Advanced Combat Optical Gunsight

Last updated
TA31RCO variant of the ACOG which is designated as the M150 RCO in United States Army service PEO Trijicon M150 RCO.jpg
TA31RCO variant of the ACOG which is designated as the M150 RCO in United States Army service

The Advanced Combat Optical Gunsight (ACOG) is a series of prismatic telescopic sights manufactured by Trijicon. The ACOG was originally designed to be used on the M16 rifle and M4 carbine, but Trijicon has also developed ACOG accessories for other firearms. Models provide fixed-power magnification levels from 1.25× to 6×. [1] ACOG reticles are illuminated at night by an internal tritium phosphor. Some versions have an additional daytime reticle illumination via a passive external fiberoptic light pipe or are LED-illuminated using a dry battery. The first ACOG model, known as the TA01, was released in 1987. [2]

Contents

Down-range ACOG sight picture USMC-08814.jpg
Down-range ACOG sight picture

History

The first ACOG model, known as the TA01, was released in 1987. [3] [4] In 1995, United States Special Operations Command selected the 4×32 TA01 as the official scope for the M4 carbine and purchased 12,000 units from Trijicon. [5] Between 2004 and 2005, the ACOG was selected as the official Rifle Combat Optic of the United States Marine Corps, prompting Trijicon to produce 100,000 units for the US Marines in the following 18 months. [5]

Design

The ACOG is available in a variety of configurations from the manufacturer with different reticles, illumination, and other features. Most ACOGs do not use batteries for reticle illumination, [6] being designed to use internal phosphor illumination provided by the radioactive decay of tritium. The tritium illumination has a usable life of 10–15 years. [7] Some versions of the ACOG have an additional daytime reticle illumination via a passive external fiber optic light pipe. Normally this allows the brightness of the reticle to match the field of view since it collects ambient light from around the sight, although this can lead to a mismatch in lighting - such as sunlight hitting the light pipe directly, or standing in a shadow - causing the reticle to be much brighter or darker than the target. [8] Reticles have other features such as a bullet drop compensator and other different reticle shapes such as chevrons.

Some ACOG models incorporate rudimentary ghost ring iron sights as a backup for targets that are within 50 m (55 yd). Most ACOG models, when mounted to a carry handle, have an open space through the mount to allow the use of the rifle's iron sights without removing the scope.[ citation needed ] Others include Docter or Trijicon [9] reflex sights mounted on top. [10] The ACOG ECOS line features both of these secondary sighting systems on the same scope.

Other features include Picatinny rails, [11] flip caps, and the ability to be waterproof up to 11 m (36 ft). [12]

Although the ACOG is designed for the Picatinny rail of the M16A4 and M4, it can be mounted on the carrying handles of previous models by using a special adapter. [13] Trijicon later produced ACOG mounts and adapters for weapons besides the M16, including the Beretta AR70/90 series; SIG SG 550, Heckler & Koch HK416, Bushmaster ACR, Enfield L85A2, and FN SCAR weapon systems; and the Steyr AUG.[ citation needed ]

Bindon aiming concept

Several ACOG models are designed to be used with the "Bindon Aiming Concept", an aiming technique developed by Trijicon founder and optical designer Glyn Bindon. The technique is essentially using the illuminated part of the reticle and its focusing rear eyepiece as a collimator sight. [14] As in any other collimator sight, the user does not actually look through the sight but instead keeps the collimated (infinity) image of the illuminated part of the reticle in focus with the dominant eye while the other eye views the entire field of view to acquire the target. In this both-eyes-open technique the brain superimposes the aiming reticle on the target. An added part of the technique is to shift focus after acquisition to the dominant eye/telescopic image for more accurate shooting. This overcomes the problem of centering or acquiring fast traversing targets common with all telescopic sights. Only certain models of the ACOG are designed with bright enough daylight-lit fiber optic or battery-powered LED reticles that facilitate this technique.

