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The MIT License (MIT)
Copyright (c) 2016 Ryan
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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# Arm Embedded Docker Environment
Minimal docker environment for building arm-embedded projects
## Usage
Run interactively with ```docker run -it --rm -v `pwd`:/root ryankurte/docker-arm-embedded /bin/bash```.
This will create a temporal instance (changes will be dropped on exit) with a binding from the current directory to the root user home directory.
If you are using selinux you may need to add a ```:z``` to the end of the -v parameter to indicate the mount is shared.
```docker run -it --rm -v `pwd`:/root:z ryankurte/docker-arm-embedded /bin/bash```
https://docs.docker.com/storage/bind-mounts/
### Building grbl-LPC
Update the grbl/config.h and uncomment the CPU_MAP define statement for the board you are compiling for
```
git submodule init
git submodule update
make
```
The resulting firmware file is build/firmware.bin
## Includes:
- build-essential (native)
- make, cmake
- gawk, genromfs, ccache
- arm-none-eabi from [launchpad.net](https://launchpad.net/~terry.guo/+archive/ubuntu/gcc-arm-embedded)
- [Yotta](http://yotta.mbed.com/)

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FROM ubuntu:latest
MAINTAINER Ryan Kurte <ryankurte@gmail.com>
LABEL Description="Docker image for building arm-embedded projects"
# General dependencies
RUN apt-get update && apt-get install -y \
git \
subversion \
curl \
cmake \
make \
automake \
autoconf \
python-setuptools \
ninja-build \
python-dev \
libtool \
unzip \
libffi-dev \
libssl-dev \
libusb-1.0.0 \
libusb-1.0.0-dev \
software-properties-common \
python-software-properties \
gawk \
genromfs \
ccache \
clang \
build-essential \
python3 \
python3-dev \
python3-pip \
libprotobuf-dev \
protobuf-compiler \
libprotobuf-c-dev \
protobuf-c-compiler \
python-protobuf
# arm-none-eabi custom ppa
RUN add-apt-repository ppa:team-gcc-arm-embedded/ppa && \
apt-get update && \
apt-get install -y gcc-arm-embedded
# Yotta
RUN easy_install pip && \
pip install yotta && \
mkdir -p /usr/local/lib/yotta_modules \
chown $USER /usr/local/lib/yotta_modules \
chmod 755 /usr/local/lib/yotta_modules
# Pyserial for serial programming
RUN pip install pyserial
# STLink util
RUN git clone https://github.com/texane/stlink.git && \
cd stlink && mkdir build && cd build && \
cmake .. && make && make install
# Cleanup
RUN apt-get clean && \
rm -rf /var/lib/apt

118
README.md
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@ -6,12 +6,120 @@ Note: cprezzi's branch disables current control and has defaults more suitable f
*** ***
This is GRBL 1.1 ported to the LPC1769. It can run on Smoothieboard. This is GRBL 1.1 ported to the LPC1769. It can run on Smoothieboard.
----- Usage notes:
* This uses a different usb-serial driver than Smoothieware. Windows 10 should recognize it automatically.
If it doesn't, try installing VCOM_lib/usbser.inf.
* This doesn't pass the sdcard to the host. Once installed you need to use a micro sdcard adaptor to replace or change it.
* Only tested with lasers with PWM. Non-PWM spindle control not ported.
* These are defaults for easy-to-change config values.
* WPos enabled for LaserWeb compatability ($10=0)
* Laser mode: ON ($32)
* Minimum S value: 0.0 ($31)
* Maximum S value: 1.0 ($30)
* Hard limits not yet ported
* Control inputs not yet ported (e.g. Cycle Start and Safety Door switches)
**Settings for MKS sbase 1.3 and CoreXY** New configuration settings
* $33 is PWM frequency in Hz
* $34 is PWM off value in %
* $35 is PWM min value in %
* $36 is PWM max value in %
* $140, $141, $142 are X, Y, Z current (amps)
* Default to 0.0 A to avoid burning out your motors
* Your motors will likely stall if you don't set these!
![Wiring 1](./doc/media/48491571-d99a3080-e862-11e8-8367-4408a5589503.png) Build notes:
* You should use virtual machines, if you use multiple toolchains on the same PC.
* Install make if not already there (for Windows see http://gnuwin32.sourceforge.net/packages/make.htm)
* Install the ARM embeded toolchain (see https://developer.arm.com/open-source/gnu-toolchain/gnu-rm/downloads)
* Include ```make``` and the ```arm-none-eabi-*``` tools in your path.
* Run ```git submodule init``` and ```git submodule update``` before building.
* Make produces 2 files:
* ```build/firmware.bin```: this is compatible with the sdcard bootloader.
* ```build/grbl.hex```: this is not compatible with the sdcard bootloader. It loads using Flash Magic
and is primarilly for developers who don't want to keep swapping sdcards. If you flash this,
then you'll have to reflash the bootloader if you want to go back.
![Wiring 2](./doc/media/49279485-9aa2e680-f4c2-11e8-98bd-cce3caf5c8dd.jpeg) ***
Grbl is a no-compromise, high performance, low cost alternative to parallel-port-based motion control for CNC milling. This version of Grbl runs on an Arduino with a 328p processor (Uno, Duemilanove, Nano, Micro, etc).
[Laser4Web .env Settings](https://github.com/LaserWeb/lw.comm-server/wiki/Environment-File-(.env)) The controller is written in highly optimized C utilizing every clever feature of the AVR-chips to achieve precise timing and asynchronous operation. It is able to maintain up to 30kHz of stable, jitter free control pulses.
It accepts standards-compliant g-code and has been tested with the output of several CAM tools with no problems. Arcs, circles and helical motion are fully supported, as well as, all other primary g-code commands. Macro functions, variables, and most canned cycles are not supported, but we think GUIs can do a much better job at translating them into straight g-code anyhow.
Grbl includes full acceleration management with look ahead. That means the controller will look up to 16 motions into the future and plan its velocities ahead to deliver smooth acceleration and jerk-free cornering.
* [Licensing](https://github.com/gnea/grbl/wiki/Licensing): Grbl is free software, released under the GPLv3 license.
* For more information and help, check out our **[Wiki pages!](https://github.com/gnea/grbl/wiki)** If you find that the information is out-dated, please to help us keep it updated by editing it or notifying our community! Thanks!
* Lead Developer: Sungeun "Sonny" Jeon, Ph.D. (USA) aka @chamnit
* Built on the wonderful Grbl v0.6 (2011) firmware written by Simen Svale Skogsrud (Norway).
***
### Official Supporters of the Grbl CNC Project
![Official Supporters](https://github.com/gnea/gnea-Media/blob/master/Contributors.png?raw=true)
***
## Update Summary for v1.1
- **IMPORTANT:** Your EEPROM will be wiped and restored with new settings. This is due to the addition of two new spindle speed '$' settings.
- **Real-time Overrides** : Alters the machine running state immediately with feed, rapid, spindle speed, spindle stop, and coolant toggle controls. This awesome new feature is common only on industrial machines, often used to optimize speeds and feeds while a job is running. Most hobby CNC's try to mimic this behavior, but usually have large amounts of lag. Grbl executes overrides in realtime and within tens of milliseconds.
- **Jogging Mode** : The new jogging commands are independent of the g-code parser, so that the parser state doesn't get altered and cause a potential crash if not restored properly. Documentation is included on how this works and how it can be used to control your machine via a joystick or rotary dial with a low-latency, satisfying response.
- **Laser Mode** : The new "laser" mode will cause Grbl to move continuously through consecutive G1, G2, and G3 commands with spindle speed changes. When "laser" mode is disabled, Grbl will instead come to a stop to ensure a spindle comes up to speed properly. Spindle speed overrides also work with laser mode so you can tweak the laser power, if you need to during the job. Switch between "laser" mode and "normal" mode via a `$` setting.
- **Dynamic Laser Power Scaling with Speed** : If your machine has low accelerations, Grbl will automagically scale the laser power based on how fast Grbl is traveling, so you won't have burnt corners when your CNC has to make a turn! Enabled by the `M4` spindle CCW command when laser mode is enabled!
- **Sleep Mode** : Grbl may now be put to "sleep" via a `$SLP` command. This will disable everything, including the stepper drivers. Nice to have when you are leaving your machine unattended and want to power down everything automatically. Only a reset exits the sleep state.
- **Significant Interface Improvements**: Tweaked to increase overall performance, include lots more real-time data, and to simplify maintaining and writing GUIs. Based on direct feedback from multiple GUI developers and bench performance testing. _NOTE: GUIs need to specifically update their code to be compatible with v1.1 and later._
- **New Status Reports**: To account for the additional override data, status reports have been tweaked to cram more data into it, while still being smaller than before. Documentation is included, outlining how it has been changed.
- **Improved Error/Alarm Feedback** : All Grbl error and alarm messages have been changed to providing a code. Each code is associated with a specific problem, so users will know exactly what is wrong without having to guess. Documentation and an easy to parse CSV is included in the repo.
- **Extended-ASCII realtime commands** : All overrides and future real-time commands are defined in the extended-ASCII character space. Unfortunately not easily type-able on a keyboard, but helps prevent accidental commands from a g-code file having these characters and gives lots of space for future expansion.
- **Message Prefixes** : Every message type from Grbl has a unique prefix to help GUIs immediately determine what the message is and parse it accordingly without having to know context. The prior interface had several instances of GUIs having to figure out the meaning of a message, which made everything more complicated than it needed to be.
- New OEM specific features, such as safety door parking, single configuration file build option, EEPROM restrictions and restoring controls, and storing product data information.
- New safety door parking motion as a compile-option. Grbl will retract, disable the spindle/coolant, and park near Z max. When resumed, it will perform these task in reverse order and continue the program. Highly configurable, even to add more than one parking motion. See config.h for details.
- New '$' Grbl settings for max and min spindle rpm. Allows for tweaking the PWM output to more closely match true spindle rpm. When max rpm is set to zero or less than min rpm, the PWM pin D11 will act like a simple enable on/off output.
- Updated G28 and G30 behavior from NIST to LinuxCNC g-code description. In short, if a intermediate motion is specified, only the axes specified will move to the stored coordinates, not all axes as before.
- Lots of minor bug fixes and refactoring to make the code more efficient and flexible.
- **NOTE:** Arduino Mega2560 support has been moved to an active, official Grbl-Mega [project](http://www.github.com/gnea/grbl-Mega/). All new developments here and there will be synced when it makes sense to.
-
```
List of Supported G-Codes in Grbl v1.1:
- Non-Modal Commands: G4, G10L2, G10L20, G28, G30, G28.1, G30.1, G53, G92, G92.1
- Motion Modes: G0, G1, G2, G3, G38.2, G38.3, G38.4, G38.5, G80
- Feed Rate Modes: G93, G94
- Unit Modes: G20, G21
- Distance Modes: G90, G91
- Arc IJK Distance Modes: G91.1
- Plane Select Modes: G17, G18, G19
- Tool Length Offset Modes: G43.1, G49
- Cutter Compensation Modes: G40
- Coordinate System Modes: G54, G55, G56, G57, G58, G59
- Control Modes: G61
- Program Flow: M0, M1, M2, M30*
- Coolant Control: M7*, M8, M9
- Spindle Control: M3, M4, M5
- Valid Non-Command Words: F, I, J, K, L, N, P, R, S, T, X, Y, Z
```
-------------
Grbl is an open-source project and fueled by the free-time of our intrepid administrators and altruistic users. If you'd like to donate, all proceeds will be used to help fund supporting hardware and testing equipment. Thank you!
