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7	7	{{toc/}}
8	8
9	9	|(((
10		-= About the Servo Erector Set V1.1 =
	10	+= Description =
11	11	)))
12	12	|(((
13	13	(% class="wikigeneratedid" id="HAbouttheServoErectorSetV1.1" %)
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81	81
82	82	= User Guide =
83	83
84		-|(% colspan="2" %)**Electronics Guides**
	84	+|(% colspan="2" %)(((
	85	+== **Electronics Guides** ==
	86	+)))
85	85	|(% style="width:150px" %)[[image:BBU-01.jpg]]|[[BotBoarduino User Guide>>doc:servo-erector-set-system.ses-electronics.ses-modules.botboarduino.botboarduino-manual.WebHome]]
86	86	The BotBoarduino is intended to be used only if you plan to create code in Arduino / if you want the robot to be fully autonomous. The BotBoarduino is compatible with a variety of third party "shields".
87	87	|[[image:ssc32.jpg]]|[[SSC-32 User Guide>>doc:servo-erector-set-system.ses-electronics.ses-modules.ssc-32.ssc-32-manual.WebHome]]
...	...	@@ -88,13 +88,22 @@
88	88	The v1.1 includes the SSC-32 is an easy to use dedicated 32 servo controller. It can be connected to a computer via the DB9 connector or to the Serial to XBee breakout board. The SSC-32 can also be connected to another microcontroller via the Tx and Rx pins. The SSC-32 is not "programmable" as such - you simply send it position commands. The V1.1 does not include this part.
89	89	|[[image:SSC-32U.jpg]]|[[SSC-32U User Guide>>attach:servo-erector-set-system.ses-electronics.ses-modules.ssc-32u.WebHome@lynxmotion_ssc-32u_usb_user_guide.pdf]]
90	90	The newer S.E.S V1.2 includes the SSC-32U, which is an updated USB version of the dedicated SSC-32 servo controller. It can be connected to a computer via USB or Bluetooth Bee module. The SSC-32 can also be connected to another microcontroller via the Tx and Rx pins. The SSC-32 is not "programmable" as such - you simply send it position commands. The V1.1 does not include this part.
91		-|[[image:servo-erector-set-system.ses-electronics.ses-modules.botboarduino.WebHome@BBU-01.PNG]]|DFRobot Bluetooth Module User Guide (PDF)
	93	+|[[image:dfrobot-bluetooth-bee.jpg||alt="SSC-32U.jpg"]]|DFRobot Bluetooth Module User Guide (PDF)
92	92	The DFRobot Bluetooth module operates at 9600 baud (so be sure to change the jumpers on the SSC-32) and the default pairing code is 1234. The module uses the standard XBee format. Once the module has paired with the computer, the green LED located in the lower right side of the board will light up and stay solid.
93		-|[[image:servo-erector-set-system.ses-electronics.ses-modules.botboarduino.WebHome@BBU-01.PNG]]| Serial to XBee Breakout Board Datasheet (PDF)
94		-The Serial to XBee breakout board is only included with the V1.1 and allows the DFRobot Bluetooth module to be connected directly to the SSC-32 board. Note that the board needs to be powered by running a pair of standard wires from the underside of the board to the SSC-32's pins (as described in the user guides).
95		-The S.E.S. V1.2 does not include this part since the SSC-32U is already XBee compatible.
96		-|(% colspan="2" %)**Assembly Guides**
97		-|[[image:[email protected]||alt="BBU-01.PNG"]]|(((
	95	+|[[image:RB-Tys-01.jpg]]|(((
	96	+Bluetooth Bee (CSR BC417143)
	97	+
	98	+The Bluetooth Bee is a complete Bluetooth 2.0 module (complete with onboard antenna) whose pinout is compatible with that of an XBEE module. This module is intended to be used with the SSC-32U servo controller for wireless servo control
	99	+
	100	+* [[attach:servo-erector-set-system.ses-electronics.ses-modules.WebHome@Bluetooth Bee manual.pdf]]
	101	+* [[attach:servo-erector-set-system.ses-electronics.ses-modules.WebHome@TEL0026_Datasheet.pdf]]
	102	+
	103	+
	104	+)))
	105	+|(% colspan="2" %)(((
	106	+== **Assembly Guides** ==
	107	+)))
	108	+|(% style="vertical-align:middle" %)[[image:[email protected]||alt="BBU-01.PNG"]]|(((
98	98	**A2WD1 (2WD) Rover**
99	99
100	100	The rover assembly guide shows how to assemble the robot using just the SSC-32 controller (for FlowBotics Studio) or using the BotBoarduino (Arduino). We suggest building and programming this robot first.
