Ultimate Thermal Monocular or Binocular buying guide

Find the ultimate thermal monocular and binocular buying guide on the market.

Thermal Monocular and Binocular Purchasing Guide

When choosing a thermal monocular or thermal binocular, consider the following information. This guide is hear to provide you with the ultimate information source for being able to find the best thermal monocular or binocular for your needs.

Thermal Sensor Resolutions

160x192:

• Entry-Level Resolution: Suitable for basic detection at close ranges like sub 50-100m. This resolution provides enough detail for observing general shapes and heat signatures but lacks finer details, making it best for entry-level users or general navigation and scouting.
• Best For: Short-range observation, budget-friendly units, or applications where basic thermal detection is sufficient.

256x192:

• Enhanced Entry-Level: Offers improved detail over 160x192, providing slightly clearer images while remaining budget-friendly. This resolution is good for users who need to see more definition in heat sources at moderate distances like out to 250m without investing in high-end models.
• Best For: Short to mid-range detection, general wildlife observation, and surveillance.

384x288:

• Standard Resolution: A popular choice for general-purpose thermal imaging, this resolution provides a good balance of image clarity and price. It enables moderate detail, allowing users to identify objects more easily at greater distances compared to lower resolutions.
• Best For: Medium-range applications, hunting, wildlife tracking, and general outdoor use.

640x480:

• High Resolution: Provides sharp images and allows for better identification of details at longer ranges. The increased pixel count helps produce smoother, clearer images, ideal for more demanding applications.
• Best For: Medium to long-range detection, detailed observation for hunters or professionals, and applications requiring more precise imaging.

640x512:

• Enhanced High Resolution: Similar to 640x480 but with a slightly larger vertical field, providing a more complete thermal image with additional detail. This resolution is excellent for users needing accurate imaging across a wide field.
• Best For: Professional and recreational hunting, search and rescue, security, and wildlife observation.

1024x768:

• Ultra-High Resolution: This level of detail is ideal for users who require fine, precise thermal imaging. The larger pixel count significantly improves image clarity and range, making it suitable for users who need to identify small or distant heat sources.
• Best For: Long-range applications, precision observation, professional-grade thermal imaging in adverse conditions.

1280x1080:

• Professional-Grade Resolution: The highest resolution commonly available in thermal devices, offering exceptional detail, even at long distances. This resolution allows users to distinguish minute differences in temperature, making it ideal for critical applications where maximum clarity is essential.
• Best For: High end hunting and specialized professional use, search and rescue in challenging conditions and surveillance applications.

Pixel Pitch Overview: Why It Matters in Thermal Imaging

Pixel pitch refers to the distance between the centers of two adjacent pixels on a thermal sensor, also known as a microbolometer. Measured in microns (µm), pixel pitch directly impacts the level of detail and clarity in thermal images: the smaller the pixel pitch, the more detail a thermal device can capture.

Pixel pitch is crucial because it affects both the image quality and detection range. Smaller pixel pitches mean more pixels within a given sensor size, resulting in a denser image with finer details. Additionally, pixel pitch affects the fill factor—the proportion of the detector’s surface that actively captures thermal radiation. A higher fill factor improves image quality, as more of the sensor surface collects thermal data instead of empty spaces that need interpolation.

In simple terms, a smaller pixel pitch paired with a larger thermal sensor resolution (such as 640x512) yields a sharper, clearer image, which is especially useful in identifying distant or smaller targets.

Common Pixel Pitches: 17µm vs. 12µm

1. 17µm Pixel Pitch:

• Overview: 17µm is one of the standard pixel pitches in many thermal imaging devices. It offers a good balance between image detail and production cost, making it a popular choice in mid-range thermal units.
• Performance: Devices with a 17µm pixel pitch provide clear thermal imaging suitable for moderate to long-range applications. However, they may lack the level of detail seen in units with a smaller pixel pitch.
• Best For: General hunting, observation, and applications where standard image clarity is sufficient without the need for extreme detail.