[![Donate](https://www.paypalobjects.com/en_US/i/btn/btn_donate_LG.gif)](https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=CUGXJHXA36BYW)

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void delay_init() void delay_init()
{ {
LPC_TIM3->CTCR = 0; // Count Control (0=TimerMode, 1-3=EdgeCounterMode) LPC_TIM3->CTCR = 0; // timer mode
LPC_TIM3->PR = 0; // no Prescale (TC increments ever PR+1 clocks) LPC_TIM3->PR = 0; // no prescale
LPC_TIM3->MCR = 0; // no Match Control actions LPC_TIM3->MCR = 0; // no MR actions
LPC_TIM3->CCR = 0; // no Capture Control actions LPC_TIM3->CCR = 0; // no capture
LPC_TIM3->EMR = 0; // no External Match (controls external match pins) LPC_TIM3->EMR = 0; // no external match
LPC_TIM3->TCR = 0b10; // reset Timer Control (0b10=Reset, 0b01=Enable) LPC_TIM3->TCR = 0b10; // reset
LPC_TIM3->TCR = 0b01; // enable Timer Control (0b10=Reset, 0b01=Enable) LPC_TIM3->TCR = 0b01; // enable
} }

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@ -25,38 +25,37 @@ static constexpr unsigned flash_addr = 0xF000; // Last 4k sec
static constexpr unsigned flash_size = 1024; // Only using 1k of a 4k sector static constexpr unsigned flash_size = 1024; // Only using 1k of a 4k sector
static char *flash_memory = (char *)flash_addr; // Flash memory static char *flash_memory = (char *)flash_addr; // Flash memory
static char flash_buffer[flash_size] __attribute__((aligned(4))); // Copy of flash memory static char flash_buffer[flash_size] __attribute__((aligned(4))); // Copy of flash memory
using Iap = void(unsigned[], unsigned[]); // IAP entry point function using Iap = void(unsigned[], unsigned[]); // IAP entry point
static const Iap *iap = (Iap *)0x1FFF1FF1; // IAP entry point address static const Iap *iap = (Iap *)0x1FFF1FF1; // IAP entry point
void eeprom_init() void eeprom_init()
{ {
memcpy(flash_buffer, flash_memory, flash_size); // Copy flash memory into local flash buffer memcpy(flash_buffer, flash_memory, flash_size);
} }
void eeprom_commit() void eeprom_commit()
{ {
if (!memcmp(flash_buffer, flash_memory, flash_size)) if (!memcmp(flash_buffer, flash_memory, flash_size))
return; // No changes to commit return;
unsigned prepCommand[5] = { unsigned prepCommand[5] = {
50, // Prepare sector(s) for write operation 50,
flash_sector, // Start sector flash_sector,
flash_sector, // End sector flash_sector,
}; };
unsigned eraseCommand[5] = { unsigned eraseCommand[5] = {
52, // Erase sector(s) 52,
flash_sector, // Start sector flash_sector,
flash_sector, // End sector flash_sector,
SystemCoreClock / 1000, // CPU clock frequency in kHz SystemCoreClock / 1000,
}; };
unsigned writeCommand[5] = { unsigned writeCommand[5] = {
51, // Copy RAM to Flash 51,
flash_addr, // Destination flash address (256-byte boundary) flash_addr,
(unsigned)flash_buffer, // Source RAM address (word boundary) (unsigned)flash_buffer,
flash_size, // Number of bytes to write (must be: 256, 512, 1024, 4096) flash_size,
SystemCoreClock / 1000, // CPU clock frequency in kHz SystemCoreClock / 1000,
}; };
unsigned output[5]; unsigned output[5];
// Run In-Application Programming (IAP) routines
iap(prepCommand, output); iap(prepCommand, output);
iap(eraseCommand, output); iap(eraseCommand, output);
iap(prepCommand, output); iap(prepCommand, output);

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@ -33,20 +33,15 @@
// Define board type for pin map and default settings. // Define board type for pin map and default settings.
//#define CPU_MAP_SMOOTHIEBOARD // Smoothieboard (NXP LPC1769 MCU) //#define CPU_MAP_SMOOTHIEBOARD // Smoothieboard (NXP LPC1769 MCU)
//#define CPU_MAP_C3D_REMIX // Cohesion3D Remix (NXP LPC1769 MCU) #define CPU_MAP_C3D_REMIX // Cohesion3D Remix (NXP LPC1769 MCU)
//#define CPU_MAP_C3D_MINI // Cohesion3D Mini (NXP LPC1769 MCU) //#define CPU_MAP_C3D_MINI // Cohesion3D Mini (NXP LPC1769 MCU)
#define CPU_MAP_MKS_SBASE // MKS SBASE Board (NXP LPC1768 MCU) //#define CPU_MAP_MKS_SBASE // MKS SBASE Board (NXP LPC1768 MCU)
//#define CPU_MAP_AZTEEG_X5 // Azteeg X5 Board (NXP LPC1769 MCU) //#define CPU_MAP_AZTEEG_X5 // Azteeg X5 Board (NXP LPC1769 MCU)
// Force other Spindle PWM Pin (default is P2.5)
//#define SPINDLE_PWM_PIN_1_23
//#define SPINDLE_PWM_PIN_2_4
// Define machine type for machine specific defaults // Define machine type for machine specific defaults
//#define DEFAULTS_GENERIC //#define DEFAULTS_GENERIC
#define DEFAULTS_K40 #define DEFAULTS_K40
//#define DEFAULTS_FABKIT //#define DEFAULTS_FABKIT
//#define DEFAULTS_JONAS
// Serial baud rate // Serial baud rate
// #define BAUD_RATE 230400 // #define BAUD_RATE 230400
@ -113,19 +108,19 @@
// on separate pin, but homed in one cycle. Also, it should be noted that the function of hard limits // on separate pin, but homed in one cycle. Also, it should be noted that the function of hard limits
// will not be affected by pin sharing. // will not be affected by pin sharing.
// NOTE: Defaults are set for a traditional 3-axis CNC machine. Z-axis first to clear, followed by X & Y. // NOTE: Defaults are set for a traditional 3-axis CNC machine. Z-axis first to clear, followed by X & Y.
// NOTE: Homing cycle pattern is defined in Machine defaults!!! //#define HOMING_CYCLE_0 (1<<Z_AXIS) // REQUIRED: First move Z to clear workspace.
// #define HOMING_CYCLE_0 (1<<Z_AXIS) // REQUIRED: First move Z to clear workspace. //#define HOMING_CYCLE_1 ((1<<X_AXIS)|(1<<Y_AXIS)) // OPTIONAL: Then move X,Y at the same time.
// #define HOMING_CYCLE_1 ((1<<X_AXIS)|(1<<Y_AXIS)) // OPTIONAL: Then move X,Y at the same time.
// #define HOMING_CYCLE_2 // OPTIONAL: Uncomment and add axes mask to enable // #define HOMING_CYCLE_2 // OPTIONAL: Uncomment and add axes mask to enable
// NOTE: The following are two examples to setup homing for 2-axis machines. // NOTE: The following are two examples to setup homing for 2-axis machines.
// #define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS)) // NOT COMPATIBLE WITH COREXY: Homes both X-Y in one cycle. //#define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS)) // NOT COMPATIBLE WITH COREXY: Homes both X-Y in one cycle.
// #define HOMING_CYCLE_0 (1<<X_AXIS) // COREXY COMPATIBLE: First home X // #define HOMING_CYCLE_0 (1<<X_AXIS) // COREXY COMPATIBLE: First home X
// #define HOMING_CYCLE_1 (1<<Y_AXIS) // COREXY COMPATIBLE: Then home Y // #define HOMING_CYCLE_1 (1<<Y_AXIS) // COREXY COMPATIBLE: Then home Y
// Homing cycle pattern is defined in Machine defaults!!!
// Number of homing cycles performed after when the machine initially jogs to limit switches. // Number of homing cycles performed after when the machine initially jogs to limit switches.
// This helps in preventing overshoot and should improve repeatability. This value should be one or // This help in preventing overshoot and should improve repeatability. This value should be one or
// greater. // greater.
#define N_HOMING_LOCATE_CYCLE 1 // Integer (1-128) #define N_HOMING_LOCATE_CYCLE 1 // Integer (1-128)
@ -141,7 +136,7 @@
// #define HOMING_FORCE_SET_ORIGIN // Uncomment to enable. // #define HOMING_FORCE_SET_ORIGIN // Uncomment to enable.
// Uncomment this define to force Grbl to always set the machine origin at bottom left. // Uncomment this define to force Grbl to always set the machine origin at bottom left.
#define HOMING_FORCE_POSITIVE_SPACE // Uncomment to enable. //#define HOMING_FORCE_POSITIVE_SPACE // Uncomment to enable.
// Number of blocks Grbl executes upon startup. These blocks are stored in EEPROM, where the size // Number of blocks Grbl executes upon startup. These blocks are stored in EEPROM, where the size
// and addresses are defined in settings.h. With the current settings, up to 2 startup blocks may // and addresses are defined in settings.h. With the current settings, up to 2 startup blocks may
@ -187,7 +182,7 @@
// immediately forces a feed hold and then safely de-energizes the machine. Resuming is blocked until // immediately forces a feed hold and then safely de-energizes the machine. Resuming is blocked until
// the safety door is re-engaged. When it is, Grbl will re-energize the machine and then resume on the // the safety door is re-engaged. When it is, Grbl will re-energize the machine and then resume on the
// previous tool path, as if nothing happened. // previous tool path, as if nothing happened.
//#define ENABLE_SAFETY_DOOR_INPUT_PIN // Default disabled. Uncomment to enable. // #define ENABLE_SAFETY_DOOR_INPUT_PIN // Default disabled. Uncomment to enable.
// After the safety door switch has been toggled and restored, this setting sets the power-up delay // After the safety door switch has been toggled and restored, this setting sets the power-up delay
// between restoring the spindle and coolant and resuming the cycle. // between restoring the spindle and coolant and resuming the cycle.
@ -201,7 +196,7 @@
// defined at (http://corexy.com/theory.html). Motors are assumed to positioned and wired exactly as // defined at (http://corexy.com/theory.html). Motors are assumed to positioned and wired exactly as
// described, if not, motions may move in strange directions. Grbl requires the CoreXY A and B motors // described, if not, motions may move in strange directions. Grbl requires the CoreXY A and B motors
// have the same steps per mm internally. // have the same steps per mm internally.
#define COREXY // Default disabled. Uncomment to enable. // #define COREXY // Default disabled. Uncomment to enable.
// Inverts pin logic of the control command pins based on a mask. This essentially means you can use // Inverts pin logic of the control command pins based on a mask. This essentially means you can use
// normally-closed switches on the specified pins, rather than the default normally-open switches. // normally-closed switches on the specified pins, rather than the default normally-open switches.
@ -223,7 +218,7 @@
// NOTE: If VARIABLE_SPINDLE is enabled(default), this option has no effect as the PWM output and // NOTE: If VARIABLE_SPINDLE is enabled(default), this option has no effect as the PWM output and
// spindle enable are combined to one pin. If you need both this option and spindle speed PWM, // spindle enable are combined to one pin. If you need both this option and spindle speed PWM,
// uncomment the config option USE_SPINDLE_DIR_AS_ENABLE_PIN below. // uncomment the config option USE_SPINDLE_DIR_AS_ENABLE_PIN below.
#define INVERT_SPINDLE_ENABLE_PIN // Default disabled. Uncomment to enable. // not ported #define INVERT_SPINDLE_ENABLE_PIN // Default disabled. Uncomment to enable.
