Chase Goldman

Nope. I had to send it out to someone I know who had the skill to build up the ear from scratch using epoxy and a special buy of plastic material. It was not easy and it's not yet clear how the repair will hold up to the rigors of water hunting. Not sure if that person is willing to do it again as it was such a pain. If you want something that is going to hold up in the water, you are probably looking at a new coil.

@Jeff McClendon or @abenson can probably do a deeper dive, but from a purely technical standpoint I think it breaks down like this...it depends. Not trying to be snarky, it's just that the question as you presented it is a little open ended since you didn't specify whether you were primarily interested in just general nuggets or also being able to Sniff out micro, subgram gold. Furthermore, ground conditions matter for this comparison. I'll give you my thoughts from a purely technical basis from a detector standpoint (I own both and have done some air tests), but avid gold hunters like Steve H., Jeff, Andrew, phrunt and others who have used both can weigh in with their practical field experience. I think overall, it's a close call based on test and real world results I've seen posted here and elsewhere. Probably a slight performance edge goes to the Nox because of the overall versatility that Simultaneous Multifrequency brings to the table in terms of hot ground handling. Maybe Orx handles itself slightly better in ferrous trash situations. I know Deus 2 does much better than the Nox 900 in that regard and also in regards to Target ID accuracy/stability. The D2 is held back slightly, however, because the smallest available coil is the 9" round. If you ignore ground handling, the Orx may have a slight edge in subgram gold sensitivity solely based on the higher frequency (80+ khz) it can achieve with the 10x5 HF coil. I don't think the Nox 900 is far behind though, if at all, especially with the 6" coil (vs. the 10x5). On larger nuggets I would probably give the edge to the Nox as that Coiltek coil has great depth for its footprint on larger gold targets vs. the Orx. It's still close. For hot ground handling, the Nox in Simultaneous Frequency Mode is better than the SF Orx and also has ground tracking unlike the Orx. But the Orx still performs ok in hot ground and is easy to rebalance with single button ground grab. Finally, the Nox 900 is an overall more versatile detector vs the Orx for detecting in general. So overall edge to the Nox. Orx will cost you a lot less however ($550) vs. $1000 for the Nox (includes the 11" and 6" coil) + $235 for that Coiltek 10×5. TBH however, based on the recent $500 price drop on Manticore down to $1200, I would also strongly consider getting Manticore over the 900 and pick up the $250 M8 5x8 coil which should give you everything you need (it effectively combines the best of the 6 inch round coil and the 10x5 coil with perhaps a incremental hit on depth and coverage). The cost Delta is only about $200 even if you factor in the cost of the 10x5 Nox coil vs. M8 Manticore coil But you do end up with one less coil overall because the Nox package includes the 11" and 6" coils. Also, the Manticore is just a better all around detector than the 900. There is nothing the 900 can do that the Manticore can't. FWIW. My recommendation: For pure nugget hunting value, consider the Orx. For overall performance Manticore + the M8 coil. Splitting the cost difference (slightly, by $200) Nox 900 + Coiltek 10x5.

Gotcha, so that 30 day thing even if it is a thing wouldn't apply in this case. I will stop frothing at the mouth now.

You never describe what issues you are having other than the antenna wire turning black. If the unit is still working when you submerge it (i.e., the remote is still receiving a signal form the coil) then the discoloration on the antenna wire is a non-issue. The warranty is 5 years and no Deus 2's are past warranty at this point. Regardless, if the only problem you are having is the antenna and you don't get warranty relief if it has failed, an XP branded replacement wire costs about $20-$25 and there are descriptions online about how you can home brew one yourself from an even cheaper length of coax you can order online. Yes this is not safety critical military-grade diving gear and I don't like having to use an antenna, so I understand your trepidation, but the rest of the unit is robustly designed for repeated dives to 60 feet (provided you insert the dive plug) and other than antenna corrosion and cable failures associated with the submersible hard-wired Bone Phones, I have not heard reports of water/dive related degradation of the key hardware (remote and coils). So I would not paint the entire detector as a being unable to stand up to the rigors of water detecting. On the other hand, for daily salt water detector, I think investing in a fully carbon fiber shaft and stem system is worth it. Here is the one I use: https://www.stevesdetectorrods.com/product.php?id=XP.D2-01 Steve is a forum member here (@steveg) and I can vouch for his equipment quality and craftsmanship and, above all, his customer service. I'm on the east coast, but I've heard good reports of it performing well on west coast beaches with black sand and appears to be a very popular detector amongst the west coast beach detectorists. Though it seems to struggle with the black sand at @midalake's Mexican resort beaches. Midalake is a hard core beach hunter and vouches for the D2, but also likes to use a couple other detector brand/models under certain circumstances. I think you should stick with the D2, but I'm biased. If it really doesn't sit well in your gut, then consider alternatives like the Minelab Manticore or Equinox or the Nokta Legend or Nokta Double Score which are great value detectors. I've heard good things about the Garrett Apex on wet salt sand beaches, though it is only weather resistant, not submersible. Good luck.

