2020-01-26 22:10:23 +01:00
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{
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"cells": [
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"from IPython.core.display import display, HTML\n",
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"display(HTML(\"<style>.container { width:100% !important; }</style>\"))"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"import matplotlib.pyplot as plt\n",
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"import pandas as pd\n",
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2020-01-27 23:00:43 +01:00
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"import numpy as np\n",
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"\n",
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"from __future__ import print_function\n",
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"from ipywidgets import interact, interactive, fixed, interact_manual\n",
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"import ipywidgets as widgets"
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2020-01-26 22:10:23 +01:00
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"## Read in Measurements"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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2020-01-27 23:00:43 +01:00
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"two_k_sampling_trafo = pd.read_csv(r'2000OhmSamplingTrafoSupply.csv')\n",
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"one_k_sampling_trafo = pd.read_csv(r'1000OhmSamplingTrafoSupply.csv')\n",
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"temperature_measurement = pd.read_csv(r'TempSamplingTrafoSupply.csv')\n",
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2020-01-26 22:10:23 +01:00
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"constant_sampling = pd.read_csv(r'1000OhmSampling.csv')"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"# Calculation Function for $\\vartheta(R_{PT1000})$\n",
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"$\\vartheta(R_{PT1000}) = \\frac{-\\alpha R_0 + \\sqrt{\\alpha^2R_0^2 - 4\\beta R_0 \\left(R_0 - R_{PT1000}\\right)}}{2\\beta R_0}$\n",
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"\n",
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"with\n",
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"* $\\alpha = 3.9083 \\cdot 10^{-3}$\n",
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"* $\\beta = -5.7750 \\cdot 10^{-7}$\n",
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"* $R_0 = 1000~\\Omega$"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"R_zero = 1000.0\n",
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"A = 3.9083E-3\n",
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"B = -5.7750E-7\n",
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"\n",
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"def calc_temp(resistance):\n",
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" temp = (-R_zero * A + np.sqrt(R_zero*R_zero * A * A - 4* R_zero * B * (R_zero - resistance)))/(2*R_zero*B)\n",
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" return temp"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"## Description of ADC Value"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"print(constant_sampling['adc_results.pa2_raw'].describe())"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"--------------------\n",
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"# Calculate Temperature from Resistance Value"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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2020-01-27 23:00:43 +01:00
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"df_list = [one_k_sampling_trafo, two_k_sampling_trafo, temperature_measurement, constant_sampling]\n",
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"for df in df_list:\n",
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" df['temp_calculated'] = df.apply(lambda row: calc_temp(row['ext_lf_corr']) , axis=1)\n"
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2020-01-26 22:10:23 +01:00
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"# Histograms -- Starting from Index 100"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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2020-01-27 23:00:43 +01:00
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"fig, axes = plt.subplots(nrows=3, ncols=3, figsize=(28,15))\n",
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"plot_data = [(one_k_sampling_trafo, '1 kOhm Sampling Transformer powered', 0), (two_k_sampling_trafo, '2 kOhm Sampling Transformer powered' , 0), (constant_sampling, '1 kOhm Sampling', 100)]\n",
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"signal_list = [('adc_results.pa2_raw', 20), ('ext_lf_corr', 20), ('temp_calculated', 20)]\n",
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"\n",
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"for (data_df, title, start_idx), ax_rows in zip(plot_data, axes):\n",
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" for ax,sig in zip(ax_rows, signal_list):\n",
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" n, bins, patches = ax.hist(data_df[sig[0]][start_idx:], sig[1], density=1)\n",
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" mu = np.mean(data_df[sig[0]][start_idx:])\n",
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" sigma = np.std(data_df[sig[0]][start_idx:])\n",
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" y = ((1 / (np.sqrt(2 * np.pi) * sigma)) * np.exp(-0.5 * (1 / sigma * (bins - mu))**2))\n",
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" ax.plot(bins, y)\n",
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" ax.set_title('Histogram of '+sig[0]+' for '+title)\n",
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2020-01-26 22:10:23 +01:00
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"plt.show()"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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2020-01-27 23:00:43 +01:00
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"# Startup of Moving Average Filter with $\\alpha' = 0.005$\n",
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"\n",
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"Filter difference equation: $y[n] = (1-\\alpha')y[n-1] + \\alpha'x[n]$"
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2020-01-26 22:10:23 +01:00
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"fig, ax = plt.subplots(nrows=2, ncols=1, figsize=(28,6), sharex=True)\n",
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"data = constant_sampling['ext_lf_corr'][:20]\n",
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"ax[0].plot(constant_sampling['Time'][:20], data)\n",
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"ax[1].plot(constant_sampling['Time'][:20], constant_sampling['temp_calculated'][:20])\n",
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"plt.show()"
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]
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2020-01-27 23:00:43 +01:00
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"# Temperature Plotting"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"idx_count = len(temperature_measurement.index)\n",
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"@interact(low=(0,idx_count -1,10), high=(0, idx_count-1, 10))\n",
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"def plot_temp(low=0, high=idx_count-1):\n",
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" fig, ax = plt.subplots(nrows=3, ncols=1, figsize=(28,9*3), sharex=True)\n",
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" ax[0].plot(temperature_measurement['Time'][low:high], temperature_measurement['ext_lf_corr'][low:high])\n",
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" ax[1].plot(temperature_measurement['Time'][low:high], temperature_measurement['adc_results.pa2_raw'][low:high])\n",
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" ax[2].plot(temperature_measurement['Time'][low:high], temperature_measurement['temp_calculated'][low:high])\n",
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" plt.plot()"
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]
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2020-01-26 22:10:23 +01:00
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}
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],
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"metadata": {
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"kernelspec": {
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"display_name": "Python 3",
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"language": "python",
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"name": "python3"
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},
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"language_info": {
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"codemirror_mode": {
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"name": "ipython",
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"version": 3
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},
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"file_extension": ".py",
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"mimetype": "text/x-python",
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"name": "python",
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"nbconvert_exporter": "python",
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"pygments_lexer": "ipython3",
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"version": "3.8.1"
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}
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},
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"nbformat": 4,
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"nbformat_minor": 2
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}
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