Controversy

Trijicon has been the subject of some criticism for inscribing references to Bible verses (e.g. JN8:12, referring to John 8:12, "I am the Light of the World") alongside the model numbers on their ACOG sights. Starting in late 2009, Trijicon began shipping sights to the U.S. military without Bible verses. [15]

Users

See also

Related Research Articles

<span class="mw-page-title-main">Reticle</span> Aim markings in optical devices, e.g. crosshairs

A reticle, or reticule also known as a graticule, is a pattern of fine lines or markings built into the eyepiece of an optical device such as a telescopic sight, spotting scope, theodolite, optical microscope or the screen of an oscilloscope, to provide measurement references during visual inspections. Today, engraved lines or embedded fibers may be replaced by a digital image superimposed on a screen or eyepiece. Both terms may be used to describe any set of patterns used for aiding visual measurements and calibrations, but in modern use reticle is most commonly used for weapon sights, while graticule is more widely used for non-weapon measuring instruments such as oscilloscope display, astronomic telescopes, microscopes and slides, surveying instruments and other similar devices.

<span class="mw-page-title-main">Telescopic sight</span> Sighting device for firearms

A telescopic sight, commonly called a scope informally, is an optical sighting device based on a refracting telescope. It is equipped with some form of a referencing pattern – known as a reticle – mounted in a focally appropriate position in its optical system to provide an accurate point of aim. Telescopic sights are used with all types of systems that require magnification in addition to reliable visual aiming, as opposed to non-magnifying iron sights, reflector (reflex) sights, holographic sights or laser sights, and are most commonly found on long-barrel firearms, particularly rifles, usually via a scope mount. The optical components may be combined with optoelectronics to add night vision or smart device features.

<span class="mw-page-title-main">Squad Advanced Marksman Rifle</span> Designated marksman rifle

The Squad Advanced Marksman Rifle (SAM-R) is a semi-automatic designated marksman rifle developed and used by the United States Marine Corps. It gave users the capability to provide fire in support of a rifle squad, providing precision fire in support of an assault, and aid in observation and adjusting of supporting arms.

<span class="mw-page-title-main">SUSAT</span>

The Sight Unit Small Arms, Trilux, or SUSAT, is a 4× telescopic sight, with tritium-powered illumination utilised at dusk or dawn. The full name of the current model is the SUSAT L9A1. The sight is not designed as a sniper sight, but is rather intended to be mounted on a variety of rifles and to be used by all infantrymen. A similar device is the Advanced Combat Optical Gunsight (ACOG).

<span class="mw-page-title-main">Squad Designated Marksman Rifle</span> Designated marksman rifle

The United States Army Squad Designated Marksman Rifle (SDM-R) is an American designated marksman rifle used by the United States Army. It is essentially a heavily-modified M16 rifle designed to provide U.S. Army designated marksmen greater accuracy and firepower at longer ranges, increasing an infantry squad's effective range to up to 600 meters.

<span class="mw-page-title-main">Designated marksman rifle</span> Scoped high-precision rifles used by infantry

A designated marksman rifle (DMR) is a modern scoped high-precision rifle used by infantry in the designated marksman (DM) role. It generally fills the engagement range gap between a service rifle and a dedicated sniper rifle, at around 300–600 metres (330–660 yd).

<span class="mw-page-title-main">Trijicon</span>

Trijicon, Inc. is an American manufacturing company based in Wixom, Michigan that designs and distributes sighting devices for firearms including pistols, rifles and shotguns. Trijicon specializes in self-luminous optics and night sights, mainly using the low-energy tritium illumination, light-gathering fiber optics and battery-powered LED.

The Special Operations Peculiar MODification (SOPMOD) kit is an accessory system for the M4A1 carbine, CQBR, FN SCAR Mk 16/17, HK416 and other weapons used by United States Special Operations Command (USSOCOM) special forces units, though it is not specific to SOCOM. The kit allows US Special Operations Forces personnel to configure their weapons to individual preferences and different mission requirements.

<span class="mw-page-title-main">C79 optical sight</span>

The C79 Optical sight is a small arms telescopic sight. Elcan names it as the SpecterOS3.4x, but in Canadian service, it is typically referred to as the C79 or the C79A2. A variant, the M145 Machine Gun Optic is in use by the US military. It is 3.4×28, meaning 3.4x magnification, and a 28mm diameter objective lens. A tritium illuminated reticle provides for normal and low-light conditions sighting. It can be mounted to a variety of rifles and light machine guns using the M1913 Picatinny rail mounting system or the similar "Diemaco" rail system found on small arms produced by Diemaco/Colt Canada. It is manufactured by Elcan and can be found on military service weapons around the world. Similar rifle sights are the Sight Unit Small Arms, Trilux (SUSAT) and the Advanced Combat Optical Gunsight (ACOG).

