phaser: doc tweaks

This commit is contained in:
Robert Jördens 2020-09-15 12:35:26 +00:00
parent ff57813a9c
commit 9b58b712a6
1 changed files with 18 additions and 14 deletions

View File

@ -77,10 +77,10 @@ class Phaser:
> 30 MHz.
The four 16 bit 500 MS/s DAC data streams are sent via a 32 bit parallel
LVDS bus operating at 1 Gb/s per pin pair and processed in the DAC. On the
DAC 2x interpolation, sinx/x compensation, quadrature modulator
compensation, fine and coarse mixing as well as group delay capabilities
are available.
LVDS bus operating at 1 Gb/s per pin pair and processed in the DAC (Texas
Instruments DAC34H84). On the DAC 2x interpolation, sinx/x compensation,
quadrature modulator compensation, fine and coarse mixing as well as group
delay capabilities are available.
The latency/group delay from the RTIO events setting
:class:`PhaserOscillator` or :class:`PhaserChannel` DUC parameters all they
@ -93,11 +93,12 @@ class Phaser:
attenuators and are available on the front panel. The odd outputs are
available at MMCX connectors on board.
In the upconverter variant, each IQ output pair feeds a one quadrature
upconverter with integrated PLL/VCO. This analog quadrature upconverter
supports offset tuning for carrier and sideband suppression. The output
from the upconverter passes through the 31.5 dB range step attenuator and
is available at the front panel.
In the upconverter variant, each IQ output pair feeds one quadrature
upconverter (Texas Instruments TRF372017) with integrated PLL/VCO. This
digitally configured analog quadrature upconverter supports offset tuning
for carrier and sideband suppression. The output from the upconverter
passes through the 31.5 dB range step attenuator and is available at the
front panel.
The DAC, the analog quadrature upconverters and the attenuators are
configured through a shared SPI bus that is accessed and controlled via
@ -461,8 +462,11 @@ class Phaser:
:param patterm: List of four int32 containing the pattern
:return: Bit error mask (16 bits)
"""
if len(pattern) != 4:
raise ValueError("pattern length out of bounds")
for addr in range(len(pattern)):
self.dac_write(0x25 + addr, pattern[addr])
# repeat the pattern twice
self.dac_write(0x29 + addr, pattern[addr])
delay(.1*ms)
for ch in range(2):
@ -534,7 +538,7 @@ class PhaserChannel:
@kernel
def set_duc_cfg(self, clr=0, clr_once=0, select=0):
"""Set the digital upconverter and interpolator configuration.
"""Set the digital upconverter (DUC) and interpolator configuration.
:param clr: Keep the phase accumulator cleared (persistent)
:param clr_once: Clear the phase accumulator for one cycle
@ -555,7 +559,7 @@ class PhaserChannel:
@kernel
def set_duc_frequency(self, frequency):
"""Set the DUC frequency.
"""Set the DUC frequency in SI units.
:param frequency: DUC frequency in Hz (passband from -200 MHz to
200 MHz, wrapping around at +- 250 MHz)
@ -565,7 +569,7 @@ class PhaserChannel:
@kernel
def set_duc_phase_mu(self, pow):
"""Set the DUC phase offset
"""Set the DUC phase offset.
:param pow: DUC phase offset word (16 bit)
"""
@ -575,7 +579,7 @@ class PhaserChannel:
@kernel
def set_duc_phase(self, phase):
"""Set the DUC phase.
"""Set the DUC phase in SI units.
:param phase: DUC phase in turns
"""
@ -631,7 +635,7 @@ class PhaserChannel:
@kernel
def trf_write(self, data, readback=False):
"""Write 32 bits to upconverter.
"""Write 32 bits to quadrature upconverter register.
:param data: Register data (32 bit) containing encoded address
:param readback: Whether to return the read back MISO data