Titan's Sweep Data
Raw sweep data gathered by @Titan Yuan.
LC_frequency sweep vs. LC coarse, mid, fine
count_LC
vs. LC coarse, mid, and fine codes (LC_code
is a 15-bit integer: {coarse[4:0], mid[4:0], fine[4:0]}
)
Sweep parameters:
Board: Q4
Divider was on (divide ratio: 960)
Measured
count_LC
against optical SFD interrupts with a period of 100ms
To use this data in Python:
>>> import numpy as np
>>> data = np.load("LC_sweep_data_20190921_201251.npz")
>>> data.files
['LC_code', 'coarse', 'mid', 'fine', 'counts_LC']
>>> data['counts_LC']
array([221315, 221325, 221335, ..., 264747, 264753, 264767])
>>> coarse, mid, fine, LC_code, counts_LC = data['coarse'], data['mid'], data['fine'], data['LC_code'], data['counts_LC']
Counters vs. temperature
count_32k
, count_HFclock
, count_2M
, count_LC
, count_IF
vs. temperature
Sweep parameters:
Board: Q4
Divider was on (divide ratio: 960), LC calibrated to around 2.402GHz at room temperature between sweep
Measured the counters with
RFTimer
interrupts derived fromHCLK
with a period of 100msGround truth temperature given by TMP102 board
Temperature starts at room temperature, decreases to around 5C, ramps up to 80C, and finally ramps back down to 25C (total sweep time around 40 minutes)
To use this data in Python:
>>> import numpy as np
>>> data = np.load("all_counters_temp_data_20190913_194220.npz")
>>> data.files
['counts_32k', 'counts_HFclock', 'counts_2M', 'counts_LC', 'counts_IF', 'temperature']
>>> data['temperature']
array([29.88, 30.69, 30.69, ..., 25.81, 25.81, 25.75])
>>> counts_32k, counts_HFclock, counts_2M, counts_LC, counts_IF, temperature = data['counts_32k'], data['counts_HFclock'], data['counts_2M'], data['counts_LC'], data['counts_IF'], data['temperature']
2M and 32k counters vs. temperature
count_32k
, count_2M
vs. temperature
Sweep parameters:
Board: Q4
Divider was off
Measured the counters with
RFTimer
interrupts derived fromHCLK
with a period of 100msGround truth temperature given by TMP102 board
Temperature starts at room temperature, ramps down to 5C, ramps up to 80C, and ramps back down to 25C (ramp rate is 1.5C/min)
To use this data in Python:
>>> import numpy as np
>>> data = np.load("2M_32k_counter_temp_data_20191020_190447.npz")
>>> data.files
['counts_2M', 'counts_32k', 'temperature']
>>> data['temperature']
array([28.13, 28.13, 28.19, ..., 26.19, 26.19, 26.19])
>>> counts_32k, counts_2M, temperature = data['counts_32k'], data['counts_2M'], data['temperature']
2M and 32k counters vs. time
count_32k
, count_2M
over 45 minutes (~24000 values)
Sweep parameters:
Board: Q4
Divider was on
Measured the counters against optical SFD interrupts with a period of 100ms
To use this data in Python:
>>> import numpy as np
>>> data = np.load("2M_32k_counter_data_20191113_211305.npz")
>>> data.files
['counts_2M', 'counts_32k']
>>> len(data['counts_2M'])
24433
>>> counts_32k, counts_2M = data['counts_32k'], data['counts_2M']
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