Uri Levine at SXSW 2023

I had the pleasure of meeting Uri Levine at SXSW. He is an entrepreneur, investor, and innovator who has created many successful companies. Most notably, he co-founded Waze - a GPS navigation software app that was acquired by Google for $1.1 billion in 2013. I first had the pleasure of experiencing his mentoring leadership through the PowerMBA / Power Business School Program.

He also recently published a new book titled “Fall In Love With the Problem, Not the Solution,” which explores how entrepreneurs can work towards solving the problems that they are passionate about. In his presentation at SXSW, he shared some of his insights on successful problem-solving. He also conveyed that before trying to solve a problem, it's essential to understand and care about the people who are affected by it.

Uri conveyed that to be a successful entrepreneur; you need to have an entrepreneurial spirit and be willing to keep working on your ideas even when you run into problems. It was incredibly inspiring to meet Uri in person at SXSW. His enthusiasm for problem-solving is infectious, and his advice is invaluable. Below, I have included the links to his main website, new book, and the PowerMBA / Power Business School Program.


SXSW 2023

So happy to be at SXSW (South By Southwest) 2023. It is an event that celebrates the best of creativity and innovation, hosting some of the world's leading minds in technology, entertainment, business, and more. This year's festival promises to be bigger and better than ever, with a wide variety of panels, workshops, and events designed to provide insight into how we can use creative thinking to shape our future. Whether you're looking for inspiration or want to experience something new, this is one event not to be missed.

Today was phenomenal, as attendees had a chance to learn from some of the most innovative minds in the world. The panels covered topics ranging from sustainability and disruptive innovation to artificial intelligence. Attendees also met with notable speakers from various disciplines. It is truly one of the best places to gain insight into the ever-evolving landscape of technology and its potential.

HBS Certificate of Specialization in Leadership and Management Completion

The HBS Certificate of Specialization in Leadership and Management was a wonderful learning experience. Throughout 2022 and 2023, the program focused on effective leadership, management, and negotiation. I would like to thank Professors Joseph Fuller, Joshua Margolis, Anthony Mayo, and Michael Wheeler for teaching the curriculum and providing invaluable insights throughout the courses.

This program gave me a deeper understanding of organizational culture, decision-making, and effective communication strategies. Furthermore, I learned how to motivate teams to achieve business objectives. As part of the program, I was able to adapt my research work in the areas of Cloud Computing, AI/ML, and Human Genome Sequencing for precision medical treatments, but from a management and leadership perspective. It was an absolute pleasure to be part of this program, and the knowledge acquired will be invaluable for my research papers, patents, and book.

Being a leader is not just about having the technical skills but also understanding the impact of culture, communication, and leadership styles on any organization. Bringing individuals together in an environment where everyone succeeds and is acknowledged while solving some of the most complex issues is what enables disruptive technologies and methodologies to have the most significant positive impact. We all have something to bring to a team, and creating an environment where everyone equally thrives is essential. Attending these courses and completing the Leadership and Management Specialization from Harvard Business School has been an honor.

3D Printed Jet Engine Project Through Additive Manufacturing

For one of my UC Berkeley projects, I wanted to demonstrate complex rapid prototyping through Additive Manufacturing. Since I was young, I have loved Jet Engines and thought this would be the perfect project.

My 3D Printed Jet Engine project for UC Berkeley was a great way to demonstrate the power of rapid prototyping through Additive Manufacturing. I chose to focus on a Jet Engine because of the complexity and beauty of the design. Using 3D Printing, I created a working model with smooth curves and intricate details.

The process of constructing the Jet Engine started by breaking down the components into smaller pieces and determining which parts needed to be printed. Once all the parts were fabricated, they needed to be assembled into one cohesive unit - this is where 3D Printing came in handy again. Using FFF/FDM 3D Printing, I could quickly and accurately assemble the parts into a functional turbine engine. Utilizing 3D Printing for assembly allowed for quick iterations when making adjustments. Heavy-duty bearings utilized in the build permitted for fully functional and independent rotations.

Fascinated by this potential, I am creating more complex designs and exploring other applications, such as aerodynamic testing with 3D Printed turbines in wind tunnels and more accurate simulations through multi-physics software tools. I hope to continue pushing the boundaries of 3D Printing and its potential applications in the engineering world.

