Product Description
Sychronous Brushless DC servo motor
Attributes: |
★ Modest/Middle/Substantial Inertia |
★ Embedded CZPT Rotor |
★ Higher energy density with more compact measurement |
★ Potent overload capability |
★ Large performance and minimal fever |
★ Minimal ripple torque |
Software Fields: | ||
★ Robotic Market | ★ Meals machinery | ★ Cell AGV |
★ Device instrument feed method | ★ Computerized generation lines | ★ Semiconduct sector equipments |
★ Textile equipment | ★ Intelligent storage products | ★ Lithium battery products |
★ Packaging machinery | ★ CZPT sorting system | ★ Special computerized machinery |
★ Healthcare tools | ★ Gate gear |
Models : QC7J-060430F1KUAA | |||
Rated Power | PN | W | four hundred |
Poles | P | pair | five |
Rated voltage | V | VAC | 24 |
Rated Torque | MN | N·m | 1.27 |
Peak Torque | Mmax | N·m | two.54 |
Rated Velocity | nN | r/min | 3000 |
Peak Velocity | nmax | r/min | 3200 |
Rated Current | IN | A | twenty |
Peak Current | Imax | A | forty |
Rotor Inertia | Jm | kg.m²×10-4 | .58 |
Brake Torque | N·m | >1.seven | |
Brake Power | W | 9.6 | |
Brake Voltage | VDC | 24V±5% | |
Brake recent | A | .three | |
Weight | Kg | 1.35 | |
Feedback | 2500ppr /absolute /Resolver | ||
Isolation Course | F(155ºC) | ||
High voltage take a look at | AC 1500V 60S | ||
Isolation resistance | DC 500V >20MΩ |
Single-section motors have a stator. They do not have the rotating magnetic field traits of polyphase or polyphase motors. The magnetic subject developed by the stator windings is pulsating, not rotating. When the rotor is stationary, the growth and contraction of the stator’s magnetic area create an electrical existing in the rotor. The existing makes the rotor magnetic field with the opposite polarity to the stator magnetic discipline. The opposite polarity applies rotational power to the upper and lower parts of the rotor. Because this drive passes by means of the middle of the rotor, it remains equal in every course, trying to keep the rotor stationary. If the rotor starts off to flip, it continues to flip in the route it began, simply because the rotor’s momentum produces a rotational pressure in that course. One-phase motors are employed in low-energy applications these kinds of as ceiling supporters, mixer grinders, and family appliances this kind of as portable electricity instruments.
Single-section motors have a stator. They do not have the rotating magnetic subject traits of polyphase or polyphase motors. The magnetic discipline created by the stator windings is pulsating, not rotating. When the rotor is stationary, the expansion and contraction of the stator’s magnetic subject produce an electrical present in the rotor. The present creates the rotor magnetic discipline with the reverse polarity to the stator magnetic subject. The opposite polarity applies rotational force to the upper and decrease areas of the rotor. Given that this force passes through the centre of the rotor, it remains equal in every single course, retaining the rotor stationary. If the rotor starts off to turn, it continues to turn in the course it started out, because the rotor’s momentum results in a rotational drive in that path. Single-section motors are employed in minimal-power apps this kind of as ceiling fans, mixer grinders, and home appliances these kinds of as transportable power tools.