RacecapturePro MK4 hardware install: Difference between revisions

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* See our comprehensive [https://wiki.autosportlabs.com/RaceCapturePro_Sensors Sensor Guide] for information on connecting various types of analog sensors.
* See our comprehensive [https://wiki.autosportlabs.com/RaceCapturePro_Sensors Sensor Guide] for information on connecting various types of analog sensors.
* Also see our guide on [https://wiki.autosportlabs.com/RaceCapturePro_Calibrate_Sensor Calibrating an Analog Sensor]
* Also see our guide on [https://wiki.autosportlabs.com/RaceCapturePro_Calibrate_Sensor Calibrating an Analog Sensor]
==Frequency / RPM Input==
You can connect RPM, wheel speed, and other pulse-type sensors to the RaceCapture/Pro frequency input pins. These inputs are designed to handle various types of frequency-based signals, providing accurate and reliable data for performance monitoring and analysis.
{| class="wikitable"
|+ Frequency / RPM Input Speccifications
|-
| Input Impedance || Greater than 1M ohm
|-
| Voltage Protection || Up to 400V (intermittent)
|-
| ADC Precision|| 12-bit
|-
| Maximum Sample Rate || 1000Hz (logging to SD card)
|-
| Mapping Supported|| The input signals can be mapped to RPM, frequency, or period measurements.
|}

Revision as of 17:00, 29 July 2024

Installation

Mounting Orientation

The system can be mounted in various orientations to suit your needs. However, for optimal performance of the accelerometer and gyroscope, it is recommended to mount the system horizontally flat with the indicators facing the driver. After mounting, you can zero out the channels by performing calibration in the Setup section under Accel/Gyro.

Recommended Orientation

Horizontally Flat Indicators facing toward the driver

Mounting Orientation.png

Alternate Orientations

If needed, the system can also be mounted in alternate orientations. Ensure that any alternate mounting is square to the orientation of the car. Some examples include:

  • Upside Down
  • Vertical / On Edge

Calibration and Remapping

When an alternate mounting orientation is chosen, it is crucial to remap the accelerometer and gyroscope channels to accurately reflect this change. This can be done in the Setup section under Accel/Gyro.

Mounting Dimensions

The mounting dimensions of Racecapture Pro Mk4 are given in the image below.

Mounting Dimensions.png


Connections

Connections.png

The RaceCapturePro MK4 has 5 connectors, detailed as follows from left to right:

  1. 12-pin female M12 connector for analog input devices.
  2. SMA connector for GPS antenna connection.
  3. 12-pin female M12 connector for digital input and RPM sensors.
  4. 6-pin female M8 connector for CAN1, CAN2, and power connections.
  5. 4-pin female M8 connector for CAN1 and power connections.


The detailed explanations of connector pinouts are given below.

M12 Analog / Digital Connectors

M12 Pin.png

M12 Analog / Digital ConnectorsCaption text
Pin Connection Analog Mapping Digital Mapping
1 Analog/Digital B1 Analog 5 GPIO 1
2 Analog/Digital B2 Analog 6 GPIO 2
3 Analog/Digital B4 Analog 8 GPIO 4
4 Analog/Digital A1 Analog 1 Timer/RPM 1
5 Analog/Digital A2 Analog 2 Timer/RPM 2
6 Vref 5v @ 0.5A 5v @ 0.5A
7 Analog/Digital A3 Analog 3 Timer/RPM 3
8 Analog/Digital A4 Analog 4 Timer/RPM 4
9 Analog/Digital B Analog 7 GPIO 3
10 Ground
11 Ground
12 Ground

M8 Connectors 4-Pin CAN1+Power

M8 4-Pin.png

M8 Connectors 4-Pin CAN1+Power
Pin Connection Notes
1 CAN 1 low
2 Power 9-24v / 1A (~12W)
3 CAN 1 high
4 Ground

M8 Connectors 4-Pin CAN1+Power

M8 6-Pin.png

M8 Connectors 4-Pin CAN1+Power
Pin Connection Notes
1 CAN 1 low
2 CAN 2 low
3 CAN 2 high
4 Ground
5 CAN 1 high
6 Power 9-24v / 1A (~12W)

OBDII CAN cable

Connecting the Racecapture MK4 to your vehicle's OBDII port is straightforward. The provided M8 connector allows you to easily plug in the OBDII cable using an M8 male to OBDII adapter. This makes for a convenient plug-and-play setup, with no additional connections needed.

M8 male to OBDII.png

SMA Connector

Connect the included GPS antenna to this port. Note: Tighten this connection to 5-6 inches/lbs (just beyond finger tight). Do not over-torque

SMA Connector.png

Antenna Placement Guide

For optimal GPS reception, install a GPS antenna with a clear 360-degree view of the sky, such as on the roof of the vehicle.

Powering

Connect RaceCapture/Pro to a 12V power source, ideally using a switched OBD-II cable.

Power Requirements

Power requirements
Voltage 9-24v
Current 1A (~12W)

Sensor Connectivity

Analog Inputs pins

Analog Channel Speccifications
Channels 9 analog input channels, with 8 external and 1 internal for monitoring battery or supply voltage
Voltage Range 0-5V
Input Impedance Greater than 1M ohm
Voltage Protection Up to 400V (intermittent)
ADC Precision 12-bit
Maximum Sample Rate 1000Hz
Mapping Can be configured as Raw, using a linear formula, or an interpolated map

Note: You can use an analog port to monitor the states of 12V switches, lights, or other 5V-12V On/Off devices. It is recommended to use an inline 10K 1/4 watt resistor to ensure proper functioning and protection of the system. The input should be mapped such that a voltage range of 0-3.0V corresponds to a state of 0, and a voltage range of 3.01V and above corresponds to a state of 1. Even when 12V is applied, the system will display a maximum of approximately 5V, ensuring safe monitoring and accurate state detection of the connected devices.

Analog Pins.png

Guides

Frequency / RPM Input

You can connect RPM, wheel speed, and other pulse-type sensors to the RaceCapture/Pro frequency input pins. These inputs are designed to handle various types of frequency-based signals, providing accurate and reliable data for performance monitoring and analysis.

Frequency / RPM Input Speccifications
Input Impedance Greater than 1M ohm
Voltage Protection Up to 400V (intermittent)
ADC Precision 12-bit
Maximum Sample Rate 1000Hz (logging to SD card)
Mapping Supported The input signals can be mapped to RPM, frequency, or period measurements.