1. 12µm Pixel Pitch:

• Overview: A smaller 12µm pixel pitch represents the latest advancement in thermal sensor technology, allowing for higher image resolution and detail within the same sensor size.
• Performance: With a 12µm pitch, users benefit from a denser pixel arrangement, translating to improved image quality, especially at longer distances. The smaller pixel size enhances both target recognition and clarity, making it ideal for demanding applications.
• Best For: Professional hunting, long-range surveillance, and situations requiring precision and enhanced detail, especially in adverse weather or low-contrast conditions.

In Practice: For example, a thermal device with a 640x512 resolution paired with a 12µm pixel pitch will produce a more detailed image than the same resolution with a 17µm pixel pitch. This technology is seen in high-end devices like the HIKMICRO Habrok HX60L, which offers an advanced 1280x1080 sensor with a 12µm pixel pitch, currently one of the highest clarity setups on the market.

This understanding of pixel pitch can help users choose a device that aligns with their clarity and range requirements, enhancing their overall experience with thermal imaging technology.

NETD (Noise Equivalent Temperature Difference) Overview

NETD is measured in millikelvin (mK) and indicates a thermal imager's sensitivity to temperature differences. Lower NETD values (e.g., <20mK) represent higher sensitivity, meaning the device can detect smaller temperature variations. A low NETD is essential for creating a clear, detailed thermal image, especially in challenging conditions like fog or rain. NETD is particularly valuable for identifying subtle contrasts when the target’s temperature closely matches the surrounding environment.

Since 2020, NETD has gained traction as a critical specification in thermal devices. A lower NETD allows for better performance in low-contrast scenarios and adverse weather, making it essential for professionals and avid hunters.

NETD Ratings Explained

<15mK:

• Exceptional Sensitivity: This ultra-low NETD rating allows for the highest degree of detail and contrast in thermal imaging. It’s ideal for spotting subtle temperature differences and excels in challenging weather conditions.
• Best For: Professional-grade thermal devices used in fog, rain, and other adverse weather; high-end hunting and search-and-rescue applications.

<18mK:

• Superior Sensitivity: Near the top tier for NETD ratings, <18mK offers highly sensitive imaging for detecting slight temperature variations, producing a clear, detailed picture even in low-contrast scenarios.
• Best For: Demanding users in low-visibility conditions, professional hunting, and security applications.

<20mK:

• Excellent Sensitivity: This rating provides a very detailed image, capable of distinguishing small temperature differences between objects. It performs well in low-contrast environments, making it a versatile choice for serious users.
• Best For: High-quality thermal devices for long-range hunting, surveillance, and wildlife observation in variable weather.

<25mK:

• High Sensitivity: With this rating, a thermal device can pick up moderate temperature differences, offering clarity in most conditions but less so in extreme low contrast.
• Best For: General hunting, wildlife tracking, and outdoor exploration; good performance in most weather but less effective in dense fog or heavy rain.

<30mK:

• Moderate Sensitivity: Provides a reliable image in normal weather conditions, but some finer details may be lost in adverse conditions. A good mid-range option for users needing versatility without premium sensitivity.
• Best For: Recreational hunting, scouting, and general thermal imaging in clear to moderate weather.

<35mK:

• • Good Sensitivity: This level of sensitivity allows for reliable thermal imaging across a wide range of conditions. While it may not capture the finest details in very low-contrast environments, <35mK still performs well for general thermal imaging needs.
  • Best For: Versatile hunting, wildlife observation, and general-purpose thermal imaging. Effective for most weather conditions, though it may show minor limitations in extreme weather.

<40mK:

• Solid Sensitivity: While slightly less sensitive than lower NETD values, <40mK still provides clear imaging and is capable of distinguishing temperature differences in many typical environments. It is a popular choice for mid-range thermal devices due to its dependable performance.
• Best For: Reliable imaging for recreational hunting, scouting, and general outdoor use, especially in fair to moderate weather.

