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1		-ses-v1.ses-v1-robots.ses-v1-arms.WebHome
	1	+servo-erector-set-robots-kits.ses-v1-robots.ses-v1-arms.WebHome

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1		-{{html wiki="false" clean="false"}}
2		-<style>
3		- .asm { font-family: Verdana, Helvetica, sans-serif; font-size: 14px; max-width: 960px; }
4		- .asm-step { background: #fff; border: 1px solid #ddd; border-radius: 8px; margin-bottom: 1.5rem; overflow: hidden; }
5		- .asm-step-header { background: #F5A800; display: flex; align-items: stretch; justify-content: space-between; }
6		- .asm-step-name { padding: 0.6rem 1rem; font-weight: bold; font-size: 15px; color: #2C1A00; }
7		- .asm-step-num { background: #1a1a1a; color: white; padding: 0.6rem 1.1rem; font-weight: bold; font-size: 15px; display: flex; align-items: center; white-space: nowrap; }
8		- .asm-step-body { display: flex; flex-wrap: wrap; gap: 1.25rem; padding: 1rem; align-items: flex-start; }
9		- .asm-step-text { flex: 1 1 250px; font-size: 13px; line-height: 1.6; }
10		- .asm-step-figure { flex: 0 1 280px; text-align: center; }
11		- .asm-step-figure img { max-width: 100%; height: auto; border: 1px solid #ccc; border-radius: 4px; }
12		- .asm-step-figure span { display: block; font-size: 12px; color: #666; margin-top: 0.3rem; }
13		- .asm-warning { color: #c00; font-weight: bold; }
14		- .asm h1 { font-size: 18px; margin-bottom: 0.25rem; }
15		- .code-block { background: #f4f4f4; border: 1px solid #ddd; border-radius: 4px; padding: 0.6rem 0.8rem; font-family: 'Courier New', monospace; font-size: 12px; line-height: 1.6; white-space: pre; overflow-x: auto; margin-top: 0.75rem; }
16		-</style>
17		-
18		-<div class="asm">
19		-
20		- <!-- Header -->
21		- <div style="padding: 0.5rem 0 1rem 0;">
22		- <h1 class="asm">Controlling an Arm with the Bot Board (Basic Atom) and the SSC-32</h1>
23		- </div>
24		-
25		- <!-- Section 1: Make the connection -->
26		- <div class="asm-step">
27		- <div class="asm-step-header">
28		- <div class="asm-step-name">Make the Connection</div>
29		- <div class="asm-step-num">&nbsp;</div>
30		- </div>
31		- <div class="asm-step-body">
32		- <div class="asm-step-text">
33		- <p>Before writing a program to control the arm, the serial data connection must be made. The SSC-32 includes a short two-conductor cable assembly. The black wire goes to ground and the yellow wire carries the signal.</p>
34		- <p>The .1" spaced end connects to the SSC-32 at the pins marked RX and ground. Make sure the SSC-32 is set for <b>38.4k baud</b>. Remove the DB9 enable jumpers if present. Yellow goes to RX, black goes to ground.</p>
35		- <p>The .2" spaced end connects to Bot Board I/O <b>pin 15</b>. The black wire goes closer to the outside edge of the board; the yellow wire goes closer to the IC. Note: the nylon standoff has been removed for this photo.</p>
36		- </div>
37		- <div class="asm-step-figure">
38		- <img src="https://wiki.lynxmotion.com/info/wiki/lynxmotion/download/servo-erector-set-robots-kits/ses-v1-robots/ses-v1-arms/controlling-arm-bot-board-basic-atom-ssc-32/WebHome/bbssc32.jpg">
39		- <span>Figure 1.</span>
40		- </div>
41		- </div>
42		- </div>
43		-
44		- <!-- Section 2: Enabling the servos -->
