:orphan:
.. raw:: html
.. dtcompatible:: lattice,ice40-fpga
.. _dtbinding_lattice_ice40_fpga:
lattice,ice40-fpga (on spi bus)
###############################
Vendor: :ref:`Lattice Semiconductor `
Description
***********
.. code-block:: none
Lattice iCE40 FPGA
Properties
**********
.. tabs::
.. group-tab:: Node specific properties
Properties not inherited from the base binding file.
.. list-table::
:widths: 1 1 4
:header-rows: 1
* - Name
- Type
- Details
* - ``load-mode``
- ``int``
- .. code-block:: none
Configure the method used to load the bitstream.
The bitstream may be loaded via 2 separate methods:
0 := load the FPGA via SPI transfer
1 := load the FPGA via bit-banged GPIO
Option 0 may be suitable for some high-end microcontrollers.
Option 1 is suitable for low-end microcontrollers. This option
requires clk-gpios, pico-gpios, gpios-set-reg, and gpios-clear-reg
to be defined.
Example usage:
load-mode = <0>;
This property is **required**.
* - ``cdone-gpios``
- ``phandle-array``
- .. code-block:: none
Configuration Done output from iCE40.
Example usage:
cdone-gpios = <&gpio0 0 0>;
This property is **required**.
* - ``creset-gpios``
- ``phandle-array``
- .. code-block:: none
Configuration Reset input on iCE40.
Example usage:
creset-gpios = <&gpio0 1 GPIO_PUSH_PULL);
This property is **required**.
* - ``clk-gpios``
- ``phandle-array``
- .. code-block:: none
SPI Clock GPIO input on iCE40.
Example usage:
clk-gpios = <&gpio0 5 GPIO_PUSH_PULL>;
* - ``pico-gpios``
- ``phandle-array``
- .. code-block:: none
Peripheral-In Controller-Out GPIO input on iCE40.
Example usage:
pico-gpios = <&gpio0 7 GPIO_PUSH_PULL>;
* - ``gpios-set-reg``
- ``int``
- .. code-block:: none
Register address for setting a GPIO.
Example usage:
gpios-set-reg = <0x60004008>;
* - ``gpios-clear-reg``
- ``int``
- .. code-block:: none
Register address for clearing a GPIO.
Example usage:
gpios-clear-reg = <0x6000400c>;
* - ``mhz-delay-count``
- ``int``
- .. code-block:: none
in order to create a 1 MHz square wave in the following
process.
while(true) {
*gpios_set_reg |= BIT(n);
for(int i = mhz_delay_count; i > 0; --i);
*gpios_clear_reg |= BIT(n);
for(int i = mhz_delay_count; i > 0; --i);
}
Example usage / default:
mhz-delay-count = <0>;
* - ``creset-delay-us``
- ``int``
- .. code-block:: none
Delay (in microseconds) between asserting CRESET_B and releasing CRESET_B.
Example usage / default:
creset-delay-us = <1>;
* - ``config-delay-us``
- ``int``
- .. code-block:: none
Delay (in microseconds) after releasing CRESET_B to clear internal configuration memory.
Example usage / default:
config-delay-us = <1200>;
* - ``leading-clocks``
- ``int``
- .. code-block:: none
Prior to sending the bitstream, issue this number of leading clocks with SPI_CS pulled high.
Example usage / default:
leading-clocks = <8>;
* - ``trailing-clocks``
- ``int``
- .. code-block:: none
After sending the bitstream, issue this number of trailing clocks with SPI_CS pulled high.
Example usage / default:
trailing-clocks = <49>;
* - ``spi-max-frequency``
- ``int``
- .. code-block:: none
Maximum clock frequency of device's SPI interface in Hz
This property is **required**.
* - ``duplex``
- ``int``
- .. code-block:: none
Duplex mode, full or half. By default it's always full duplex thus 0
as this is, by far, the most common mode.
Use the macros not the actual enum value, here is the concordance
list (see dt-bindings/spi/spi.h)
0 SPI_FULL_DUPLEX
2048 SPI_HALF_DUPLEX
Legal values: ``0``, ``2048``
* - ``frame-format``
- ``int``
- .. code-block:: none
Motorola or TI frame format. By default it's always Motorola's,
thus 0 as this is, by far, the most common format.
Use the macros not the actual enum value, here is the concordance
list (see dt-bindings/spi/spi.h)
0 SPI_FRAME_FORMAT_MOTOROLA
32768 SPI_FRAME_FORMAT_TI
Legal values: ``0``, ``32768``
* - ``spi-cpol``
- ``boolean``
- .. code-block:: none
SPI clock polarity which indicates the clock idle state.
If it is used, the clock idle state is logic high; otherwise, low.
