When it comes to choosing a thermal imaging scope, there are a lot of factors to consider. But one of the most important is which brand to choose. In this article, we’ll be comparing two of the leading brands in the thermal imaging scope market: ATN Thor 4 and Pulsar Thermion 2.
Both scopes have their pros and cons, but which one is the better overall scope?
When it comes to high-end thermal imaging scopes, there are really only two choices worth considering – the ATN Thor 4 and the Pulsar Thermion 2. Both offer amazing features and performance, but which one is the better choice? Let’s take a look at each scope in turn to see how they compare.
The ATN Thor 4 is the latest and greatest thermal scope from ATN, and it doesn’t disappoint. It offers a huge 50mm objective lens for incredible light gathering, and its 12 micron sensor gives you outstanding image quality. It’s also packed with features like an onboard computer, WiFi connectivity, geotagging, and much more.
The only downside of the Thor 4 is its price tag – at around $6,000 it’s definitely not cheap. The Pulsar Thermion 2 is also an excellent thermal scope, and it comes in at a slightly lower price point than the Thor 4 (around $5,500). It has a smaller 42mm objective lens but still provides good light gathering ability.
Its 16 micron sensor gives you slightly less detail than the Thor 4’s 12 micron sensor, but it’s still very good. The Thermion 2 also has some great features like built-in recording capabilities, picture in picture mode, rangefinding reticle options, and more. So which scope should you choose?
If money is no object then the ATN Thor 4 is probably the better option thanks to its larger objective lens and higher quality sensor. However, if you’re on a budget then the Pulsar Thermion 2 is definitely worth considering – it offers many of the same features as the Thor 4 but at a significantly lower price point.
Pulsar vs ATN | Thermal Showdown
Pulsar Trail 2 Vs Atn Thor 4
Pulsar Trail 2 Vs Atn Thor 4: Which is better?
We compare the two night vision scopes to help you decide which one is best for you.
The Pulsar Trail 2 is a digital night vision scope that uses an infrared sensor to provide a clear image in low light conditions.
It has a magnification of 1x-5x and a detection range of up to 500 yards. The ATN Thor 4 is also a digital night vision scope, but it uses thermal imaging to provide a clear image in all lighting conditions, including complete darkness. It has a magnification of 1x-10x and a detection range of up to 1,000 yards.
So, which one is better? Well, it depends on what you need it for. If you need a night vision scope for hunting or observing wildlife in low light conditions, then the Pulsar Trail 2 would be the better option.
However, if you need a night vision scope that can be used in all lighting conditions, including complete darkness, then the ATN Thor 4 would be the better choice.
Can Atn Thor 4 Be Used in Daylight?
ATN ThOR 4 can be used in daylight, but there are a few things to keep in mind. First, the sensor on the ThOR 4 is not as sensitive as the human eye, so objects will appear darker than they would to the naked eye. Second, because the ThOR 4 uses an infrared laser to illuminate targets, bright sunlight can interfere with its operation.
Finally, because the ThOR 4 magnifies objects up to 50 times their actual size, heat waves can distort images and make it difficult to see clearly.
Are Atn Thor Scopes Any Good?
ATN ThOR scopes are a great option for those looking for a high quality, affordable scope. These scopes offer many features that make them ideal for a variety of different applications. For example, the ATN ThOR 4 640×480 30Hz Thermal Rifle Scope is a great choice for hunters as it provides clear images even in low light conditions.
Additionally, the scope is able to connect to a smartphone or tablet via Wi-Fi so that you can view and share your images and videos with others.
Is the Atn Thor 4 Waterproof?
The ATN ThOR 4 is a digital night vision scope that offers a lot of features for the hunter or shooter. One of the questions we get asked a lot about this scope is if it is waterproof. The answer to this question is yes, the ATN ThOR 4 is waterproof.
This scope has an IPX7 rating, which means it can be submerged in up to 1 meter of water for 30 minutes without any damage occurring. This makes it perfect for use in all kinds of weather conditions, whether you’re out hunting in the rain or dealing with dew on your lens in the morning. So, if you’re looking for a night vision scope that can stand up to whatever Mother Nature throws at it, then the ATN ThOR 4 should definitely be at the top of your list.
How Far Can You See With Atn Thor Lt?
ATN ThOR LT is a thermal imaging scope that can be used day or night. It has a 640×480 display resolution and can detect heat signatures up to 1,000 yards away.
In terms of long-range thermal imaging, two of the most popular options on the market are the ATN Thor 4 and Pulsar Thermion 2. Both offer excellent features and performance, but which one is the better option?
To help you make a decision, we’ve put together a comparison of the ATN Thor 4 vs Pulsar Thermion 2.
Let’s take a look at what each one has to offer: ATN Thor 4: The ATN Thor 4 is a high-end thermal imaging scope that offers a number of impressive features.
It has a resolution of 640x480px and can detect targets at up to 1800 yards away. Additionally, it comes with an integrated laser rangefinder, WiFi connectivity, and recoil activated video recording. It also has 8x digital zoom and a variety of reticle options.
perhaps most impressively, it offers up to 16 hours of battery life on a single charge. Pulsar Thermion 2: The Pulsar Thermion 2 is another excellent option for long-range thermal imaging.
It has a slightly higher resolution than the ATN Thor 4 (768x576px) and can detect targets at up to 2000 yards away. Additionally, it comes with 8x digital zoom, WiFi connectivity, recoil activated video recording, and various reticle options. One downside is that it only offers up to 8 hours of battery life on a single charge.