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필요한 것

해당 분해도는 수리 안내서가 아닙니다. Microbot Push 수리는 저희 서비스 설명서를 사용하십시오.

  1. Microbot Push Teardown, Opening the casing: 1 단계, 이미지 1/3 Microbot Push Teardown, Opening the casing: 1 단계, 이미지 2/3 Microbot Push Teardown, Opening the casing: 1 단계, 이미지 3/3
    • Removing the 4 Torx screws and 1 regular one beneath the black rubber pad shows us a gearbox, 2 PCBs and a battery

  2. Microbot Push Teardown, Battery management: 2 단계, 이미지 1/3 Microbot Push Teardown, Battery management: 2 단계, 이미지 2/3 Microbot Push Teardown, Battery management: 2 단계, 이미지 3/3
    • According to its specs, the MicroBot has a battery life of about one year. The battery is rechargeable, using a regular 5V charger with a micro USB connector.

    • Battery charging circuit

    • Charging IC

    • Transistor to control the red and green LEDS next to the USB port, indicating whether or not the battery is fully charged

    • Battery protection circuit

    • These types of ICs are used to “sense” the current

    • When the specified current limit has been reached they trigger a switch that will break the current path to the battery. The switch that is triggered in this case is a Dual N-Channel Enhancement Mode Power MOSFET, in this case the 8205A

  3. Microbot Push Teardown, Capacitive touch: 3 단계, 이미지 1/2 Microbot Push Teardown, Capacitive touch: 3 단계, 이미지 2/2
    • The capacitive touch button and matching circuitry (marked in red)

    • The big gold circle you see in the middle of the PCB is a capacitive touch button. It’s simply an exposed piece of copper

    • The TTP223B chip, this chip is a one-key touch pad detector that can detect the touch of a human finger on the touch pad. It does this by using the “Frequency Change” method

  4. Microbot Push Teardown, Bluetooth: 4 단계, 이미지 1/2 Microbot Push Teardown, Bluetooth: 4 단계, 이미지 2/2
    • The bluetooth chip and antenna (I had to remove a metal shield to reveal the chip;)

    • The bluetooth chip, in this case the nRF51822 Nordic Semiconductors (It’s a 2.4GHz ultra low-power bluetooth chip built around a 32-bit ARM® Cortex™ M0 CPU)

    • To the right of the nRF51822, you can see two oscillators, one 16MHz and one 32.768kHz (marked in orange), which generate the clock waveforms for the CPU

    • On the bottom (marked in yellow) you see the antenna circuitry and the PCB antenna itself. As you can see, they did not use a balun chip, but instead created a matching network using some capacitors and inductors.

  5. Microbot Push Teardown, Driving the motor: 5 단계, 이미지 1/1
    • This circuit is located on the back of the PCB

    • I could not trace back the datasheets of the actual components used, but after probing the upper IC with an oscilloscope I noticed that this is also a voltage regulator. This one boosts the voltage from 2.5 volts back to 4 volts to power the motor and the motor controller

    • Motor driver

  6. Microbot Push Teardown, Gearbox: 6 단계, 이미지 1/3 Microbot Push Teardown, Gearbox: 6 단계, 이미지 2/3 Microbot Push Teardown, Gearbox: 6 단계, 이미지 3/3
    • Opening up the gearbox was fairly simple: I just had to remove two screws to expose the gears and the motor

    • If we count all teeth of the gears we come up with a speed reduction of 948.41

November Five

회원 가입일: 08/25/16

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