![]() ![]() Any target – moving or otherwise – will be easier to acquire, lock on to, and hit successfully with the first shot. Combining the obvious assets of a generous FOV, bright reticle, and moderate magnification ensures the operator's ability to engage targets with confidence and outstanding fire-control capability. Trijicon's proprietary tritium/fiber optic technology ensures that the reticle remains highly-visible 24/7/365. While delivering a mid-range 3.5x magnification, the efficient 35 mm objective produces a bright, crisp, and clear sight picture. The 3.5×35 ACOG from Trijicon sits at a moderate height on top of the receiver. Made in the USA not rated $1,316.00 Add to cart Matte black scratch and corrosion-resistant hard anodized finish Nitrogen-filled for fogproof and waterproof performance Knurled adjustment dialsIncludes TA51 mount for AR-style flattop rail Six reticle intensity levels with ‘off’ positions between each intensity settingīindon Aiming Concept allows both eyes open targeting Non-illuminated dots and hashmarks on the horizontal axis for windage and lead compensation Lower post features stadia for calculating BDC past 600yd (550 m) Green illuminated horseshoe airming point with a center dot BDC reticleīallistic drop compensation stadia based on. Complementing the ACOG’s optical system and caliber-specific ballistic reticle is a nitrogen-filled, aluminum housing with a scratch and corrosion-resistant hard-anodized matte-black finish that provides the durability needed for reliable performance in a wide range of shooting conditions. The ACOG is outfitted with a TA51 mount that has two thumbscrews for attachment to a Picatinny rail. The reticle’s aiming point can be adjusted in 1/2 MOA increments, and an internal adjustment mechanism allows the ACOG to reliably hold zero. Intermediate “off” positions between each intensity allows the scope to be quickly turned off and to return to the preferred intensity without having to cycle to it. Six intensity levels enable the user to tailor the brightness to the lighting conditions. The reticle is illuminated by a green LED, powered by a readily-available AA battery with a runtime of over 12,000 hours on a medium brightness setting. Anti-reflection broadband fully multicoated optics maximize light transmission to provide bright and clear views with limited distortion. 223 caliber ballistics and enable the user to adjust their aim without making mechanical changes to the sight past 600yd (550m). This Advanced Combat Optical Gunsight (ACOG) sight is outfitted with an illuminated green horseshoe airming point with a center dot BDC reticle that has bullet drop compensation stadia on the lower post that are specifically calibrated for. This article features a Quick Start Guide for implementing projects that use switches, either single or multiple switches, and offers insights into more complex uses of switches.The 4×32 ACOG LED-Illuminated Riflescope from Trijicon features a battery-powered LED illuminated ballistic drop compensation (BDC) reticle and a durable waterproof housing to create a versatile weapon sight that is well-suited for use in a wide range of weather and lighting conditions. The approach is principally software driven, requiring few electronic components other than, of course, switches and a resistor or two. The centre-piece of the Guide is the library, which is already featured as an article here on the Project Hub (see ). ![]() The Quick Start Guide provides four sketch examples, two for Arduino and two for ESP 32 microcontrollers. However, all examples are suitable for both microcontrollers, just change the pin outs for the board to be used. In summary, the examples provide basic working sketches (coded only to demonstrate the purpose of the examples) that configure: 1. Single switches - 1 x button switch, on Arduino. Multiple switches - 4 x switches (2 x button and 2 x toggle) wired in different wiring schemes, on Arduino. ![]() Multiple switches with links to different digital outputs - as 2 above, but three of the switches are linked to digital output pins that are automatically status switched/flipped on switch actuation (i.e. The example is configured for ESP 32 boards. Multiple switches linked to a common digital output, driving an external interrupt routine (ISR) - as 3 above, with three switches linked to the common digital output pin which triggers an associated ISR whenever one of the associated switches is actuated. ![]() The example is also configured for ESP 32 boards. ![]()
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