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authorandreas128 <Andreas>2017-09-27 21:21:28 +0200
committerandreas128 <Andreas>2017-09-27 21:21:28 +0200
commit174027f648b55aef3596d9c630c79a35e1189aea (patch)
treed193ffc6d0b91d97e6d6b5669d214ff25462721f
parent9954be2a2d94c6d7ebed8b36364d02e97084b9f2 (diff)
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Fix temporary gain increase in TX_Agc.py
-rw-r--r--dpd/src/TX_Agc.py66
1 files changed, 47 insertions, 19 deletions
diff --git a/dpd/src/TX_Agc.py b/dpd/src/TX_Agc.py
index b9226b2..7b74c8f 100644
--- a/dpd/src/TX_Agc.py
+++ b/dpd/src/TX_Agc.py
@@ -20,7 +20,8 @@ import matplotlib.pyplot as plt
import src.Adapt as Adapt
-#TODO fix for float tx_gain
+
+# TODO fix for float tx_gain
class TX_Agc:
def __init__(self,
adapt,
@@ -45,7 +46,6 @@ class TX_Agc:
the median TX value is expected to be lower than this value.
"""
-
assert isinstance(adapt, Adapt.Adapt)
self.adapt = adapt
self.max_txgain = c.TAGC_max_txgain
@@ -55,31 +55,59 @@ class TX_Agc:
self.tx_median_threshold_tolerate_min = c.TAGC_tx_median_min
self.tx_median_target = c.TAGC_tx_median_target
+ def _calc_new_tx_gain(self, tx_median):
+ delta_db = 20 * np.log10(self.tx_median_target / tx_median)
+ new_txgain = self.adapt.get_txgain() - delta_db
+ assert new_txgain < self.max_txgain, \
+ "TX_Agc failed. New TX gain of {} is too large.".format(
+ new_txgain
+ )
+ return new_txgain, delta_db
+
+ def _calc_digital_gain(self, delta_db):
+ digital_gain_factor = 10 ** (delta_db / 20.)
+ digital_gain = self.adapt.get_digital_gain() * digital_gain_factor
+ return digital_gain, digital_gain_factor
+
+ def _set_tx_gain(self, new_txgain):
+ self.adapt.set_txgain(new_txgain)
+ txgain = self.adapt.get_txgain()
+ return txgain
+
+ def _have_to_adapt(self, tx_median):
+ too_large = tx_median > self.tx_median_threshold_tolerate_max
+ too_small = tx_median < self.tx_median_threshold_tolerate_min
+ return too_large or too_small
+
def adapt_if_necessary(self, tx):
tx_median = np.median(np.abs(tx))
- if tx_median > self.tx_median_threshold_tolerate_max or\
- tx_median < self.tx_median_threshold_tolerate_min:
- delta_db = 20 * np.log10(self.tx_median_target / tx_median)
- new_txgain = self.adapt.get_txgain() - delta_db
- assert new_txgain < self.max_txgain,\
- "TX_Agc failed. New TX gain of {} is too large.".format(
- new_txgain
- )
- self.adapt.set_txgain(new_txgain)
- txgain = self.adapt.get_txgain()
-
- digital_gain_factor = 10 ** (delta_db / 20.)
- digital_gain = self.adapt.get_digital_gain() * digital_gain_factor
- self.adapt.set_digital_gain(digital_gain)
+
+ if self._have_to_adapt(tx_median):
+ # Calculate new values
+ new_txgain, delta_db = self._calc_new_tx_gain(tx_median)
+ digital_gain, digital_gain_factor = \
+ self._calc_digital_gain(delta_db)
+
+ # Set new values.
+ # Avoid temorary increase of output power with correct order
+ if digital_gain_factor < 0:
+ self.adapt.set_digital_gain(digital_gain)
+ time.sleep(0.5)
+ txgain = self._set_tx_gain(new_txgain)
+ time.sleep(1)
+ else:
+ txgain = self._set_tx_gain(new_txgain)
+ time.sleep(1)
+ self.adapt.set_digital_gain(digital_gain)
+ time.sleep(0.5)
logging.info(
- "digital_gain = {}, txgain_new = {}, "\
- "delta_db = {}, tx_median {}, "\
+ "digital_gain = {}, txgain_new = {}, " \
+ "delta_db = {}, tx_median {}, " \
"digital_gain_factor = {}".
format(digital_gain, txgain, delta_db,
tx_median, digital_gain_factor))
- time.sleep(1)
return True
return False