* - ``spi-cpha``
- ``boolean``
- .. code-block:: none
SPI clock phase that indicates on which edge data is sampled.
If it is used, data is sampled on the second edge; otherwise, on the first edge.
* - ``spi-hold-cs``
- ``boolean``
- .. code-block:: none
In some cases, it is necessary for the master to manage SPI chip select
under software control, so that multiple spi transactions can be performed
without releasing it. A typical use case is variable length SPI packets
where the first spi transaction reads the length and the second spi transaction
reads length bytes.
* - ``supply-gpios``
- ``phandle-array``
- .. code-block:: none
GPIO specifier that controls power to the device.
This property should be provided when the device has a dedicated
switch that controls power to the device. The supply state is
entirely the responsibility of the device driver.
Contrast with vin-supply.
* - ``vin-supply``
- ``phandle``
- .. code-block:: none
Reference to the regulator that controls power to the device.
The referenced devicetree node must have a regulator compatible.
This property should be provided when device power is supplied
by a shared regulator. The supply state is dependent on the
request status of all devices fed by the regulator.
Contrast with supply-gpios. If both properties are provided
then the regulator must be requested before the supply GPIOS is
set to an active state, and the supply GPIOS must be set to an
inactive state before releasing the regulator.
.. group-tab:: Deprecated node specific properties
Deprecated properties not inherited from the base binding file.
(None)
.. group-tab:: Base properties
Properties inherited from the base binding file, which defines
common properties that may be set on many nodes. Not all of these
may apply to the "lattice,ice40-fpga" compatible.
.. list-table::
:widths: 1 1 4
:header-rows: 1
* - Name
- Type
- Details
* - ``reg``
- ``array``
- .. code-block:: none
register space
This property is **required**.
See :ref:`zephyr:dt-important-props` for more information.
* - ``status``
- ``string``
- .. code-block:: none
indicates the operational status of a device
Legal values: ``'ok'``, ``'okay'``, ``'disabled'``, ``'reserved'``, ``'fail'``, ``'fail-sss'``
See :ref:`zephyr:dt-important-props` for more information.
* - ``compatible``
- ``string-array``
- .. code-block:: none
compatible strings
This property is **required**.
See :ref:`zephyr:dt-important-props` for more information.
* - ``reg-names``
- ``string-array``
- .. code-block:: none
name of each register space
* - ``interrupts``
- ``array``
- .. code-block:: none
interrupts for device
See :ref:`zephyr:dt-important-props` for more information.
* - ``interrupts-extended``
- ``compound``
- .. code-block:: none
extended interrupt specifier for device
* - ``interrupt-names``
- ``string-array``
- .. code-block:: none
name of each interrupt
* - ``interrupt-parent``
- ``phandle``
- .. code-block:: none
phandle to interrupt controller node
* - ``label``
- ``string``
- .. code-block:: none
Human readable string describing the device (used as device_get_binding() argument)
See :ref:`zephyr:dt-important-props` for more information.
This property is **deprecated**.
* - ``clocks``
- ``phandle-array``
- .. code-block:: none
Clock gate information
* - ``clock-names``
- ``string-array``
- .. code-block:: none
name of each clock
* - ``#address-cells``
- ``int``
- .. code-block:: none
number of address cells in reg property
* - ``#size-cells``
- ``int``
- .. code-block:: none
number of size cells in reg property
* - ``dmas``
- ``phandle-array``
- .. code-block:: none
DMA channels specifiers
* - ``dma-names``
- ``string-array``
- .. code-block:: none
Provided names of DMA channel specifiers
* - ``io-channels``
- ``phandle-array``
- .. code-block:: none
IO channels specifiers
* - ``io-channel-names``
- ``string-array``
- .. code-block:: none
Provided names of IO channel specifiers
* - ``mboxes``
- ``phandle-array``
- .. code-block:: none
mailbox / IPM channels specifiers
* - ``mbox-names``
- ``string-array``
- .. code-block:: none
Provided names of mailbox / IPM channel specifiers
* - ``wakeup-source``
- ``boolean``
- .. code-block:: none
Property to identify that a device can be used as wake up source.
When this property is provided a specific flag is set into the
device that tells the system that the device is capable of
wake up the system.
Wake up capable devices are disabled (interruptions will not wake up
the system) by default but they can be enabled at runtime if necessary.
* - ``power-domain``
- ``phandle``
- .. code-block:: none
Power domain the device belongs to.
The device will be notified when the power domain it belongs to is either
suspended or resumed.
* - ``zephyr,pm-device-runtime-auto``
- ``boolean``
- .. code-block:: none
Automatically configure the device for runtime power management after the
init function runs.