Motor control device

The invention claimed is: 1. A motor control device including: a converter circuit that converts AC power of a system power supply, which is input through an inserted system impedance, to DC power via full-wave rectification and that outputs the DC power between positive and negative DC busbars; a main-circuit capacitor that removes a ripple component included in a bus voltage between the positive and negative DC busbars to smooth and stabilize the bus voltage; an inverter unit that performs switching of the bus voltage, formed and stabilized by the main-circuit capacitor, according to a control signal to convert the bus voltage to an AC voltage and to generate AC power for driving a motor; a voltage detection unit that detects a DC voltage applied to the main-circuit capacitor; an inverter control unit that that generates the control signal that controls a switching operation of the inverter unit, and computes an output power to the motor based on the detected DC voltage, a detected output current to the motor, and a set carrier frequency; a system-impedance setting unit that sets the inserted system impedance as an impedance parameter; a first storage unit that stores, in advance, ripple-current calculation data; a capacitor ripple-current estimation unit that estimates a ripple current through the main-circuit capacitor, based on the inserted system impedance set as the impedance parameter, the output power calculated by the inverter control unit, the set carrier frequency, and the stored ripple-current calculation data; an ambient temperature sensor that detects an ambient temperature of the main-circuit capacitor; a second storage unit that stores, in advance, a capacitor life data; a capacitor life estimation unit that estimates an internal temperature of the main-circuit capacitor based on the detected DC voltage, the detected ambient temperature of the main-circuit capacitor, the stored capacitor life data, and the estimated ripple current, estimates a lifetime of the main-circuit capacitor by using the estimated internal temperature, calculates an accumulated capacitor lifetime and a capacitor life consumption ratio by using the estimated internal temperature and the estimated lifetime, and stores, repeatedly for every lifetime computation cycle, the accumulated capacitor lifetime and the capacitor life consumption ratio in the second storage unit; a capacitor life determination unit that compares the calculated accumulated capacitor lifetime with a reference lifetime stored in the second storage unit as the capacitor life data, and generates a pre-alarm when the accumulated capacitor lifetime and the reference lifetime are substantially equal to each other; and a display unit that displays the generated pre-alarm. 2. The motor control device according to claim 1 , further comprising: an expected life setting unit that sets an expected lifetime of the main-circuit capacitor; and an operating-time accumulation unit that accumulates an operating time of the motor control device; wherein the capacitor life estimation unit estimates a remaining lifetime of the main-circuit capacitor by using the estimated internal temperature, the capacitor life determination unit obtains a difference between the expected lifetime of the main-circuit capacitor and the accumulated operating time of the motor control device, compares the obtained difference with the estimated remaining lifetime of the main-circuit capacitor, and outputs a power reduction command upon determining that the expected lifetime of the main-circuit capacitor cannot satisfy the estimated remaining lifetime, and the inverter control unit changes the control signal output to the inverter unit to a control signal that decreases the output power to the motor, when the power reduction command is output from the capacitor life determination unit. 3. The motor control device according to claim 1 , wherein the first storage unit stores ripple-current coefficients related to the ripple current, and the capacitor ripple-current estimation unit estimates the ripple current based on the ripple-current coefficients. 4. The motor control device according to claim 1 , wherein the capacitor life estimation unit uses the accumulated capacitor lifetime, which has been calculated in a previous lifetime computation cycle and stored in the second storage unit, in a calculation of the accumulated capacitor lifetime being performed in a current lifetime computation cycle.