<50mK:

• Low Sensitivity: Provides basic thermal imaging, primarily suitable for fair-weather use or close-range observation. Low performance in adverse conditions.
• Best For: Entry-level users or applications where thermal detail is less critical.

<60mK:

• Very Low Sensitivity: This rating provides the minimum thermal sensitivity, making it less effective in low-contrast or challenging weather conditions. This option is uncommon in modern, high-performance devices.
• Best For: Basic detection only, suitable for clear environments with straightforward requirements.

Practical Example

Devices like the HIKMICRO Habrok and PULSAR Telos series stand out with NETD values as low of 15mK and 18mK maximizing their usability in adverse weather. With high sensitivity and affordable pricing, they’re a top choice for users seeking excellent clarity without overspending.

This detailed guide should help users select the NETD value best suited to their conditions and requirements, ensuring they find a thermal device that performs effectively in their intended environments.

There are other areas what users should consider when purchasing a Thermal Monocular and Thermal Binocular. Here are some more specifications and features that are worth thinking about before purchasing.

Objective Aperture (F Number):

A lower F number, like F1.0, means a better thermal detection ability, making the image clearer in all conditions.

For example, F1.0 is better than F1.2, as it lets more heat information through to the sensor which then in turn produces a sharper thermal image.

Focal Length:

The distance of the lens to the sensor is the focal length (e.g., 35mm, 50mm) this affects the field of view (FOV) and detection range. Larger focal lengths (e.g., 50mm) generally offer a narrower FOV but longer detection distances, while smaller focal lengths (e.g., 25mm) provide a wider FOV for closer, broader area detection. Larger focal length sizes will increase the magnification of the devices depending on what thermal sensor it is paired with. 

For example : A 50mm 384x288 thermal will have a higher base magnification then a 384x288 in 35mm. However a 50mm 640x512 thermal will potentially have a lower base magnification then a 384x288 35mm. Ultimately a higher resolution sensor will always have a lower base magnification then its lower resolution counterpart. 

Laser Rangefinder (LRF) Capability:

LRF: Units with LRFs offer precise distance measurement, helpful for spotting and tracking at known distances. This is ideal for hunting, search and rescue, and military use.

NON LRF: Units without LRFs are typically more compact and less expensive, focusing solely on thermal imaging.

Price Range:

Price varies by specification and brand, generally aligning with the unit’s capabilities. Higher-resolution sensors, lower NETD, larger lenses, and LRF capabilities increase the price.

Manufacturers image algorithms , firmware’s and processing systems :

When evaluating thermal devices, it’s essential to consider that a manufacturer’s image algorithms, processing systems, and firmware significantly impact performance. These elements are responsible for how the thermal sensor data is processed and displayed, affecting the sharpness, contrast, and clarity of the final image. Advanced image algorithms can enhance detail in low-contrast environments, refine temperature differentiation, and minimize noise, producing a clearer and more accurate thermal image. Similarly, firmware updates can introduce improvements to processing efficiency, extend battery life, and even add new features over time. Therefore, two devices with identical hardware specifications might perform differently depending on each manufacturer’s proprietary image processing approach and optimization strategies. For the best results, it’s beneficial to select a thermal device from a manufacturer with a strong reputation for effective image processing and regular firmware updates.

Display types

When comparing thermal imaging devices, the internal display technology plays a key role in user experience and image quality. The type, size, and design of the display affect how clearly and comfortably you can view thermal images. Manufacturers typically use either AMOLED (Active Matrix Organic Light Emitting Diode) or OLED (Organic Light Emitting Diode) displays, and occasionally micro-displays in compact devices.

