AnalogX2: Difference between revisions
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====Adjusting Base ID==== | ====Adjusting Base ID==== | ||
The base address is determined by the state of the '''ADR1''' and '''ADR2''' | The base address is determined by the state of the '''ADR1''' and '''ADR2''' DIP switches, accessible behind the power + CAN end plate. By default, the DIP switches are open | ||
* | * Switching on ADR1 will add 256 to the base ID | ||
* | * Switching on ADR2 will add 512 to the base ID. | ||
The combination of jumper settings will allow up to 4 AnalogX units to coexist on the same CAN bus. | The combination of jumper settings will allow up to 4 AnalogX units to coexist on the same CAN bus. | ||
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{| class="wikitable" | width="600px" | {| class="wikitable" | width="600px" | ||
|- | |- | ||
! ADR2 | ! ADR2 switch | ||
! ADR1 | ! ADR1 switch | ||
! Address | ! Address | ||
|- | |- |
Revision as of 21:49, 10 January 2021
Introduction
AnalogX is a compact 4 channel Analog to CAN I/O expander, specially designed for the harsh automotive electrical environment.
AnalogX provides 4 buffered and protected 0-5v sensor inputs and can broadcast the sensor values between 1 and 255Hz. It also provides a 0.5A 5v reference for powering sensors.
Parts in the Kit
In the kit you will receive:
- AnalogX2 module
- Note Cabling is available separately, depending on how you design your sensor layout.
Harness / Cabling
Plug and play harness
AnalogX is designed for plug and play connection into Autosport Labs CAN bus networks and sensors. Refer to the part numbers below to create your own sensor configuration.
SKU | Description |
---|---|
ASL_4X_SENSOR_SPLITTER | 4X sensor expander |
ASL_M8_SENSOR_EXTENSION_1M ASL_M8_SENSOR_EXTENSION_2M ASL_M8_SENSOR_EXTENSION_3M ASL_M8_SENSOR_EXTENSION_4M |
Single channel sensor extension cable |
ASL_LINEAR_TEMP_M8 | Linear temperature sensor |
ASL_10_BAR_DELPHI3_M8 | 10 bar (150 PSI) pressure sensor |
ASL_150_BAR_DELPHI3_M8 | 150 bar (2175 PSI) pressure sensor |
ASL_M8_SENSOR_PIGTAIL_2M | Single sensor pigtail for custom sensor connection, 2 Meters |
Bare pigtails
For a custom or non-plug and play installiion, these bare pigtail cables are available:
SKU | Description |
---|---|
ASL_DEVICE_CAN_PIGTAIL_1M | CAN + power pigtail for connecting device, M8 4P male to bare wires, 1 meter |
ASL_M8_QUAD_SENSOR_PIGTAIL_2M | M8 8P male to bare wire quad sensor pigtail, 1M, 24AWG |
Compatible Sensors
AnalogX is compatible with any 0-5v voltage input; the voltage is broadcast over CAN bus with the value range of 0 - 5000mV.
Use the capabilities provided by the receiving data system to translate the raw voltage to a meaningful real-world value, such as pressure, temperature, distance, and so on.
RaceCapture / PodiumConnect systems
Setting up AnalogX in RaceCapture is easy: Go to Setup / CAN Channels and select the preset for AnalogX.
This will bring in the basic mapping with the default 0-5v scaling. From here, you can edit each channel to customize the formula to match your sensor's voltage scaling.
- Note - RaceCapture's CAN mapping features currently only supports sensors with a linear (straight-line) response. Sensors with a curved response, such as the Extended Range Temperature sensor is based on a thermistor design, and will not work with the built-in direct CAN mapping. We recommend using a temperature sensor with a linear response, such as the Texense Liquid Temperature Sensor or similar.
Setting CAN baud rate
The default baud rate for AnalogX is 1M. Ensure this matches the setting under Setup / CAN bus settings.
Selecting the AnalogX preset
Select the starter CAN preset for AnalogX. This will bring in the basic 0-5v mapping, which you can then calibrate further using the CAN mapping conversion formula.
Calibrating Sensors attached to AnalogX
Navigate to Setup / CAN mapping, and edit the channel you wish to customize.
Select the channel
Touch the channel selection drop down and select the channel that matches your sensor.
- Note, it's recommended you use the preset name for your channels; if no channel exists that matches your sensor, you can customize the channel name, units, and min/max values directly
File:AnalogX customize preset.jpg
Sensor Conversion Formulas
AnalogX reports it's raw value from 0-5000mV. You can use the formula to scale and offset the raw value to a real-world value.
