Portable terminal and display controlling method thereof

1. A portable terminal comprising:

• a terminal body including a printed circuit board and a display;
  
  a battery compartment formed in the terminal body, wherein the battery compartment is sized to receive a battery, the battery compartment including an aperture configured to expose a terminal portion of the battery to an interior of the terminal body;
  
  a compartment cover being configured to removably couple to the terminal body at the battery compartment, wherein in a coupled state the compartment cover conceals the battery compartment regardless of whether or not the battery is in the battery compartment and in a decoupled state the compartment cover exposes the battery compartment to an outside of the terminal, the compartment cover including a recessed portion extending into the compartment cover from a rear surface of the compartment cover;
  
  a solar cell affixed to an outer side of the compartment cover, wherein the solar cell is configured to convert light into electric energy for charging the battery;
  
  a first connection terminal located coupled to the recessed portion of the compartment cover such that the entirety of the first connection terminal is within the recessed portion of the compartment cover, the first connection terminal electrically connected to the solar cell;
  
  a first element coupled to the circuit board at a location that is adjacent to the aperture and adjacent to the recessed portion when the compartment cover is in the coupled state;
  
  a second connection terminal protruding from the first element in a first direction such that the second connection terminal extends into the recessed portion of the compartment cover to electrically couple to the first connection terminal when the compartment cover is in the coupled state, and the second connection terminal is electrically disconnected from the first connection terminal when the compartment cover is in the decoupled state;
  
  a third connection terminal that protrudes from the first element in a second direction and extends into the aperture to contact a contact of a battery in the battery compartment, wherein the first direction and the second direction are substantially orthogonal;
  
  a sensing unit electrically connected to the solar cell and configured to detect a quantity of electric energy generated by the solar cell;
  
  a switching unit including a first switch and a second switch, the first and second switches electrically connected in parallel to the sensing unit, the first switch further electrically connected to the third connection terminal, and the second switch further electrically connected to ground, wherein the switching unit is configured to close the first switch and open the second switch while a battery in the battery compartment is not fully charged during a charging operation such that the electric energy generated by the solar cell is provided to the battery through the first switch, and to open the first switch and close the second switch while a battery in the battery compartment is fully charged during the charging operation such that the electric energy generated by the solar cell is provided to ground; and
  
  a controller that is electrically connected to the second connection terminal, the controller configured to control battery charging in the battery compartment, and further configured to control a brightness of the display based upon the quantity of the detected electric energy of the solar cell.