BIGTREETECH 3D Printer Part SKR V1.4 Turbo 32bit Control Board Smoothieboard&Marlin Open Source SKR V1.4 SKR V1.3 Upgrade Support TMC2209/TMC2208/TMC2130 Drivers (SKR V1.4 Turbo)

Package Included
1pc SKR V1.4 Turbo Board
1PC USB Cable

Product Features

  • Using 32bit main frequency 120MHz ARM level Cortex-M3 series LPC1769 Microprocessor
  • I2C, SPI and WIFI interfaces are reserved for convenience of DIY
  • Double z-axis interface, eliminating the trouble of external drive expansion Module
  • More fan interfaces: 1 way CNC fan, 3 way normally open fan
  • Plug-in external DC5V power supply module to supply power to TFT screen, BLtouch and Neopixel

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BIGTREETECH Direct SKR V1.4 Turbo Control Board + 5pcsTMC2208 V3.0 UART Mode Driver 3D Printer Parts with LPC1769-120MHz Frequency VS SKR V1.3 / V1.4


※5.【TMC2208 V3.0 Manual】:
https://github.com/bigtreetech/BIGTREETECH-TMC2208-V3.0

※BIGTREETECH SKR V1.4/V1.4 Turbo GitHub:
https://github.com/bigtreetech/BIGTREETECH-SKR-V1.3/tree/master/BTT%20SKR%20V1.4

※【SKR Motherboard Parameters】 :
Appearance size: 110*85mm
Mounting size: 102*76mm
Microprocessor: ARM Cortex-M3 CPU
Input voltage: DC12V-DC24V 5A-15A
Logic voltage:DC 3.3V
WIFI module:ESP-01S
Motor driver: Support TMC5161、TMC5160、TMC2209、TMC2225、TMC2208、TMC2130、ST820、LV8729、DRV8825、A4988 etc., independent external motor drive.
Driver working mode support: SPI、UART、STEP/DIR
Motor driver interface:X、Y、Z、E0、E1,5 way(Each has a closed loop drive interface) up to 256 subdivisions
Temperature sensor interface: TH0, TH1, TB, 3 channel 100K NTC Temperature

※BIGTREETECH SKR V1.4 motherboard is a 32-bit 3D printer motherboard optimized and upgraded by the 3D printing team of
Shenzhen Big Tree Technology CO., LTD. for the deficiencies of V1.3 version, especially suitable for small and medium-sized printers.

※1.SKR Motherboard Features: :
1)Plug-in external DC5V power supply module to supply power to TFT screen, BL touch and Neopixel.
2)Equipped with highly modular and open source firmware Marlin2.0, which is convenient for users to DIY and secondary development;
3)More fan interfaces: 1 way CNC fan, 3 way normally open fan;
4)Support 2.4, 2.8, 3.5 inch color touch screen, support LCD2004 screen, LCD12864 screen;
5)Upgrade and configure the firmware through SD card, which is simple, convenient and efficient;
6)The thermistor interface is protected by a bile capacitor pressurized resistor to enhance the resistance of the interface;
7)Support Resume Printing While Power Off, Filament Break Detection,Automatic Shutdown After Printing and so on;
8)High performance MOSFET tube, better heat dissipation effect;

Product Features

  • ※1.【SKR V1.4 Turbo】: Using 32-bit main frequency 120MHz ARM level Cortex-M3 series LPC1768 main control chip, the performance has been greatly improved;
  • ※2.【SKR V1.4 Turbo】: Using dedicated power chip M6130, support 12-24V power input;
  • ※3.【SKR V1.4 Turbo】: Double z-axis interface, eliminating the trouble of external drive expansion module;
  • ※4. 【TMC2208 Ultra-quiet】: Stealth Chop can make the engine work in extreme silence
  • ※5.【TMC2208 V3.0 Features】: Working Mode: Dir Step ##Microplver: 1/256 ##Microplyer Mode: Up to 256 ##Driver Current: Up to 2A ##Input Voltage: 4.75-35VDC ##Logical Voltage: 3.3V-5V ##Decibel: <10dB ##RDSON: ≤0.3Q ##Motor Phase Current: 1.2A RMS, 2.0A Peak

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BIGTREETECH Direct SKR V1.4 Turbo 32 Bit Control Board with LPC1769-120MHz Frequency 3D Printer Parts VS SKR V1.3 MKS GEN L TMC2130 TMC2209 TMC2208


SKR V1.4 / Turbo https://github.com/bigtreetech/BIGTREETECH-SKR-V1.3/tree/master/BTT%20SKR%20V1.4