1. Display Type (AMOLED and OLED):
   • AMOLED and OLED displays offer vibrant, high-contrast images with deep blacks and bright colors, which can be crucial for thermal imaging where contrast is important for detecting heat differences. Both display types are self-emissive, meaning each pixel generates its own light rather than relying on a backlight, which helps conserve power and extend battery life, especially when displaying darker images.
   • AMOLED displays typically provide faster refresh rates and better performance in bright conditions, making them especially suited for high-end devices.
2. Micro-Displays:
   • Micro-displays are often used in smaller thermal monoculars, goggles, and certain riflescopes to achieve compact form factors. These displays can still offer high resolutions in a small package, though their compact size can limit field of view. They are lightweight and efficient, making them ideal for applications where size and weight are key considerations.
3. Display Shape and Size:
   • Some devices, particularly thermal riflescopes, use circular displays to mimic a traditional scopes FOV style, providing a more intuitive and user-friendly experience for hunters and shooters.
   • The size of the display also matters for image clarity and user comfort. Larger displays can reduce eye strain and make it easier to view details in the thermal image, which can be crucial during prolonged use or in challenging viewing conditions.

Heads up Display and Menu Systems Layout

The Heads-Up Display (HUD) and menu system layout are essential parts of the user experience in thermal monoculars and binoculars, and these aspects can vary significantly between manufacturers. The design, intuitiveness, and ease of use of these interfaces often come down to each manufacturer's approach, experience, and understanding of their users’ needs. Established manufacturers who have been operating longer in the thermal imaging field tend to have more refined HUDs and menu layouts, as they've had time to learn from customer feedback and iteratively improve their interfaces.

1. HUD Layout:
   • A well-designed HUD offers quick access to critical information like battery life, zoom level, range, temperature, and mode, without cluttering the view or obstructing the thermal image. Some advanced HUDs even adapt based on the mode or environment, displaying relevant details to optimize the user experience. Experienced manufacturers often design HUDs that are clean, intuitive, and less distracting, allowing users to focus on their target without excessive on-screen elements.
2. Menu System:
   • An efficient menu system is crucial for navigating settings, switching modes, adjusting brightness, and accessing other features. Manufacturers with more experience often incorporate shortcut buttons, intuitive scroll options, and organized sub-menus to allow users to navigate quickly and efficiently. These systems may include context-sensitive help or icons, guiding users with minimal effort.
   • Many experienced manufacturers provide preset options for different use cases (e.g., hunting, surveillance, or search and rescue) so users can quickly select an optimal setup without adjusting each setting individually.
3. User-Friendly Design:
   • Long-established manufacturers often prioritize user feedback and field testing, resulting in interfaces that feel intuitive even to beginners, with straightforward menu labels, organized layouts, and quick-access settings. They may also offer customizable HUD and menu settings, allowing advanced users to tailor the interface to their specific needs.
   • Additionally, some brands have developed specialized HUD and menu designs for different applications. For example, military-grade devices may focus on minimal, low-light interfaces, while hunting models may have quick toggles for rangefinder functions and zoom adjustments.

In short, manufacturers with more experience in the thermal imaging market typically have an edge in refining HUDs and menu systems, leading to a more seamless, user-friendly experience. This refinement often makes a significant difference, especially in high-pressure situations where ease of access and quick decision-making are critical.

Example Use Cases

Entry-Level Use: Short-Range Observation and Navigation up to 150m

• Minimum Suggested Specs: Resolution of 256x192, 17µm pixel pitch, NETD <35mK
• Best For: General scouting, navigation, and basic detection at close range. Ideal for users needing simple thermal detection without high-end clarity or long-distance capabilities.
• Example Device: Budget-friendly monocular with 256x192 resolution and 12µm pixel pitch for quick thermal scans of nearby areas.

Wildlife Observation and General Mid Range Hunting

• Minimum Suggested Specs: Resolution of 384x288, 17µm or 12µm pixel pitch, NETD <30mK
• Best For: Observing wildlife in moderate distances or hunting in varied environments. The resolution and NETD allow for clear images in moderate weather conditions, and the device provides good balance between performance and affordability.
• Example Device: A thermal monocular with 384x288 resolution with 25mk or below or a 640x480 and <40mK NETD or below, providing a good field of view and clarity at mid-range.

