Control apparatus for an A.C. generator for automobile

A voltage control apparatus for an a.c. generator for automobiles has a reference voltage circuit (4) comprising a resistance type voltage dividing circuit having a first voltage dividing point (413), which divides the constant voltage of the constant voltage circuit by voltage dividing resistors (401,402), a first resistance-diode type voltage dividing circuit having a second voltage dividing point (414), which divides the constant voltage by voltage dividing resistors (403,404) and diodes (405,406), a second resistance-diode type voltage dividing circuit having a third voltage dividing point (415) which divides the constant voltage by voltage dividing resistors (407,408) and diodes (409,410), and first and second diodes (411,412) respectively connected between the first and second voltage dividing points (413,414) and between the first and third voltage dividing points (413,415) so as to have polarities opposite to each other in such a manner that a potential at the first voltage dividing point (413) is not changed even by a rise in temperature in a low temperature region lower than a first predetermined temperature; the potential at the first voltage dividing point is rendered to be a negative characteristic to temperature in the middle temperature region from the first predetermined temperature to a second predetermined temperature; and a voltage reduction rate of the potential at the first voltage dividing point is changed in a high temperature region higher than the second predetermined temperature; and a voltage control circuit (3) which compares a divided voltage of a resistance type voltage dividing circuit (8,9) with the voltage at the first voltage dividing point (413) as a reference voltage and controls a field current to a field winding (412) depending on a difference in the comparison to thereby make the voltage of a battery (12) constant.