TETRIX® MAX Programmable Getting Started Package

$6,399.00
$0.00 $6,399.00
Clearance
TETRIX® MAX Programmable Getting Started Package
Clearance
TETRIX® MAX Programmable Getting Started Package
Clearance
TETRIX® MAX Programmable Getting Started Package
Clearance
TETRIX® MAX Programmable Getting Started Package
Clearance
TETRIX® MAX Programmable Getting Started Package
Clearance
TETRIX® MAX Programmable Getting Started Package
Grades 9-12

TETRIX MAX Programmable Getting Started Package Brings Autonomous Coding to 24 Students with Virtual Simulation

$6,399.00
$0.00 $6,399.00
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⚠️ Clearance Item - Final Sale

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SKU:43417

Give twenty-four students the tools to write real code that makes real robots move. Six complete Programmable sets with PRIZM Pro controllers, Grove sensors, and Virtual Robotics simulation licenses put autonomous engineering within reach of every team in your classroom—backed by structured curriculum and expansion components.

Out of Stock - Please allow 2-4 weeks for shipping.
Students Served: Up to 24 students (6 teams of 4)
Arduino-Compatible Coding
Arduino-Compatible Coding
Six Complete Team Sets
Six Complete Team Sets
Virtual Robotics Classroom License
Virtual Robotics Classroom License
Pitsco Exclusive
Pitsco Exclusive
WHAT'S INCLUDED
  • Classroom license for TETRIX Virtual Robotics
  • 6 TETRIX MAX Programmable Robotics Sets
  • 6 TETRIX MAX Expansion Sets
  • TETRIX PRIZM Pro® Coding Essentials Curriculum Pack
  • Engineering Design Loop Poster Set
SPECIFICATIONS & SAFETY
  • Students Served: 24
California Proposition 65 WARNING: This product contains one or more chemicals known to the State of California to cause cancer, birth defects, and other reproductive harm.
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TETRIX® MAX Programmable Getting Started Package

TETRIX® MAX Programmable Getting Started Package

$6,399.00
$0.00 $6,399.00

Frequently Bought Together

1
TETRIX® MAX Programmable Robotics Set
+
2
TETRIX® MAX Expansion Set
+
3
TETRIX® PRIZM® Pro Controller
Total: $1,367.00 (3 items)
TETRIX® MAX Programmable Getting Started Package

Every Team Codes a Robot That Drives Itself

Six PRIZM Pro-equipped sets with Grove sensors and Virtual Robotics simulation put autonomous coding into the hands of up to twenty-four students simultaneously. Expansion sets double each team's component library for advanced builds.
Six PRIZM Pro-Equipped Sets

Six PRIZM Pro-Equipped Sets

Each team gets a complete Programmable Robotics Set with its own PRIZM Pro controller, Grove sensors, and 670+ aluminum components for independent autonomous builds

Virtual Robotics Classroom License

Virtual Robotics Classroom License

Students code and test in simulation before building physical robots, catching logic errors early and maximizing hands-on time with hardware

PRIZM Pro Coding Essentials Curriculum

PRIZM Pro Coding Essentials Curriculum

Structured lessons guide students through programming fundamentals, sensor integration, and autonomous behaviors with teacher's guides and assessment tools

Six Expansion Sets Included

Six Expansion Sets Included

Each team gets additional components for advanced mechanical designs, multi-mechanism builds, and differentiated challenges that keep every skill level engaged

What Students Will Do

Students work in teams of four through structured coding and engineering activities that build real-world autonomous systems skills.
  • Write autonomous code using Arduino C/C++ and PRIZM Pro controllers
  • Integrate Grove sensors for line following and obstacle detection
  • Test and debug code in Virtual Robotics simulation
  • Design and build robots with 670+ aluminum components per team
  • Apply the Engineering Design Loop to iterate on hardware and software
  • Collaborate in teams to solve open-ended autonomous navigation challenges

Compare Similar Products

Feature Current Product
TETRIX® MAX Programmable Getting Started Package
 TETRIX® MAX Dual-Control Getting Started Package TETRIX® MAX R/C Getting Started Package
Price $6,399.00 $7,399.00 $5,699.00
Students Served Up to 24Up to 24 Up to 24
Programmable (PRIZM Pro)
Remote Control
Sensors Included
Curriculum Hours 2055 35
Virtual Robotics License ClassroomClassroom
Best For Autonomous coding and sensorsR/C + programmable combined Building and driving fundamentals
View Details View Details

From Setup to Autonomous Navigation

Step 1: Unbox Six Complete Systems—Each team receives a Programmable Robotics Set and an Expansion Set. Students inventory components using the builder's guide.

