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phaser: doc tweaks

This commit is contained in:
Robert Jördens 2020-09-12 19:59:49 +02:00
parent c3728678d6
commit b619f657b9

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@ -76,8 +76,9 @@ class Phaser:
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.
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
@ -97,16 +98,19 @@ class Phaser:
31.5 dB range step attenuator and is available at the front panel.
The DAC, the analog quadrature upconverters and the two attenuators are
configured through a shared SPI bus that is accessed and controlled via FPGA
registers.
configured through a shared SPI bus that is accessed and controlled via
FPGA registers.
:param channel: Base RTIO channel number
:param core_device: Core device name (default: "core")
:param miso_delay: Fastlink MISO signal delay to account for cable
and buffer round trip. This might be automated later.
:attr:`channel`: List of two :class:`PhaserChannel` to access oscillators
and digital upconverter.
Attributes:
* :attr:`channel`: List of two :class:`PhaserChannel`
To access oscillators, digital upconverters, PLL/VCO analog
quadrature upconverters and attenuators.
"""
kernel_invariants = {"core", "channel_base", "t_frame", "miso_delay"}
@ -185,7 +189,7 @@ class Phaser:
def set_fan_mu(self, pwm):
"""Set the fan duty cycle.
:param pwm: Duty cycle (8 bit)
:param pwm: Duty cycle in machine units (8 bit)
"""
self.write8(PHASER_ADDR_FAN, pwm)
@ -228,13 +232,13 @@ class Phaser:
Bit flags are:
* `PHASER_STA_DAC_ALARM`: DAC alarm pin
* `PHASER_STA_TRF0_LD`: Quadrature upconverter 0 lock detect
* `PHASER_STA_TRF1_LD`: Quadrature upconverter 1 lock detect
* `PHASER_STA_TERM0`: ADC channel 0 termination indicator
* `PHASER_STA_TERM1`: ADC channel 1 termination indicator
* `PHASER_STA_SPI_IDLE`: SPI machine is idle and data registers can be
read/written
* :const:`PHASER_STA_DAC_ALARM`: DAC alarm pin
* :const:`PHASER_STA_TRF0_LD`: Quadrature upconverter 0 lock detect
* :const:`PHASER_STA_TRF1_LD`: Quadrature upconverter 1 lock detect
* :const:`PHASER_STA_TERM0`: ADC channel 0 termination indicator
* :const:`PHASER_STA_TERM1`: ADC channel 1 termination indicator
* :const:`PHASER_STA_SPI_IDLE`: SPI machine is idle and data registers
can be read/written
:return: Status register
"""
@ -339,7 +343,9 @@ class Phaser:
class PhaserChannel:
"""Phaser channel IQ pair.
:attr:`oscillator`: List of five :class:`PhaserOscillator`.
Attributes:
* :attr:`oscillator`: List of five :class:`PhaserOscillator`.
.. note:: The amplitude sum of the oscillators must be less than one to
avoid clipping or overflow. If any of the DDS or DUC frequencies are
@ -433,7 +439,7 @@ class PhaserChannel:
def set_att_mu(self, data):
"""Set channel attenuation.
:param data: Attenuator data
:param data: Attenuator data in machine units (8 bit)
"""
div = 34 # 30 ns min period
t_xfer = self.phaser.core.seconds_to_mu((8 + 1)*div*4*ns)
@ -448,6 +454,7 @@ class PhaserChannel:
:param att: Attenuation in dB
"""
# 2 lsb are inactive, resulting in 8 LSB per dB
data = 0xff - int32(round(att*8))
if data < 0 or data > 0xff:
raise ValueError("invalid attenuation")