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Category: Connectors

Small unmanned aerial systems (sUAS) have fundamentally changed the threat landscape across defense and critical infrastructure. Low-cost drones are now capable of surveillance, disruption, and coordinated attacks, often operating in environments where traditional defenses were never designed to respond.

Counter-UAS (C-UAS) systems are evolving quickly to address this challenge. Detection, tracking, and mitigation technologies continue to advance—but system performance ultimately depends on something less visible: the reliability of the interconnect systems that enable those technologies to function as a cohesive unit.

The core takeaway: counter-drone systems fail at the interfaces first. Interconnect design determines whether the system works when it matters.

Explore Military-Grade Cable Assemblies

The Shift in Drone Threat Complexity

Modern drone threats are not defined by a single platform, but by adaptability and scale.

Key characteristics

  • Low-cost, widely available platforms enabling rapid deployment
  • Swarm capability that stresses detection and response systems
  • Autonomous navigation reducing reliance on RF control links
  • Multi-mission payloads including ISR, electronic disruption, and kinetic impact

This has forced a transition from static perimeter defense to dynamic, layered countermeasures that operate continuously and in real time.

UAS Systems

What Counter-UAS Systems Must Deliver

C-UAS platforms integrate multiple subsystems, each dependent on uninterrupted electrical and signal performance.

Core system layers

  • Detection: radar, RF sensing, EO/IR systems
  • Identification: signal classification and threat validation
  • Tracking: continuous positional awareness and trajectory prediction
  • Mitigation: jamming, spoofing, or physical neutralization

These subsystems must operate simultaneously, exchanging high-speed data and maintaining stable RF performance under changing conditions.

Why Interconnect Systems Define Reliability

Most system failures in field-deployed C-UAS platforms do not originate in the sensors or processors—they occur at connection points.

Common failure modes

  • EMI leakage across connector interfaces
  • RF signal degradation due to impedance mismatch
  • Moisture ingress at cable transitions
  • Connector disengagement under vibration
  • Insulation breakdown in high-temperature zones

These issues are compounded in mobile deployments, outdoor environments, and electromagnetically dense operating conditions.

Counter-UAS Platforms

Core Interconnect Requirements for Counter-UAS Platforms

RF Signal Integrity

Detection and mitigation rely on consistent RF performance.

Design requirements include:

  • Controlled impedance throughout cable assemblies
  • Continuous shielding across connectors and enclosures
  • Low insertion loss and minimal signal distortion

High-performance connectors from manufacturers like Amphenol—including MIL-DTL-38999 Series III platforms, VITA connectors, and WaSP microminiature connectors—are commonly used in defense-grade systems. Performance, however, depends on how these components are integrated into the overall assembly.

Environmental Sealing and Protection

C-UAS systems are frequently deployed in harsh, exposed environments.

Required protections include:

  • IP/NEMA-rated sealing against moisture and contaminants
  • Resistance to dust, chemicals, and corrosion
  • Long-term durability under temperature extremes

Solutions such as overmolded cable assemblies eliminate ingress points by sealing critical transitions between cable and connector.

Power and Signal Integration

Modern systems require simultaneous transmission of multiple electrical functions:

  • High-current power for mitigation systems
  • High-speed data for sensing and analytics
  • RF signals for detection and countermeasures

This drives the need for hybrid cable assemblies, which consolidate multiple pathways into a single engineered solution, reducing size, weight, and failure points.

Mechanical Reliability Under Dynamic Conditions

Many C-UAS systems are mounted on vehicles or designed for rapid deployment, introducing continuous vibration and mechanical stress.

Failure risks include:

  • Conductor fatigue at termination points
  • Connector loosening over time
  • Abrasion and insulation wear

Integrated strain relief and routing strategies are essential. Solutions like molded breakout and strain relief systems help prevent localized stress failures.

EMI Shielding and Grounding Continuity

C-UAS systems operate in contested electromagnetic environments where both detection and mitigation generate interference.

