Fischer UltiMate™ 80
Ultra-rugged connector for tactical environments
Compatible with international military standards
The Fischer UltiMate 80™ is designed for modern soldier systems that require compact, lightweight, and highly robust connectivity.
Fully compatible with Nett Warrior, NATO STANAG 4695, and GOSSRA standards, it ensures reliable performance in harsh field conditions.
This connector is available in two configurations offering 6 or 7 contacts for both signal and power, accommodating cables up to AWG 22.
The Fischer UltiMate 80™ is designed for modern soldier systems that require compact, lightweight, and highly robust connectivity.
Fully compatible with Nett Warrior, NATO STANAG 4695, and GOSSRA standards, it ensures reliable performance in harsh field conditions.
This connector is available in two configurations offering 6 or 7 contacts for both signal and power, accommodating cables up to AWG 22.
The Fischer UltiMate 80™ is designed for modern soldier systems that require compact, lightweight, and highly robust connectivity.
Fully compatible with Nett Warrior, NATO STANAG 4695, and GOSSRA standards, it ensures reliable performance in harsh field conditions.
This connector is available in two configurations offering 6 or 7 contacts for both signal and power, accommodating cables up to AWG 22.
MAIN BENEFITS
- Seamless integration with NATO STANAG 4695, Nett Warrior, and GOSSRA-compliant systems
- IP68 sealing (mated & unmated)
- High shock and vibration resistance
- 500 hours corrosion resistance (salt mist)
- Operating range: –55 °C to +135 °C
- 360° EMC shielding
- Blind mating for quick connection
- Over 10,000 mating cycles
- MIL-STD-810 and MIL-STD-202 compliant
- Available in straight or right-angle pre-cabled versions
- Optional color overmolding for easy ID
Applications
Ideal for dismounted soldier gear, tactical communication devices, and equipment exposed to extreme environments.
Applications
Ideal for dismounted soldier gear, tactical communication devices, and equipment exposed to extreme environments.
Applications
Ideal for dismounted soldier gear, tactical communication devices, and equipment exposed to extreme environments.
(in millimeters – images are for reference only)
(in millimeters – images are for reference only)
(in millimeters – images are for reference only)
| Characteristic | Performance | Standard |
| Contact resistance (typical value) | < 10 mΩ (typical value) | MIL-STD-202 Method 307 |
| Shell resistance (typical value) | < 10 mΩ (cabled; new condition) | MIL-STD-202 Method 307 |
| Insulation resistance |
> 1010 Ω |
MIL-STD-883k Method 1003
MIL-STD-202 Method 302 |
| Shielding effectiveness | 360° shielded. The Equipment Under Test, with two different Fischer Connectors systems that use both UltiMate 80 plug and receptacle, is compliant according to limits of MIL-Standard. | MIL-STD-461G (CE101, CE102, CS101, RE101, RE102, RS101, RS102) |
| Characteristic | Performance | Standard |
| Contact resistance (typical value) | < 10 mΩ (typical value) | MIL-STD-202 Method 307 |
| Shell resistance (typical value) | < 10 mΩ (cabled; new condition) | MIL-STD-202 Method 307 |
| Insulation resistance |
> 1010 Ω |
MIL-STD-883k Method 1003
MIL-STD-202 Method 302 |
| Shielding effectiveness | 360° shielded. The Equipment Under Test, with two different Fischer Connectors systems that use both UltiMate 80 plug and receptacle, is compliant according to limits of MIL-Standard. | MIL-STD-461G (CE101, CE102, CS101, RE101, RE102, RS101, RS102) |
| Characteristic | Performance | Standard |
| Contact resistance (typical value) | < 10 mΩ (typical value) | MIL-STD-202 Method 307 |
| Shell resistance (typical value) | < 10 mΩ (cabled; new condition) | MIL-STD-202 Method 307 |
| Insulation resistance |
> 1010 Ω |
MIL-STD-883k Method 1003
MIL-STD-202 Method 302 |
| Shielding effectiveness | 360° shielded. The Equipment Under Test, with two different Fischer Connectors systems that use both UltiMate 80 plug and receptacle, is compliant according to limits of MIL-Standard. | MIL-STD-461G (CE101, CE102, CS101, RE101, RE102, RS101, RS102) |
| Characteristic | Performance | Standard |
