Orbital Hingelock TEE Deployer Model T126 User Manual
Hingelock tee deployer model t126, Introduction, Typical technical specifications
Hingelock
TEE Deployer
Model T126
Hingelock
TEE Deployer
Model T126
Introduction
Orbital’s Hingelock deployer model T126 was develpoed
to meet requirements for the Air Force Communications/
Navigation Outage Forecasting System (C/NOFS)
mission. A total of six Orbital Model T126, Deployable
Electric Field Antenna Booms with Spherical Sensors were
developed as a part of the Vector Electric Field Instrument
(VEFI) experiment provided by NASA/GSFC.
Deployer model T126 is a motor driven mechanism
capable of extending and retracting a 1.12 inch
(2.86cm) diameter, 31.2 foot (9.5 meter) long Tubular
Extendable Element (TEE). For C/NOFS an eight
conductor flat cable is deployed inside the TEE to provide
power and signal to a 10cm diameter Sphere Sensor
located at the tip of the boom.
Typical Technical Specifications:
Antenna Element
Deployed Length:
Up to 31.2 ft (9.5
meters)
Diameter:
1.25 in (2.86 cm)
Configuration:
Hingelock
Material:
Beryllium Copper,
0.0045 in thick
(0.1143 mm) thick
Thermal Control
Silver and
perforations with
Teflon (if required)
Weight:
31.4 gr/ft
(with coatings): 103.12 gr/m
Deployer
Length:
(deployer unit only)
18.94 in (48.1 cm)
Including Sphere and Shadow Equalizer:
28.3 in (71.9 cm)
Width:
7.0 in (17.8 cm)
Height:
8.23 in (20.9 cm)
Total Unit Weight:
(14 lbs. 6.3 kg)
Drive:
Brushless DC Motor
Inverter Power:
300 milliamps
maximum at 28 volts
Deployment Rate:
Approximately 1.0 in/sec
(2.5 (cm/sec)
Operating
Temp Range:
-20C to +60C
The deployer features electrical and mechanical stops at
full-extension and -retraction. A potentiometer, driven by
the moving element, provides a continuous indication of
deployed length. To ensure minimal distortions due to
thermal gradients in a space environment, material
perforations and thermal control coatings are applied on
both the inside and outside TEE surfaces. This unit is driven
by a brushless DC motor and can deploy or retract in orbit.
This deployment mechanism is designed to meet the
requirements of MIL-A-083577B (USAF), General
Specification for Mechanical Assemblies for Space and
Launch Vehicles.