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Old 04-23-2019, 10:29 PM   #41
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I-squared-R

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Originally Posted by DDW View Post
Not true. 25% of the copper will dissipate the same power in a 24V system, but voltage drop is not related to I^2, rather just I. Power dissipation in the wire is usually not a problem.
Re: "25% of the copper will dissipate the same power in a 24V system,"

Only if we are also trying to double the total watts in the circuit at the same time. That's not the case here.

We have to start with watts, and work our way back.
  • If we have a circuit that needs to supply a given power (in watts), doubling the voltage will halve the current.
  • Halving the current means we can use a (much) smaller wire.
  • The reason we can use (much) smaller wire is I^2R.
Practical example (from Vetus), and a table that gives the weight of copper in various AWG sizes attached.

Bottom line, any time we double the voltage, we can use 75% less copper, because I^2R.

In case you ever wondered why the 'high-tension' lines that distribute electricity in the grid over many hundreds of miles run in the range of 150,000 to 750,000 volts...at surprisingly low current...it's because I^2R.


https://www.engineersedge.com/copper_wire.htm
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Old 04-24-2019, 05:35 AM   #42
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Wil,


The simple solution to this is the 12V to 24V Sterling Power Pro Batt Ultra Battery to Battery charger (B2B) model BB122470.

The Sterling 12V to 24V B2B's were was specifically designed for this type of use. It is a fully custom programmable, multi-stage DC to DC charger, has a target battery temp sensor as standard equipment, a volt sense circuit and can be either ignition excited or voltage triggered. There is also a remote display available too.

Unlike ACR's, Echo Chargers, Digital Duo Chargers etc. this unit can float the bow bank even if house is still bulk charging as it is a true, fully independent, battery charger not just a voltage follower.
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Old 04-24-2019, 09:46 AM   #43
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Quote:
Originally Posted by Riverguy View Post
...For a 24v thruster, the dominant factor in the size of the wiring chosen will be ampacity, not voltage drop, even for longer runs. Because of this, voltage drop is not usually a problem in 24v thruster wiring.

But I suspect that voltage drop has less to do with wire size and much more to do with what the batteries and alternators can deliver during use of the thruster. What voltage, as measured at the batteries, is acceptable during operation? As a battery nears end of life they may not deliver an acceptable voltage. The appropriate question is, when is end of life?

In my situation, the existing batteries for my Wesmar 24VDC bow thruster (unknown hp) are Northstar NSB M12-210, which are combined . They are a very expensive AGM, and are basically a 4D at 132 lbs a piece. The maintenance logbook indicates they were installed February 2010, so they have 9 seasons. Realistically they are nearing end of life. So I did some tests:

With the charger just turned off for the test. Batteries are at 13.27 Volts, measured at the battery with digital meter.

5 second thruster test: drops down to 9.2 volts during the test. After the test, recovers to 12.94 volts quite quickly. I did this 4-5 times.

The thruster seems ok, perhaps a little less jump than I remember. Is the voltage drop to 9 volts excessively low?

In another test, I used the clamp meter and measured a peak draw of 368 amps @ 24 VDC = 8832 watts / 745 = 11.8 electrical hp.

However I had measured 9.3 VDC at the batteries during operation, which would suggest a possible correction of:

2*9.3/24*11.8= 9.2 effective hp.

Does this make sense?

Jim
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Old 04-24-2019, 10:01 AM   #44
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But I suspect that voltage drop has less to do with wire size and much more to do with what the batteries and alternators can deliver during use of the thruster... 5 second thruster test: drops down to 9.2 volts during the test. After the test, recovers to 12.94 volts quite quickly. I did this 4-5 times....Does this make sense?

Jim
You're talking about a different kind of 'voltage drop'.

When engineers talk about voltage drop, they are referring to the difference between the voltage at the current source compared to the voltage at the load point. All wires have resistance, and so a wire will 'drop' the voltage by dissipating heat along it's length when under load.