45		- <div class="asm-step">
46		- <div class="asm-step-header">
47		- <div class="asm-step-name">Enabling the Servos</div>
48		- <div class="asm-step-num">&nbsp;</div>
49		- </div>
50		- <div class="asm-step-body">
51		- <div class="asm-step-text" style="flex: 1 1 100%;">
52		- <p>The SSC-32 will not send servo pulses until it receives the proper command. The program below enables channels 10 through 15, moving all servos to their mid positions (1500µs). Note: all <code>serout</code> commands must be one continuous line — if you copy and paste, remove any line breaks. You can substitute the 1500 values with other starting positions to prevent the arm from jumping.</p>
53		- <div class="code-block">serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500 #14 P1500 #15 P1500",13]
54		-
55		-start:
56		-goto start 'loop</div>
57		- </div>
58		- </div>
59		- </div>
60		-
61		- <!-- Section 3: Move the arm smoothly -->
62		- <div class="asm-step">
63		- <div class="asm-step-header">
64		- <div class="asm-step-name">Move the Arm Smoothly</div>
65		- <div class="asm-step-num">&nbsp;</div>
66		- </div>
67		- <div class="asm-step-body">
68		- <div class="asm-step-text" style="flex: 1 1 100%;">
69		- <p>The program below moves the arm from an initial position to a new position, then to another, then cycles back and forth. Each move takes 2 seconds to complete. These servo values are arbitrary — replace them with the actual positions you want the arm to move to.</p>
70		- <div class="code-block">serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500 #14 P1500 #15 P1500",13]
71		-
72		-start:
73		-serout p15,i38400,["#10 P1400 #11 P1400 #12 P1400 #13 P1400 #14 P1400 #15 P1400 T2000",13]
74		-pause 2000
75		-serout p15,i38400,["#10 P1600 #11 P1600 #12 P1600 #13 P1600 #14 P1600 #15 P1600 T2000",13]
76		-pause 2000
77		-goto start 'repeat</div>
78		- </div>
79		- </div>
80		- </div>
81		-
82		- <!-- Section 4: Code specific to the arm -->
83		- <div class="asm-step">
84		- <div class="asm-step-header">
85		- <div class="asm-step-name">Code Specific to the Arm</div>
86		- <div class="asm-step-num">&nbsp;</div>
87		- </div>
88		- <div class="asm-step-body">
89		- <div class="asm-step-text" style="flex: 1 1 100%;">
90		- <p>Using variables and the <code>gosub</code> command makes the code easier to read. This program accomplishes the same thing as the previous one, but lets you set positions by name instead of raw numbers. The first <code>serout</code> still uses servo channel numbers directly.</p>
91		- <div class="code-block">base var word 'Base rotate
92		-shld var word 'Shoulder pivot
93		-elbo var word 'Elbow pivot
94		-wrst var word 'Wrist pivot
95		-grip var word 'Gripper open/close
96		-grpr var word 'Gripper rotate (L6 only)
97		-ttm var word 'Amount of time to take to move
98		-
99		-serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500 #14 P1500 #15 P1500",13]
100		-
101		-start:
102		-'first move...
103		-base=1400: shld=1400: elbo=1400:
104		-wrst=1400: grip=1400: grpr=1400:
105		-ttm=2000
106		-gosub send_data
107		-
108		-'second move...
109		-base=1600: shld=1600: elbo=1600:
110		-wrst=1600: grip=1600: grpr=1600:
111		-ttm=2000
112		-gosub send_data
113		-
114		-'add more moves here...
