Chasing 200m Buoyancy Tether – Reliable Depth Management
Unlock the full potential of your underwater drone with the
CHASING 200m High-Performance Buoyancy Tethers. These tethers are expertly engineered to ensure unparalleled strength, tear resistance, and consistent performance in the most demanding underwater conditions. With a
200-meter length, these buoyancy tethers provide the security and reliability needed for deeper, longer underwater explorations—perfect for professionals and enthusiasts using the
M2, M2 S, and M2 PRO underwater drones.
Key Features:
200-Meter Length for Deep Exploration
Dive deeper and further with a generous
200-meter length. This buoyancy tether is ideal for long-distance underwater operations, ensuring your drone remains securely connected during extensive dives and explorations.
Exceptional Durability
Built to last, CHASING buoyancy tethers feature a robust construction made from
multi-stranded tinned copper wire combined with
Kevlar bulletproof wire as the filler. This advanced material composition ensures outstanding tensile strength and tear resistance, making these tethers highly durable in even the most challenging underwater environments.
Advanced Material Composition
The conductor is made from high-quality, multi-stranded tinned copper wire, while the filler incorporates
Kevlar bulletproof wire. This powerful combination offers not only excellent tear resistance but also structural integrity that holds up against strong currents, rough handling, and environmental stressors.
Wide Operating Temperature Range
Designed to perform in diverse environments, CHASING buoyancy tethers can operate within a wide temperature range from
-122°F to 176°F (-50°C to 80°C). Whether you're exploring in arctic-like conditions or warm tropical waters, these tethers will consistently deliver.
High Tensile Strength
With a tensile capacity of
220 lbf (100 kgf), these tethers can withstand substantial stress and pressure, enhancing both safety and efficiency during underwater operations. This high tensile strength ensures your tether stays strong, even under the strain of long, deep dives or while towing equipment.
Non-Hygroscopic Properties
Designed to resist water absorption, CHASING buoyancy tethers maintain their performance even when fully submerged. The
non-hygroscopic nature of these tethers ensures that water does not affect their strength, weight, or structural integrity, keeping your underwater drone operating smoothly.
Specifications:
- Length: 200 meters for extensive underwater reach
- Color: Bright Yellow for superior underwater visibility
- Material: Multi-stranded tinned copper wire conductor with Kevlar bulletproof filler
- Operating Temperature: -122°F to 176°F (-50°C to 80°C)
- Tensile Capacity: 220 lbf (100 kgf)
- Special Features: Acid and alkali resistance, no moisture absorption, and exceptional tear resistance
Why Choose CHASING High-Performance Buoyancy Tethers?
200-Meter Length: Designed for deep and distant underwater explorations, the 200-meter length offers the range you need to safely conduct operations without worrying about running out of tether.
Unbeatable Durability: Made from materials like Kevlar bulletproof wire and multi-stranded tinned copper, CHASING tethers offer superior durability compared to standard tethers. Their rugged construction ensures that you can operate safely and efficiently, even in the harshest underwater environments.
Superior Performance in Diverse Conditions: Whether you’re exploring in cold, icy waters or warmer seas, these tethers are built to perform across a wide temperature range, making them versatile enough for various underwater applications.
Enhanced Safety: With a tensile capacity of 220 lbf (100 kgf), CHASING tethers are designed to handle significant stress, reducing the risk of tether breakage and ensuring the safety of both the equipment and the operator.
Engineered for Professionals: These tethers are the top choice for marine researchers, underwater photographers, and professional divers who demand the highest standards in safety and performance.
