Level 2 datasets, from raw Waves instrument values
- ADC instability - A/D reference voltage oscillation - affects Survey data from 3 to 41 MHz
- Attenuation - Waves Raw Packet Attenuator Settings
- HFWBR Hi - Burst Mode 1 MHz Spectra - raw instrument values
- HRS - Burst Mode Waveforms - raw instrument values
- HRS Power - Burst Mode Waveforms - raw instrument values - mean squared amplitudes
- HRS QFactors - Q-Factors attached to burst data bin headers
- HRS Spectra - Burst Mode Spectra - raw instrument values
- LRS - Survey data - raw instrument values
- LRS QFactors - Q-Factors calculated during generation of low frequency receiver survey products
- ql - Real-time data for critical operations, only useful to Waves IOT
- RTI timing - Waves Packet RTI timing
- WvFE faults - Waves WvFE processor fault times from L2 Memory Read Out (MRO) data
Catalog Path: tag:das2.org,2012:site:/uiowa/juno/wav/uncalibrated
Read From: https://das2.org/catalog/das/site/uiowa/juno/wav/uncalibrated.json
import json import das2 node = das2.get_node("site:/uiowa/juno/wav/uncalibrated") # Pretty print node content s = json.dumps(node.props, ensure_ascii=False, indent=" ", sort_keys=True) print(s) # List and access sub-nodes node.keys() subnode = node['adc_instability']
#include <stdio.h> #include <das2/core.h> DasNode* pRoot = new_RootNode(NULL, NULL, NULL); DasNode* pNode = DasNode_subNode(pRoot, "tag:das2.org,2012:site:/uiowa/juno/wav/uncalibrated", NULL, NULL); DasJdo* pJdo = DasNode_getJdo(pNode, NULL); size_t uLen; const char* sOut = DasJdo_writePretty(pJdo, " ", "\n", &uLen); fputs(sOut, stdout);