CAN Bus Adapter & USB to CAN Interface Solutions Available in Australia & New Zealand

chad on March 26, 2026

CAN Bus Adapters and USB to CAN Interfaces – Now Available Locally in Australia & New Zealand

If you are searching for a USB to CAN adapter, CAN to USB converter, or CAN bus interface for PC, finding reliable and locally supported solutions in Australia and New Zealand can be challenging.

At Embedded Logic Solutions Pty Ltd, we provide a complete range of CAN Bus interface products, including USB-CAN adapters, CAN FD interfaces, and advanced CAN communication tools, designed for engineers working in automotive, industrial, and embedded systems. As an official distributor, we supply high-quality CAN solutions backed by global technology and local support across Australia and New Zealand.

What is a CAN Bus Adapter?
A CAN bus adapter allows your computer (via USB or PCIe) to communicate with CAN networks. These adapters are widely used for:

  • Automotive diagnostics and ECU communication
  • Embedded system development
  • Industrial automation and control systems
  • CAN network monitoring, logging, and simulation

Modern solutions support CAN CC, CAN FD, and even CAN XL, enabling higher data rates and future-ready applications.

USB to CAN Adapter – Simple and Powerful PC Connectivity
One of the most common needs is a USB to CAN adapter, which connects directly from your laptop or PC to a CAN network. Typical features include:

  • Plug-and-play USB interface (USB-A / USB-C) 
  • Support for CAN FD high-speed communication
  • Compatibility with protocols like CANopen, J1939, NMEA 2000, and DeviceNet
  • Cross-platform drivers for Windows and Linux
  • APIs for software development and integration

These devices are ideal for engineers who need fast setup, reliable communication, and flexible development tools.

More Than Just CAN to USB:  Complete CAN Ecosystem is available
Beyond simple CAN to USB adapters, we also offer a full ecosystem of CAN-related products:

  • CAN Interface Hardware
  • CAN Software & Development Tools
  • Advanced Automotive & IoT Solutions

These solutions enable end-to-end CAN system development, from simple debugging to complex vehicle networks.

Why Choose Embedded Logic Solutions Pty Ltd

  • Local distributor in Australia & New Zealand
  • Fast supply and responsive technical support
  • Ongoing technical support and application guidance
  • Trusted in automotive and industrial applications

Looking for a CAN Bus Adapter or USB to CAN Converter?

Whether you are searching for:

  • CAN to USB adapter
  • USB CAN interface
  • CAN bus connector or interface tool
  • CAN FD adapter for high-speed communication

👉 We can help you find the right solution.

 

Deliver to Australia and New Zealand
* More products available in eStore or simply contact us for more solutions *

Emlogic Partners with Farsoon to Bring Industrial LPBF & SLS 3D Printing to Australia and New Zealand

chad on March 24, 2026

High-performance, reliable, and cost-efficient additive manufacturing now supported locally across ANZ

Emlogic is proud to announce a new partnership with Farsoon Technologies, a globally recognized leader in industrial additive manufacturing. Through this collaboration, advanced LPBF (SLM) and SLS 3D printing solutions are now available to customers across Australia and New Zealand, backed by dedicated local support.

Farsoon systems are known for delivering exceptional performance at a competitive price point. However, proving that cost efficiency does not come at the expense of quality. With robust engineering, stable process control, and proven industrial applications, these systems provide reliable, high-quality output for both prototyping and full-scale production.

As of 2025, over 1,400 Farsoon systems have been installed across more than 30 countries worldwide. With over 25 years of experience in powder bed fusion technology, Farsoon has built a strong reputation for innovation, reliability, and continuous development in both polymer and metal additive manufacturing.

Built on an open-platform architecture, Farsoon technologies offer users the flexibility to work with a wide range of materials and optimize process parameters for their specific applications. From aerospace and automotive to healthcare and tooling, manufacturers can achieve faster iteration, reduced lead times, and improved product performance.

A key advantage of this partnership is Emlogic’s local presence in Australia and New Zealand. Customers will benefit from on-the-ground technical support, installation, training, and ongoing service, ensuring smooth adoption and long-term operational reliability. This level of local support is critical for both industrial users and researchers who require responsive service and dependable expertise.

Together, Emlogic and Farsoon are committed to making high-end additive manufacturing more accessible, practical, and scalable for businesses across the Australia and New Zealand.

Explore Farsoon Metal LPBF/SLM Technology

Explore Farsoon Polymer SLS Technology

Local Support from Emlogic

When purchasing the Farsoon machines through Emlogic, customers benefit from comprehensive local support, including:

  • Professional installation and system setup
  • Operator training for your team
  • Ongoing technical support and application guidance
  • Fast response from our Australia-based engineering team

We provide pre-sales consultation, validation printing trials, and after-sales technical support across Australia and New Zealand.

Contact us

Introducing the BMF microArch® S150

chad on March 13, 2026

A New Entry-Level High-Precision Desktop 3D Printer Now Available in Australia & New Zealand

Emlogic now offers the new microArch® S150 to customers across Australia and New Zealand, providing researchers, engineers, and product developers with a practical entry point into micro-scale additive manufacturing.

