July 19, 2012
Reflowing, soldering and breadboarding the Avago AEAT-6600-T16 absolute magnetic encoder:
This entry was posted on Thursday, July 19th, 2012 at 12:29 pm and posted in Uncategorized. You can follow any responses to this entry through the RSS 2.0 feed.
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Recent Posts
- Merging this blog with the company website:
- AS5048A sending position data to the ARM based mBed – almost there:
- Selecting an optimal bus to connect the motors and sensors:
- Second casting attempt, casting with more precision:
- Getting SSI to talk to SPI is proving to be quite challenging.
- Wiring the Avago AEAT-6600-T16 to the mBed (ARM Cortex-M3) via SPI:
- Reflowing, soldering and breadboarding the Avago AEAT-6600-T16 absolute magnetic encoder:
- In search of the right plastic and manufacturing process – Part 2:
- First casting attempt, learning how urethanes work:
- PCB assembly – Low cost reflow option
- Absolute magnetic encoder BLDC commutation sequence
- In search of the right plastic and manufacturing process
- Moved to sample 100:1 planetary brushless motor to simulate target motor design
- 50V 60A brushless DC motor controller design – Moving to the ARM Cortex-M3
- 50V 60A brushless DC motor controller design: We have rotation.
- PCB design software and low cost PCB manufacturing options:
- How to use really small ICs on a breadboard.
- Compression molding – Electrically heated, hydraulic, mold press – 10, 30 and 50 tons.
- Selecting a CNC machine to cut the molds
- Combining the frame and shell
- Moving to the ARM Cortex M3 with CAN-BUS for the motor controllers
- Motor, Gearbox and Controller Specification (All Custom Built):
- Motor, Gearing and Controller Designs
- Beginning of an Arduino 12V — 48V high amp brushless DC motor controller — Version 2
- Beginning of an Arduino 12V — 48V high amp brushless DC motor controller — Version 1
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