Operating Principles Behind the Jet Engine

A Jet Engine works by using a fan to draw in air and compress it. The compressed air is then passed through a combustor, where fuel is injected and burned, creating the heat necessary for thrust. This heated air is then forced through one or more turbines that take some of the energy from the hot gas stream and convert it into mechanical power, which powers the fan. Finally, the remaining hot gas stream is expelled from the nozzle to provide thrust for aircraft propulsion.

The entire process can be broken down into four simple steps: Induction, Compression, Combustion, and Expansion (Thrust). By understanding how these four processes work together to create motion, engineers can build powerful yet efficient engines. With 3D Printing, engineers are now able to develop Jet Engines that are even more efficient and powerful. By creating intricate components with smooth curves and precise measurements, 3D Printed Jet Engines can take full advantage of fluid dynamics and provide better overall performance.

HBS Certificate of Specialization in Entrepreneurship and Innovation Completion

The HBS Certificate of Specialization in Entrepreneurship and Innovation was a phenomenal learning experience. Throughout 2021 and 2022, the program intensely focused on Disruptive Strategy, Design Thinking, and Negotiation Mastery. I want to thank Professors Rory McDonald, Srikant Datar, and Michael Wheeler for imparting their knowledge and extensive experience in this field. Each course was extremely enlightening as it gave a comprehensive overview of developing, designing, and launching innovative products or services in the market.

The Disruptive Strategy course was invaluable in identifying and seizing opportunities. It helped me develop an entrepreneurial mindset and recognize potential market gaps. The Design Thinking course enabled me to explore creative solutions that can solve customer problems while leveraging existing resources. Finally, the Negotiation Mastery course taught me effective negotiation techniques and strategies for successful business transactions.

2022 and 2023 have had an overlapping focus on the HBS Certificate of Specialization in Leadership and Management as well. I'm currently working on my last course in the specialization and should be completed by the beginning of February. I am honored that Harvard Business School allowed me to learn and apply leadership and management principles and gain valuable insights regarding entrepreneurship and innovation.

CES 2023 Is Here

CES 2023 is here and promises to be one of the most exciting CES events yet! CES has been a significant source of innovation for decades, showcasing cutting-edge technology from some of the world's top tech companies. This year's show promises to bring even more incredible innovations, unveiling many new products by some of the biggest names in tech. The exhibits open today, and I'm really looking forward to checking out the insane amount of mind-bending innovations. CES never disappoints! 

Berkeley Leading Complex Projects Program Completion

The University of California, Berkeley Executive Education's Leading Complex Projects Program is an invaluable resource for any executive looking to hone their leadership skills and gain a competitive advantage in today's business landscape. Completing this program provides access to some of the most forward-thinking minds in academia and industry, as well as insights into cutting-edge research from national laboratories and Silicon Valley's vibrant ecosystem - all combined into one dynamic learning environment.

Having recently completed this course myself, I can attest that it was incredibly enriching both personally and professionally. Not only did I acquire an understanding of complex project management concepts such as scope, budget, and risk management, but I was also exposed to the latest technology trends and an advanced understanding of leadership principles.

I have one more course remaining in the two-year UC Berkeley CTO Post-Graduate Program, and then graduate in June 2023. My last course in the program, Berkeley Business Analytics for Leaders (From Data to Decisions), utilizing AI/ML focuses on applying analytics techniques to drive business impact, resulting in more efficiency, better decision-making, and strategic advantages for organizations.

UC Berkeley Innovation, Management, and Leadership Education Update

UC Berkeley has provided a phenomenal experience over the last year as I focus on my CTO Innovation, Management, and Leadership post-graduate program. Every day I am blown away by the caliber of professors and the knowledge I gain from attending this world-renowned university.

It is a humbling experience and an honor to work with some of the brightest minds in the world. My goal over the last decade has always been to link disparate technologies and methodologies to solve some of the most complex problems. Finally, it is all coming together, and I couldn't be happier. In just a couple more courses, I will graduate in June 2023!