Design priorities include:

  • Continuous shielding across all interconnect interfaces
  • Proper grounding across cables, connectors, and enclosures
  • Suppression of internal and external EMI sources

Technologies such as EMI shielding and metal braiding are critical—but only when implemented as part of a complete system design.

The Integration Gap

Many system-level failures can be traced back to fragmented design approaches:

  • Connectors selected independently of cable architecture
  • Materials added after initial design to solve sealing or EMI issues
  • Multiple vendors introducing tolerance mismatches
  • Lack of validation at the system level

This creates hidden vulnerabilities—particularly at transition points between components.

Proven Components

Integrating Proven Components into System-Level Solutions

High-performance components from suppliers such as Amphenol are widely used in defense systems. These components are engineered to meet demanding specifications such as MIL-DTL-38999 and MIL-PRF-2950.

XACT integrates these components into complete interconnect systems by combining:

  • Connector platforms from proven manufacturers
  • Application-specific cable design and routing
  • Environmental sealing and strain relief
  • System-level validation across electrical, mechanical, and environmental conditions

This includes:

FAQ: Testing and Reliability at XACT EMS

Defense-grade systems often use MIL-DTL-38999 Series III connectors, VITA connectors for modular architectures, and WaSP microminiature connectors for space-constrained designs. These connector platforms are selected for their durability, environmental sealing, and consistent electrical performance in harsh operating conditions.

Counter-UAS platforms operate in dense electromagnetic environments where detection and jamming occur simultaneously. Without proper shielding and grounding continuity, interference can degrade signal integrity, reduce detection accuracy, and limit mitigation effectiveness.

MIL-DTL-38999 is a military specification for circular connectors designed for harsh environments. Series III connectors are commonly used in defense systems due to their high vibration resistance, secure coupling mechanisms, and ability to maintain performance in extreme conditions.

Fiber optic connectors, often specified under MIL-PRF-2950, are used in systems requiring high-speed data transmission and immunity to electromagnetic interference. While XACT does not manufacture fiber optic cables, these connectors are often integrated into broader system architectures alongside copper-based cable assemblies.

Hybrid cable assemblies combine power, signal, and RF transmission into a single integrated solution. This reduces system complexity, simplifies routing, and minimizes potential failure points.

Overmolding encapsulates the transition between cable and connector, providing environmental sealing, strain relief, and mechanical protection. This is critical in applications exposed to moisture, vibration, and temperature extremes.

System Reliability Starts at the Interface

Counter-UAS systems are only as effective as their weakest connection point.

As drone threats continue to evolve, performance requirements will increase—not just in detection capability, but in reliability under real-world conditions. Systems must operate continuously without failure at critical moments.

That requires interconnect systems engineered from the start as part of the overall design—not added after the fact.

Talk to an Engineer About Your Application
Explore Military-Grade Cable Assemblies

MIL-DTL-38999 connectors are the most widely used military circular connectors in aerospace and defense. Engineered for high-density performance in extreme conditions, they support the mission-critical power, signal, and RF requirements found across modern platforms.

For OEMs, integrators, and program teams, these connectors deliver long-term reliability, rugged construction, and standardized performance. When those connectors must be integrated into a fully validated harness or cable assembly, XACT provides AS9100-certified builds manufactured for the environments defense and aerospace systems face every day.

Request a quote or contact our team using the form below

REQUEST A QUOTE OR CONTACT OUR TEAM USING THE FORM BELOW

Why MIL-DTL-38999 Connectors Dominate Defense & Aerospace

MIL-DTL-38999 connectors are built for the demanding conditions where commercial connectors fail. Key advantages include:

High-Density Performance
38999 connectors deliver exceptional contact density for their footprint and can support mixed-signal applications: power, low-voltage signal, RF, coax, twinax, and triax.

