Press Release Summary:
Comprised of hermetically sealed temperature-controlled detector with built-in front-end electronics mounted on SMT board, Model 742DP features detector diameter of 5.33-14 mm, typical pulse width of 20 ns, and dynamic range of greater than 100,000:1. Independent 5-channel noise detectors set lowest thresholds to achieve max acquisition ranges for different background light and spot positions, while special circuits resist sunlight blinding in any one or all quadrants.
Original Press Release:
Analog Modules, Inc. Announces the Release of Its Laser Spot Tracker
Longwood, FL - Analog Modules, Inc. is pleased to announce the release of its patented Laser Spot Tracker, Model 742DP.
The 742DP is a new generation of Laser Spot Tracker with wide flexibility for missile and platform tracker applications. The detector is temperature controlled and optimized for 1.06µm. Independent five channel noise detectors set the lowest thresholds to achieve long acquisition ranges for different background light and spot positions and special circuits resist sunlight blinding in any one or all quadrants. A range of N-type custom-designed detectors gives the highest performance at 1.06µm. A separate substrate allows the detector size or type to be optimized for your application. Model 742DP comprises a hermetically-sealed temperature-controlled detector with built-in front-end electronics, mounted on a SMT board. A second
printed circuit board contains analog and digital processing circuits. The individual channels are digitized with a high-speed A-D converter and output as a serial digital interface for steering. An adaptive threshold control allows optimum signal-to-noise operation and power management is used to reduce power consumption.
For detailed specifications and outline drawings on the Model 742DP, visit our website at www.analogmodules.com/products/laser-trackers.php to view the product data sheet.
Please contact AMI to discuss the specifics of your application at firstname.lastname@example.org or phone +1 407-339-4355.