Not really sure on this tommy as I 've never actually used it....
I'm gonna start a new thread talking about this and maybe we can all learn something....
Rickie
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Thanks, good idea
JT Part or your problem lies with the installation. That antenna needs to be as close to your transducer as practically possible. When dealing with GPS you already have and error factor of +/- a couple of yards at best. If you have a 20' boat and the transducer is on the stern & the antenna is at the console, you have increased that error by maybe 2X's. That translates to 12' to 15'.
When I first installed my 997 I had the same problem with my marks being way off. I did some study'n & moved the antenna to the stern right over the transducer. I immediately noticed a big difference in accuracy.
I also try to come at my target from the direction that it was scaned from. In other words if I'm traveling east I will circle around & come back at it from the same direction. I don't know if it makes a difference but it works for me.
Thanks Wiskers!
I don't believe the problem is your GPS at all.. The problem is your screen scroll speed. Set your scroll speed to your MPH you are traveling. If your scroll speed was on... Lets say... 2 and your boat was traveling 4 mph.. Then YES.. there will be a lag. If your scroll speed is on 4 and your MPH is 4 then you should see the bridge soon as your tranducer gets there.. This will also give you the best image quality.
If dropping a bouy, drop it as close to the GPS pluck as possible.
DoubleG
I think that Shellback and Wiskers stated the best fix for what you are seeing. The sepration of the transducer and GPS Receiver can introduce an inaccuracy of up to two times the linear distance between them. That is in addition to the inaccuracy of your GPS Receiver at the time you marked the waypoint as well. Move the GPS Receiver as close to your transducer as you can get it and be sure that it is not mounted where some GPS satellites will be blocked (this may mean mounting it on a stem or VHF antennae mast) for the best possible accuracy.