SWRU596
December
2022
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1Abstract
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Trademarks
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2Getting Started
- 2.1
Key Features
- 2.2
Kit Contents
- 2.3
mmWave Out of Box Demo
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3Hardware
- 3.1
Block Diagram
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4EVM Mux Block Diagram
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5PCB Storage and Handling
Recommendations:
- 5.1
PCB Storage and Handling
Recommendations:
- 5.2
Higher Power Demanding Applications:
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6XWRL6432BOOST Antenna
- 6.1
PCB material
- 6.1.1
Transmitter and receiver virtual array
- 6.2
Switch Settings
- 6.3
LEDs
- 6.4
Connectors
- 6.5
USB Connector
- 6.6
DCA1000 HD Connector
- 6.7
Booster Pack Connector for the LaunchPad
Connectivity
- 6.8
CANFD Connector
- 6.9
LIN PHY connection
- 6.10
I2C Connections
- 6.10.1
EEPROM
- 6.11
XDS110 Interface
- 6.12
Flashing the Board
- 6.13
DCA1000EVM Mode
- 6.13.1
RDIF interface for Raw ADC capture
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7Software, Development Tools, and Example
Code
- 7.1
XWRL6432 Demo Visualization Getting
Started
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8TI E2E Community
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9References
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Revision History
2.1 Key Features
- FR4-based PCB substrate
- Wide field of view antenna,
targeted for wall mount applications
- Industrial: Building automation,
Presence / motion detection, Displacement sensing, Robotics, Security and
Surveillance, Vital sign detection, Gesture, Factory automation
applications
- Automotive: In cabin sensing,
Occupancy detection, Child presence detection, Intruder detection, Seat belt
reminder, Gesture applications
- XDS110 JTAG interface with USB connectivity for code development and
debugging
- Power optimized discrete DCDC power management solution
- Relaxed PCB rules: lower
manufacturing cost
- No micro vias, only
through via
- No vias on the BGA
pads
- Serial port for onboard QSPI flash programming
- 60-pin, high-density (HD) connectors for raw analog-to-digital converter (ADC)
data
- Onboard CAN-FD transceiver
- On board LIN PHY transceiver for
automotive variant.
- USB powered standalone mode of operation
- EVM is designed as booster pack to connect with other LaunchPad EVMs
- On board 16Mbit QSPI flash