Which motor control method should I choose? A motor control strategy that goes beyond power efficiency and speed control, not only enhances motor performance but also reduces product noise, vibration, and even transforms motors into sensors, expanding product capabilities while saving costs. Is this really possible? Every control method has its own features and Theta’s Direct Torque and Flux Control is proving to be the most complete when compared to the traditional methods. Click and discover how DTFC can lead your product to the next level. Learn more: https://lnkd.in/d67txsmz Contact us: contact@thetapowersys.com
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Grundfos Relative Pressure Sensor Standard, RPS. The RPS is a combined pressure and temperature sensor (two in one)form Grundfos Direct Sensors. #grundfos #pumps #sensor #pumpsensor #pumpsensors #jaypumps
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Speed & Torque Controller for Superior Micromotor Performance maxon’s ESCON2 is a sophisticated speed/torque controller for use in conjunction with micromotors. Applicable to both brushed DC and brush-less DC (BLDC) motors up to 1,800W continuous duty and 30A continuous current, it supports high precision control. Field-oriented control (FOC) algorithms are used for optimal operation and smoother performance, with a maximum efficiency of 98.5 % being attained. A 4-quadrant arrangement enables full control over forward and reverse motor directions, as well as braking. Absolute encoders, incremental encoders and Hall sensors can be incorporated when required. The ESCON2 can function as a standalone controller with analogue and digital signal command capabilities. It may also operate as a slave within a CANopen network (with 1Mbit/s data rates being handled). USB and serial (RS232) communication options can also be specified. 2 versions are available, with respective dimensions of 67mm x 43mm x 7.8mm and 93.5mm x 46mm x 41mm - the larger of these having a... READ MORE https://lnkd.in/e7G9s677 Amir Janjua Alex Byles Guenter Brunner Karen Whittaker William Mason Andrew Gibson
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Senior executive EDU (R&D) at Hero motors || M tech 2021 || Electric vehicle || EV charger || motor controller || BMS || power electronics
when driving a brushless DC motor system need to execute motor commutation ,which is when the motor moves from one position to next .To do this you must know where the rotor position is relative to the stator so that you can apply a magnetic field that forces the rotor to move in the disred direction. Sensored control implies that you are using physical sensors on the motor to determine the exact position of the rotor. Sensored scheme involved the many types of sensors like as Resolver,Encoder and Hall Effect sensors. Sensorless control means that you are using other method to estimate the rotor position without any physical sensors.its scheme uses no position sensors,so it must estimate the rotor position in relation to the stator by using parameters such as winding resistance ,or back EMF to determine where or when to commutate the motor.
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🔍 Seeking unparalleled precision in torque measurement? Meet the TRS600: a compact shaft-to-shaft rotary torque sensor delivering precision in both clockwise and counter-clockwise directions. 🔄 With a wide torque range (1 Nm to 100 Nm) and speeds up to 12,000 RPM, it's perfect for low/high-speed applications. The reactionary shaft enables measurements with or without rotation, ideal for tight spaces. Durable, low maintenance, and offering overload protection up to 150% of the rated output, it's your go-to for dynamic projects ➡ https://bit.ly/3OhOu29 #rotary #sensors #measurement
High stiffness and accuracy with non-contact shaft
futek.com
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What is a capacitive sensor? How does a capacitive sensor work? What needs to be taken into account when using it? We answer these and many other questions about capacitive sensors in our #SensorTalk. #Sensor #CapacitiveSensor
Capacitive sensor, principle structure function application switching distance explained in detail
https://www.youtube.com/
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In this file You will Learn about Electrical sensors And about all facutions of all sensors Like pressure sensor,like flow sensors,and level transmitter
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WHAT IS THE DIFFERENCE BETWEEN ABSOLUTE AND INCREMENTAL ANGLE SENSORS? The main difference between absolute and incremental angle sensors is the type of information they provide. Absolute angle sensors provide the exact angle of rotation, while incremental angle sensors provide information about the change in angle. The choice between the two types of sensors depends on the specific application. Read more at: https://lnkd.in/e-etuuaf #ebike #anglesensor
The Difference Between Absolute and Incremental Angel Sensors
https://sensitivus.com
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Sensing & Measurement Solutions.. Creating value by providing critical information for real-time decisions..
DIS Tilt Switches based on MEMS, detect slope or inclination relative to gravity and are set to trigger outputs at limits outside a safe operating zone. #mems #accelerometers #addressPosition #levelmeasurement
Looking for a versatile tilt switch for your moving machinery applications? DIS SENSORS QG40N Tilt Switches are a great solution as they allow you to set your own parameters to avoid false alarms. The sensor can be adjusted so that fast and abrupt motions do not negatively affect the sensor’s performance. Read about how it works: https://loom.ly/1m0iPjg
DIS Tilt Switch | Laser-View Technologies
https://laser-view.com
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Electrical Engineer | Eager to Learn and Innovate | Exploring the World of Technology and Power Systems |
In this Video I'll show you how to work a motor with Sensor. example: In an industry where we can use this, if 1000 quantities of any material passing over the sensors the motor will stop automatically. Working: Through the PLC (LADDER DIAGRAM)I'm using it as a push button start, stop, Sensor, Counter, motor etc. 1.Press the start button- Motor will Runs immediately 2.Sensors are given signals to the counter and the counter is counting up to 1000(set up according to the needs) 3.When Counter values are in 1000 then the motor will stop automatically (Hence The proved).
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Electronics and Electrical Communication Junior Engineering student at Cairo University || ESD Member at CURT || MM Member at TCCD
I am thrilled to share that I have completed an Motor control system with its colling system project that monitor the temperature and deals with the system with many ways depending on what is the value of the temperature. The project consists of : 2 Atmega 32 2 DcMotor 1 Lm35 temperature sensor 2 H-bridge 1 Servo motor 1 Potentiometer 1 Buzzer 1 Push button 3 Leds The system operates with four temperature states: ● Normal State: In this mode, the temperature is controlled not to exceed 40 degrees Celsius, ensuring that the machine operates safely within defined parameters . ● Normal State with Warning : In this mode, the temperature is within 40 to 50 Celsius, the red led will be lighten to indicate this state. ● Emergency state: This mode is initiated when temperatures fall above 50 degree Celsius for less than 7 seconds. It acts as an early warning, signaling potential cooling system issues or high load conditions that need attention. ● Abnormal State: If the temperature surpasses 50 degrees Celsius and remains at that level for 7 seconds, this mode becomes active. It signifies a critical scenario demanding immediate intervention to prevent damage or accidents. So in this case the servo will turn to 90 degree and the first MCU will immediately reset and the second MCU will work for 5 seconds only. Uart communication is used to communicate between the 2 MCU. I used timer to calculate the 7 seconds of emergency state and adc to use signal of lm35. We have a machine (Dc motor) connected to the 2nd MCU and its Speed is Controlled by the potentiometer . Our servo is normaly at 0 degree. 🟢If the temperature bellow 20 degree the green led will be on and the fan will be off 🟡If tempretue within range 20 to 40 Celsius the yellow led will be on and the fan will start work with gradually speed according to the tempreture 🔴If temperature between 40 to 50 Celsius The red Led will be on and fan will work with Highest speed and if the button pressed the machine will stop immediately. ⚠️If temperature is above 50 the buzzer will work and the system will undergo emergency or abnormal states mentioned above. For more details: https://lnkd.in/d_-d46tm
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Lead Principal Engineer (Motor Controls System Architect)
1moGlad to see and wish the great success of WPU alumni... All the best!