Midnite Solar Classic 200 set up help..
bryhan67
Registered Users Posts: 23 ✭✭
Hello all.. Trying to set up my classic 200. Little confused on battery amp hours. I have 10 T-105's what hour rate should I use? 20 hour is 225ah's I am running 12v system. 10 x 225 is 2,250ah @ 6volt. So would I use 1125 for my ah's? The manual was not clear on different voltage.
Comments
Your batteries are configured as two in series (a 12 volt string), and you have 5 strings in parallel.
Each string is 225 ah at 12 volts. The 5 strings in parallel have a 1125 ah capacity.
Your system (what little I know about it) raises a couple of red flags:
First: 5 strings of batteries is very poor design for a system that is going to be cycled frequently. When charging them, the current will not divide equally among the batteries. As the system becomes unbalanced, you will ultimately reach the point where some batteries are actually discharging into other batteries. You will need to use bus bars in a battery combiner box to wire the batteries. Also, for safety reasons, each string needs a fuse. The fuses will add complexity, resistance, and more potential points of failure to the system.
Second: You have a Classic 200 with a 12 volt system. This raises some concern about running the classic cool and efficiently. When the input voltage to the Classic is much higher than the battery voltage, the Classic is less efficient and has lower rated capacity.
Since you have a Classic 200 (rather than a Classic 150), I presume it is because you are running a high PV string voltage to the Classic. Stepping that high voltage down to 12 volts is very inefficient. The Classic 200 should usually be used with 48 volt systems (or even 72 volt systems).
The lower rated capacity of the Classic (at higher input voltage) is to protect it from overheating. How many watts of PV panels do you have, and what is the Vmp of the combined PV output? Hopefully you are nowhere near the Classic's capacity limit because it is not a good idea to run them for hours on end when they are on the verge of melting.
--vtMaps
http://forum.solar-electric.com/discussion/13179/series-rule-of-thumb
and this site:
http://www.smartgauge.co.uk/batt_con.html
--vtMaps
It would also be a good idea to invest in a DC clamp amp meter to monitor the discrepancy among the batteries.
--vtMaps
Here is a diagram with 4 strings of batteries connected in parallel with bus bars. Each of the 4 strings is two 6 volt batteries in series.
This diagram does not show the fuses, but each string should have a fuse.
--vtMaps
http://zoneblue.org/cms/page.php?view=off-grid-solar
The reason for the busbars (or otherwise exactly equal cable lengths) is that batteries have low internal resistance and the higher resistance in your diagram of the cables to the batteries furthest from the main cables will tend to make current sharing uneven.
http://zoneblue.org/cms/page.php?view=off-grid-solar
http://www.homepower.com/articles/solar-electricity/equipment-products/top-ten-battery-blunders-and-how-avoid-them/page/0/1?v=print
Not a lot of technical details, but does a good explanation of why we recommend what we do.
-Bill
https://www.bluesea.com/products/category/16/72/Fuse Blocks/Terminal Fuse Blocks (need to order fuses separately)
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/infubr.html (not cheap, fuses or holders)
For the prices, many times, you are better off with large DC Circuit Breakers--Almost as cheap as fuses+holders, and you get an On/Off switch thrown in too.
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/stfubr1.html
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/high-amperage-inverter-breakers.html
You will become a fuse/breaker expert--Whether you want to or not.
-Bill
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/stfubr1/mnepv.html
or
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/stfubr1/pamodccibr.html
For something to put them in:
http://www.solar-electric.com/installation-parts-and-equipment/midnite/elenanddcdi/misobigbabox.html
or
http://www.solar-electric.com/installation-parts-and-equipment/midnite/elenanddcdi/midcdipoce.html
Delivered to your door anywhere in the world. Aint it great?
http://zoneblue.org/cms/page.php?view=off-grid-solar
http://www.solar-electric.com/installation-parts-and-equipment/midnite/cipr1/stfubr1.html
You can put 8 of those T-105's in series to make a 48 volt system.... how much will it cost to make the switch to 48 volts? And how much of that number will you spend trying to avoid 48 volts? (bus bars, fuses, conduit, electrical boxes, battery cables, etc).
Sizing of the fuses is tricky... If they are too large, you don't have adequate protection. If they are too small, you may run into cascading failure.
Cascading failure: Suppose that the peak current you will ever draw from the battery bank is 500 amps. You put a 150 amp fuse in each of the 5 battery strings. If one battery has a poor or corroded connection or has high resistance, you would be drawing the 500 amps from just 4 strings... 125 amps per string in theory.
In practice, the batteries will not be perfectly balanced... as soon as one battery exceeds 150 amps, its fuse will blow and the 500 amps will be drawn from the remaining 3 strings, causing their fuses to blow in a cascade of dollars spent.
I don't know what advice to give regarding fuse size for individual battery strings... I would never design a system in which the question needs to be asked or answered.
--vtMaps