MPPT Interface Board

Description	Record MPPT data
Target release
Epic
Document owner	Titus Chow
Project leads	Titus Chow, Taiping Li
Team members	Pei Liang Guo, Mena Labib (Unlicensed), Hanna Muratovic (Deactivated), Ayushi Shah

Goals

Isolate ADC
Interface with Nomura MPPT
Record voltage and temperature per-module and current per-string

Background and strategic fit

We're planning on using Nomura MPPTs. Each MPPT is designed to connect to a smaller number of cells and output up to around 30V. A few of these MPPTs are then put in series. Theoretically, this should maximize the performance of our array in non-optimal conditions.

We're like to record data on the array to optimize our strategy and charging.

Assumptions

Our MPPTs will output around 30V at max
Our array should generate around 1kW at max
Our MPPTs will be integrated into the array modules
We will need to deal with communications over 1m+ cables

Requirements

#	Title	User Story	Importance	Notes
1	Work with Nomura MPPTs	We're using 10 Nomura MPPTs, 5 in series for 2 strings total. They don't have any public way of interfacing with them, but we'd like to collect data on our array.	Must Have	Most likely using a master board for current sensing and I2C slaves for each MPPT
2	Record voltage and temperature per-module	We'd like to know the voltage and temperature of each module so we can tell how each module is performing and any potential hotspots.	Must Have
3	Record current per-string	We'd like to know the current provided by each string so we can calculate the overall power of the solar array.	Must Have
4	Isolated	We want to make sure that our ADCs are isolated from the rest of the boards and ADCs.	Must Have
5	Low-cost/Simple	We'd like to make these boards as simple as possible to reduce development time. Ideally we shouldn't need to write firmware for the slave boards.	Must Have

Questions

Below is a list of questions to be addressed as a result of this requirements document:

Question

Outcome

What kind of architecture are we using?

Master node with controller board living in the roof enclosure

Slave nodes (no MCU) attached to each MPPT

How will our boards communicate?

We plan on using I2C. It allows us to communicate with multiple slaves and handles long wires pretty well.

To improve our signal integrity, we're looking into using P82B96s, which are designed for I2C over long distance. This is a pretty good resource on I2C over long distances.

What's powering the boards?

We will most likely run I2C SDA/SCL, power and ground to each of our slave nodes. Trying to power the nodes directly from the MPPTs would require a buck-boost for each board.