Solutions
Computing
Displays
Networking
DAQ & Control
About Us
(65M) 1 Slot CPU Backplane Module
ioPAC 6500 Series (65M) Backplane Modules – 1 Slot CPU Module – Tool-free installation – 2 x 2 Pin Grid design – DIN-Rail Mount – -40°C to +75°C
Who We Are
Impulse Embedded is a leading provider of Industrial computing systems and solutions. Our customers rely on us to provide the best embedded computing products and solutions for the challenges presented by today’s industrial demands. Together with our global manufacturing partners we provide world-class innovative embedded computing and automation products and solutions suitable for multiple industrial market sectors.
Not found what you're looking for?
We're only a phone call away. Contact us for more information or for personalised help with your project.
Call: +44 (0)1782 337 800 | Email: sales@impulse-embedded.co.uk
The 65M-BMCPU01-CT-T is a one-slot CPU backplane module for ioPAC 6500 Series modular controller systems. It provides a dedicated backplane position for one CPU module, forming a core part of the ioPAC 6500 Intelligent Integrated Node architecture. This makes it suitable for compact controller configurations where a single CPU module is required alongside selected power, communication, expansion and I/O modules.
The ioPAC 6500 platform is an advanced Linux-based RTU architecture with a built-in Layer 2 managed switch and an Arm Cortex-A53 quad-core CPU in the wider system. The 65M-BMCPU01-CT-T supports this modular design by providing the mechanical and electrical backplane position needed for the CPU module. This allows system builders to create scalable controller solutions for automation, remote monitoring, infrastructure, energy and transport applications.
A major benefit of the 65M backplane family is its installation-friendly design. The platform supports tool-free hardware installation and hot-swap operation, helping reduce downtime and simplify maintenance. The 2 x 2 pin grid design helps prevent incorrect assembly, while the defined installation sequence of PWR, COM, CPU, EXP and IO supports a consistent system build process.
The 65M-BMCPU01-CT-T has a plastic housing and measures 43 x 177 x 45.5 mm. It weighs 170 g and supports DIN-rail mounting as standard, with optional rack mounting available. This makes it suitable for compact industrial cabinets as well as larger system installations.
The module supports conformal coating and has a wide operating temperature range of -40°C to 75°C. Proper airflow is required above 65°C. With series-level EMC, safety, shock and vibration compliance, the 65M-BMCPU01-CT-T is a reliable backplane module for single-CPU ioPAC 6500 controller configurations.
Delivery & Returns
We offer a range of delivery options to suit your needs.
UK Mainland
Northern Ireland & Highlands
Ireland
RMA
In order to process returned goods, Impulse Embedded Limited uses an internal RMA system. Before returning goods for any reason, please contact Impulse Embedded Limited (returns@impulse-embedded.co.uk) to request an RMA number. Please confirm the reason for the return of the goods, providing the Serial Number, Product Code, and Impulse Embedded Limited Invoice Number (if known).
When returning goods, please ensure they are suitably packed so as to avoid damage, are in the original packaging, along with all accessories, with the outer packaging marked with the RMA number. It is recommended that you use a signed delivery service, as goods lost in transit are not the responsibility of Impulse Embedded Limited.
Please do not write the RMA number on the goods or on the original packaging. Impulse Embedded Limited may refuse returned goods and return them if they arrive without an RMA number, or not in the original packaging.
Add to a quote list
Moxa (65M) 1 Slot CPU Backplane Module
Please complete the details below to receive your quote
Select the quantity you wish to request pricing or lead time information for:
65M-BMCPU01-CT-T
GPU computer custom built for autonomous vehicle control system
WMG, University of Warwick’s Intelligent Vehicles research group works with a variety of industrial partners to address challenges presented by the concept of autonomous vehicles. Operating within this department is a multi-million pound funded project ‘Cloud assisted real time methods for autonomy’ (CARMA), working in collaboration with Jaguar Land Rover and EPSRC (Engineering and Physical Sciences Research Council).