InsanityAutomation
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5 years ago | |
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L64XX_Marlin.cpp | 5 years ago | |
L64XX_Marlin.h | 5 years ago | |
README.md | 5 years ago |
README.md
L64XX Stepper Driver
Arduino-L6470 library revision 0.8.0 or above is required.
This software can be used with the L6470, L6474, L6480 and the powerSTEP01 (collectively referred to as "L64xx" from now on). Different drivers can be mixed within a system.
These devices use voltage PWMs to drive the stepper phases. On the L6474 the phase current is controlled by the TVAL
register. On all the other drivers the phase current is indirectly controlled via the KVAL_HOLD
register which scales the PWM duty cycle.
This software assumes that all drivers are in one SPI daisy chain.
Hardware Setup
-
MOSI from controller tied to SDI on the first device
-
SDO of the first device is tied to SDI of the next device
-
SDO of the last device is tied to MISO of the controller
-
All devices share the same
SCK
andSS_PIN
pins. The user must supply a macro to control theRESET_PIN
(s). -
Each L6470 passes the data it saw on its SDI to its neighbor on the NEXT SPI cycle (8 bit delay).
-
Each L6470 acts on the last SPI data it saw when the
SS_PIN
goes high.
The L6474 uses the standard STEP DIR interface. Phase currents are changed in response to step pulses. The direction is set by the DIR pin. Instead of an ENA pin, stepper power is controlled with SPI commands.
The other drivers operate in STEP_CLOCK
mode. In this mode the Direction / Enable functions are done with SPI commands and the phase currents are changed in response to STEP pulses.
Hardware / Software Interaction
Except for the L6474, powering up a stepper and setting the direction are done by the same command. You can't do one without the other.
All directions are set every time a new block is popped off the queue by the stepper ISR.
When setting direction, SPI transfers are minimized by using arrays and a specialized SPI method. Arduino-L6470 library calls are not used. For N L64xx drivers, this results in N bytes transferred. If library calls were used then N2 bytes would be sent.
Power-up (Reset) Sequence
-
Stepper objects are instantiated before the
setup()
entry point is reached. -
In
setup()
(before stepper drivers are initialized) theL6470_init()
method is called to do the following:-
If present, pulse the hardware reset pin.
-
Populate the
L6470_chain
array, which maps positions in the SPI stream to commands/data for L64XX stepper drivers. -
Initialize the L64XX Software SPI pin states.
-
Initialize L64XX drivers. They may be reset later by a call to
L6470_init_to_defaults()
.
-
The steppers are NOT powered up (enabled) during this sequence.
L6470_chain
array
This array is used by all routines that transmit SPI data. For a chain with N devices, the array contains:
Index | Value |
---|---|
0 | Number of drivers in chain |
1 | Axis index of the first device in the chain (closest to MOSI) |
... | |
N | Axis index of the last device chain (closest to MISO) |
Set Direction and Enable
The DIR_WRITE
macros for the L64xx drivers are written so that the standard X, Y, Z and extruder logic used by the set_directions()
routine is not altered. These macros write the correct forward/reverse command to the corresponding location in the array L6470_dir_commands
. On the L6474 the array the command used just enables the stepper because direction is set by the DIR pin.
At the end of the set_directions()
routine, the array L6470_chain
is used to grab the corresponding direction/enable commands out of the array L6470_dir_commands
and put them in the correct sequence in the array L6470_buf
. Array L6470_buf
is then passed to the void
L6470_Transfer
function which actually sends the data to the devices.
Utilities, etc.
The absolute position registers should accurately reflect Marlin’s stepper position counts. They are set to zero during initialization. G28
sets them to the Marlin counts for the corresponding axis after homing. NOTE: These registers are often the negative of the Marlin counts. This is because the Marlin counts reflect the logical direction while the registers reflect the stepper direction. The register contents are displayed via the M114 D
command.
The L6470_monitor
feature reads the status of each device every half second. It will report if there are any error conditions present or if communications has been lost/restored. The KVAL_HOLD
value is reduced every 2 – 2.5 seconds if the thermal warning or thermal shutdown conditions are present.
M122 displays the settings of most of the bits in the status register plus a couple of other items.
M906 can be used to set the KVAL_HOLD
register (TVAL
on L6474) one driver at a time. If a setting is not included with the command then the contents of the registers that affect the phase current/voltage are displayed.
M916, M917 & M918
These utilities are used to tune the system. They can get you in the ballpark for acceptable jerk, acceleration, top speed and KVAL_HOLD
settings (TVAL
on L6474). In general they seem to provide an overly optimistic KVAL_HOLD
(TVAL
) setting because of the lag between setting KVAL_HOLD
(TVAL
) and the driver reaching final temperature. Enabling the L6470_monitor
feature during prints will provide the final useful setting.
The amount of power needed to move the stepper without skipping steps increases as jerk, acceleration, top speed, and micro-steps increase. The power dissipated by the driver increases as the power to the stepper increases. The net result is a balancing act between jerk, acceleration, top speed, micro-steps, and power dissipated by the driver.
M916 - Increases KVAL_HOLD
(TVAL
) while moving one axis until a thermal warning is generated. This routine is also useful for determining the approximate KVAL_HOLD
(TVAL
) where the stepper stops losing steps. The sound will get noticeably quieter as it stops losing steps.
M917 - Find minimum current thresholds. This is accomplished by doing the following steps while moving an axis:
-
Decrease OCD current until overcurrent error.
-
Increase OCD until overcurrent error goes away.
-
Decrease stall threshold until stall error (not available on the L6474).
-
Increase stall until stall error goes away (not available on the L6474).
M918 - Increase speed until error or max feedrate achieved.