Pragmatic Institute Product Manager Certification Completed

Over the last few years, my studies at Berkeley, Harvard, MIT, and Wharton have been heavily focused on Product Innovations and Product Management. I am happy to announce that I have successfully completed the Pragmatic Institute Product Manager Certification. The program covers topics such as Product Strategy, Product Marketing, and Product Development. Within 2022, I also plan to complete the AIPMM Product Manager and AIPMM Certified Innovation Leader Certifications.

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Business Model Canvas Concepts and Examples

Are you familiar with the Business Model Canvas? If not, don't worry - you're about to become an expert! The Business Model Canvas is a tool used to document and develop business models. Business Model Analyst does a phenomenal job in providing Business Model Canvas Concepts and then diving into some of the top company's business models. With the material below, we'll be discussing the fundamental concepts of the Business Model Canvas and how you can use it to benefit your business. So let's get started!

Concepts

Business Model Canvas Examples

Management, Leadership, CTO/CIO, Tech, Product Design, Data Visualization, and Quantum Computing Resources

Here is a listing of some excellent Management, Leadership, CTO/CIO, Tech, Product Design, Data Visualization, and Quantum Computing Resources that I have read or am in the process of reading. Please feel free to let me know if you come across any great resources. I'll keep updating this list, and will add additional resources.

Management and Leadership Books

CTO/CIO Websites/Blogs/E-Mails

Tech Magazines

Product Design Books

Data Visualization Books

Data Visualization Websites/Resources

Quantum Computing Books

Areas of Research (Cloud, Genetics, Mechanical Engineering, Electrical Engineering, Subtractive Manufacturing, and Additive Manufacturing)

Passion is one of those things that provides direction and purpose. My purpose is to help progress humanity forward to eliminate disease. My passion has been accelerating Human Genome Sequencing in the specialty and application of Precision Medicine. Using precise treatments tailored to one's Genome to accelerate the treatment of Cancers, Alzheimer's, Diabetes, Parkinson's, ALS, and all forms of disease. Roughly ten years ago, I started combining my deep focus on Advanced Computing with Genomic Research. It all started with the seed of the thought that no child should succumb to disease. We are not going to eliminate genetic diseases, but the key is in how we treat these diseases. Formulating the best plan of attack with precision treatments exponentially increases the odds in one's favor. I believe that we are closer than we have ever been, and advancements in cloud-based infrastructure technologies will enable us to place more of this diligent work into the cloud. I am more excited than ever and want to make the people around me proud. You, your family, love, and humanity mean more to me than you will ever know. It is what gets me out of bed every day to fight the fight.

Some of the most extraordinary possibilities in innovation come together at the crossroads of bringing multiple disparate disciplines and areas of focus together to expose infinite potential. It's like expanding from an eight-count of crayons to a one-thousand-count of crayons. Expanded toolsets expand possibilities. Below, I have included some of the areas of focus that I utilize to foster these possibilities. Continuously learn, work with the brightest individuals, and know that you can change the world.

Continued Executive Education (Current)

·       MIT Sloan School of Management·       The Power MBA·       Wharton Business School

·       MIT Sloan School of Management

·       The Power MBA

·       Wharton Business School

Continued Executive Education (Upcoming)

·       Cornell·       Harvard Business School·       Stanford

·       Cornell

·       Harvard Business School

·       Stanford

Cloud Centric Technologies

·       Dell Technologies Project Apex·       Amazon Web Services·       Google Cloud·       Microsoft Azure …

·       Dell Technologies Project Apex

·       Amazon Web Services

·       Google Cloud

·       Microsoft Azure Cloud

Genetics and Precision Medicine

·       EverlyWell·       Genopalate·       LifeDNA·       rootine·       …

·       EverlyWell

·       Genopalate

·       LifeDNA

·       rootine

·       ViaCord PerkinElmer

BCI (Brain Computer Interface)

·       Blender·       Emotiv·       FreeSurfer·       InVesalius·       M…

·       Blender

·       Emotiv

·       FreeSurfer

·       InVesalius

·       MeshLab

·       OpenBCI

·       Siemens 3 Telsa MRI

·       Thync

Product Planning 

·       Goalscape·       Microsoft Visio·       Wacom One·       XMind Mind Mapping Software