That is totally unacceptable for a DOA coil right out of the box. I thought ML had a policy that if you have a failure within the the first 30 days with a detector/component, they will give you a pre-paid FEDEX return label and ship you out a new component upon receipt of the defective. That is how my return went down when my brand new Equinox 900 had a broken Horseshoe button right out of box in December 2022. They paid for me to ship it back and sent me a new detector upon receipt. Maybe things have changed in just two years, maybe their policy had to do with the fact that the Nox 900 was a newly released detector at that time, or maybe it doesn't apply to coils. Whatever the reason, it does not seem right despite the small shipping fee for the coil. See my post below. https://www.detectorprospector.com/topic/21284-update-on-nox-900-horseshoe-button-failure-and-a-surprise-on-pinpoint-function/?do=findComment&comment=226970

Exactly, in the grand scheme of things, metal detectors are a shortcut to finding treasure you can't see. The alternative is simply digging holes (based on research or other relevant clues (e.g., surveys or probes) or at random) - which is what miners, prospectors, some relic hunters, and archeologists do. We keep adding features to detectors add more shortcuts (i.e., cherry picking), but at some point you are just left with the trash and you need to do the hard work (i.e., dig up and recover the "trash" to ID it or get it out of the way) if you want to have the hope of squeezing any more treasure out of the site.

The short answer is yes. That's why ground compensation and ferrous discrimination/ferrous bias are more effective with multifrequency detectors. Without multifrequency there is no iron bias and high mineralization ground is harder to tame. I think the issue is that it's a lot easier to identify the frequency-based signal processing deltas for ferro-magnetic targets than it is for purely ferrous targets and the signal processing has to really work hard to identify those small signature changes AND differentiate them from noise. Again, this is where applying machine learning might provide a leap.

I understand where @IBMe is coming from. It's good to see the perspective and out-of-the-box ideas of newcomers to the hobby who are not biased by being steeped for years in the technologies and features that the detector manufacturers feed us. Technology is not holding this idea back, because it has been tried before. This is more about human biology (how humans process sensory input) and human factors engineering (how to present information in a manner that enables efficient and effective processing by a human) than it is about technology. Furthermore, it probably makes more sense to directly "visualize" the processed target signal rather than the processed audio from that processed target signal. And guess what, that has also been done with the various target trace implementations. The fact is, target audio is no accident, it is designed to provide the detectorist with a lot of target information that is embedded in the nuances and subtleties of the audio signal (volume, tonality, harmonics), and with repeated "training" and "muscle memory" via target recovery and audio conscious and subconscious signal association, enables the detectorist to learn those nuances and become even more effective than what can be visually displayed and interpreted on the fly. That is not to say that visual target representations are not effective. Of course they are, as evidenced by the more sophisticated target trace displays successfully used by detectorists on high end detectors. But like I said, those are processed from the "source" target signal, rather than secondarily from the processed and generated audio waveforms. Necessity is the mother of invention, as they say. And the need to discover buried ordnance in the wars of the first half of the 20th century was the real the impetus for refining the induction balance and pulse induction metal detecting principles that are also used in the hobbyist detectors of today. It is really defense and security applications, followed by gold prospecting that keep the technology progressing for the hobbyists. If defense or security applications can be more effective with more sophisticated visual target representations, you can believe the detector manufacturers will invest and leverage that technology for hobbyist applications, if it is cost effective. They key to "visual" target representation, whether you do that from the processed target signal directly or from the processed target audio, is determining how to effectively visualize the target attributes in a manner that enables the operator to enable the operator to efficiently, unambiguously, and reliably interpret those visual queues and to effectively integrate them with the audio target information they are also getting (without confusing the operator). If the graphic visual target implementation can be picked up by the operator rather naturally with little need for "training" (i.e., swinging the detector for hundreds of hours before it "clicks") then that is a bonus. There have also been incremental advances in coil winding technology that have improved coil performance (depth and sensitivity) and ergonomics (weight). Discrete tube-based circuits, gave way to semiconductor electronics, which fostered in more compact integrated circuits that enabled more sophisticated target processing in the form of rudimentary ferrous discrimination and ground effect compensation circuits as well as more sophisticated visual and audible target identification. High speed digital signal processing and power electronics ushered in even more sophisticated target ID interfaces as well as enabling a greater ability to separate targets in high target density environments (high recovery speeds vs. depth), generate higher transmit powers with less weight and heat, enabled more sophisticated EMI cancellation, and also enabled advanced features like the myriad of simultaneous multiple frequency transmission protocols that exist today. The next enabling technology for advancing the sophistication of both visual and audio target ID representations from where they are today probably resides in the detector designers' effective harnessing of the power of artificial intelligence/machine learning. Imagine a detector that gets smarter/more effective at target identification (and has the ability to evolve how it presents that more effective data to the detectorist) the more you swing it. That is probably the next frontier or evolution/revolution in advancing the state of the art in metal detection. At least that's my take.