Excessive voltage drop in a wire happens when too small of a wire feeds too big of a load over too long a distance.
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Old 04-24-2019, 01:57 PM   #45
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House & Start Bank Design Issue

Yes, I’m aware of that. I’ve got 2/0 cables with very short runs to the thruster. 4/0 is possible I suppose, but my point is when you engage the thruster there is a large voltage drop that has very little to do with undersized wires, at least in my situation. There are other factors at play. So the question remains: how large a drop is too large?
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Old 04-24-2019, 02:17 PM   #46
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Quote:
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Yes, I’m aware of that. I’ve got 2/0 cables with very short runs to the thruster. 4/0 is possible I suppose, but my point is when you engage the thruster there is a large voltage drop that has very little to do with undersized wires, at least in my situation. There are other factors at play. So the question remains: how large a drop is too large?

What you are referring to is what is often referred to as battery voltage sag. If you check it with a fast volt meter, Fluke 289 etc., you may even see it hit 7V or lower then begin to rebound. As batteries age their ability to survive a massive in-rush current and hold voltage will drop off. When you stack batter voltage sag on top of wire and termination drop is where we start to get into rather anemic bow thruster performance. The TPPL AGM's do about the best at handling the in-rush, for lead acid batteries, but the are not immune from a voltage sag under a high load.
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Old 04-24-2019, 05:17 PM   #47
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House & Start Bank Design Issue

Thanks CMS. I’ve got these Northstar NSB M12-210’s. They are expensive puppies, but supply 2350 MCA’s. As they are so expensive, would a Group 32 suffice, or do I need to replace with something similar to the M12-210’s?

I would like to get them tested, but don’t have a meter myself and I think I would need a high end model* to test for cranking amps for such a high potential output.

*Edit: something like a Midtronics.

Jim
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Old 04-25-2019, 08:56 AM   #48
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CMS,
Thanks for the recommendation. I'm aware of the Sterling chargers, have a 40 amp one now. For now I'm sticking with the existing series-parallel Start bank charging system, now that I know it doesn't feed back to the 12v House bank when operating in 24v mode.

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Wil,

The simple solution to this is the 12V to 24V Sterling Power Pro Batt Ultra Battery to Battery charger (B2B) model BB122470.

The Sterling 12V to 24V B2B's were was specifically designed for this type of use. It is a fully custom programmable, multi-stage DC to DC charger, has a target battery temp sensor as standard equipment, a volt sense circuit and can be either ignition excited or voltage triggered. There is also a remote display available too.

Unlike ACR's, Echo Chargers, Digital Duo Chargers etc. this unit can float the bow bank even if house is still bulk charging as it is a true, fully independent, battery charger not just a voltage follower.
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Old 04-25-2019, 09:48 AM   #49
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Hi DDW,

I think you misunderstood my point -- I'll take the blame for that.

It's true that voltage = current x resistance, so voltage drop is proportional to resistance and current...but voltage drop is not the problem here. The problem is power loss in the wiring.

Power = [current^2] x Resistance (aka I-Squared-R)
Actually I am a BSEE and very familiar with these formulas. You missed my point - power loss on the charging or thruster wiring of a boat is for practical purposes a don't care. It is voltage loss that is hard on the motors. Power loss in long distance power distribution may be of concern to your local power company, but not on your boat except for some very unusual circumstances.

Doubling the voltage loss in the wiring will double the power reduction of the thruster as a result. It's pretty rare to find an owner who says, "I'd sure like it if my thrusters were less effective."
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Old 04-25-2019, 01:32 PM   #50
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Much too large...change 'em...quick!

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Originally Posted by JDCAVE View Post
...my point is when you engage the thruster there is a large voltage drop that has very little to do with undersized wires, at least in my situation. There are other factors at play. So the question remains: how large a drop is too large?

Re: "So the question remains: how large a drop is too large?"

Sorry JD, I misinterpreted the question. As previously mentioned, voltage drop is a function of resistance in a circuit somewhere. Voltage 'sag' under load is a measure of the health of your battery.

Now...short answer...given the size (CCA) of your battery bank and the current draw of your thruster, the voltage sag you are seeing is way, WAY too much. You are definitely in the 'danger zone'.

At 9.2v under your test load...these batteries are long gone given that (a) you put a 368 amp load on a battery bank of 2,350 MCA (about 1700 CCA), so your test load was only 22% of CCA, and (b) your test load was only five seconds...then you should have been way, way above 9.2v.

