SAGEM Sperwer A

Sperwer A Sperwer A
Originální název:
Original Name:
Sperwer A
bezpilotní průzkumný letoun unmanned reconnaissance aerial vehicle
DD.MM.1999-DD.MM.2005 Société d'Applications Générales d'Électricité et de Mécanique, Montluçon
DD.MM.2005-DD.MM.201R Sagem Défense Sécurité SA, Montluçon
DD.MM.200R-DD.MM.2006 Oerlikon Contraves Inc., St-Jean-sur-Richelieu
Období výroby:
Production Period:
Vyrobeno kusů:
Number of Produced:
První vzlet:
Maiden Flight:
Základní charakteristika:
Basic Characteristics:
Vzlet a přistání:
Take-off and Landing:
vzlet pomocí katapultu nebo rampy, přistání na padáku catapult or launch pad take-off, landing on a parachute
Uspořádání křídla:
Arrangement of Wing:
jednoplošník monoplane
Uspořádání letounu:
Aircraft Concept:
bezocasé tailless
jiný other
Přistávací zařízení:
Landing Gear:
airbag airbag
Technické údaje:
Technical Data:
Hmotnost prázdného letounu:
Empty Weight:
212 kg 467 lb
Maximální vzletová hmotnost:
Maximum Take-off Weight:
330 kg 728 lb
4,20 m 13 ft 9 ⅜ in
3,52 m 11 ft 6 ⅝ in
1,30 m 4 ft 3 ⅛ in
Plocha křídla:
Wing Area:
6,6 m2 71.04 ft2
pístový piston
Počet motorů:
Number of engines:
Rotax 586 o výkonu 52,2 kW Rotax 586, power 70 hp
Objem palivových nádrží:
Fuel Tank Capacity:
? ?
Maximální rychlost:
Maximum Speed:
235 km/h v ? m 146 mph in ? ft
Cestovní rychlost:
Cruise Speed:
144 km/h v 3500 m 89.5 mph in 11483 ft
Operační dostup:
Service Ceiling:
3500 m 11483 ft
Maximální dolet:
Maximum Range:
180 km 111.8 mi
6 h
bez výzbroje none
SAGEM IRIS gyroskopicky stabilizované elektrooptické a infračervené systémy a videokamera s vysokým rozlíšením SAGEM IRIS EO/IR
Uživatelské státy:
User States:
- vyřazeno v roce 2009

- vyřazeno v roce 2005
(UAV01 Ugglan) - vyřazeno 2011

(CU-161 Sperwer) - vyřazeno 2009
- retired 2009

- retired 2005
(UAV01 Ugglan) - retired 2011

(CU-161 Sperwer) - retired 2009
- -
Brousil, Zdeněk: Sperwer... ...nad Aghánistánem; ATM 07/2007; Aeromedia; ISSN 18020-4823
URL : Version : 0

SAGEM Sperwer

The Sperwer unmanned reconnaissance system ( Spehr-wuhr, in Slovak Krahulec) was developed on the basis of an order from the Royal Netherlands Army as a successor to SAGEM Crécerelle. Compared to its predecessor, the Sperwer had to provide a higher range, longer endurance and higher load capacity. The development was completed in the late 90s of the 20th century and the device was subsequently introduced into the armament of the Dutch army.

The Sperwer system is modular. The basic unit consists of three unmanned Sperwer vehicles, a ground control station (GCS), a mobile pneumatic ejection device, a mobile ground data terminal and mechanical means for transporting and handling unmanned vehicles. The ground control station is capable of simultaneously controlling 2 flying devices and at the same time allows these devices to be taken over and handed over during the flight.

The unmanned vehicle can operate either according to a pre-programmed flight path or is manually controlled. The sensors are able to automatically track the intended target even during maneuvering of the device. Sperwer obtains the necessary information from heights of 300 to 4500 m for a maximum of 6 hours and transmits it in real time. Max. the range of video signal transmission is 30 km (version Mk.II) and telemetry 50 km. The data terminal receiving information from the flying means enables the transmission of the obtained information by the superior stage up to a distance of 200 km.

The fuselage of the drone is box-shaped with a delta wing. The propulsion unit with a four-bladed thruster is installed in the rear of the fuselage, the sensor equipment is in the front of the fuselage and in the retractable dome under the front of the fuselage. Above the engine there is a pair of V-shaped tail surfaces. The fuel is stored in integral tanks in the fuselage and in the wing, on the sides of the fuselage are ducts for air supply to the engine. The engine is a two-cylinder with an output of 48 kW (some sources state 52 kW) at 6500 rpm.

