PEW Science is an independent private testing laboratory and also hosts the world’s only independent public suppressed small arms research cooperative. Testing, data analysis, and reporting for public research is generated with funding provided by PEW Science members. Any test data that is generated with any portion of private funding contains this disclosure. The testing and data production for this Sound Signature Review white paper was funded in part by PEW Science Project PEW-CAT-059-001-23. Therefore, data pertaining to the CAT/ODB/A1/718 in this Sound Signature Review is published with the express written permission of Combat Application Technologies.

This Sound Signature Review contains single-test results using the ODB mounted with a 2-port muzzle brake to the Q mini FIX bolt action pistol, chambered in 300 BLK with an 8-inch barrel. Discreet Ballistics 190gr ammunition was used in the test.

6.122.1 CAT/ODB/A1/718 Sound Signature Test Results

A summary of the principal Silencer Sound Standard performance metrics of the ODB is shown in Table 1. The data acquired 1.0 m (39.4 in) left of the muzzle is available for viewing to all. The data acquired 0.15 m (6 in) right of the shooter’s ear is only available to membership supporters of PEW Science and the Silencer Sound Standard. You can support public PEW Science testing, research, and development with a membership, here. State-of-the-art public firearm sound signature testing and research conducted by PEW Science is supported by readers like you.

6.122.1.1 SOUND SIGNATURES AT THE MUZZLE

Real sound pressure histories from a 5-shot test acquired with PEW-SOFT™ are shown below. The waveforms are not averaged, decimated, or filtered. The data acquisition rate used in all PEW Science laboratory sound signature testing is 1.0 MS/s (1 MHz). The peaks, shape, and time phasing (when the peaks occur in relation to absolute time and to each other) of these raw waveforms are the most accurate of any firearm silencer testing publicly available. PEW-SOFT data is acquired by PEW Science independent laboratory testing; the recognized industry leader in silencer sound research. For more information, please consult the Silencer Sound Standard.

The primary sound signature pressure histories for all 5 shots are shown in Figure 2a. A zoomed-in timescale displays the region of peak sound pressure in Figure 2b, for the first two shots. The real sound impulse (momentum transfer potential) histories from the same 5-shot test are shown in Figure 3. Again, full and short timescales are shown.

The CAT/ODB/A1/718 exhibits unique behavior for a high flow rate silencer in the subsonic 300 BLK combustion regime.  The combination of high sound suppression performance and its flow rate characteristics is unusual.

As was observed in the 5.56x45mm MK18 testing of the CAT ODB (6.120), the measured signatures in this subsonic 300 BLK test report also indicate atypical behavior.  On the MK18, the ODB presents signature behavior that in some ways mirrors that of dedicated-bore 5.56mm silencers, while inducing weapon kinematic behavior common in the use of so-called Flow Through silencers. 

The subsonic 300 BLK signatures, above, display relative consistency, repeatability, and an unusual first-round-pop (FRP) impulse accumulation profile.  In 6.120.1.1, it was noted that the CAT ODB produces specific high level system behavior combining attributes of several silencers in the 5.56x45mm MK18 combustion regime.  In the 8-in barrel subsonic 300 BLK combustion regime, the ODB signatures display the following attributes:

• Consistent precursor waves are evident post-FRP (Fig. 1a) with an immediate FRP divergence.

• FRP impulse accumulation is not nearly as significant as with traditional baffle silencers of similar muzzle Suppression Rating, and all impulse histories possess a shorter positive phase (Fig. 2a).

• Impulse accumulation rate is significantly lower than in Flow Through silencers like the HUXWRX OSS HX-QD 762 (6.45) and the high flow rate SIG Sauer SLH300Ti (6.107).

• The impulse waveforms exhibit a “smooth” consistency, with uniform amplitude during subsequent shots, post-FRP.

Alone, the above signature characteristics are notable, but not necessarily out of the ordinary for a high-performance silencer.  However, in the subsonic 300 BLK regime, such signature behavior typically presents with longer blowdown.  Furthermore, it is also typical for a high flow rate silencer to exhibit more erratic jetting and more expedient impulse accumulation.  Because the CAT ODB does not present these behaviors, and because it influences weapon function like silencers such as the HUXWRX FLOW 762 Ti on the MK18 (6.114), PEW Science postulates that the so-called SURGE BYPASS technology in the CATB ODB functions favorably across combustion regimes, with regard to suppression performance.  Preliminary postulations further indicate that SURGE BYPASS may be somewhat “pressure agnostic” in its behavior, in that the technology demonstrates efficacy over a wider envelope of pressure and duration than typical.

