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Parts by Number Top

Part # Distributor Manufacturer Product Category Description
DM163029 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided to the LCD module). Stepper motor and brushed DC motors. Analog temperature sensor (Microchip TC1047A). Light sensor. 32.768 kHz crystal for time generation. Human inputs: 4 tactile switches, 2 potentiometers. Over-current protection circuit. ICSP ™ programming capability and MPLAB ® ICD...
MTS62C19A Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The MTS6219A motor driver is an integrated circuit able to drive both windings of a bipolar stepper motor or bi-directionally control two DC motors. The two output bridges can sustain 40 V and deliver up to 750 mA of continuous current each. The maximum output current, controlled by a PWM circuit...
MTS2916A Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The MTS2916A motor driver is an integrated circuit able to drive both windings of a bipolar stepper motor or bi-directionally control two DC motors. The two output bridges can sustain 40 V and deliver up to 750 mA of continuous current each. The maximum output current, controlled by a PWM circuit...
NTE1857 Allied Electronics, Inc. NTE ELECTRONICS Not Provided INTEGRATED CIRCUIT STEPPER MOTOR DRIVER VM=12V TYP 16-LEAD DIP
MM908E626AVEK Digi-Key Freescale Semiconductor Integrated Circuits (ICs) IC STEPPER MOTOR DRIVER 54-SOIC
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Conduct Research Top

  • Stepper Motor Control Using the PIC16F684
    . Note: Please refer to AN907: Stepping Motor. this technique. Fundamentals for information on the types. of stepper motors, microstepping and. current limiting techniques. FIGURE 1: HIGH TORQUE MICROSTEPPING. nt. 1st Winding. +3S. +6S. +9S. Curre. 2nd Winding. Angular Position (S = rated step size
  • Low Cost Automation Tutorial: Stepper Motors
    Mechanism Design - 4 : Stepper Motor. Category : Drive mechanism design March19, 2010. Electrical actuators that can be motion controlled with sequence programs are suitable for positioning applications and multiple variety production systems. There are motors with direction reversing capability
  • Determining MOSFET Driver Needs for Motor Drive Applications
    driver is normally in the form of a power transistor. This can be a bipolar transistor, MOSFET or an Insulated Gate Bipolar Transistor (IGBT). In some small Brushless DC motor or stepper motor applications, the MOSFET driver can be used to directly drive the motor. For this application note, though
  • Detection and Shielding of Noise in Stepper Motor Systems
    that involves high power and small signal circuitry. The key is to manage the noise so that it does not interfere with the performance of the system at hand. Sources of Noise: Sources of noise can be external to the stepper motor system as well as within. The most common external sources are relays and motors
  • Application Note: Detection and Shielding of Noise in Stepper Systems
    are relays and motor. Internally, the relatively high current motor drivers are the source. All bi-polar stepper motor drivers apply a chopping function to the applied voltage of each phase. This chopping enables use of higher voltages than the motor is rated for, achieving higher speeds while
  • Basics of Servomotor Control (.pdf)
    or the design of the motors and drivers themselves. - The difference between a stepper motor and a servomotor configuration is shown below. The design and construction of the motors are also different. - Stepper motor operation is synchronized by command pulse signals output from the PCL or a pulse
  • Basics of PCD Series: Pulse Control LSIs (.pdf)
    frequencies that are appropriate for controlling specific motors. By sending operating patterns and commands from a CPU, you can leave the control of a motor up to the PCD. This decreases the overhead imposed on the CPU. This PCD series provides most of the functions required to control stepper motors
  • Medical Device Link .
    A hollow-shaft stepper allows access for electrical and optical cables through the central axis of the motor. The 2.25-in.-diam motor is bidirectional and based on a 1.8 step with noncumulative position accuracy of +-3%. The peak torque rating is 50 oz-in. Other features include permanently
  • Medical Device Link .
    Electronic and mechanical components and software Electromagnetic-interference (EMI) shields, stepper motors, display devices, and mechanical, electronic, and software components are the building blocks of every IVD instrument and the focus of this section of the buyers guide. Specifications should
  • Medical Device Link .
    stepper motor and driver configuration. Unlike separate stepper motors and drives that are built independently of each other using parts and labor unique to each assembly process, the unit uses processors and engineering to reduce manufacturing time. Advanced Micro Circuits Inc., Terryville, CT

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