RaceCapturePro installation guide: Difference between revisions

(added LED / sd card connection end)
(added diagram and refreshed verbage)
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===Power Connection===
===Power Connection===
Connect RaceCapture/Pro to a power source between 9 and 24V. To fully support all devices and outputs, provide at least a 5A fused connection.
Connect RaceCapture/Pro to a power source between 9 and 24V. To fully support all devices and outputs, provide at least a 5A fused connection.
==Sensors==
'''Also see the [[RaceCapturePro_Sensors|Comprehensive Sensor installation guide]]'''


===Analog Inputs 1-7===
===Analog Inputs 1-7===
====Active Sensors/Signals====
====Active Sensors/Signals====
The Analog Input Channels accept a 0-5v input signal (protected up to 40V). Connect the input from a sensor to the appropriate connection of the terminal block.   
The Analog Input Channels accept a 0-5v input signal (protected up to 40V). Connect the input from a sensor to the appropriate connection of the terminal block.   
<center>[[Image:active_sensor_connection.png]]</center>
====Resistive sensor====
====Resistive sensor====
When connecting resistive style sensors, like many temperature and pressure sensors, one terminal of the sensor is connected to ground, and the other is connected to the Analog input, with a pullup resistor connected to the +5V Voltage Reference on the terminal block. A 2.2K resistor is recommended for most applications.
When connecting resistive style sensors, like many temperature and pressure sensors, one terminal of the sensor is connected to ground, and the other is connected to the Analog input, with a pullup resistor connected to the +5V Voltage Reference on the terminal block. A 2.2K resistor is recommended for most applications.
<center>[[Image:temp_sensor_connection.png]]</center>


===5V Voltage Reference===
===5V Voltage Reference===
This output provides a 5V reference to be used with the Analog Inputs. Up to 50mA is provided to supply power to active sensors, pull-up resistors and other purposes. This reference output is protected against short-circuits with an auto-resetting fuse. If the fuse is active, a low or zero voltage reading may be observed on this port. To verify an over-current situation, test the voltage on the port without any load connected.
This output provides a 5V reference to be used with the Analog Inputs. Up to 50mA is provided to supply power to active sensors, pull-up resistors and other purposes. This reference output is protected against short-circuits with an auto-resetting fuse. If the fuse is active, a low or zero voltage reading may be observed on this port. To verify an over-current situation, test the voltage on the port without any load connected.


===Analog/Frequency Outputs 1-4===
===Analog/Frequency Outputs 1 - 4===
Depending on configuration, these outputs provide a settable 0-5v analog output voltage, or frequency output where the pulse-width and frequency can be set. These outputs can supply 50mA each.
Depending on configuration, these outputs provide a settable 0-5v analog output voltage, or frequency output where the pulse-width and frequency can be set. These outputs can supply 50mA each.


===General Input/Output Channels 1-3===
===General Input/Output Channels 1 - 3===
Depending on configuration, these channels can accept either a digital input, or provide an output to control external devices.
Depending on configuration, these channels can accept either a digital input, or provide an output to control external devices.
* When configured for input, the channel accepts a 0-5v input (protected up to 45V). Each input channel has a built-in 10K pullup resistor connected to 5V.
* When configured for '''input''', the channel accepts a 0-5v input (protected up to 45V). Each input channel has a built-in 10K pullup resistor connected to 5V.
* When configured for output, the channel provides an open-drain output that can drive 1A and is thermal / over-current protected with inductive load clamping. When the output is deactivated, a 1K ohm pull-up to +5v is present.
* When configured for '''output''', the channel provides an open-drain output that can drive 1A and is thermal / over-current protected with inductive load clamping. When the output is deactivated, a 1K ohm pull-up to +5v is present.


===Frequency/Pulse Input 1-3===
===Frequency/Pulse Input 1 - 3===
These input channels can be used to time the duration between digital pulses for purposes of measuring RPM, shaft speed, and so on. The input accepts 0-5V (protected up to 40V). Each input has a built-in 10K pullup resistor connected to 5V.
These input channels can be used to time the duration between digital pulses for purposes of measuring RPM, shaft speed, and so on. The input accepts 0-5V (protected up to 40V). Each input has a built-in 10K pullup resistor connected to 5V.