PEW Science Research Note 1:  The above postulations are significant and are strongly supported by test data, analysis, and field evaluations.  The reader is encouraged to examine the weapon kinematics measured in the MK18 data (6.120) in conjunction with the presented gas dynamics in that article.  Traditionally, extremely high flow rate silencers contain few internal stages, and those stages consist of initial expedient proximal venting post-uncorking with later expedient distal venting post-array.  The post-array behavior typically presents with extreme externally measured impulse rise-times due to velocity gradients from multi-path distal orifices directly fed by annular channels.  In the case of the HUXWRX (OSS) HX-QD, these are overlapping toroidal paths.  In the case of the SIG Sauer SLH300Ti, these are shorter annular paths with progressive interstitial baffle porting.  The HX-QD Flow Through technology and SIG SLH technology vary primarily in path length, though the SLH technology does utilize more traditional baffles it its primary array.  Both venting mechanisms are extremely similar and not necessarily complex in their implementations, other than in manufacturing method.

In SURGE BYPASS technology, there exist somewhat similar components to the above, with the primary differences being multi-stage flow geometry. The early time proximal venting is used in conjunction with advanced baffle arrays.  Furthermore, distal venting exhibits a lack of direct annular coupling; this is one of the reasons why external gas momentum throttling is observed in both this test report (in the subsonic regime) and in 6.120 (supersonic 5.56x45mm).

PEW Science Research Note 2: The gas dynamics of SURGE BYPASS described in Research Note 1 are complex. In summary, the reader should note the following high-level conclusions within that previous context:

1. High flow rate silencers typically exhibit poor subsonic sound signature suppression, relative to more restrictive designs. The CAT ODB does not; it is an outlier. It performs more similarly to a Sig Sauer SRD762Ti-QD (6.39) and Diligent Defense Enticer L-Ti (6.88) in signature severity on this host than it does to high flow rate silencers.

2. The HUXWRX HX-QD 762 (6.45) and Sig Sauer SLH300Ti (6.107) are examples of high flow rate silencers. The CAT ODB bridges the gap between the technologies used in those two silencers and other staged designs. The SURGE BYPASS technology demonstrates efficacy in all regimes, and therefore may be considered more advanced. Increased efficacy of Flow Through technology in the subsonic regime over the HX-QD series with the HUXWRX FLOW series is currently unknown, pending future laboratory evaluation.

3. SURGE BYPASS technology, as demonstrated by the presented test data and analysis, allows a silencer to operate more efficiently than typical across combustion regimes, while reducing the propensity for weapon over function. Again, high subsonic suppression performance is unusual when combined with those traits.

PEW Science Research Note 3: The FRP at the muzzle from the ODB, in this regime, is noticeable to bystanders. A somewhat unique sound field produced by the silencer can result in masking of the severity to the operator. The full Member article contains more information on this phenomenon.

First-round sound signatures always differ from subsequent shots, as the atmosphere within the silencer changes. The FRP phenomenon cannot always be shown by viewing only the peak sound pressure. This is one of the reasons why The Silencer Sound Standard requires examining multiple sound signature metrics.

With subsonic 300 BLK from an 8-inch barrel, the CAT/ODB/A1/718 produces a less severe signature to bystanders than many silencers on this host weapon. Direct comparisons with other silencers are provided in Section 6.122.2.

6.122.2 Suppression Rating Comparison - Subsonic 300 BLK

The CAT/ODB/A1/718 was developed with a focus on various performance and signature reduction attributes, pure sound signature reduction (PEW Science Suppression Rating), and a high flow rate (low back pressure) for weapon function. As previously discussed, its subsonic sound signature suppression performance is highly unusual for its flow rate and other performance attributes. Figure 6 shows a performance comparison of many 30 caliber rifle silencer configurations tested with the subsonic 300 BLK cartridge shown in public PEW Science testing, to date. Unsuppressed and suppressed Suppression Ratings are shown for both the shooter and bystanders.