·       Goalscape

·       Microsoft Visio

·       Wacom One

·       XMind Mind Mapping Software

Automated 3D Printing - SLA/SL (Stereolithography), Metal and Carbon Fiber

·       Formlabs·       Markforged·       Voltera

·       Formlabs

·       Markforged

·       Voltera

Automated CNC Machining

·       Haas·       PocketNC·       TORMACH

·       Haas

·       PocketNC

·       TORMACH

Automated 3D Scanning

·       Bellus 3D·       NextEngine

·       Bellus 3D

·       NextEngine

Design, CAD and CAM Software Suites

·       Autodesk Fusion 360·       Mastercam·       Solidworks

·       Autodesk Fusion 360

·       Mastercam

·       Solidworks

IoT (Internet of Things)

·       Amazon Web Services IoT Dash Button·       Amazon Web Services·       Arduino·       DJI Robomaster R…

·       Amazon Web Services IoT Dash Button

·       Amazon Web Services

·       Arduino

·       DJI Robomaster Robotics and Tello Programmable Drones

·       Edn IoT Plant Production and Monitoring

·       Google AIY Vision and Voice Prototyping

·       Google Cloud

·       iRobot Create Programmable Robotics

·       Microsoft Azure Cloud

·       Microsoft IoT Grove Kit

·       Parallax

·       Particle Cellular

·       PocketLab Sensors

·       UFactory xArm 7 and uArm

·       VEX Robotics

·       Voltera

Open-Source Electronics Prototyping

·       Arduino·       Google AIY Vision and Voice Prototyping·       Microsoft IoT Grove Kit·       Parallax…

·       Arduino

·       Google AIY Vision and Voice Prototyping

·       Microsoft IoT Grove Kit

·       Parallax

·       Particle Cellular

·       PocketLab Sensors

·       Voltera

Logic Analysis

·       Saleae

·       Saleae

Robotics and Automation

Air Quality Big Data

·       Foobot·       Plume Labs·       PocketLab Sensors

·       Foobot

·       Plume Labs

·       PocketLab Sensors

Thermal and Electrical Analysis

·       Flir·       Fluke

·       Flir

·       Fluke

Automated and Manual Welding/Plasma Cutting

·       ESAB Electric·       Lincoln Electric·       Miller Electric·       Torchmate

·       ESAB Electric

·       Lincoln Electric

·       Miller Electric

·       Torchmate

Automated CO2 Laser Cutting, Engraving and Water Jetting

·       Boss Laser·       Full Spectrum Laser·       Glow Forge·       Wazer

·       Boss Laser

·       Full Spectrum Laser

·       Glow Forge

·       Wazer

Video Production

·       Freefly Movi Cinema Robot·       GoPro Camera's·       Moment Lenses·       Pivo·   &n…

·       Freefly Movi Cinema Robot

·       GoPro Camera's

·       Moment Lenses

·       Pivo

·       Sabinetek

·       TechSmith Camtasia

Areas of Research (Mechanical Engineering, Electrical Engineering, Subtractive Manufacturing and Additive Manufacturing)

Below, I have assembled some information in regards to the research and work that I have been conducting in the various fields of Mechanical, Electrical, Subtractive & Additive Engineering. Throughout 2016 I will present additional material; any feedback is sincerely appreciated.

Introduction

Most of my engineering internships started when I was at the age of 14 and have continued to my current age of 36. For the past 16 years, I have spent an extensive amount of time to become an industry recognized expert in core storage, connectivity and virtualization performance engineering. Our industry toolsets are ever changing which enables endless possibilities. My overall goal has been to combine different areas of engineering to create a very large toolset to solve very complex problems. I have always been fascinated with the Nasa Saturn V and Rocketdyne F-1 programs and studied them intensely. These programs are both key examples in reference to highly specific engineering disciplines coming together to solve very complex problems. These men and women reached beyond the unthinkable with slide rulers and very primitive computing systems. Technology has expanded our toolsets to the point of endless possibilities.

I have studied and researched on many areas in relation to mechanical, electrical engineering and industrial design to rethink the design of a product, how it integrates with its environment and it's process. My area of focus has been to tie in high speed storage, high speed networking and high speed computing coupled with all of the elements in reference to rapid prototyping (CAD, CAM, CNC, 3D Scanning, 3D Printing, PCB Layout, etc.).

Coupling together complimentary and non-complimentary technologies to solve some of the most complex problems is what drives me.