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'''CoilX Sensor Module'''
'''CoilX Sensor Module'''


[[Image:coilx_wiring_sm.jpg|200px]]
[[Image:coilx_wiring_sm.jpg|300px]]


You can use the CoilX sensor module to safely interface this high voltage RPM signal. See the [[CoilX|CoilX page]] for more information.
You can use the CoilX sensor module to safely interface this high voltage RPM signal. See the [[CoilX|CoilX page]] for more information.
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[[File:Expansionport.jpg]]
[[File:Expansionport.jpg]]


The RJ45 Expansion port located next to the terminal block is provided for future sensor / control expansion.
The RJ45 connector to the right of the terminal block is used for the CAN/OBDII bus expansion module or other custom hardware expansion devices.


===SD Card Slot===
===SD Card Slot===
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[[File:Usbport.jpg]]
[[File:Usbport.jpg]]


Used for configuring RaceCapture Pro via Race Analyzer.
Used for configuring RaceCapture Pro via [[RaceCapturePro_SoftwareOperation Race Analyzer Software]]


===LED Indicators===
===LED Indicators===
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===Default Accelerometer Configuration===
===Default Accelerometer Configuration===
The default accelerometer configuration assumes RaceCapture/Pro is mounted flat, right side up with the terminal block pointed towards the front of the vehicle. Other orientations are supported by changing the settings in the Software. See the [[RaceCapturePro_SoftwareOperation#Accelerometer_Inputs|Operation Guide]] for more information.
The default accelerometer configuration assumes RaceCapture/Pro is mounted flat, right side up with the terminal block pointed towards the front of the vehicle. Other orientations are supported by changing the settings in the Software. See the [[RaceCapturePro_SoftwareOperation#Accelerometer_Inputs|Operation Guide]] for more information.
<<Todo: add picture or diagram here>>




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The test push-button, if installed, is used to load the factory bootloader for re-writing flash. Also see: [[RaceCapture/Pro_firmware_upgrade|How to flash RaceCapture/Pro firmware]]
The test push-button, if installed, is used to load the factory bootloader for re-writing flash. Also see: [[RaceCapture/Pro_firmware_upgrade|How to flash RaceCapture/Pro firmware]]
===JTAG header===
The JTAG header is used to debug or program the RaceCapture/Pro firmware. This is not needed for normal operation

Revision as of 19:37, 17 February 2014

Connections

RCP terminal block connectors.png

RaceCapture-Pro LED connections.png

Power Connection

Connect RaceCapture/Pro to a power source between 9 and 24V. To fully support all devices and outputs, provide at least a 5A fused connection.

Sensors

Also see the Comprehensive Sensor installation guide

Analog Inputs 1-7

Active Sensors/Signals

The Analog Input Channels accept a 0-5v input signal (protected up to 40V). Connect the input from a sensor to the appropriate connection of the terminal block.

Active sensor connection.png

Resistive sensor

When connecting resistive style sensors, like many temperature and pressure sensors, one terminal of the sensor is connected to ground, and the other is connected to the Analog input, with a pullup resistor connected to the +5V Voltage Reference on the terminal block. A 2.2K resistor is recommended for most applications.

Temp sensor connection.png

5V Voltage Reference

This output provides a 5V reference to be used with the Analog Inputs. Up to 50mA is provided to supply power to active sensors, pull-up resistors and other purposes. This reference output is protected against short-circuits with an auto-resetting fuse. If the fuse is active, a low or zero voltage reading may be observed on this port. To verify an over-current situation, test the voltage on the port without any load connected.

Analog/Frequency Outputs 1 - 4

Depending on configuration, these outputs provide a settable 0-5v analog output voltage, or frequency output where the pulse-width and frequency can be set. These outputs can supply 50mA each.

General Input/Output Channels 1 - 3

Depending on configuration, these channels can accept either a digital input, or provide an output to control external devices.

