Designed by Siren SA, this side-by-side two-seater training sailplane of 18m span was originally known as the CERVA CE 75 Silene, the letters CERVA standing for Consortium Europeen de Realisation et de Ventes d’Avions, which was owned jointly by Siren SA and Wassmer-Aviation SA.

Construction is entirely of glassfibre/polyester/PMC sandwich, and the cantilever mid-set wings, of Bertin E55-166 aerofoil section, have 2° forward sweep at the quarter-chord line. The two-section ailerons have spring tabs and there are Schempp-Hirth air brakes above and below the wings. The fuselage is a semi-monocoque, and the two pilots’ semi-reclining seats are slightly staggered, the starboard seat being a little to the rear, so as to keep fuselage width to a minimum; oxygen systems can be installed if desired. The rear section of the two piece canopy is hinged to open to starboard, and is jettisonable. There is a low-set fixed-incidence tailplane with a spring tab in each elevator.

Design of the Silene, which was the first French two-seater of glassfibre construction, began on 1 January 1972 and construction of the prototype by CERVA began on 1 February 1973; this first flew at Argenton on 2 July 1974. The Silene was intended to be suitable for all stages of training from ab initio to cross-country flights, and Siren SA was responsible for marketing it; by early 1978 40 Silenes had been ordered and six of them flown. But following the bankruptcy of Wassmer-Aviation, which built the wings and was the co-partner in CERVA, the President of Siren formed Societe Issorie-Aviation late in 1977, taking its title from Wassmer’s Aerodrome d’lssoire works, to continue production of the Silene, now known as the Siren E 75, and the D 77 Iris. The first six Silenes had a retractable rubber-sprung monowheel but a non-retractable monowheel can if the customer desires also be fitted as optional, and a Siren hydraulic brake is optional; there is also a tailskid.

French certification of the type was granted on 3 February 1978 and planned output for 1978 was two per month, with Siren SA building the fuselages.

The E 78 Silene is a new variant featuring improved and roomier accommodation for the pilots, an enlarged cockpit canopy, lowered seats and a slight increase in available cockpit width; the E 78B is the same as the E 78 but with a fixed monowheel. This was followed by the 1 79 variant which has flaps and provision for water ballast, and was under development in 1979. The modified wings incorporate carbon-fibre componets, and the flaps, air brakes and monowheel are hydraulically actuated.

E 75 Silene
Span: 59 ft 0.5 in
Length: 26 ft 1 in
Height: 4 ft 11 in
Wing area: 193.8 sqft
Aspect ratio: 18.0
Empty weight: 805 lb
Max weight: 1,246 lb
Max speed: 124 mph (in smooth air)
Max aero-tow speed: 105 mph
Min sinking speed: 2.20 ft/sec at 56 mph
Best glide ratio: 38:1 at 59 mph

This high performance Standard Class single-seater was designed by Dr J. Cayla and features a V-tail and makes use of moulded plywood/Klegecel sandwich in its structure. The cantilever single-spar shoulder wings are foam-filled all-wood structures with only eight ribs, of sandwich construction, and are covered by a plywood/Klegecel sandwich skin 8mm thick; the down-turned wing tips are of reinforced plastics and the unslotted ailerons are all-metal. The air brakes in the upper and lower wing surfaces are interconnected with the hydraulic monowheel brake, and up to 110lb of ballast in the form of eight lead bars can be mounted in the wing roots so that the wing-loading can be varied; unlike the more conventional water ballast, this kind cannot be jettisoned. The fuselage is a moulded plywood/Klegecel sandwich structure made in two portions, with integral longerons and nose and tail cones made of laminated plastics. The V-tail consists of two identical all-moving surfaces, with an included angle of 90°, each with a trim tab; the leading edges are of wooden sandwich construction and the remainder is fabric-covered. There is a non-retractable monowheel with a hydraulic brake, and a castoring leaf-spring tailskid. The pilot sits in a semi-reclining seat under a long flush-fitting canopy hinged to starboard, and optional ‘extras’ that may be installed include a barograph, VHP radio, an oxygen system, artificial horizon, a Jaeger altimeter and a flight calculator.

The first of two Edelweiss prototypes made its maiden flight on 25 September 1962, and both prototypes took part in the 1963 World Championships at Junin in Argentina, finishing 2nd, flown by Jacki Lacheny of France, and 17th in the Standard Class contest.

The prototype differed from production aircraft, produced by Issoire, part of the goupe Siren, in having a slight forward wing sweep, longer span ailerons and air brakes and a longer fuselage nose. The first of an initial production batch of 15 was completed in January 1965, and one of these, piloted by Francois Henry, won the Standard Class section of the 1965 World Championships held at South Cerney, while another Edelweiss was placed 7th; two others of the type also finished 8th and 10th in the Open Class. The Edelweiss is no longer in production, but 50 had been delivered by 1 March 1968.

The Edelweiss IV was an Open Class version with a wing span increased to 17.5m (57ft 4.25in) and the length increased to 25ft 7in. The first of two prototypes of the Mk IV flew on 9 May 1968 but it did not go into production, and differed in some respects in structure from the earlier Edelweiss. The wings were built in two panels, with sandwich skins and pinch-webbed spars with spruce booms, and the fuselage was of completely moulded sandwich construction with built-in spruce longerons, and laminated plastic nose and tail cones. The monowheel was now retractable, and the wheel brake was also connected to operate with the air brakes.

C30S Edelweiss
Span: 15 m / 49 ft 2.5 in
Length: 7.5 m / 24 ft 7.25 in
Wing area: 12.08 sq.m / 133.9 sqft
Wing section: NACA 64 series
Aspect ratio: 18.0
Empty Weight: 256 kg / 565 lb
Gross Weight: 412 kg / 910 lb
Payload: 156 kg / 345 lb
Wing Load: 34.19kg/sq.m / 5.5lb/sq.ft
Water Ballast: 0
Max speed: 140 mph / 121 kt / 220 km/h (in smooth air)
Max aero-tow speed: 112 mph / 86 kt / 160 km/h
Stalling speed: 35 kt (65 km/h)
Min sinking speed: 2.1 ft/sec / 0.65 m/sec at 79 kph / 43kt / 50 mph
Best glide ratio: 36:1 at 59 mph / 51 kt / 95 km/h
L/DMax: 38 90 kph / 49 kt / 56 mph
Seats: 1
No. Built: 65

C34 Edelweiss IV
Length: 28.871 ft / 8.8 m
Wingspan: 57.415 ft / 17.5 m
Max take off weight: 1058.4 lb / 480.0 kg
Landing speed: 21 kts / 38 km/h
Cruising speed: 54 kts / 100 km/h
Glide ratio: 45.5
Crew: 1