LPMS-CURS3-OEM Hardware Manual

System Overview

System Architecture

LPMS-CURS3 System architecture

Pinout Description

Pin

Name

Function

1

VCC

+5V~18V

2

D+

USB D+

3

D-

USB D-

4

CAN+

CAN High

5

CAN-

CAN Low

6

RS232_RX / UART_RX

RS232/TTL RX Input

7

RS232_TX / UART_TX

RS232 /TTL TX Output

8

GND

Ground

 

Please note that TTL, RS232 and CAN Bus pins are mutually exclusive. Only one communication interface is enabled depending on the model. Communication interfaces for different LPMS-CURS3 models are listed below:

Model

Communication Interface

USB

RS232

CAN

TTL

LPMS-CURS3-RS232

×

×

LPMS-CURS3-CAN

×

×

LPMS-CURS3-TTL

×

×

Default settings for communication interface:

  • USB: USBXpress, convertible to virtual COM port,921600bps,8N1 

  • RS232: 921600bps,8N1

  • CAN: 500kbps, terminal resistor enabled

Coordinate System

The coordinate system for LPMS-CURS3 is defined as follow:

Accelerometer output convention

A positive acceleration output will be produced when the sensor is accelerated at the same direction of the positive axes. When the sensor is at rest with Z axis pointing upwards, the calibrated output of the accelerometer is expected to be [0 0 +1g] indicating the acceleration due to the force of gravity.

Gyroscope output convention

Gyroscope output follows the right hand rule where rotation along an axis following the right hand convention will produce a positive angular velocity. The calibrated output of the gyroscope is expected to be close to zero when the sensor is at rest.

Magnetometer output convention

XYZ axes indicates the direction of magnetic field that generates a positive output reading in normal measurement configuration.

Euler output convention

Euler output is in degree. The rotation sequence follows global XYZ rotation. In otherwords, the current orientation of the sensor can be obtained by rotating at th euler values along global X → global Y → global Z axis.

Range of euler output is as follow:

  • X Angle: -180° ~ +180°

  • Y Angle: -90° ~ +90°

  • Z Angle: -180° ~ +180°

Specifications

Main Parameters

Parameter

Value

Euler angle range

X: ±180°;Y: ±90°;Z: ±180°

Angle resolution

0.01°

Output data type

Raw and calibrated imu data / Euler angle / Quaternion / Linear acceleration / Angular velocity / Temperature / Pressure

Communication interface

CAN BUS

UART: RS232/ TTL

USB

Max. baudrate

1M bps

921600 bps

921600 bps

Communication protocol

CANOpen

/SequentialCAN

LPBUS

LPBUS

Dimensions

22x28x7.65 mm

Weight

4g

Max. data output rate

500Hz

Power consumption

<120mW@5V

Power supply

5V~18V DC

Operating temperature range

-20~+80 °C

Connector

BM08B 1.25mm、Micro USB-B

Accelerometer Parameters

Parameter

Value

Unit

Measurement range

±2/±4/±8/±16

g

Linear acceleration sensitivity

0.061/0.122/0.244/0.488

mg/LSB

Linear acceleration sensitivity change vs temperature

±0.01

%/°C

Linear acceleration zero-g level offset accuracy

±10

mg

Linear acceleration zero-g level change vs temperature

±0.1

mg/°C

Acceleration noise density

60

μg/√Hz

Gyroscope Parameters

Parameter

Value

Unit

Measurement range

±125/±250/±500/±1000/±2000/±4000

dps

Angular rate sensitivity

4.375/8.75/17.50/35/70/140

mdps/LSB

Angular rate sensitivity change vs temperature

±0.007

%/°C

Angular rate zero-rate level

±1

dps

Angular rate zero-rate level change vs temperature

±0.005

dps/°C

Rate noise density

5

mdps/√Hz

Magnetometer Parameters

Parameter

Value

Unit

Measurement range

±2/±8

Gauss

Sensitivity

3000/12000

LSB/G

Zero offset

±10

mG

Linearity

0.1 (FS=±2 gauss)

%FS

Packaging details