Revision as of 22:50, 29 March 2016

Sensors

Temperature Sensors

GM-Style

Mfg / Part #

Image

Pigtail

Mechanical

Notes

Analog Channel Configuration

Wells SU109
SMP TX3
Pigtail: Pico 5615pt

3/8" NPT threaded brass body and a 2 pin terminal.

Can be used for air inlet temperature for normally aspirated engine

* Using 2.2K pullup resistor

Volts	Scaled Value (Degrees F)
0.37	212.00
0.51	178.00
1.99	104.0
2.47	72.0
4.24	23.0

Wells SU107
SMP AX1
Pigtail: Pico 5616pt

3/8" NPT threaded brass body and a 2 pin terminal.

Use for measuring air inlet temperature.
Exposed sensing element, necessary for boosted engines where fast response times are necessary.
Due to the fragility of the sensing bulb, it is necessary to pot the base of the sensor leads with sensor-safe silicone when used in high vibration environments.

AEM

Delphi 12160855 equivalent
AEM-30-2012 Equivalent

Extended temperature range - suitable for coolant and oil
1/8" NPT
Plug set and pins are included with kit

Compact form factor is appealing
Specifications Sheet

Using 2.2K pullup resistor

Volts	Scaled Value (Degrees F)
0.40	302.00
0.87	239.00
1.88	176.0
3.2	122.0
4.72	32.0

Infrared Sensors

Mfg / Part #

Image

Notes

Mylexis MLX90620

16x4 matrix temperature sensor with I2C digital output.
The matrix temperature sensor with a 60 degree field of view makes it ideal for a one-sensor tire temperature solution
Interface module queued for development
Technical Specifications

Thermocouple Sensors

Analog Devices AD597 Type K Thermocouple amplifier

Low cost, easy to use thermocouple amplifier with 10mv/C temperature output directly from a K-Type thermocouple. Ideal for creating a simple thermocouple to 0-5v sensor.

5v analog interface module queued for development
Technical Specifications

Maxim MAX31851 Thermocouple amplifier

Versatile thermocouple amplifier with 1-wire (I2C) digital interface. Ideal for monitoring multiple sensors

Quad thermocouple amplifier to CAN bus bridge queued for development
Technical Specifications

Pressure Sensors

Fluid Pressure

These sensors are appropriate for measuring fluid pressures in an engine. Not appropriate for measuring manifold boost or vacuum as these are relative pressure sensors. Use an absolute pressure sensor instead.

Mfg / Part #

Image

Pigtail

Mechanical

Notes

Analog Channel Configuration

AEM 30-2131-150

3 pin GM connector

1/8" NPT

150 PSI pressure sensor, appropriate for oil and fuel.
Linear response with an output between 0.5v and 4.5v
Technical Specifications
Default kit from AEM includes pigtail

Since these type of sensors have a linear output, replace the 4.5v value with the max pressure of the device in the units you prefer. e.g. 10 bar, 150 psi, etc.
Repeat the value through the rest of the calibration table.

Volts	Scaled Value (PSI)
0.5	0.0
4.5	150.0
4.5	150.0
4.5	150.0
4.5	150.0

Various

3 pin GM connector

1/8" NPT port

10 bar (145 PSI) stainless steel pressure sensor.
Linear response with an output between 0.5v and 4.5v
Other sensor ranges are possible - e.g. 10, 30, 150 bar, with a consistent linear output.

Manifold Pressure (MAP) Sensors

Sensor: 12223861 (GM)
Pigtail: 15305891 (GM) PT1035 (AC Delco)

Bracket for firewall mounting
vacuum port

3 bar MAP sensor

Volts	Manifold Pressure (KPa)
0	3.6
1.25	80.0
2.5	159
3.75	237
5.0	315.0

Freescale MXP4250AP

2.5 bar MAP sensor

An extremely popular MAP sensor used in the Megajolt ignition and Megasquirt fuel injection systems.
Can be used in a simple circuit and powered by the 5v voltage reference from Race Capture

Tire Pressure

Mfg / Part #

Image

Notes

Schrader

OEM TMPS System
Schrader TPMS receiver outputs tire pressure data on the CAN bus. would need to reverse engineer CAN bus protocol.
Analysis / Reverse engineering work queued

Pulse/Speed/RPM Sensors

RPM

Mfg / Part #

Image

Notes

Autosport Labs CoilX

The CoilX sensor module is designed to safely interface the noisy, high voltage RPM signal at the ignition coil pack primary into a clean signal that RaceCapture/Pro can process.

CoilX Project Information Page

Wheel Speed / Gear speed

Hall effect speed sensors will require an external 1K pull-up resistor, connected to 5v. This can be wired up near the sensor connection for convenience.

Mfg / Part #

Image

Notes

Pulse Channel Configuration

Hamlin 55505

Simple 3 wire hookup - No external pullup resistor required
Rugged Hall effect sensor suitable for harsh automotive environments (fuels, solvents, lubricants)
-40 to 125c operation
Technical Specifications

Configure the pulse channel with the number of pulses per revolution, which maps to the number of teeth on the gear / wheel.

Cherry GS100701

Low profile, aluminum body, flying leads
-40 to 125c operation
Technical Specifications

Distance Sensors

Ride Height

Mfg / Part #

Image

Pigtail

Notes

Analog Channel Configuration

Sharp GP2D12

Optical distance sensor - 10 to 80cm range
3-pin connector, analog output
Possible uses include ride height position (pointed at ground) and pedal position
Technical Specifications

Steps to calibrate:

After installation place the vehicle on a level surface.
Set the Analog calibration to 0-5v simple linear scaling
At rest, note the voltage of the sensor. This is the zero level.
Raise and safely support the corner of the vehicle and remove the spring.
Move the suspension arm to full droop. Note actual inches / mm traveled and also note the voltage logged by RaceCapture/Pro
Move the suspension arm to full compression. Note actual inches / mm and also note the voltage logged by RaceCapture/Pro
Create Calibration Table:

Place the droop voltage / distance combination into the 1st column of the calibration table. Make the distance negative
Place the 'at rest' voltage into the 2nd column of the calibration table. Make the distance zero
Place the compression voltage / distance into the 3rd column of the calibration table. Make the distance positive
Repeat the compression voltage / distance values for the 4th and 5th columns.

