All dimensions are in millimeters.
The REV Robotics Color Sensor has two sensing elements, proximity and color.
Proximity measurements are based on IR reflectance and can vary depending on lighting conditions and target reflectivity.
Color measurements consist of Red, Green, Blue, and Alpha (clear) values. The white LED on the sensor has a slide switch to turn the LED on or off. Unlit targets are best illuminated with the build-in LED while bright or light-emitting targets may not require the build-in LED. Color data is best collected within 2cm of the target for the strongest color differentiation.
When working with the Color Sensor V1 configure your robot to use the "REV Color/Range Sensor" as shown in the image below.
In this example, the Color Sensor V1 is configured on I2C bus 2. The Color Sensor V1 can be configured on any of the I2C busses.
Recall that I2C sensors must have different addresses in order to operate on the same bus.
This program shows the values from the Color Sensor on your phone. Your team will need to figure out the logic to use this information in your program. Below there are three examples of different color modes and their readings. Light Detected mode will read the amount of light on the sensor from 0-1.0. Because the sensor is close to a surface, the LED in the sensor reads 1.0 in the examples.
The code assumes that the Color Sensor was configured with the name “Color.”
Additional information about the TMD37821, its capabilities, and its features can be found in the following datasheet:
Parameter Description
Parameter
Sensor Type
I2C
I2C Address
0x39
Sensor Part
TMD37821
Measurement Channels
Red, Green, Blue, Alpha, and Proximity
Parameter
Min
Typ
Max
Units
Operating Voltage Range
-
-
3.3
V
Proximity Sensor Range
5
-
25
cm
The REV Robotics Color Sensor has two sensing elements: color and proximity.
Color measurements consist of Red, Green, Blue, and Alpha (clear) values. The white LED on the sensor has a slide switch to turn the LED on or off. Unlit targets are best illuminated with the build-in LED while bright or light-emitting targets may not require the build-in LED. Color data is best collected within 2cm of the target for the strongest color differentiation.
Proximity measurements are based on IR reflectance and can vary depending on lighting conditions and target reflectivity. The proximity sensor is ideally used to determine if something is in front of the sensor. While you can receive rough distance data, we recommend using the 2m Distance Sensor or similar time-of-flight sensor for accurate distance measurement.
Note to users transitioning from Color Sensor V2 to V3: Color values will not be consistent between V2 and V3 sensors and there are minor changes to the FTC SDK. Be sure to update to the latest SDK.
When working with the Color Sensor V3 configure your robot to use the "REV Color Sensor V3" as shown in the image below.
In this example, the Color Sensor V3 is configured on I2C bus 1. The Color Sensor V3 can be configured on any of the I2C busses as long as a 2m Distance Sensor is not configured to the same bus.
Recall that I2C sensors must have different addresses in order to operate on the same bus. The Color Sensor V3 and 2m Distance Sensor share the same address.
This program shows a readout of values from the Color Sensor on your Driver Hub's screen while the program runs. "Light Detected" shows the amount of light detected between 0 and 1.
"Blue", "Red", and "Green" each show the amount of that "component" in the color the sensor is pointed at. If pointed at a red color, for example, it will likely have the highest amount shown.
The code assumes that the Color Sensor was configured with the name “test_color.”
When using the Color Sensor V3 on the navX’s I2C Interface, you will need to make sure that the Voltage Select Jumper on the navX is set to 3.3V. The Color Sensor V3 has a max operating voltage of 3.3V and applying 5V can damage the sensor.
Additional information about the APDS-9151, its capabilities, and its features can be found in the following datasheet:
All dimensions are in millimetres.
The REV Robotics Color Sensor has two sensing elements, proximity and color.
Proximity measurements are based on IR reflectance and can vary depending on lighting conditions and target reflectivity.
Color measurements consist of Red, Green, Blue, and Alpha (clear) values. The white LED on the sensor has a slide switch to turn the LED on or off. Unlit targets are best illuminated with the build-in LED while bright or light-emitting targets may not require the build-in LED. Color data is best collected within 2cm of the target for the strongest color differentiation.
When working with the Color Sensor V2 configure your robot to use the "REV Color/Range Sensor" as shown in the image below.
In this example, the Color Sensor V2 is configured on I2C bus 2. The Color Sensor V2 can be configured on any of the I2C busses.
Recall that I2C sensors must have different addresses in order to operate on the same bus.
This program shows the values from the Color Sensor on your phone. Your team will need to figure out the logic to use this information in your program. Below there are three examples of different color modes and their readings. Light Detected mode will read the amount of light on the sensor from 0-1.0. Because the sensor is close to a surface, the LED in the sensor reads 1.0 in the examples.
The code assumes that the Color Sensor was configured with the name “Color.”
Additional information about the TMD37821, its capabilities, and its features can be found in the following datasheet:
The REV Robotics Color Sensor V3 is a combined color and proximity sensor. From a single sensor you can measure colors and rough distances to various targets. Version 3 introduces a new sensor chip from Broadcom due to the end-of-life of the V1/V2 color sensor chip.
Digital RGB Color Sensing
IR Proximity Emitter and Detector
Built-in (switchable) white LED
Supports Standard (100kHz) or High Speed (400kHz) I2C
The REV Robotics Color Sensor V2 is a combined color and proximity sensor with updated features from the original REV Color Sensor. From a single sensor you can measure colors and rough distances to various targets.
Redesigned case
Better mounting
Wider field of view
Better sensor protection
Built-in white LED
LED power is switchable with new built-in switch
Supports Standard (100kHz) or High Speed (400kHz) I2C
Supports auto-increment register reads
Built-in IR Proximity Emitter and Detector
The REV Robotics Color Sensor V1 a single sensor you can measure colors and rough distances to various targets. The Color Sensor V1 has a built-in IR (optical) and Proximity Sensor and white LED for active target lighting. Using High Speed I2C Communication (400kHz), as well as auto increment register read, allows the user to return all the color register and status register data in one read command instead of 4 separate read commands.
M3 Mounting Hole
Built-in white LED
LED power is switchable with new built-in switch
Supports Standard (100kHz) or High Speed (400kHz) I2C
Supports auto-increment register reads
Built-in IR Proximity Emitter and Detector
Part Number
Description
Qty
Color Sensor V3
1
JST PH 4-pin Sensor Cable - 30cm
1
Part Number | Description | Qty |
Color Sensor V2 | 1 |
JST PH 4-pin Sensor Cable - 30cm | 1 |
Part Number | Description | Qty |
Color Sensor V1 | 1 |
JST PH 4-pin Sensor Cable - 30cm | 1 |
Parameter
Value and Units
Sensor Type
I2C
I2C Address
0x52
Sensor Part
APDS-9151
Measurement Channels
Red, Green, Blue, Alpha, and Proximity
Parameter
Min
Typ
Max
Units
Operating Voltage Range
-
-
3.3
V
Proximity Sensor Range
1
-
10
cm
Parameter Description
Parameter
Sensor Type
I2C
I2C Address
0x39
Sensor Part
TMD37821
Measurement Channels
Red, Green, Blue, Alpha, and Proximity
Parameter
Min
Typ
Max
Units
Operating Voltage Range
-
-
3.3
V
Proximity Sensor Range
5
-
25
cm