// Inverts the selected coolant pin from low-disabled/high-enabled to low-enabled/high-disabled. Useful // Inverts the selected coolant pin from low-disabled/high-enabled to low-enabled/high-disabled. Useful
// for some pre-built electronic boards. // for some pre-built electronic boards.
@ -386,13 +381,13 @@
// By default on a 328p(Uno), Grbl combines the variable spindle PWM and the enable into one pin to help // By default on a 328p(Uno), Grbl combines the variable spindle PWM and the enable into one pin to help
// preserve I/O pins. For certain setups, these may need to be separate pins. This configure option uses // preserve I/O pins. For certain setups, these may need to be separate pins. This configure option uses
// the spindle direction pin (defined in cpu-map.h) as a separate spindle enable pin along with spindle speed PWM pin. // the spindle direction pin(D13) as a separate spindle enable pin along with spindle speed PWM on pin D11.
// NOTE: This configure option only works with VARIABLE_SPINDLE enabled. // NOTE: This configure option only works with VARIABLE_SPINDLE enabled and a 328p processor (Uno).
// NOTE: Without a direction pin, M4 will not have a pin output to indicate a difference with M3. // NOTE: Without a direction pin, M4 will not have a pin output to indicate a difference with M3.
// NOTE: BEWARE! The Arduino bootloader toggles the D13 pin when it powers up. If you flash Grbl with // NOTE: BEWARE! The Arduino bootloader toggles the D13 pin when it powers up. If you flash Grbl with
// a programmer (you can use a spare Arduino as "Arduino as ISP". Search the web on how to wire this.), // a programmer (you can use a spare Arduino as "Arduino as ISP". Search the web on how to wire this.),
// this D13 LED toggling should go away. We haven't tested this though. Please report how it goes! // this D13 LED toggling should go away. We haven't tested this though. Please report how it goes!
#define USE_SPINDLE_DIR_AS_ENABLE_PIN // Default disabled. Uncomment to enable. // not ported #define USE_SPINDLE_DIR_AS_ENABLE_PIN // Default disabled. Uncomment to enable.
// Alters the behavior of the spindle enable pin with the USE_SPINDLE_DIR_AS_ENABLE_PIN option . By default, // Alters the behavior of the spindle enable pin with the USE_SPINDLE_DIR_AS_ENABLE_PIN option . By default,
// Grbl will not disable the enable pin if spindle speed is zero and M3/4 is active, but still sets the PWM // Grbl will not disable the enable pin if spindle speed is zero and M3/4 is active, but still sets the PWM

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@ -64,7 +64,6 @@ void coolant_stop()
#else #else
COOLANT_FLOOD_PORT &= ~(1 << COOLANT_FLOOD_BIT); COOLANT_FLOOD_PORT &= ~(1 << COOLANT_FLOOD_BIT);
#endif #endif
delay_ms(1); // workaround for toolchain error
#ifdef ENABLE_M7 #ifdef ENABLE_M7
#ifdef INVERT_COOLANT_MIST_PIN #ifdef INVERT_COOLANT_MIST_PIN
COOLANT_MIST_PORT |= (1 << COOLANT_MIST_BIT); COOLANT_MIST_PORT |= (1 << COOLANT_MIST_BIT);
@ -96,7 +95,6 @@ void coolant_set_state(uint8_t mode)
COOLANT_FLOOD_PORT |= (1 << COOLANT_FLOOD_BIT); COOLANT_FLOOD_PORT |= (1 << COOLANT_FLOOD_BIT);
#endif #endif
} }
delay_ms(1); // workaround for toolchain error
#ifdef ENABLE_M7 #ifdef ENABLE_M7
if (mode & COOLANT_MIST_ENABLE) { if (mode & COOLANT_MIST_ENABLE) {

View File

@ -147,7 +147,7 @@
#define SPINDLE_PWM_PORT PORTB #define SPINDLE_PWM_PORT PORTB
#define SPINDLE_PWM_BIT 3 // Uno Digital Pin 11 #define SPINDLE_PWM_BIT 3 // Uno Digital Pin 11
#endif // end of CPU_MAP_ATMEGA328P #endif
#ifdef CPU_MAP_SMOOTHIEBOARD // (Smoothieboards) #ifdef CPU_MAP_SMOOTHIEBOARD // (Smoothieboards)
@ -191,39 +191,26 @@
#define X_LIMIT_BIT 24 // X-MIN=24, X-MAX=25 #define X_LIMIT_BIT 24 // X-MIN=24, X-MAX=25
#define Y_LIMIT_BIT 26 // Y-MIN=26, Y-MAX=27 #define Y_LIMIT_BIT 26 // Y-MIN=26, Y-MAX=27
#define Z_LIMIT_BIT 28 // Z-MIN=28, Z-MAX=29 #define Z_LIMIT_BIT 28 // Z-MIN=28, Z-MAX=29
#define A_LIMIT_BIT 29 // reuse Z-MAX (P1.29) #define A_LIMIT_BIT 29 // reuse p1.29
#define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits #define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits
// Define spindle enable and spindle direction output pins.
#define SPINDLE_ENABLE_DDR LPC_GPIO1->FIODIR
#define SPINDLE_ENABLE_PORT LPC_GPIO1->FIOPIN
#define SPINDLE_ENABLE_BIT 30 // P1.30
#define SPINDLE_DIRECTION_DDR LPC_GPIO1->FIODIR
#define SPINDLE_DIRECTION_PORT LPC_GPIO1->FIOPIN
#define SPINDLE_DIRECTION_BIT 31 // P1.31
// Define flood and mist coolant enable output pins. // Define flood and mist coolant enable output pins.
#define COOLANT_FLOOD_DDR LPC_GPIO2->FIODIR #define COOLANT_FLOOD_DDR NotUsed
#define COOLANT_FLOOD_PORT LPC_GPIO2->FIOPIN #define COOLANT_FLOOD_PORT NotUsed
#ifndef SPINDLE_PWM_PIN_2_4 #define COOLANT_FLOOD_BIT 6 // MOSFET 2.6
#define COOLANT_FLOOD_BIT 4 // SMALL MOSFET Q8 (P2.4) #define COOLANT_MIST_DDR NotUsed
#else #define COOLANT_MIST_PORT NotUsed
#define COOLANT_FLOOD_BIT 5 // SMALL MOSFET Q8 (P2.5) #define COOLANT_MIST_BIT 7 // MOSFET 2.7
#endif
#define COOLANT_MIST_DDR LPC_GPIO2->FIODIR
#define COOLANT_MIST_PORT LPC_GPIO2->FIOPIN
#define COOLANT_MIST_BIT 6 // SMALL MOSFET Q9 (P2.6)
#define ENABLE_M7 // enables COOLANT MIST
// Define user-control controls (cycle start, reset, feed hold) input pins. // Define user-control controls (cycle start, reset, feed hold) input pins.
// NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits). // NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits).
#define CONTROL_DDR LPC_GPIO1->FIODIR #define CONTROL_DDR NotUsed
#define CONTROL_PIN LPC_GPIO1->FIOPIN #define CONTROL_PIN NotUsed
#define CONTROL_PORT LPC_GPIO1->FIOPIN #define CONTROL_PORT NotUsed
#define CONTROL_RESET_BIT NotUsed // Not needed as there is a special RESET pin on the Smoothiebaord #define CONTROL_RESET_BIT 0 // Uno Analog Pin 0
#define CONTROL_FEED_HOLD_BIT 22 // P1.22 #define CONTROL_FEED_HOLD_BIT 1 // Uno Analog Pin 1
#define CONTROL_CYCLE_START_BIT 23 // P1.23 #define CONTROL_CYCLE_START_BIT 2 // Uno Analog Pin 2
#define CONTROL_SAFETY_DOOR_BIT 22 // P1.22 NOTE: Safety door is shared with feed hold. Enabled by config define. #define CONTROL_SAFETY_DOOR_BIT 1 // Uno Analog Pin 1 NOTE: Safety door is shared with feed hold. Enabled by config define.
#define CONTROL_INT PCIE1 // Pin change interrupt enable pin #define CONTROL_INT PCIE1 // Pin change interrupt enable pin
#define CONTROL_INT_vect PCINT1_vect #define CONTROL_INT_vect PCINT1_vect
#define CONTROL_PCMSK NotUsed // Pin change interrupt register #define CONTROL_PCMSK NotUsed // Pin change interrupt register
@ -231,10 +218,10 @@
#define CONTROL_INVERT_MASK CONTROL_MASK // May be re-defined to only invert certain control pins. #define CONTROL_INVERT_MASK CONTROL_MASK // May be re-defined to only invert certain control pins.
// Define probe switch input pin. // Define probe switch input pin.
#define PROBE_DDR LPC_GPIO2->FIODIR #define PROBE_DDR NotUsed
#define PROBE_PIN LPC_GPIO2->FIOPIN #define PROBE_PIN NotUsed
#define PROBE_PORT LPC_GPIO2->FIOPIN #define PROBE_PORT NotUsed
#define PROBE_BIT 11 // P2.11 #define PROBE_BIT 5 // Uno Analog Pin 5
#define PROBE_MASK (1<<PROBE_BIT) #define PROBE_MASK (1<<PROBE_BIT)
// The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value. // The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value.
@ -242,11 +229,7 @@
// PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 // PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6
// Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 // Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26
// Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 // Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5
#ifdef SPINDLE_PWM_PIN_2_4 #define SPINDLE_PWM_CHANNEL PWM1_CH6
#define SPINDLE_PWM_CHANNEL PWM1_CH5 // MOSFET3 (P2.4)
#else
#define SPINDLE_PWM_CHANNEL PWM1_CH6 // BED MOSFET (P2.5)
#endif
#define SPINDLE_PWM_USE_PRIMARY_PIN false #define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true #define SPINDLE_PWM_USE_SECONDARY_PIN true
@ -268,7 +251,7 @@
#define SPINDLE_TCCRB_REGISTER TCCR2B #define SPINDLE_TCCRB_REGISTER TCCR2B
#define SPINDLE_OCR_REGISTER OCR2A #define SPINDLE_OCR_REGISTER OCR2A
#define SPINDLE_COMB_BIT COM2A1 #define SPINDLE_COMB_BIT COM2A1
#endif // end of CPU_MAP_SMOOTHIEBOARD #endif
#ifdef CPU_MAP_C3D_REMIX // (Cohesion3D Remix Boards) #ifdef CPU_MAP_C3D_REMIX // (Cohesion3D Remix Boards)
@ -351,11 +334,7 @@
// PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 // PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6
// Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 // Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26
// Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 // Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5
#ifdef SPINDLE_PWM_PIN_2_4 #define SPINDLE_PWM_CHANNEL PWM1_CH6
#define SPINDLE_PWM_CHANNEL PWM1_CH5 // MOSFET3 (P2.4)
#else
#define SPINDLE_PWM_CHANNEL PWM1_CH6 // BED MOSFET (P2.5)
#endif
#define SPINDLE_PWM_USE_PRIMARY_PIN false #define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true #define SPINDLE_PWM_USE_SECONDARY_PIN true
@ -371,7 +350,7 @@
#define SPINDLE_TCCRB_REGISTER TCCR2B #define SPINDLE_TCCRB_REGISTER TCCR2B
#define SPINDLE_OCR_REGISTER OCR2A #define SPINDLE_OCR_REGISTER OCR2A
#define SPINDLE_COMB_BIT COM2A1 #define SPINDLE_COMB_BIT COM2A1
#endif // end of CPU_MAP_C3D_REMIX #endif
#ifdef CPU_MAP_C3D_MINI // (Cohesion3D Mini Boards) #ifdef CPU_MAP_C3D_MINI // (Cohesion3D Mini Boards)
@ -421,11 +400,10 @@
// Define flood and mist coolant enable output pins. // Define flood and mist coolant enable output pins.
