Vu 8 Channel LiDAR Module, 48°/0.3°, USB, CAN Bus, RS485 & UART - User Manual
Table Of Contents
- List of Figures
- List of Tables
- 1. Introduction
- 1.1. Description
- 1.2. SPI Carrier Board
- 1.3. USB, CAN and SERIAL Carrier Board
- 1.4. Working Diagram
- 1.4.1. SPI Carrier Board
- 1.4.2. USB, CAN and SERIAL Board
- 2. Underlying Principles
- 3. Getting Started
- 3.1. Optional Power Supply
- 3.2. Optional SPI cable
- 3.3. Setup
- 3.4. Connecting to the LeddarVu Module
- 4. Measurements and Settings
- 4.1. Distance Measurement
- 4.2. Data Description
- 4.3. Acquisition Settings
- 4.3.1. General Settings
- 4.3.2. Enabling and Disabling Segments
- 4.4. Measurement Rate
- 4.5. CPU Load
- 5. Communication Interfaces
- 5.1. SPI Interface
- 5.1.1. SPI Basics
- 5.1.2. SPI Protocol
- 5.1.3. Memory Map
- Configuration Data
- Product Configuration
- Device Information and Constants
- LeddarVu Device Information and Constants
- General Status
- LeddarVu Status
- Detection List
- Transaction Configuration
- 5.1.4. SPI Operation
- 5.1.4.1. SPI Port Configuration
- 5.1.4.2. Sensor Hard Reset
- 5.1.4.3. Speed and timing
- 5.1.4.4. Access
- 5.1.4.5. Modification
- 5.2. I2C Interface
- 5.3. USB Interface
- 5.4. Serial Link Interface
- 5.5. CAN Bus Interface
- 6. Leddar™ Configurator
- 6.1. Introduction to Configurator Software
- 6.2. Connection Window
- 6.3. Leddar™ Configurator Main Window
- 6.3.1. Toolbar
- 6.3.2. Fit to Window
- 6.3.3. Force Equal Horizontal and Vertical Scales
- 6.3.4. Zoom in
- 6.3.5. Zoom out
- 6.3.6. Scale
- 6.3.7. Panning and Zooming
- 6.3.8. Changing the LeddarVu Module Origin
- 6.3.9. Changing the LeddarVu Module Orientation
- 6.4. Settings
- 6.4.1. Module Name
- 6.4.2. Acquisition Settings
- 6.4.3. Serial Port
- 6.4.4. CAN Port
- 6.5. Saving and Loading a Configuration
- 6.6. Configuring Detection Records
- 6.7. Using Detection Records
- 6.8. Data Logging
- 6.9. Firmware Update
- 6.10. Device State
- General
- Device Information
- Carrier
- 6.11. Preferences
- 6.12. Raw Detections
- 7. Specifications
- 7.1. General
- 7.2. Mechanical
- 7.3. Electrical
- 7.4. Optical
- 7.5. Performance
- 7.6. Regulatory Compliance and Safety
- 7.7. Dimensions
- 7.7.1. 98.5 Module
- 7.7.2. 47.5 Module
- 7.7.3. 16 Module
- 8. Technical Support
- Appendix A ̶ Example of a 0x04 function (read input register)
- Appendix B ̶ Example of a 0x41 Modbus Function
- Appendix C ̶ Example of a LeddarVu CAN Bus Detection Request
LeddarVu – User Guide Page 76 of 129
Table 58: CAN bus request message (Set holding data)
Holding
Data Type
(Byte 1)
Holding Data
Description
Argument
Argument Description
0
Acquisition
configuration
Byte 2
Exponent for the number of accumulation (that
is, if the content of this register is n, 2
n
accumulations are performed).
Byte 3
Exponent for the number of oversampling (that
is, if the content of this register is n, 2
n
oversamplings are performed).
Byte 4
Number of base samples
1
Smoothing
and detection
threshold
Byte 2
Smoothing: Stabilizes the module
measurements. The behavior of the
smoothing algorithm can be adjusted by a
value ranging from −16 to 16. Clear the
Enable check box to disable smoothing.
Bytes 4
through 7
Detection threshold as a fixed-point value with
a 6-bit fractional part (that is, threshold value
is this register divided by 64).
2
Light source
power
management
Byte 2
Light source power in percentage of the
maximum. A value above 100 is an error. If a
value is specified that is not one of the
predefined values, the closest predefined
value will be used. Refer to the detection
reading to verify the LED intensity value as
seen in Table 55 and Table 67.
Note that this value is ignored if the automatic
light source intensity parameter is enabled.
Byte 3
Number of echoes for saturation acceptance:
the number of echoes can be saturated to
avoid decreasing the light source power when
using the automatic mode.
Bytes 4 and
5
Auto light source power changes the delay in
number of measurements