Abstract: An equipment selection device for selecting peripheral equipment including servo motors and motor control devices in a multi-axis drive system includes circuitry which receives, for each operation axis, a selection of a speed pattern from available speed patterns determined in advance, receives, for each operation axis, a selection of a driven mechanism from available driven mechanisms determined in advance, extracts, for each operation axis, in response to receiving the selection of the driven mechanism and from servo motors and motor control devices determined in advance, one or more servo motors and motor control devices matching variation of a load mass borne by the selected mechanism when operating in conjunction with other mechanisms and matching the selected pattern, generates a list from the extracted servo motor or motors and motor control device or devices, displays the list, and receives selection from the list.

Abstract: A motor controller capable of detecting an oscillation of a feedback loop and performing gain adjustment while updating a gain value of a control unit is provided. The motor controller includes an electric motor, an operation-amount detector, a control unit, a machine, a disturbance signal generator which generates a sweep sine wave, a compensation-driving-force detector, a vibration calculator, an oscillation detector, a vibration storage, a simulated open-loop gain calculator, a gain changer, and an automatic gain changer, and detects an oscillation by processing a response signal in time series on the basis of a first threshold regarding to a magnitude of vibration and a second threshold regarding a frequency.

Abstract: Provided is an apparatus for selecting a motor controller, the apparatus including a selection calculation unit, an input unit, an output unit, a mechanism condition input unit, a command setting unit, a monitoring unit, and an evaluation unit. The apparatus can select a motor controller registered in the characteristics database and machine parts registered in a mechanism condition characteristics database on the basis of an operation pattern and a mechanism condition. The apparatus can evaluate whether a combination of the motor controller and the machine parts is operable as a machine system.

Abstract: To be able to restrain a height of a machine even when the machine is large-sized and smoothly move a table in XY? directions. An alignment apparatus includes two translational freedom degree guide portion (13), one rotational freedom degree guide portion (12), a translational drive/translational/rotational freedom degree mechanism module (6) including a linear motor provided at one of the translational freedom degree guide portion (13), a machine base portion (7), a reference generator portion (8), a two-dimensional position sensor (9), a calculating portion of compensation value (10). At least three of the translational drive/translational/rotational freedom degree mechanism modules (6) are uniformly arranged to a table (4).

Abstract: Provided is an apparatus for selecting a motor controller, the apparatus including a selection calculation unit, an input unit, an output unit, a mechanism condition input unit, a command setting unit, a monitoring unit, and an evaluation unit. The apparatus can select a motor controller registered in the characteristics database and machine parts registered in a mechanism condition characteristics database on the basis of an operation pattern and a mechanism condition. The apparatus can evaluate whether a combination of the motor controller and the machine parts is operable as a machine system.

Abstract: A motor controller capable of detecting an oscillation of a feedback loop and performing gain adjustment while updating a gain value of a control unit is provided. The motor controller includes an electric motor, an operation-amount detector, a control unit, a machine, a disturbance signal generator which generates a sweep sine wave, a compensation-driving-force detector, a vibration calculator, an oscillation detector, a vibration storage, a simulated open-loop gain calculator, a gain changer, and an automatic gain changer, and detects an oscillation by processing a response signal in time series on the basis of a first threshold regarding to a magnitude of vibration and a second threshold regarding a frequency.

Abstract: There is provided an alignment apparatus of rotating a table by translational driving to be able to operate the table in XY?, Y?, or ? accurately. 4 pieces of drive systems for driving a table (4) mounted with an object (5) includes a translational freedom degree portion (11), a translational drive portion (12), and a rotational freedom degree portion (13), further, an alignment apparatus is made to be able to return to an original point by providing a motor (1) and a detecting apparatus (2) at a machine fixing apparatus (41), accurately fixing the table (4) by the machine fixing apparatus (41) by using a first positioning apparatus and a second positioning apparatus, and a first position fixing apparatus and a second position fixing apparatus, and storing a detecting apparatus reference position at a detecting apparatus reference position storing apparatus (44).

Abstract: To be able to restrain a height of a machine even when the machine is large-sized and smoothly move a table in XY? directions. An alignment apparatus includes two translational freedom degree guide portion (13), one rotational freedom degree guide portion (12), a translational drive/translational/rotational freedom degree mechanism module (6) including a linear motor provided at one of the translational freedom degree guide portion (13), a machine base portion (7), a reference generator portion (8), a two-dimensional position sensor (9), a calculating portion of compensation value (10). At least three of the translational drive/translational/rotational freedom degree mechanism modules (6) are uniformly arranged to a table (4).