<span class="mw-page-title-main">PSO-1</span> Russian telescopic sight

The PSO-1 is a 4×24 telescopic sight manufactured in Russia by the Novosibirsk instrument-making factory and issued with the Russian military Dragunov sniper rifle. It was introduced on 3 July 1963 together with the Dragunov sniper rifle.

<span class="mw-page-title-main">M27 Infantry Automatic Rifle</span> American assault rifle

The M27 Infantry Automatic Rifle (IAR) is a 5.56mm select-fire assault rifle, based on the HK416 by Heckler & Koch. It is used by the United States Marine Corps (USMC) and is intended to be issued to all infantry riflemen as well as automatic riflemen. The USMC initially planned to purchase 6,500 M27s to replace a portion of the M249 light machine guns employed by automatic riflemen within Infantry and Light Armored Reconnaissance Battalions. Approximately 8,000–10,000 M249s will remain in service with the Marine Corps to be used at the discretion of company commanders. In December 2017, the Marine Corps announced that it would equip every member of an infantry squad with the M27, replacing the current M4 carbines and M16A4 rifles.

<span class="mw-page-title-main">Red dot sight</span> Type of firearm reflector sight

A red dot sight is a common classification for a non-magnifying reflector sight that provides an illuminated red dot to the user as a point of aim. A standard design uses a red light-emitting diode (LED) at the focus of collimating optics, which generates a dot-style illuminated reticle that stays in alignment with the weapon the sight is attached to, regardless of eye position.

<span class="mw-page-title-main">Reflector sight</span> Optical device for aiming

A reflector sight or reflex sight is an optical sight that allows the user to look through a partially reflecting glass element and see an illuminated projection of an aiming point or some other image superimposed on the field of view. These sights work on the simple optical principle that anything at the focus of a lens or curved mirror will appear to be sitting in front of the viewer at infinity. Reflector sights employ some sort of "reflector" to allow the viewer to see the infinity image and the field of view at the same time, either by bouncing the image created by lens off a slanted glass plate, or by using a mostly clear curved glass reflector that images the reticle while the viewer looks through the reflector. Since the reticle is at infinity it stays in alignment with the device to which the sight is attached regardless of the viewer's eye position, removing most of the parallax and other sighting errors found in simple sighting devices.

<span class="mw-page-title-main">AN/PAS-13</span>

The AN/PAS-13B Thermal Weapon Sight (TWS) is an infrared sight developed for the United States military by Raytheon. The sight is designed for use on small arms in the U.S. military's inventory, but it can also be used as a standalone observation device. The AN/PAS-13B uses thermal imaging so that it can be used day or night. Thermal imaging also allows the sight to see through smoke or fog, things that may normally obscure other night vision devices. The AN/PAS-13 first became operationally capable with the U.S. Army in 1998 and has reached a total production of 33,400 units.

<span class="mw-page-title-main">Collimator sight</span>

A collimator sight is a type of optical sight that allows the user looking into it to see an illuminated aiming point aligned with the device the sight is attached to, regardless of eye position. They are also referred to as collimating sights or "occluded eye gunsight" (OEG).

<span class="mw-page-title-main">SUIT (sight)</span>

The SUIT sight is a 4× telescopic sight with tritium-powered illumination, utilised at dusk or dawn. The full name is the L2A2 Sight Unit Infantry Trilux. The sight is not designed as a sniper sight, but as a standard issue infantry sight to improve the infantryman's night fighting capability and to assist target identification at long range in daylight and in poor light conditions. The sight was mounted on the L1A1 Self-Loading Rifle or GPMG. It was first produced in 1976 by Avimo Ltd. in London, England.

1P78 is a telescopic sight developed by and in use with the Russian Armed Forces, intended as a replacement for the older PSO-1 and 1P29 scopes currently being used by the Russian military. The optic is intended to become the standard issue sight for the infantry riflemen in the Russian military.

<span class="mw-page-title-main">Prism sight</span>

A prism sight or prismatic sight, sometimes also called prism scope or prismatic scope, is a type telescopic sight which uses a roof prism for its image-erecting system, instead of the series of relay lenses found in traditional telescopic sights. The use of prisms makes it possible to construct a shorter and lighter sight, or with an offset between the eyepiece and objective axes.

