indirect frequency measurement support in FCAP

doublebuf
Ondřej Hruška 7 years ago
parent 1867a0eaf1
commit 0467c240e0
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 6
      gex/Client.py
  2. 4
      gex/Unit.py
  3. 1
      gex/__init__.py
  4. 102
      gex/units/FCAP.py
  5. 18
      pcap.py

@ -159,7 +159,7 @@ class Client:
buf.extend(pld)
return self.tf.query(type=gex.MSG_UNIT_REQUEST, id=id, pld=buf, listener=listener)
def query(self, cmd:int, cs:int=None, id:int=None, pld=None) -> TF_Msg:
def query(self, cmd:int, cs:int=None, id:int=None, pld=None, timeout=3) -> TF_Msg:
"""
Query a unit. If cs is None, cmd is used as message type
Returns the message
@ -174,8 +174,8 @@ class Client:
self.send(cs=cs, cmd=cmd, id=id, pld=pld, listener=lst)
# Wait for the response (hope no unrelated frame comes in instead)
# timeout after 3s
self.transport.poll(3, lambda: self._theframe is not None)
# timeout
self.transport.poll(timeout, lambda: self._theframe is not None)
if self._theframe is None:
raise Exception("No response to query")

@ -36,9 +36,9 @@ class Unit:
else:
return self.client.send(cs=self.callsign, cmd=cmd, pld=pld, id=id)
def _query(self, cmd:int, pld=None, id:int=None) -> TF_Msg:
def _query(self, cmd:int, pld=None, id:int=None, timeout=3) -> TF_Msg:
""" Query the unit. Returns TF_Msg """
return self.client.query(cs=self.callsign, cmd=cmd, pld=pld, id=id)
return self.client.query(cs=self.callsign, cmd=cmd, pld=pld, id=id, timeout=timeout)
def _query_async(self, cmd:int, callback, pld=None, id:int=None):
"""

@ -18,6 +18,7 @@ from gex.units.USART import USART
from gex.units.OneWire import OneWire
from gex.units.ADC import ADC
from gex.units.SIPO import SIPO
from gex.units.FCAP import FCAP
# General, low level

@ -0,0 +1,102 @@
import gex
CMD_STOP = 0
CMD_PWM_CONT_START = 1
CMD_PWM_BURST_START = 2
CMD_PWM_CONT_READ = 10
class FCAP_Report:
def __init__(self):
self.period = 0
self.ontime = 0
self.frequency = 0
self.duty = 0
# Raw data (can be used to avoid distortion by float arithmetics)
self.period_raw = 0
self.ontime_raw = 0
self.sample_count = 0
self.clock_freq = 0
def __str__(self):
return "{\n f = %f Hz\n T = %f s\n Ton = %f s\n duty = %f\n}" % \
(self.frequency, self.period, self.ontime, self.duty)
class FCAP(gex.Unit):
"""
Frequency and pulse measurement
"""
def _type(self):
return 'FCAP'
def stop(self, confirm=True):
""" Stop any ongoing capture """
self._send(CMD_STOP, confirm=confirm)
def indirect_start(self, confirm=True):
""" Start continuous PWM measurement """
self._send(CMD_PWM_CONT_START, confirm=confirm)
def indirect_read(self):
"""
Read the current continuous measurement values
Returns value of the last measurement in continuous mode
"""
resp = self._query(CMD_PWM_CONT_READ)
pp = gex.PayloadParser(resp.data)
mhz = pp.u16()
period = pp.u32()
ontime = pp.u32()
rp = FCAP_Report()
rp.period = period / (mhz*1e6) # to seconds
rp.frequency = 1 / rp.period
rp.ontime = ontime / (mhz*1e6) # in seconds
rp.duty = rp.ontime / rp.period
rp.clock_freq = mhz*1e6
rp.sample_count = 1
rp.period_raw = period
rp.ontime_raw = ontime
# returned in microseconds
return rp
def indirect_single(self, timeout=5):
"""
Perform a burst measure with averaging (sum/count)
"""
return self.indirect_burst(count=1, timeout=timeout)
def indirect_burst(self, count, timeout=5):
"""
Perform a burst measure with averaging (sum/count)
"""
pb = gex.PayloadBuilder()
pb.u16(count)
resp = self._query(CMD_PWM_BURST_START, pld=pb.close(), timeout=timeout)
pp = gex.PayloadParser(resp.data)
mhz = pp.u16()
nsamp = pp.u16()
period = pp.u64()
ontime = pp.u64()
rp = FCAP_Report()
rp.period = period / (nsamp*mhz*1e6) # to seconds
rp.frequency = 1 / rp.period
rp.ontime = ontime / (nsamp*mhz*1e6) # in seconds
rp.duty = rp.ontime / rp.period
rp.clock_freq = mhz*1e6
rp.sample_count = 1
rp.period_raw = period
rp.ontime_raw = ontime
return rp

@ -0,0 +1,18 @@
import time
import gex
with gex.Client(gex.TrxRawUSB()) as client:
fcap = gex.FCAP(client, 'fcap')
fcap.stop()
fcap.indirect_start()
while True:
time.sleep(1)
print(fcap.indirect_read())
#print(fcap.indirect_burst(3, timeout=20))
# print(fcap.indirect_burst(10, timeout=20))
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