TSUBAME was a

microsatellite A microsatellite is a tract of repetitive DNA in which certain Sequence motif, DNA motifs (ranging in length from one to six or more base pairs) are repeated, typically 5–50 times. Microsatellites occur at thousands of locations within an organ ...

developed by the

Tokyo Institute of Technology The Tokyo Institute of Technology () was a public university in Meguro, Tokyo, Japan. It merged with Tokyo Medical and Dental University to form the Institute of Science Tokyo on 1 October 2024. The Tokyo Institute of Technology was a De ...

and

Tokyo University of Science , formerly "Science University of Tokyo" or TUS, informally or simply is a private research university located in Shinjuku, Tokyo, Japan. History Tokyo University of Science was founded in 1881 as The Tokyo Academy of Physics by 21 graduate ...

from a student design concept in 2004. The satellite was designed to demonstrate new technologies for rapid attitude control, observing gamma ray bursts, and Earth observation. The name, TSUBAME, means swift in Japanese and was chosen both because of the experimental attitude control system and to invoke another gamma ray observatory, the ''Swift'' Gamma-Ray Burst Mission, which launched shortly after TSUBAME's first design concept was published in 2004. TSUBAME was launched with four other satellites from Yasny Cosmodrome on a

Dnepr rocket The Dnepr rocket (; ) was a space launch vehicle named after the Dnieper River. It was a converted ICBM used for launching artificial satellites into orbit, operated by launch service provider ISC Kosmotras. The first launch, on April 21, 1999, ...

on November 6, 2014. It was placed in a 500 km altitude

Sun-synchronous orbit A Sun-synchronous orbit (SSO), also called a heliosynchronous orbit, is a nearly polar orbit around a planet, in which the satellite passes over any given point of the planet's surface at the same local mean solar time. More technically, it is ...

. A week after the launch, problems were reported with communication hardware and communication was lost with the satellite after three months of recovery efforts.

Objectives

The TSUBAME mission included both engineering and scientific objectives. Primarily engineering objectives were successful demonstration of new compact

control moment gyroscope A control moment gyroscope (CMG) is an attitude control device generally used in spacecraft attitude control systems. A CMG consists of a spinning rotor and one or more motorized gimbals that tilt the rotor’s angular momentum. As the rotor til ...

s for rapid changes in spacecraft attitude and demonstration of a compact, 14-meter resolution optical camera. In addition to these engineering objectives, the mission also included a primarily scientific objective to observe ephemeral, high-energy phenomena, such as gamma ray bursts, using

polarimetry Polarimetry is the measurement and interpretation of the polarization of transverse waves, most notably electromagnetic waves, such as radio or light waves. Typically polarimetry is done on electromagnetic waves that have traveled through or ha ...

of hard X-rays. Early concepts of the mission also included tether formation control experiments but this objective appears to have been dropped from the final design.

History

The Matunaga space systems lab at the Tokyo Institute of Technology had launched several student-designed satellites before TSUBAME, including CUTE-1 in 2003,

CUTE-1.7 + APD CUTE-1.7 + APD (Cubical Tokyo Tech Engineering satellite 1.7 plus Avalanche Photodiode) or CO-56 (Cubesat-Oscar-56) or just OSCAR 56 was an amateur radio satellite in the form of a double CubeSat. The satellite used commercial off-the-shelf comp ...

in 2006, and

CUTE-1.7 + APD II CUTE-1.7 + APD (Cubical Tokyo Tech Engineering satellite 1.7 plus Avalanche Photodiode) or CO-56 (Cubesat-OSCAR, Oscar-56) or just OSCAR 56 was an amateur radio satellite in the form of a double CubeSat. The satellite used commercial off-the-she ...

in 2007. The first design concepts for the TSUBAME mission were entered into a student satellite design contest in 2004, where it won Grand Prix. TSUBAME was one of four small satellites to launch piggyback with ASNARO 1. The mission was launched from Yasny Cosmodrome on a

on November 6, 2014. It was deployed into a 500 km

Sun synchronous orbit A Sun-synchronous orbit (SSO), also called a heliosynchronous orbit, is a nearly polar orbit around a planet, in which the satellite passes over any given point of the planet's surface at the same local mean solar time. More technically, it is ...

. Initially, TSUBAME's mission was expected to last one year. Early results from the check-in phase, where hardware is activated and vital functions checked, were positive, but a week after launch issues with RF command receiver (in the

FM broadcast band The FM broadcast band is a range of radio frequencies used for FM broadcasting by radio stations. The range of frequencies used differs between different parts of the world. In Europe and Africa (defined as International Telecommunication Union ( ...

) were observed. Later, issues developed with the satellite spin rate,

S-band The S band is a designation by the Institute of Electrical and Electronics Engineers (IEEE) for a part of the microwave band of the electromagnetic spectrum covering frequencies from 2 to 4 gigahertz (GHz). Thus it crosses the convention ...

communications, GPS receiver, and battery voltage and temperature. About three months after launch, all communication was lost with the failure of the continuous wave transceiver. Subsequent analysis of communications with the satellite and laboratory reproduction have revealed that the ultimate loss of contact and some of the other issues were caused by a failure in a

DC-DC converter A DC-to-DC converter is an electronic circuit or electromechanical device that converts a source of direct current (DC) from one voltage level to another. It is a type of electric power converter. Power levels range from very low (small batteries) ...

. Several other issues and design flaws were revealed in the failure analysis.

Description

The

satellite bus A satellite bus (or spacecraft bus) is the main body and structural component of a satellite or spacecraft, in which the payload and all scientific instruments are held. Bus-derived satellites are less customized than specially-produced satelli ...

was a rectangular prism assembled from an internal structure of metal panels an exterior covered with carbon fibre reinforced polymer lattice. The spacecraft mass was approximately . The miniature control moment gyroscopes demonstrated in TSUBAME each had a rotating flywheel driven by a

synchronous motor A synchronous electric motor is an AC electric motor in which, at steady state, the rotation of the shaft is synchronized with the frequency of the supply current; the rotation period is exactly equal to an integer number of AC cycles. Sync ...

