Aviation Switch MA00L3NZGF 10P

Product Overview

The MA00L3NZGF 10P is an advanced Military Aviation Switch featuring a sophisticated 10-pole configuration, engineered for complex control applications in drone systems, aircraft engines, train controls, and Aviation Electronics. This multi-gang switch provides simultaneous control of ten independent circuits with precise 5-gear positioning, offering unparalleled control density for advanced aerospace systems. As a premium component in YM's comprehensive aviation solutions portfolio—complementing products like Military Aviation Encoding Switches and Aviation Button Switches—the MA00L3NZGF delivers sophisticated multi-circuit management for the most demanding control applications.

Technical Specifications

• Model Number: MA00L3NZGF 10P
• Pole Configuration: 10-pole independent switching capability
• Positioning: 5-gear precision positioning system
• Voltage Rating: 125V AC compatible (multi-voltage design)
• Current Rating: 1A per pole at 28V DC (resistive load)
• Switch Type: Military aviation multi-gang switch
• Total Circuit Capacity: 10 independent circuits simultaneously controlled
• Coil Power Consumption: (0.3 - 0.43) Watts
• Electrical Life: Minimum 100,000 switching operations per pole
• Gear Positions: 5 distinct mechanical positions with positive detents
• Contact Resistance: Initial ≤50mΩ per contact; After durability testing ≤200mΩ
• Switching Synchronization: All 10 poles actuate simultaneously with precise timing
• Dielectric Strength: 500V RMS @ 50Hz (standard); 250V RMS @ 50Hz (low pressure)
• Insulation Resistance: >500 MΩ initially; >50 MΩ after environmental testing
• Inter-Pole Isolation: High electrical isolation between all ten poles
• Weight: Optimized multi-pole design with aviation weight constraints
• Environmental Sealing: Maximum leakage rate ≤ 1.0 x 10⁻³ Pa·cm³/s
• Operating Temperature: Performance validated for aviation conditions, compatible with Aviation Temperature Sensor ranges

Product Features & Competitive Advantages

1. 10-Pole High-Density Control: Integrates control of ten independent circuits in a single compact unit, providing unprecedented control density that reduces panel space requirements by up to 80% compared to individual switches—similar to integration benefits of advanced PCB Board Relay arrays in complex systems.
2. Precision 5-Gear Positioning: Sophisticated mechanical design provides five distinct gear positions with positive detents, enabling complex control sequences and mode selections across all ten circuits simultaneously.
3. Perfect Synchronization: Advanced mechanical linkage ensures all ten poles switch simultaneously with millisecond precision, eliminating timing discrepancies that could cause system issues in complex control applications.
4. Military-Grade Environmental Protection: Advanced hermetic sealing (≤10⁻³ Pa·cm³/s) provides comprehensive protection for all ten poles against moisture, dust, and corrosive elements, matching the protection standards of Aviation Oil Sealed Valves.
5. Exceptional Inter-Pole Isolation: Engineered with superior insulation barriers between all ten poles, preventing electrical interference even when adjacent circuits handle different signal types or power levels.
6. Vibration-Resistant Multi-Pole Design: Reinforced mechanical construction maintains reliable operation of all ten poles under extreme vibration and shock conditions common in aerospace applications.
7. 125V AC Compatibility: Designed to handle 125V AC applications while maintaining DC switching capabilities, providing exceptional versatility for mixed power systems.

Installation and Wiring Procedure for Multi-Pole Systems

1. System Circuit Mapping: Identify and document all ten circuits to be controlled, ensuring proper circuit isolation and compatibility requirements.
2. Panel Space Planning: Allocate sufficient panel space for the multi-gang switch while considering wiring access for ten separate circuits.
3. Precision Mounting: Mount switch using all provided hardware, ensuring proper alignment for smooth 5-gear operation of all ten poles.
4. Circuit Identification System: Implement clear labeling system for all ten circuits to prevent wiring errors during installation and maintenance.
5. Multi-Circuit Wiring Strategy: Plan wiring layout to accommodate ten separate circuits, maintaining proper separation and strain relief for each.
6. Individual Circuit Connection: Connect each circuit to its corresponding pole terminal using appropriate wiring techniques for the specific current and voltage requirements.
7. Sealing Verification: Confirm environmental seals are properly engaged to protect all internal switching mechanisms.
8. Comprehensive Testing Protocol: Test each pole independently, then verify synchronized operation through all five gear positions before system integration with components like Hydraulic Circuit Breakers or complex control interfaces.

