| Customization: | Available |
|---|---|
| Age: | > 8 Years |
| Certification: | Assemble |
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| 5206-0002-0003 | 5206 Series Servo Gearbox (2:1 Ratio, Hitec HS-788HB Servo) | This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 2:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 2:1 model rotates 0.79°/μsec, the total travel will be 790 degrees (2.2 rotations). Weight 284g Voltage Range 4.8V ~ 6V Max Travel 3.92 Rotations (1413˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 0.47 sec/60˚ (128˚/sec) Stall Torque (6.0V) 26.4 kg.cm (366 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.79˚/μsec |
| 5206-0002-0002 | 5206 Series Servo Gearbox (3:1 Ratio, Hitec HS-788HB Servo) | This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 3:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 3:1 model rotates 0.52°/μsec, the total travel will be 520 degrees (1.4 rotations). Weight 286g Voltage Range 4.8V ~ 6V Max Travel 2.62 Rotations (942˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 0.70 sec/60˚ (86˚/sec) Stall Torque (6.0V) 39.6 kg.cm (549 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.52˚/μsec |
| 5206-0002-0004 | 5206 Series Servo Gearbox (4:1 Ratio, Hitec HS-788HB Servo) | This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 3:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 4:1 model rotates 0.39°/μsec, the total travel will be 390 degrees (1.1 rotations). Weight 284g Voltage Range 4.8V ~ 6V Max Travel 1.96 Rotations (707˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 0.93 sec/60˚ (65˚/sec) Stall Torque (6.0V) 52.8 kg.cm (732 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.39˚/μsec |
| 5206-0002-0005 | 5206 Series Servo Gearbox (5:1 Ratio, Hitec HS-788HB Servo) | This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 3:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 5:1 model rotates 0.31°/μsec, the total travel will be 310 degrees. Weight 283g Voltage Range 4.8V ~ 6V Max Travel 1.57 Rotations (565˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 1.17 sec/60˚ (51˚/sec) Stall Torque (6.0V) 66.0 kg.cm (915 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.31˚/μsec |
| 5206-0002-0007 | 5206 Series Servo Gearbox (7:1 Ratio, Hitec HS-788HB Servo) |
This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 3:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 7:1 model rotates 0.22°/μsec, the total travel will be 220 degrees. Weight 289g Voltage Range 4.8V ~ 6V Max Travel 1.12 Rotations (404˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 1.63 sec/60˚ (37˚/sec) Stall Torque (6.0V) 92.4 kg.cm (1281 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.22˚/μsec |
| 5206-0002-0009 | 5206 Series Servo Gearbox (9:1 Ratio, Hitec HS-788HB Servo) | This Servo Gearbox is driven by the Hitec HS-788HB Sail Winch Servo, The all aluminum framework acts as a servo mount, an exoskeleton and a pillow block all in one. capable of rotating nearly 8 turns in stock form. This gearbox introduces a 3:1 external gear ratio in order to lessen the range while increasing the torque and precision two-fold. Having the servo mounted in the gearbox also isolates the load to a huge 32mm output hollow tube that is supported in a pair of bearings to protect the servo from any radial or axial loads.The large center bore is a portal that can be used to run cables, wiring, shafting etc. through so that they don't tangle or limit the rotation of the final gear.The gearbox opens up a world of mounting possibilities given the M4 threaded holes on each side which are on grid pattern for compatibility throughout the thefirsttool system. The hub on the top of the gearbox provides threaded holes to fasten to, but you can also opt to fasten straight to the aluminum output gear using M4 hardware and standoffs or spacers. If you're not accustomed to using a servo gearbox, it's just like a normal servo only larger. While the range and torque might be greater than the servos you're used to, the control signal is identical. It will simply plug into an R/C receiver, an Arduino, Raspberry Pi or REV controller. Furthermore, since the Hitec servo hasn't been modified in any way it's FTC legal. Note: The max travel is based on a the max PWM range. If your controller is not able to send the listed max PWM range, you can easily calculate the amount of travel with a different PWM signal range by multiplying the 'travel per microsecond' by the change in signal. For example, if you have a controller capable of 1000-2000 microseconds (μsec), your change in signal is 1000μsec. Since the 9:1 model rotates 0.17°/μsec, the total travel will be 170 degrees. Weight 287g Voltage Range 4.8V ~ 6V Max Travel 0.87 Rotation (314˚) Max PWM Range 600-2400μsec No-Load Speed (6.0V) 2.10 sec/60˚ (29˚/sec) Stall Torque (6.0V) 118.8 kg.cm (1647 oz-in) Direction Counter Clockwise w/ Increasing PWM Signal Travel per μsec 0.17˚/μsec |
Shenzhen Zhouyu Intelligent Technology Co.,Ltd , founded in 2007 and Dongguan Zhouyu Intelligent Technology Co.,Ltd, founded in 2015, is a leading STEAM education solution provider.We are the largest manufacturer of Educational mini machines and Educational metal robot in China. the Educational metal robot can use for the FTC
Targeting the STEAM education and entertainment markets for schools, educational institutions and families, thefirsttool provides the most complete hardware, software, content solutions, and a top-notch robotics competitions, with the aim of achieving deep integration of technology and education.
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