Step 2: Build and Wire—Teams assemble robots using aluminum components, mount the PRIZM Pro controller, and connect Grove sensors following step-by-step instructions.

Step 3: Code in Arduino—Students write C/C++ code in the Arduino IDE to control motors, read sensor data, and program autonomous behaviors.

Step 4: Simulate First—Virtual Robotics licenses let teams test code in simulation before deploying to physical hardware.

Step 5: Deploy and Compete—Upload code to PRIZM Pro, watch robots navigate autonomously, and iterate on designs through team-based engineering challenges.

Career-Connected Robotics Engineering

The TETRIX MAX Programmable Getting Started Package delivers the coding, engineering, and problem-solving skills that drive modern robotics and automation careers—scaled for a full classroom of up to twenty-four students.

Industry Applications: embedded systems, autonomous vehicles, industrial automation, sensor integration, software engineering, manufacturing robotics

Science—Designing solutions, sensor calibration, variables, energy systems

Technology—Coding in C/C++, debugging, simulation, systems thinking

Engineering—Defining problems, prototyping, testing, iterating designs

Math—Logic, conditional statements, sensor thresholds, distance calculations

Support Materials

Videos, guides, and resources to help you get the most out of this product.

Videos

Introducing TETRIX MAX TorqueNADO Motor

Educator Review: Coding Essentials Curriculum Pack

PRIZM Programming Guide: A Look at the Guide

RoboBench: PRIZM Programming Guide: Downloading and Installing the Software

PRIZM Programming Guide: Hello World!

PRIZM Programming Guide: Moving the DC Motor

Adding PRIZM to the TrackBot

Adding PRIZM to the TETRIX MAX WorkCell

Why Teachers Love TETRIX MAX Programmable Getting Started Package

Ready Day One

Ready Day One

Six complete Programmable sets, expansion components, curriculum, and simulation licenses ship in one package. No sourcing parts from multiple vendors.

Real-World Coding Language

Real-World Coding Language

Students learn Arduino C/C++, the same language powering professional embedded systems and industrial controllers worldwide.

Simulate Before You Build

Simulate Before You Build

Virtual Robotics Classroom License lets every student test code in simulation, catching errors before they reach physical hardware.

Professional-Grade Materials

Professional-Grade Materials

Aircraft-grade aluminum and TorqueNADO motors ensure builds withstand years of classroom use without degrading performance.

Expandable Platform

Expandable Platform

Grove sensor connectors and Expansion Sets give each team room to grow, adding new capabilities and complexity as skills develop.

Dedicated Support

Dedicated Support

Pitsco Education Advisors provide implementation planning, troubleshooting, and curriculum guidance throughout the school year.

Flexible Purchasing Options

Pricing and volume discounts are built in—choose the path that fits your purchasing process.

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Frequently Asked Questions

What coding language does the PRIZM Pro controller support?

PRIZM Pro is Arduino-compatible and supports C/C++ programming through the Arduino IDE. Students write real code that controls motors, processes sensor data, and executes autonomous navigation behaviors.

How many students can this package support?

The package includes six complete Programmable sets, each designed for teams of four. That means up to twenty-four students build and code simultaneously. Individual sets (43053) can be added for larger classes.

What sensors are included?

Each of the six sets includes a Grove Line Finder Sensor and a Grove Ultrasonic Sensor. Additional Grove-compatible sensors can be purchased to expand what robots can detect and respond to.

Is programming experience required?

No. The PRIZM Pro Coding Essentials Curriculum introduces programming concepts from the ground up, and Virtual Robotics simulation lets students experiment safely before deploying code to physical hardware.

What is the Virtual Robotics Classroom License?

The Classroom License provides simulation access for your entire class. Students design, code, and test robots virtually before building and programming physical hardware.

What is the difference between this and the Dual-Control Getting Started Package?

The Programmable GSP focuses on autonomous coding with PRIZM Pro controllers. The Dual-Control GSP (43419) adds wireless gamepad controllers so students can also drive robots manually, and includes 55 hours of curriculum versus 20.