Changes in f7b6c24: servo

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				Tech-dat/acturator-dat/motor-dat/servo-dat/servo-connector-dat/servo-connector-dat.md
			
          @@ -0,0 +1,34 @@

          +

          +# servo-connector-dat

          +

          +

          +normal servo output tooth == 25T 

          +

          +also in - [[SCU1012-dat]]

          +

          +![](2026-01-09-20-51-21.png)

          +

          +

          +![](2026-01-09-20-52-35.png)

          +

          +- red == rubber [[spacer-dat]]

          +- green == [[rivet-dat]]

          +

          +

          +## main flange 

          +

          +![](2026-01-09-20-58-15.png)

          +

          +![](2026-01-09-20-59-00.png)

          +

          +

          +

          +

          +

          +

          +## ref 

          +

          +- [[servo-dat]]

          +

          +

          +- [[servo-connector]] - [[servo]]

          \ No newline at end of file

				Tech-dat/acturator-dat/motor-dat/servo-dat/servo-dat.md
			
          @@ -7,26 +7,12 @@

           - [[PWM-dat]]

          +- [[servo-connector-dat]]

          +- [[servo-HDK-dat]] - [[servo-SDK-dat]]

          -

          -## feature of servos 

          -

          -- The servo is a device that can control the angle of rotation of the motor shaft. It consists of a DC motor, a gear set, and a position feedback system.

          -- The servo can be controlled by a PWM signal, which determines the angle of rotation of the motor shaft.

          -- The servo can be used in various applications, such as robotics, RC vehicles, and automation systems.

          -- The servo can be classified into different types based on its construction and operation, such as analog servos, digital servos, and continuous rotation servos.

          -- The servo can be powered by different voltage levels, typically ranging from 4.8V to 6V for standard servos and up to 7.4V for high-performance servos.

          -- The servo can be controlled by different protocols, such as PWM, I2C, and UART, depending on the application and the controller used.

          -- The servo can be equipped with different types of gears, such as plastic gears, metal gears, and ceramic gears, depending on the torque and speed requirements of the application.

          -- The servo can be used in various configurations, such as standard servos, mini servos, micro servos, and high-torque servos, depending on the size and weight constraints of the application.

          -- The servo can be used in different environments, such as indoor, outdoor, and underwater, depending on the sealing and protection features of the servo.

          -- The servo can be used in different applications, such as robotics, automation, and control systems, depending on the requirements of the application.

          -- The servo can be used in different industries, such as automotive, aerospace, and consumer electronics, depending on the requirements of the application.

          -

          -

           ## products 

           - Micro servo - [[SCU1030-DAT]] - [[SCU1031-dat]] == SG90 / MG90

          @@ -44,6 +30,20 @@ The 90-degree and 180-degree servos have identical physical dimensions and torqu

           The fixed-wing S-version servo (with 25cm wire length) is not the helicopter version. Compared to helicopter servos, it has lower pull strength, performance, and motor lifespan. It's suitable for electric fixed-wing aircraft made of foamboard or foam (recommended) and offers good value for money.

          +## feature of servos 

          +

          +- The servo is a device that can control the angle of rotation of the motor shaft. It consists of a DC motor, a gear set, and a position feedback system.

          +- The servo can be controlled by a PWM signal, which determines the angle of rotation of the motor shaft.

          +- The servo can be used in various applications, such as robotics, RC vehicles, and automation systems.

          +- The servo can be classified into different types based on its construction and operation, such as analog servos, digital servos, and continuous rotation servos.

          +- The servo can be powered by different voltage levels, typically ranging from 4.8V to 6V for standard servos and up to 7.4V for high-performance servos.

          +- The servo can be controlled by different protocols, such as PWM, I2C, and UART, depending on the application and the controller used.

          +- The servo can be equipped with different types of gears, such as plastic gears, metal gears, and ceramic gears, depending on the torque and speed requirements of the application.

          +- The servo can be used in various configurations, such as standard servos, mini servos, micro servos, and high-torque servos, depending on the size and weight constraints of the application.

          +- The servo can be used in different environments, such as indoor, outdoor, and underwater, depending on the sealing and protection features of the servo.

          +- The servo can be used in different applications, such as robotics, automation, and control systems, depending on the requirements of the application.

          +- The servo can be used in different industries, such as automotive, aerospace, and consumer electronics, depending on the requirements of the application.

