reverse to servo enable. hopefully adapted all comments etc.

This commit is contained in:
SingularitySurfer 2022-07-06 14:33:46 +00:00
parent 953dd899fd
commit 9c8ffa54b2
1 changed files with 12 additions and 10 deletions

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@ -138,14 +138,16 @@ class Phaser:
transient effects, care should be taken to not update the coefficents in the transient effects, care should be taken to not update the coefficents in the
currently selected profile. currently selected profile.
The servo can be en- or disabled for each channel. When disabled, the servo
output multiplier is simply bypassed and the datastream reaches the DAC unscaled.
The IIR output can be put on hold for each channel. In hold mode, the filter The IIR output can be put on hold for each channel. In hold mode, the filter
still ingests samples and updates its input ``x0`` and ``x1`` registers, but still ingests samples and updates its input ``x0`` and ``x1`` registers, but
does not update the ``y0``, ``y1`` output registers. The servo can also be does not update the ``y0``, ``y1`` output registers.
bypassed.
After power-up the servo is bypassed, in profile 0, with coefficients [0, 0, 0] After power-up the servo is disabled, in profile 0, with coefficients [0, 0, 0]
and hold is enabled. If older gateware without ther servo is loaded onto the and hold is enabled. If older gateware without ther servo is loaded onto the
Phaser FPGA, the device simply behaves as if the servo is bypassed and none of Phaser FPGA, the device simply behaves as if the servo is disabled and none of
the servo functions have any effect. the servo functions have any effect.
.. note:: Various register settings of the DAC and the quadrature .. note:: Various register settings of the DAC and the quadrature
@ -346,7 +348,7 @@ class Phaser:
delay(.1*ms) delay(.1*ms)
channel.set_att_mu(0x00) # minimum attenuation channel.set_att_mu(0x00) # minimum attenuation
channel.set_servo(profile=0, bypass=1, hold=1) channel.set_servo(profile=0, enable=0, hold=1)
# test oscillators and DUC # test oscillators and DUC
for i in range(len(channel.oscillator)): for i in range(len(channel.oscillator)):
@ -1084,19 +1086,19 @@ class PhaserChannel:
self.trf_write(data) self.trf_write(data)
@kernel @kernel
def set_servo(self, profile=0, bypass=1, hold=0): def set_servo(self, profile=0, enable=0, hold=0):
"""Set the servo configuration. """Set the servo configuration.
:param bypass: 1 to enable bypass (default), 0 to engage servo. If bypassed, hold :param enable: 1 to enable servo, 0 to disable servo (default). If disabled,
is forced since the control loop is broken. the servo is bypassed and hold is enforced since the control loop is broken.
:param hold: 1 to hold the servo IIR filter output constant, 0 for normal operation. :param hold: 1 to hold the servo IIR filter output constant, 0 for normal operation.
:param profile: Profile index to select for channel. (0 to 3) :param profile: Profile index to select for channel. (0 to 3)
""" """
if (profile < 0) or (profile > 3): if (profile < 0) or (profile > 3):
raise ValueError("invalid profile index") raise ValueError("invalid profile index")
addr = PHASER_ADDR_SERVO_CFG0 + self.index addr = PHASER_ADDR_SERVO_CFG0 + self.index
# enforce hold if the servo is bypassed # enforce hold if the servo is disabled
data = (profile << 2) | (((hold | bypass) & 1) << 1) | (~bypass & 1) data = (profile << 2) | (((hold | ~enable) & 1) << 1) | (enable & 1)
self.phaser.write8(addr, data) self.phaser.write8(addr, data)
@kernel @kernel