Changes for page LSS Mechanical
Last modified by Eric Nantel on 2024/07/12 11:24
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... ... @@ -1,98 +1,62 @@ 1 1 (% class="wikigeneratedid" id="HTableofContents" %) 2 -** TableofContents**2 +**Page Contents** 3 3 4 4 {{toc depth="3"/}} 5 5 6 -= Nomenclature =6 += LSS Features = 7 7 8 -With the LSS (Lynxmotion Smart Servo) we incorporated some features which make sense for Robotic applications. Bellow are some of the main features present on the LSS. 8 +|(% colspan="2" style="width:350px" %)((( 9 +== Spline == 10 +))) 11 +|(% style="width:350px" %)[[image:LSS - Splines.png||width="400"]]|((( 12 +The spline allows the driving horn to be connected to the output shaft so that it rotates with the shaft. The 24 tooth spline selected is used by other servo manufacturers (for example Hitec's HS-422 and HS-645MG RC servos) and as such there are a variety of accessories / horns which are compatible and can be installed on the servo. Alternatives to using the Lynxmotion driving horn include a wheel, a pulley or sprocket, a tubing connector, specific RC horns and more. Note that there are many different spline cross sections, and in order to ensure the a horn can fit onto the output shaft of the servo, it must have the matching / identical spline. 9 9 10 - **Driven Horn**: The driven horn is connected to theoutput shaftofthe final gear in thegeardownwithin the servo.This outputshaft hasaspecificcrosssectioncalled“spline”(the “male”versionofthe spline),andtherivenhornhashe mating“female”spline.Thedrivenhornis heldin place using a 3mm machine screw.14 +Although the final gear which (located within the servo) which is connected to the output spline is supported by two radial ball bearings, the output spline is intended to withstand torque as opposed to radial or axial loads. 11 11 12 -[[image:LSS - driven horn.png||width="400"]] 16 +Learn more about [[SES - Gearing & Horns>>doc:Servo Erector Set (SES) Building System.SES - Parts.SES - Gearing Information.WebHome]] 17 +))) 18 +|(% colspan="2" style="width:350px" %)((( 19 +== Case == 20 +))) 21 +|(% style="width:350px" %)[[image:LSS - case.png||width="400"]]|((( 22 +The black plastic case which forms the body of the servo is made up of three sections: the top (highlighted in yellow), the bottom (opposite the driven horn and highlighted in orange), and the middle / center. All three case components on the high speed and standard servos are made of injection-molded ABS plastic, whereas the middle case on the high torque is machined aluminum, anodized black. There are four screws located on the bottom case holding the servo together. Opening the servo without express permission from RobotShop / Lynxmotion staff will void the warranty. There are many threaded inserts in the top and bottom case, and their specifications and functionality are described below. 23 +))) 24 +|(% colspan="2" style="width:350px" %)((( 25 +== LED Bar == 26 +))) 27 +|(% style="text-align:center; width:350px" %)[[image:LSS - LED.png||width="250"]]|((( 28 +The white opaque LED bar covers an internal RGB LED and has several functions: 13 13 14 -**Spline**: The spline allows the driven horn to be connected to the output shaft so that it rotates with the shaft. There are many different spline cross sections, and in order to ensure the a horn can fit onto the output shaft of the servo, it must have the matching / identical spline. 15 - 16 -[[image:LSS - Splines.png||width="400"]] 17 - 18 -**Idler Horn**: The idler horn is not driven and allows a free-spinning horn to be placed in one of three locations on the servo. The idler horn sub-assembly consists of a spacer, a ball bearing and the idler horn itself. The idler horn is held in place using a 3mm machine screw. 19 - 20 -[[image:LSS - idler.png||width="400"]] 21 - 22 -**Case**: The black plastic case which forms the body of the servo is made up of three sections: the bottom (opposite the driven horn), the center and the top. The case components are made of injection-molded ABS plastic. There are four screws which hold together the case which are not meant to be opened. 23 - 24 -[[image:LSS - case.png||width="400"]] 25 - 26 -**LED Bar**: The LED bar covers an internal RGB LED and allows the user to get visual feedback of the status / configuration of the servo. 27 - 28 -[[image:LSS - LED.png||width="250"]] 29 - 30 -**Connector**: There are two four-pin connectors located on either side of the servo. The female pins are GND (0V), V+ (6V to 12V), Rx (receive pin) and Tx (transmit pin). The order of the connector pins is reversed from one side of the servo to the other. In order to receive or send a command / signal only one side needs to be connected. The other connector need only be used when adding another servo to the chain. 31 - 32 -[[image:LSS - Connectors.png||width="250"]] 33 - 34 -**Button**: The small button located at the rear of the servo is meant to allow the user to change the servo’s settings / configurations. The button is recessed so it is not pressed accidentally, nor is it meant to be used often, as the software interface allows for full control over these settings as well. Do not press the button too hard. 35 - 36 -[[image:LSS - Button.png||width="250"]] 37 - 38 -**Gearing**: The internal gearing within the servo is located inside the top part of the case and has the effect of reducing the motor’s RPM while increasing the torque. The gear train is made up of a variety of metal spur gears. 