Linear Fluid Temperature Sensor
The Autosport Labs Linear Fluid Temperature (ASL_LINEAR_TEMP_M8) sensor has a 10mV/C scaling, with a 0.5V offset at 0C.
10 bar / 150 PSI pressure sensor
The Autosport Labs 10 bar pressure sensor (ASL_10_BAR_DELPHI3_M8) has the following calibration / range:
(0 - 10 bar / 150 PSI range)
- 0.5v 0 bar / = 0 PSI
- 4.5v = 10 bar / 150 PSI
The sensor has a 4000mV range between min and max values, with a 500mV offset.
Therefore,
The offset is calculated based on the 500mV offset of the sensor (500mv * 0.375 = 18.75)
for 0-150 PSI use the formula: RAW * 0.0375 - 18.75
- Note:: The 0.375 value was derived from the formua: 150 PSI / 4000mV = 0.0375 PSI/mV
150 Bar / 2175 PSI pressure sensor
The Autosport Labs 150 bar pressure sensor (ASL_150_BAR_DELPHI3_M8) has the following calibration / range:
(0 - 150 bar / 2175 PSI range)
- 0.5v = 0 bar / 0 PSI
- 4.5v = 150 bar / 2175 PSI
for 0-2175 PSI, use the formula: RAW * 0.5437 - 271.85
Texense Liquid Temperature Sensor
This sensor has a range of -50 to 150C and has a 22.5mV/C calibration.
0.25v = -50C 4.75v = 150C (200C sweep)
The sensor has a 4500mV range between -50C and 150C, with a 250mV offset.
Therefore, 200C / 4500mV = 0.04444 C/mV
The offset is calculated based on the 250mV offset of the sensor (250mV * 0.0444444 = 11.1111)
The offset is further adjusted by the starting range of the sensor (-50C)
Resulting formula: RAW * 0.04444 - 61.1111
- Note you can convert the resulting value to Fahrenheit by selecting the C -> F option in the Formula Conversions Tab.
Other sensors
Please refer to these manufacturer's user guide on how to map data using the provided AnalogX CAN protocol.
Troubleshooting
No CAN data
- Double check the CAN bus connections
- Verify the CAN baud rate is compatible with the AnalogX configuration (1M by default, 500K enabled with DIP switch)
- Verify your CAN bus termination is correct. (Not terminated by default, enabled with DIP switch)
- Simplify your CAN bus network: Try making AnalogX the only other CAN device on the network, just as a test.
- Check for short circuits / over-current on the 5v reference. If too much current is drawn from the 5v reference, AnalogX may shut down in self-protection mode.
Data is being received, but it is incorrect
Basic mapping test
Try simplifying the mapping to verify the correct data is transmitted.
- Go into the software for the receiving system, and set the CAN formula to multiply by 1 and add 0 and divide by 1 , and unsigned integer. and update the software settings.
- This will cause the receiving system to display the raw millivolt (mV) value from AnalogX.
- Disconnect the sensors from AnalogX.
- For each AnalogX input perform the following test:
- Connect the input to AnalogX's ground. Your receiving system should show very close to 0, which is 0 volts.
- Connect the input to AnalogX's 5v reference. Your receiving system should show very close to 5000, which represents 5000mV.
- Note: The AnalogX inputs are very sensitive and high impedance to prevent affecting the readings of existing circuits. Therefore, if the inputs are disconnected, it will 'float' and may show random readings.
If you can confirm these readings, then perform the additional steps:
- For each AnalogX input, re-connect your sensor.
- Measure the voltage right where it enters AnalogX.
- Compare that with the reading on the receiving system. The value should be the voltage X 1000, translated to mV. Example: 2.5v measured should show 2500 on the receiving system.
If you can verify received millivolt value equals the measured voltage at the AnalogX input, then you know the correct value is being transmitted to the system, and you can focus on mapping the raw millivolt value to the real world temperature, pressure, or etc. Consult the sensor manufacturer and the system to determine the proper mapping of the sensor you are using.
