{
  "parameters": [
    {
      "aspect": {
        "name": "electric-potential",
        "ml_name": "as_electric_potential_difference",
        "id": "AS22"
      },
      "measurand": null,
      "measurandtaxon": "SourceVoltageDCDeltaVoltage",
      "id": 552,
      "name": "Voltage",
      "quantitykind": "voltage",
      "definition": null,
      "optional": false
    },
    {
      "aspect": {
        "name": "electric-potential",
        "ml_name": "as_electric_potential_difference",
        "id": "AS22"
      },
      "measurand": null,
      "measurandtaxon": "SourceVoltageDCDeltaVoltage",
      "id": 553,
      "name": "VoltageReference",
      "quantitykind": "voltage",
      "definition": "Reference Voltage",
      "optional": false
    },
    {
      "aspect": null,
      "measurand": null,
      "measurandtaxon": "SourceVoltageDCDeltaVoltage",
      "id": 554,
      "name": "Impedance",
      "quantitykind": "impedance",
      "definition": "Output Impedance",
      "optional": true
    }
  ],
  "external_references": [],
  "aspect": {
    "name": "electric-potential",
    "ml_name": "as_electric_potential_difference",
    "id": "AS22"
  },
  "discipline": {
    "label": "Electrical"
  },
  "id": "SourceVoltageDCDeltaVoltage",
  "name": "Source.Voltage.DC.Delta.Voltage",
  "definition": "The process of sourcing two DC (Direct Current) voltage signals. First the ReferenceVoltage signal is sourced and measured on the UUT, that value is stored as reference. Then the test Voltage is sourced and measured on the UUT and stored as reading. The test result is returned as (reading \u2013 reference). These two voltage signals are often used when calibrating the DC gain of a device such as an oscilloscope.",
  "deprecated": false,
  "replacement": "",
  "quantitykind": "voltage",
  "processtype": "Source",
  "qualifier": "",
  "result": "DeltaVoltage",
  "result_quantity": "voltage"
}