Environmental and Mechanical Ruggedness
Designed to resist vibration, shock, dust, fluid ingress, corrosion, and thermal extremes, these connectors maintain reliable performance under continuous operational stress.

Electrical Integrity and EMI Protection
38999 connectors support stable ground paths and effective EMI/RFI shielding—critical for avionics, mission systems, radar, C4ISR electronics, and high-speed digital equipment.

Long-Term Mil-Spec Stability
With decades of program adoption and specification control, MIL-DTL-38999 provides a dependable base for long lifecycle defense platforms.

The Four MIL-DTL-38999 Series

MIL-DTL-38999 connectors are available in four series, each suited for different design priorities.

Series I – Bayonet Coupling

  • Fast mating/unmating
  • Scoop-proof interface
  • Excellent for equipment that requires rapid service access

Series II – Low-Profile Bayonet

  • Minimal weight and footprint
  • Used in space-constrained avionics and electronics bays

Series III – Tri-Start Threaded

  • Industry’s most common variant
  • Superior environmental sealing and vibration performance
  • Widely used in aerospace, ground vehicles, naval systems, and ISR payloads

Series IV – Breech-Lock

  • Ideal for blind-mate applications
  • Excellent mechanical retention in tight-access assemblies

Where MIL-DTL-38999 Connectors Are Used

38999 connectors support mission-critical systems across:

  • Military aircraft (avionics, engines, flight controls)
  • UAVs, UAS, and ISR sensors
  • Ground vehicles and vetronics
  • C4ISR and tactical communications systems
  • Naval combat and shipboard electronics
  • Missile and ordnance guidance systems
  • Harsh-environment industrial applications
  • Space and high-altitude electronics

Where performance under duress is required, MIL-DTL-38999 remains the connector of choice.

XACT’s Military Grade Cable Assemblies and EMI/Thermal Materials

Why Engineering Teams Choose XACT for MIL-DTL-38999 Assemblies

XACT manufactures rugged, reliable MIL-DTL-38999 cable assemblies engineered for harsh military and aerospace environments.

AS9100-Certified Manufacturing
All assemblies are produced under aerospace-grade controls with documented workmanship standards.

Overmolding & Environmental Sealing
Custom overmolds, backshell integration, and strain-relief solutions support durability against:

  • Vibration
  • Shock
  • Fluid exposure
  • Mechanical stress
  • Repeated mating cycles

EMI/RFI Shield Terminations
XACT provides 360° shield termination capability for power, signal, coax, twinax, and triax harnesses—critical for EMI-sensitive avionics and mission systems.

Full Electrical & Mechanical Testing
Testing capabilities include:

  • Continuity
  • Insulation resistance
  • Hi-Pot
  • Pull strength
  • Flex/bend testing

Traceability & Documentation
XACT provides fully traceable builds with QA documentation, including lot-level controls aligned with aerospace and defense requirements.

Repair & Recertification Services
XACT can restore MIL-DTL-38999 cable assemblies—even those originally built by another supplier.

Learn more about our repair and recertification services

FAQ: Testing and Reliability at XACT EMS

A typical mil-spec part number looks like:

D38999/26WG11SN

Each segment specifies the connector style, finish, shell size, insert arrangement, contact type, and keying orientation. This structured format ensures compatibility across platforms and suppliers.

Common examples include:

  • D38999/20WA35PN
  • D38999/26WB98SN
  • D38999/24ZC04PN
  • D38999/26FG16SN
  • D38999/46HB35PN

These numbers follow standard mil-spec formatting used throughout defense and aerospace.

Typical shell sizes include:

9, 11, 13, 15, 17, 19, 21, 23, 25

Common arrangements include:

11-35, 13-98, 15-05, 17-06, 19-32, 21-75, 23-53, 25-37, 25-61

38999 connectors can be used with:

  • Crimp contacts
  • Solder contacts
  • Coax
  • Twinax
  • Triax

Yes. XACT offers restore-to-spec services including inspection, re-termination, overmold replacement, and updated documentation.

https://xactems.com/cable-repair-and-recertification/

Defense, aerospace, UAVs, naval systems, rugged industrial automation, and space applications.