| Sealing performance mated and unmated | IP68 2m/24h | IEC 60529; MIL-STD-810 Method 512.6 |
| Operating temperature range | -55 °C to +135 °C | MIL-STD-810 Method 501.6 and 502.6 |
| Corrosion resistance |
Salt mist, 500 hours 1) 2), 5% salt solution, 35 °C ; |
MIL-STD-810 Method 509.6 |
| Endurance |
10.000 mating cycles (plug), 5.000 mating cycles (receptacle) 3) |
IEC 60512-9-1 |
| Vibration, random | 7.7 Grms | MIL-STD-810 Method 514.7 |
| Unmating force | Typical 55 ± 15 N | IEC 60512-13-1 |
| Shock | 100g half sine pulse amplitiude 6 ms duration, no discontinuity > 1 μs | MIL-STD-810 Method 516.7 Condition I |
| Characteristic | Performance | Standard |
| Sealing performance mated and unmated | IP68 2m/24h | IEC 60529; MIL-STD-810 Method 512.6 |
| Operating temperature range | -55 °C to +135 °C | MIL-STD-810 Method 501.6 and 502.6 |
| Corrosion resistance |
Salt mist, 500 hours 1) 2), 5% salt solution, 35 °C ; |
MIL-STD-810 Method 509.6 |
| Endurance |
10.000 mating cycles (plug), 5.000 mating cycles (receptacle) 3) |
IEC 60512-9-1 |
| Vibration, random | 7.7 Grms | MIL-STD-810 Method 514.7 |
| Unmating force | Typical 55 ± 15 N | IEC 60512-13-1 |
| Shock | 100g half sine pulse amplitiude 6 ms duration, no discontinuity > 1 μs | MIL-STD-810 Method 516.7 Condition I |
| Characteristic | Performance | Standard |
| Sealing performance mated and unmated | IP68 2m/24h | IEC 60529; MIL-STD-810 Method 512.6 |
| Operating temperature range | -55 °C to +135 °C | MIL-STD-810 Method 501.6 and 502.6 |
| Corrosion resistance |
Salt mist, 500 hours 1) 2), 5% salt solution, 35 °C ; |
MIL-STD-810 Method 509.6 |
| Endurance |
10.000 mating cycles (plug), 5.000 mating cycles (receptacle) 3) |
IEC 60512-9-1 |
| Vibration, random | 7.7 Grms | MIL-STD-810 Method 514.7 |
| Unmating force | Typical 55 ± 15 N | IEC 60512-13-1 |
| Shock | 100g half sine pulse amplitiude 6 ms duration, no discontinuity > 1 μs | MIL-STD-810 Method 516.7 Condition I |
1) Corrosion resistance dependent on body style. 400 hours for UR81 (panel rear mounted receptacle).
2) Cosmetic changes may appear over time without impacting mechanical or electrical functions.
3) Preserved mechanical and electrical functionality. Normal wear could appear.
1) Corrosion resistance dependent on body style. 400 hours for UR81 (panel rear mounted receptacle).
2) Cosmetic changes may appear over time without impacting mechanical or electrical functions.
3) Preserved mechanical and electrical functionality. Normal wear could appear.
1) Corrosion resistance dependent on body style. 400 hours for UR81 (panel rear mounted receptacle).
2) Cosmetic changes may appear over time without impacting mechanical or electrical functions.
3) Preserved mechanical and electrical functionality. Normal wear could appear.
Why choose UltiMate 80?
Designed in alignment with leading military system standards, the Fischer UltiMate™ 80 delivers unmatched performance in the harshest conditions. Its durability across shock, corrosion, temperature extremes, and electromagnetic interference makes it a top choice for defense-grade connectivity.
Compared to other quick-release connectors on the market, it stands out for its ruggedness, reliability, and operational longevity.
Why choose UltiMate 80?
Designed in alignment with leading military system standards, the Fischer UltiMate™ 80 delivers unmatched performance in the harshest conditions. Its durability across shock, corrosion, temperature extremes, and electromagnetic interference makes it a top choice for defense-grade connectivity.
Compared to other quick-release connectors on the market, it stands out for its ruggedness, reliability, and operational longevity.
Why choose UltiMate 80?
Designed in alignment with leading military system standards, the Fischer UltiMate™ 80 delivers unmatched performance in the harshest conditions. Its durability across shock, corrosion, temperature extremes, and electromagnetic interference makes it a top choice for defense-grade connectivity.
Compared to other quick-release connectors on the market, it stands out for its ruggedness, reliability, and operational longevity.