          +

           ## test note

          @@ -193,6 +193,14 @@ lock and unlock system

           ![](2025-12-06-14-23-10.png)

          +to linear output 

          +

          +![](2026-01-09-21-11-41.png)

          +

          +connector to a [[crank-dat]]

          +

          +![](2026-01-09-21-12-45.png)

          +

           ## high torque servo 

           35KG version

...	...	@@ -0,0 +1,34 @@
	1	+
	2	+# servo-connector-dat
	3	+
	4	+
	5	+normal servo output tooth == 25T
	6	+
	7	+also in - [[SCU1012-dat]]
	8	+
	9	+![](2026-01-09-20-51-21.png)
	10	+
	11	+
	12	+![](2026-01-09-20-52-35.png)
	13	+
	14	+- red == rubber [[spacer-dat]]
	15	+- green == [[rivet-dat]]
	16	+
	17	+
	18	+## main flange
	19	+
	20	+![](2026-01-09-20-58-15.png)
	21	+
	22	+![](2026-01-09-20-59-00.png)
	23	+
	24	+
	25	+
	26	+
	27	+
	28	+
	29	+## ref
	30	+
	31	+- [[servo-dat]]
	32	+
	33	+
	34	+- [[servo-connector]] - [[servo]]
...	...	\ No newline at end of file

...	...	@@ -7,26 +7,12 @@
7	7	- [[PWM-dat]]
8	8
9	9
	10	+- [[servo-connector-dat]]
10	11
	12	+- [[servo-HDK-dat]] - [[servo-SDK-dat]]
11	13
12	14
13	15
14		-
15		-## feature of servos
16		-
17		-- The servo is a device that can control the angle of rotation of the motor shaft. It consists of a DC motor, a gear set, and a position feedback system.
18		-- The servo can be controlled by a PWM signal, which determines the angle of rotation of the motor shaft.
19		-- The servo can be used in various applications, such as robotics, RC vehicles, and automation systems.
20		-- The servo can be classified into different types based on its construction and operation, such as analog servos, digital servos, and continuous rotation servos.
21		-- The servo can be powered by different voltage levels, typically ranging from 4.8V to 6V for standard servos and up to 7.4V for high-performance servos.
22		-- The servo can be controlled by different protocols, such as PWM, I2C, and UART, depending on the application and the controller used.
23		-- The servo can be equipped with different types of gears, such as plastic gears, metal gears, and ceramic gears, depending on the torque and speed requirements of the application.
24		-- The servo can be used in various configurations, such as standard servos, mini servos, micro servos, and high-torque servos, depending on the size and weight constraints of the application.
25		-- The servo can be used in different environments, such as indoor, outdoor, and underwater, depending on the sealing and protection features of the servo.
26		-- The servo can be used in different applications, such as robotics, automation, and control systems, depending on the requirements of the application.
27		-- The servo can be used in different industries, such as automotive, aerospace, and consumer electronics, depending on the requirements of the application.
28		-
29		-
30	16	## products
31	17
32	18	- Micro servo - [[SCU1030-DAT]] - [[SCU1031-dat]] == SG90 / MG90
...	...	@@ -44,6 +30,20 @@ The 90-degree and 180-degree servos have identical physical dimensions and torqu
44	30
45	31	The fixed-wing S-version servo (with 25cm wire length) is not the helicopter version. Compared to helicopter servos, it has lower pull strength, performance, and motor lifespan. It's suitable for electric fixed-wing aircraft made of foamboard or foam (recommended) and offers good value for money.
46	32
	33	+## feature of servos
	34	+
	35	+- The servo is a device that can control the angle of rotation of the motor shaft. It consists of a DC motor, a gear set, and a position feedback system.
	36	+- The servo can be controlled by a PWM signal, which determines the angle of rotation of the motor shaft.
	37	+- The servo can be used in various applications, such as robotics, RC vehicles, and automation systems.
	38	+- The servo can be classified into different types based on its construction and operation, such as analog servos, digital servos, and continuous rotation servos.
	39	+- The servo can be powered by different voltage levels, typically ranging from 4.8V to 6V for standard servos and up to 7.4V for high-performance servos.
	40	+- The servo can be controlled by different protocols, such as PWM, I2C, and UART, depending on the application and the controller used.
	41	+- The servo can be equipped with different types of gears, such as plastic gears, metal gears, and ceramic gears, depending on the torque and speed requirements of the application.
	42	+- The servo can be used in various configurations, such as standard servos, mini servos, micro servos, and high-torque servos, depending on the size and weight constraints of the application.
	43	+- The servo can be used in different environments, such as indoor, outdoor, and underwater, depending on the sealing and protection features of the servo.
	44	+- The servo can be used in different applications, such as robotics, automation, and control systems, depending on the requirements of the application.
	45	+- The servo can be used in different industries, such as automotive, aerospace, and consumer electronics, depending on the requirements of the application.
	46	+
47	47
48	48	## test note
49	49
...	...	@@ -193,6 +193,14 @@ lock and unlock system
193	193	![](2025-12-06-14-23-10.png)
194	194
195	195
	196	+to linear output
	197	+
	198	+![](2026-01-09-21-11-41.png)
	199	+
	200	+connector to a [[crank-dat]]
	201	+
	202	+![](2026-01-09-21-12-45.png)
	203	+
196	204	## high torque servo
197	205
198	206	35KG version