Innovative KK22 Bugs7 remote control User Manual
- June 5, 2024
- INNOVATIVE
Table of Contents
Bugs 7
User Manual
Product Profile
This section mainly Introduces the functions and installation guidelines of B7 and lists the components of the aircraft and remote controller.
Introduction
- The Bugs 7 aircraft is equipped with an optical flow and GPS system. It can hover and fly stably indoors and outdoor. It has an automatic return home function and other easy-to-use intelligent flight functions. such as orbit flight, follow-me, and waypoint flight. Bugs 7 can shoot 41< HD videos.
- The transmitter is equipped with a complete set of function keys, it can realize various operations and settings of the aircraft and camera. Not only can display real-time HD pictures on the mobile device through the APP, but also display information such as tight parameters on the device screen. The folding transmitter improves users’ operation experience. The pull-out stand is easy to carry and store. What’s more. the gimbal can adjust manually the camera shooting angle before flying.
- The maximum flight speed of Bugs 7 is 32kmrh.
Prepare Your B7
Unfold the aircraft
The Aircraft is folded inside the package. Follow the steps below to unfold
the aircraft. Step 1: Unfold the front arms (Pic. 1):
Step 2: Repeat again to unfold the rear arms (Pic. 2)
Battery installation
Insert the fully charged battery into the aircraft battery box (see the
picture), and ensure the battery install correctly.
Attention: The battery should be installed firmly, failure to do so may
affect the flight safety of your aircraft. The aircraft may crash due to
power-cut during the flight.
Prepare the Remote Controller
Install the battery of the remote controller
Step 1: Unfold the hand sticks and open the battery door (Pic. 1);
Step 2: Install 2*AA batteries into the battery compartment according to the
given polarity (Pic. 2);
Step 3: Close the battery compartment (Pic. 3).
- Insert batteries with the correct polarity.
- Nonrechargeable batteries are not to be charged: the transmitter needs 2*AA batteries for work.
- Do not mix old and new batteries.
- Do not mix alkaline, standard (carbon-zinc), or rechargeable (nickel-cadmium) batteries.
- Rechargeable batteries are to be removed from the aircraft before being charged.
- Rechargeable batteries are only to be charged under adult supervision.
- Exhausted batteries are to be removed from the aircraft.
- The supply terminals are not to be short-circuited
Major Parts & Functional Switch
[1] Power switch
[2] Drone’s status indicator light
[3] Propeller
[4] Battery
[5] Camera
[6] Bottom lights
[7] Optical flow camera
[1] PhotoNide°
[2] Left stick
[3] Unlock/Lock
[4] One-key RTH
[5] Right stick
[6] Power switch
[7] LCD display
VII One-key takeoff/ One-key landing
[9] Shod- press for the optical flow switch Long- press for the fast-slow
speed switch.
[101 GPS Switch
Aircraft
This section introduces the functions and features of the 87.
Flight Modes
The following flight modes are available in Bugs 7.
GPS mode:
- When the aircraft is in GPS mode. it can receive the GPS signal to realize accurate hovering.
- If the GPS signal is weak, the aircraft will enter into altitude hold or optical flow position mode. (For specific situations, please refer to the APP status bar)
- Please make the aircraft land ASAP when the GPS signal is poor lest any accidents.
- By the way, please note do not fly the aircraft in any weak GPS signal place or narrow space place lest any flight accidents.
Optical flow positioning mode:
- If the aircraft does not receive a GPS signal or GPS is turned off and its altitude is within 3 meters, it automatically enters into the optical flow positioning mode. It utilizes the optical flow positioning mode to hover stably.
- If the aircraft does not receive a GPS signal or the GPS is turned off. what’s more, its altitude is beyond 3 meters. it will enter Into altitude-holding mode but cannot realize accurate hovering. In this situation, the user should have some basic operations and be recommended not to fly the aircraft.
Aircraft Status Indicator Lights
Aircraft status indicator
No. | Indicator status | Meanings |
---|---|---|
1 | Indicator yellow light flashes fast. | Aircraft 2.4GHZ disconnected. |
2 | Indicator yellow green red light flash by turn. | The aircraft is in |
initialization detection status.
3| The indicator yellow light stays on.| No GPS signal, the aircraft is in
gesture mode.
4| The indicator green light stays on.| Good GPS signal, aircraft is preparing
for GPS mode.
5| Indicator green light flashes fast.| The aircraft is in gyroscope
calibration status.
6| Indicator yellow light flashes.| The aircraft is in compass horizontal
calibration.
7| Indicator green light flashes.| The aircraft is in compass vertical
calibration.
8| Indicator red light flashes slowly.| The aircraft is nearly low voltage,
1/6 battery level left.
