Changes for page FlowArm LSS

Last modified by Eric Nantel on 2024/07/03 09:39

From version < 46.1 >
edited by Coleman Benson
on 2019/09/09 14:26
To version < 48.1 >
edited by Coleman Benson
on 2019/09/10 10:23
< >
Change comment: There is no comment for this version

Summary

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8 8  
9 9  = Description =
10 10  
11 -{Coming soon}
11 +The LSS FlowArm application is intended to allow easy control of the standard Lynxmotion Servo Erector Set (S.E.S.) v2 articulated robotic arm. The graphical interface shows multiple views of the arm which can be controlled via drag and drop, as well as by manually inputting coordinates. The full-featured built-in sequencer allows you create sequences which have the arm move automatically from one position ("frame") to the next. Make use of the "teach mode" to position the arm where you want and record frames which can be modified and played back. Associating each pattern with input keys means you can easily play back and test multiple sequences.
12 12  
13 -The LSS FlowArm application was created using FlowBotics Studio software and is intended to allow easy control of the standard configuration Lynxmotion Servo Erector Set (S.E.S.) v2 articulated robotic arm. The graphical interface shows a side and top view of the arm, as well as the gripper and wrist. The full-featured built-in sequencer allows you create sequences which have the arm move automatically from one position ("frame") to the next.
13 +FlowBotics Studio was used to create this app and includes hundreds of built-in components that allow you to interface your PC to many standard computer peripherals and robotics components, and you can quickly design new components for new hardware. Easily create new projects with custom GUI screens, knobs, buttons, switches, etc. that will run live from within FlowBotics Studio without needing to wait for compilation, or export as stand-alone executable files. FlowBotics Studio includes a powerful graphics engine that allows you to make custom graphical objects by using standard bitmaps or by drawing your own shapes on the screen. Using this system, you can build entirely custom interfaces like this onfor your projects and integrate photographs, drawings, and graphs.
14 14  
15 -FlowBotics Studio includes hundreds of built-in components that allow you to interface your PC to many of the standard computer peripherals and you can quickly create new components for new hardware. You can also easily create new projects with custom GUI screens, knobs, buttons, switches, etc. that will run live from within FlowBotics Studio without needing to wait for compilation.
16 -
17 -The FlowBotics Studio programming language includes a powerful graphics engine that allows you to make custom graphical objects by using standard bitmaps or by drawing your own shapes on the screen. Using this system, you can build entirely custom interfaces for your projects and integrate photographs, drawings, and graphs.
18 -
19 19  = Features =
20 20  
21 21  * Graphical interface for the Lynxmotion SES V2 articulated robot arm
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23 23  * Teach mode allows the user to move the arm and have the virtual arm follow
24 24  * Position the arm using rectangular or cylindrical coordinates, virtual joysticks or mouse drag
25 25  * Application can be modified via FlowBotics Studio
22 +* Optional data log shows what commands are sent and received and can be saved as a .csv file.
26 26  * LSS FlowArm is intended only for Windows operating systems 7 or higher.
27 27  
28 28  = Initial Setup =
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39 39  
40 40  To do so, the [[LSS Configuration Software>>doc:lynxmotion-smart-servo.lss-configuration-software.WebHome]] is used. Follow the procedure outlined here: [[doc:lynxmotion-smart-servo.lss-configuration-software.lss-config-configure-ids.WebHome]]
41 41  
42 -Important note: The software does not take into consideration if a servo has been improperly assembled. If you see that your arm moves differently than the arm on screen, be sure to check the following:
39 +Important note: The software does not take into consideration if a servo has been improperly assembled as part of the structure. If you see that your arm moves differently than the arm on screen, be sure to check the following:
43 43  
44 44  * Servo ID is correctly assigned to each servo and there are no duplicate IDs
45 45  * Servos have been assembled in correct orientation (as per assembly manual)
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53 53  
54 54  **STORE OFFSETS**
55 55  
56 -During the assembly process, if the servo's driving output horn was not rotated (they are shipped with the servo driving horn centered at 0 degrees), and was connected to the brackets at the correct angle (parallel or perpendicular depending on the servo being assembled), there should not be any significant servo offset needed and the arm should match what is displayed on screen. However, should the driving horn have rotated and/or the brackets were not connected at optimal angles, the "STORE OFFSETS" button configures the all of the servo offsets (this makes use of the CO command as part of the [[LSS Communication Protocol>>doc:lynxmotion-smart-servo.lss-communication-protocol.WebHome]]). Before pressing the button, be sure to orient the arm as follows (with the gripper closed), and only then click the STORE OFFSETS button.
