Motor-Controller Emerge 6000
High quality motor controller
The motor control for brushless electric drives was developed for use in light electric vehicles of the new European L1E vehicle class. With a continuous output of up to 6kW, the motor control provides more than enough power to accelerate light electric vehicles through everyday life. Up to 12kw peak power is available for particularly powerful applications and special vehicles.
With bluetooth and our Emerge EV App, we deliver a high quality display solution, basically for free.
In more than 5 million test kilometres in electric scooter sharing applications this controller has performed remarkably robust.
We developed 100% of the hardware and software, and are therefore able to react swiftly to customer requirements.
Supply voltage 14V - 65V Phase current 300A Motor types PMSM Control algorithm Field oriented control with flux weakening Functions Automatic teach-in, four ride modes, reverse gear, boost, display control, smartphone app Position feedback Hall sensor Analog inputs 2 Digital inputs 2 Communication CAN, Bluetooth Diagnostic interface USB, CAN Diameter 155mm Height 45mm Weight 914g
From 1 pieces
355,06EUR per piece
Build your own | Motor-Controller
Supporting elegant solutions
Would you like to manufacture your own motor control system for your applications? We supply you with our proven motor controller as a printed circuit board and you take care of the mechanical and electrical integration.
The printed circuit board of our Emerge 6000 motor controller is ideally suited for integration into a customer-specific package. For example, there are some applications where the PCB is placed in axial extension behind a rotor. In this kind of application we can even provide an onboard resolver. With the resolver, a magnet is applied to the shaft end and the motor control is placed centrally above it. This saves the use of hall sensors and the associated wiring, and the control behavior is greatly improved.
Supply voltage 14V - 65V Phase current 300A Motor types PMSM Control algorithm Field oriented control with flux weakening Functions Automatic teach-in, four ride modes, reverse gear, boost, display control, smartphone app Position feedback Hall sensor, onboard resolver Analog inputs 2 Digital inputs 2 Communication CAN, Bluetooth Diagnostic interface USB, CAN Diameter (PCB) 118mm Height (+ Cap) 4mm - 7mm (+25mm)
Do it yourself | PCB
Build your own PCB
Would you like to produce large quantities and appreciate independence? We provide you with the production data for our reliable motor controller.
With the production data for our power electronics, you can take the procurement of the printed circuit board into your own hands. You can purchase the electronic components internationally and produce the printed circuit board anywhere in the world. We supply you with the production computer to load the manufactured printed circuit boards with a software license.
The database system required for this has been in daily use with us since 2012 and, with an uptime of 99.8%, ensures reliable production.
Annual quantity >1000 Stk. One-off costs for production data Yes Annual costs for production system Yes Licensing costs Per motor controller
MEDKit | Motor-Control Education Kit
Developed for students
MEDKit on ARM is a hardware platform for the development of motor control software for brushless electric motors and was developed especially for educational purposes at universities.
The openly accessible PCB consists of a microcontroller part, an inverter stage, and an electric motor. The inverter stage is sufficiently dimensioned to control electric motors of electric bikes and electric scooters in the range of up to 1000W.
A direct connection to dSPACE TargetLink allows seamless transition between different types of code generation and simulation:
Model in the Loop Simulation (MiL): Floating-Point Simulation of the Simulink Model
Software in the Loop Simulation (SiL): Fixed-Point Simulation of the TargetLink Model on the Host PC
Processor in the Loop Simulation (PIL) Fixed-point simulation of the TargetLink model on the ARM core
An example-project with Matlab Simulink model for the control of an eBike wheel hub motor with Space Vector PWM (SVPWM) in connection with field-oriented control algorithm (FOC) is already included in the scope of delivery.
Translated with www.DeepL.com/Translator
Controller STM32F107 Logic supply voltage 12V Inverter stage supply voltage 12V - 42V MOSFET type IRLS4030PBF DC current sensor -+75A Phase current sensor -+12.5A