BMW 37140141444
Pigtail: 61138383300

5v power supply
Approximately 0-5v output
Measures distance over 90 degrees of the arm travel.
Used as a ride-height sensor for BMW and Mini applications for auto-leveling headlights

Texense RHS

Infrared Ride Height Sensor
12-16v supply
0-5v output
Technical Specifications

KA Sensors RHL3

Laser Ride Height Sensor
11-30v supply - separate power supply required
1-5v output
Technical Specifications

Various Mfg / String Potentiometer

String Potentiometers can be used for a variety of purposes: Linear, distance, and rotation (if cable is wrapped around a shaft)

Wiring Information

Angle / Rotation Sensors

Throttle Position (TPS)

Mfg / Part #

Image

Pigtail

Mechanical

Notes

Analog Channel Configuration

Ford / SMP TH45

Screw mounted, keyed input for throttle shaft

Common Ford style Throttle Position sensor

To calibrate, note the voltage at 0% throttle and then at 100% throttle. Use these two numbers to create a 2 point analog scaling map.

Wiring Guide

Wiring Analog Sensors

RaceCapture/Pro Analog Input Specifications

RaceCapture/Pro has 8 analog inputs; the 8th input is wired internally to measuring battery voltage.
Analog input range is 0 - 5v
Input Impedance: 15K ohm

Temperature Sensor

Temperature sensors are passive devices that measure temperature through the use of a thermistor, a resistor that varies resistance with temperature.

We recommend using dedicated, two wire ECU-style sensor similar to the types specified in our recommended sensor list for best results.

Pullup resistor

A pullup resistor is needed to create the necessary voltage divider circuit so RaceCapture/Pro's analog input can measure temperature as a varying voltage. This pullup resistor is connected to the 5v reference on the RaceCapture/Pro terminal block.

High Resistance ECU style sensors

Use a 2.2K ohm pull-up resistor for high resistance ECU style sensors, such as the temperature sensors in the supported list

Low Resistance Gauge type sensors

Low resistance gauge type sensors are not recommended. If you must use one of these types of sensors, a 1/4 watt 220 ohm pull-up resistor can be used for sensors such as VDO 323-095, 325-002 and similar.

Sensor Ground

Two wire ECU style temperature sensors have one sense lead and one ground lead. For best accuracy, connect the ground lead to the same ground point as RaceCapture/Pro.

One wire gauge type sensors have the ground as the body of the sensor. Ensure the engine is properly grounded to the chassis via multiple ground straps.

Active Sensors

Active sensors are powered devices that provide a variable voltage output related to the environment being measured- such as pressure, distance, temperature, speed, force, etc.

Active sensors are particularly easy to wire. Nearly all active sensors for automotive applications specify 5v power and produce an output within 0 to 5v, making them directly compatible with RaceCapture/Pro. Most active sensors have a linear output and therefore are very easy to calibrate.

Steps for connecting an active sensor

Identify the power, ground and output signal wires. The sensor technical documentation will provide this information.
Connect the sensor ground to the same location as the ground point for RaceCapture/Pro
If the sensor is 5v powered, connect it to the 5v voltage reference on RaceCapture/Pro
Connect the sensor output signal to the desired analog input port of RaceCapture/Pro

Throttle Position / Variable Resistors (Potentiometers) / Linear sensors

These type of sensors are passive devices comprising some form of a variable resistor. Examples include:

Throttle Position Sensors
Linear sensors
String Potentiometers
Single and multi-turn Potentiometers

Steps for connecting an variable resistance type sensor

Consult the sensor's technical documentation for sensor connections.
Connect one of the outside legs of the variable resistor to the ground point for RaceCapture/Pro
Connect the opposite leg of the variable resistor to the 5v Vref of RaceCapture/Pro
Connect the variable resistor wiper (typically the center lead) to the the desired analog input port of RaceCapture/Pro

During calibration, if the sensor reads backwards, flip the 5v and ground connections.

Sensor Breakout Board

SensorX is a breakout / distribution board that will make it easier to use sensors that require pullup resistors as well as making available multiple ground and 5V Vref connections. The built-in pullup resistors are easily disabled by breaking a designated trace on the board. This board is compact; enough to be bundled inline with your wiring harness and covered in heat shrink tubing when complete.

Sensor X instructions

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RaceCapturePro Sensors: Difference between revisions

Revision as of 22:50, 29 March 2016

Contents

Sensors

Temperature Sensors

GM-Style

AEM

Infrared Sensors

Thermocouple Sensors

Pressure Sensors

Fluid Pressure

Manifold Pressure (MAP) Sensors

Tire Pressure

Pulse/Speed/RPM Sensors

RPM

Wheel Speed / Gear speed

Distance Sensors

Ride Height

Angle / Rotation Sensors

Throttle Position (TPS)

Wiring Analog Sensors

RaceCapture/Pro Analog Input Specifications

Temperature Sensor

Pullup resistor

High Resistance ECU style sensors

Low Resistance Gauge type sensors

Sensor Ground

Active Sensors

Steps for connecting an active sensor

Throttle Position / Variable Resistors (Potentiometers) / Linear sensors

Steps for connecting an variable resistance type sensor

Sensor Breakout Board