Smart window control module
Compact and cost-effective system solution for smart window lift applications
Space is of the essence when it comes to window control applications, whether they are relay-based or MOSFET-based motor control solutions. The ideal find: A system-on-chip solution with a small-form-factor to save valuable PCB board space. A single-chip solution for improved module reliability is also in high demand. In addition, our solutions use fewer external devices than any others on the market.
Reliable and scalable relay-based solutions for window control modules
Infineon's LIN-based MOTIX™ relay driver ICs with integrated Arm® Cortex®-M0 industry-standard microcontroller core, provides a powerful and efficient platform for relay-based motor control in a compact design. It integrates all the necessary functions to sense, control, and actuate a motor via a relay on a single die. The chip incorporates essential components such as a voltage regulator, LIN transceiver, switch inputs, and relay driver, streamlining the system and reducing the need for additional external devices. By consolidating essential functionalities into a single chip, the system becomes more robust, increasing the overall dependability of the automotive window lift mechanism.
- Broad product portfolio
- Integrated and compact design
- Improved module reliability
- Cost-efficient solution
Cost-effective MOSFET-based motor control solution for smart window lift
Infineon's MOTIX™ H-bridge MOSFET driver IC product family is a compact and cost-effective motor control solution with integrated Arm® Cortex®-M0 industry-standard microcontroller core with market proven peripherals providing a powerful and efficient platform for MOSFET-based motor control in a compact design. It comprises two full duplex serial interfaces (UART) with LIN support, and two on-chip temperature and battery voltage measurement units. The adaptive control algorithm is able to compensate the MOSFET parameters spread in the system. It is automatically adjusting gate current settings based on timing measurements to optimize the system's EMC (slow slew rates) and power dissipation (short dead times).
Comprehensive product portfolio for both brushed DC and BLDC motors
Infineon offers broad brushed and brushless DC motor control solutions with Infineon MOTIX™ and OptiMOS™ portfolios and others. With the wide selection of various low-voltage motor control applications, Infineon is your one-stop-shop for high-quality system solution.
Explore benefits of the reference design
The reference design provides recommendation for parts and layout. Moreover, it is a PCB-based design which takes less time in assembling a circuit in comparison to a leadframe solution.
Due to the highly integrated MOTIX™ 32-bit motor control SoC device and OptiMOS™-6 40 V MOSFET in sTOLL package, providing an ultra-small footprint, reference design offers minimal BOM and reduced PCB size.
The reference design is equipped with the best-in-class components with trusted Infineon quality sustaining product longevity.
Scalability of the MOTIX™ 32-bit motor control SoC enables customer to extend the platform approach up to 1 kW.
- Adaptive MOSFET control, a technology that will help you successfully overcome the challenges in bringing an ECU to market!
- Reduce power dissipation, easily pass EMC testing and mitigate supply chain issues!
Learn how to control MOSFETs in PWM with the evalkits DC/BLDC for MOTIX™ motor system IC . Know how to control the switching times of the external MOSFETs
In this training, you will:
- Learn about Infineon‘s TLE956x motor system ICs, which are the first devices in the world that combine half-bridge gate drivers, power supply and a communication interface in a single device
- Get also an overview of TLE956x’s main features and benefits
In this training, you will:
- Learn about Infineon’s TLE9210x, which is a family of Multi MOSFET Driver ICs, designed to control up to eight half-bridges (up to 16 n-channel MOSFETs) with one packaged device
- Get also an overview of overview of TLE9210x’s main features and applications