_lee_ said:
I have a teknetics gamma 6000 with the standard coil & ive had this machine a couple of months after moving up from the ace 250.
A pronounced improvement in versatility on that upgrade!
_lee_ said:
I have a couple of questions which are , when i have iron notched out i can't hear iron right,
That is generally correct. Now you have to ask yourself WHY you use Notch Discrimination and why such a high rejection level? Also, I am curious what Tone ID option you have chosen and the types of site you hunt? Also, what detector(s) have you owned and used other than the Garrett Ace 250?
With the entire Iron audio/TID range eliminated (rejected), you have a lot of iron rejection and a broad bias to iron targets. Rejected, you won't hear them.
_lee_ said:
... but if i place a coin beside the iron i dont hear the coin either.
The main cause is Target Masking. It is not easy for many detectors to respond to a non-ferrous target that is positioned too close to ferrous object, especially if there is TOO MUCH iron rejection, which causes too much bias to iron. it's important to understand the iron object size and shape as it related to most typical iron littered sites. Usually, we are most bothered by iron nails and they can be rejected with a lower Discriminate setting of somewhere about '14' to '18' with the Gamma and Omega. When you notch the entire 'Iron' range it is knocking out all the way up to a VDI or '40', which is a lot more negative rejection towards typical iron nails.
_lee_ said:
So why is this happening surely the coin is a different metal so i should hear it..??
Different metal, yes, but with too much rejection you make it more difficult for a detector to process and respond to a nearby target, even if it is of a higher conductivity. Two targets laying together, or very, very close to each other, are usually seen and processed as a 'blend' of the different alloys, and that causes a good response to be heard from a better desired target, but the visual and audio ID can be lower reading/sounding, even as if a piece of unwanted trash.
This is one reason why I very seldom use Notch Discrimination, preferring to use a variable Disc. setting to just barely reject the most problem target at a sites, and usually that is nothing more than an iron nail. That requires a lower Disc. setting. I'd suggest setting up you Gamma the more efficient way rather than using an Ace 250 sort of Notch Disc. method. Only increase the variable Disc.
just to the point where the problem target is eliminated.
_lee_ said:
Also what is the difference between discrimination & notch apart from notch taking out whole sections at a time..?
That is exactly what the difference is. A variable Disc. setting allows the operator to fine tune the rejection level to "just enough", whereas the Notch Discrimination method rejects an entire range or segment of conductivities that can be very broad. Notching has a use, for some people in some applications, but most savvy detectorists will use a variable Disc. setting to only reject the annoying trash and not create a lot of bias by over-rejecting such as using a notch segment.
Monte
