insights
How to Set the Foundation For Successful Lithium Battery Integration
Before digging into the highly technical stuff like battery chemistry, you must set the foundation by understanding requirements and aligning technical and business decisions. Here’s how.
How To Make Your Battery Pack Do _____
How to change battery characteristics and behaviors to meet business and product requirements and make electrification solutions more accessible to small and medium enterprises.
A Product Manager’s Guide to Lithium Battery Integration
Integrating a battery pack into a product isn’t just about engineering. Let’s explore the challenges manufacturers and designers must address when incorporating a lithium battery pack into a product and what you should consider to get on the right track.
A Lesson From Dishy McFlatface: AI and the Benefits of Proactive Customer Support
How SpaceX uses software to solve a simple but potentially costly hardware issue and how we can apply the lesson to battery technology to lower cost, reduce support tickets, and improve customer satisfaction.
Software-Defined: Buzzword Bingo or Real Deal?
What exactly does software-defined mean, and why is it important? Find out the benefits and potential challenges as we adopt this inevitable trend.
The Actual Big Deal About the Tesla Cybertruck
What’s the big deal of having an 800V architecture charging from 400V sources? We uncover its vast implication for the electrification of anything.
Power Supply, You’re Fired!
Power conversion steps are cumbersome, expensive, and complex. See how our technology can help bypass this necessary evil with software-defined batteries (SDBs).
A Tale of Two Recalls: Tesla vs. Chevy Bolt
What Tesla got right: A case for software-defined anything.
The Hidden, Wasteful Side of Electrification, and How We’re Fixing It (aka, Meet Little Timmy Who’s No Longer Sad)
Batteries aren’t used as efficiently as they should, like other expensive assets. The simplest way to reduce the cost of electrification is to increase the utilization rate for every pound of lithium. Here’s how we do it.
Will AI batteries Take Over the World?
How our battery technology uses telemetry to predict and pinpoint battery behaviors to maximize resource usage and reduce costs.
Post-Quantum Cryptography For Battery Security (BatSec 7/6)
Can quantum computers crack our security architecture? TL; DR: Yes, quantum computers can crack our current algorithms. No, we aren’t panicking — not even the slightest. Find out why.
TBOS Software Architecture: How the Magic Happens (Part 1 of 2)
Our secret sauce: Learn the four key components in the Tanktwo Battery Operating System that allow us to deliver an innovative battery architecture that can overcome the limits of today’s battery solutions.
TBOS Software Architecture: How the Magic Happens (Part 2 of 2)
Our secret sauce: Learn how the four key components of the TBOS software architecture work together to deliver TBOS’s game-changing capabilities.
Battery AI: A Self-Learning System for the Next Stage of Global Electrification
The inner workings of our machine learning algorithm, and why it’s the foundation for making various power and electrification services practical and viable from a financial and operational perspective.
Solving the Complexity of Multimodal EV Delivery Fleet Implementation
Electrifying a multimodal EV fleet isn’t as simple as it seems. Let’s explore the challenges and fine prints and how to overcome them with a flexible, modular battery system.
Battery security in the age of accelerated electrification (BatSec Series 6/6)
Battery solutions running on software without iron-clad security measures are sitting ducks. The stakes are high — especially when electrifying critical infrastructure. Here’s what a security-first mindset for the future of electrification looks like.
Under the Hood: The nuts and bolts of Tanktwo’s battery security technology (BatSec Series 5/6)
The nuts and bolts of how Tanktwo’s battery security architecture works to balance security, granularity, and flexibility.
TBOS: Sandboxing for secure battery development and operations (BatSec Series 4/6)
How do you ensure every player in the battery ecosystem can do what they do best without tinkering with things they don’t know enough about? 💥 Our security architecture supports the future of complex battery ecosystems.
Navigating the Complexity of Battery Security (BatSec Series 3/6)
How Tanktwo's software architecture maintains checks and balances within a complex battery ecosystem to ensure safety and security.
The Importance of Battery Security in Large-Scale Electrification (BatSec Series 2/6)
Security, not technology, will very well be the bottleneck in applying electrification solutions at a global scale if we don’t address it from the ground up. Here’s why.