As previously stated, the CAT/ODB/A1/718 exhibits unique behavior for a high flow rate silencer in the subsonic 300 BLK combustion regime.  The combination of high sound suppression performance and its flow rate characteristics is unusual.

From the above data, it can be concluded that the CAT ODB exhibits higher overall suppression performance in the subsonic 300 BLK combustion regime than most silencers presented in the PEW Science dataset, to date. In fact, it is producing a shooter’s ear damage risk potential that is similar to that produced by the Sig Sauer SRD762Ti-QD (6.39). That comparison is notable, given the length of the two silencers, as well as their flow rates. Another notable comparison is the performance of the CAT ODB in this regime with that of the Diligent Defense Enticer L-Ti (6.88). The Enticer L series is also longer than the CAT ODB, and exhibits much more restrictive gas dynamics. The CAT/ODB/A1/718 also meets or exceeds the performance of the Surefire SOCOM300-SPS (6.57), which is a purpose-built 300 BLK silencer, and again, the ODB does it with high flow characteristics. The SOCOM300-SPS has significant back pressure.

As discussed in the PEW Science member version of this article, the sound field shape of the CAT ODB is unique. Like the aforementioned Enticer L-Ti, and the Silencer Central Banish 30 Gold (6.70), the muzzle and ear Suppression Ratings diverge. This type of divergence can occur for several reasons, including distal orifice flow shaping and overall flow rate, both of which influence gas velocity flow gradients. Typically, extremely high flow rate silencers also exhibit a larger divergence. The dataset above is consistent with this observation. Despite the divergence of the muzzle sound field and the lower muzzle Suppression Rating of the CAT ODB compared with some other high performance silencers, for example, the overall performance is still significant. For example, the ODB exhibits a higher overall muzzle Suppression Rating than the wiped configuration of the Energetic Armament VOX-S (6.38). For a high flow rate silencer to exceed that performance is unusual. The inner ear damage risk to the shooter from the CAT ODB, on this host, is not significantly different from that of the Otter Creek Labs Hydrogen-L (Review 6.94); a much longer silencer. This is also unusual, and significant in full context.

Given the length and flow rate of the CAT ODB, and the demonstrated efficacy of the SURGE BYPASS technology in the silencer, PEW Science considers this performance to be indicative of a significant advancement in the suppressed small arms state of practice.

The following items previously highlighted in Research Note 2 are worth mentioning again, here:

• The HUXWRX HX-QD 762 (6.45) and Sig Sauer SLH300Ti (6.107) are examples of high flow rate silencers. The CAT ODB bridges the gap between the technologies used in those two silencers and other staged designs. The SURGE BYPASS technology demonstrates efficacy in all regimes, and therefore may be considered more advanced. Increased efficacy of Flow Through technology in the subsonic regime over the HX-QD series with the HUXWRX FLOW series is currently unknown, pending future laboratory evaluation.

• SURGE BYPASS technology, as demonstrated by the presented test data and analysis, allows a silencer to operate more efficiently than typical across combustion regimes, while reducing the propensity for weapon over function. Again, high subsonic suppression performance is unusual when combined with those traits.

The difference in sound signature suppression performance from silencers in the subsonic 300 BLK suppression regime, is extremely significant. The user is encouraged to be mindful of the degree to which sound signature suppression, and resulting personnel hazards, can vary across designs. Small arm weapon system suppression performance is a spectrum. The PEW Science Suppression Rating and the Silencer Sound Standard help quantify this spectrum for end users and industry, objectively.

6.122.3 Review Summary: CAT/ODB/A1/718 on a Q mini FIX 300 BLK with 8-in Barrel

When paired with the Q mini FIX 8” 300 BLK and fired with Discreet Ballistics 190gr Subsonic Target ammunition, the CAT/ODB/A1/718 achieved a composite Suppression Rating™ of 67.2 in PEW Science testing.

The supersonic 5.56 performance of the CAT/ODB/A1/718 is detailed in previous Sound Signature Review 6.120, in which it achieved a composite Suppression Rating of 36.7.

