SupIR 30-100 mm f/1.6 LWIR Manual Zoom and Focus XGA Imaging Lenses

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Overview

The SupIR 30-100mm f/1.6 manual focus and zoom LWIR imaging zoom lens has a 30 to 100 mm focal length with an f-number of 1.6. This continuous zoom lens is designed for 1024x768 XGA format uncooled LWIR cameras.

Advanced technologies for the highest performance long wave focal planes
LWIR High-durability and hard-carbon AR coatings for 8-12 µm
Passive athermalization with the highest imaging performance from -40 to +80°C
Optimized for 12 & 17 μm pixel pitch, 1024x768 XGA format LWIR cameras
Manual focus and manual 30-100 mm zoom range
Cost-effective solution for high-resolution thermal imaging and sensing

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Products

Compare	Model	Compatibility	rankScore	Coating Type	Avg.Trns.	Availability	Brand
680151-001 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD Contact Us	680151-001 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD	UNIVERSAL	1.0	High Durability	90%	Contact Us	Ophir
680151-002 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD Contact Us	680151-002 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD	UNIVERSAL	1.0	Hard Carbon	85%	Contact Us	Ophir
680151-003 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD Contact Us	680151-003 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD	UNIVERSAL	1.0	High Durability	90%	Contact Us	Ophir
680151-004 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD Contact Us	680151-004 SupIR 30-100mm f/1.6 LWIR Manual Continuous Zoom Lens, SupIR, 30-100 mm FL, f/1.6, HD	UNIVERSAL	1.0	Hard Carbon	85%	Contact Us	Ophir

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WFOV (30 mm)

	Format
Pitch	320x240	640x480	1024x768
17 µm	10.3°	20.8°	33.9°
12 µm	7.3°	14.6°	23.5°

NFOV (100 mm)

	Format
Pitch	320x240	640x480	1024x768
17 µm	3.1°	6.2°	9.8°
12 µm	2.2°	1.1°	7.0°

Specifications

Type

Continuous Zoom
Focal Length

30-100 mm
F/#

1.6
Spectral Range

8-12 μm
Back Focal Length

≥31.56 mm in air
HD Format

Yes
Minimum Focus Range

2 m

Nuc (by defocus)

Yes
Focus Mechanism

Manual
Zoom Mechanism

Manual
Operating Temperature Range

-40°C to +80°C
Storage Temperature Range

-54°C to +85°C
Sealing

IP 67 front element only
Wavelength Region

LWIR

Features

SupIR 30-100 mm f/1.6 Detection, Recognition & Identification (DRI) Range

DRI ranges enable one to easily estimate the maximum range that an object can be either detected, recognized or identified. It is important to note that these estimates are based solely on geometrical parameters – the target size, distance, lens focal length and camera detector pixel size. Signal level, detector sensitivity, atmospheric conditions and other factors are not considered!

The calculations used here are based on the “Johnson Criteria”. According to the Johnson Criteria, the minimum resolution, pixels on target, required to achieve a 50% probability for an observer to discriminate an object are:

Detection: An object is present – 2 pixels on target (Lower Bar)
Recognition: discern the type of object, a human vs. a vehicle – 8 pixels on target (Middle Bar)
Identification: discern specific objects, a man vs. a woman, a car model – 12.8 pixels on target (Upper Bar)

Your Long Range Distance Needs Met

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.