Miniature Form. Maximum Function — Mighty Mouse Connector Series 80

When space is tight and reliability is non-negotiable, engineers reach for the Series 80 Mighty Mouse Connector — a miniature circular connector that delivers heavyweight performance.

Roughly half the size and weight of traditional MIL-DTL-38999 connectors, it offers IP67+ sealing, 360° EMI protection, and up to 10,000 mating cycles in aerospace, defense, robotics, and industrial environments.

Optimized for Harsh Environments

XACT EMS integrates these connectors into custom overmolded cable assemblies built for mission-critical platforms where SWaP (Size, Weight & Power) optimization matters most. As a result, these assemblies deliver reliable connectivity even in high-vibration, high-temperature, or high-moisture conditions.

Why It Earned the Name “Mighty.”

Feature Performance Advantage
Size & Weight ~50% smaller and lighter than MIL-DTL-38999 connectors
Environmental Sealing IP67 – IP69 dust and moisture protection
EMI/RFI Shielding 360° coverage for signal integrity
Durability 500 – 10,000 mating cycles tested
Materials Aluminum, stainless steel, or composite shells
Coupling Styles Threaded, bayonet, push-pull
Temperature Range −55 °C to +150 °C
Standards MIL-STD-810 & RTCA DO-160 environmental testing

Additionally, XACT builds to spec — not stock. Every assembly undergoes AS9100-certified inspection and traceable testing for regulated industries.

Applications That Rely on It

Industry Example Systems
Defense & Military Soldier-worn radios, targeting systems, UAV payloads
Aerospace Avionics modules, cockpit controls, navigation units
Robotics Autonomous ground vehicles, sensor arrays
Energy & Industrial Downhole inspection tools, portable instrumentation
Medical & Emergency Ruggedized wearables and field equipment

Built-to-Spec Customization Options

XACT EMS provides factory-integrated Mighty Mouse assemblies with:

  • Overmolding and strain relief for harsh environments (view our overmolding capabilities)
  • EMI/RFI-shielded backshells and ground terminations
  • Molded-in branding or traceability markings
  • Keyed configurations to prevent mismating
  • Serialized labels and lifecycle documentation

With AS9100D-certified facilities in Houston, Texas and Calgary, Canada, XACT delivers full process traceability and testing to MIL standards — ensuring every assembly performs from prototype to field deployment. Learn more about our cable repair and recertification services.

Trusted Across Critical Programs

The Mighty Mouse Connector has earned its reputation in real-world systems that cannot afford failure — from fighter cockpits to tactical radios to space-constrained robotic controls. Meanwhile, XACT’s integration services extend that value through complete cable solutions and testing.

Let’s Build Your Next Project to Spec — Not Stock.

Looking for a connector that punches above its weight? Contact XACT EMS about custom overmolded assemblies using Mighty Mouse and other miniature circular connectors.

Stay connected with XACT EMS for more product updates and insights — follow us on LinkedIn.

Complete Mighty Mouse Connector Part Number Index (Series 80)