At 50% of CCA (roughly 850 amps) for 15 seconds, these batteries should have been at 9.7v @ 80 degrees.

Of course, we don't test big batteries that way anymore, but your informal test readings are so low that these batteries are now a safety hazard. After nine years, time to get them off of your boat.

I recommend you don't conduct any further load testing -- this is when batteries explode. For that matter, you probably don't want to use that thruster unless you absolutely have to...
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Old 04-25-2019, 02:55 PM   #51
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Thanks Riverguy. It is my belief that those measurements I provided were accurate. The Clamp meter is a “Blueseas” meter and while not a Fluke, it is a reputable meter for weekend warrior use.

Note that these tests were done during a 2 day period, In the middle of January, the batteries would have been at about 40 degrees F or less as the boat has minimal heat that time of year.

Jim
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Old 04-25-2019, 02:57 PM   #52
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Thanks Riverguy. It is my belief that those measurements I provided were accurate. The Clamp meter is a “Blueseas” meter and while not a Fluke, it is a reputable meter for weekend warrior use.

Note that these tests were done during a 2 day period, In the middle of January, the batteries would have been at about 40 degrees F or less as the boat has minimal heat that time of year.

Damn but these are expensive batteries! Can I get by with something with less MCA? As they are under the master berth, I need AGM.

Jim
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Old 04-25-2019, 05:40 PM   #53
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Quote:
Originally Posted by JDCAVE View Post
Yes, I’m aware of that. I’ve got 2/0 cables with very short runs to the thruster. 4/0 is possible I suppose, but my point is when you engage the thruster there is a large voltage drop that has very little to do with undersized wires, at least in my situation. There are other factors at play. So the question remains: how large a drop is too large?



When you did your battery measurements, the open circuit voltage should be measured after all charging sources have been removed for at least 4 hours so I suspect that your initial OCV is a little high. While SOH cannot be determined by SOC . According to your tests after 5 runs of 5 seconds drawing 360 amps the batteries OCV was 12.94 which Northstar considers fully charged. Did you happen to measure OCV on both batteries prior to and after running the thrusters? they should be within a few percent of each other. The batts are getting long in tooth but Northstar rates them for about 5000 cycles at a 20% discharge rate. I would monitor the voltage and temperature after running the thruster for awhile and only replace them if there are concerns with OCV collapsing or temp.


From Northstar manual
The SOC of a fully recharged battery is 100%. An estimate of the SOC can be obtained by measuring the Open Circuit Voltage (OCV) of the battery. The OCV of a battery is the voltage measured between its positive and negative terminals without the battery connected to an external circuit (load). It is very important to take OCV reading at least 3 hours after a charge period, or at least 10 min after a discharge event. Measurements will be inaccurate if these rest times are too short. A good quality voltmeter is all that is required to measure the OCV.



Sorry couldn't copy the graph:
The graph shows that a healthy, fully charged NSB automotive and marine battery will have an OCV of approximately 13.0 V.
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Old 04-26-2019, 03:34 PM   #54
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When you did your battery measurements, the open circuit voltage should be measured after all charging sources have been removed for at least 4 hours so I suspect that your initial OCV is a little high. While SOH cannot be determined by SOC . According to your tests after 5 runs of 5 seconds drawing 360 amps the batteries OCV was 12.94 which Northstar considers fully charged. Did you happen to measure OCV on both batteries prior to and after running the thrusters? they should be within a few percent of each other. The batts are getting long in tooth but Northstar rates them for about 5000 cycles at a 20% discharge rate. I would monitor the voltage and temperature after running the thruster for awhile and only replace them if there are concerns with OCV collapsing or temp.


From Northstar manual
The SOC of a fully recharged battery is 100%. An estimate of the SOC can be obtained by measuring the Open Circuit Voltage (OCV) of the battery. The OCV of a battery is the voltage measured between its positive and negative terminals without the battery connected to an external circuit (load). It is very important to take OCV reading at least 3 hours after a charge period, or at least 10 min after a discharge event. Measurements will be inaccurate if these rest times are too short. A good quality voltmeter is all that is required to measure the OCV.