<span class="mw-page-title-main">Specter (sight)</span>

The Elcan Specter is a line of multi-role prism sights created by Raytheon ELCAN Optical Technologies originally designed for M16/M4 family of rifles but now also exists for light machine gun and heavy machineguns. Most of the optics are capable of switching between magnifications and illumination.

References

  1. "Official Listing of ACOG models". Archived from the original on 2011-02-04. Retrieved 2011-02-11.
  2. "Acog History". Trijicon Acog.com.
  3. "TA01 ACOG - Trijicon, Inc". 13 September 2011. Archived from the original on 13 September 2011.
  4. "Trijicon 24 Days of ACOG Sweepstakes". www.millionthacog.com. Archived from the original on 22 September 2017. Retrieved 29 December 2018.
  5. 1 2 "Trijicon History". 5 May 2021.
  6. thefirearmblog.com - Oct 2011, Trijicon came out with a conventional battery-powered illumination ACOG
  7. Tritium has a half-life of 12.5 years
  8. "Tactical Handyman – ACOG Fiber Optic Fix". 16 March 2010.
  9. "TA648TRD: 6x48 Trijicon ACOG". Trijicon.com. Archived from the original on 2010-01-03. Retrieved 2010-05-23.
  10. "TA01NSN-DOC: 4x32 Trijicon ACOG with 7.0 MOA Docter Optic". Trijicon.com. Archived from the original on 2010-01-03. Retrieved 2010-05-23.
  11. "TA648MGO: 6x48 Trijicon ACOG with Red Chevron Reticle and Accessory M1913 Rail". Trijicon.com. Archived from the original on 2010-06-08. Retrieved 2010-05-23.
  12. "TA31RCO-M150CP: 4x32 Trijicon ACOG Army Rifle Combat Optic (RCO)". Trijicon.com. Archived from the original on 2010-06-08. Retrieved 2010-05-23.
  13. "FM 3-22.9 Chapter 2". 20 July 2011. Archived from the original on 20 July 2011.
  14. Jane's international defense review: IDR., Volume 34, Issues 1-6
  15. "Michigan Weapons Company Trijicon takes flak over soldiers' rifle scopes branded with Bible verses". New York Daily News. 2010-01-19. Archived from the original on 12 February 2019.
  16. "Spesifikasi Senapan Serbu SS2 Semua Versi Garapan Pindad, Ini Kecanggihannya!" . Retrieved 30 June 2023.
  17. "ארה"ב: חברה תסיר פסוקים נוצריים מכוונות רובים". Ynet. 23 January 2010.
  18. Vining, Miles (22 April 2016). "ISAF armament of BLS". Archived from the original on 20 August 2018. Retrieved 14 September 2018.
  19. "Individual Weapons Replacement | Ministry of Defence Website". www.defence.govt.nz. Retrieved 2021-02-02.
  20. "Spanish Army procures the MG4 E". Heckler & Koch. 2007-08-02. Retrieved 2009-05-02.
  21. "Kit Magazine, Issue 62 Winter 2007" (PDF). Ministry of Defence. Archived from the original (PDF) on October 1, 2008. Retrieved 2008-03-16. This technology is here now! So if you see strange-looking SA80s being carried by strange-looking men, then rest assured, those users that had the requirement, had the make-over, at a price.
  22. "Trijcon TA31RCO-M4CP Rifle Combat Optic Review - Combat Optics Reviews". combatopticsreviews.com.
  23. "Trijicon website". Trijicon.com. Archived from the original on 2010-05-21. Retrieved 2010-05-23.
  24. "Picatinny hosts 2008 Type Classification and Materiel Release Awards Ceremony". Pica.army.mil. Archived from the original on 2010-04-01. Retrieved 2010-05-23.
  25. "Quantico Sentry - Marines test combat optics curriculum". Quantico.usmc.mil. 2005-10-27. Archived from the original on 2011-07-25. Retrieved 2010-05-23.
  26. Sweeney, Patrick (2012). Gun Digest Book of the AR-15. Vol. IV. Iola, WI: F+W Media. pp. 232–233. ISBN   978-1-4402-2876-6.
  27. M27 First Impressions Archived 2013-05-08 at the Wayback Machine - Thefirearmblog.com, 20 April 2013
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.