Main functions and controls of BLTouch are same as usual auto bed leveling sensor, consists of RC servo and micro switch. Thus, BLTouch can be applied on almost every board. BLTouch fulfilled simple structure and high precision by using progressively designed solenoid and hall sensor, and aimed user convenience and enjoyable printing by adding many smart functions, self-test, alarm, alarm release, test mode for M119. – Simple BLTouch can be easily applied, since it has a small and simple structure. – Smart [Self-test]: The push pin is operated three times to test when the power is on [Alarm]: The LED light blinks if a problem found on a self-test or on an operation – High-precision BLTouch’s Standard Deviation in repeatability is around 0.005mm, at that precise. Includes 1 Meter extension cable set. No soldering required!
BLTouch is an auto leveling sensor for 3D Printers based on open-source.
Simple, Smart, High-precision.
It could work with any kinds of bed materials, such as glasses, woods, metals, and so on.
This variation includes solder less extension cables. These plug into the original connections and extend them one meter.
Package Includes: 1 x RAMPS 1.4 Board 1 x Mega 2560 R3 Board 5 x Soldered A4988 Drivers 5 x Heat Sinks 1 x USB Cable 19 x Jumpers
RAMPS interfaces an Mega with the powerful MEGA platform and has plenty room for expansion
Mega 2560 control board is an ATmega2560 as core micro-controller development board itself has 54 digital I/O input/output terminals (14 can be used as PWM outputs), 16 simulation than the input side, group 4 UARTs (hardware serial ports), 16 MHz crystal
RAMPS is designed to fit the entire electronics needed for a RepRap in one small controller for a lower cost and a smaller size.
With the boot-loader, download the program directly via USB without having to go through other external writer
After connecting this panel to your RAMPS, you don’t need your pc any more. The smart controller supplies power for your SD card. All actions like calibration, axes movements can be done by just using the rotary encoder on the smart controller