Amphenol FCI Cross-Mate™ 2.00mm Wire-to-Board Connector System
Amphenol FCI Cross-Mate™ 2.00mm Wire-to-Board Connector System offers a compact design and active latching for applications that require good mating retention. The particular cross-section of the mating area guarantees a reliable four-point contact interface with an improved current rating up to 2A per contacts. The Terminal-Position-Assurance (TPA) eliminates the mistake of inserting a wrong contact assembly into the cable housing. A touch-proof feature protects the user from touching powered contacts. The Cross-Mate series is available in 2 to 12 positions per row with horizontal configurations. Typical applications include consumers, industrial and instrumentation, medical, and automotive.
Features
- Active latch provides reliable connection with board connectors in applications that require good mating retention
- Current rating up to 2A per contact meets higher power amps performance
- Terminal-Position-Assurance (TPA) eliminates the mistake of inserting a wrong contact assembly into the cable housing
- Cross-mating interface: 4 points of contact ensure high reliability even in harsh environments
- Touch-proof feature protects the user from touching powered contacts
- Multiple header configurations (vertical and right angle) offer flexibility in applications and designs
- UL 94V-0 high-temperature thermoplastic housing
- Copper alloy board connector and crimping terminal, both available with optional tin and gold plating
Applications
- Consumers
- Home automation
- IoT devices
- Industrial and Instrumentation
- Power tools
- Programmable Logic Controllers (PLC)
- Medical
- Portable devices
- Automotive
- Steering
- Infotainment
- Comfort (Electrical seats, internal lighting)
- Headlights
- Head-Up Display (HUD) modules
Specifications
- 100V AC/DC voltage rating
- 1000MΩ min. insulation resistance
- 10mΩ max. (initial) contact resistance
- 2A current rating
- -25°C to +85°C operating temperature range
- Durability: 10 cycles
Published: 2020-02-11
| Updated: 2022-03-11