Telescopes and monoculars

Galilei 2.0 GF

Art. Nr. 1623
Galilei 2.0 GF
Galilei 2.0 GF
Galilei 2.0 GF

Product Benefits

  • Large visual field, ideal for fluent reading.
  • Also suitable for watching television.
  • Lightweight therefore very comfortable to use!
  • Particularly scratch-proof lens with high visual comfort.
  • Not affected by age-related shaking due to low system magnification and large visual field.

Product Properties

  • The Galilean systems Galilei 2.0 GF, Galilei 2.2x and Galilei 2.5x are mounted on the system carrier frame for use.
  • The Galilei systems are installed using the adapter system Item No. 1625
  • The Galilean system is set at infinity, reading caps are used for reading (see table).
  • Ocular and objective lenses have a high-quality, anti-reflection hard coating.
  • Diffractive aspheric PXM® lightweight lens, cera-tec® coated for a distortion-free image with edge-to-edge sharpness.

Product Accessories

Reading caps:

  • 162301 Reading cap ring for fitting lens with an individual power (not shown).
  • 16230 Frosted lens
  • 16233 Reading cap 3.0 dpt
  • 16234 Reading cap 4.0 dpt
  • 16235 Reading cap 5.0 dpt
  • 16236 Reading cap 6.0 dpt
  • 16238 Reading cap 8.0 dpt
  • 162310 Reading cap 10.0 dpt
  • 162312 Reading cap 12.0 dpt
  • Reading caps are easy to use: they can simply be flipped up out of the way without being removed.
  • The reading caps 3 dpt/ 4 dpt/ 5 dpt are also suitable for binocular use when used with the corresponding convergence adapter.

 

Fitting case

  • Item No. 1630
  • The contents of the fitting case will enable you to test most of the adjustments for close range and distance which this system allows.
  • Contents: 2 x 1623 with trial frame adapters,1 each of: 16230, 16233, 16234, 16235, 16236, 16238, 162310, 162312

 

Fitting instructions

  • Item No. 162510

Technical data

Working distance
Construction typeGalilei
Magnification distance2 x
Visual field distance /1000 m380 m

Materials

manual_Galilei-System.pdf256 KB

* The figures stated for visual field are average values. They will vary depending on the distance from the eye to the eyepiece.