#define COOLANT_FLOOD_DDR NotUsed #define COOLANT_FLOOD_DDR NotUsed
#define COOLANT_FLOOD_PORT NotUsed #define COOLANT_FLOOD_PORT NotUsed
#define COOLANT_FLOOD_BIT 6 // MOSFET 3 (P2.6) #define COOLANT_FLOOD_BIT 3 // Uno Analog Pin 3
#define COOLANT_MIST_DDR LPC_GPIO2->FIODIR #define COOLANT_MIST_DDR NotUsed
#define COOLANT_MIST_PORT LPC_GPIO2->FIOPIN #define COOLANT_MIST_PORT NotUsed
#define COOLANT_MIST_BIT 7 // MOSFET 2 (P2.7) #define COOLANT_MIST_BIT 4 // Uno Analog Pin 3
#define ENABLE_M7 // enables COOLANT MIST
// Define user-control controls (cycle start, reset, feed hold) input pins. // Define user-control controls (cycle start, reset, feed hold) input pins.
// NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits). // NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits).
@ -454,11 +432,7 @@
// PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 // PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6
// Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 // Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26
// Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 // Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5
#ifdef SPINDLE_PWM_PIN_2_4 #define SPINDLE_PWM_CHANNEL PWM1_CH6
#define SPINDLE_PWM_CHANNEL PWM1_CH5 // MOSFET3 (P2.4)
#else
#define SPINDLE_PWM_CHANNEL PWM1_CH6 // BED MOSFET (P2.5)
#endif
#define SPINDLE_PWM_USE_PRIMARY_PIN false #define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true #define SPINDLE_PWM_USE_SECONDARY_PIN true
@ -474,7 +448,7 @@
#define SPINDLE_TCCRB_REGISTER TCCR2B #define SPINDLE_TCCRB_REGISTER TCCR2B
#define SPINDLE_OCR_REGISTER OCR2A #define SPINDLE_OCR_REGISTER OCR2A
#define SPINDLE_COMB_BIT COM2A1 #define SPINDLE_COMB_BIT COM2A1
#endif // end of CPU_MAP_C3D_MINI #endif
#ifdef CPU_MAP_MKS_SBASE // (MKS SBASE Boards) #ifdef CPU_MAP_MKS_SBASE // (MKS SBASE Boards)
@ -521,32 +495,23 @@
#define A_LIMIT_BIT 29 // reuse p1.29 #define A_LIMIT_BIT 29 // reuse p1.29
#define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits #define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits
// Define spindle enable and spindle direction output pins.
#define SPINDLE_ENABLE_DDR LPC_GPIO1->FIODIR
#define SPINDLE_ENABLE_PORT LPC_GPIO1->FIOPIN
#define SPINDLE_ENABLE_BIT 30 // P1.30
#define SPINDLE_DIRECTION_DDR LPC_GPIO1->FIODIR
#define SPINDLE_DIRECTION_PORT LPC_GPIO1->FIOPIN
#define SPINDLE_DIRECTION_BIT 31 // P1.31
// Define flood and mist coolant enable output pins. // Define flood and mist coolant enable output pins.
#define COOLANT_FLOOD_DDR LPC_GPIO2->FIODIR #define COOLANT_FLOOD_DDR NotUsed
#define COOLANT_FLOOD_PORT LPC_GPIO2->FIOPIN #define COOLANT_FLOOD_PORT NotUsed
#define COOLANT_FLOOD_BIT 6 // MOSFET 2.6 #define COOLANT_FLOOD_BIT 3 // Uno Analog Pin 3
#define COOLANT_MIST_DDR LPC_GPIO2->FIODIR #define COOLANT_MIST_DDR NotUsed
#define COOLANT_MIST_PORT LPC_GPIO2->FIOPIN #define COOLANT_MIST_PORT NotUsed
#define COOLANT_MIST_BIT 7 // MOSFET 2.7 #define COOLANT_MIST_BIT 4 // Uno Analog Pin 3
#define ENABLE_M7 // enables COOLANT MIST
// Define user-control controls (cycle start, reset, feed hold) input pins. // Define user-control controls (cycle start, reset, feed hold) input pins.
// NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits). // NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits).
#define CONTROL_DDR LPC_GPIO1->FIODIR #define CONTROL_DDR NotUsed
#define CONTROL_PIN LPC_GPIO1->FIOPIN #define CONTROL_PIN NotUsed
#define CONTROL_PORT LPC_GPIO1->FIOPIN #define CONTROL_PORT NotUsed
#define CONTROL_RESET_BIT NotUsed // Not needed as there is a special RESET pin on the Smoothiebaord #define CONTROL_RESET_BIT 0 // Uno Analog Pin 0
#define CONTROL_FEED_HOLD_BIT 22 // P1.22 #define CONTROL_FEED_HOLD_BIT 1 // Uno Analog Pin 1
#define CONTROL_CYCLE_START_BIT 23 // P1.23 #define CONTROL_CYCLE_START_BIT 2 // Uno Analog Pin 2
#define CONTROL_SAFETY_DOOR_BIT 22 // P1.22 NOTE: Safety door is shared with feed hold. Enabled by config define. #define CONTROL_SAFETY_DOOR_BIT 1 // Uno Analog Pin 1 NOTE: Safety door is shared with feed hold. Enabled by config define.
#define CONTROL_INT PCIE1 // Pin change interrupt enable pin #define CONTROL_INT PCIE1 // Pin change interrupt enable pin
#define CONTROL_INT_vect PCINT1_vect #define CONTROL_INT_vect PCINT1_vect
#define CONTROL_PCMSK NotUsed // Pin change interrupt register #define CONTROL_PCMSK NotUsed // Pin change interrupt register
@ -554,10 +519,10 @@
#define CONTROL_INVERT_MASK CONTROL_MASK // May be re-defined to only invert certain control pins. #define CONTROL_INVERT_MASK CONTROL_MASK // May be re-defined to only invert certain control pins.
// Define probe switch input pin. // Define probe switch input pin.
#define PROBE_DDR LPC_GPIO2->FIODIR #define PROBE_DDR NotUsed
#define PROBE_PIN LPC_GPIO2->FIOPIN #define PROBE_PIN NotUsed
#define PROBE_PORT LPC_GPIO2->FIOPIN #define PROBE_PORT NotUsed
#define PROBE_BIT 11 // P2.11 #define PROBE_BIT 5 // Uno Analog Pin 5
#define PROBE_MASK (1<<PROBE_BIT) #define PROBE_MASK (1<<PROBE_BIT)
// The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value. // The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value.
@ -565,19 +530,9 @@
// PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 // PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6
// Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 // Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26
// Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 // Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5
#define SPINDLE_PWM_CHANNEL PWM1_CH6 // BED MOSFET (P2.5) #define SPINDLE_PWM_CHANNEL PWM1_CH6
#define SPINDLE_PWM_USE_PRIMARY_PIN false #define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true #define SPINDLE_PWM_USE_SECONDARY_PIN true
#ifdef SPINDLE_PWM_PIN_1_23
#define SPINDLE_PWM_CHANNEL PWM1_CH4 // MOSFET3 (P1.23)
#define SPINDLE_PWM_USE_PRIMARY_PIN true
#define SPINDLE_PWM_USE_SECONDARY_PIN false
#endif
#ifdef SPINDLE_PWM_PIN_2_4
#define SPINDLE_PWM_CHANNEL PWM1_CH5 // MOSFET3 (P1.23)
#define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true
#endif
// Stepper current control // Stepper current control
#define CURRENT_I2C Driver_I2C1 // I2C driver for current control. Comment out to disable (for C3d boards!) #define CURRENT_I2C Driver_I2C1 // I2C driver for current control. Comment out to disable (for C3d boards!)
@ -597,7 +552,7 @@
#define SPINDLE_TCCRB_REGISTER TCCR2B #define SPINDLE_TCCRB_REGISTER TCCR2B
#define SPINDLE_OCR_REGISTER OCR2A #define SPINDLE_OCR_REGISTER OCR2A
#define SPINDLE_COMB_BIT COM2A1 #define SPINDLE_COMB_BIT COM2A1
#endif // end of CPU_MAP_MKS_SBASE #endif
#ifdef CPU_MAP_AZTEEG_X5 // (Azteeg X5 Boards) not tested yet! #ifdef CPU_MAP_AZTEEG_X5 // (Azteeg X5 Boards) not tested yet!
@ -645,13 +600,12 @@
#define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits #define LIMIT_MASK ((1<<X_LIMIT_BIT)|(1<<Y_LIMIT_BIT)|(1<<Z_LIMIT_BIT)|(1<<A_LIMIT_BIT)) // All limit bits
// Define flood and mist coolant enable output pins. // Define flood and mist coolant enable output pins.
#define COOLANT_FLOOD_DDR LPC_GPIO2->FIODIR #define COOLANT_FLOOD_DDR NotUsed
#define COOLANT_FLOOD_PORT LPC_GPIO2->FIOPIN #define COOLANT_FLOOD_PORT NotUsed
#define COOLANT_FLOOD_BIT 4 // FAN MOSFET (P2.4) #define COOLANT_FLOOD_BIT 3 // Uno Analog Pin 3
#define COOLANT_MIST_DDR LPC_GPIO2->FIODIR #define COOLANT_MIST_DDR NotUsed
#define COOLANT_MIST_PORT LPC_GPIO2->FIOPIN #define COOLANT_MIST_PORT NotUsed
#define COOLANT_MIST_BIT 7 // BED MOSFET (P2.7) #define COOLANT_MIST_BIT 4 // Uno Analog Pin 3
#define ENABLE_M7 // enables COOLANT MIST
// Define user-control controls (cycle start, reset, feed hold) input pins. // Define user-control controls (cycle start, reset, feed hold) input pins.
// NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits). // NOTE: All CONTROLs pins must be on the same port and not on a port with other input pins (limits).
@ -677,14 +631,10 @@
// The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value. // The LPC17xx has 6 PWM channels. Each channel has 2 pins. It can drive both pins simultaneously to the same value.
// //
// PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 // PWM Channel PWM1_CH1 PWM1_CH2 PWM1_CH3 PWM1_CH4 PWM1_CH5 PWM1_CH6 PWM1_CH7 PWM1_CH8
// Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 // Primary pin P1.18 P1.20 P1.21 P1.23 P1.24 P1.26 ? ?
// Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 // Secondary pin P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 P2.6 P2.7
#ifdef SPINDLE_PWM_PIN_2_4 #define SPINDLE_PWM_CHANNEL PWM1_CH8
#define SPINDLE_PWM_CHANNEL PWM1_CH5 // MOSFET3 (P2.4)
#else
#define SPINDLE_PWM_CHANNEL PWM1_CH6 // BED MOSFET (P2.5)
#endif
#define SPINDLE_PWM_USE_PRIMARY_PIN false #define SPINDLE_PWM_USE_PRIMARY_PIN false
#define SPINDLE_PWM_USE_SECONDARY_PIN true #define SPINDLE_PWM_USE_SECONDARY_PIN true
@ -702,7 +652,7 @@
#define SPINDLE_TCCRB_REGISTER TCCR2B #define SPINDLE_TCCRB_REGISTER TCCR2B
#define SPINDLE_OCR_REGISTER OCR2A #define SPINDLE_OCR_REGISTER OCR2A
#define SPINDLE_COMB_BIT COM2A1 #define SPINDLE_COMB_BIT COM2A1
#endif // end of CPU_MAP_AZTEEG_X5 #endif
/* /*

View File

@ -29,57 +29,54 @@
#ifdef DEFAULTS_GENERIC #ifdef DEFAULTS_GENERIC
// Grbl generic default settings. Should work across different machines. // Grbl generic default settings. Should work across different machines.