Abstract: A resonance frequency detecting device of a multi-shaft electric motor control apparatus includes a plurality of electric motor control systems having electric motors (31, 32) for driving machines (41, 42) and controllers (21, 22) for driving the electric motors (31,32), detectors (51,52) for detecting the operating amounts of the machines (41,42), signal processors (61,62) for analyzing the frequencies of the signals of the detectors (51,52) and outputting the frequencies as resonance frequencies, and output devices (81,82) for changing the signals of the signal processors (61,62) into graphs or numeric values, a command generator (11) for giving the electric motor control system a control command for transmitting a vibration to the machines (41,42) is provided to input the signals of the detectors (51,52) to the signal processor (61) and to output them as resonance frequencies.

Abstract: A resonance frequency detecting device of a multi-shaft electric motor control apparatus includes a plurality of electric motor control systems having electric motors (31, 32) for driving machines (41, 42) and controllers (21, 22) for driving the electric motors (31,32), detectors (51,52) for detecting the operating amounts of the machines (41,42), signal processors (61,62) for analyzing the frequencies of the signals of the detectors (51,52) and outputting the frequencies as resonance frequencies, and output devices (81,82) for changing the signals of the signal processors (61,62) into graphs or numeric values, a command generator (11) for giving the electric motor control system a control command for transmitting a vibration to the machines (41,42) is provided to input the signals of the detectors (51,52) to the signal processor (61) and to output them as resonance frequencies.

Abstract: A machine model estimating device of an electric motor control apparatus having an electric motor for driving a load machine, a rotation detector for detecting a rotating angle of the electric motor, and a servo control device for controlling the electric motor. The machine has a calculating device for outputting an operation command signal for operating the electric motor to the servo control device, and frequency characteristic equations for a rigid body model and an N-inertia model, N being an integer which is equal to or greater than 2, which are previously input to the calculating device. The calculating device includes a frequency characteristic measuring section, a frequency characteristic peak detecting section, an attenuation estimation value analyzing section, a frequency characteristic error calculating section, and a machine model deciding section.

Abstract: A resonance frequency detector for an electric motor controller in which a resonance frequency can be measured at high speed by a simple calculation and the resonance frequency can be detected by an inexpensive computer is provided. In an electric motor control system including an electric motor (3) for driving a machine, a detecting unit (5) for detecting an amount of operation of the machine (3) and a controller (2) for receiving a control command to drive the electric motor (3), a command generator (1) generates a sweep sine wave signal to input the signal to the electric motor control system, and the frequency information of the sweep sine wave signal outputted by the command generator (1) and the signal of the detecting unit (5) are inputted to output the frequency of the sweep sine wave signal when the absolute value of the signal of the detecting unit (5) becomes maximum as a resonance frequency.

Abstract: In an electric motor control apparatus including an electric motor 4 for driving a load machine, a rotation detector 3 for detecting a rotating angle of the electric motor 4, and a servo control device 2 for controlling the electric motor 4, a calculating device 1 automatically calculates protruded shapes to be a resonance frequency and an anti-resonance frequency from frequency characteristics obtained from an operation command signal 8 and a rotation detector signal 9, and furthermore, calculates errors of frequency characteristics calculated by frequency characteristic equations 20 for a 2-inertia model and a rigid body model from a frequency characteristic obtained by a measurement, and compares the minimum values of calculated values in the frequency characteristics of the 2-inertia model and the rigid body model and measured values respectively, thereby automatically modeling the characteristic of the machine.

Abstract: A resonance frequency detector for an electric motor controller in which a resonance frequency can be measured at high speed by a simple calculation and the resonance frequency can be detected by an inexpensive computer is provided.

Abstract: A electric motor control device is provided for controlling an electric motor which actuates a movable member of a machine through a transmitting mechanism. When a torque command is given as motion command signal (9) to servo device (3), servo device (3) sends input torque signal (12) corresponding to motion command signal (9) to electric motor (5), which is energized. Movable member (7) is thus moved, producing vibrations. Servo device (3) outputs input torque signal (11) equivalent to input torque signal (12), and input torque signal (11) and rotational speed signal (10) are stored in memory device (2). Analyzing device (1) analyzes the frequencies of input torque signal (11) and rotational speed signal (10) according to an FFT, and outputs analytical result (14).