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B-CUBE PIXHAWK PRO Flight Control M10 Carbon Fiber 450 Frame Kit Ardupilot 100MW Radio Telemetry Quadcopter BLHELI 30A2212 Motor ESC
B-CUBE PIXHAWK PRO Flight Control M10 Carbon Fiber 450 Frame Kit Ardupilot 100MW Radio Telemetry Quadcopter BLHELI 30A2212 Motor ESC
Verfügbarkeit für Abholungen konnte nicht geladen werden
433/915MHZ 100MW A :
F450+4 PCS BLHELI 30A +4 pairs 1045 Propellers +4 PCS 2212920KVmotor
PIXHAWKPRO+ 4G TF Card + Safety Button + Buzzer + PPM Encoder + I2C Expansion Board+ 3 Line(4Pin 1.25 ,6Pin 1.25 ,3Pin 2.5.4) + M10 GPS+ GPS Holder+ 3DR Power Module+ Shock Absorber+433/915MHZ 100MW Radio telemetry
433/915MHZ 500MW B:
F450+4 PCS BLHELI 30A +4 pairs 1045 Propellers +4 PCS 2212920KVmotor
PIXHAWKPRO(white or black shell)+ 4G TF Card + Safety Button + Buzzer + PPM Encoder + I2C Expansion Board+ RGB LED + OLED Screen+ 3 Line(4Pin 1.25 ,6Pin 1.25 ,3Pin 2.5.4) + M10 GPS+ GPS Holder+ 3DR Power Module+Shock Absorber+433/915MHZ 500MW Radio telemetry
433/915MHZ 1000MW C:
F450+4 PCS BLHELI 30A +4 pairs 1045 Propellers +4 PCS 2212920KVmotor
PIXHAWKPRO(white or black shell)+ 4G TF Card + Safety Button + Buzzer + PPM Encoder + I2C Expansion Board+ RGB LED + OLED Screen+ 3 Line(4Pin 1.25 ,6Pin 1.25 ,3Pin 2.5.4) + M10 GPS+ GPS Holder+ 3DR Power Module+Shock Absorber+433/915MHZ 1000MW Radio telemetry
M10 GPS Module With IST8310 Compass
M10 GPS for Pixhawk2.4.8: used for Pixhawk2.4.8
M10 GPS for Pixracer R15:used for Pixracer R15
M10 GPS for Pixhawk 6C :used for PIXHAWK 6C
The M10 GPS uses multi-constellation GNSS powered by u-blox M10 series, a concurrent GNSS receiver which can receive and track multiple GNSS systems. Owing to the multi-band RF front-end architecture all four major GNSS constellations, GPS,Galileo, GLONASS and BeiDou can be received concurrently.
It also comes with the IST8310 compass.This module ships with a baud rate of 115200 5Hz.
The high-gain 25 x 25 mm patch antenna provides excellent performance and the omnidirectional antenna radiation pattern increases flexibility for device installation. It features active circuitry for the ceramic patch antenna, rechargeable backup battery for warm starts.
Firmware Support for M10 GPS:
-
PX4 1.14, ArduPilot 4.3, or newer is required.
Specification
|
|
M10 GPS |
M9N GPS |
|
GNSS Receiver |
Ublox M10 |
Ublox M9N |
|
Number of Concurrent GNSS |
Up to 4 GNSS |
Up to 4 GNSS |
|
BeiDou |
BeiDou |
|
|
Galileo |
Galileo |
|
|
GLONASS |
GLONASS |
|
|
GPS |
GPS |
|
|
QZSS |
QZSS |
|
|
Frequency Band |
GPS L1 |
GPS L1 |
|
Galileo E1 |
Galileo E1 |
|
|
GLONASS L1 |
GLONASS L1 |
|
|
BeiDou B1 |
BeiDou B1 |
|
|
SBAS L1 |
SBAS L1 |
|
|
QZSS L1 |
QZSS L1 |
|
|
Compass |
IST8310 |
IST8310 |
|
Output Protocol |
UBX (U-blox) |
UBX (U-blox) |
|
NMEA |
NMEA |
|
|
Accuracy |
2.0m CEP |
1.5m CEP |
|
Nav. Update Rate |
Up to 25 Hz (single GNSS), |
Up to 25 Hz (4 concerrent GNSS) |
|
Up to 10 Hz (4 concurrent GNSS) |
||
|
GNSS Augmentation System |
EGNOS, GAGAN, MSAS and WAAS |
EGNOS, GAGAN, MSAS and WAAS |
|
QZSS: L1S |
QZSS: L1S |
|
|
Default Baud Rate |
115200 |
115200 |
|
Input Voltage |
4.7-5.2V |
4.7-5.2V |
|
Port Type |
JST-GH-6P |
JST-GH-6P |
|
Antenna |
25 x 25 x 4 mm ceramic patch antenna |
25 x 25 x 4 mm ceramic patch antenna |
|
Power consumption |
Less than 200mA @ 5V |
Less than 200mA @ 5V |
|
Operating Temperature |
-40~80C |
-40~80C |
|
Dimension |
φ50 x14.4 mm |
φ50 x14.4 mm |
|
Weight |
32g |
32g |
|
Cable Length |
26cm (42cm cable purchase separately) |
26cm (42cm cable purchase separately) |
Frame 450:
A.Features
A1: Use authentic electronic components to ensure high quality and enhance the current endurance ability of the ESC.
A2: Based on BLHeli firmware, optimized for high performance with great linearity and much quicker throttle response.
A3: Special designed for multirotors, and compatible with fixed-wing aircrafts and helicopters.
A4: Multiple protection features including Low-voltage cut-off protection / over-heat protection / throttle signal loss protection.
A5: Throttle range can be configured and is fully compatible with all receivers, providing smooth, linear and precise throttle response. A6: All parameters can be programmed via using a transmitter, including default settings.
B. Productspecification
1045 Propellers
This article explains how to connect the ESCs, motors and propellers to a autopilot. The Pixhawk is used as an example but other autopilots are connected in a similar way.
Connect the power (+), ground (-), and signal (s) wires for each ESC to the autopilots main output pins by motor number. Find your frame type below to determine the assigned order of the motors.
Pixhawk Outputpins (numbered). First 4 pins are colour-coded for connecting a Quadframe
Motor order diagrams
The diagrams below show motor order for each frame type. The numbers indicate which output pin from the autopilot shoould be connected to each motor/propeller. The propeller direction is shown in green (clockwise, CW) or blue (counter-clockwise, CCW)
Legend for motor-order diagrams
Quadcopter
Recognizing clockwise and counterclockwise propellers
The diagrams above show two types of propellers: clockwise (called pushers) and counterclockwise (called pullers). The most reliable to recognize the correct propeller type by its shape as shown below. The thicker edge is the leading edge which moves in the direction of rotation. The trailing edge is more radical scalloped and usually thinner.
How to install Motor?