// See https://github.com/gnea/grbl/wiki/Grbl-v1.1-Configuration for setting descriptions. #define DEFAULT_X_STEPS_PER_MM 250.0
#define DEFAULT_X_STEPS_PER_MM 160.0 // $100 steps (X steps per mm) #define DEFAULT_Y_STEPS_PER_MM 250.0
#define DEFAULT_Y_STEPS_PER_MM 160.0 // $101 steps (Y steps per mm) #define DEFAULT_Z_STEPS_PER_MM 250.0
#define DEFAULT_Z_STEPS_PER_MM 160.0 // $102 steps (Z steps per mm) #define DEFAULT_A_STEPS_PER_MM 160.0
#define DEFAULT_A_STEPS_PER_MM 160.0 // $103 steps (A steps per mm) #define DEFAULT_X_MAX_RATE 500.0 // mm/min
#define DEFAULT_X_MAX_RATE 30000.0 // $110 mm/min (X max speed) #define DEFAULT_Y_MAX_RATE 500.0 // mm/min
#define DEFAULT_Y_MAX_RATE 30000.0 // $111 mm/min (Y max speed) #define DEFAULT_Z_MAX_RATE 500.0 // mm/min
#define DEFAULT_Z_MAX_RATE 30000.0 // $112 mm/min (Z max speed) #define DEFAULT_A_MAX_RATE 500.0 // mm/min
#define DEFAULT_A_MAX_RATE 30000.0 // $113 mm/min (A max speed) #define DEFAULT_X_ACCELERATION (10.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
#define DEFAULT_X_ACCELERATION (10.0*60*60)// $120 mm/min^2 (X max acceleration) #define DEFAULT_Y_ACCELERATION (10.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
#define DEFAULT_Y_ACCELERATION (10.0*60*60)// $121 mm/min^2 (Y max acceleration) #define DEFAULT_Z_ACCELERATION (10.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
#define DEFAULT_Z_ACCELERATION (10.0*60*60)// $122 mm/min^2 (Z max acceleration) #define DEFAULT_A_ACCELERATION (10.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
#define DEFAULT_A_ACCELERATION (10.0*60*60)// $123 mm/min^2 (A max acceleration) #define DEFAULT_X_CURRENT 0.6 // amps
#define DEFAULT_X_MAX_TRAVEL 500.0 // $130 mm (X max travel; must be positive) #define DEFAULT_Y_CURRENT 0.6 // amps
#define DEFAULT_Y_MAX_TRAVEL 500.0 // $131 mm (Y max travel; must be positive) #define DEFAULT_Z_CURRENT 0.0 // amps
#define DEFAULT_Z_MAX_TRAVEL 500.0 // $132 mm (Z max travel; must be positive) #define DEFAULT_A_CURRENT 0.0 // amps
#define DEFAULT_A_MAX_TRAVEL 1.0 // $133 mm (A max travel; must be positive) #define DEFAULT_X_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
#define DEFAULT_X_CURRENT 0.7 // $140 amps (X stepper current [disabled]) #define DEFAULT_Y_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Y_CURRENT 0.7 // $141 amps (Y stepper current [disabled]) #define DEFAULT_Z_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Z_CURRENT 0.0 // $142 amps (Z stepper current [disabled]) #define DEFAULT_A_MAX_TRAVEL 1.0 // mm NOTE: Must be a positive value.
#define DEFAULT_A_CURRENT 0.0 // $143 amps (A stepper current [disabled]) #define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz
#define DEFAULT_SPINDLE_PWM_OFF_VALUE 0 // %
#define DEFAULT_STEP_PULSE_MICROSECONDS 10 // $0 usec (stepper pulse time) #define DEFAULT_SPINDLE_PWM_MIN_VALUE 1 // %
#define DEFAULT_STEPPER_IDLE_LOCK_TIME 25 // $1 msec (0-254, 255 keeps steppers enabled) #define DEFAULT_SPINDLE_PWM_MAX_VALUE 100 // %
#define DEFAULT_STEPPING_INVERT_MASK 0 // $2 ZYX (e.g., 0x5 inverts Z and X stepper pulses) #define DEFAULT_SPINDLE_RPM_MAX 1000.0 // rpm (S-value)
#define DEFAULT_DIRECTION_INVERT_MASK 0 // $3 ZYX (e.g., 0x2 inverts Y stepper direction) #define DEFAULT_SPINDLE_RPM_MIN 0.0 // rpm (S-value)
#define DEFAULT_INVERT_ST_ENABLE 0 // $4 bool (inverts stepper enable pin) #define DEFAULT_STEP_PULSE_MICROSECONDS 10
#define DEFAULT_INVERT_LIMIT_PINS 0 // $5 bool (inverts limit switches to trigger on high) #define DEFAULT_STEPPING_INVERT_MASK 0
#define DEFAULT_INVERT_PROBE_PIN 0 // $6 bool (inverts probe to trigger on high) #define DEFAULT_DIRECTION_INVERT_MASK 0
#define DEFAULT_STATUS_REPORT_MASK 0 // $10 bits (Reports: [0=WPos or 1=MPos] and [2=Buffer]) #define DEFAULT_STEPPER_IDLE_LOCK_TIME 25 // msec (0-254, 255 keeps steppers enabled)
#define DEFAULT_JUNCTION_DEVIATION 0.01 // $11 mm (determines machine speed through corners) #define DEFAULT_STATUS_REPORT_MASK 0 // WPos enabled
#define DEFAULT_ARC_TOLERANCE 0.002 // $12 mm (error tolerance on arcs/cicles) #define DEFAULT_JUNCTION_DEVIATION 0.01 // mm
#define DEFAULT_REPORT_INCHES 0 // $13 bool (sets position reporting to inches) #define DEFAULT_ARC_TOLERANCE 0.002 // mm
#define DEFAULT_SOFT_LIMIT_ENABLE 0 // $20 bool (prevents moves outside *_MAX_TRAVEL; requires $23=1) #define DEFAULT_REPORT_INCHES 0 // false
#define DEFAULT_HARD_LIMIT_ENABLE 0 // $21 bool ([ignored] stops moving when limit switches triggered) #define DEFAULT_INVERT_ST_ENABLE 0 // false
#define DEFAULT_HOMING_ENABLE 0 // $22 bool (enables homing on startup) #define DEFAULT_INVERT_LIMIT_PINS 0 // false
#define DEFAULT_HOMING_DIR_MASK 0 // $23 ZYX (e.g., 0x3 reverses XY homing to negative direction) #define DEFAULT_SOFT_LIMIT_ENABLE 0 // false
#define DEFAULT_HOMING_FEED_RATE 25.0 // $24 mm/min (homing precision location speed) #define DEFAULT_HARD_LIMIT_ENABLE 0 // false
#define DEFAULT_HOMING_SEEK_RATE 500.0 // $25 mm/min (homing search speed) #define DEFAULT_INVERT_PROBE_PIN 0 // false
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // $26 msec (homing switch debounce: 0-65k) #define DEFAULT_LASER_MODE 0 // false
#define DEFAULT_HOMING_PULLOFF 1.0 // $27 mm (retracts this far from homing switch) #define DEFAULT_HOMING_ENABLE 0 // false
#define DEFAULT_SPINDLE_RPM_MAX 1000.0 // $30 RPM (spindle speed for max 5V PWM output) #define DEFAULT_HOMING_DIR_MASK 0 // move positive dir
#define DEFAULT_SPINDLE_RPM_MIN 0.0 // $31 RPM (spindle speed for min 20mV PWM output) #define DEFAULT_HOMING_FEED_RATE 25.0 // mm/min
#define DEFAULT_LASER_MODE 0 // $32 bool (adjusts spindle power with speed for lasers) #define DEFAULT_HOMING_SEEK_RATE 500.0 // mm/min
#define DEFAULT_SPINDLE_PWM_FREQ 5000 // $33 Hz (PWM frequency for spindle) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_SPINDLE_PWM_OFF_VALUE 0 // $34 % (% of PWM when spindle is off) #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#define DEFAULT_SPINDLE_PWM_MIN_VALUE 1 // $35 % (% of PWM when spindle is at lowest setting)
#define DEFAULT_SPINDLE_PWM_MAX_VALUE 100 // $36 % (% of PWM when spindle is at highest setting)
// Up to 4 HOMING_CYCLE_x can be defined (0-3), specifying which axes are homed and in which order
#define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS)) #define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS))
#endif // end of DEFAULTS_GENERIC #endif
#ifdef DEFAULTS_K40 #ifdef DEFAULTS_K40
// Description: K40 Lasercutter (typical chinese 40W CO2 laser cutter/engraver) // Description: K40 Lasercutter (typical chinese 40W CO2 laser cutter/engraver)
@ -87,10 +84,10 @@
#define DEFAULT_Y_STEPS_PER_MM 160.0 #define DEFAULT_Y_STEPS_PER_MM 160.0
#define DEFAULT_Z_STEPS_PER_MM 160.0 #define DEFAULT_Z_STEPS_PER_MM 160.0
#define DEFAULT_A_STEPS_PER_MM 160.0 #define DEFAULT_A_STEPS_PER_MM 160.0
#define DEFAULT_X_MAX_RATE 30000.0 // mm/min #define DEFAULT_X_MAX_RATE 24000.0 // mm/min
#define DEFAULT_Y_MAX_RATE 30000.0 // mm/min #define DEFAULT_Y_MAX_RATE 24000.0 // mm/min
#define DEFAULT_Z_MAX_RATE 30000.0 // mm/min #define DEFAULT_Z_MAX_RATE 24000.0 // mm/min
#define DEFAULT_A_MAX_RATE 30000.0 // mm/min #define DEFAULT_A_MAX_RATE 24000.0 // mm/min
#define DEFAULT_X_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2 #define DEFAULT_X_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_Y_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2 #define DEFAULT_Y_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_Z_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2 #define DEFAULT_Z_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
@ -99,8 +96,8 @@
#define DEFAULT_Y_CURRENT 0.6 // amps #define DEFAULT_Y_CURRENT 0.6 // amps
#define DEFAULT_Z_CURRENT 0.0 // amps #define DEFAULT_Z_CURRENT 0.0 // amps
#define DEFAULT_A_CURRENT 0.0 // amps #define DEFAULT_A_CURRENT 0.0 // amps
#define DEFAULT_X_MAX_TRAVEL 500.0 // mm NOTE: Must be a positive value. #define DEFAULT_X_MAX_TRAVEL 300.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Y_MAX_TRAVEL 500.0 // mm NOTE: Must be a positive value. #define DEFAULT_Y_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Z_MAX_TRAVEL 50.0 // mm NOTE: Must be a positive value. #define DEFAULT_Z_MAX_TRAVEL 50.0 // mm NOTE: Must be a positive value.
#define DEFAULT_A_MAX_TRAVEL 100.0 // mm NOTE: Must be a positive value. #define DEFAULT_A_MAX_TRAVEL 100.0 // mm NOTE: Must be a positive value.
