P
RODUCT INFORMATION
M I N O X B D 10
X
3 2 B R A S P H.
C
O N T R A S T A N D B R I L L I A N T C O L O U R R E N D I T I O N D U E T O
A
S P H E R I C
L
E N S
T
E C H N O L O G Y
The new BD 10x32 BR asph. With a 10x magnifi-
cation it combines the traditional MINOX values,
of maximum optical performance and precision
engineering in a compact design.
The application of aspherical lenses offers the
user high contrast and edge sharpness. Another
advantage the aspherical lens system provides,
is a brilliant colour rendition and detailed
images, as well as high light transmission. Bird
watchers and nature observers will appreciate
the fine details that can be recognised with
MINOX binoculars. The close focusing distance of
2 meters makes this new MINOX binocular parti-
cularly suitable for viewing insects and other
small creatures.
The special nitrogen filling of the MINOX
BD 10x32 BR asph. and the water-tightness of the
rubber armoured, aluminium body ensures the
binocular will not mist up internally under any
weather condition, guaranteeing perfect optical
performance. MINOX products are world famous
for their compact dimensions, and the new
MINOX BD 10x32 BR asph. offer the highest
optical quality in this compact format. The
MINOX BD 8x32 BR asph is supplied complete
with neoprene strap and a leather case.
T
ECHNCAL
D
ATA
Magnification
10 x
Front lens diameter
32 mm; 1.26 inch
Exit pupil
3,2 mm; 0.126 inch
Field of view
105 m / 1.000 m 6°
315 ft. / 1000 yds. 6°
Close distance
2 m; 6.56 ft.
Over run
4 dpt.
Diopter adjustment
± 2 dpt.
Twilight number
17,9
Geom. twilight number 10,2
Operating temperature -10°C up to + 45°C
14° up to 113° F
Dimensions
126 x 127 x 49 mm
(height, width, depth)
4.96 x 5 x 1.93 in.
Weight
630 g; 22.22 oz
Order number
62135
MINOX GmbH
Walter-Zapp-Str. 4
D - 35578 Wetzlar, Germany
Tel.: +49 (0) 6441 / 917-0
Fax: +49 (0) 6441 / 917-612
E-mail: [email protected]
www.minox.com
Design, features, supply and price are subject to change. Product information order number:
99248 (d)(e)
02/04/LX/F
Path of rays through a spherical lens.
Path of rays through an aspherical lens
– even the marginal rays are focused on a single focal point.
Path of rays through a spherical lens.
Path of rays through an aspherical lens
– the field of view is on one level.