Agree!

Would like to return to this thread after the "storm" arrives. I'm thinking a lot of the folks who thought the Apex just slightly missed the mark for their detecting environment are rooting for Garrett to close that remaining gap with their next generation VLF detector design.

Yep. Forgot about that. Any future XP detector generational design iteration will be required to have USB C. But they should just do it because its the right thing to do. Its a much more capable standard including the ability to operate at voltages higher than 5 VDC which can be leveraged to provide more efficient charging for more energy dense battery designs (perhaps facilitating a 10x5 coil, and now that I think about that, the fact that they would have to add USB-C compatible interface to that component may be another thing that is causing them to drag their feet).

They need to change the coil charging clip design, definitely. It is interesting they went USB C on the new Xtreme Hunter coil. The problem with a magnetic connector on the coil itself would be that it would eventually magnetize and collect a ton of magnetic oxide particles and other magnetic debris, risking damage, unreliability, or overheating during charging (due to a high resistance connection) and a debris cleaning/removal hassle for the end user to avoid these issues. But there are a ton of more elegant coil charging interface solutions that could be incorporated going forward and many that could also be backfit onto the existing coils. XP should make a decision to just rip the bandaid off and move to USB C, while at the same time designing a better coil charging solution.

Said like a true detector addict in denial, Simon. And being one myself, I don’t believe a word of it.

I did, that's why I paraphrased you in my post. Basically, it's not the tool you chose to use that necessarily makes the most difference (although in some environments, like salt water and hot dirt, specific tools may not cut it) but how and where you use it. Totally agree with that, Garrett's personalized customer service in the US is unrivaled.

Good point regarding the ground conditions. Some detectors that do great on neutral ground, cannot handle that environment, requiring a different tool, usually a PI.

Knowing how Minelab will typically react, I say we call it...wait for it... THE NOKTA LITIGATOR No other detector can do it justice!

