Hoyt RX-9 and Rx-9 Ultra
Hoyt Carbon RX-9 And Carbon RX-9 Ultra
Improving performance was a major goal when developing the RX-9 and Alpha AX-2 series of bows. Not necessarily the advertised speed numbers, which are reported at 30 inch draw lengths, but more specficially in the most common draw lengths. For example, we saw a speed increase of 19 fps for the RX-9 Ultra at a 29 inch draw length compared to the RX-8 Ultra. See the charts below for other speed improvements for RX-9 and AX-2 models. Unlike other companies, Hoyt tests to ATA speed guidelines. These include parameters of: • 350 grain arrow weight • 70lb draw weight • Draw length of 30", +/- 1/4” The ATA speed test gives speed numbers that are far more realistic once an archer gets the bow fully built and ready for hunting. Other companies utilize an “IBO” speed measurement system, which has much looser testing parameters that include: • Draw weight up to 80lbs +/- 2 lbs • Arrow weight must be 5 grains per pound of draw weight • No specified draw length standard These testing parameters, combined with verbiage that vaguely rate speeds such as “up to X fps” allow companies to publish speed numbers that are inflated. By testing up to 82lbs, efficiencies can be found that garner a few extra feet per second that realworld archers won’t see. The lack of a draw length standard can artifcially boost the rating signifcantly. It becomes quite easy to show an IBO speed rating that won’t hold up when compared to ATA guidelines. At Hoyt, we perform comprehensive tests on competitor products, giving us an accurate gauge of true specifcations within the archery market.
The Secret of Smooth Carbon RX-9 and Alpha AX-2 are smoother than our smoothest bows. Many customers don't believe they are pulling 70 pounds when they draw the bow back for the first time because we have designed our draw force curve to make the draw as smooth and effortless as possible. There are several benefits to this including being able to shoot more weight (if you want to) to get more speed and energy, being able to draw the bow and let it down slower and with more control in a close encounter hunting situation where you want to avoid being busted from harsh and quick movements, and enjoying longer shooting/ practice sessions to increase your accuracy and enjoyment from shooting. There is a lot that goes into how our engineers made the draw force so smooth, but without revealing our secrets, the answer has to do with the smallest tweaks to the draw force curve itself and how the energy is dispersed under the curve. Natural Point of Aim & Rotational Torque Resistance During the design and developement of the Concept X tournament bow, Hoyt engineers achieved the most stable and torque resistant bow we've ever made. They then implemented this critical design feature into the RX-9 and AX-2 hunting bows. This design feature was developed to specifically address bow alignment and the influences of rotational translation. This provides the shooter with natural alignment at full draw and less horizontal nock travel during the power stroke. Low rotational translation aids the shooter in maintaining natural bow-to-target alignment, or a natural point of aim, without the need to manipulate the grip or creating forces that work against the shooter’s natural aiming pattern. Addressing how the bow aligns at brace, aims throughout the shot process, and drives the arrow nock through the shot cycle improves tunability across different spines and diameters. This also yields a bow that is more natural to hold when shooting at steep angles from tree stands or in the mountains, and provides a more forgiving bow under the pressure of a high-adrenaline shot. All of these accomplishments were made possible by the design integration of the riser, limb pockets, AXL limbs and HBX Gen 4 and SD cam systems. The new limb and pocket systems combined with improved riser torque characteristics yield a 38% reduction in torque from Alpha-X and RX-8- and up to an 82% reduction from comparable competitor bows. This yields an improved natural point of aim and more forgiveness, thus making the bow more accurate.
RX-9
9342fps (ATA)
30 1/2"axle-to-axle
4.0pounds
6 1/8"brace height
25-30"draw length
40-80#draw weight
RX-9 Ultra
340fps (ATA)
33 1/2"axle-to-axle
4.3pounds
6 3/8"brace height
26-32"draw length
40-80#
Hoyt Carbon RX-9 And Carbon RX-9 Ultra
Improving performance was a major goal when developing the RX-9 and Alpha AX-2 series of bows. Not necessarily the advertised speed numbers, which are reported at 30 inch draw lengths, but more specficially in the most common draw lengths. For example, we saw a speed increase of 19 fps for the RX-9 Ultra at a 29 inch draw length compared to the RX-8 Ultra. See the charts below for other speed improvements for RX-9 and AX-2 models. Unlike other companies, Hoyt tests to ATA speed guidelines. These include parameters of: • 350 grain arrow weight • 70lb draw weight • Draw length of 30", +/- 1/4” The ATA speed test gives speed numbers that are far more realistic once an archer gets the bow fully built and ready for hunting. Other companies utilize an “IBO” speed measurement system, which has much looser testing parameters that include: • Draw weight up to 80lbs +/- 2 lbs • Arrow weight must be 5 grains per pound of draw weight • No specified draw length standard These testing parameters, combined with verbiage that vaguely rate speeds such as “up to X fps” allow companies to publish speed numbers that are inflated. By testing up to 82lbs, efficiencies can be found that garner a few extra feet per second that realworld archers won’t see. The lack of a draw length standard can artifcially boost the rating signifcantly. It becomes quite easy to show an IBO speed rating that won’t hold up when compared to ATA guidelines. At Hoyt, we perform comprehensive tests on competitor products, giving us an accurate gauge of true specifcations within the archery market.
