The Ophir 1Z01600 is a single-channel digital power and energy meter sensor engineered for precision measurements across laser and photonics applications. This meter accepts all Ophir thermal, pyroelectric, and photodiode sensor heads, delivering measurement capability from picowatts to kilowatts depending on head selection. The device features a large high-definition LCD with selectable digital or analog needle display modes, soft-key navigation, and menu-driven functions with integrated online help.
Technical Specifications
• Measurement Range: pW to kW with appropriate sensor heads; submicrojoule and multi-kilohertz capable with pyroelectric heads
• Display: Large high-definition LCD with digital or analog needle readout options
• Data Logging: Non-volatile storage for up to 50,000 data points; sampling rates >1000 Hz with pyroelectric heads
• Digital Interfaces: USB (>1000 points/s transmission) and RS232 (19200 baud maximum)
• Analog Output: Available
• Battery: Rechargeable NiMH; approximately 18 hours operating time between charges
• Power Supply: Included charger doubles as AC adapter
• Standards Compliance: NIST traceable; CE marked
– Key Features
• Standalone data viewing or PC transmission via USB with integrated statistics package
• RS232 connectivity with statistics package support
• 2-position kickstand design
• LCD backlighting for low-light operation
• Smart connector heads provide automatic configuration and calibration upon insertion
• User-programmable startup configurations and calibration parameters (power, energy, response time, zero offset)
• Laser tuning screen and power/energy logging functions
• Density, min/max, and scaling software features
• Automatic continuous background cancellation with PD300 photodiode heads
– Compatibility & Integration
The 1Z01600 accepts all Ophir thermal, pyroelectric, and photodiode sensor heads. Smart connector technology eliminates manual setup—heads auto-configure and auto-calibrate when connected. Users retain full control to recalibrate and adjust meter parameters as needed for application-specific requirements.