Application Scenarios for 10-Pole Multi-Gang Switching

The MA00L3NZGF 10P Military Aviation Switch is engineered for the most complex multi-system control applications:

• Aircraft System Mode Selection: Simultaneous control of multiple avionics systems during complex flight mode transitions and configuration changes in advanced aircraft.
• UAV Mission Profile Management: Coordinated activation of multiple payload systems, sensor arrays, communication circuits, and propulsion controls during mission phase transitions.
• Rail Vehicle System Coordination: Integrated control of traction, braking, lighting, climate, communication, and auxiliary systems during operational mode changes.
• Military Tactical System Management: Simultaneous switching of multiple weapon systems, communication networks, sensor packages, and tactical equipment in complex military platforms.
• Industrial Process Control Systems: Coordinated control of multiple production stages, machine functions, and auxiliary systems in advanced manufacturing facilities.
• Test and Measurement Complex Setups: Multi-circuit control for sophisticated test configurations, laboratory equipment, and research systems requiring synchronized switching.
• Power Distribution System Management: Integrated control of multiple power circuits, backup systems, load shedding, and distribution networks.
• Emergency Response System Activation: Coordinated activation of multiple safety circuits, alarm systems, shutdown procedures, and emergency protocols.

Value Proposition for Complex System Design

• Unprecedented Control Density: Ten independent circuits in one unit enables control capabilities previously requiring multiple switches and complex interconnections.
• Perfect System Synchronization: Ensures millisecond-precise coordination of multiple system elements, eliminating timing issues that can cause operational problems.
• Dramatic Space Savings: Reduces panel space requirements by 70-80% compared to ten individual switches, critical for space-constrained aerospace applications.
• Significant Wiring Reduction: Minimizes wiring complexity, connection points, and potential failure modes in complex control systems.
• Enhanced System Reliability: Reduced component count and simplified interconnections increase overall system reliability and simplify troubleshooting.
• Cost and Weight Efficiency: Lower total component cost and weight compared to multiple individual switching solutions.
• Operator Interface Optimization: Provides intuitive, single-point control for complex multi-system operations, reducing training requirements and operator errors.

Certifications & Compliance

The MA00L3NZGF 10P Military Aviation Switch is designed and manufactured to meet or exceed the most stringent performance requirements for multi-pole switching components in aerospace applications, including military specifications for complex tactical system controls, aviation requirements for multi-system coordination, and industrial standards for high-density switching applications. Our manufacturing processes comply with rigorous quality management systems specifically addressing multi-pole synchronization accuracy and inter-pole isolation, and we provide comprehensive technical documentation including full 10-pole performance test reports to support customer qualification, certification, and compliance efforts for the most demanding control applications.

Customization & OEM/ODM Services

YM offers specialized customization options for the MA00L3NZGF multi-pole switch series:

• Custom pole configurations (8-pole, 12-pole variants) based on specific system requirements
• Special gear position configurations (3-gear, 7-gear options) for specific control sequences
• Custom synchronization timing between poles for specialized system requirements
• Enhanced isolation specifications for sensitive adjacent circuits in complex systems
• Special voltage and current ratings tailored to specific application requirements
• Custom mechanical linkages and actuation mechanisms for unique panel layouts
• Special markings, position indicators, and detent configurations for user interface optimization
• Application-specific testing and validation protocols for complex multi-pole performance

Our demonstrated OEM and ODM expertise in complex switching components, proven across our Automotive Relay and Industrial Power Relay product lines, ensures we can develop tailored multi-pole switch solutions that precisely match your most demanding control density requirements and application specifications.

Production Process & Multi-Pole Quality Assurance

1. Multi-Pole Component Manufacturing: Precision manufacturing of ten independent contact systems with exact mechanical alignment requirements.
2. Synchronization Mechanism Engineering: Sophisticated mechanical linkage design ensuring perfect simultaneous operation of all ten poles.
3. Gear Position System Assembly: Precision assembly of 5-gear positioning mechanism with positive detents and smooth transition between positions.
4. Inter-Pole Isolation Implementation: Installation of high-grade insulation barriers between all ten poles to prevent electrical interference.
5. Comprehensive Multi-Circuit Testing: Individual testing of each pole followed by synchronized testing of all ten poles through all five gear positions.
6. Synchronization Accuracy Validation: Precise timing measurement to verify millisecond synchronization accuracy across all ten poles.
7. Gear Position Accuracy Testing: Verification of precise mechanical positioning and positive detent action through all five gear positions.
8. Final Quality Assurance: Complete inspection including dimensional verification, mechanical function testing, individual pole performance validation, synchronization accuracy verification, gear position accuracy confirmation, and full manufacturing traceability for complex multi-pole components.

System Integration and Complementary Multi-Circuit Components

The MA00L3NZGF 10P Military Aviation Switch is designed for integration into the most sophisticated multi-circuit control systems. For complete complex system solutions, consider pairing with YM's complementary products such as Military Aviation Encoding Switches for additional mode selection capabilities, Aviation Copper Fuse Holders with multiple circuits for comprehensive protection, and Solid State Relays for silent control of loads managed by the multi-pole switch. This integrated approach enables the creation of advanced control systems for aerospace, defense, and industrial applications where high-density control, perfect synchronization, and space optimization are critical for system performance and operational effectiveness.