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  • lss-flowarm-header.png
  • lss-flowarm-inspector-frame.png
  • lss-flowarm-inspector.png
  • LSS-flowarm-30812.jpg
  • lss-flowarm-header.jpg
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1		-xwiki:XWiki.ENantel
	1	+xwiki:XWiki.CBenson

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1		-{{lightbox image="LSS-FlowArm.png" width="400"/}}
	1	+[[image:LSS-FlowArm.png||width="350"]]
2	2
3		-[[[[image:lynxmotion-wiki-attachments.WebHome@DownloadNow.png]]>>https://www.lynxmotion.com/tools/LSS_FlowArm.zip]]
	3	+[[image:wiki-download.png]]
4	4
5	5	**Page Contents**
6	6
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28	28
29	29	Before assembling the arm, each of the IDs assigned to the servos must correspond with what is needed in the software.
30	30
31		-{{lightbox image="https://www.robotshop.com/info/wiki/lynxmotion/download/servo-erector-set-robots-kits/ses-v2-robots/ses-v2-arms/lss-articulated-arm/lss-articulated-arm-servo-setup/WebHome/SESV2-LSS-ARTICULATED-ARM-IDS.PNG" width="350"/}}
	31	+* Base: 1
	32	+* Shoulder: 2
	33	+* Elbow: 3
	34	+* Wrist: 4
	35	+* Gripper: 5
32	32
33	33	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]]
34	34
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36	36	* Servos have been assembled in correct orientation (as per assembly manual)
37	37	* Servo offsets have been updated if necessary (see procedure below).
38	38
	43	+The next important step is "STORE OFFSETS" explained below.
	44	+
39	39	== Connecting via USB ==
40	40
41		-The simplest way to connect is directly using the [[LSS-Adapter>>doc:servo-erector-set-system.ses-electronics.ses-modules.lss-adapter-board.WebHome]] (or any RS232 to USB interface). Here are the steps you need to follow in order to set this up. Follow the steps below:
	47	+The simplest way to connect is directly using an RS232 to USB cable. Here are the steps you need to follow in order to set this up. Follow the steps below:
42	42
43	43	1. Connect the USB cable to the LSS Adapter board on your robot
44	44	1. Plug the USB connector into the PC
45		-1. Connect your LSS to the LSS-Adapter with the Lynxmotion cable
46	46	1. Connect the power to the LSS Adapter via the yellow XT60 plug
47	47	1. Power on the robot (On/Off switch)
48	48	1. Start the LSS FlowArm software
49		-1. Select the appropriate COM port from the drop-down list & the baudrate (115200)
	54	+1. Select the appropriate COM port from the drop-down list
50	50	1. The software sends a query to servo ID1 and once a reply is received, it determines connection has been established.
51	51
52	52	== Connecting via Bluetooth ==
53	53
54		-If you have purchased a Bluetooth module which is in XBee format, ensure to have the right baudrate on your bluetooth adapter, the default is 115 200 for the LSS.
	59	+If you have purchased a Bluetooth module which is in XBee format, ensure
55	55
56	56	= Interface =
57	57
58	58	== Header ==
59	59
60		-[[image:lss-flowarm-header.png||alt="lss-flowarm-header"]]
	65	+[[image:lss-flowarm-header.jpg]]
61	61
62		-**EMERGENCY STOP**
63		-
64		-At any given time you can click this button to stop the arm. This will send a "LIMP" command directly to all servos.
65		-
66	66	**STORE OFFSETS**
67	67
68	68	The "STORE OFFSETS" button configures 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, orient the arm as shown below (with the gripper closed), and only then click the STORE OFFSETS button.
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77	77
78	78	**LIMP**
79	79
80		-Causes all servos to slowly go LIMP (i.e. lose torque), gradually loosing torque until hitting the ground. 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.
	81	+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.
81	81
82	82	**STOP**
83	83
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197	197	|(% style="width:257px" %)[[image:lss-flowarm-lock.jpg]]|(% style="width:306px" %)Lock |(% style="width:758px" %)Timeline locking
198	198	|(% style="width:257px" %)[[image:lss-flowarm-loop.jpg]]|(% style="width:306px" %)Repeat / Loop Pattern|(% style="width:758px" %)Play once or loop; Set the playback speed using the up and down arrows.
199	199	|(% style="width:257px" %)[[image:lss-flowarm-play.jpg]]|(% style="width:306px" %)Sequence Playback|(% style="width:758px" %)Restart sequence, play or stop
200		-|(% style="width:257px" %)[[image:lss-flowarm-inspector.png]]|(% style="width:306px" %)Frame Inspector|(% style="width:758px" %)Allows to modify the values sent in a particular frame manually.
201	201
202	202	**Sequences**
203	203
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297	297
298	298	If the timeline is unlocked then you can instantly remove all the gaps between frames and push them up against each other by clicking the Operations button and choosing Remove Gaps Between Frames from the menu.
299	299
300		-**Frame Inspector**
301		-
302		-[[image:lss-flowarm-inspector-frame.png]]
303		-
304		-If any adjustments are required on a particular joint (servo) this function allows you to manually change them. Click on the particular frame and the commands can be edited.
305		-
306	306	== Sequencer ==
307	307
308	308	**Reverse Frames**

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