Tecnam MMA

TECNAM MMA
Role Multi Mission Aircraft
National origin Italy / Austria
Manufacturer Tecnam / Airborne Technologies[1]
First flight 2009

The TECNAM MMA (Multi Mission Aircraft) is a cost and fuel efficient twin-engine aircraft for surveillance, law enforcement and remote sensing missions developed by Airborne Technologies[1] in Austria. The MMA is based on Tecnam’s high-wing P2006T aircraft and adapted to carry various sensor equipment for aerial works.

Contents

History

After Tecnam’s launch of the P2006T serial production in the year 2009, Airborne Technologies started developing the P2006T to obtain a smart and efficient special mission aircraft.[2] The light aluminum P2006T was chosen because it’s characterized by the independency of Avgas fuel, an endurance of more than 8 hours and the enormous cabin space.[3] The general trend in the commercial world to miniaturize electronic components and consequently the sensors itself made the deployment of a small and light aircraft for a sensor carrier platform possible.[4] In the past, observation and sensing missions have been limited to bigger FAR Part 23 and Part 25 aircraft due to the dimensions and weights of the electronic sensor equipment.[3] But nowadays by using state of the art technology small aircraft like this one are an affordable alternative for limited budgets of private organizations, governments and intra-governments.[2]

In October 2009 was the roll out of the first MMA.[2]

Design and Development

The MMA is equipped with an autonomous alternator supporting the mission equipment separately and independently from the electrical bus of the aircraft with 28 volts and 60 amps. The separate mission bus is backed up with an extra battery and external power unit for ground support. This enables the sensor operator to set up the sensor equipment even on ground without starting the aircraft systems.[5]

The sensitive technical equipment is housed within the sensor bay in the body of the aircraft. Therefore a hatch with dimensions of 430mm width and 660mm length and electronically hatch flaps are installed in the fuselage. The construction of the aircraft and the crashworthiness is not influenced because of the metal airframe where load paths are keeping via ribs and stringers and the shell of the aircraft only acts supporting. Covert ISR mission can be carried out very discreetly because the sensors and gimbals are not visible externally when transiting to/from the operational areas. On entering an operation the flaps of the hatch are opened and the sensors are lowered down by a sensor lift. After mission completion the sensors are brought back into the interior by the lift and flaps are closed again.[6]

The sensors are operated directly from the second row of seats where a sensor operator station is integrated. It consists of a console for up to three screens, a keyboard, a joystick and recording devices. Hard drives and technical equipment (for the flight management system, data recording/processing and data down linking) are stored in the systems compartment, where an airborne server room is integrated. Additional antennas for mission GPS data, data down linking to ground stations or up linking to satellites are installed.[6]

In opposite to civil aircraft where it’s often an advantage when flying fast, the majority of surveillance and sensing missions require low mission speeds (e.g. from 80 to 100 KIAS). The minimum mission speed of the MMA is 64 KIAS.[7] Thus enables the aircraft to operate also in areas which have been reserved for helicopters so far (e.g. power line monitoring[8]).

The aircraft is powered by two ROTAX 912 engines of each 100 hp (75 kW) with overhaul times of 2000 hours. The water-cooled cylinder heads and the gearbox of the ROTAX engines make the aircraft to emit very low noise. Refueling with standard automotive gasoline (95-octane) and/or aviation gasoline (AVGAS 100 LL) in any blend enables keeping direct operating cost very low and to operate even in areas where AVGAS is not available or prohibitively expensive. The fuel consumption during sensing/surveying missions is 15 liters per hour per engine. This moderate fuel consumption and the low infrared emissions of the engines effect that infrared search heads cannot find the aircraft in typical operating altitudes. In conjunction with a non reflecting camouflage painting the basic conditions to be undetected for passive surveillance systems are fulfilled when operating for hours over same targets.[7]

These modifications and integrations of sensors up to 115 kg are certified on STC-base.

Worldwide distribution, maintenance and service are ensured by Tecnam’s dealer network, maintenance facilities and service centers.

Typical Surveillance Mission Configuration

385 kg Max Payload
- 170 kg Crew (Pilot + Operator each 85 kg)
- 21 kg Sensor Equipment (L3-MX10 or FLIR UltraForce 350)
- 16 kg Sensor Lift
- 18 kg Uplink System (SCOTTY Satcom Rack)
- 6 kg Downlink System (BMS)
- 10 kg Operator Workstation + Moving Map (EUROAVIONICS)
- 5 kg Tactical Communication HF-Radio
- 139 kg Fuel for 5 h

Source for typical surveillance mission configuration[9]

Specifications

General Characteristics

TECNAM MMA
Length 8.7 m
(28.5 ft)
Wingspan 11.4 m
(37.4 ft)
Height 2.85 m
(9.35 ft)
Empty weight 841.5 kg
(1,855.2 lbs)
Max take-off weight
MTOW		 1,180 kg
(2,601 lbs)
Fuel capacity 200 litres
(53 US gal)
Powerplant 2x Rotax 912S3
Propellers 2-bladed MT Propeller
(MTV-21)

Performance

TECNAM MMA
Max. cruise speed 145 KTAS
Cruise speed
(75%, 7.000 ft)		 140 KTAS
Cruise speed
(65%, 9.000 ft)		 135 KTAS
Stalling speed with flaps 53 KTAS
Min. mission speed 64 KIAS
Climb rate, s.l. 1.140 ft/min
Climb rate, s.l.
(single engine)		 230 ft/min
Service ceiling
(twin engine)		 15.000 ft
Max. ceiling
(single engine)		 6.600 ft
Take-off distance, s.l.
over 15 m (50 ft) obstacle		 390m
(1.250 ft)
Landing distance, s.l.
over 15 m (50 ft) obstacle		 330m
(1.050 ft)

Source: Aircraft Spec Sheet[7]

Applications

Established applications:[10]

Further applications are easy to accomplish due to the size and the flexibility of the aircraft cabin.

References

Notes

  1. ^ a b Official Company Website of Airborne Technologies in Austria
  2. ^ a b c Airborne Technologies (2009-10-20). "TECNAM MMA - a new star is born".
  3. ^ a b Tecnam Website "MMA".
  4. ^ Sundermeier, Bill (2010-04-08) "Smaller, lighter designs expand UAS sensor capabilities".
  5. ^ Airborne Technologies Website, Preferred Platforms "MMA".
  6. ^ a b Airborne Technologies (January 2011). "TECNAM MMA Features". http://www.airbornetechnologies.at/fileadmin/user_upload/brochures/20110131_TECNAM_MMA_Features.pdf. Retrieved 2011-03-17. 
  7. ^ a b c Airborne Technologies (January 2011). "TECNAM MMA Specifications". http://www.airbornetechnologies.at/fileadmin/user_upload/brochures/20110131_TECNAM_MMA_Specs.pdf. Retrieved 2011-03-17. 
  8. ^ Kadatskiy, Vladimir and Licari, Peter (2011 March) "Power Line Mapping with LiDAR"
  9. ^ Airborne Technologies (2010-07-15). Max. Take-off rate for TECNAM MMA increased.
  10. ^ Airborne Technologies (January 2011). "Airborne Special Services Brochure" Retrieved 2011-03-17.

External links

Aircraft produced by Costruzioni Aeronautiche Tecnam srl

P92 Eagle & Echo • P96 Golf • P2002 Sierra • P2004 Bravo • P2006T Very Light Twin • Tecnam MMA • Tecnam P2008 • Tecnam P2010 • Tecnam P2012