Compare Model Drawings, CAD & Specs Availability Price
680020-009
SupIR 45/135mm f/1.1, f/1.6
LWIR M-FOV Motorized Lens, SupIR, 45/135 mm, f/1.1, F/1.6, Hard Carbon, Mounting Plate

WFOV (45 mm)

Format
Pitch 320x240 640x480 1024x768
17 µm 7.0° 14.3°
12 µm 4.9° 9.9° 16.3°

NFOV (135 mm)

Format
Pitch 320x240 640x480 1024x768
17 µm 2.3° 4.6°
12 µm 1.6° 3.3° 5.2°

Specifications

  • Type
    Multiple Field of View
  • Focal Length Requirement
    100 to 249 mm
  • Focal Length
    45 and 135 mm
  • F/#
    1.1 and 1.6
  • Spectral Range
    8-12 μm
  • Back Focal Length
    48.35 mm in air
  • Focus Mechanism
    Motorized
  • Focus Range
    10 m to infinity Wide, 50m to infinity Narrow
  • Focus Time
    <1 s
  • FOV Switch Mechanism
    Motorized
  • FOV Switch Time
    <2 s
  • Operating Temperature Range
    -40°C to +65°C
  • Storage Temperature Range
    -40°C to +71°C
  • Sealing
    IP 67 front element only
  • Drive Voltage
    12 V
  • Current Consumption
    0.7A average, 1.0A peak at T=-40°C
    0.6A average, 1.0A peak at T=20°C
  • Wavelength Region
    LWIR

Features

High Performance Long Wave Focal Plane

Using advanced technologies, top-quality materials and unique coating techniques, together with innovative engineering and opto-mechanical designs, we have earned a reputation for excellent performance, durability and quality.

High-durability and Hard-carbon AR Coatings

Our highly abrasion-resistant, anti-reflective advanced optical coatings include several types of Hard Carbon coatings which provide maximum durability, energy transmission & minimal reflection. Our innovative coating technologies include:

  • Physical Vapor Deposition (PVD) – Thermal heating and electron gun
  • Ion Assisted Deposition (IAD) – Ion gun
  • Plasma Enhanced Chemical Vapor Deposition (PECVD) for DLC coatings

Passive Athermalized Lens Assembly

Our IR imaging lens assemblies incorporate passive athermalization of the lenses and opto-mechanical system to maintain the highest imaging performance over the full operating temperature range. We use advanced materials that enable unique athermalization properties and optomechanical designs that effectively compensate for optical variations over a wide temperature range.

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