XDR-928 EXPENDABLE DIGITAL RADIOSONDE
The XDR-928 Expendable Digital Radiosonde represents the state-of-the-art for making precise upper air observations using high resolution Global Positioning System technology. The XDR is unique in that it is capable of radiosonde and dropsonde sounding modes, providing vertical profiles of pressure, temperature, humidity and 3D winds. It can be released manually, deployed in the Model ARL-9000 launcher, or released via UAV.
The XDR-928 features a precision calibrated, radiation-shielded thermistor and solid state micro-machined (MEMS) humidity sensor, providing exceptional calibration and stability. Pressure is derived via GPS altitude, while wind data a 12 satellite GPS engine. An optional pressure sensor is available to support hurricane work. Digital RF data telemetry in the 403 MHz meteorology band communicates to a METHUB or AIRHUB Receiver. A web browser displays sounding data via a conventional Skew-T graph, or as text data reports.
Highly integrated for low cost and high reliability
Advanced micro-machined met sensors
True GPS engine for precise wind finding
Non-encrypted data transmission
Uses common lithium type 2/3A dry cell battery
Non-contact battery activation
Compatible with ARL-9000 Auto Launcher
Synoptic meteorological upper air soundings
Hurricane tracking via research aircraft or UAV
Numerical Weather Prediction model input
Climate research field experiments, education
Principle of Operation
A radiosonde is an electronic met sensor package released into the atmosphere, typically attached to a balloon filled with helium. In dropsonde mode, it is deployed from aircraft (via ECM chaff dispensers) or UAV. During ascent (or descent for dropsondes), it telemeters PTU meteorological data and winds data in real time once a second. For radiosonde soundings, a METHUB Meteorological Data Receiver, located on the ground records the data. The AIRHUB supports either radiosondes or dropsondes from aircraft or UAV. The XDR allows you to migrate to automated upper air flight operations, using the same hardware/software.
Unlike older radiosondes that used water-activated batteries, the XDR-928 uses commonly-available lithium dry cell battery technology. The battery is activated by a slip-fit fiber optic cable. Prior to release, the fiber optic cable latches the battery on and real time data telemetry commences until the end of the flight. (A manual jumper allows battery deactivation if necessary.) Each second a Manchester-encoded data packet is sent via frequency shift keying (FSK). Met sensor calibration coefficients are sent once a minute, eliminating the overhead of paper tapes, and a cyclical redundancy check is appended to each packet to ensure RF link integrity. During flight, received upper air data are displayed in real time via a web server, allowing sharing of data via TCP/IP networking. Data are stored in a database, and can be exported in a variety of formats or as ASCII.
The XDR is compatible with both the ARL-9000 auto launcher and AIRHUB for UAV hurricane work. When used with the ARL launcher, the roof is opened and the helium gas line is cut, whereupon the sonde is lifted up and away. When used with UAV, soundings initiate on pressure drop.
Automated XDR Deployment Methods
Temperature vs. ADC resolution of Tambient
101 Industrial Blvd.
Turners Falls, MA 01376 USA
Fax: (413) 863-0255
Copyright © 1998-2006 Yankee Environmental Systems,
Inc., All Rights Reserved. Privacy Notice
This page was last updated on Thursday, September 14, 2006 .