The JDSU FBP-PX100 is a video inspection probe microscope engineered for detailed examination of fiber optic connectors and optical devices. Delivering NTSC video output at 200X magnification, this handheld instrument provides clear visualization of fiber end faces with approximately 550 μm horizontal field-of-view. A 1/3-inch CMOS sensor paired with internal blue LED illumination (>100,000 hour lifespan) and coaxial lighting geometry enables precise connector inspection in confined spaces. The integrated QuickCapture™ button captures images directly to compatible JDSU display units or PC platforms via USB conversion.
Technical Specifications
• Video Output: NTSC
• Magnification: 200X fixed
• Sensor: 1/3-inch CMOS
• Light Source: Blue LED, internal, >100,000 hour lifespan
• Illumination: Coaxial
• Horizontal Field-of-View (200X): Approximately 550 μm
• Focus Control: Adjustable, probe-mounted
• Dimensions: 46 × 43 × 140 mm (1.8 × 1.7 × 5.5 in)
• Weight: 180 g (6.35 oz)
• Output Connector: 6-pin
• Power: Supplied by connected display device or USB port via converter
– Key Features
• Compatible with over 250 interchangeable precision FBPT tips and adapters for diverse connector geometries
• Probe-integrated QuickCapture™ button for instant image acquisition
• Coaxial illumination eliminates shadow artifacts on connector end faces
• Ergonomic in-hand design facilitates inspection of patch panels and embedded optical assemblies
• No USB or barrel connectors on this variant
– Typical Applications
• Bulkhead (female) and patch cord (male) connector inspection
• Optical device end-face examination
• Field verification of connector cleanliness and fiber geometry
– Compatibility & Integration
• Compatible with JDSU HD-series analog displays (conversion cable FBPP-DPAC1 may be required for 6-pin to 4-pin interfaces)
• Compatible with JDSU test platforms: T-BERD, MTS, TestPad (with appropriate modules)
• Windows PC/laptop integration via USB analog-to-digital converter (FBPP-USB1 for 6-pin probes)
• FiberChek™ software support for PC-based image capture and analysis
