Редактирование: Guide to power (раздел)

==== Distributing via SMESs ====

Distributing solar power through the SMESs is the generally preferred method of wiring the solars, mainly because it provides a steady power output and requires no extra wiring. One benefit of the pre-laid wiring to the SMES is that during a night cycle of the solar array the Engineer does not need insulated gloves to wire the solar array.

The maximum power generation of a typical solar array is 90 kW, and it is advised to set SMES inputs to the maximum 200 kW.   
  
The output on the SMES should be at most 50% of the 90 kW generated by the cells due to the revolution of the station around the local star (percentage estimated but unconfirmed). Since the solar has to collect enough energy in the day cycle of the array to output for both day and night, it's usually good to round down a little more. Additionally, if the solar is initially wired during its day cycle, it typically won't be able to collect enough to keep it charged for the first night cycle, resulting in a little bit of lag in the output of the solars.  
For example, if solar cells generate 85500 W (85.5 kW), the output shouldn't be bigger than 42750 W (42.75 kW). Typically, 40 kW is a good round number for long-term power output.  
  
If more power storage is desired, say in the initial stage of the set-up, the engineer may want to reduce or even eliminate power output for the first few solar cycles, before setting the long-term power output. 
  
Once all four Solar SMESs are adequately charged and outputting long-term power, they will provide a very dependable power output with almost no oversight needed. In our example, the station would receive 160 kW (4 arrays x 40 kW SMES output) from solars, which is usually more than enough to sustain the station on its own without the engine. This system is also modular, so that even if only three out of four Solar SMESs are used, the total power output is reduced accordingly but still completely steady.

That being said, if unchecked, power sinks can drain the solar SMESs, which if depleted would need to go through a solar cycle again before being able to provide steady, adequate power to the station.  
  
'''Pros:''' Steady power supply, no additional wiring necessary, stores power, modular, does not require insulated gloves.

'''Cons:''' Lag due to first night cycle and initial SMES charging, prone to being set up improperly, some power loss to correct for potentially broken panels, can be drained by power sinks.