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    Infineon’s First Completely Autonomous Radar Sensor

    The new BGT60LTR11AIP is a size-, time- and cost-effective one-package radar solution. The high level of integration overcomes the complexity of antenna design, RF knowledge and radar signal processing at the user-end. The sensor enables radar technology for everyone.

    This radar solution, developed by Infineon Technologies, adds ‘smartness’ to traditional motion sensing applications like lighting-control, automated-door opening or security alarms. In addition, the sensor can be integrated into systems like laptops, tablets, TVs, speakers etc. to ‘wake’ them up based on motion (or rather direction of motion) detection. It can also put them to sleep or in auto-lock when no motion is detected for a defined amount of time. This can be a smart power saving feature for such devices and also eliminates the need for keyword based activation of systems.

    Traditional motion sensing applications become smart

    Radar sensors offer the possibility to hide them inside the end product since they operate through non-metallic materials. Therefore, they enable a seamless integration of radar technology in our day-to-day lives. Let’s take a closer look at the product.

    The BGT60LTR11AIP is an easy to use motion sensor solution

    The BGT60LTR11AIP is a fully integrated microwave motion sensor with built-in motion and direction of motion detectors and Antennas in Package (AIP). A state machine enables operation of the device without any external microcontroller. In this autonomous mode, it detects a human target up to five meters with a low power consumption of less than 5 mW.

    With its fully autonomous operation mode, the BGT60LTR11AIP allows the use of radar with an unprecedented simplicity. The sensor is designed to operate as a Doppler motion sensor in the 60 GHz ISM-band and fulfills ETSI & FCC regulations for use in the EU, the US, and Japan. The two integrated detectors provide two digital output signals – one indicating motion and the other indicating the direction of motion (approaching or departing) of a human target.

    The small 3.3 x 6.7 x 0.56 mm³ sized MMIC includes integrated antennas within its 2-layer laminate package, which eliminates the complex antenna design at the user-end. It also allows customers to use standard FR4 materials for their PCB designs with this MMIC.

    Two LEDs illustrate the output of the radar sensor: A green LED lights up when a target is detected, the red LED indicates the direction of motion of the target.

    This all-in-one solution enables fast prototyping, simple system integration as well as initial product feature evaluations.

    The shield demonstrates the features of the BGT60LTR11AIP MMIC and provides a complete turnkey radar solution. It makes it possible to use the MMIC as a ‘plug-on’ motion sensor to an existing system by connecting a power supply to VCC and GND castellated holes.

    The BGT60LTR11AIP is designed for low-power Doppler radar operation

    The block diagram of the BGT60LTR11AIP MMIC is shown in figure 2. The chip package includes one transmitting and one receiving broad-beam antenna for maximum area coverage with a horizontal and vertical Half Power Beam Width (HPBW) of 80°.

    The integrated voltage controlled oscillator (VCO) generates the high frequency signal, which is stabilized by a phase locked loop (PLL). The transmit section consists of a medium power amplifier (MPA) with configurable output power. It can be controlled via the serial peripheral interface (SPI). Integrated power detectors monitor the transmitted power.

    The chip features a low noise quadrature receiver stage. The receiver uses a low noise amplifier (LNA) in front of a quadrature homodyne down conversion mixer in order to provide excellent receiver sensitivity. Derived from the internal VCO signal, an RC poly-phase filter (PPF) generates quadrature LO signals for the quadrature mixer.

    The integrated Analog Base Band (ABB) unit consists of a sample and hold (S&H) circuit for low power duty-cycled operation followed by an externally configurable high pass filter, a variable gain amplifier (VGA) stage and a low pass filter. The integrated target detectors are analog comparators, which generate pulses based on target movements in front of the radar. The detector circuitry offers a user-configurable hold time, hit counter and detection threshold for maximum flexibility and robustness against false alarms. “Hold time” is equivalent to the duration during which the output of the detectors remains active after a target detection. “Hit counter” refers to the number of comparator output pulses required by the state machine to have a valid target detection.

    Quad states allow multiple degrees of freedom

    The MMIC has four quad-state (QS1-4) input pins that give the performance parameters flexibility even when it is running in autonomous mode. For instance, the user can easily select between four threshold values at QS2 to increase or reduce the detector sensitivity. The following table displays the QS parameter settings:

    QS Parameter
    1 Radar operation mode
    2 Detector sensitivity (Comparator threshold voltage)
    3 Signal hold time after target detection
    4 Device operating frequency


    For experienced radar users, the MMIC also supports a semi-autonomous and a SPI mode by changing the operation mode with QS1 pin. In these modes, the radar raw data can be extracted from BGT60LTR11AIP for signal processing on a PC or an external microcontroller unit (MCU) using SPI. This sampled radar data can be used for developing customized algorithms. Therefore, the shield can also be attached to an Arduino MKR board or an Infineon Radar Baseboard MCU7.

    Infineon’s Toolbox supports this platform with a demonstration software and a radar graphical user interface (Radar GUI) to display and analyze acquired data in time and frequency domain.

    Its features make this small sized radar solution a compelling smart and cost-effective replacement for conventional PIR sensors in low power or battery-powered applications.

    ELE Times Bureau
    ELE Times Bureau
    ELE Times provides a comprehensive global coverage of Electronics, Technology and the Market. In addition to providing in depth articles, ELE Times attracts the industry’s largest, qualified and highly engaged audiences, who appreciate our timely, relevant content and popular formats. ELE Times helps you build awareness, drive traffic, communicate your offerings to right audience, generate leads and sell your products better.

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