Part Number: IWR6843 Hi,
I want to use IWR6843 radar module in my UAS. To use this in India do I need any license?
Also, does TI has product compliance test report as per Harmonized standard covering the essential requirements of RED Directive 2014/53…
Hi Josh,
1. Application is avoiding obstacles coming on the way to the UAS. So, radar is mounted on arms of UAS just above the motor of propeller. Radar is facing parallel to the ground.
2. Radar module is not EVM board. It is a custom board designed with…
Part Number: IWR6843 Hello TI,
At first, I am preparing for certification with IWR6843. I'm using area scanner example.
Below is part of my cfg.
channelCfg 15 7 0 profileCfg 0 60.5 100 25 69 0 0 50 1 256 6000 0 0 30 chirpCfg 0 0 0 0 0 0 0 1 chirpCfg 1…
Part Number: IWR6843 Hi,
I am using 60Ghz IWR6843 radar module. In India licensed frequency band is 61-64Ghz.
To fit into this band can we increase the frequency of radar between 61-64Ghz range?
In configuration file we have provision to change frequency…
Part Number: IWR6843 Hello there,
Is this device (IWR6843) compatible with AWS IoT core?
Any help or guidance you could give me would be greatly appreciated.
Kind regards,
Kate
Part Number: IWR6843 Other Parts Discussed in Thread: UNIFLASH Hello expert,
When writing to xWR6843 using Uniflash Standalone command Line I/F, is it possible to enable the Verify function after the burning completion?
The Quick Start Guide ( https:/…
Hi Madan Raja,
As per the specification, 60GHz needs to be used for Indoor application. 77GHz is used for automotive application
You case use IWRL6432 for monitoring breath rate and heart rate. It can detect heart rate and breath rate at 1-3m
You can…
Part Number: IWR6843 We are trying to connect the IWR6843 via UART. We have used the TI PinMux tool for the pin configuration. And we get a configuration for our purpose with the UART_B as UART communication interface. In the pin_mux_config.c everything…
Part Number: IWR6843 Hi, I am trying to simulate the radar adc samples for IWR6843. Say S_in and N_in are signal and noise power at the receiver path input. After propagating through the receiver path, S_out = S_in*G_rp and N_out = N_in*G_rp*NF, where…