Specifications
Feature | Description |
---|---|
Analog sensor input voltage range | 0 - 5v |
DAC resolution | 12 bit SAR |
Sample output format | 0 - 5000mV |
Input impedance | Greater than 10 Meg Ohm |
Input voltage protection | 100v |
Power input and connections | 9 - 15volts, protected to 40v (intermittent) |
Harness | M8 4P Male for power + ground, M8 8P for sensor connection |
Weight | 5 oz (approximately) |
Dimensions | 60 x 60 (approximately) |
CAN baud rate | 1M and 500K, jumper configurable |
Address Space | 4 separate address spaces allows up to 4 AnalogX modules to operate on the same CAN network. (DIP switch configurable) |
Wiring
Power and CAN
Power + CAN Single interconnect
- Connector: M8 4P, A coding
Pin | Connection | Notes |
---|---|---|
1 | CAN low | |
2 | Power | Red, 12-14v / 50mA |
3 | CAN high | |
4 | Ground | Black |
Power is standard automotive 12-14v (nominal).
Sensor connections
- Connector: M8 8P Female, A coding
Pin | Connection | Notes |
---|---|---|
1 | Analog/Digital 1 | |
2 | Analog/Digital 2 | |
3 | Analog/Digital 4 | |
4 | Vref | 5v @ 1A max current, combined with pin 6 |
5 | Ground | |
6 | Vref | 5v @ 1A max current, combined with pin 4 |
7 | Analog/Digital 3 | |
8 | Ground |
CAN termination
AnalogX is not terminated by default. You can enable termination by flipping the termination DIP switch by behind the front panel on the CAN + power end.
Installation
AnalogX was specifically designed to fit right into your wiring harness for a streamlined, efficient and lightweight installation. Use the included 1" shrink tubing to encase and protect the unit when you are ready to integrate it with your harness.
AnalogX CAN bus API
Overview
The CAN bus API provides the configuration and control interface for AnalogX
CAN base ID
CAN base ID is 0xE4600 (935424)
Adjusting Base ID
The base address is determined by the state of the ADR1 and ADR2 DIP switches, accessible behind the power + CAN end plate. By default, the DIP switches are open
- Switching on ADR1 will add 256 to the base ID
- Switching on ADR2 will add 512 to the base ID.
The combination of jumper settings will allow up to 4 AnalogX units to coexist on the same CAN bus.
ADR2 switch | ADR1 switch | Address |
---|---|---|
Closed | Closed | 0xE4600 (935424) |
Closed | Open | 0xE4700 (935680) |
Open | Closed | 0xE4800 (935936) |
Open | Open | 0xE4900 (936192) |
CAN Baud rate
500K and 1MB rates are supported.
500K is enabled by default; cut the jumper labeled BAUD on the bottom of AnalogX to enable 1MB rate.
CAN Messages
Announcement
The announcement message is broadcast by the AnalogX upon power up.
Address
CAN ID: Base + 0
Offset | What | Value |
---|---|---|
0 | Channel Count | Total number of channels on device |
1 | Reserved | |
2 | Reserved | |
3 | Reserved | |
4 | Reserved | |
5 | Major Version | Firmware Major Version Number |
6 | Minor Version | Firmware Minor Version Number |
7 | Patch Version | Firmware Patch version number |
Configuration Group 1
Configures options for AnalogX.
Send this message to AnalogX to configure runtime settings.
- Note: Settings are volatile and are not persisted across power cycles.
Address
CAN ID: Base + 3
Offset | What | Value |
---|---|---|
0 | Sample Rate | Rate to report sensor values ( 1 - 255Hz). Default sample rate is 50Hz. |
1 | Reserved | |
2 | Reserved | |
3 | Reserved | |
4 | Reserved | |
5 | Reserved | |
6 | Reserved | |
7 | Reserved |
Statistics
Broadcast by AnalogX every 1 second.
Address
CAN ID: Base + 2
Offset | What | Value |
---|---|---|
0 | Current Sample Rate | 1 - 255Hz |
1 | Reserved | |
2 | Reserved | |
3 | Reserved | |
4 | Reserved | |
5 | Major Version | Firmware Major Version Number |
6 | Minor Version | Firmware Minor Version Number |
7 | Patch Version | Firmware Patch version number |
Sample Broadcast
Sample Broadcast for Analog inputs. The samples are broadcast based on the configured sample rate (default is 50Hz)
Scaling and Data format
- Scaling: 0-5000mV
- Data format: Little Endian
Address
- CAN ID: Base + 20
Offset | What | Value |
---|---|---|
0 | Channel 1, low byte | |
1 | Channel 1, high byte | |
2 | Channel 2, low byte | |
3 | Channel 2, high byte | |
4 | Channel 3, low byte | |
5 | Channel 3, high byte | |
6 | Channel 4, low byte | |
7 | Channel 4, high byte |