Provided for cross-reference. XACT EMS integrates and builds assemblies utilizing these and equivalent specifications. 
249-003, 340MS001, 340MS026, 370MA038, 370MB038, 370MS038, 380MS135, 380MS137, 380MS141, 390MA077, 390MB077, 390MS076, 390MS077,
440MK135, 440ML135, 440MS134, 440MS135, 447MS981,
600-137, 600-140, 600-141, 600-146, 600-147, 600-154, 600-172, 600-185, 600-197, 600M005, 600MM005,
601-060, 601-061, 601-064, 601-065, 601-101,
620MA065, 620MB065, 620MS064, 620MS065,
650-061, 657-072, 657-079,
660-082, 660-083, 660-087, 660-088,
667-184, 667-185, 667-202, 667-217, 667-218, 667-241, 667-242, 667-261, 667-262, 667-282, 667-347, 667-387, 667-392, 667-424, 667-462, 667-497, 667-509,
680-116, 680-120,
800-006, 800-007, 800-008, 800-009, 800-010, 800-011, 800-012, 800-013, 800-032, 800-034, 800-035, 800-036, 800-037, 800-038, 800-039, 800-040, 800-041, 800-052, 800-053, 800-054, 800-055, 800-056, 800-057, 800-058, 800-059, 800-060,
801-007, 801-008, 801-009, 801-010, 801-011, 801-012, 801-017, 801-023, 801-024, 801-026, 801-028, 801-029, 801-031, 801-032, 801-033, 801-034, 801-052, 801-059, 801-065, 801-066, 801-067, 801-068, 801-069, 801-070, 801-071, 801-072, 801-073, 801-074, 801-075, 801-113, 801-114, 801-121, 801-122, 801-123, 801-124, 801-125, 801-126,
802-008, 802-009, 802-010, 802-011, 802-012, 802-013, 802-030, 802-040, 802-050, 802-056, 802-058, 802-059, 802-060, 802-061, 808-062,
803-001, 803-002, 803-003, 803-004, 803-005, 803-006, 803-007, 803-009, 803-010, 803-011, 803-012, 803-013, 803-014, 803-015, 803-016, 803-026, 803-027, 803-028, 803-029, 803-030, 803-031, 803-032, 803-033,
804-001, 804-002, 804-003, 804-004, 804-005, 804-006, 804-009, 804-013, 804-015, 804-016, 804-017, 804-018, 804-019, 804-020, 804-021, 804-022, 804-032, 804-058, 804-059, 804-060, 804-061, 804-062, 804-063, 804-064, 804-065, 804-066, 804-067, 804-113, 804-114, 804-116, 804-140,
805-001, 805-002, 805-003, 805-004, 805-005, 805-006, 805-007, 805-009, 805-010, 805-011, 805-012, 805-013, 805-015, 805-016, 805-017, 805-018, 805-019, 805-054, 805-057, 805-058, 805-059, 805-060, 805-061, 805-062, 805-063, 805-064, 805-065, 805-066, 805-067, 805-127, 805-128, 805-130, 805-132, 805-140,
809-001, 809-002, 809-005, 809-013, 809-015, 809-035, 809-042, 809-043, 809-054, 809-055, 809-057, 809-065A, 809-065C, 809-066A, 809-066C, 809-067, 809-083, 809-087, 809-088, 809-092, 809-093, 809-094, 809-101, 809-107, 809-108, 809-110, 809-111, 809-112, 809-113, 809-114, 809-115, 809-116, 809-117, 809-118, 809-119, 809-120, 809-121, 809-124, 809-125, 809-126, 809-127, 809-128, 809-129, 809-130, 809-131, 809-132, 809-133, 809-134, 809-135, 809-136, 809-137, 809-138, 809-141, 809-150, 809-155, 809-165, 809-173, 809-174, 809-183, 809-189, 809-190, 809-191, 809-198, 809-199, 809-200, 809-203, 809-204, 809-205, 809-206, 809-207, 809-209, 809-213, 809-240, 809-299, 809-300, 809-301, 809-303, 809-335, 809-369, 809-370, 809-371, 809-372, 809A060, 809B060, 809SL060, 809SU060,
811-001-06, 811-003-01, 811-003-02, 811-003-07, 811-004-02, 811-004-07, 811-005-02, 811-005-07, 811-006-02, 811-006-07, 811-007,
829-012, 830-003, 830-004,
850-002, 850-003, 850-013, 850-014,
852-006, 852-007, 852-015, 852-016, 852-017, 852-018, 852-030, 852-031, 852-042, 852-043, 852-056, 852-057, 852-082, 852-083, 852-103, 852-104,
853-003, 853-004, 853-013, 853-014, 853-017, 853-018, 853-024, 853-025,
854-001, 854-002,
857-034,
859-006, 859-013, 859-014, 859-025, 859-026, 859-042, 859-046, 859-047, 859-048, 859-049, 859-050, 859-051, 859-072, 859-124, 859-125, 859-126, 859-134, 859-135, 859-164, 859-240,
963-001, 963-002, 963-003, 963-005, 963-006,
M81969/8-07, M81969/8-08, M81969/8-09, M81969/8-10