9| Indicator red light flashes fast.| The aircraft is in low voltage, only 1/8
voltage left.
10| Indicator red light flashes one time then stop for 1.5 seconds.| Something
wrong with the gyroscope.
11| Indicator red light flashes twice then stop at 1.5 for seconds.| Something
wrong with the barometer.
12| Indicator red light flashes three times then stop for 1.5 seconds.|
Something wrong with the compass.
13| Indicator red light flashes four times then stop for 1.5 seconds.|
Something wrong with the GPS module.
14| Indicator red light flashes six times then stop for 1.5 seconds.|
Something wrong with the vision positioning module.
Return to Home (RTH)
The Return-to-Home (RTH) function brings the aircraft back to the last
recorded Home Point.
There are 3 types of RTH: smart RTH, low battery RTH, and failsafe RTH. This
section describes these 3 scenarios in detail.
| GPS| Description
---|---|---
Home Point| | If a strong GPS signal (satellites over 7) was acquired before
takeoff, the Home Point is the location from which the aircraft launched. The
GPS signal strength is indicated by the GPS icon(611). The aircraft’s rear
indicator lights will blink rapidly from yellow color to green color when the
home point is recorded.
|
- During the return home flight, the aircraft will fly straight to the return home point and cannot avoid obstacles. Please make sure there are no obstacles on the path.
- Aircraft can not return to the Home Point when the GPS signal is weak or unavailable.
- Aircraft will stop ascending and immediately return to the Home Point if the user moves the throttle stick in the aircraft reaches 15 meters altitudes or beyond during Smart RTH.
- If there is no GPS signal and the remote controller signal is lost for more than 6 seconds, the aircraft can not Return-to-Home but descend slowly until lands on the ground and lock the aircraft.
---|---
Aircraft status indicator
When the GPS signal is available (more than 7 satellites are presented), use the RTH button IS’ on the remote controller (Pic. 1) or tap the RTH button in the “M RC PRO” APP (Pic. 2) and then follow the on-screen instructions to initiate Smart RTH. During the smart RTH, you can use the remote controller to guide the aircraft around obstacles. You can press the RTH button again to exit the RTH procedure and regain control of the aircraft.
Low battery RTH
The low battery level failsafe is triggered when the intelligent battery is depleted to a point that may affect the safe return of the aircraft. Users are advised to return home or land the aircraft immediately when prompted.
- If the rear indicator light flashes slowly, the battery icon on the transmitter LCD screen is , and with transmitter has a “DIDI” sound. If only the aircraft is beyond 30 meters altitude or 100 meters distance, the aircraft will return home As long as the aircraft is within 100 meters distance, the user can cancel the return via the button.
- When the aircraft’s rear lights flash slowly, the battery icon is shown on the remote controller or on the “M RC PRO” And a steady “beep…beep…beep° sound is heard. At this moment, the aircraft will automatically return to the Home Point if the flying altitude is beyond 15 meters or the flying distance against the home point is beyond 15 meters. If the aircraft’s flying altitude is less than 15 meters or the flying distance is less than 15 meters, the aircraft will automatically land on the ground.
Attention: When the aircraft is automatically returned home with the Low
Battery RTH function activated, you can not cancel the RTH procedure by
pressing the RTH button to regain control of the aircraft.
Out of connection return home function
The GPS signal is good (the No. of GPS satellites is more than 7), the compass
is working and the home point has been recorded successfully, if the control
signal is continuously interrupted for longer than 6 seconds and the APP
control turns off, the flight control system will take over the transmitter
control, controlling the aircraft to fly return home point. If the control
signal is restored during returning home, the returning home flight will
continue unless the user cancels it by the transmitter’s return home button
and get back the aircraft’s control right.
Vision System
The optical flow system consists of optical flow lens modules. The optical
flow system is an image positioning system, obtaining the aircraft’s position
through the optical image thereby ensuring the accurate positioning and safe
flight.
Vision Positioning System function
The Vision Positioning System is typically used in an indoor environment when
GPS is weak or unavailable. It works best when the aircraft’s altitude is less
than 3 meters.
The measuring precision of the optical flow system will be affected easily by the light strength and the features of object surface texture. Once the optical flow is unavailable, the aircraft will enter altitude-holding mode automatically. Please be cautious in as following situations:
- Fly fast at an altitude below 0.5m.
- Fly over monochrome surfaces (like pure black, pure red, pure red, and pure green).
- Fly over strong light reflective surfaces or surfaces prone to reflection.
- Fly over water or transparent object surfaces.
- Fly over moving object surfaces (such as crowds, swaying juggles, and glass).
- Fly over an area where light changes dramatically and rapidly.
- Fly over surfaces extremely dark (lux<10) or extremely bright (lux>10,000).