Sorry couldn't copy the graph:
The graph shows that a healthy, fully charged NSB automotive and marine battery will have an OCV of approximately 13.0 V.

Thanks for that. I turned the thruster charger off sometime yesterday afternoon and at 13:30 today, it reads 13.06 volts, according to the Victron monitor. The batteries are hard to get at under the berth, so this was measured via the Victron monitor.

Jim
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Old 04-26-2019, 07:27 PM   #55
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Quote:
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Thanks Riverguy.

...tests were done during a 2 day period, In the middle of January, the batteries would have been at about 40 degrees F or less...

...Damn but these are expensive batteries! Can I get by with something with less MCA?...

Jim
Re: "Can I get by with something with less MCA?"

I suspect the answer is yes...but first thing I would do is consult your thruster manual. It will have a minimum recommendation for the total CCA and Ah of the thruster bank. FYI, the term "MCA" is mostly a marketing device. MCA is merely the CCA number...inflated somewhat by taking the spec at a higher temperature.

Note in the example from Vetus attached, they only require a pair of 55 Ah batteries with 500 CCA for the 95 kgf 24v thruster...

Re: "the batteries would have been at about 40 degrees F or less as the boat has minimal heat that time of year"

Ok, but as your load was still only 20% of the CCA (1,830 according to Northstar spec sheet), 9.2 volts still seems too low for that load, especially as these batteries are designed for low internal resistance.
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Old 04-26-2019, 09:21 PM   #56
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Thanks Riverguy. It’s time I guess. These batteries are so expensive, that it would be nice to be certain before replacement.

There are quite a variety of motors that were used in the installations of Wesmar Bow Thrusters is and, in my case, there is no identification plate as to the specs of it, amperage, HP, and so forth.

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Old 05-26-2019, 08:17 PM   #57
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House & Start Bank Design Issue

Update:

I phoned Wesmar and the tech there said that many people were using the Optima Yellow top. However, I had an opportunity to get 2 Northstar 190 FT Red batteries that had seen only light use and were near new. These are much larger batteries than the Optima and have much greater capacity. They are more similar to the current batteries.

I first did tests with the old batteries: voltages checked at the battery terminals and amperage leaving the batteries. I used 3 second bursts on the thruster (batteries combined in series with a Cole Hersee relay).

Old Northstar MS-210, Top battery: Volts: 9.0 Amps: 350
Old Northstar MS-210, Bottom battery: Volts: 9.9 Amps: 350
Average 3308 Watts.

New Northstar 190FT Red, Top battery: Volts: 11.4 Amps: 425
New Northstar 190FT Red, Bottom battery: Volts: 11.14 Amps: 428
Average 4790 Watts, or 45% more than the older ones.

So as Riverguy emphasized, the older batteries are at end of life. The thruster now has considerably more jump.
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Old 05-27-2019, 05:57 AM   #58
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"Is the voltage drop to 9 volts excessively low?"


I would not think so, many starters are 9.5V , and are also heavily loaded.
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Old 05-27-2019, 10:47 AM   #59
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House & Start Bank Design Issue

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"Is the voltage drop to 9 volts excessively low?"

I would not think so, many starters are 9.5V , and are also heavily loaded.

While the “starter” comparison is partly valid, you aren’t powering the boat with the starter. As long as it starts the engine within safe limits then it’s fine.

However the bow thruster is powered entirely from these batteries as in its current configuration, the charging source at 30 amps (Digital Duo Charge) is insufficient to contribute much in its operation. At a minimum, the thruster is operating at 70% of its capability, when the calculated power in Watts of the two sets of batteries are compared. In reality, it may even be less than that as the calculated power doesn’t go entirely to operation of the thruster blades, due to inefficiencies in the thruster motor.

Jim
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Old 05-27-2019, 01:23 PM   #60
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"you aren’t powering the boat with the starter" not really doing much boat powering with a thruster as many have short on times and longer cooling requirements.

Any time there is a voltage missing problem , I check the ground circuit first.

Then the temperature gun will show up really bad connections.

The final (desperation) move is to check operating voltage at each and every wire connection. Usually start from the batt and work down the line.

" MCA" is mostly a marketing device." yes just like like "Hi Fi".
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