, and a single

stepper motor A stepper motor, also known as step motor or stepping motor,Clarence W. de Silva. Mechatronics: An Integrated Approach (2005). CRC Press. p. 675. "The terms ''stepper motor'', ''stepping motor'', and ''step motor'' are synonymous and are often u ...

, which controlled the

gimbal A gimbal is a pivoted support that permits rotation of an object about an axis. A set of three gimbals, one mounted on the other with orthogonal pivot axes, may be used to allow an object mounted on the innermost gimbal to remain independent of ...

. These control moment gyros were arranged in a pyramid. The flywheels were 7.35 cm in diameter and weighed 1 kg. In addition to the control moment gyros, a

magnetorquer A magnetorquer or magnetic torquer (also known as a torque rod) is a satellite system for Spacecraft attitude control, attitude control, detumbling, and stabilization built from electromagnetic coils. The magnetorquer creates a magnetic dipole that ...

was also used for attitude control. Navigation and attitude determination used a number of sensors including six

Sun sensor A Sun sensor is a navigational instrument used by spacecraft to detect the position of the Sun. Sun sensors are used for Spacecraft attitude control, attitude control, solar array pointing, gyroscope, gyro updating, and safe mode (spacecraft), fai ...

s, a three-direction

magnetometer A magnetometer is a device that measures magnetic field or magnetic dipole moment. Different types of magnetometers measure the direction, strength, or relative change of a magnetic field at a particular location. A compass is one such device, ...

, three

MEMS gyroscope A vibrating structure gyroscope (VSG), defined by the IEEE as a Coriolis vibratory gyroscope (CVG), is a gyroscope that uses a vibrating (as opposed to rotating) structure as its orientation reference. A vibrating structure gyroscope functions ...

s, and two

star tracker A star tracker is an optical device that measures the positions of stars using photocells or a camera. As the positions of many stars have been measured by astronomers to a high degree of accuracy, a star tracker on a satellite or spacecraft may ...

s. A field-programmable gate array contained the software for the attitude determination and control systems. TSUBAME had multiple communication systems to cope with the limitations of the radio equipment available on the ground. Similar to other satellites developed by the space systems laboratory at Tokyo Institute of Technology, TSUBAME had an FM band receiver and

ultra high frequency Ultra high frequency (UHF) is the ITU designation for radio frequencies in the range between 300 megahertz (MHz) and 3 gigahertz (GHz), also known as the decimetre band as the wavelengths range from one meter to one tenth of a meter ...

transmitter which could communicate with the university's ground station. The UHF transmitter broadcast continuously after deployment so that amateur radio operators could assist in tracking the satellite. The volume of data that TSUBAME was expected to produce (on the order of tens of megabytes) could not be quickly broadcast by the radio transmitter, so an additional

transceiver was also included, even though an S-band antenna was not immediately available to the university; it was hoped that Fukui University of Technology would allow use of a 10m

parabolic antenna A parabolic antenna is an antenna that uses a parabolic reflector, a curved surface with the cross-sectional shape of a parabola, to direct the radio waves. The most common form is shaped like a dish and is popularly called a dish antenna or p ...

after the launch. Poor design of the antennas on TSUBAME were found to be a likely cause of many of the failures that occurred on orbit. The first communication issues that were observed were attributed to

interference Interference is the act of interfering, invading, or poaching. Interference may also refer to: Communications * Interference (communication), anything which alters, modifies, or disrupts a message * Adjacent-channel interference, caused by extra ...

from radio waves reflected off the solar panels. Subsequent failures were attributed to a failure of a DC-DC converter powering the communication systems.

Instruments

The primary science objective measuring polarization of gamma ray bursts required two instruments. The Wide-Field Burst Monitors (WBMs) were used to help detect and localize events so the spacecraft can be pointed in the correct direction, while the Hard X-ray Compton Polarimeter (HXCP) was designed to make observations once correctly oriented. There were five WBM units at diverse locations on the TSUBAME. Each WBM was a tile of

caesium iodide Caesium iodide or cesium iodide (chemical formula CsI) is the ionic compound of caesium and iodine. It is often used as the input phosphor of an X-ray image intensifier tube found in fluoroscopy equipment. Caesium iodide photocathodes are highl ...

scintillator A scintillator ( ) is a material that exhibits scintillation, the property of luminescence, when excited by ionizing radiation. Luminescent materials, when struck by an incoming particle, absorb its energy and scintillate (i.e. re-emit the ab ...

. When an increase in the count rate was detected by one or more scintillators, the main processor would determine the direction, initiate control systems of the satellite. The HXCP could measure polarization for photons from 30 to 200 keV. It comprised tiles of plastic scintillator to scatter incident photons, photomultiplier tubes, and a second caesium iodide based scintillator used as an absorber. Each scintillator tile was attached to an

avalanche photodiode An avalanche photodiode (APD) is a highly sensitive type of photodiode, which in general are semiconductor diodes that convert light into electricity via the photovoltaic effect. APDs use materials and a structure optimised for operating with high ...

, which converts photons to an electric signal. To mitigate background noise, the HXCP was surrounded by metal composite shielding, and coincidence between the two scintillating materials could be compared and processed by onboard computers. The optical camera was developed by the Tokyo University of Science. It had a ground resolution of 14 meters per pixel and could take up to five images each second.

References

{{Orbital launches in 2014, state=collapsed Space telescopes Satellites of Japan Spacecraft launched in 2014 Microsatellites