At the time Apex came out, Apex was not only the least expensive simultaneous multifrequency (SMF) detector it was also the least expensive detector featuring selectable single frequencies and I praised Garrett for finally showing up to the party with a compelling Detector to go toe to toe with Minelab. It was at the time a great value for a very capable detector. Garrett was transparent regarding what user expectations should be regarding its capabilities by appropriately associating it with the Ace product line. I considered it to be more than an Ace level but not quite as feature rich (and obviously not waterproof) like the AT series. Make no bones about it, though, the Ace series doesn't mean "entry level" and "lacking performance" it mainly means simple to operate and great value. As you say, Bob, detecting is more about having a decent site (location) and getting your coil over the target (coverage) and being proficient with and confident in whatever detector you use and less about cost and features, bells, and whistles. I grant you that when XP then came out with its SMF answer with the D2 and it's typical stratospheric pricing, especially compared to the Equinox and Apex it was fair to highlight the huge cost Delta to make an argument for comparative value. But 3 years later, it is kind of a stale argument, for two reasons. One was already pointed out but you appear to have dismissed it. Namely, there are a myriad of significantly less expensive and capable D2 configurations centered around the WS6 as the master controller. This highlights one of the most significant strengths of the D2 platform which is wireless component interoperability and reconfigurability which allows the end user to optimize value, capability, or weight as they see fit. But I'm not here to force you to eat a croissant you don't want, I just wanted to point that out for context. The second reason I would not necessarily beat the Apex value/cost drum too loudly is that Nokta came along and blew everyone out of the water with their price point for the Legend SMF, basically an Equinox 800 Plus for half the cost...with a great selection of accessory coils. And they continue to update its firmware with more capability and features to this very day. Again, I am not saying any one detector is "better" than the other here, just commenting on this whole cost, value, "3x this", "4x that", focus. Cost and value are important but each major brand offers SMF detectors (XP and Minelab included) at price points similar to Apex for their various SMF offerings. Therefore, using cost as an argument for or against is a point that is easy to undercut regardless of whatever detector you are talking about. At this point with SMF detectors basically having similar performance capabilities, hair splitting seems to be the main MO for touting one detector over the other. Getting back to basics, the best detector is the one you want to use and do use most frequently. After all the hot air I just expelled, I am very excited to see Garrett's answer to Apex. Hopefully, the gathering "Storm" at Garrett will wow me as much as the Apex and Axiom product ammouncements once did.

Iron ID/Disc/Blanking

Progress, but lets not get too optimistic on the timeline. The last time we went through a Nokta naming contest, the Legend showed up 3 years later. Contest started September 2018 Name picked September 2020 Detector Announced Summer 2021 Detector Released December 2021 Perhaps they learned not to draw this out as much this time....

What TNSS is saying is that if you have Relic set up to give you a pure iron signal in the nail/nickel/swing configuration shown (as expected when you swing down the barrell of the nail) and then you transition to any other program (other than Gold Field) and then return to relic, you will get intermittent non-ferrous audio and TIDs (that don't correspond to the nickel TID, they look to be in the high 80's when I was able to catch a glimpse of the screen). Indicating that perhaps IAR has been altered which may be causing iron falsing or some other unknown bug/issue. Anyway, despite several attempts with the same setup, I have not been able to replicate TNSS's "bug" at all. Not even close. I can make blips occur with certain coil edge manipulations (even without transitioning out of Relic) but with a normal swing down the barrel of the nail, solid iron tone and ID no matter how many transitions out of relic or other non-relic program adjustments I do. Maybe he has a coil issue or a buggy install. Though Jeff's statement that TNSS has seen this on previous versions, indicates it may not be unique to ver 2.00, pointing again to perhaps a TNSS unique hardware or configuration issue. I don't have the "issue" and really am not losing sleep over it, regardless based on my tests and hundreds of successful hours on v 2.0 Relic Program (yes, it's my "Go To" program). And I do a lot of target interrogation which has me frequently transition out of relic. I would be interested to know if anyone else has been able to replicate it (other than the one or two folks who commented on his channel who said they saw it too). I'm actually kind of surprised by people just taking these findings (mine included) at face value as gospel rather than proving to themselves whether they are present for their specific setups based on how simple the test is to set up and run. Especially since they may manifest differently for different combinations of equipment and targets. Without additional replication by other D2 experienced folks, I'm attributing this something unique with TNSS's gear. Whatever the case, TNSS has done the right thing and has passed this on to XP to sort out and address, if necessary. XP has not acknowledged an issue but they are looking into it at TNSS's request.

Not a good pinpointer. The 40 is not much better.

So do I. I like to use a specific set of phones for detecting so the WM09 allows that.

You won't get any coil interference but Garrett Zylnk is underpowered and very sensitive to placement of the TX and RX as body shadowing of the wireless signal causes dropouts. Make sure you wear the RX on the side of your body that faces the TX module (i.e., wear the RX on the same side of your body as the arm you swing your detector). And make sure the TX is not line of sight blocked by the GPX control box.

At this point I just carry a backup charge bank. They're inexpensive, power dense which makes them compact enough to slip in a pocket and are versatile enough to be used to recharge any of your devices on the go. I'm basically done dealing with single use disposable batteries.

It's ridiculously difficult. That's why I had high hopes for the magic holster, but it's wonky.