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docs: fix syntax

This commit is contained in:
Robert Jördens 2022-09-23 16:22:21 +02:00
parent a0053f7a2b
commit a1a4545ed4
1 changed files with 17 additions and 23 deletions

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@ -92,14 +92,15 @@ class Phaser:
that have different features. Phaser mode and coredevice PHY are both
both selected at gateware compile-time and need to match.
Phaser gateware | Coredevice PHY | Features per :class:`PhaserChannel`
--------------- | -------------- | -----------------------------------
Base <= v0.5 | Base | Base (5 :class:`PhaserOscillator`)
Base >= v0.6 | Base | Base + Servo
Miqro >= v0.6 | Miqro | :class:`Miqro`
=============== ============== ===================================
Phaser gateware Coredevice PHY Features per :class:`PhaserChannel`
=============== ============== ===================================
Base <= v0.5 Base Base (5 :class:`PhaserOscillator`)
Base >= v0.6 Base Base + Servo
Miqro >= v0.6 Miqro :class:`Miqro`
=============== ============== ===================================
Base mode
---------
**Base mode**
The coredevice produces 2 IQ (in-phase and quadrature) data streams with 25
MS/s and 14 bit per quadrature. Each data stream supports 5 independent
@ -131,15 +132,13 @@ class Phaser:
absolute phase with respect to other RTIO input and output events
(see `get_next_frame_mu()`).
Miqro mode
----------
**Miqro mode**
See :class:`Miqro`
Here the DAC operates in 4x interpolation.
Analog flow
-----------
**Analog flow**
The four analog DAC outputs are passed through anti-aliasing filters.
@ -158,8 +157,7 @@ class Phaser:
configured through a shared SPI bus that is accessed and controlled via
FPGA registers.
Servo
-----
**Servo**
Each phaser output channel features a servo to control the RF output amplitude
using feedback from an ADC. The servo consists of a first order IIR (infinite
@ -1193,8 +1191,8 @@ class PhaserChannel:
Gains are given in units of output full per scale per input full scale.
.. note:: Due to inherent constraints of the fixed point datatypes and IIR
filters, the ``x_offset`` (setpoint) resolution depends on the selected gains.
Low ``ki`` gains will lead to a low ``x_offset`` resolution.
filters, the ``x_offset`` (setpoint) resolution depends on the selected
gains. Low ``ki`` gains will lead to a low ``x_offset`` resolution.
The transfer function is (up to time discretization and
coefficient quantization errors):
@ -1323,8 +1321,7 @@ class Miqro:
contained in the Phaser gateware. The output is generated by with
the following data flow:
Oscillators
...........
**Oscillators**
* There are n_osc = 16 oscillators with oscillator IDs 0..n_osc-1.
* Each oscillator outputs one tone at any given time
@ -1359,16 +1356,14 @@ class Miqro:
during fast pulse sequences. They are intended for use in calibration and
initialization.
Summation
.........
**Summation**
* The oscillator outputs are added together (wrapping addition).
* The user must ensure that the sum of oscillators outputs does not exceed the
data range. In general that means that the sum of the amplitudes must not
exceed one.
Shaper
......
**Shaper**
* The summed complex output stream is then multiplied with a the complex-valued
output of a triggerable shaper.
@ -1393,8 +1388,7 @@ class Miqro:
each window respectively. This is used to implement pulses with arbitrary
length or CW output.
Overall properties
..................
**Overall properties**
* The DAC may upconvert the signal by applying a frequency offset f1 with
phase p1.