115		-goto start
116		-
117		-send_data:
118		-serout p15,i38400,["#10P", DEC base, "#11P", DEC shld, "#12P", DEC elbo, "#13P", DEC wrst, "#14P", DEC grip, "#15P", DEC grpr, "T", DEC ttm, 13]
119		-pause ttm
120		-return</div>
121		- </div>
122		- </div>
123		- </div>
124		-
125		- <!-- Conclusion -->
126		- <div class="asm-step">
127		- <div class="asm-step-header">
128		- <div class="asm-step-name">In Conclusion</div>
129		- <div class="asm-step-num">&nbsp;</div>
130		- </div>
131		- <div class="asm-step-body">
132		- <div class="asm-step-text">
133		- <p>I hope you find this simple tutorial helpful. More content will be added in the future. You can now control the Lynx arms easily and eloquently from a BASIC Atom / SSC-32.</p>
134		- <p>Happy Roboting,<br><b>Jim Frye</b></p>
135		- </div>
136		- </div>
137		- </div>
138		-
139		-</div>
	1	+{{html wiki="false" clean="true"}}
	2	+<table border="0" bordercolor="#FFFFFF" cellpadding="5">
	3	+ <tbody><tr>
	4	+ <td colspan="2" >
	5	+ <p align="center"><strong><font size="2" face="Verdana">Controlling an Arm with the Bot Board (Basic Atom) and the SSC-32</font></strong></p>
	6	+ </td>
	7	+ </tr>
	8	+ <tr>
	9	+ <td valign="top" colspan="2"><font size="1" face="Verdana">&nbsp;</font></td>
	10	+ </tr>
	11	+ <tr>
	12	+ <td valign="top" ><strong><font size="2" face="Verdana">Make the connection</font></strong><font size="2" face="Verdana"><br>
	13	+ Before I discuss how to write a program to control the arm, we need to make the serial data connection. The SSC-32 includes a short two
	14	+ conductor cable assembly. The black wire goes to ground and the yellow wire is for the signal. The .1" spaced end goes to the SSC-32 where
	15	+ it is marked with RX and the ground symbol. You will need to make sure the SSC-32 is set for 38.4k baud. It will be necessary to remove the DB9
	16	+ enable jumpers if present to make this connection. The yellow wire goes to RX, and the black wire goes to ground. The .2" spaced end goes
	17	+ to the Bot Board I/O pin 15. The black wire goes closer to the outside edge of the board, and the yellow wire goes closer to the IC. Note, the
	18	+ nylon standoff has been removed for this photo.&nbsp;</font></td>
	19	+ <td valign="top" align="center" width="50%"><img border="2" src="https://wiki.lynxmotion.com/info/wiki/lynxmotion/download/servo-erector-set-robots-kits/ses-v1-robots/ses-v1-arms/controlling-arm-bot-board-basic-atom-ssc-32/WebHome/bbssc32.jpg" width="320" height="240"><br>
	20	+ <font face="Verdana" size="2">Figure 1.</font></td>
	21	+ </tr>
	22	+ <tr>
	23	+ <td valign="top" colspan="2"><font size="1" face="Verdana">&nbsp;</font></td>
	24	+ </tr>
	25	+ <tr>
	26	+ <td valign="top" ><strong><font size="2" face="Verdana">Enabling the servos</font></strong><font size="2" face="Verdana"><br>
	27	+ SSC-32 will not send out servo pulses until it receives the proper command. The program to the right will enable channels 10 through 15. This
	28	+ will make all of the servos go to their mid positions, or 1500uS. Note, all serout commands need to be one continuous line of text. If you cut
	29	+ and paste from here you will need to remove the CR's. Note, later you can substitute the 1500's with other starting positions to prevent the arm
	30	+ from jumping.&nbsp;</font></td>
	31	+ <td valign="top" bordercolor="#000000">
	32	+ <table border="1" bordercolor="#FFFFFF">
	33	+ <tbody><tr>
	34	+ <td bordercolor="#000000"><font face="Courier New" size="2">serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500
	35	+ #14 P1500 #15 P1500",13]&nbsp;<br>
	36	+ <br>
	37	+ start:<br>
	38	+ goto start&nbsp;&nbsp;&nbsp;&nbsp; 'loop</font></td>
	39	+ </tr>
	40	+ </tbody></table>
	41	+ </td>
	42	+ </tr>
	43	+ <tr>
	44	+ <td valign="top" colspan="2"><font size="1" face="Verdana">&nbsp;</font></td>
	45	+ </tr>
