The EXFO PM-1100 is an optical power meter engineered for precision measurements across fiber optic installations and component characterization. It performs absolute power quantification in dBm or W, insertion loss assessment in dB or W/W, linearity verification, system monitoring, and source stability measurement. The instrument features a Germanium (Ge) detector optimized for the 750 nm to 1700 nm wavelength range, delivering power measurement capability from +25 dBm to -75 dBm with ±5% absolute uncertainty and ±0.015 dB linearity. Resolution reaches 0.001 dB across all measurement modes.
Technical Specifications
Optical Performance
• Wavelength range: 750 nm to 1700 nm
• Power measurement range: +25 dBm to -75 dBm
• Absolute uncertainty: ±5%
• Linearity: ±0.015 dB
• Resolution: 0.001 dB
• Stabilization time: Typically 640 ms
Acquisition & Sampling
• Fast acquisition mode: Up to 50 k samples/s/channel
• Selectable continuous rates: 40.0, 20.0, 10.0, 5.0, 1.0, 0.5, 0.1 k samples/s/channel
Data Management
• Store up to 20 preselected wavelengths per user setup
• Up to 10 user setups with 20 wavelengths each
• Manual storage: 512 readings (power level, wavelength, offset)
• Programmed sequence storage: 1024 readings
• Offset compensation available for known power loss or gain
Connectivity & Control
• Remote interfaces: GPIB and RS-232
• LabVIEW™ drivers and SCPI command support
• Menu-driven interface for local operation
Physical
• Large display optimized for varying ambient lighting
• Interchangeable fiber-optic adapters: SMA 906, FC, DIN 47256, ST, Diamond types
– Key Features
• High resolution measurement at 0.001 dB across full dynamic range
• ±5% accuracy supports insertion loss and component characterization workflows
• Configurable sampling rates from 0.1 k to 50 k samples/s/channel accommodate transient and continuous monitoring
• Extensive memory architecture enables unattended logging of up to 1024 readings per session
• Offset and calibration factor storage eliminates manual calculation
– Typical Applications
• Absolute power verification in optical systems
• Insertion loss measurement on passive components and assemblies
• Subsystem and link-level monitoring
• Source stability assessment and verification
• Linearity validation in optical test benches
– Compatibility & Integration
Remote operation via GPIB or RS-232 enables integration into automated test racks and production environments. LabVIEW™ instrument drivers and SCPI command syntax support vendor-agnostic control frameworks. Interchangeable fiber adapters permit rapid reconfiguration across SMA 906, FC, DIN 47256, ST, and Diamond connector families without tool changeover.