Professional Hunting and Search & Rescue in Challenging Conditions

• Suggested Specs: Resolution of 640x480 or 640x512 or higher, 12µm pixel pitch, NETD <25mk or <20mK or less.
• Best For: High-detail imaging for hunters, rescuers, or security professionals working in low-contrast or adverse weather. These devices offer enhanced sensitivity and precision, crucial for long-range and detail-intensive applications.
• Example Device: High-resolution thermal binocular or monocular with 640x512 sensor, 12µm pixel pitch, and <20mK NETD for clear, detailed imaging in low-visibility conditions.

Long-Range Precision, Professional hunter and Surveillance

• Suggested Specs: Resolution of 1024x768 or 1280x1080, 12µm pixel pitch, NETD <15mK, LRF capability
• Best For: Users requiring the finest details and extended detection ranges, such as high-end hunters, military, or surveillance teams. With high resolutions, low NETD, and LRF, these devices offer unmatched clarity and precision.
• Example Device: A professional-grade thermal device with 1280x1080 resolution, 12µm pixel pitch, and built-in LRF, suitable for critical surveillance and search operations in difficult conditions.

 

Thermal Imaging Devices by Resolution

The following options are presented without a particular ranking or preference.

160x192 Resolution: Entry-Level Resolution

• Description: Suitable for basic detection at close ranges (50-100m), providing general shapes and heat signatures. Ideal for entry-level users or basic navigation.
• Best For: Short-range observation, budget-friendly applications.
• Products:
  • HIKMICRO Lynx S 6mm Thermal Imager Monocular
    • Price: £369.99 | Focal Length: 6mm | NETD: 35mk | Sensor: 160x192 | SKU: HM-LC06S
    • LRF: Non-LRF

256x192 Resolution: Enhanced Entry-Level

• Description: Improved clarity over 160x192, with images suitable for moderate detection (up to 250m).
• Best For: Short to mid-range detection, wildlife observation, and surveillance.
• Products:
  • HIKMICRO Lynx S 10mm Thermal Imager Monocular
    • Price: £549.99 | Focal Length: 10mm | NETD: 35mk | Sensor: 256x192 | SKU: HM-LE10S
    • LRF: Non-LRF
  • NocPix Lumi P13 Thermal Monocular Thermal Imager Monocular
    • Price: £539.00 | Focal Length: 13mm | NETD: 20mk | Sensor: 256x192 | SKU: NPMON-LUMI-P13
    • LRF: Non-LRF
  • HIKMICRO Habrok 4K 256px Multi-Spectrum Thermal Binocular
    • Price: £1,199.95 | Focal Length: 256px (with 4K optics) | NETD: 35mk | Sensor: 256x192
    • LRF: Non-LRF

 

384x288 Resolution: Standard Resolution

• Description: Offers a balance of image clarity and cost, suitable for mid-range observation and detailed object identification.
• Best For: Medium-range use, hunting, wildlife tracking, outdoor applications.
• Products:
  • Pulsar AXION 2 XQ35 PRO Thermal Imager Monocular
    • Price: £1,639.95 | Focal Length: 35mm | NETD: 25mk | Sensor: 384x288 | SKU: PUL-77501
    • LRF: Non-LRF
  • Pulsar AXION 2 LRF XQ35 PRO Thermal Imager Monocular
    • Price: £1,699.99 | Focal Length: 35mm | NETD: 25mk | Sensor: 384x288 | SKU: PUL-77502
    • LRF: LRF
  • HIKMICRO LYNX 2.0 Series Thermal Imager Monocular
    • 15mm: £889.99, SKU: HM-LH152.0
    • 19mm: £999.99, SKU: HM-LH192.0
    • 25mm: £1,149.99, SKU: HM-LH252.0
    • NETD: 20mk | LRF: Non-LRF
  • HIKMICRO Falcon Series Thermal Imager Monocular
    • 25mm: £1,399.99, SKU: HM-FH25
    • 35mm: £1,499.99, SKU: HM-FH35
    • NETD: 20mk | LRF: Non-LRF
  • Pulsar TELOS Series Thermal Imager Monocular
    • XQ35: £1,789.95, SKU: PUL-77511
    • LRF XQ35: £1,839.95, SKU: PUL-77512
    • NETD: 25mk | LRF: Non-LRF, LRF
  • Pulsar MERGER LRF XQ35 Thermal Binocular
    • Price: £2,649.95 | Focal Length: 35mm | NETD: 25mk | Sensor: 384x288 | SKU: PUL-77483
    • LRF: LRF
  • HIKMICRO Condor LRF Series Thermal Imager Monocular
    • 25mm: £1,499.99, SKU: HM-CH25L
    • 35mm: £1,699.99, SKU: HM-CH35L
    • NETD: 20mk | LRF: LRF
  • NocPix Lumi L Series Thermal Imager Monocular
    • L19: £899.00, SKU: NPMON-LUMI-L19
    • L35: £1,269.00, SKU: NPMON-LUMI-L35
    • NETD: 18mk | LRF: Non-LRF
  • HIKMICRO Habrok 35mm Multi-spectrum Thermal Binocular
    • Price: £2,199.99 | Focal Length: 35mm | NETD: 20mk | Sensor: 384x288 | SKU: HM-HH35L
    • LRF: Non-LRF

