Everything you've learned about data sheets and selecting motors, you can basically throw them in the wastebasket because with a surgical robot and anything medical that's in the operating room where is where there are patient surface temperature guidelines, depending on how the robots designed those patient surface temperature guidelines filter back to what kind of heat the system can dissipate, which then filters back to how much heat the motor can generate without exceeding the thermal limit, that is no longer an industrial thermal limit. So all motors are rated industrially so that, you know, it goes into some factory, it's not near any people, and basically, you know, a motor manufacturer puts materials in the motor that might be good to 200 C and then they'll rate the motor at 150 C and they'll say, well, this is a 1 Newton meter motor at 150C and it can go into a 40�� factory environment. And, and everything's great. And that's a one Newton meter motor. If you take that one Newton meter motor, you put it in a surgical robot, it's probably half that amount because you can't let the motor get to 130 C because you'll never keep the patient surface temperature of the robot at 42 or whatever the limits are, you know, for the particular application. So. You have to significantly derate the motor, so the data sheet and any torque information that's provided with a motor is subject to be wrong. And so in a surgical robot or any medical device you really have to rewrite the motor based on the application and induced thermal limits, which reduces the torque. That's why we don't. We don't really use. I mean, you have to publish torque because everybody does, but we generally use. The rated. That the motor constant instead of the rated torque. So. That is a way to to figure out how much torque per square root of Watt. You know, the torque output for the amount of heat that the motor can generate. And that's driven then, you know, connected to how much heat the robot can dissipate without getting too hot.
Tritec Electronic GmbH's next generation Multi Display Manager is a fully integrated solution that supports the smooth running of complex and intricate surgeries.
The system captures and transmits up to 27 image sources almost latency-free on up to six 8 MP displays (4K) or other screen combinations and additional IP streams.
View TRITEC Electronic GmbH's supplier profile to learn more: https://lnkd.in/eBNDm6tz#operatingtheatre#medicaldevices#healthcare#surgicalroboticstechnology
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