CW Laser Diode Driver with Scalable Power Unit and Microcontroller Interface

Integrated Laser Diode Driver for Digital Control with a Microcontroller

Laser driver with externally scalable power unit

The new laser diode driver iC-HTG enables single-channel, controlled, microcontroller-based control of laser diodes or LEDs with common cathode (P-type) or common anode (N-type) or individual anodes/cathodes in CW mode. Optionally, either the optical output power (via APC), the laser diode current (using ACC), or a fully controller-based control can be used to control the laser diodes. The laser diode current is measured with the voltage drop at the shunt. The maximum laser diode current per channel is defined via an external power transistor and is scalable across a wide range from a few mA up to xx A. In addition, an automatic overcurrent shutdown is adjustable. Due to the high integration of the analogue functions for controlling and regulating the laser diodes with the microcontroller interface, powerful laser diode controllers can be implemented easily and compactly. In addition to the iC-HTG, a compatible power transistor, and a shunt, a microcontroller and the laser diode or LED are required.

Internal operating points and various voltages can be output via analog-digital converters. The integrated temperature sensor allows monitoring of the system temperature also for feedback in the control loop.

Logarithmic digital-to-analog converters provide optimal optical power control across a wide dynamic range for a variety of applicable laser diodes and LEDs.

The respective configuration is stored in two equivalent memory areas. Internal current limits, supply voltage monitoring, an interruption switch input, and a watchdog ensure operation of the laser diode or LED via the iC-HTG.

The device is controlled via an SPI or I²C interface.

An analog modulation for frequencies up to 50 kHz is possible.

An external power supply can be controlled via the current output DCO in order to reduce the power dissipation of the system to a minimum, e.g. in battery powered devices or systems.

iC-HTG operates with a supply voltage range of 3 to 24 V and thus also drives blue and green laser diodes as well as stacks (series circuits with several laser diodes). Higher voltages in the load path are limited by the gate voltage range of the external power transistor and the iC-HTG supply voltage.

Operating temperatures range from -40 to +85 °C. The device is housed in a 24-pin 5 x 5 mm QFN package.

The design-in process is supported with ready-to-use demo boards and software for evaluation with the PC.

Further information is provided at http://www.ichaus.com/iC-HTG.

Background: Vernier Principle
Typical applications for iC-MNF are absolute Vernier-based position encoders. As in the Vernier caliper, which scale principle was introduced by the French mathematician Pierre Vernier as early as the 17th century, the reading accuracy is increased due to several scales - the absolute position information being contained in the relative phase position of the signals to each other. This requires a special kind of evaluation which the new encoder interpolator iC-MNF is able to accomplish with an interpolation resolution of now 14 bit.

For any queries, please contact:
Magnus Meier
iC-Haus GmbH, Am Kuemmerling 18, 55294 Bodenheim, Germany
Tel. +49 6135/9292-300 Web: www.ichaus.com
Fax +49 6135/9292-192 E-Mail: magnus.meier@ichaus.de

Introducing iC-Haus
iC-Haus GmbH is a leading, independent German manufacturer of standard iCs (ASSP) and customized ASiC semiconductor solutions with worldwide representation. The company has been active in the design, production, and sales of application-specific iCs for industrial, automotive, and medical applications for more than 30 years.
The iC-Haus cell libraries in CMOS, bipolar, and BCD technologies are specifically suited to realize the design of sensor, laser/opto, and actuator ASiCs, amongst others. The iCs are assembled in standard plastic packages or using the iC-Haus chip-on-board technology to manufacture complete microsystems, multichip modules, and optoBGA/QFN in conjunction with sensors.
Further information is available at
For more information, please contact:

iC-Haus GmbH
Am Kuemmerling 18, 55294 Bodenheim, Germany
Tel. +49 6135/9292-300
Fax +49 6135/9292-192

August 2018

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