The Secret of Smooth Carbon RX-9 and Alpha AX-2 are smoother than our smoothest bows. Many customers don't believe they are pulling 70 pounds when they draw the bow back for the first time because we have designed our draw force curve to make the draw as smooth and effortless as possible. There are several benefits to this including being able to shoot more weight (if you want to) to get more speed and energy, being able to draw the bow and let it down slower and with more control in a close encounter hunting situation where you want to avoid being busted from harsh and quick movements, and enjoying longer shooting/ practice sessions to increase your accuracy and enjoyment from shooting. There is a lot that goes into how our engineers made the draw force so smooth, but without revealing our secrets, the answer has to do with the smallest tweaks to the draw force curve itself and how the energy is dispersed under the curve. Natural Point of Aim & Rotational Torque Resistance During the design and developement of the Concept X tournament bow, Hoyt engineers achieved the most stable and torque resistant bow we've ever made. They then implemented this critical design feature into the RX-9 and AX-2 hunting bows. This design feature was developed to specifically address bow alignment and the influences of rotational translation. This provides the shooter with natural alignment at full draw and less horizontal nock travel during the power stroke. Low rotational translation aids the shooter in maintaining natural bow-to-target alignment, or a natural point of aim, without the need to manipulate the grip or creating forces that work against the shooter’s natural aiming pattern. Addressing how the bow aligns at brace, aims throughout the shot process, and drives the arrow nock through the shot cycle improves tunability across different spines and diameters. This also yields a bow that is more natural to hold when shooting at steep angles from tree stands or in the mountains, and provides a more forgiving bow under the pressure of a high-adrenaline shot. All of these accomplishments were made possible by the design integration of the riser, limb pockets, AXL limbs and HBX Gen 4 and SD cam systems. The new limb and pocket systems combined with improved riser torque characteristics yield a 38% reduction in torque from Alpha-X and RX-8- and up to an 82% reduction from comparable competitor bows. This yields an improved natural point of aim and more forgiveness, thus making the bow more accurate.
RX-9
9342fps (ATA)
30 1/2"axle-to-axle
4.0pounds
6 1/8"brace height
25-30"draw length
40-80#draw weight
RX-9 Ultra
340fps (ATA)
33 1/2"axle-to-axle
4.3pounds
6 3/8"brace height
26-32"draw length
40-80#
Hoyt Carbon RX-9 And Carbon RX-9 Ultra
Improving performance was a major goal when developing the RX-9 and Alpha AX-2 series of bows. Not necessarily the advertised speed numbers, which are reported at 30 inch draw lengths, but more specficially in the most common draw lengths. For example, we saw a speed increase of 19 fps for the RX-9 Ultra at a 29 inch draw length compared to the RX-8 Ultra. See the charts below for other speed improvements for RX-9 and AX-2 models. Unlike other companies, Hoyt tests to ATA speed guidelines. These include parameters of: • 350 grain arrow weight • 70lb draw weight • Draw length of 30", +/- 1/4” The ATA speed test gives speed numbers that are far more realistic once an archer gets the bow fully built and ready for hunting. Other companies utilize an “IBO” speed measurement system, which has much looser testing parameters that include: • Draw weight up to 80lbs +/- 2 lbs • Arrow weight must be 5 grains per pound of draw weight • No specified draw length standard These testing parameters, combined with verbiage that vaguely rate speeds such as “up to X fps” allow companies to publish speed numbers that are inflated. By testing up to 82lbs, efficiencies can be found that garner a few extra feet per second that realworld archers won’t see. The lack of a draw length standard can artifcially boost the rating signifcantly. It becomes quite easy to show an IBO speed rating that won’t hold up when compared to ATA guidelines. At Hoyt, we perform comprehensive tests on competitor products, giving us an accurate gauge of true specifcations within the archery market.
The Secret of Smooth Carbon RX-9 and Alpha AX-2 are smoother than our smoothest bows. Many customers don't believe they are pulling 70 pounds when they draw the bow back for the first time because we have designed our draw force curve to make the draw as smooth and effortless as possible. There are several benefits to this including being able to shoot more weight (if you want to) to get more speed and energy, being able to draw the bow and let it down slower and with more control in a close encounter hunting situation where you want to avoid being busted from harsh and quick movements, and enjoying longer shooting/ practice sessions to increase your accuracy and enjoyment from shooting. There is a lot that goes into how our engineers made the draw force so smooth, but without revealing our secrets, the answer has to do with the smallest tweaks to the draw force curve itself and how the energy is dispersed under the curve. Natural Point of Aim & Rotational Torque Resistance During the design and developement of the Concept X tournament bow, Hoyt engineers achieved the most stable and torque resistant bow we've ever made. They then implemented this critical design feature into the RX-9 and AX-2 hunting bows. This design feature was developed to specifically address bow alignment and the influences of rotational translation. This provides the shooter with natural alignment at full draw and less horizontal nock travel during the power stroke. Low rotational translation aids the shooter in maintaining natural bow-to-target alignment, or a natural point of aim, without the need to manipulate the grip or creating forces that work against the shooter’s natural aiming pattern. Addressing how the bow aligns at brace, aims throughout the shot process, and drives the arrow nock through the shot cycle improves tunability across different spines and diameters. This also yields a bow that is more natural to hold when shooting at steep angles from tree stands or in the mountains, and provides a more forgiving bow under the pressure of a high-adrenaline shot. All of these accomplishments were made possible by the design integration of the riser, limb pockets, AXL limbs and HBX Gen 4 and SD cam systems. The new limb and pocket systems combined with improved riser torque characteristics yield a 38% reduction in torque from Alpha-X and RX-8- and up to an 82% reduction from comparable competitor bows. This yields an improved natural point of aim and more forgiveness, thus making the bow more accurate.