Sensors Forum Discussions
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CO₂ sensor
In this forum you can post your questions, comments and feedback about the XENSIV™ PAS CO₂ sensor, a small yet highly accurate CO₂ sensor based on photoacoustic spectroscopy (PAS) technology. This sensor is ideal for integration into smart home appliances, consumer devices and HVAC systems. Here you can also find the links to the latest board pages, GitHub, documents and FAQs.
3D Hall (Magnetic sensor)
In this forum you can post your questions, comments and feedback about the XENSIV™ 3D Hall sensors, a sensor family (TLx493D) which is using a hall-based technology in order to detect the strength of a magnetic field in all three dimensions, i.e. x-, y- and z-axis. This family fits into industrial and consumer applications such as control elements and joysticks. Furthermore, it is the ideal fit for low-power automotive applications like indicators and gear shifters. Here you can also find the links to the latest board pages, GitHub, documents, simulation tools and FAQs.
Switches (Magnetic sensors)
In this forum you can post your questions, comments and feedback about the XENSIV™ Magnetic Switch sensors, a sensor family which is using e.g. a hall-based technology in order to detect the strength of a magnetic field in one dimension. Our switches can be found in a variety of consumer, industry and automotive applications like conventional block commutation in brushless drives (BLDC). Here you can also find the links to the latest board pages, GitHub, documents, simulation tools and FAQs.
Radar sensor
In this forum you can post your questions, comments and feedback about Infineon's XENSIV™ radar sensors. Designed to support a wide range of industrial, consumer and automotive applications, Infineon’s millimeter wave (mmWave) radar portfolio offers both FMCW and Doppler radar sensors supporting 24GHz, 60GHz, 77/79GHz. Here you can also find the links to the latest board pages, GitHub, documents, tools and FAQs.
Angle (Magnetic sensor)
In this forum you can post your questions, comments and feedback about the XENSIV™ Angle sensors. This sensor family is based on integrated Magneto Resistive (ixMR) technologies (e.g. GMR, TMR) in order to detect the orientation of an applied magnetic field by measuring sine and cosine angle components with monolithically integrated magneto resistive elements. Our Angle sensors can be found in a variety of consumer, industry and automotive applications like motor commutation in brushless drives (BLDC). Here you can also find the links to the latest board pages, GitHub, documents, simulation tools and FAQs.
Current (Magnetic sensor)
In this forum you can post your questions, comments and feedback about the XENSIV™ Current sensors, a sensor family which is using a hall-based technology in order to sense accurate and stable the current. Our Current sensors can be found in a variety of consumer, industry and automotive applications like traction inverters, industrial drives, photovoltaic inverters or battery disconnect systems. Here you can also find the links to the latest board pages, GitHub, documents, simulation tools and FAQs.
MEMS microphones
In this forum you can post your questions, comments and feedback about Infineon’s XENSIV™ MEMS microphones. Our high performance microphones can be used in a variety of application such as earbuds, headphones, smartphones or laptops for high quality audio pickup.
Pressure Sensors
Our XENSIV™ family of digital absolute barometric pressure sensors gives designers the best choice when it comes to mobile and wearable devices. Highlights include small form factors to facilitate system integration, highest precision and relative accuracy over a wide temperature range, fast read-out speeds via the serial I2C/SPI interface, and low power consumption to ensure longer battery lifetimes. All of our air sensing solutions have a FIFO buffer that can store the last 32 measurements. Since the host processor can remain in sleep mode for a longer period between readouts, the FIFO buffer can reduce system power consumption further.
Speed (Magnetic sensor)
In this forum you can post your questions, comments and feedback about the XENSIV™ Speed sensors. This sensor family is based on integrated Magneto Resistive (ixMR) or hall-based technologies in order to determine linear and rotational speed. Our Speed sensors can be used with ferromagnetic gear tooth wheels or encoders to measure speed and position and they are essential components for the function of safety and powertrain applications like rotating shafts. Here you can also find the links to the latest board pages, documents and FAQs.
Featured Discussions
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Hi everyone, I'm using BGT60TR24B to do some experiments., and I’m going to do beamforming on this radar, but I don't know if the radar hardware supports it? Thank you!
Show LessThe customer is designing a bicycle radar light product. The reference is the Distance2GoL circuit design. IFI waveform does not have pulse waveform like EVM, it is always high level. As shown in the figure((Yellow VTUNE, Blue IFI) 1: Blue IFI is not powered down like the development board), the measurement is done on the front end of the op-amp. What is the reason for this?
Show LessI am looking for a sensor that can sense 50micro Ampere DC current to sense the sleep current. Anyone, please recommend which sensor will work? The output should be 0-5V.
Show LessI would like to make people/object detection system for a vehicle.
Idea is to detects people when the vehicle is going in reverse.
That means vehicle is going to be relatively slowly.
I have demo position2go kit, but I can't seem to configure it to detect reliably.
Sometimes it detects when nothing is there and sometimes it doesn't detect when there is a obstacle/people there.
Is this demo kit capable of reliable detection? Do I just need to better configure it or is there a better solution there?
Please help me, I'm willing to compensate you for your help.
Thanks for any reply in advance. Show Less
Hello. Can you provide full datasheet for radar BGT60TR13C. I'm trying to integrate this radar in our product for object detection, but in datasheet https://www.infineon.com/dgdl/Infineon-BGT60TR13CDataSheet-DataSheet-v01_00-EN.pdf?fileId=8ac78c8c7d718a49017d94bac88e5d43 there is not enough information about registers for sensor configuration.
Show LessAfter I connect the BGT60TR13C to my PC, the Radar GUI shows device disconnected.
is there has develop guide for BGT60ATR24C with SHIELD_60ATR24ES_01,
and could SHIELD_60ATR24ES_01 connect to pc by USB cable which same with DEMO BGT60TR13C
Show LessHI Team,
Could you pls suggest equivalent for HW101A-E.
Hello
I'm using the DEMO POSITION2GO radar, and I'm trying to develop my own algorithm with DAVE IDE.
The COM port will not work when two arrays do calculations or assignation.
But the build is successful.
Below is the code I found problematic.
1.do assignation
double _Complex x1[2][128] = {};
getdata()
{
double _Complex rx12[2][128] = {{0.5008547 + 0.5177045*I,0.6893773 + 0.5008547*I, ...... };
int i, j;
for(i=0;i<2;i++){
for(j=0;j<128;j++){
x1[i][j] = (rx12[i][j]-0.5-0.5*I)* 2;//Doing this line will cause the COM port to not be read
}
}
}
2.do calculations
void fft1
(double _Complex x[][128],int pekora) /*fft1(x1,0); double _Complex x1={{0.5008547 + 0.5177045*I,0.6893773 + 0.5008547*I,0.9377289......};*/
{
double _Complex fev[213]={};
double _Complex F64[213][64] = {{1.000000 + 0.000000*I,1.000000 + 0.000000*I,......};
double _Complex f;
int i, j,g;
P = 128/2;
if(pekora == 0){
if(P==64){
for(g=0;g<16;g++){
for(i=0;i<213;i++){
for(j=0;j< P;j++){
f = F64[i][j]*x[g][2*j]; //Doing this line will cause the COM port to not be read
fev[i] = fev[i]+f;
}
}
}
}
}
}
I don't know why the USB COM port is not being read.
Can you give me some advice to fix it?
Any help would be very welcome.
thanks
Show Less