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101	101
102	102	* [[doc:wheeled-tracked.2wd-rover-assembly-v1\.1.WebHome]]
103	103	)))
104		-|[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-arms.al5d.WebHome@al5d.jpg||alt="BBU-01.PNG"]]|(((
	115	+|(% style="vertical-align:middle" %)[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-arms.al5d.WebHome@al5d.jpg||alt="BBU-01.PNG"]]|(((
105	105	**AL5D Robotic Arm**
106	106
107	107	The AL5D arm can be assembled using either the BotBoarduino or the SSC-32 controller. We suggest building this robot second. Note that you will need to disassemble the 2WD rover to assemble the arm.
108	108
109	109	* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-arms.arm-base-v-2-1.WebHome]]
110		-* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-arms.al5d-arm-rev-2-1.WebHome]]
	121	+* [[doc:ses-v1.ses-v1-robots.ses-v1-arms.al5d-arm-rev-2-1.WebHome]]
111	111	)))
112		-|[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-bipeds.brat.WebHome@brat.jpg||alt="BBU-01.PNG"]]|(((
	123	+|(% style="vertical-align:middle" %)[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-bipeds.brat.WebHome@brat.jpg||alt="BBU-01.PNG"]]|(((
113	113	**BRAT Biped Robot**
114	114
115	115	The BRAT can be assembled using either the SSC-32 controller or the BotBoarduino. The BRAT uses only three servos per leg which allows for basic motion. If you are comfortable with either the Arduino code or the FlowBotics Studio code, you can try to add an additional degree of freedom to each leg. Please refer to the Arduino sample code to know which pins are connected to which servos.
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116	116
117	117	* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-bipeds.brat-biped.WebHome]]
118	118	)))
119		-|[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-2dof-hexapods.mh2.WebHome@mh2u.jpg||alt="BBU-01.PNG"]]|(((
	130	+|(% style="vertical-align:middle" %)[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-2dof-hexapods.mh2.WebHome@mh2u.jpg||alt="BBU-01.PNG"]]|(((
120	120	**MH2 Hexapod Robot**
121	121
122	122	The MH2 robot assembly differs slightly from the guide shown because the SES V1.1 includes 4x HS-422 servos and 8x HS-645MG servos, therefore you will need to replace two HS-422 servos with 2x HS-645MG servos.
123	123
124		-* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-2dof-hexapods.simple-2-dof-leg.WebHome]]
125		-* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-2dof-hexapods.mini-inline-hexapod-body.WebHome]]
	135	+* [[doc:ses-v1.ses-v1-robots.ses-v1-2dof-hexapods.simple-2-dof-leg.WebHome]]
	136	+* [[doc:ses-v1.ses-v1-robots.ses-v1-2dof-hexapods.mini-inline-hexapod-body.WebHome]]
126	126	)))
127		-|[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-quadrapods.sq3-symmetric-quad.WebHome@SQ3U.jpg||alt="BBU-01.PNG"]]|(((
	138	+|(% style="vertical-align:middle" %)[[image:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-quadrapods.sq3-symmetric-quad.WebHome@SQ3U.jpg||alt="BBU-01.PNG"]]|(((
128	128	**SQ3 Quadruped Robot**
129	129
130	130	The SQ3 quadruped is the most complex robot which can be built with the kit and is for users who feel comfortable with the electronics and software.
131	131
132		-* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-3-4-dof-hexapods.3-dof-leg-v2.WebHome]]
	143	+* [[doc:ses-v1.ses-v1-robots.ses-v1-3-4-dof-hexapods.3-dof-leg-v2.WebHome]]
133	133	* [[doc:servo-erector-set-robots-kits.ses-v1-robots.ses-v1-quadrapods.quadrapod-qbk-02.WebHome]]
134	134	)))
135		-
136		-

RB-Tys-01.jpg

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