11 functional models. 6 beginer models and 5 mobile ( car ) models. In set we include different senzors like switch, photo, infrared, ultrasonic and color. Except building elements we include power supply 9V, micro:bit IO F5 board, BBC micro:bit and Usb cabel. 180 parts is in this set.
ROB00137
ROBOTIC SET micro:bit ( board IO F5, micro:bit NOT INCLUDED)
246.19
11 functional models. 6 beginer models and 5 mobile ( car ) models. In set we include different senzors like switch, photo, infrared, ultrasonic and color. Except building elements we include power supply 9V, micro:bit IO F5 board, BBC micro:bit and Usb cabel. 180 parts is in this set.
FT548884
Starter Set for micro:bit
126.38
The new “Starter Set for micro:bit” by fischertechnik teaches the basic principles of programming with micro:bit single board computers for students grades three and up in an easy to understand way. This complete set includes a fischertechnik part set for building three stationary models and the new fischertechnik “micro:bit IO F5 adapter”. The adapter board has 8 outputs and 6 inputs. It can be used to control simple, easy to understand demonstration
models (a pedestrian walk sign, hand dryer, barrier) equipped with actuators and sensors using the “micro:bit board”. The additional pedagogical manual offers help in starting up the models, a variety of exciting tasks, and is available free of charge as a download from the eLearning portal.Required: micro:bit board, software and power supply. Content: micro:bit iO F5 adapter board, XS motor, 2x light barrier LEDs, phototransistor, 2x buttons
ROB00138
micro:bit IO F5 board - POWER CON. 5.2x2.1 mm ( 8x OUT, 6x IN) - IN up to 9V
25.38
Discount for bigger quantity.
Board and micro:bit power supply via universal power adapters (6 - 9V) or batteries (6 - 9V). Outputs for connecting standard 4 x DC motors or 8 x lights. Maximum output power 1000 mA per connector. Input power should be aligned with the output power of the consumer. Up to 6 sensors, 5 x analog / digital and 1 x digital. Connection for
I2C sensor control. Output power 5V and 3.3V. Rubber mounting feet on the model (inserted into the hole element), 60 mm spacing. All standard sensors (photo, mini-switch, magnetic, thermal, etc.) can be used, which outputs up to 5V. POWER SUPLY CONNECTOR 5.2 x 2.1 mm. MICRO:BIT INPUTS ARE PROTECTED FROM TOO HIGH VOLTAGE, UP TO 9V.
ROB00139
micro:bit IO F5 board - POWER CON. 3.5x1.3 mm ( 8x OUT, 6x IN) - IN up to 9V
25.38
Discount for bigger quantity.
Board and micro:bit power supply via universal power adapters (6 - 9V) or batteries (6 - 9V). Outputs for connecting standard 4 x DC motors or 8 x lights. Maximum output power 1000 mA per connector. Input power should be aligned with the output power of the consumer. Up to 6 sensors, 5 x analog / digital and 1 x digital. Connection for I2C sensor
control. Output power 5V and 3.3V. Rubber mounting feet on the model (inserted into the hole element), 60 mm spacing. All standard sensors (photo, mini-switch, magnetic, thermal, etc.) can be used, which outputs up to 5V. POWER SUPLY connector 3.5 x 1.3 mm - FISCHERTEHNIK COMPATIBLE. MICRO:BIT INPUTS ARE PROTECTED FROM TOO HIGH VOLTAGE, UP TO 9V.
ROB00140
micro:bit IO T5 board - POWER CON. 5.2x2.1 mm ( 8x OUT, 6x IN) - IN up to 9V
30.62
Discount for bigger quantity.
Board and micro:bit power supply via universal power adapters (6 - 9V) or batteries (6 - 9V). Outputs for connecting standard 4 x DC motors or 8 x lights. Maximum output power 1000 mA per connector. Input power should be aligned with the output power of the consumer. Up to 6 sensors, 5 x analog / digital and 1 x digital.
Connection for I2C sensor control. Output power 5V and 3.3V. Rubber mounting feet on the model (inserted into the hole element), 60 mm spacing. All standard sensors (photo, mini-switch, magnetic, thermal, etc.) can be used, which outputs up to 5V. MICRO:BIT INPUTS ARE PROTECTED FROM TOO HIGH VOLTAGE, UP TO 9V
ROB00244
ULTRASOUND sensor I2C - (value in mm) 3.3V - 5V
8.66
Power supply 3.3V or 5V (red and green). The BLACK wire connects to the SCL connector, and the BLUE to the SDA connector of the I2C port. An example program can be seen in our programming school.
ROB00128
ULTRASOUND sensor 3.3V - 5V
7.21
Connect red and green wire to 3.3V or 5V power output. Micro:bit connecting: Blue wire (echo) to P3 and black wire (trig) to input P0 . Need to add package "SONAR". For Arduino and Raspberry BLUE wire = ECHO, BLACK wire = TRIG.
