start turning this into a class

This commit is contained in:
Brendan Haines 2024-12-02 19:29:23 -07:00
parent 2c9e9b0eb2
commit 167a0b7aef

View File

@ -1,7 +1,7 @@
# %% imports
import copy
from pathlib import Path
from typing import Optional
from typing import Any, Dict, Optional
import adi
import iio
@ -17,34 +17,94 @@ from util import HAM_BANDS, db20, net2s, s2net
dir_ = Path(__file__).parent
# https://wiki.analog.com/resources/tools-software/linux-drivers/iio-transceiver/ad9361-customization
# %% connection
class Charon:
def __init__(
self,
uri: str,
frequency: npt.ArrayLike = np.linspace(1e9, 2e9, 3),
):
# everything RF
self.sdr = adi.ad9361(uri=uri)
for attr, expected in [
("adi,2rx-2tx-mode-enable", True),
("adi,gpo-manual-mode-enable", True),
]:
# available configuration options:
# https://wiki.analog.com/resources/tools-software/linux-drivers/iio-transceiver/ad9361-customization
if bool(self.sdr._get_iio_debug_attr(attr)) != expected:
raise ValueError(
f"'{attr}' is not set in pluto. "
"See README.md for instructions for one time configuration instructions"
)
# TODO: it might be possible to change this on the fly.
# I think we'll actually just fail in __init__ of ad9361 if 2rx-2tx is wrong
self.sdr.rx_lo = int(frequency[0])
self.sdr.tx_lo = int(frequency[0])
self.sdr.sample_rate = 30e6
self.sdr.rx_rf_bandwidth = int(4e6)
self.sdr.tx_rf_bandwidth = int(4e6)
self.sdr.rx_destroy_buffer()
self.sdr.tx_destroy_buffer()
self.sdr.rx_enabled_channels = [0, 1]
self.sdr.tx_enabled_channels = [0]
self.sdr.loopback = 0
self.sdr.gain_control_mode_chan0 = "manual"
self.sdr.gain_control_mode_chan1 = "manual"
self.sdr.rx_hardwaregain_chan0 = 40
self.sdr.rx_hardwaregain_chan1 = 40
self.sdr.tx_hardwaregain_chan0 = -10
# %% helper functions
def get_config(sdr: adi.ad9361):
# switch control
ctx = iio.Context(uri)
self.ctrl = ctx.find_device("ad9361-phy")
# raw ad9361 register accesss:
# https://ez.analog.com/linux-software-drivers/f/q-a/120853/control-fmcomms3-s-gpo-with-python
# https://www.analog.com/media/cn/technical-documentation/user-guides/ad9364_register_map_reference_manual_ug-672.pdf
self.ctrl.reg_write(0x26, 0x90) # bit 7: AuxDAC Manual, bit 4: GPO Manual
self._set_gpo(0)
# TODO: init AuxDAC
def get_config(self) -> Dict[str, Any]:
config = dict()
config["rx_lo"] = sdr.rx_lo
config["rx_rf_bandwidth"] = sdr.rx_rf_bandwidth
config["rx_enabled_channels"] = sdr.rx_enabled_channels
config["rx_lo"] = self.sdr.rx_lo
config["rx_rf_bandwidth"] = self.sdr.rx_rf_bandwidth
config["rx_enabled_channels"] = self.sdr.rx_enabled_channels
for chan in config["rx_enabled_channels"]:
config[f"rx_hardwaregain_chan{chan}"] = getattr(sdr, f"rx_hardwaregain_chan{chan}")
config[f"gain_control_mode_chan{chan}"] = getattr(sdr, f"gain_control_mode_chan{chan}")
config[f"rx_hardwaregain_chan{chan}"] = getattr(self.sdr, f"rx_hardwaregain_chan{chan}")
config[f"gain_control_mode_chan{chan}"] = getattr(self.sdr, f"gain_control_mode_chan{chan}")
config["tx_lo"] = sdr.tx_lo
config["tx_rf_bandwidth"] = sdr.tx_rf_bandwidth
config["tx_cyclic_buffer"] = sdr.tx_cyclic_buffer
config["tx_enabled_channels"] = sdr.tx_enabled_channels
config["tx_lo"] = self.sdr.tx_lo
config["tx_rf_bandwidth"] = self.sdr.tx_rf_bandwidth
config["tx_cyclic_buffer"] = self.sdr.tx_cyclic_buffer
config["tx_enabled_channels"] = self.sdr.tx_enabled_channels
for chan in config["tx_enabled_channels"]:
config[f"tx_hardwaregain_chan{chan}"] = getattr(sdr, f"tx_hardwaregain_chan{chan}")
config[f"tx_hardwaregain_chan{chan}"] = getattr(self.sdr, f"tx_hardwaregain_chan{chan}")
config["filter"] = sdr.filter
config["sample_rate"] = sdr.sample_rate
config["loopback"] = sdr.loopback
config["filter"] = self.sdr.filter
config["sample_rate"] = self.sdr.sample_rate
config["loopback"] = self.sdr.loopback
return config
def _set_gpo(self, value: int) -> None:
self.ctrl.reg_write(0x27, (value & 0x0F) << 4) # bits 7-4: GPO3-0
def generate_tone(f: float, N: int = 1024, fs: Optional[float] = None):
def set_output_power(self, power: float):
if power == -5:
# FIXME: this is a hack because I don't want to go through re-calibration
tx_gain = -8
else:
raise NotImplementedError()
# # TODO: correct over frequency
# tx_gain_idx = np.abs(pout.sel(tx_channel=0) - power).argmin(dim="tx_gain")
# tx_gain = pout.coords["tx_gain"][tx_gain_idx]
self.sdr.tx_hardwaregain_chan0 = float(tx_gain)
def set_output(self, frequency: float, power: float, offset_frequency: float = 1e6):
# TODO: switch to DDS in Pluto
def generate_tone(f: float, N: int = 1024, fs: Optional[float] = None):
if fs is None:
fs = sdr.sample_rate
fs = int(fs)
@ -57,59 +117,28 @@ def generate_tone(f: float, N: int = 1024, fs: Optional[float] = None):
return iq
self.sdr.tx_destroy_buffer()
self.set_output_power(power)
self.sdr.tx_lo = int(frequency - offset_frequency)
offset_frequency = frequency - self.sdr.tx_lo
self.sdr.tx_cyclic_buffer = True
self.sdr.tx(generate_tone(offset_frequency))
# %% connection
sdr = adi.ad9361(uri="ip:192.168.3.1")
def _rx(self) -> npt.ArrayLike:
self.sdr.rx_destroy_buffer()
return np.array(self.sdr.rx())
# %% verify device configuration
mode_2r2t = bool(sdr._get_iio_debug_attr("adi,2rx-2tx-mode-enable"))
if not mode_2r2t:
raise ValueError("'adi,2rx-2tx-mode-enable' is not set in pluto. See README.md for instructions for changing this")
# TODO: it might be possible to change this on the fly. I think we'll actually just fail in __init__ for sdr
# %% switch control outputs
# NOTE: this doesn't appear to work
sdr._set_iio_debug_attr_str("adi,gpo-manual-mode-enable", "1")
sdr._get_iio_debug_attr_str("adi,gpo-manual-mode-enable-mask")
# but direct register access does
# https://ez.analog.com/linux-software-drivers/f/q-a/120853/control-fmcomms3-s-gpo-with-python
ctx = iio.Context("ip:192.168.3.1")
ctrl = ctx.find_device("ad9361-phy")
# https://www.analog.com/media/cn/technical-documentation/user-guides/ad9364_register_map_reference_manual_ug-672.pdf
ctrl.reg_write(0x26, 0x90) # bit 7: AuxDAC Manual, bit 4: GPO Manual
ctrl.reg_write(0x27, 0x10) # bits 7-4: GPO3-0
# %%
sdr = Charon("ip:192.168.3.1")
# %% initialization
sdr.rx_lo = int(2.0e9)
sdr.tx_lo = int(2.0e9)
sdr.sample_rate = 30e6
sdr.rx_rf_bandwidth = int(4e6)
sdr.tx_rf_bandwidth = int(4e6)
sdr.rx_destroy_buffer()
sdr.tx_destroy_buffer()
sdr.rx_enabled_channels = [0, 1]
sdr.tx_enabled_channels = [0]
sdr.loopback = 0
sdr.gain_control_mode_chan0 = "manual"
sdr.gain_control_mode_chan1 = "manual"
sdr.rx_hardwaregain_chan0 = 40
sdr.rx_hardwaregain_chan1 = 40
sdr.tx_hardwaregain_chan0 = -10
config = get_config(sdr)
config = sdr.get_config()
config
# %%
sdr.tx_destroy_buffer() # must destroy buffer before changing cyclicity
sdr.tx_cyclic_buffer = True
sdr.tx(generate_tone(1e6))
# %%
sdr.rx_destroy_buffer()
data = sdr.rx()
# %% Plot in time
data = sdr._rx()
fig, axs = plt.subplots(2, 1, sharex=True, tight_layout=True)
axs[0].plot(np.real(data).T)
axs[1].plot(np.imag(data).T)
@ -131,28 +160,6 @@ plt.grid(True)
plt.show()
# %% TX helper functions
def set_output_power(power: float):
if power == -5:
# FIXME: this is a hack because I don't want to go through re-calibration
tx_gain = -8
else:
raise NotImplementedError()
# # TODO: correct over frequency
# tx_gain_idx = np.abs(pout.sel(tx_channel=0) - power).argmin(dim="tx_gain")
# tx_gain = pout.coords["tx_gain"][tx_gain_idx]
sdr.tx_hardwaregain_chan0 = float(tx_gain)
def set_output(frequency: float, power: float, offset_frequency: float = 1e6):
sdr.tx_destroy_buffer()
set_output_power(power)
sdr.tx_lo = int(frequency - offset_frequency)
offset_frequency = frequency - sdr.tx_lo
sdr.tx_cyclic_buffer = True
sdr.tx(generate_tone(offset_frequency))
# %%
def vna_capture(frequency: npt.ArrayLike):
s = xr.DataArray(