Mighty Mouse® is a registered trademark of CBS Studios Inc. This image and reference are used under nominative fair use to describe Glenair’s Series 80 “Mighty Mouse” connector product. XACT Engineered Manufacturing Solutions and Matrix Technology Ltd. are not affiliated with, sponsored by, or endorsed by CBS Studios Inc.

Reliable Componentry. Custom Assembly.

The MIL-DTL-38999 specification—originally developed in the 1970s—continues to define modern interconnects used in defense, aerospace, and industrial systems. These connectors, originating from industry efforts including those of the Bendix Scintilla Division (now part of Amphenol), established a foundation for rugged, high-density, environmentally sealed interfaces.

Today, MIL-SPEC connectors span a wide range of use cases—from missile systems and aircraft avionics to underwater robotics and autonomous vehicles. The connector families themselves are standardized, but the way they’re integrated into a system varies by application—and that’s where XACT EMS steps in.

XACT: From Connector to Complete Assembly

At XACT EMS, we don’t just stock connectors—we engineer complete interconnect solutions. Whether you’re dealing with vibration zones, temperature extremes, EMI/RFI exposure, or fluid ingress, we provide:

  • Overmolded harnesses for abrasion resistance and strain relief
  • Booted assemblies for sealed transitions and rugged environments
  • Complete cable and wire harnesses tailored to spec
  • Custom backshells, labeling, and potting for full turnkey integration

We work with the full range of MIL-SPEC connector styles to build harnesses that meet exact design, environmental, and electrical needs—from the front panel to the power source.

MIL-SPEC Connector Categories & Types

Here’s a categorized reference list of the major connector series and derivative types commonly integrated into our harness assemblies:

Classic MIL-SPEC Series

  • MIL-DTL-38999 Series I (LJT), II (JT), III (TV)
  • MIL-DTL-26482 Series II
  • MIL-DTL-83723
  • MIL-DTL-5015
  • MIL-DTL-22992 Class L

High-Temperature & High-Power Variants

  • High Temperature Series Five (engine and firewall-rated)
  • High Power 38999 (RADSOK®, Temper-Grip, >500A capable)
  • High Voltage 38999 (next-gen power interfaces)

Extreme Environment / Derivative Series

  • Deep Space 38999 (cryogenic)
  • HD38999 High Density (+30% contact density)
  • Dualok (high-vibration applications)
  • Aquacon (fluid immersion, subsea)
  • ETV38999 (cost-sensitive applications)

Printed Circuit Board (PCB) Mount

  • D38999 Series I/II/III with PC Tail Contacts
  • D38999 PCB Hermetics (sealed and shielded)

High-Speed Data & Fiber Optics

  • Quadrax, Twinax, Coax, USB 3.0, HDMI, GbE
  • Fiber Optic using MIL-PRF-29504, ARINC 801, JSFC, MT

EMI/EMP Filtered Connectors

  • D38999 Series I, II, III with filtering
  • TVS diode and MOV versions for transient suppression

Hermetic / Sealed Connectors

  • Glass-to-metal and epoxy seals across D38999 Series I/II/III
  • AmpheSEAL High Pressure sealing

Quick Disconnect / Breakaway

  • Breakaway Series (MIL-STD-1760-qualified)
  • T-Line Push-Pull
  • LJT Breakaway

Miniature & Micro-Miniature Series

  • 2M Micro 38999
  • Bantam Micro-Bayonet
  • Warrior Grip (wearable soldier systems)
  • MRC Multi-Media Ruggedized

Specialized Connector Options

  • Bulkhead Feedthroughs
  • Connector Savers
  • RoHS-Compliant Platings (AP-93, electroless nickel, etc.)
  • Jam Nut Styles (space-saving mount)
  • Integral Backshells, Dummy Receptacles, Caps

Built. Sealed. Delivered.

