In the previous sections you worked on some of the building blocks for restricting an arms range of motion. From those sections you should have the foundation you need to perform basic arm control. However, there are some other creative ways you can use encoder positions and limits to expand the control you have over your arm.
This section will cover two additional types of control. The first type of control we will explore is the idea of soft limits. In the Adding a Limit Switch section we discuss the concept of physical limits of a mechanism however, there may be times you need to limit the range of motion of an arm without installing a physical limit. To do this a position based code can be used to create a range for the arm.
Once you have a basic idea of how to create soft limits, we will explore how to use a limit switch (like a touch sensor) to reset the range of motion. This type of control reduces the risk of getting stuck outside of your intended range of motion, which can affect the expected behavior of your robot.
To set the soft limits we will use some of the basic logic we established in previous sections, with some edited changes. Start with a Basic Op Mode
and add the constant variables from the Calculating Target Position section to the op mode.
Next we need to create our upper and lower limits. Create two new variables one called minPosition
and one called maxPosition
. Add both of these to the initialization section of the op mode.
An if/else if
statement needs to be added to control the arm, for this we can use the same basic logic we use in the Basics of Programming an Arm section.
To set the limit we need to edit our if/else if
statement so that the limits are built in. If DpadUp
is selected and the position of the arm is less than the maxPosition
then the arm will move to the maxPosition
. If DpadDown
is selected and the position of the is greater that the minPosition
then the arm will move towards the minPosition
.
The current code configuration will stop the motor at any point that the conditions to power the motor are not met. Depending to factors like the weight of the mechanism and any load that it is bearing, when the motor stops the arm may drop below the maxPosition
. Take time to test out the code and confirm that it behaves in the way you expect it to.
One of the benefits of having a soft limit is being able to exceed that limit. Since encoders zero tick position is determined by the position of the arm when the Control Hub powers on; if attention is not payed to what position the arm is on power up the range of motion of the arm is affected. For instance, if we have to reset the Control Hub while the arm is in the 90 degree position, the 90 degree position is equal to 0 encoder ticks. One way around this is to create an override for the range of motion.
There are a few different ways an override of sorts can be created, in our case we are going to use the a button and touch sensor to help reset our range.
Now that we have this change in place, when the a
button is pressed the arm will move toward the starting position. When the arm reaches and presses the touch sensor we want toSTOP_AND_RESET_ENCODER
.
So, if the touch sensor returns false
(or is pressed) the motor run mode STOP_AND_RESET_ENCODER
will be activated causing the motor encoder to reset to 0 ticks.
Now that this code is done, try testing it!
For now we want the minPosition
set as our starting position and the maxPosition
set to our 90 degree position. Set minPosition
equal to and set maxPosition
equal to .
Start by editing the to add another condition. Use the block as the condition. Add a block to the do portion of the block.
We can create an statement that focuses on performing this stop and reset when the touch sensor is pressed. Since the touch sensor reports true
when its not pressed and false
when it is, we will need to use the block.
The not operator can be used in conditional binary statements when you need inverse whether something is true
of false
. For instance, an if
statement activates when something is true, but when the Touch Sensor reports true
it is not pressed. In our case we want this if statement to activate when the touch sensor is pressed thus we need to use the not operator.