monitoring.
What Changed in 2024 That Made Portable Power a Necessity?
By 2023, the need for wireless and mobile environmental monitoring became critical.
Government agencies, animal protection organizations, and industrial safety teams required
short-term and outdoor testing capabilities in remote or high-risk locations.
Why Was a Standard Battery System Not Enough for Outdoor Deployment?
Outdoor fieldwork introduced challenges that standard batteries could not meet, including high energy demand,
harsh environmental exposure, and the need for long-duration operation without grid access.
A customized power solution became essential.
How Was Portability Solved for a High-Capacity Power System?
To address the weight and size of the high-capacity battery pack, engineers redesigned the system
into a wheeled suitcase-style format. This allowed a single operator to transport the power system
easily across uneven terrain without sacrificing performance.
How Could the Power Supply Withstand Harsh Outdoor Conditions?
The power system was enclosed in a fully customized casing designed to resist water, dust, and extreme weather.
Through dedicated enclosure development and testing, the system achieved an IP68 rating,
ensuring complete protection even during prolonged exposure to harsh environments.
How Was Long-Term Off-Grid Operation Achieved?
An integrated MPPT (Maximum Power Point Tracking) controller enabled efficient solar energy harvesting.
By connecting optional solar panels during downtime, the system could store renewable energy and
significantly extend field operation time without reliance on external power sources.
What Results Did the New Outdoor Monitoring System Deliver?
First deployed in Northern Europe, the upgraded outdoor monitoring solution received highly positive feedback.
The system is now being evaluated by labor organizations and government agencies,
with planned expansion across Europe and North America in the coming years.
Why Are Customized Power Solutions Critical for Mission-Critical Applications?
This case demonstrates that complex outdoor monitoring missions cannot rely on off-the-shelf power products.
When reliability, durability, and autonomy are essential, customized battery solutions become the foundation
for successful long-term deployment.
