TWR-MC-LV3PH Quick Start Guide - Freescale Semiconductor
TWR-MC-LV3PH Quick Start Guide - Freescale Semiconductor TWR-MC-LV3PH Quick Start Guide - Freescale Semiconductor
Quick Start Guide Get to Know the TWR-MC-LV3PH MOSFET H-Bridge Motor Connector Encoder/HS Connector BEMF/Current Sensing Header Analog Voltage Selector TWR-MC-LV3PH Freescale Tower System Secondary Elevator Power Supply Connector Brake Resistor Connector Primary Elevator The TWR-MC-LV3PH module is part of the Freescale Tower System, a modular development platform that enables rapid prototyping and tool re-use through reconfigurable hardware. Take your design to the next level and begin constructing your Tower System today.
TWR-MC-LV3PH Features • Motor power and signal connectors • 3-phase bridge inverter (six MOSFETs) • 3-phase MOSFET gate driver with over current and under voltage protection • 3-phase current sensing shunts • 3-phase back-EMF voltage sensing circuitry for sensorless control • Encoder/hall sensor sensing circuitry • Power supply voltage input of 12–24V DC • Output current up to 8 amps • Power supply reverse polarity protection circuitry • DC bus voltage and current sensing • Low-voltage on-board power supplies • User LED, power-on LED, six PWM LED diodes TOWER SYSTEM Warning This development-tool set operates in an environment that includes rotating machinery. Be aware: • Wear safety glasses and use care to avoid contacting the motor or circuitry with clothing, ties or jewelry • Power supply circuitry and the motor can reach temperatures hot enough to cause burns
- Page 1: Quick Start Guide TWR-MC-LV3PH Low-
- Page 5 and 6: TWR-MC-LV3PH Jumper Options Jumper
- Page 7 and 8: TOWER SYSTEM
<strong>TWR</strong>-<strong>MC</strong>-<strong>LV3PH</strong> Features<br />
• Motor power and signal connectors<br />
• 3-phase bridge inverter (six MOSFETs)<br />
• 3-phase MOSFET gate driver with over current<br />
and under voltage protection<br />
• 3-phase current sensing shunts<br />
• 3-phase back-EMF voltage sensing circuitry<br />
for sensorless control<br />
• Encoder/hall sensor sensing circuitry<br />
• Power supply voltage input of 12–24V DC<br />
• Output current up to 8 amps<br />
• Power supply reverse polarity protection circuitry<br />
• DC bus voltage and current sensing<br />
• Low-voltage on-board power supplies<br />
• User LED, power-on LED, six PWM LED diodes<br />
TOWER SYSTEM<br />
Warning<br />
This development-tool set operates in an environment that includes rotating machinery. Be aware:<br />
• Wear safety glasses and use care to avoid contacting the motor or circuitry with clothing, ties or jewelry<br />
• Power supply circuitry and the motor can reach temperatures hot enough to cause burns