As with all weapon systems, the user is encouraged to examine both muzzle and ear Suppression Ratings.

PEW Science Laboratory Staff Opinion:

The CAT/ODB/A1/718 (CAT ODB) is a relatively compact and extremely advanced 30 caliber machine gun rated rifle silencer that exhibits significant back pressure reduction and sound signature suppression performance, for its size and caliber designation. Its sound suppression performance on both subsonic 300 BLK and short barrel 5.56x45mm is significant. Notably, the CAT SURGE BYPASS technology in the silencer appears to balance high flow rate behavior with significant overall signature suppression, even when over-bored for the cartridge and even when using subsonic ammunition, which is highly unusual. The silencer is available in two 3D-printed material options; proprietary Inconel alloy and Titanium. The weights of both models are notable. The CAT ODB represents one of the most advanced systems evaluated by PEW Science, to date.

PEW Science postulates that the so-called SURGE BYPASS technology in the CATB ODB functions favorably across combustion regimes, with regard to suppression performance.  Preliminary postulations further indicate that SURGE BYPASS may be somewhat “pressure agnostic” in its behavior, in that the technology demonstrates efficacy over a wider envelope of pressure and duration than typical. These postulations are significant and are strongly supported by test data, analysis, and field evaluations.  The reader is encouraged to examine the weapon kinematics measured in the MK18 data (6.120) in conjunction with the presented gas dynamics in that article.

High flow rate silencers typically exhibit poor subsonic sound signature suppression, relative to more restrictive designs. The CAT ODB does not; it is an outlier. It performs more similarly to a Sig Sauer SRD762Ti-QD and Diligent Defense Enticer L-Ti in signature severity on this host than it does to high flow rate silencers. The HUXWRX HX-QD 762 and Sig Sauer SLH300Ti are examples of high flow rate silencers. The CAT ODB bridges the gap between the technologies used in those two silencers and other staged designs. The SURGE BYPASS technology demonstrates efficacy in all regimes, and therefore may be considered more advanced.

Given the length and flow rate of the CAT ODB, and the demonstrated efficacy of the SURGE BYPASS technology in the silencer, PEW Science considers this performance to be indicative of a significant advancement in the suppressed small arms state of practice.

The CAT ODB is offered with so-called HUB universal mount threading at the proximal end. It is not typical for high performance silencers with such technology to use non-proprietary mounts, because mount choice can sometimes significantly influence silencer and suppressed weapon system performance. One unique characteristic of the SURGE BYPASS technology in the CAT ODB is that the alpha parameter minimization is postulated to be robust with mount choice. In other words, different mounting schemes may not adversely influence SURGE BYPASS behavior as much as some other technologies such as Flow Through. Further laboratory evaluations are needed. The presented test data was acquired using a third-party 2-port muzzle brake, for reference.

The CAT ODB is available in both Inconel and Titanium versions. The Titanium version of the ODB has a core weight of only 8.7 ounces. The Inconel CAT/ODB/A1/718 has a core weight of 16.1 ounces. Users should note that, in general, the durability and sparking performance of Inconel vs. Titanium silencers may be significant. The PEW Science laboratory has evaluated the Inconel CAT/ODB/A1/718 in complete darkness on short barrel automatic centerfire rifles and semiautomatic 7.62mm rifles with visual, night vision, and thermal observation from the weapon operator. The signatures in all spectra are reduced when compared with identical weapon systems fielded with the HUXWRX FLOW 762 Ti, for example. This performance factor may be significant for some users.

In this review, the CAT/ODB/A1/718 performance metrics depend upon suppressing a subsonic intermediate rifle cartridge. While the sound signature of such cartridges can be suppressed to levels that may result in the desire of the shooter and bystanders to not wear hearing protection, PEW Science encourages the reader to remain vigilant with regard to all subsonic rifle cartridge suppression claims. The gas volume and combustion products created by firing a subsonic intermediate rifle cartridge such as 300 BLK are still significant; the measured pressure and impulse magnitudes, and their durations, illustrate this fact.

The hearing damage potential of subsonic rifle use is not insignificant. PEW Science encourages the reader to consider the Suppression Rating when deciding on an appropriate silencer and host weapon combination for their desired use.