53 +During the assembly process, if the servo's driving output horn was not rotated (they are shipped with the driving horn centered at 0 degrees), and was connected to the brackets at the correct angle (parallel or perpendicular depending on the servo being assembled), there should not be any servo offset needed and the arm should match what is displayed on screen. However, should the driving horn have rotated and/or the brackets were not connected at optimal angles, the "STORE OFFSETS" button configures the all of the servo offsets (this makes use of the CO command as part of the [[LSS Communication Protocol>>doc:lynxmotion-smart-servo.lss-communication-protocol.WebHome]]). Before pressing the button, be sure to orient the arm as follows (with the gripper closed), and only then click the STORE OFFSETS button.
57 57  
58 58  [[image:lss-flowarm-offsets.jpg]]
59 59  
60 60  **LIMP**
61 61  
62 -Causes all servos to go LIMP (i.e. lose torque). The arm will collapse. It's important to note that the software will not constantly query all servos for their position, and as such the virtual arm on screen will not update frequently if at all. If you want the arm on screen to update as you move the arm, use TEACH mode described below.
59 +Causes all servos to immediately go LIMP (i.e. lose torque). The arm will collapse. It's important to note that the software will not constantly query all servos for their position, and as such the virtual arm on screen will not update frequently if at all. If you want the virtual arm on screen to update as you move the real arm, use TEACH mode described below.
63 63  
64 64  **STOP**
65 65  
66 -Causes all servos to stop their motion and hold their position.
63 +Causes all servos to immediately stop their motion and hold their position.
67 67  
68 68  **TEACH**
69 69  
70 -Teach mode allows a user to physically move the arm to a designed locations and have the virtual arm on screen follow. This is used primarily to manually add frames to the sequence. In order to ensure the arm does not collapse, pressing the TEACH button will start a 5 second countdown during which the arm will slowly lose torque (angular force) until all servos are limp. When in teach mode, an orange outline appears over all on-screen fields which would cause a conflict and therefore cannot be used.
67 +Teach mode allows a user to physically move the arm and have the virtual arm on screen follow. This is used primarily to manually add frames to sequences, determine the optimal closed position for the gripper etc. In order to ensure the arm does not collapse, pressing the TEACH button will start a 5 second countdown during which the arm will slowly lose torque (angular force) until all servos are limp. When in teach mode, an orange outline appears over all on-screen fields which would cause a conflict and therefore cannot be used.
71 71  
72 -CAREFUL: Do not move the servos too quickly. We suggest moving the gripper servo, or temporarily removing the aesthetic shell.
69 +CAREFUL: Do not move the servos or the arm too quickly. We suggest holding the gripper servo to move the arm, or temporarily removing the arm's aesthetic shell.
73 73  
74 -Once the arm is limp, it can be moved physically, and the application will regularly read the physical position of each of the servos and move the virtual arm on screen to match. Use the sequencer to save each position (frame). Intermediate frames can be added as needed. For more information on the sequencer, refer to the sequencer section below.
71 +Once the arm is limp, it can be moved physically, and the application will regularly send position query commands to all of the servos and update the virtual arm on screen to match the servo's responses. Use the sequencer to record each position (frame) while in teach mode. For more information on the sequencer, refer to the sequencer section below.
75 75  
76 76  **GRID / Units**
77 77  
78 -Units can be toggled between Metric or Imperial units. Options include 2cm, 3cm, 5cm and 1in, 2in and 3in.
75 +Grid spacing can be toggled between Metric or Imperial. Options include 2cm, 3cm, 5cm and 1in, 2in and 3in.
79 79  
80 80  **BAUD**
81 81  
82 -The baud rate suggested is 115200, which is the default baud rate of the servos. Should a user have changed the baud rate on the servos, it can be selcted using the drop down. Note that the baud rate must be configured to the same value for all servos in order to work.
79 +The default (and suggested) baud rate is 115200, which is the baud rate at which the servos are shipped. Should a user have changed the baud rate on the servos, it can be selected using the drop down. Note that the baud rate must be configured to the same value for all servos in order to work.
83 83  
84 84  **COM**
85 85  
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