Morningstarr mppt charger ?

I've been using the 45 amp version for the last 5 years on a smaller 490 watt 12v  system.       It's worked well for me and the included temp probe allows it to protect the batteries on those hot summer days.      While I don't have one you can install the optional face plate display.

The ProStar MPPT Heatsink is on the back of the controller instead of the front. The heat sink is designed with passive cooling so it has no fans. High efficiency also makes it run cooler as efficiency losses result in heat. During voltage regulation the current and power is reduced so it will operate closer to Voc rather than diversion to a dump load.  
It is rated to 60C full output for 24V systems. There is some derating with 12V systems at high temps based on input voltages as indicated on page 74 of the manual. Please note that the graphs are only in regards to 12V systems. Unless you have a Vmp > 80V it will not derate below 40C. The lower the array voltage is the less it will derate since it is more efficient at lower voltages. 
The PS-MPPT meter model includes a new graphic meter with custom settings capability. Otherwise the RM-1 is a basic digital display for monitoring only.
DIP Switches provide options for presets for plug and play capability or custom settings and other options.
Our UMC-1 USB to Meterbus adapter can be used to connect to a laptop with Windows to program custom settings also.
Custom settings include temp. comp. adjustment capability.
The RTS remote temp sensor can provide more accurate measurement of the battery temp at the battery than the built-in temp sensor for the PS-MPPT. You would need to purchase the RTS separately. The TS-MPPT includes an RTS but the TS (PWM) does not. Also, one of the TriStar controllers include internal temp sense so the RTS should always be used with any TriStar set up for charging control. The only exception might be for temp. controlled indoor environments or if you don't want any temp. comp such as for lithium batteries.
PWM controllers work just as well as MPPT controllers at keeping batteries fully charged. However, there is more MPPT boost in colder environments when the array voltage gets higher and also when the battery voltage gets low which are two critical times to achieve better charging. With large enough systems you might get enough added charging capability to make it worth the price of an MPPT controller.
MPPT also allows for higher voltage strings which can save on wire sizing, combiner costs and using any type of module you want.

MStar1 said:

Almost all MPPT controllers include only buck conversion which transforms the higher PV voltages to lower battery DC voltages.

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 they will all result in a DC-DC power buck conversion from a higher input PV DC voltage to a lower output battery DC voltage.