#define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz (2000 - 20000) #define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz (2000 - 20000)
@ -130,7 +127,7 @@
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 2.0 // mm #define DEFAULT_HOMING_PULLOFF 2.0 // mm
#define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS)) #define HOMING_CYCLE_0 ((1<<X_AXIS)|(1<<Y_AXIS))
#endif // end of DEFAULTS_K40 #endif
#ifdef DEFAULTS_FABKIT #ifdef DEFAULTS_FABKIT
// Paste default settings definitions here. // Paste default settings definitions here.
@ -182,7 +179,7 @@
#define DEFAULT_HOMING_PULLOFF 2.0 // mm #define DEFAULT_HOMING_PULLOFF 2.0 // mm
#define HOMING_CYCLE_0 (1<<Z_AXIS) #define HOMING_CYCLE_0 (1<<Z_AXIS)
#define HOMING_CYCLE_1 ((1<<X_AXIS)|(1<<Y_AXIS)) #define HOMING_CYCLE_1 ((1<<X_AXIS)|(1<<Y_AXIS))
#endif // end of DEFAULTS_FABKIT #endif
#ifdef DEFAULTS_SHERLINE_5400 #ifdef DEFAULTS_SHERLINE_5400
// Description: Sherline 5400 mill with three NEMA 23 Keling KL23H256-21-8B 185 oz-in stepper motors, // Description: Sherline 5400 mill with three NEMA 23 Keling KL23H256-21-8B 185 oz-in stepper motors,
@ -225,7 +222,7 @@
#define DEFAULT_HOMING_SEEK_RATE 635.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 635.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_SHERLINE_5400 #endif
#ifdef DEFAULTS_SHAPEOKO #ifdef DEFAULTS_SHAPEOKO
// Description: Shapeoko CNC mill with three NEMA 17 stepper motors, driven by Synthetos // Description: Shapeoko CNC mill with three NEMA 17 stepper motors, driven by Synthetos
@ -271,7 +268,7 @@
#define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_SHAPEOKO #endif
#ifdef DEFAULTS_SHAPEOKO_2 #ifdef DEFAULTS_SHAPEOKO_2
// Description: Shapeoko CNC mill with three NEMA 17 stepper motors, driven by Synthetos // Description: Shapeoko CNC mill with three NEMA 17 stepper motors, driven by Synthetos
@ -317,7 +314,7 @@
#define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_SHAPEOKO_2 #endif
#ifdef DEFAULTS_SHAPEOKO_3 #ifdef DEFAULTS_SHAPEOKO_3
// Description: Shapeoko CNC mill with three NEMA 23 stepper motors, driven by CarbideMotion // Description: Shapeoko CNC mill with three NEMA 23 stepper motors, driven by CarbideMotion
@ -362,7 +359,7 @@
#define DEFAULT_HOMING_SEEK_RATE 1000.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 1000.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 25 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 25 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 5.0 // mm #define DEFAULT_HOMING_PULLOFF 5.0 // mm
#endif // end of DEFAULTS_SHAPEOKO_3 #endif
#ifdef DEFAULTS_X_CARVE_500MM #ifdef DEFAULTS_X_CARVE_500MM
// Description: X-Carve 3D Carver CNC mill with three 200 step/rev motors driven by Synthetos // Description: X-Carve 3D Carver CNC mill with three 200 step/rev motors driven by Synthetos
@ -408,7 +405,7 @@
#define DEFAULT_HOMING_SEEK_RATE 750.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 750.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_X_CARVE_500MM #endif
#ifdef DEFAULTS_X_CARVE_1000MM #ifdef DEFAULTS_X_CARVE_1000MM
// Description: X-Carve 3D Carver CNC mill with three 200 step/rev motors driven by Synthetos // Description: X-Carve 3D Carver CNC mill with three 200 step/rev motors driven by Synthetos
@ -454,7 +451,7 @@
#define DEFAULT_HOMING_SEEK_RATE 750.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 750.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_X_CARVE_1000MM #endif
#ifdef DEFAULTS_ZEN_TOOLWORKS_7x7 #ifdef DEFAULTS_ZEN_TOOLWORKS_7x7
// Description: Zen Toolworks 7x7 mill with three Shinano SST43D2121 65oz-in NEMA 17 stepper motors. // Description: Zen Toolworks 7x7 mill with three Shinano SST43D2121 65oz-in NEMA 17 stepper motors.
@ -498,7 +495,7 @@
#define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 250.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_ZEN_TOOLWORKS_7x7 #endif
#ifdef DEFAULTS_OXCNC #ifdef DEFAULTS_OXCNC
// Grbl settings for OpenBuilds OX CNC Machine // Grbl settings for OpenBuilds OX CNC Machine
@ -538,7 +535,7 @@
#define DEFAULT_HOMING_SEEK_RATE 500.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 500.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_OXCNC #endif
#ifdef DEFAULTS_SIMULATOR #ifdef DEFAULTS_SIMULATOR
// Settings only for Grbl Simulator (www.github.com/grbl/grbl-sim) // Settings only for Grbl Simulator (www.github.com/grbl/grbl-sim)
@ -578,59 +575,6 @@
#define DEFAULT_HOMING_SEEK_RATE 500.0 // mm/min #define DEFAULT_HOMING_SEEK_RATE 500.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k) #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 1.0 // mm #define DEFAULT_HOMING_PULLOFF 1.0 // mm
#endif // end of DEFAULTS_SIMULATOR #endif
#ifdef DEFAULTS_JONAS
// Description: K40 Lasercutter (typical chinese 40W CO2 laser cutter/engraver)
#define DEFAULT_X_STEPS_PER_MM 160.0 // 200 stepps/rev. * 32 microstepps / 40mm/rev
#define DEFAULT_Y_STEPS_PER_MM 160.0
#define DEFAULT_Z_STEPS_PER_MM 160.0
#define DEFAULT_A_STEPS_PER_MM 160.0
#define DEFAULT_X_MAX_RATE 24000.0 // mm/min
#define DEFAULT_Y_MAX_RATE 24000.0 // mm/min
#define DEFAULT_Z_MAX_RATE 24000.0 // mm/min
#define DEFAULT_A_MAX_RATE 24000.0 // mm/min
#define DEFAULT_X_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_Y_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_Z_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_A_ACCELERATION (2500.0*60*60) // 2500*60*60 mm/min^2 = 2500 mm/sec^2
#define DEFAULT_X_CURRENT 0.6 // amps
#define DEFAULT_Y_CURRENT 0.6 // amps
#define DEFAULT_Z_CURRENT 0.0 // amps
#define DEFAULT_A_CURRENT 0.0 // amps
#define DEFAULT_X_MAX_TRAVEL 300.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Y_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
#define DEFAULT_Z_MAX_TRAVEL 50.0 // mm NOTE: Must be a positive value.
#define DEFAULT_A_MAX_TRAVEL 100.0 // mm NOTE: Must be a positive value.
#define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz (2000 - 20000)
#define DEFAULT_SPINDLE_PWM_OFF_VALUE 0 // %
#define DEFAULT_SPINDLE_PWM_MIN_VALUE 1 // %
#define DEFAULT_SPINDLE_PWM_MAX_VALUE 100 // %
#define DEFAULT_SPINDLE_RPM_MAX 1000.0 // rpm (S-value)
#define DEFAULT_SPINDLE_RPM_MIN 0.0 // rpm (S-value)
#define DEFAULT_STEP_PULSE_MICROSECONDS 10
#define DEFAULT_STEPPING_INVERT_MASK 0
#define DEFAULT_DIRECTION_INVERT_MASK 3 // 3 = invert X+Y
#define DEFAULT_STEPPER_IDLE_LOCK_TIME 255// msec (0-254, 255 keeps steppers enabled)
#define DEFAULT_STATUS_REPORT_MASK 0 // WPos enabled
#define DEFAULT_JUNCTION_DEVIATION 0.01 // mm
#define DEFAULT_ARC_TOLERANCE 0.002 // mm
#define DEFAULT_REPORT_INCHES 0 // false
#define DEFAULT_INVERT_ST_ENABLE 0 // false
#define DEFAULT_INVERT_LIMIT_PINS 1 // true for microswitches / false for optical sensors
#define DEFAULT_SOFT_LIMIT_ENABLE 1 // true
#define DEFAULT_HARD_LIMIT_ENABLE 0 // false
#define DEFAULT_INVERT_PROBE_PIN 0 // false
#define DEFAULT_LASER_MODE 1 // true
#define DEFAULT_HOMING_ENABLE 1 // true
#define DEFAULT_HOMING_DIR_MASK 1 // move top/left
#define DEFAULT_HOMING_FEED_RATE 50.0 // mm/min
#define DEFAULT_HOMING_SEEK_RATE 6000.0 // mm/min
#define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
#define DEFAULT_HOMING_PULLOFF 2.0 // mm
#define HOMING_CYCLE_0 (1<<Z_AXIS) // First home Z to clear workspace
#define HOMING_CYCLE_1 (1<<X_AXIS) // Then home X
#define HOMING_CYCLE_2 (1<<Y_AXIS) // Then home Y
#endif // end of DEFAULTS_JONAS
#endif #endif

View File

@ -199,7 +199,7 @@ typedef struct {
typedef struct { typedef struct {
float f; // Feed float f; // Feed
float ijk[N_AXIS]; // I,J,K Axis arc offsets float ijk[3]; // I,J,K Axis arc offsets
uint8_t l; // G10 or canned cycles parameters uint8_t l; // G10 or canned cycles parameters
int32_t n; // Line number int32_t n; // Line number
float p; // G10 or dwell parameters float p; // G10 or dwell parameters

View File

@ -23,7 +23,7 @@
// Grbl versioning system // Grbl versioning system
#define GRBL_VERSION "1.1f" #define GRBL_VERSION "1.1f"
#define GRBL_VERSION_BUILD "20171008" #define GRBL_VERSION_BUILD "20170511"
// Define standard libraries used by Grbl. // Define standard libraries used by Grbl.
