Control apparatus for use in an elevator

1. A control apparatus for an elevator comprising:

• power converter means for converting an alternating current into an alternating current of arbitrary frequency and voltage;
  
  a hoisting motor for raising an elevator car, said hoisting motor being powered by said power converter means;
  
  load sensor means for sensing a net load of the elevator car and outputting a detected load signal indicative of the net load;
  
  an operation management unit for issuing an operation command and a direction signal to the elevator car in response to a button signal generated by at least one of a destination button installed in the elevator car and a boarding button installed at an elevator station;
  
  a speed command generator for computing a speed command responsive to;
  
  the distance to a destination floor based on the operation command, the direction signal of the elevator car issued by said operation management unit, and the detected load signal from said load sensor means; and
  
  a speed control unit for controlling the speed of said hoisting motor by issuing a driving command to said power converter means in response to the speed command from said speed command generator, wherein;
  
  said speed command generator sets both the acceleration of the speed command during an acceleration phase and the deceleration of the speed command during a deceleration phase to a first acceleration when the net load of the elevator car is within a normal load region, the normal load region including a balanced load,said speed command generator sets the acceleration of the speed command during the acceleration phase to a second acceleration, lower than the first accelerations and the deceleration of the speed command during the deceleration phase to a third acceleration, higher than the first acceleration, when the elevator car is being lowered and the net load of the elevator car is in a light load region, wherein the net load of the elevator car ranges from a no-load condition to the normal load region,said speed command generator sets the acceleration of the speed command during the acceleration phase to the third acceleration and the deceleration of the speed command during the deceleration phase to the second acceleration when the elevator car is being raised and the net load of the elevator car is within the light load region,said speed command generator sets the acceleration of the speed command during the acceleration phase to the second acceleration and the deceleration of the speed command during the deceleration phase to the third acceleration when the elevator car is being raised and the net load of the elevator car is within a heavy load region wherein the net load of the elevator car exceeds the normal load region,said speed command generator sets the acceleration of the speed command during the acceleration phase to the third acceleration and the deceleration of the speed command during the deceleration phase to the second acceleration when the car is being lowered and the net load of the elevator car is within the heavy load region andsaid speed command generator sets both the acceleration during the acceleration Phase and the deceleration during the deceleration phase to the second acceleration when a fault in said load sensor means is detected.