  • When configured for input, the channel accepts a 0-5v input (protected up to 45V). Each input channel has a built-in 10K pullup resistor connected to 5V.
  • When configured for output, the channel provides an open-drain output that can drive 1A and is thermal / over-current protected with inductive load clamping. When the output is deactivated, a 1K ohm pull-up to +5v is present.

Frequency/Pulse Input 1 - 3

These input channels can be used to time the duration between digital pulses for purposes of measuring RPM, shaft speed, and so on. The input accepts 0-5V (protected up to 40V). Each input has a built-in 10K pullup resistor connected to 5V.

TACH SIGNAL NOTES

Do not connect the old-style tachometer signal directly to RaceCapture/Pro. This signal is typically sourced from a wire that connects directly to the (-) post of the ignition coil. These signals are 400-500v peak and can damage your RaceCapture/Pro hardware.

CoilX Sensor Module

Coilx wiring sm.jpg

You can use the CoilX sensor module to safely interface this high voltage RPM signal. See the CoilX page for more information.

Newer style tach signals sourced from the ECU will likely provide a clean square wave signal and can be connected directly to this input.

If unsure, observe the signal with an oscilloscope and/or consult technical documentation of your vehicle.

Expansion Port

Expansionport.jpg

The RJ45 connector to the right of the terminal block is used for the CAN/OBDII bus expansion module or other custom hardware expansion devices.

SD Card Slot

Sdcard.jpg

The SD card slot is used to store datalogging sessions. 512MB to 32GB cards are supported.

USB Port

Usbport.jpg

Used for configuring RaceCapture Pro via RaceCapturePro_SoftwareOperation Race Analyzer Software

LED Indicators

Leds.jpg

  • Power LED

Indicates the unit is powered up (via 12v supply or USB)

  • LED1

Indicates GPS Activity. Slow flash (1Hz) indicates GPS is actively acquiring. Fast flash (10 times per second) indicates GPS is locked on to satellites.

  • LED2

Indicates SD card Logging Activity. The flash rate matches the channel with the highest configured logging rate.

  • LED3

Indicates error status when writing to SD Card (future error conditions will be indicated by this LED)

Pushbutton

Pushbutton.jpg

Press to manually start / stop a logging session. Note this may be overridden by any on-board scripts that may automatically start or stop logging.

Communication Ports

Expansionports.jpg

The communication ports a standard RS232 serial connection with power (up to 5v at 1.5A)

  • Port 1

Used for telemetry expansion module

  • Port 2

Used for GPS module


Installation

Mounting orientation and position

The ideal mounting position for RaceCapture/Pro is mounted flat (right side up or upside down), in the exact center of the vehicle. This gives the best effect from the built in Gyroscope, which measures Yaw (understeer / oversteer).

<<Todo: add picture or diagram here>>

Shock isolation mounting

In very harsh environments you may want to mount RaceCapture/Pro using rubber isolators. Info on isolation mounts

Default Accelerometer Configuration

The default accelerometer configuration assumes RaceCapture/Pro is mounted flat, right side up with the terminal block pointed towards the front of the vehicle. Other orientations are supported by changing the settings in the Software. See the Operation Guide for more information.


Internal Switches / Jumpers

4 position DIP switch (SW1)

Dipswitches.jpg

This switch bank configures the 4 outputs for Analog or Frequency/PWM mode. To enable analog mode for a particular output channel, slide the switch for the selected channel to the 'on' position. For Frequency/PWM mode slide the switch to 'off'.

GPIO configuration jumpers

Dpio.jpg

The array of jumper blocks configures the 3 GPIO channels for either digital input or output. To configure a particular channel, move the jumper to either the IN position (for input) or OUT (for output)

Reset Pushbutton

Resetpushbutton.jpg

The reset push-button, if installed, is used as a hard reset for the running firmware.

Test Pushbutton

Testpushbutton.jpg

The test push-button, if installed, is used to load the factory bootloader for re-writing flash. Also see: How to flash RaceCapture/Pro firmware