- Fly over surfaces without clear textures.
- Fly over surfaces with highly repeating textures (small grid brick in the same color).
- Fly over surfaces that are tilting over 30 degrees.
- Flying speed should be controlled not to be too fast. When the aircraft is 1 meter against the ground, the flying speed should not be over 5m/s; When the aircraft is 2 meters against the ground, the flying speed should not be over 14m/s.
- Keep sensors clean at all times.
- The vision system is only effective when the aircraft is within the altitude range of 3 meters.
- Make sure that the light is bright enough and the surfaces are with clear textures so that the vision system can acquire the movement information by recognizing the ground textures.
- The vision system may not function properly when the aircraft is flying over water, low light ground, and surfaces without clear patterns or textures.
- If the light is dim, please turn on the optical flow supplement light.
Aircraft Power Switch
Short-press the aircraft’s power button, and it will turn on, at the same
time, the aircraft will have a power-on sound, and the indicator light stays
on. Long-press the power button for 3 seconds and the aircraft will turn off
and the indicator light will turn off too.
Aircraft Battery
- Made by high-energy battery cells;
- The standard battery capacity is 7.6V 1500mAh.
Charge the aircraft battery
- Please charge the battery fully before using it.
- Be sure you use the officially supplied USB charging cable to charge.
- The charging time is about 2.5 hours.
This aircraft charging data is based on 5V 2A power adaptor. Different types of power adaptors and power devices will affect the charging time. It is recommended that the 5V 2-2.1A adaptor be used for charging.
- Need adult supervision when this aircraft is being played with by children.
- Only batteries of the same or equivalent type as recommended are to be used.
- Insert batteries with the correct polarity.
- Rechargeable batteries are to be removed from the aircraft before being charged.
- Rechargeable batteries are only to be charged under adult supervision.
- Exhausted batteries are to be removed from the aircraft.
- The supply terminals are not to be short-circuited.
- The charging line to be used with the product should be regularly examined for potential hazards, such as damage to the cable or cord, plug, enclosure, or other parts and in the event of such damage, the product must not be used until that damage had been properly removed.
- Please charge the battery about 1 hour after the flight to save.
- If no play for a long time, recommend to use out and recharge the battery one time per month lest the battery is damaged for over-discharge.
Attach and Detach the Propellers
Blade assemble and disassemble
-
Attach propeller A:
Put the propeller with the marking ‘A’ into the clockwise rotating motor shaft (the side marked A should be upwards). Then, put the silicone rubber ring into the center bore of the propeller. Last, choose the propeller screw with a dot and put it onto the motor shaft; tighten the screws counter-clockwise. -
Attach propeller B:
Put the propeller with marking ‘B’ into the counter-clockwise rotating motor shaft (the side marked B should be upwards). Then, put the silicone rubber ring into the center bore of the propeller. Last, choose the propeller screw without a dot and put it onto the motor shaft; tighten the screw by clockwise. -
Detach the propellers:
Hold the aircraft brushless motor and unscrew the screw without the dot counter-clockwise (screw with a dot should be rotated by clockwise) to take apart the propeller.
Attention: Please install all fittings step by step as below pictures. Keep in mind that the propellers are distinguished by A & B marks and the propellers screws are distinguished by dot marks. please pay attention to your rotation direction.
- Please make sure that the clockwise and the counter-clockwise propellers are installed on the correct motors because the aircraft will not fly normally for the installation of the wrong propeller.
- Be aware of the sharp edges of the propellers. Handle with care.
- ONLY use the factory-approved propellers. DO NOT mix propeller types.
- Stand clear of the motors and DO NOT touch the propellers when they are spinning.
- Check that the propellers and motors are installed correctly and firmly before every flight.
- Ensure that all propellers are in good condition before each flight. DO NOT use aged, chipped, or broken propellers.
- To avoid injury, STAND CLEAR of and DO NOT touch propellers or motors when they are spinning.
- ONLY use designated propellers for a better and safer flight experience.
Remote Controller
This section describes the features of the remote controller, including the
instruction on controlling the 87.
Remote Controller Functions and Status
Flight mode switch
Choose the flight mode by switching the GPS button to the ON/OFF position. The
on-working flight mode ” is shown on the LCD display.
LCD Screen display
Adjust the gimbal camera angle manually
By rotating the aircraft’s camera manually, the shooting angle of the gimbal
camera will be adjusted. Please adjust the angle according to the using
situation.
PhotoNideo Short-press the button indicated below, and the camera icon on the
LCD screen flashes once, and the camera takes one photo; Long-press the same
button, and the video icon on the LCD screen flashes slowly, and the camera is
taking video. Long-press again will exit shooting.
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