 

640x480 Resolution: High Resolution

• Description: Sharp images with improved detail, suitable for long-range detection and professional use.
• Best For: Medium to long-range detection, detailed observation.
• Products:
  • Pulsar AXION XG Series Thermal Imager Monocular
    • XG30 Compact: £1,399.95, 30mm, NETD: 40mk, SKU: PUL-77508
    • XG35 Compact: £1,579.95, 35mm, NETD: 40mk, SKU: PUL-77509
  • Pulsar AXION 2 XG35 Thermal Imager Monocular
    • Price: £2,339.95 | Focal Length: 35mm | NETD: 40mk | Sensor: 640x480 | SKU: PUL-77476
    • LRF: Non-LRF
  • Pulsar AXION 2 LRF XG35 Thermal Imager Monocular
    • Price: £2,629.95 | Focal Length: 35mm | NETD: 40mk | Sensor: 640x480 | SKU: PUL-77477
    • LRF: LRF
  • Pulsar TELOS Series Thermal Imager Monocular
    • XG50: £2,329.95 | Focal Length: 50mm | NETD: 40mk | SKU: PUL-77513
    • LRF XG50: £2,599.95 | SKU: PUL-77514
    • XP50: £2,689.95 | NETD: 18mk, SKU: PUL-77493
    • LRF XP50: £2,949.95 | SKU: PUL-77492
  • Pulsar MERGER LRF XP35 Thermal Binoculars
    • Price: £2,979.95 | Focal Length: 35mm | NETD: 25mk | Sensor: 640x480 | SKU: PUL-77484
    • LRF: LRF
  • Pulsar MERGER DUO NXP50 Multi-Spectral Thermal 4k Binocular
    • Price: £4,279.95 | Focal Length: 50mm | NETD: 25mk | Sensor: 640x480 | SKU: PUL-77455
    • LRF: LRF

