Voltmètre

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TYPE D’OBJET
S/O
DATE
2005
NUMÉRO DE L’ARTEFACT
2011.0162.001
FABRICANT
Hobbico
MODÈLE
HCAP0351
EMPLACEMENT
Chine

Plus d’information


Renseignements généraux

Nº de série
S/O
Nº de partie
1
Nombre total de parties
1
Ou
Expanded Scale Voltmeter
Brevets
S/O
Description générale
Synthetic casing, metal plate and contacts

Dimensions

Remarque : Cette information reflète la taille générale pour l’entreposage et ne représente pas nécessairement les véritables dimensions de l’objet.

Longueur
9,5 cm
Largeur
7,1 cm
Hauteur
3,8 cm
Épaisseur
S/O
Poids
S/O
Diamètre
S/O
Volume
S/O

Lexique

Groupe
Aviation
Catégorie
Maquettes
Sous-catégorie
S/O

Fabricant

Ou
Hobbico
Pays
Chine
État/province
Inconnu
Ville
Inconnu

Contexte

Pays
Canada
État/province
Ontario
Période
2007-2009
Canada
(This was used with the FIU-301 UAV). Unmanned Aerial Vehicles, or UAVs, have existed as long as manned aircraft. They have been operated mainly by the military, but recent technological changes are expanding the ways they are used. Wayne Crowe, of Unmanned Systems Canada, writes that “rapid miniaturization of electronics of all sorts and developments in communications technologies, optical sensors and access to cheap, flexible computing devices” have made UAVs more affordable and increased the range of possible civilian applications. In the past decade, UAVs have been used in Canada for the following civilian tasks: photo reconnaissance by police forces; aerial photography; crop monitoring; industrial safety inspections; iceberg monitoring; wildlife research and surveillance; coastal surveillance; geophysical surveys; forest fire monitoring; search and rescue applications (disaster relief); flood monitoring; power line surveys; pipeline monitoring and maintenance; dam inspections; border and harbour patrols; and arctic research and monitoring. People in the field of unmanned vehicles believe that the number of civilian UAVs will continue to increase, arguing that UAVs can have many benefits over manned aircraft, such as cost, environmental situations in which they can be used, and the length of time they can be flown. Though there are a growing number of civilian UAVs, the regularity with which they can be used is severely limited by government regulations. Operators of “non-hobby” UAVs need Transport Canada’s permission to fly their aircraft. Since the Canadian Aviation Regulations (CARs) were written for manned aircraft and do not specifically cover UAVS, operators must apply for a Special Flight Operating Certificate (SFOC). SFOCs limit where the UAV can be used, must be applied for for each mission, and take time to obtain. The UAV being proposed, the FIU-301, was the first UAV to obtain a standing SFOC that is renewable on an annual basis. With this SFOC, the FIU-301 became the first government-approved UAV operated regularly in North America by a civilian agency. FIU-301 was designed and built by Marc Sharpe, Identification Constable for the Kenora Forensic Unit, Ontario Provincial Police (OPP). Along with the Thunder Bay Unit, the Kenora Forensic Unit provides forensic identification services to the OPP’s 560, 000 sq/km Northwest Region with forensic identification services. Constable Sharpe developed the FIU-301 to replace manned aircraft chartered by the OPP to take aerial photos of crime scenes. Sharpe believed a UAV could provide the same service at a much cheaper cost. A number of factors influenced Constable Sharpe’s decision to build a UAV, rather than purchase a commercially produced model. Besides the fact that he had 15 years experience building radio controlled model aircraft and he looked forward to the challenge, there was nothing available that met his needs and was affordable for the police force. The OPP was unwilling to invest in a lot of money in a technology that had not been regularly employed in North America,. Sharpe believed that if he “could come up with a proof of concept system that would demonstrate the value of [the] technology, it would lead to use of commercially produced systems in the future.” Constable Sharpe started working on the UAV in early 2005. Having an existing workshop in his garage, he worked out of his home on what was to become the FIU-301. The project took over 400 hours and involved not only the development and testing of three different aircraft, but also consultations with government to produce a SFOC that was good for one year and was not limited to a specific time or location. The FIU-301’s first operational mission was on 3 October, 2007, at a homicide scene on the Severn River, 4 km upstream from Hudson’s Bay. Over the next year, the FIU-301 was used at the scenes of six other homicides and saved the police force an estimated $20,000. Images from these missions were used as evidence in court. The FIU-301’s success led to Marc Sharpe and the OPP’s further involvement the UAV community. Sharpe and the OPP have been offered commercially produced UAVs by three different companies in exchange for operational assessments. Only two of these UAVs, Draganfly Innovations Inc.’s X-6 and Aeryon Labs Inc.’s Scout, both Canadian, received Federal approval. (The X-6 made the FIU-301 obsolete, and it was retired 1 January, 2009.) Constable Sharpe is now on the Board of Directors for Unmanned Systems Canada, has organized a workshop training emergency services on UAV use, and was part of a Transport Canada working group that rewrote the ministry’s staff instruction. (From Acquisition Proposal, see Ref. 1)
Fonction
To test the batteries of transmitters and receivers used for piloting model aircraft.
Technique
(This was used with the FIU-301 UAV). The FIU-301 is technologically significant for a number of reasons. First, it represents developments in, and the decreasing price of, technologies used in UAVs. Though the Kenora OPP does not pay for its commercially produced UAVs, it is significant that Constable Sharpe was able to build one for $3000 and donated electronic components. Second, the homebuilt FIU-301 is an important step in bringing commercially produced UAVs to civilian users. The FIU-301 convinced the OPP that UAVs are a valuable technology and, by testing and promoting commercially produced UAVs, the OPP has marketed them to other emergency services. Third, the FIU-301 was a stage in the continuing technological development of civilian UAV technology. Sharpe learnt what changes were needed for a better UAV by regularly operating the FIU-301. He applied what he learnt in the partnerships he formed with Draganfly and Aeryon Labs. (From Acquisition Proposal, see Ref. 1)
Notes sur la région
Inconnu

Détails

Marques
On the proper front, on the gauge: "EXPANDED SCALE VOLTMETER"/ There are three scales on the gauge, labelled on the proper right side: "8C/ 5C/ 4C/ and labelled on the proper left side: "TX/ RX"/ On the plate on the proper front: "HOBBICO [R]/ GREEN = GOOD/ RED = RECHARGE/ Expanded Scale/ Voltmeter Mk II/ 4 Cell/ 4.8V/ +/ Receiver/ 5 Cell/ 6.0V/ -/ Transmitter/ 8 Cell 9.6V/ +/ HCAP0351"/ On the proper back, molded into the synthetic casing: "Made in China"
Manque
Appears complete
Fini
Predominantly black casing with a silver coloured metal plate on the proper front with red and black markings. The gauge is white with black numbers and red and green lines. There are three ports to insert wires, two of which have a red ring around them, and the third has a black ring.
Décoration
S/O

FAIRE RÉFÉRENCE À CET OBJET

Si vous souhaitez publier de l’information sur cet objet de collection, veuillez indiquer ce qui suit :

Hobbico, Voltmètre, vers 2005, Numéro de l'artefact 2011.0162, Ingenium - Musées des sciences et de l'innovation du Canada, http://collections.ingeniumcanada.org/fr/id/2011.0162.001/

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