 

Favorite Quote: "The progressive development of man is vitally dependent on invention. It's ultimate purpose is the complete mastery of mind over the material world. The harnessing of the forces of nature to human needs." - Nikola Tesla – 1919

 

Open Source Electronics Prototyping

Arduino - http://arduino.cc/en/Main/HomePage

EAGLE PCB Design - http://www.cadsoftusa.com/download-eagle

Embedded Micro - http://embeddedmicro.com (FPGA Development)

Parallax - http://www.parallax.com

Particle Cellular - https://www.particle.io

PocketLab Sensors - http://thepocketlab.com

VOLTERA - http://voltera.io

Voxel8 - http://www.voxel8.co/printer

 

Automated 3D Printing - PLA (Polylactic Acid), ABS (Acrylonitrile Butadiene Styrene), SLA/SL (Stereolithography) and Carbon

Formlabs - http://formlabs.com (SLA/SL)

MakerBot - http://www.makerbot.com (PLA and ABS)

Markforged - http://markforged.com (PLA, Carbon Fiber, Fiberglass and Nylon)

Stratasys - http://www.stratasys.com (ABS)

TIKO - http://www.tiko3d.com

VOLTERA - http://voltera.io

Voxel8 - http://www.voxel8.co/printer

 

Automated and Manual CNC Machining

Bridgeport - http://www.bpt.com

Carbide 3D - http://carbide3d.com

Haas - http://www.haascnc.com

Jet - http://www.jettools.com/us/en/c/metalworking/190

Other Machine Company - http://othermachine.co

PocketNC - http://www.pocketnc.com

TORMACH - http://www.tormach.com

 

Automated 3D Scanning

NextEngine - http://www.nextengine.com

Thermal and Electrical Analysis

Flir - http://www.flir.com

Fluke - http://www.fluke.com

future facilities 6SigmaRoom - http://www.futurefacilities.com

 

Robotics and Automation

FANUC Robotics - http://www.fanucrobotics.com

UFactory uArm - http://ufactory.cc

VEX Robotics - http://www.vexrobotics.com

 

Automated CO2 Laser Cutting and Engraving

Boss Laser - https://www.bosslaser.com

Darkly Labs - https://darklylabs.com

Full Spectrum Laser - http://fslaser.com

Hurricane Laser - http://www.hurricanelasers.com

 

Logic Analysis

Saleae - http://www.saleae.com

 

Automated and Manual Welding

ESAB - http://www.esabna.com

Lincoln Electric - http://www.lincolnelectric.com

Miller - http://www.millerwelds.com

 

Automated and Manual CNC Plasma Cutting

Torchmate - http://torchmate.com

Pocket NC P5 - 5 Axis Desktop CNC Mill (Kickstarter Sold Out)

In September, I wrote up a blog entry (Information Below) in reference to The Pocket NC P5 - 5 Axis Desktop CNC Mill (http://www.pocketnc.com). The Pocket NC P5 - 5 Axis Desktop CNC Mill (https://www.kickstarter.com/projects/1090944145/pocket-nc-the-first-5-axis-cnc-mill-for-your-deskt?ref=nav_search) is the first 5 Axis CNC Mill that fits on your desk. The husband and wife team are making great strides that are going to enable putting affordable 5 Axis CNC machining capabilities in the hands of Makers. 

I’ve been following Pocket NC over the last year and it has been my favorite product under development. I jumped onto the Kickstarter campaign as soon as it was released. I secured a NC P5 - 5 Axis Desktop CNC Mill but they sold out very quickly. Visit http://www.pocketnc.com to be notified when Pocket NC begins accepting preorders (including internationally). GREAT JOB and CONGRATULATIONS to everyone at Pocket NC on the successful Kickstarter campaign!

Previous Engineering Blog Entry (September 2014) - Pocket NC P5 - 5 Axis Desktop CNC Mill - http://socal-engineer.com/engineering-blog/2014/9/4/pocket-nc-p5-5-axis-desktop-cnc-mill

Twitter: https://twitter.com/pocketnc
Facebook: https://www.facebook.com/pocketnc 
Instagram: http://instagram.com/pocket_nc

Pocket NC Kickstarter Video: https://www.youtube.com/watch?v=NdXGNZvW7vY

Content Below from Pocket NC Kickstarter Page

What is the Pocket NC?