#include <avr/io.h> #include <avr/io.h>
@ -75,11 +75,9 @@
#error "USE_SPINDLE_DIR_AS_ENABLE_PIN may only be used with VARIABLE_SPINDLE enabled" #error "USE_SPINDLE_DIR_AS_ENABLE_PIN may only be used with VARIABLE_SPINDLE enabled"
#endif #endif
/*
#if defined(USE_SPINDLE_DIR_AS_ENABLE_PIN) && !defined(CPU_MAP_ATMEGA328P) #if defined(USE_SPINDLE_DIR_AS_ENABLE_PIN) && !defined(CPU_MAP_ATMEGA328P)
#error "USE_SPINDLE_DIR_AS_ENABLE_PIN may only be used with a 328p processor" #error "USE_SPINDLE_DIR_AS_ENABLE_PIN may only be used with a 328p processor"
#endif #endif
*/
#if !defined(USE_SPINDLE_DIR_AS_ENABLE_PIN) && defined(SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED) #if !defined(USE_SPINDLE_DIR_AS_ENABLE_PIN) && defined(SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED)
#error "SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED may only be used with USE_SPINDLE_DIR_AS_ENABLE_PIN enabled" #error "SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED may only be used with USE_SPINDLE_DIR_AS_ENABLE_PIN enabled"

View File

@ -158,9 +158,9 @@ void limits_go_home(uint8_t cycle_mask)
// Initialize variables used for homing computations. // Initialize variables used for homing computations.
uint8_t n_cycle = (2*N_HOMING_LOCATE_CYCLE+1); uint8_t n_cycle = (2*N_HOMING_LOCATE_CYCLE+1);
uint32_t step_pin[N_AXIS]; // Tracks which pins correspond to which axes (reduces calls to get_step_pin_mask()) uint32_t step_pin[N_AXIS];
float target[N_AXIS]; float target[N_AXIS];
float max_travel = 0.0; // Maximum travel distance to move searching for limits float max_travel = 0.0;
uint8_t idx; uint8_t idx;
for (idx=0; idx<N_AXIS; idx++) { for (idx=0; idx<N_AXIS; idx++) {
// Initialize step pin masks // Initialize step pin masks
@ -183,12 +183,11 @@ void limits_go_home(uint8_t cycle_mask)
uint32_t limit_state, axislock, n_active_axis; uint32_t limit_state, axislock, n_active_axis;
do { do {
// convert current sys_position (steps) to target (mm) so unused axes remain in place
system_convert_array_steps_to_mpos(target,sys_position); system_convert_array_steps_to_mpos(target,sys_position);
// Initialize and declare variables needed for homing routine. // Initialize and declare variables needed for homing routine.
axislock = 0; // Track which pins still need to find limits. Lock these axes by clearing these bits. axislock = 0;
n_active_axis = 0; // Track number of axes being homed n_active_axis = 0;
for (idx=0; idx<N_AXIS; idx++) { for (idx=0; idx<N_AXIS; idx++) {
// Set target location for active axes and setup computation for homing rate. // Set target location for active axes and setup computation for homing rate.
if (bit_istrue(cycle_mask,bit(idx))) { if (bit_istrue(cycle_mask,bit(idx))) {
@ -216,7 +215,7 @@ void limits_go_home(uint8_t cycle_mask)
if (approach) { target[idx] = max_travel; } if (approach) { target[idx] = max_travel; }
else { target[idx] = -max_travel; } else { target[idx] = -max_travel; }
} }
// Apply axislock to the step port pins active in this cycle, allowing motion // Apply axislock to the step port pins active in this cycle.
axislock |= step_pin[idx]; axislock |= step_pin[idx];
} }
@ -238,7 +237,6 @@ void limits_go_home(uint8_t cycle_mask)
for (idx=0; idx<N_AXIS; idx++) { for (idx=0; idx<N_AXIS; idx++) {
if (axislock & step_pin[idx]) { if (axislock & step_pin[idx]) {
if (limit_state & (1 << idx)) { if (limit_state & (1 << idx)) {
// Clear the axislock bits to prevent axis from moving after limit is hit
#ifdef COREXY #ifdef COREXY
if (idx==Z_AXIS) { axislock &= ~(step_pin[Z_AXIS]); } if (idx==Z_AXIS) { axislock &= ~(step_pin[Z_AXIS]); }
else { axislock &= ~(step_pin[A_MOTOR]|step_pin[B_MOTOR]); } else { axislock &= ~(step_pin[A_MOTOR]|step_pin[B_MOTOR]); }
@ -299,7 +297,7 @@ void limits_go_home(uint8_t cycle_mask)
// can be on either side of an axes, check and set axes machine zero appropriately. Also, // can be on either side of an axes, check and set axes machine zero appropriately. Also,
// set up pull-off maneuver from axes limit switches that have been homed. This provides // set up pull-off maneuver from axes limit switches that have been homed. This provides
// some initial clearance off the switches and should also help prevent them from falsely // some initial clearance off the switches and should also help prevent them from falsely
// triggering when hard limits are enabled or when more than one axis shares a limit pin. // triggering when hard limits are enabled or when more than one axes shares a limit pin.
int32_t set_axis_position; int32_t set_axis_position;
// Set machine positions for homed limit switches. Don't update non-homed axes. // Set machine positions for homed limit switches. Don't update non-homed axes.
for (idx=0; idx<N_AXIS; idx++) { for (idx=0; idx<N_AXIS; idx++) {

View File

@ -42,13 +42,13 @@ int main(void)
{ {
// Initialize system upon power-up. // Initialize system upon power-up.
debug_init(); // Initialize debug leds debug_init(); // Initialize debug leds
isr_init(); // Set ISR priorities (stepper ISR uses Timer1) isr_init(); // Set ISR priorities
delay_init(); // Setup delay timer (uses Timer3) delay_init(); // Setup delay timer
serial_init(); // Setup serial baud rate and interrupts serial_init(); // Setup serial baud rate and interrupts
eeprom_init(); // Init EEPROM or Flash eeprom_init(); // Init EEPROM or FLASH
settings_init(); // Load Grbl settings from EEPROM settings_init(); // Load Grbl settings from EEPROM
current_init(); // Configure stepper driver current current_init(); // Configure stepper driver current
stepper_init(); // Configure stepper pins and interrupt timers (uses Timer1) stepper_init(); // Configure stepper pins and interrupt timers
system_init(); // Configure pinout pins and pin-change interrupt system_init(); // Configure pinout pins and pin-change interrupt
memset(sys_position,0,sizeof(sys_position)); // Clear machine position. memset(sys_position,0,sizeof(sys_position)); // Clear machine position.
@ -85,8 +85,8 @@ int main(void)
sys.r_override = DEFAULT_RAPID_OVERRIDE; // Set to 100% sys.r_override = DEFAULT_RAPID_OVERRIDE; // Set to 100%
sys.spindle_speed_ovr = DEFAULT_SPINDLE_SPEED_OVERRIDE; // Set to 100% sys.spindle_speed_ovr = DEFAULT_SPINDLE_SPEED_OVERRIDE; // Set to 100%
memset(sys_probe_position,0,sizeof(sys_probe_position)); // Clear probe position. memset(sys_probe_position,0,sizeof(sys_probe_position)); // Clear probe position.
sys_probe_state = 0; // PROBE_OFF sys_probe_state = 0;
sys_rt_exec_state = 0; // EXEC_STATUS_REPORT sys_rt_exec_state = 0;
sys_rt_exec_alarm = 0; sys_rt_exec_alarm = 0;
sys_rt_exec_motion_override = 0; sys_rt_exec_motion_override = 0;
sys_rt_exec_accessory_override = 0; sys_rt_exec_accessory_override = 0;
@ -94,16 +94,16 @@ int main(void)
// Reset Grbl primary systems. // Reset Grbl primary systems.
serial_reset_read_buffer(); // Clear serial read buffer serial_reset_read_buffer(); // Clear serial read buffer
gc_init(); // Set g-code parser to default state gc_init(); // Set g-code parser to default state
spindle_init(); // Configure spindle pins and PWM values spindle_init();
coolant_init(); // Configure coolant pins coolant_init();
limits_init(); // Configure limit input pins and interrupts limits_init();
probe_init(); // Configure probe input pin probe_init();
plan_reset(); // Clear block buffer and planner variables plan_reset(); // Clear block buffer and planner variables
st_reset(); // Clear stepper subsystem variables. st_reset(); // Clear stepper subsystem variables.
// Sync cleared gcode and planner positions to current system position. // Sync cleared gcode and planner positions to current system position.
plan_sync_position(); // Synchronize plan position with (actual) system position plan_sync_position();
gc_sync_position(); // Synchronize g-code position with (actual) system position gc_sync_position();
// Print welcome message. Indicates an initialization has occured at power-up or with a reset. // Print welcome message. Indicates an initialization has occured at power-up or with a reset.
report_init_message(); report_init_message();

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@ -50,13 +50,7 @@ void probe_configure_invert_mask(uint8_t is_probe_away)
// Returns the probe pin state. Triggered = true. Called by gcode parser and probe state monitor. // Returns the probe pin state. Triggered = true. Called by gcode parser and probe state monitor.
uint8_t probe_get_state() { uint8_t probe_get_state() { return((PROBE_PIN & PROBE_MASK) ^ probe_invert_mask); }
if ((PROBE_PIN & PROBE_MASK) ^ probe_invert_mask) {
return 1;
} else {
return 0;
}
}
// Monitors probe pin state and records the system position when detected. Called by the // Monitors probe pin state and records the system position when detected. Called by the

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@ -177,7 +177,7 @@ uint8_t settings_read_startup_line(uint8_t n, char *line)
if (!(memcpy_from_eeprom_with_checksum((char*)line, addr, LINE_BUFFER_SIZE))) { if (!(memcpy_from_eeprom_with_checksum((char*)line, addr, LINE_BUFFER_SIZE))) {
// Reset line with default value // Reset line with default value
line[0] = 0; // Empty line line[0] = 0; // Empty line
settings_store_startup_line(n, line); // Clear this startup line because it's corrupted settings_store_startup_line(n, line);
return(false); return(false);
} }
return(true); return(true);
@ -190,7 +190,7 @@ uint8_t settings_read_build_info(char *line)
if (!(memcpy_from_eeprom_with_checksum((char*)line, EEPROM_ADDR_BUILD_INFO, LINE_BUFFER_SIZE))) { if (!(memcpy_from_eeprom_with_checksum((char*)line, EEPROM_ADDR_BUILD_INFO, LINE_BUFFER_SIZE))) {
// Reset line with default value // Reset line with default value
line[0] = 0; // Empty line line[0] = 0; // Empty line
settings_store_build_info(line); // Clear out build info string because it's corrupted settings_store_build_info(line);
return(false); return(false);
} }
return(true); return(true);

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@ -26,7 +26,7 @@
// Version of the EEPROM data. Will be used to migrate existing data from older versions of Grbl // Version of the EEPROM data. Will be used to migrate existing data from older versions of Grbl
// when firmware is upgraded. Always stored in byte 0 of EEPROM. // when firmware is upgraded. Always stored in byte 0 of eeprom
#define SETTINGS_VERSION 11 // NOTE: Check settings_reset() when moving to next version. #define SETTINGS_VERSION 11 // NOTE: Check settings_reset() when moving to next version.
// Define bit flag masks for the boolean settings in settings.flag. // Define bit flag masks for the boolean settings in settings.flag.
@ -56,7 +56,6 @@
// NOTE: The Atmega328p has 1KB EEPROM. The upper half is reserved for parameters and // NOTE: The Atmega328p has 1KB EEPROM. The upper half is reserved for parameters and
// the startup script. The lower half contains the global settings and space for future // the startup script. The lower half contains the global settings and space for future
// developments. // developments.
// Note: Address 0 of EEPROM is reserved for SETTINGS_VERSION.
#define EEPROM_ADDR_GLOBAL 1U #define EEPROM_ADDR_GLOBAL 1U
#define EEPROM_ADDR_PARAMETERS 512U #define EEPROM_ADDR_PARAMETERS 512U
#define EEPROM_ADDR_STARTUP_BLOCK 768U #define EEPROM_ADDR_STARTUP_BLOCK 768U
@ -81,7 +80,7 @@ typedef struct {
float steps_per_mm[N_AXIS]; float steps_per_mm[N_AXIS];
float max_rate[N_AXIS]; float max_rate[N_AXIS];
float acceleration[N_AXIS]; float acceleration[N_AXIS];
float max_travel[N_AXIS]; // NOTE: Stored as a negative value float max_travel[N_AXIS];
float current[N_AXIS]; float current[N_AXIS];
// Remaining Grbl settings // Remaining Grbl settings

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@ -42,6 +42,7 @@ void spindle_init()
pwm_init(&SPINDLE_PWM_CHANNEL, SPINDLE_PWM_USE_PRIMARY_PIN, SPINDLE_PWM_USE_SECONDARY_PIN, spindle_pwm_period, 0); pwm_init(&SPINDLE_PWM_CHANNEL, SPINDLE_PWM_USE_PRIMARY_PIN, SPINDLE_PWM_USE_SECONDARY_PIN, spindle_pwm_period, 0);
pwm_enable(&SPINDLE_PWM_CHANNEL); pwm_enable(&SPINDLE_PWM_CHANNEL);
/* not ported
// Configure variable spindle PWM and enable pin, if requried. On the Uno, PWM and enable are // Configure variable spindle PWM and enable pin, if requried. On the Uno, PWM and enable are
// combined unless configured otherwise. // combined unless configured otherwise.
#ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN #ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN
@ -49,13 +50,16 @@ void spindle_init()
#else #else
SPINDLE_DIRECTION_DDR |= (1<<SPINDLE_DIRECTION_BIT); // Configure as output pin. SPINDLE_DIRECTION_DDR |= (1<<SPINDLE_DIRECTION_BIT); // Configure as output pin.
#endif #endif
*/
pwm_gradient = (spindle_pwm_max_value-spindle_pwm_min_value)/(settings.rpm_max-settings.rpm_min); pwm_gradient = (spindle_pwm_max_value-spindle_pwm_min_value)/(settings.rpm_max-settings.rpm_min);
#else #else
/* not ported
// Configure no variable spindle and only enable pin. // Configure no variable spindle and only enable pin.
SPINDLE_ENABLE_DDR |= (1<<SPINDLE_ENABLE_BIT); // Configure as output pin. SPINDLE_ENABLE_DDR |= (1<<SPINDLE_ENABLE_BIT); // Configure as output pin.
SPINDLE_DIRECTION_DDR |= (1<<SPINDLE_DIRECTION_BIT); // Configure as output pin. SPINDLE_DIRECTION_DDR |= (1<<SPINDLE_DIRECTION_BIT); // Configure as output pin.
*/
#endif #endif
spindle_stop(); spindle_stop();
@ -64,6 +68,7 @@ void spindle_init()
uint8_t spindle_get_state() uint8_t spindle_get_state()
{ {
/* not ported
#ifdef VARIABLE_SPINDLE #ifdef VARIABLE_SPINDLE
#ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN #ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN
// No spindle direction output pin. // No spindle direction output pin.
@ -88,6 +93,7 @@ uint8_t spindle_get_state()
else { return(SPINDLE_STATE_CW); } else { return(SPINDLE_STATE_CW); }
} }
#endif #endif
*/
return(SPINDLE_STATE_DISABLE); return(SPINDLE_STATE_DISABLE);
} }
@ -99,6 +105,7 @@ void spindle_stop()
{ {
#ifdef VARIABLE_SPINDLE #ifdef VARIABLE_SPINDLE
pwm_set_width(&SPINDLE_PWM_CHANNEL, 0); pwm_set_width(&SPINDLE_PWM_CHANNEL, 0);
/* not ported
#ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN #ifdef USE_SPINDLE_DIR_AS_ENABLE_PIN
#ifdef INVERT_SPINDLE_ENABLE_PIN #ifdef INVERT_SPINDLE_ENABLE_PIN
SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT); // Set pin to high SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT); // Set pin to high
@ -106,12 +113,15 @@ void spindle_stop()
SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT); // Set pin to low SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT); // Set pin to low
#endif #endif
#endif #endif
*/
#else #else
/* not ported
#ifdef INVERT_SPINDLE_ENABLE_PIN #ifdef INVERT_SPINDLE_ENABLE_PIN
SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT); // Set pin to high SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT); // Set pin to high
#else #else
SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT); // Set pin to low SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT); // Set pin to low
#endif #endif
*/
#endif #endif
} }
@ -173,11 +183,13 @@ void spindle_stop()
} else { } else {
#ifndef USE_SPINDLE_DIR_AS_ENABLE_PIN #ifndef USE_SPINDLE_DIR_AS_ENABLE_PIN
/* not ported
if (state == SPINDLE_ENABLE_CW) { if (state == SPINDLE_ENABLE_CW) {
SPINDLE_DIRECTION_PORT &= ~(1<<SPINDLE_DIRECTION_BIT); SPINDLE_DIRECTION_PORT &= ~(1<<SPINDLE_DIRECTION_BIT);
} else { } else {
SPINDLE_DIRECTION_PORT |= (1<<SPINDLE_DIRECTION_BIT); SPINDLE_DIRECTION_PORT |= (1<<SPINDLE_DIRECTION_BIT);
} }
*/
#endif #endif
#ifdef VARIABLE_SPINDLE #ifdef VARIABLE_SPINDLE
@ -191,11 +203,13 @@ void spindle_stop()
!defined(SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED)) || !defined(VARIABLE_SPINDLE) !defined(SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED)) || !defined(VARIABLE_SPINDLE)
// NOTE: Without variable spindle, the enable bit should just turn on or off, regardless // NOTE: Without variable spindle, the enable bit should just turn on or off, regardless
// if the spindle speed value is zero, as its ignored anyhow. // if the spindle speed value is zero, as its ignored anyhow.
/* not ported
#ifdef INVERT_SPINDLE_ENABLE_PIN #ifdef INVERT_SPINDLE_ENABLE_PIN
SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT); SPINDLE_ENABLE_PORT &= ~(1<<SPINDLE_ENABLE_BIT);
#else #else
SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT); SPINDLE_ENABLE_PORT |= (1<<SPINDLE_ENABLE_BIT);
#endif #endif
*/
#endif #endif
} }

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@ -235,9 +235,9 @@ void st_wake_up()
#endif #endif
// Enable Stepper Driver Interrupt Timer // Enable Stepper Driver Interrupt Timer
LPC_TIM1->TCR = 0b10; // reset Timer Control (0b10=Reset, 0b01=Enable) LPC_TIM1->TCR = 0b10; // reset
LPC_TIM1->MR0 = 4000; // Generate first interrupt soon (Match Register for TC) LPC_TIM1->MR0 = 4000; // Generate first interrupt soon
LPC_TIM1->TCR = 0b01; // enable Timer Control (0b10=Reset, 0b01=Enable) LPC_TIM1->TCR = 0b01; // enable
} }
@ -245,11 +245,11 @@ void st_wake_up()
void st_go_idle() void st_go_idle()
{ {
// Disable Stepper Driver Interrupt. Allow Stepper Port Reset Interrupt to finish, if active. // Disable Stepper Driver Interrupt. Allow Stepper Port Reset Interrupt to finish, if active.
LPC_TIM1->TCR = 0; // Disable Timer1 Control (0b10=Reset, 0b01=Enable) LPC_TIM1->TCR = 0; // Disable Timer1
busy = false; busy = false;
// Set stepper driver idle state, disabled or enabled, depending on settings and circumstances. // Set stepper driver idle state, disabled or enabled, depending on settings and circumstances.
bool pin_state = false; // Stepper is disabled when pin_state is true. Keep enabled by default. bool pin_state = false; // Keep enabled.
if (((settings.stepper_idle_lock_time != 0xff) || sys_rt_exec_alarm || sys.state == STATE_SLEEP) && sys.state != STATE_HOMING) { if (((settings.stepper_idle_lock_time != 0xff) || sys_rt_exec_alarm || sys.state == STATE_SLEEP) && sys.state != STATE_HOMING) {
// Force stepper dwell to lock axes for a defined amount of time to ensure the axes come to a complete // Force stepper dwell to lock axes for a defined amount of time to ensure the axes come to a complete
// stop and not drift from residual inertial forces at the end of the last movement. // stop and not drift from residual inertial forces at the end of the last movement.
@ -355,7 +355,7 @@ extern "C" void TIMER1_IRQHandler()
#endif #endif
// Initialize step segment timing per step and load number of steps to execute. // Initialize step segment timing per step and load number of steps to execute.
LPC_TIM1->MR0 = st.exec_segment->cycles_per_tick; // Set Match Register to wait one tick LPC_TIM1->MR0 = st.exec_segment->cycles_per_tick;
st.step_count = st.exec_segment->n_step; // NOTE: Can sometimes be zero when moving slow. st.step_count = st.exec_segment->n_step; // NOTE: Can sometimes be zero when moving slow.
// If the new segment starts a new planner block, initialize stepper variables and counters. // If the new segment starts a new planner block, initialize stepper variables and counters.
// NOTE: When the segment data index changes, this indicates a new planner block. // NOTE: When the segment data index changes, this indicates a new planner block.
@ -570,17 +570,17 @@ void st_reset()
void stepper_init() void stepper_init()
{ {
// Configure step and direction interface pins // Configure step and direction interface pins
STEP_DDR |= STEP_MASK; // Set selected stepper step pins as outputs STEP_DDR |= STEP_MASK;
STEPPERS_DISABLE_DDR |= STEPPERS_DISABLE_MASK; // Set selected stepper disable pins as outputs STEPPERS_DISABLE_DDR |= STEPPERS_DISABLE_MASK;
DIRECTION_DDR |= DIRECTION_MASK; // Set selected stepper direction pins as outputs DIRECTION_DDR |= DIRECTION_MASK;
// Configure Timer 1: Stepper Driver Interrupt // Configure Timer 1: Stepper Driver Interrupt
LPC_TIM1->TCR = 0; // disable Timer Control (0b10=Reset, 0b01=Enable) LPC_TIM1->TCR = 0; // disable
LPC_TIM1->CTCR = 0; // Count Control (0=TimerMode, 1-3=EdgeCounterMode) LPC_TIM1->CTCR = 0; // timer mode
LPC_TIM1->PR = 0; // no Prescale (TC increments every PR+1 clocks) LPC_TIM1->PR = 0; // no prescale
LPC_TIM1->MCR = 0b011; // Match Control (0b001=InterruptEnbl, 0b010=Reset_Enbl, 0b100=Stop_Enbl) LPC_TIM1->MCR = 0b011; // MR0: !stop, reset, interrupt
LPC_TIM1->CCR = 0; // no Capture Control actions LPC_TIM1->CCR = 0; // no capture
LPC_TIM1->EMR = 0; // no External Match (controls external match pins) LPC_TIM1->EMR = 0; // no external match
NVIC_EnableIRQ(TIMER1_IRQn); // Enable Stepper Driver Interrupt NVIC_EnableIRQ(TIMER1_IRQn); // Enable Stepper Driver Interrupt
} }

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@ -23,7 +23,6 @@
void system_init() void system_init()
{ {
// Configure user control pins (for cycle start, reset, feed hold, etc.)
CONTROL_DDR &= ~(CONTROL_MASK); // Configure as input pins CONTROL_DDR &= ~(CONTROL_MASK); // Configure as input pins
#ifdef DISABLE_CONTROL_PIN_PULL_UP #ifdef DISABLE_CONTROL_PIN_PULL_UP
CONTROL_PORT &= ~(CONTROL_MASK); // Normal low operation. Requires external pull-down. CONTROL_PORT &= ~(CONTROL_MASK); // Normal low operation. Requires external pull-down.
@ -196,7 +195,7 @@ uint8_t system_execute_line(char *line)
if (!sys.abort) { // Execute startup scripts after successful homing. if (!sys.abort) { // Execute startup scripts after successful homing.
sys.state = STATE_IDLE; // Set to IDLE when complete. sys.state = STATE_IDLE; // Set to IDLE when complete.
st_go_idle(); // Set steppers to the settings idle state before returning. st_go_idle(); // Set steppers to the settings idle state before returning.
if (line[2] == 0) { system_execute_startup(line); } // Execute startup script again. if (line[2] == 0) { system_execute_startup(line); }
} }
break; break;
case 'S' : // Puts Grbl to sleep [IDLE/ALARM] case 'S' : // Puts Grbl to sleep [IDLE/ALARM]