Trinamic stepper drivers allow you to have better control of your stepper motors and achieve extremely quiet motion. You can influence how the driver manages motor current as well as the manner of current delivery. The drivers can act as endstops allowing you simplify wiring. In case of USB, you need to install a driver for USB from the manufacturer of the adapter, which Trinamic uses in their modules. Currently it is Future Domain (FTDI). I recommend downloading the virtual COM driver from FTDI.

1. Trinamic Stepper Motor Drivers For Mac Download

HAMBURG, Germany-( )-TRINAMIC Motion Control, a leading global developer of motor and motion control technologies, expanded the company’s existing product line of with a new IC that supports motor drive currents up to 4A. The new TMC2660 integrates both a pre-driver for real-time calculation of motor coil current values, and power MOSFETS for amplification of coil outputs to directly drive an external motor. Packaged in a single multi-chip module, the integrated driver/amplifier achieves the lowest power dissipation currently available for a 4A stepper motor driver. With an R ds(on) of 65 milliohm, the TMC2660 dissipates just 2.8W at 4A, an 85% reduction compared with the most competitive solution previously available. The new device’s minimal power dissipation eliminates the need for a heat sink, enabling highly dense board designs and reduced component count and cost. “Our popular TMC260 and TMC261 Stepper Motor Drivers have been widely adopted by manufacturers worldwide,” explained TRINAMIC Founder and CEO Michael Randt. “Our customer base requested that we expand our line to support higher current levels, and we responded by introducing the TMC2660.” With a peak output current rating of 4A, the TMC2660 can drive motors as large as NEMA 23.

The new device is both pin- and software-compatible with TRINAMIC’s popular TMC260/261 devices, which support motors up to NEMA 17. Stepper motors are a cost-effective solution for applications that require high-torque at low speeds and precise control of motor axis rotation. Widely used in printers, scanners, robotics, medical and scientific equipment and other applications, TRINAMIC estimates that more than one billion stepper motors are shipped ever year. The TMC2660 is sampling in August 2013, and production volumes will be offered in Q4 2013. The device is available in a 44-pin PQFP package, priced at USD 2.90 in 1,000 unit volumes. To support rapid product development and prototyping, TRINAMIC offers a complete TMC2660 design kit with evaluation board, as well as an Arduino daughter card (shield). About TRINAMIC Based in Hamburg, Germany, privately-held TRINAMIC Motion Control GmbH & Co.

KG is a recognized global leader in motor and motion control technologies. Leveraging its extensive portfolio of internally developed IP, TRINAMIC motor control products emphasize efficiency, quality and ease-of-use.

The company sells ICs, modules and integrated mechatronics to market leading manufacturers worldwide. The company’s products have been integrated into a wide range of applications in biotechnology, lab automation, materials handling, CCTV and factory automation. More information about TRINAMIC can be obtained on the company website:.

Trinamic Motion Control is unveiling its new family of motor drives with an embedded RISC-V core, dubbed ‘Rocinante’. Components in the new family combine Trinamic’s decades of experience in embedded motor and motion control together with the flexibility of the open RISC-V ISA microcontroller. The family is suitable to drive Stepper or BLDC motors, brushed DC-motors, and even voice-coil motors found in rapidly growing markets like service robots, home and office automation, light electric vehicles and power tools. At the core of any embedded motor-controlling system is a microcontroller, running the application layer, providing a user interface or executing bus protocols.

Trinamic has a long history as a leading provider of motor drivers and remains the only European manufacturer of dedicated motion control ICs. As a total solutions provider, Trinamic draws upon decades of experience providing embedded board-level microcontrollers. The single chip solution enables miniaturized and highly embedded standalone devices. Actuators, motors and mechanical components typically have a much longer product lifetime than e.g. User interfaces or protocols, so the longevity of the components is crucial for device manufacturers.

RISC-V is the perfect platform for long product lifetimes: the RISC-V ISA is stable and battle-tested, and there are no obligations or license agreements which could prohibit long-term road-mapping, development or technology transfer. Trinamic chose RISC-V as the foundation for the future of embedded motion control. Trinamic is an early member of the RISCV group. The company has already successfully implemented RISC-V cores in an early stage on FPGAs, meeting the specific requirements of customers who were looking for a reliable and stable architecture for the long-term. Trinamic is committed to the idea of an open instruction set.

Trinamic Stepper Motor Drivers For Mac Download

The design uses self-developed IP in combination with carefully selected, thoroughly tested and strictly European-sourced IP blocks. The debut members of the new component family will be a dedicated BLDC/PMSM driver with 6 integrated gate-drivers and a dedicated stepper motor and stepper servo driver with 8 integrated gate drivers. Both components share a rich set of integrated diagnostics and interfacing features.

The whole family is equipped with a 32-bit RISC-V core, hardware-based field oriented control, serial interfaces, USB, CAN-FD and gate drivers for 2-phase or 3-phase motors. Integrated switching regulators allow for one-chip drive solutions. 128k EEPROM based non-volatile memory and 32k SRAM make it powerful enough to handle everything from standalone applications to high-level industrial protocols like CANopen or CANopen-FD. The components are also the world’s first RISC-V implementation in a monolithic high voltage technology, allowing direct driving of N-channel MOSFETs controlling BLDC, stepper, brush-DC and voice-coil motors.