The Pocket NC is a 5 axis desktop CNC mill. 

Now let’s break down exactly what that means: 

Milling Machine: Today, most people are familiar with the concept of 3D printing which is an additive manufacturing process. The part is built up from the base by adding a layer of material at a time. Milling is a subtractive process where material is removed from a solid piece of stock using a sharp tool to reveal the part inside. 

CNC: CNC stands for Computer Numerical Control. This means that the machine is controlled by a series of codes and numbers output by a computer. These codes can either be output by software, or written line-by-line in a text file. For more information on the software you need, keep reading. 

5 Axis: If you are having a hard time visualizing what “5 axis” could mean, don’t worry. It’s a lot more simple than it sounds. Conventional milling machines typically can move in 3 linear axes at a time. An example of this would be a milling machine where the part fixed to the table can move back and forth in two directions (X and Y axes) and the cutting tool can move up and down (Z axis). The extra 2 axes of movement are rotational, which for the Pocket NC means that the part can also rotate about the X axis (A axis) and about the Y axis (B axis). The main advantage of this is that you can now machine on multiple faces of the part without having to refixture it. 

Machine Statistics 

X Axis: Max Speed: 40 ipm (inches per minute) · Resolution: 0.000125in · Backlash at 100% load : 0.003in · Max Travel: 4.5 in · Homing Repeatability: - +/-0.0005 in · Repeatability: +/-0.002 in at 0% load 

Y Axis: Max Speed: 40 ipm (inches per minute) · Resolution: 0.000125 in · Backlash at 100% load : 0.003 in · Max Travel: 4.8 in · Homing Repeatability: - +/-0.0005 in · Repeatability: +/-0.002 in at 0% load 

Z Axis: Max Speed: 40 ipm (inches per minute) · Resolution: 0.000125in · Backlash at 100% load : 0.003in · Max Travel: 3.45 in · Homing Repeatability: - +/-0.0005 in · Repeatability: +/-0.002 in at 0% load 

A Axis: Max Speed: 20 degrees/second · Resolution: 0.025 degrees · Backlash at 100% load : 0.05 degrees · Max Travel: 100 degrees (90 degrees +/- 5 degrees) · Homing Repeatability: - +/-0.025 degrees · Repeatability: +/-0.025 degrees at 0% load 

B Axis: Max Speed: 40 degrees/second · Resolution: 0.025 degrees · Backlash at 100% load : 0.05 degrees · Max Travel: continuous rotation · Homing Repeatability: - +/-0.025 degrees · Repeatability: +/-0.025 degrees at 0% load 

Spindle: Spindle Speed: 65-10,000 rpm (rated to 50,000 rpm) Runout 0.000078in, Lever type tool change (no wrenches necessary)

Power Output: 104 Watts · Spindle Motor: BLDC 3 Phase with Hall Feedback  

Machine Control: BeagleBone Black running Machinekit/LinuxCNC, compatible with Windows, OSx, and Linux systems

Features: Spindle Override, Feed Override, Stop, Start, Pause, Jog while pause, 5 axis simultaneous movement 

Ethernet connection 

Accepts Standard Gcode

Power Source: 90-264 VAC, 127-370 VDC, 47-63Hz 

Components: 7 NEMA 17 Motors, 3 linear lead screws with preloaded nuts, 4 rotary 8/1 belt drives, Linear Bearings 9 & 42mm 10% preload, Angular contact rotary bearings, 6061 Aluminum Frame, +/-0.002in squareness 

Machine Dimensions: Fully extended: 17.5 in wide(444.5 mm) x 12.5 in (317.5 mm) tall x 11 in (279.4 mm) deep Fully compressed: 13 in wide (330.2 mm) x 9.5 in (214.3 mm) tall x 9 in (228.6 mm) deep

Overall part tolerance: +/-0.005 in

Software Requirements 

The typical process flow for creating a part using the Pocket NC would be to draw your part using CAD (Computer Aided Design) software, generate the toolpath using CAM (Computer Aided Manufacturing) software, and then interface with the machine to send over and monitor the toolpath. 