39 - 40 -[[image:LSS - Gears.png||width="250"]] 41 - 42 -**Motor**: The brushed DC motor is located within the central part of the case. The motor used in the high torque servo is coreless, while the motor used in the standard and high speed servos is cored. 43 - 44 -[[image:LSS - Motor.png||width="250"]] 45 - 46 -**Electronics**: The electronics inside the servo include the following: 47 - 48 -* H-bridge motor controller 49 -* Microcontroller (Cortex M0) 50 -* Magnetic position sensor 51 -* Voltage sensor 52 -* Temperature sensor 53 -* Current sensor 54 - 55 -**Threaded Inserts** 56 - 57 -* The top case of the servo includes 12x 2-56 threaded inserts plus one M3 threaded insert located at the center of the SES pattern as well as the M3 threaded spline shaft. 58 - 59 -[[image:LSS-Top-Inserts(800px).png||width="400"]] 60 - 61 - 62 -* The bottom case of the servo includes 16x 2-56 threaded inserts plus two M3 threaded inserts located at the center of the SES pattern. 63 - 64 -[[image:LSS-Bottom-Inserts(800px).png||width="400"]] 65 - 66 -* IMPORTANT NOTE: ONLY USE THE 2-56 x 14” SCREWS PROVIDED. LONGER SCREWS CAN AND WILL CAUSE DAMAGE TO THE SERVO. 67 - 68 -((( 69 -[[image:LSS-Screws-Distance.png||width="400"]] 30 +* User can select a color to add an aesthetic / visual flare to their robotic creation 31 +* When changing modes or using the button menu, the LED provides visual feedback of the servo's status / configuration 32 +* If the servo encounters an issue (ex too hot), the servo will go limp and the LED will provide feedback 33 +* In advanced mode, the LED can be made to flash in specific circumstances 70 70 ))) 35 +|(% colspan="2" style="width:350px" %)((( 36 +== Connector == 37 +))) 38 +|(% style="text-align:center; width:350px" %)[[image:LSS - Connectors.png||width="250"]]|There are two male four-pin 2.54mm (0.1") spaced MOLEX connectors located on either side of the servo. The connector is "keyed" to prevents mating except with a correctly oriented matching connector, and there is no locking mechanism. The pins are GND, VCC+, Rx (servo receive pin) and Tx (servo transmit pin). The order of the connector pins is reversed from one side of the servo to the other . In order to receive or send a command / signal only one side needs to be connected. The other connector need only be used when adding another servo to the chain. 39 +|(% colspan="2" style="width:350px" %)((( 40 +== Button == 41 +))) 42 +|(% style="text-align:center; width:350px" %)[[image:LSS - Button.png||width="250"]]|The small button located at the rear of the servo is meant to allow the user to change the servo’s settings / configurations. The button is recessed so it is not pressed accidentally, nor is it meant to be used often, as the software interface allows for full control over these settings as well. Do not press the button too hard. 43 +|(% colspan="2" style="width:350px" %)((( 44 +== Gearing == 45 +))) 46 +|(% style="text-align:center; width:350px" %)[[image:LSS - Gears.png||width="250"]]|The internal gearing within the servo is located inside the top part of the case and has the effect of reducing the motor’s RPM while increasing the torque. The gear train is made up of a variety of metal spur gears. 47 +|(% colspan="2" style="width:350px" %)((( 48 +== Motor == 49 +))) 50 +|(% style="text-align:center; width:350px" %)[[image:LSS - Motor.png||width="250"]]|The brushed DC motor is located within the central part of the case. The motor used in the high torque servo is coreless, while the motor used in the standard and high speed servos is cored. 71 71 72 -((( 73 - 52 +|(% colspan="2" style="width:350px" %)((( 53 += Threaded Inserts = 74 74 ))) 55 +|(% style="width:350px" %)[[image:LSS-Top-Inserts(800px).png||width="400"]]|The top case of the servo includes 12x 2-56 threaded inserts plus one M3 threaded insert located at the center of the SES pattern as well as the M3 threaded spline shaft. 56 +|[[image:LSS-Bottom-Inserts(800px).png||width="400"]]|The bottom case of the servo includes 16x 2-56 threaded inserts plus two M3 threaded inserts located at the center of the SES pattern. 57 +|[[image:LSS-Screws-Distance.png]]|IMPORTANT NOTE: ONLY USE THE 2-56 x 14” SCREWS PROVIDED. LONGER SCREWS CAN AND WILL CAUSE DAMAGE TO THE SERVO. 75 75 59 += Dimensions = 76 76 77 - 78 -= SES Pattern = 79 - 80 - 81 -The SES mounting pattern is based on two holes which are used for mounting objects to a Hitec standard servo horn such as the Hitec HS-422. The mounting pattern involves: 82 - 83 -* 8mm diameter center hole 84 -* Four equally spaced holes located on a 0.656” diameter circle. Sometimes these four holes are threaded 2-56 (imperial), sometimes they are not 85 -* Outer diameter is 1” (2.54cm) 86 - 87 -[[image:SES-V2 - SES Pattern (4).png||width="200"]] 88 - 89 -Newer brackets have four additional holes (for a total of eight holes) spaced at 45 degrees to allow for easy mounting. 90 - 91 -[[image:SES-V2 - SES Pattern (8).png||width="200"]] 92 - 93 -(% style="color:inherit; font-family:inherit; font-size:28px" %)LSS Case Dimensions 94 - 95 -[[image:LSS - Dimensions 1.png||width="400"]] 96 - 97 - 98 -[[image:LSS - Top & Bottom.png||width="400"]] 61 +(% style="width:700px" %) 62 +|(% style="width:350px" %){{lightbox image="LSS-All-Dimensions.png"/}}|{{lightbox image="LSS-Front-Dimensions.png"/}}
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