The CI Systems SR800R-4D ControlMaster is an extended area blackbody controller engineered for precise temperature regulation and infrared detector calibration. It delivers highly accurate, uniform thermal radiation across 2µm to 14µm wavelengths with NIST-traceable performance. The system operates standalone or integrates into larger test benches, featuring onboard temperature measurement and digital signal transfer to the controller for enhanced stability and measurement confidence.
## Technical Specifications
• **Temperature Range:** -40°C to 1200°C
• **Temperature Accuracy:** 0.007°C; total system uncertainty 0.02°C (T ≤ ±25°C) and 0.03°C (T > ±25°C)
• **Temperature Stability:** Millidegree-Kelvin stability
• **Typical Yearly Drift:** 0.02°C
• **Set Point and Readout Resolution:** 0.001°C
• **Spectral Emissivity:** Greater than 97% (2µm to 14µm)
• **Emitter Diameter Options:** 2″ to 20″ standard; up to 40″ available
## Key Features
• User-replaceable sensors allow rapid recalibration and system refresh to factory calibration within one year
• Optional CK-800R calibration kit enables self-calibration in the field
• Millidegree-Kelvin resolution for demanding metrology applications
• Large color LCD touchscreen interface with Windows CE operating system
• Control of up to four motorized devices from single controller
• Built-in MRTD testing and maintenance diagnostics reduce downtime
• Compact, portable form factor with included 19″ rack-mount kit
• Ethernet, GPIB, and RS-232 communication ports for system integration
• Remote control software included
• Certified to MIL-T-28800D, CE, and FCC standards
## Typical Applications
• Infrared detector and thermal imaging system calibration
• NIST-traceable temperature reference for test facilities
• Thermal performance validation and detector characterization
• Extended-area radiometric measurement standards
## Compatibility & Integration
Designed as a standalone unit or for integration into optical test benches with collimators and larger automated test systems. Removable radiation head design supports flexible deployment across multiple test configurations.