Pocket NC is excited to be partnering with Autodesk to offer their Kickstarter backers a free, one-year commercial subscription to Autodesk® Fusion 360 (Limited time offer; subject to applicable terms and conditions.) Fusion 360 is cloud-based design software that includes both CAD and CAM. One of the large barriers for 5 axis machining is that CAM software capable of 5 axis toolpaths is typically prohibitively expensive, but Fusion 360 package offers 3+2 machining which gives the user the ability to use the rotary axes to rotate to a new work surface between toolpaths.  After the one-year period is over, Fusion 360 is free for enthusiasts, hobbyists, and startups and is compatible with Windows and OSx.

Voltera Electronics Ruler

In March, I wrote up a blog entry (Information Below) in reference to The Voltera V-One (http://voltera.io). The Voltera V-One (https://www.kickstarter.com/projects/voltera/voltera-your-circuit-board-prototyping-machine) prints your circuit boards, dispenses solder paste, and reflows. This awesome machine lets you go from concept to creation in minutes.

Yesterday, I received the Voltera Electronics Ruler. I can say that I am beyond impressed with the construction and quality. It is a beautiful work of art and will be very helpful during design layouts. 

Previous Engineering Blog Entry (March 2015) - Print Your Own Circuit Boards - Voltera - Your Circuit Board Prototyping Machine - http://socal-engineer.com/engineering-blog/2015/3/6/print-your-own-circuit-boards-voltera-your-circuit-board-prototyping-machine

PocketLab Wireless Sensor

PocketLab is getting ready to ship! I just filled out the Kickstarter Survey and it should be here anytime. This little device is beyond great. Can't wait to get mine and start testing.

PocketLab is a wireless sensor for exploring the world and building science experiments. PocketLab is built for the curious explorers, educators, students, and makers to bring science, technology, engineering, and math (STEM) to life like never before.
 
PocketLab connects with a single button to a smart phone, tablet, or Chromebook and instantly streams measurement data that you can see and record. PocketLab measures acceleration, force, angular velocity, magnetic field, pressure, altitude, and temperature. Using their cloud software, you can easily analyze your data, create graphs, and integrate your data with other software. PocketLab has the same features as lab equipment that costs thousands of dollars but is low cost and intuitive to use.

PocketLab can be purchased for $98.00 at http://thepocketlab.com/#buy.

Microchip Development Tools

While visiting The Sensors Expo in Long Beach, CA, I came across two Microchip (http://www.microchip.com) Development Tools (Explorer 16 Development Board and MM7150 Motion Module Evaluation Board). Below, I have included the applicable details, purchase information along with a link to all associated resources. The Motion Monitoring Solutions Target Markets are Consumer, Industrial, Wearable, Internet of Things and Medical.

The Explorer 16 Development Board is a low-cost modular development system for Microchip’s 16-bit and 32-bit microcontrollers. It supports devices from the PIC24, dsPIC and PIC32 families. A variety of families are supported with processor Plug-In Modules (PIMs) for easy device swapping.  The board includes a PICtail Plus daughter card connector for expansion boards including USB, CAN, Ethernet, wireless, graphics and many more. Coupled with the MPLAB ICD 3 In Circuit Debugger or MPLAB REAL ICE, real-time emulation and debug facilities speed evaluation and prototyping of application circuitry.

The MM7150 Motion Module PICtail/PICtail Plus Evaluation Board allows customers to easily develop motion applicaiton using Microchip's 16- and 32-bit PIC® microcontrollers. The MM7150-PICtail combines motion sensors (accelerometer, magnetometer, and gyroscope) with a motion coprocessor with integrated sensor fusion. The MM7150-PICtail allows engineers to speed designs to market and reduce the risk of launching motion based embedded and internet-of-things (IOT) applications.

Explorer 16 Development Board with 100-pin PIM - Part Number DM240001 - ($129.99)
http://www.microchip.com/DevelopmentTools/ProductDetails.aspx?PartNO=dm240001

Recommended with Explorer 16 Development Board 9V Wall Mount Power Supply - Part Number AC002014 - ($24.00)

MM7150 Motion Module Evaluation Board - Part Number AC243007 ($50.00)
http://www.microchip.com/DevelopmentTools/ProductDetails.aspx?PartNO=ac243007

Microchip Resources (PDF’s and Software) - Select Link to Download