※ ※ SKR motherboard parameters】 :
Appearance size: 110 * 85mm
Mounting size: 102 * 76mm
Microprocessor: ARM Cortex-M3 CPU
Input voltage: DC12V-DC24V 5A-15A
Logic voltage: DC 3.3V
WIFI module: ESP-01S
motor driver: support TMC5161, TMC5160, TMC2209, TMC2225, TMC2208, TMC2130, ST820, LV8729, DRV8825, A4988 etc., independent external motor drive.
Support of the driver work mode: SPI, UART, STEP / DIR
Motor driver interface : X 、 Y 、 Z 、 E0 、 E1,5-ways (Each interface has a closed control interface) with up to 256 subdivisions
Temperature sensor interface: TH0, TH1, TB, 3-channel 100K NTC temperature touch and neopixel.
2) Equipped with highly modular and open source firmware Marlin2.0, which is suitable for users for DIY and secondary developers;
3) Additional fan interfaces: 1-way CNC fan, 3-way normally open fan;
4) support 2.4, 2.8, 3.5 inch color touch screen, support LCD2004 screen, LCD12864 screen screen
5) Update and configure the firmware via an SD card which is easy , convenient and efficient.
6) The thermistor interface is protected by an overpressure resistor with a bile capacitor to increase the resistance of the interface. ;
7) Supports continued printing when turning off, detection of thread breaks, automatic shutdown after printing, etc. ;
8) High-performance MOSFET tube, better heat dissipation;
9) The closed-loop drive interface is reserved to reduce the problems of the pluggable switching module. ;

Product Features

  • √ 1. 【Main Control Chip】 Performance has been significantly improved with the LPC1768 series Cortex-M3 main control chip with 32-bit main frequency and 120 MHz ARM level
  • √2. 【Power:】 Using dedicated M6130 power chip, support 12-24V power input;
  • √3. 【Work mode】 The SPI and UART work mode controlled by the TMC driver, which also has the DIAG pin, which eliminates the need for a complex wiring process and can be used by simply pulling the jumper cap off.
  • √4. 【Double Z-axis :】 Double Z-axis interface, which eliminates problems with the external drive expansion module;
  • √ 5. SKR V1.4 / Turbo】 https://github.com/bigtreetech/BIGTREETECH-SKR-V1.3/tree/master/BTT%20SKR%20V1.4

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WitBot TMC2208 V2.1 New Upgraded  Silent Stepper Motor Driver Suit MKS GEN V1.4 / MKS GEN L/SKR Control Board for 3D Printer Parts(Pack of 5pcs)

1.Work mode: PASS / DIR / UART
1.PASSO / DIR Mode:

2. advantages of the UART 2 modes:
1)The motor current can be arbitrarily set by the firmware;
2)Micro-can be arbitrarily set by the firmware (up to 256 real micro-The real and interpolated micro-can be combined to get the maximum torque;
3)The firmware can dynamically switch the stepper motor between stealthChop2 and spreadCycle mode via the UART;
4)When the motor is not moving, the standby current motor can be dynamically reduced (via the UART)

Note:
1.Hardware selection When using the UART operating mode, use a soldering iron carefully to prevent burns and handle after observing, carefully observe whether the module has residual tin slag. It must be cleaned to prevent it.Cause the module to be short-circuited.
2.Pay attention to the line sequence and IO port when wiring. Connecting the wrong line will directly cause the driver to not work.Carefully connected to the above illustration.
3.When plugging the driver into the motherboard, pay attention to see the driving direction, never insert it, and prevent the drive burned.
4.Be sure to do the heat dissipation work (heat sink + cooling fan) before driving to prevent driving.

NOTE:
Note:If you are having trouble using it, or if you need to use the instructions, please contact me after placing your order.

Product Features

  • TMC2208 V2.1 is a newly upgraded driver module. Compared with TMC2208 V2.0, V2.1 puts the chip inside, which is more conducive to heat dissipation.
  • TMC2208 single-axis chip stepper motor drive, power supply tube built-in pilot current 1.4A peak current 2A, voltage range of 4.75V-36V, 256 subdivision; With the patented spreadCycle technology of high frequency chopper, dcStep , stall stallGuard2 , sensing technology, CoolStep dynamic current regulation technology, can save 70% energy.
  • Flexible microPlyer interpolation unit, the component can provide up to 256 microstep / step resolution, even in the wrist frequency system is limited may still be perfect to achieve sinusoidal control; as stealthChop end music technology is widely used in 3D printing, so that these components are also designed to be compatible with current electronic 3D printer, eliminating the need for expensive redesign. Both components have input pulse / direction, can be completely independent operation. Th

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