The sensors are gyroscopically stabilized electro-optical and infrared systems and a high-resolution video camera. Navigation is provided by an inertial navigation system and a NAVSTAR/GPS terminal.

The vehicle is discharged by means of a pneumatic discharge device, which gives the device the required take-off speed. The drainage device can be installed on various chassis according to the user's wishes - in practice, Renault Renault vehicles (French Army), DAF YF-4442 (Dutch Army), resp. HLVW platform (Canada).
The landing is secured by a parachute (area 117 m2) and airbags under the fuselage (in front to protect the retractable dome with a video camera) and each wing. A two-axle trolley is used for handling the vehicle during pre-flight preparation and for carrying it to the starting ramp (or placing it on the vehicle) by crane. The whole system can be transported using a pair of transport aircraft type C-130 (and compatible).

In 2001, based on French requirements, the development of a version with greater load capacity and endurance and the ability to carry armament under the designation Sperwer B began. variant Mk. II with the new optoelectronic system Euroflir 350.


A total of 34 unmanned aerial vehicles were purchased for the Royal Dutch Air Force. The drain device was placed on the chassis DAF YPS-4442. The device was decommissioned in 2009.

In August 2003, Canada received the first 2 Sperwer systems modified according to the requirements of the Canadian Army (a total of 6 unmanned aerial vehicles s. No. 161001-161006) and designated as CU-161 Sperwer.The Canadian Armed Forces located a launch facility on the HLVW platform, and in the same year, ISAF funds were deployed in Afghanistan. In April 2004, another 2 unmanned aerial vehicles (161007 and 161008) were ordered and delivered during the year (and No. 161008 was already destroyed in Afghanistan on November 22, 2004). In December 2005, a third delivery of Sperwers was ordered (5 pieces, No. 161009-161013), while production was already taking place in Canada at Oerlikon-Contraves Canada, and individual machines were delivered to the army in 2006. In the same year, 18 pieces were delivered. decommissioned from the Danish armament (s.č. 161014-161031). Until 2009 (the last flight on April 18, 2009), the Canadian Sperwers were deployed in combat in Afghanistan and were subsequently replaced in armaments by Israeli drones Heron.

Purchased and manufactured drones were decommissioned and sold to Canada in 2005 due to lack of funds (18 in total). The necessary adjustments to the Canadian standards were made by the Sagem company.

Greece has gradually ordered at least 6 Sperwer systems since 2004 (2 kits in 2004, 2 in 2006 and another 2 in 2007).

In the Swedish Armed Forces, Sperwer was classified as UAV-01 Ugglan (Owl) from 1999 to 2010 in a total of 3 systems. It was replaced by the UAV-03 Örnen system (RQ-7 Shadow).

The first Sperwers were included in the French armament in 2003 (under the SDTI program - System de Drone Tactique Intermediare), where they replaced the older Sagem Crécerelle systems. Reanult Kerax three-axle trucks are used as the carrier of the discharge device. France has deployed the Sperwer system in combat in Afghanistan since 2008, losing 12 UAVs by the end of 2012.

United States American
Sperwer unmanned aerial vehicles are used in unknown numbers by the National Air Guard.

Brousil, Zdeněk: Sperwer ... ... nad Aghánistánem; ATM 07/2007; Aeromedia; ISSN 18020-4823
URL : Version : 0
Canadian CU-161 (Sperwer A) with a transport and handling vehicle when deployed in the ISAF mission in Kandahár after a successful landing, start of the French machine and transport of the vehicle on a handling truck.

Photos of the device from the Dutch armament are on this link: (I did not contact the author, so I prefer not to put photos here).


SAGEM Sperwer A - Kanadský CU-161

Kanadský CU-161
SAGEM Sperwer A - Štart

SAGEM Sperwer A - Sperwer na manipulačnom vozíku

Sperwer na manipulačnom vozíku
URL : Version : 0
Discussion post Fact post

Join us

We believe that there are people with different interests and experiences who could contribute their knowledge and ideas. If you love military history and have experience in historical research, writing articles, editing text, moderating, creating images, graphics or videos, or simply have a desire to contribute to our unique system, you can join us and help us create content that will be interesting and beneficial to other readers.

Find out more