640x512 Resolution: High Resolution

• Description: Provides a slightly larger vertical field than 640x480, delivering accurate imaging across a wide field with enhanced detail.
• Best For: Professional hunting, search and rescue, security, and wildlife observation.
• Products:
  • HIKMICRO Falcon 25mm 640px Thermal Imager Monocular
    • Price: £1,699.99 | Focal Length: 25mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-FQ25
    • LRF: Non-LRF
  • HIKMICRO Falcon Pro 35mm 640px Thermal Imager Monocular
    • Price: £1,799.99 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-FQ35
    • LRF: Non-LRF
  • HIKMICRO Falcon Pro 50mm 640px Thermal Imager Monocular
    • Price: £1,999.99 | Focal Length: 50mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-FQ50
    • LRF: Non-LRF
  • HIKMICRO Condor Pro LRF 35mm 640px Thermal Imager Monocular
    • Price: £1,899.99 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-CQ35L
    • LRF: LRF
  • HIKMICRO Condor Pro LRF 50mm 640px Thermal Imager Monocular
    • Price: £2,199.99 | Focal Length: 50mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-CQ50L
    • LRF: LRF
  • NocPix Vista H35 Thermal Monocular Thermal Imager Monocular
    • Price: £1,899.00 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 15mk | SKU: NPMON-VISTA-H35
    • LRF: Non-LRF
  • NocPix Vista H35R Thermal Monocular with LRF Thermal Imager Monocular
    • Price: £2,199.00 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 15mk | SKU: NPMON-VISTA-H35R
    • LRF: LRF
  • NocPix Lumi H35 Thermal Imager Monocular
    • Price: £1,699.00 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 18mk | SKU: NPMON-LUMI-H35
    • LRF: Non-LRF
  • NocPix Vista H50 Thermal Imager Monocular
    • Price: £2,399.00 | Focal Length: 50mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 15mk | SKU: NPMON-VISTA-H50
    • LRF: Non-LRF
  • NocPix Vista H50R Thermal Imager Monocular
    • Price: £2,599.00 | Focal Length: 50mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 15mk | SKU: NPMON-VISTA-H50R
    • LRF: LRF
  • HIKMICRO Habrok HQ35 LRF Multi-Spectrum Thermal Binoculars
    • Price: £2,799.99 | Focal Length: 35mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-HQ35L
    • LRF: LRF
  • HIKMICRO Habrok HQ50 LRF Multi-Spectrum Thermal Binoculars
    • Price: £3,199.99 | Focal Length: 50mm | Sensor: 640x512 | Pixel Pitch: 12um | NETD: 20mk | SKU: HM-HQ50L
    • LRF: LRF

 

1024x768 Resolution: Ultra-High Resolution

• Description: Ideal for users who require fine, precise thermal imaging, with significantly improved image clarity and range.
• Best For: Long-range applications, professional-grade observation, and precision imaging.
• Products:
  • Pulsar TELOS XL50 Thermal Imager Monocular
    • Price: £3,689.95 | Focal Length: 50mm | Sensor: 1024x768 | Pixel Pitch: 12um | NETD: 40mk | SKU: PUL-77516
    • LRF: Non-LRF
  • Pulsar TELOS LRF XL50 Thermal Imager Monocular
    • Price: £3,969.95 | Focal Length: 50mm | Sensor: 1024x768 | Pixel Pitch: 12um | NETD: 40mk | SKU: PUL-77515
    • LRF: LRF
  • Pulsar MERGER LRF XL50 Thermal Binoculars
    • Price: £5,329.95 | Focal Length: 50mm | Sensor: 1024x768 | Pixel Pitch: 12um | NETD: 40mk | SKU: PUL-77481
    • LRF: LRF

 

1280x1024 Resolution: Professional-Grade Resolution

• Description: The highest available resolution, offering exceptional detail even at long distances.
• Best For: High-end hunting, specialized professional use, and applications in challenging conditions.
• Products:
  • Pulsar MERGER LRF XT50 Thermal Binoculars
    • Price: £5,589.95 | Focal Length: 50mm | Sensor: 1280x1024 | Pixel Pitch: 12um | NETD: 40mk | SKU: PUL-77486
    • LRF: LRF
  • HIKMICRO Habrok 60mm 1280px Multi-spectrum Thermal Binocular with 4K Optical & LRF
    • Price: £4,799.99 | Focal Length: 60mm | Sensor: 1280x1024 | Pixel Pitch: 12um | NETD: 18mk | SKU: HM-HX60LPRO
    • LRF: LRF

This guide provides a foundation for selecting a thermal monocular or binocular that aligns with specific needs, whether for basic observation or advanced professional use. If you are still struggling to find out what Thermal monocular or Thermal binocular to purchase please drop us an email on support@opticswarehouse.co.uk or phone us on 01803 611895.

PLEASE NOTE : Prices do change quickly with some brands so feel free to get in touch for best pricing.

** Prices accurate at date of publishing, 06/11/24**