Comparison between Nett Warrior and Fischer UltiMate™ 80 specs
Comparison between Nett Warrior and Fischer UltiMate™ 80 specs
Comparison between Nett Warrior and Fischer UltiMate™ 80 specs
| NETT WARRIOR | FISCHER ULTIMATE™ 80 | |
| Mating cycles | 2,000 | 10,000 |
| Sealing | IP67 | IP68 2 m / 24 hours |
| Corrosion resistance | 96 hours of salt mist spray | 500 hours of salt mist spray |
| Current | 5 A | 8 A (up to 10 A) |
| Working temperature | -18 °C to +55 °C | -40 °C to +90 °C |
| Shell resistance | < 0.05 Ω | < 50 mΩ |
| NETT WARRIOR | FISCHER ULTIMATE™ 80 | |
| Mating cycles | 2,000 | 10,000 |
| Sealing | IP67 | IP68 2 m / 24 hours |
| Corrosion resistance | 96 hours of salt mist spray | 500 hours of salt mist spray |
| Current | 5 A | 8 A (up to 10 A) |
| Working temperature | -18 °C to +55 °C | -40 °C to +90 °C |
| Shell resistance | < 0.05 Ω | < 50 mΩ |
| NETT WARRIOR | FISCHER ULTIMATE™ 80 | |
| Mating cycles | 2,000 | 10,000 |
| Sealing | IP67 | IP68 2 m / 24 hours |
| Corrosion resistance | 96 hours of salt mist spray | 500 hours of salt mist spray |
| Current | 5 A | 8 A (up to 10 A) |
| Working temperature | -18 °C to +55 °C | -40 °C to +90 °C |
| Shell resistance | < 0.05 Ω | < 50 mΩ |
Meeting Military Standards for Mission-Critical Connectivity
Fischer Connectors’ products are designed to meet the most demanding military standards and requirements for modern soldier systems. Many of our solutions comply with MIL-STD-202 and MIL-STD-810, ensuring resistance to vibration, shock, thermal extremes, and environmental stresses.
Our UltiMate 80 connectors are fully compatible with the U.S. Army’s Nett Warrior program, a dismounted soldier system enhancing real-time battlefield communication and situational awareness. They also align with GOSSRA (Generic Open Soldier System Reference Architecture), an open standard architecture for interoperable, wearable military technologies.
In addition, the UltiMate 80 meets connectivity and communication requirements set by NATO STANAG 4695 (power interfaces) and STANAG 4851 (radio communication). These standards support the broader goals of Soldier Modernization programs, which aim to boost the effectiveness, protection, and survivability of dismounted soldiers through rugged, high-performance, and interoperable technologies.
Meeting Military Standards for Mission-Critical Connectivity
Fischer Connectors’ products are designed to meet the most demanding military standards and requirements for modern soldier systems. Many of our solutions comply with MIL-STD-202 and MIL-STD-810, ensuring resistance to vibration, shock, thermal extremes, and environmental stresses.
Our UltiMate 80 connectors are fully compatible with the U.S. Army’s Nett Warrior program, a dismounted soldier system enhancing real-time battlefield communication and situational awareness. They also align with GOSSRA (Generic Open Soldier System Reference Architecture), an open standard architecture for interoperable, wearable military technologies.
In addition, the UltiMate 80 meets connectivity and communication requirements set by NATO STANAG 4695 (power interfaces) and STANAG 4851 (radio communication). These standards support the broader goals of Soldier Modernization programs, which aim to boost the effectiveness, protection, and survivability of dismounted soldiers through rugged, high-performance, and interoperable technologies.
Meeting Military Standards for Mission-Critical Connectivity
Fischer Connectors’ products are designed to meet the most demanding military standards and requirements for modern soldier systems. Many of our solutions comply with MIL-STD-202 and MIL-STD-810, ensuring resistance to vibration, shock, thermal extremes, and environmental stresses.
Our UltiMate 80 connectors are fully compatible with the U.S. Army’s Nett Warrior program, a dismounted soldier system enhancing real-time battlefield communication and situational awareness. They also align with GOSSRA (Generic Open Soldier System Reference Architecture), an open standard architecture for interoperable, wearable military technologies.
In addition, the UltiMate 80 meets connectivity and communication requirements set by NATO STANAG 4695 (power interfaces) and STANAG 4851 (radio communication). These standards support the broader goals of Soldier Modernization programs, which aim to boost the effectiveness, protection, and survivability of dismounted soldiers through rugged, high-performance, and interoperable technologies.
Data & power hubs
Looking for a complete power and data management solution? You will also find our UltiMate 80 connectors within our Fischer KEYSTONE™ Series.
This product range dedicated to the connectivity of dismounted soldiers delivers high-performance 4- and 6-port tactical hubs, intelligent power management, and a full portfolio of rugged cable assemblies.
Data & power hubs
Looking for a complete power and data management solution? You will also find our UltiMate 80 connectors within our Fischer KEYSTONE™ Series.
This product range dedicated to the connectivity of dismounted soldiers delivers high-performance 4- and 6-port tactical hubs, intelligent power management, and a full portfolio of rugged cable assemblies.
Data & power hubs
Looking for a complete power and data management solution? You will also find our UltiMate 80 connectors within our Fischer KEYSTONE™ Series.
This product range dedicated to the connectivity of dismounted soldiers delivers high-performance 4- and 6-port tactical hubs, intelligent power management, and a full portfolio of rugged cable assemblies.