Ultra-high-resolution additive manufacturing is no longer limited to large industrial systems. The microArch® S150 brings BMF’s micro-precision 3D printing technology into a compact, easy-to-use desktop platform. Built on BMF’s Projection Micro Stereolithography (PµSL) technology, the S150 enables extremely fine feature fabrication and excellent surface quality, making it ideal for applications where precision matters most.

Key Features

Micro-Scale Precision
The microArch® S150 delivers outstanding printing resolution and dimensional accuracy, enabling the fabrication of intricate micro-structures that are difficult or impossible to produce using conventional manufacturing methods. This capability makes the system particularly suitable for applications such as microfluidics, biomedical devices, precision engineering components, and research prototypes.

Multi-Material Capability
The system supports a variety of advanced materials, including high-performance resins, ceramic-based materials, and hydrogels. This flexibility allows users to explore a wide range of applications across engineering, medical research, and micro-device development.

Simple and Intuitive Operation
The S150 is designed with usability in mind. Pre-configured printing parameters for commonly used BMF materials are already stored in the system, allowing users to start printing quickly with minimal setup. In many cases, the process can be as simple as loading the file and starting the job.

Low Maintenance Requirements
The printer is engineered for reliable day-to-day operation with minimal maintenance. Its compact and robust design makes it suitable for laboratories, R&D environments, and engineering offices.

Local Support from Emlogic

When purchasing the microArch® S150 through Emlogic, customers benefit from comprehensive local support, including:

  • Professional installation and system setup
  • Operator training for your team
  • Ongoing technical support and application guidance
  • Fast response from our Australia-based engineering team
Request a Sample Part

Application Cases

We provide pre-sales consultation, validation printing trials, and after-sales technical support across Australia and New Zealand.

Contact us

4D Printing

chad on December 8, 2025

Multimaterial 3D Printing Technology

Based on DLP technology, the new BMF 4D printer, microCube M150 / M150E, employs a centrifugal cleaning process during material transitions, allowing true multimaterial printing inside a single layer as well as from one layer to the next.

This multimaterial 4D vat-photopolymerization printer enables the fabrication of complex structures from a broad range of functional materials – including shape-memory polymers, conductive elastomers, hydrogels, and rigid resins – supporting advanced performance and actuation capabilities. It delivers high-precision printing with a 25 µm optical resolution and offers flexible build volumes of Ø42 mm or Ø56 mm at 30 mm height, making it ideal for miniature components, smart devices, and multi-property prototypes.

The printer uses 405 nm UV light projected upward from beneath the resin surface to selectively cure functional materials. During material changes, high-speed centrifugal force rapidly removes uncured resin from the printed part, allowing fast and clean transitions between different vats (as shown in the schematic diagram, left). Layer by layer, this process enables the fabrication of fully integrated structures featuring high complexity, high precision, and multiple functional materials. The machine can be equipped with up to four different material vats for printing.

Local Support from Emlogic

When purchasing the microCube M150/M150E through Emlogic, customers benefit from comprehensive local support, including:

  • Professional installation and system setup
  • Operator training for your team
  • Ongoing technical support and application guidance
  • Fast response from our Australia-based engineering team
Request a Sample Part

Application Cases

Related Papers

  1. Rong Wang, Chao Yuan, Jianxiang Cheng. et al., Direct 4D printing of ceramics driven by hydrogel dehydration. Nature Communications, 15, 758 (2024)
  2. Honggeng Li, Biao Zhang, Haitao Ye, et al., Reconfigurable 4D printing via mechanically robust covalent adaptable network shape memory polymer. Science Advances, 10, eadl4387(2024)
  3. Xiangnan He, Biao Zhang, Qingjiang Liu, et al., Highly conductive and stretchable nanostructured ionogels for 3D printing capacitive sensors with superior performance. Nature Communications, 15, 6431 (2024)
  4. Caicong Li, Jianxiang Cheng, Yunfeng He, et al., Polyelectrolyte elastomer-based ionotronic sensors with multi-mode sensing capabilities via multi-material 3D printing. Nature Communications, 14, 4853 (2023)
  5. Qi Ge, Zhe Chen, Jianxiang Cheng. et al., 3D printing of highly stretchable hydrogel with diverse UV curable polymers.Science Advances, 7,eaba4261(2021)
  6. Jianxiang Cheng, Rong Wang, Zechu Sun, et al.,Centrifugal multimaterial 3D printing of multifunctional heterogeneous objects. Nature Communications, 13, 7931 (2022)
  7. Biao Zhang, Honggeng Li, Jianxiang Cheng, et al., Mechanically Robust and UV-Curable Shape-Memory Polymers for Digital Light Processing Based 4D Printing. Adv. Mater. , 33, 27, 2101298 (2021)
  8. Xiangnan HeJianxiang ChengZhenqing Li, et al., Multimaterial Three-Dimensional Printing of Ultraviolet-Curable Ionic Conductive Elastomers with Diverse Polymers for Multifunctional Flexible Electronics.
    ACS Appl. Mater. Interfaces, 15, 2, 3455‒3466(2023)

We provide pre-sales consultation, validation printing trials, and after-sales technical support across Australia and New Zealand.

Contact us

Products

Printed Circuit Board
3D Printing
CAN-Bus
Embedded Tools

Information

Address

5/23 Hunt Street North Parramatta NSW 2151 Australia

Tel: +61 2 9687 1880 / Fax: +61 2 9687 1881

Facebook-f Twitter Icon-linkedin