	46	+ <tr>
	47	+ <td valign="top" ><strong><font size="2" face="Verdana">Move the arm smoothly</font></strong><font size="2" face="Verdana"><br>
	48	+ The next program will move the arm from the initial position, to a new position, then to another new position, then cycle back and forth. The
	49	+ moves are slow and smooth. They will each take 2 seconds to complete. Note, these servo values are arbitrary, you will need to replace them with
	50	+ the actual positions you want the arm to move to.&nbsp;&nbsp;</font></td>
	51	+ <td valign="top" bordercolor="#000000">
	52	+ <table border="1" bordercolor="#FFFFFF">
	53	+ <tbody><tr>
	54	+ <td bordercolor="#000000"><font face="Courier New" size="2">serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500
	55	+ #14 P1500 #15 P1500",13]&nbsp;<br>
	56	+ <br>
	57	+ start:<br>
	58	+ serout p15,i38400,["#10 P1400 #11 P1400 #12 P1400 #13 P1400 #14 P1400 #15 P1400 T2000",13]<br>
	59	+ pause 2000<br>
	60	+ serout p15,i38400,["#10 P1600 #11 P1600 #12 P1600 #13 P1600 #14 P1600 #15 P1600 T2000",13]<br>
	61	+ pause 2000<br>
	62	+ goto start&nbsp;&nbsp;&nbsp;&nbsp; 'repeat</font></td>
	63	+ </tr>
	64	+ </tbody></table>
	65	+ </td>
	66	+ </tr>
	67	+ <tr>
	68	+ <td valign="top" colspan="2"><font size="1" face="Verdana">&nbsp;</font></td>
	69	+ </tr>
	70	+ <tr>
	71	+ <td valign="top" ><strong><font size="2" face="Verdana">Code specific to the arm</font></strong><font size="2" face="Verdana"><br>
	72	+ By using variables and the gosub command the code can be simplified to read easier. This program will accomplish the same thing as the previous
	73	+ one, but you can change the position with a name instead of a number. The first serout still uses the servo channel number though.</font></td>
	74	+ <td valign="top" bordercolor="#000000">
	75	+ <table border="1" bordercolor="#FFFFFF">
	76	+ <tbody><tr>
	77	+ <td bordercolor="#000000"><font face="Courier New" size="2">base&nbsp;&nbsp;var word 'Base rotate<br>
	78	+ shld&nbsp; var word 'Shoulder pivot<br>
	79	+ elbo&nbsp; var word 'Elbow pivot<br>
	80	+ wrst&nbsp; var word 'Wrist pivot<br>
	81	+ grip&nbsp; var word 'Gripper open/close<br>
	82	+ grpr&nbsp; var word 'Gripper rotate (L6 only)<br>
	83	+ ttm&nbsp;&nbsp; var word 'Amount of time to take to move<br>
	84	+ <br>
	85	+ serout p15,i38400,["#10 P1500 #11 P1500 #12 P1500 #13 P1500 #14 P1500 #15 P1500",13]&nbsp;<br>
	86	+ <br>
	87	+ start:<br>
	88	+ 'first move...<br>
	89	+ base=1400: shld=1400: elbo=1400:<br>
	90	+ wrst=1400: grip=1400: grpr=1400:&nbsp;<br>
	91	+ ttm=2000<br>
	92	+ gosub send_data<br>
	93	+ <br>
	94	+ 'second move...<br>
	95	+ base=1600: shld=1600: elbo=1600:&nbsp;<br>
	96	+ wrst=1600: grip=1600: grpr=1600:&nbsp;<br>
	97	+ ttm=2000<br>
	98	+ gosub send_data<br>
	99	+ <br>
	100	+ 'add more moves here...<br>
	101	+ goto start<br>
	102	+ <br>
	103	+ send_data:<br>
	104	+ serout p15,i38400,["#10P", DEC base, "#11P", DEC shld, "#12P", DEC elbo, "#13P", DEC wrst,
	105	+ "#14P", DEC grip, "#15P", DEC grpr, "T", DEC ttm, 13]<br>
	106	+ pause ttm<br>
	107	+ return&nbsp;<br>
	108	+ </font></td>
	109	+ </tr>
	110	+ </tbody></table>
	111	+ </td>
	112	+ </tr>
	113	+ <tr>
	114	+ <td valign="top" colspan="2"><font size="1" face="Verdana">&nbsp;</font></td>
	115	+ </tr>
	116	+ <tr>
	117	+ <td valign="top" ><strong><font size="2" face="Verdana">In conclusion</font></strong><font size="2" face="Verdana"><br>
	118	+ I hope you find this simple tutorial helpful. I will add more content in the future. Now you can control the Lynx arms easily and eloquently
	119	+ from a BASIC Atom / SSC-32.</font>
	120	+ <p><font size="2" face="Verdana">Happy Roboting,</font>
	121	+ </p><p><font size="2" face="Verdana">Jim Frye</font></p>
	122	+ </td>
	123	+ <td valign="top" ></td>
	124	+ </tr>
	125	+</tbody></table>
	126	+</body>
140	140	{{/html}}