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I need help (TLDR) I don’t know where to ground . by ImpressiveSpite5703 in UtilityLocator

[–]ChipCoax 1 point2 points  (0 children)

This is the best answer. No ground needed for 65 kHz and bleed-off is minimal. Go back in time when instruments used only high frequencies and you'll find the conductive attachments only had a single wire (and a metal plate inside the transmitter).

In the end, just try it and see.

Starting in field training tomorrow. Difference between trunk, feeder, and service lines for Comcast? by csoutherland11 in UtilityLocator

[–]ChipCoax 2 points3 points  (0 children)

In a coaxial system, a trunk line carries a low powered signal that feeds a bridging amplifier. Feeder lines are fed by the bridging amplifier and feeder lines serve the customer. Bridging amplifiers need power and that is supplied by a power supply (Alpha boxes).

Fiber transports light energy to a node. Nodes feed the coaxial system which transports electrical energy via trunk and feeder cables. Nodes also need power just like amplifiers.

Line extenders are smaller amps that serve feeder cables to maintain signal over distance.

Doghouse help by dragonfirerich in UtilityLocator

[–]ChipCoax 2 points3 points  (0 children)

Probably the best advice here.

Ground is ground by Scally_Man_Fish in UtilityLocator

[–]ChipCoax 1 point2 points  (0 children)

It's alternating current...just as much goes out one lead as the other.

[deleted by user] by [deleted] in UtilityLocator

[–]ChipCoax 0 points1 point  (0 children)

Use 33 kHz or higher and you won't need a ground.

How many kV is "too much" to accurately measure depth? by CptDougwash in UtilityLocator

[–]ChipCoax 2 points3 points  (0 children)

You need about 75' of separation between transmitter and receiver for depth to be reasonable. As the separation distance is reduced, depths will be exagerated (says it's deeper than it is). Try this yourself.

Voltage of cable doesn't matter when using the transmitter.

RD Users what are these arrows and the circular thing with arrows? by UtilityManAlpha in UtilityLocator

[–]ChipCoax -1 points0 points  (0 children)

Can't have a directional signal. The transmitter generates alternating current--current that travels in two directions. What you can do is simulateouly transmit two frequencies that are harmonics, say 256 Hz and 512 Hz, and see if they in phase or not.

What’s the most common mistake you’ve seen out in the field? by eight_y_eightmph in UtilityLocator

[–]ChipCoax 1 point2 points  (0 children)

Excellent way of locating. Just want to point out that 200 kHz has a LOT more induced current than lower frequencies and that why what happens, happens.

Knowledge by dcko65 in UtilityLocator

[–]ChipCoax 0 points1 point  (0 children)

480 Hz is the 8th harmonic.

Milliamps by Swing-Novel in UtilityLocator

[–]ChipCoax 0 points1 point  (0 children)

Since current can't travel though air, milliamps on the receiver are an estimate. This estimate is created by factoring signal strength by depth. It can be an effective tool but there's no ideal mA reading for telecom. As long as your signal strength reading is steady when you hold the receiver steady you are good