We specialize in transforming these standardized components into ruggedized interconnect harnesses, ready for field deployment. Whether you’re prototyping a small UAV interface or building out full vehicle architecture, our team helps configure, mold, and boot your assemblies to perform in the real world—not just on paper.

Let us know your specs—we’ll take it from there.

Engineered for Harsh Environment Connectivity Without Compromise

The Xtreme M12 by Xact is not a generic M12 derivative—it’s an industrial-grade, field-hardened interconnect system engineered specifically for mission-critical reliability in the most punishing environments. Designed with engineers in mind, this overmolded M12 solution delivers mechanical resilience, electrical integrity, and form factor versatility beyond what commercial off-the-shelf connectors can provide.

🔍 Mechanical & Environmental Integrity

  • Overmolded Body with Integrated Strain Relief:
    Each Xtreme M12 features a robust overmolded thermoplastic body designed to protect internal contact systems against flex fatigue, mechanical stress, and ingress. The integrated strain relief prevents conductor fatigue at the cable entry point—ideal for dynamic applications in rail and heavy automation.
  • Sealing & Ingress Protection:
    Certified to IP67/IP68/IP69K, the Xtreme M12 resists high-pressure washdowns, oil, dust, mud, and chemical exposure—suitable for Class I Division 2 (CID2) and other hazardous locations.
  • Vibration & Shock Tolerance:
    Validated to exceed IEC 60068-2-6 and 2-27 standards, ensuring stable signal transmission under persistent vibration (e.g., rail trucks, tracked vehicles, rotary drilling).
  • Crush-Resistant Architecture:
    Shell and overmold withstand impact and compressive loads—surviving drops, crushing forces, and real-world mishandling common in field deployment.

🌐 Proven Across Operational Theaters

The Xtreme M12 has been field-deployed in:

  • Oil & Gas surface operations (frac spreads, control cabins, SCADA I/O)
  • Defense platforms, including mobile ground systems and targeting subsystems
  • Mining environments with corrosive dust and mechanical shock
  • Rail and transportation, exposed to vibration, freeze-thaw, and EMI
  • Industrial automation, robotics, and high-cycle motion loops

This is not speculative performance. These connectors have already survived where standard components routinely fail.

🔧 Configurable Variants Available

  • Connector Types: A-, B-, D-, X-, and custom keying options
  • Pin Counts: 3 to 12 contacts (shielded and unshielded)
  • Cable Assemblies: Available in PUR/PVC jacketed cable, TPE options, or custom overbraid for EMC-critical applications
  • Termination Styles: Straight, right-angle, panel-mount receptacles, and field-wireable options
  • Mating Interfaces: Brass-nickel-plated threaded coupling, coded for environmental sealing and reliable mating cycles

⚠️ Stop Relying on Commodity Connectors

If you’re specifying off-the-shelf or overseas-sourced M12s in a high-reliability system, you’re designing in a failure point. Xact’s Xtreme M12 is engineered for when standard M12s become the weakest link.

🧪 Engineered. Validated. Proven.

Built and tested under real-world load conditions—not just lab specs—the Xtreme M12 offers engineers confidence in long-term deployment without rework or failure-related downtime.

🔗 Contact Xact today for engineering samples, data sheets, or mechanical CAD files.


Optimize for reliability. Specify Xtreme.

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