LibreVNA/Software/PC_Application/VNA/Deembedding/twothru.h

#ifndef TWOTHRU_H
#define TWOTHRU_H

#include "deembeddingoption.h"
#include "Tools/parameters.h"

#include <complex>
#include <QMessageBox>

namespace Ui {
class TwoThruDialog;
}

class TwoThru : public DeembeddingOption
{
public:
    TwoThru();

    virtual void transformDatapoint(VirtualDevice::VNAMeasurement& p) override;
    virtual void edit() override;
    virtual Type getType() override {return DeembeddingOption::Type::TwoThru;}
    nlohmann::json toJSON() override;
    void fromJSON(nlohmann::json j) override;

private slots:
    void startMeasurement();
    void updateGUI();
    void measurementCompleted(std::vector<VirtualDevice::VNAMeasurement> m) override;
private:
    using Point = struct {
        double freq;
        Tparam inverseP1, inverseP2;
    };

    static std::vector<VirtualDevice::VNAMeasurement> interpolateEvenFrequencySteps(std::vector<VirtualDevice::VNAMeasurement> input);
    std::vector<Point> calculateErrorBoxes(std::vector<VirtualDevice::VNAMeasurement> data_2xthru);
    std::vector<Point> calculateErrorBoxes(std::vector<VirtualDevice::VNAMeasurement> data_2xthru, std::vector<VirtualDevice::VNAMeasurement> data_fix_dut_fix, double z0);

    std::vector<VirtualDevice::VNAMeasurement> measurements2xthru;
    std::vector<VirtualDevice::VNAMeasurement> measurementsDUT;
    double Z0;
    int port1, port2;
    std::vector<Point> points;
    bool measuring2xthru;
    bool measuringDUT;
    Ui::TwoThruDialog *ui;
};

#endif // TWOTHRU_H
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`#ifndef TWOTHRU_H`
			`#define TWOTHRU_H`

			`#include "deembeddingoption.h"`
			`#include "Tools/parameters.h"`
app: sort header list 2021-10-21 19:00:34 +08:00
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`#include <complex>`
			`#include <QMessageBox>`

			`namespace Ui {`
			`class TwoThruDialog;`
			`}`

			`class TwoThru : public DeembeddingOption`
			`{`
			`public:`
			`TwoThru();`

wrapper work 2022-08-05 02:12:15 +08:00			`virtual void transformDatapoint(VirtualDevice::VNAMeasurement& p) override;`
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`virtual void edit() override;`
			`virtual Type getType() override {return DeembeddingOption::Type::TwoThru;}`
			`nlohmann::json toJSON() override;`
			`void fromJSON(nlohmann::json j) override;`

			`private slots:`
			`void startMeasurement();`
optional 2xthru impedance correction 2021-02-11 23:59:59 +08:00			`void updateGUI();`
wrapper work 2022-08-05 02:12:15 +08:00			`void measurementCompleted(std::vector<VirtualDevice::VNAMeasurement> m) override;`
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`private:`
			`using Point = struct {`
			`double freq;`
			`Tparam inverseP1, inverseP2;`
			`};`
optional 2xthru impedance correction 2021-02-11 23:59:59 +08:00
wrapper work 2022-08-05 02:12:15 +08:00			`static std::vector<VirtualDevice::VNAMeasurement> interpolateEvenFrequencySteps(std::vector<VirtualDevice::VNAMeasurement> input);`
Merge branch 'master' into compoundDevice 2022-09-05 01:15:53 +08:00			`std::vector<Point> calculateErrorBoxes(std::vector<VirtualDevice::VNAMeasurement> data_2xthru);`
			`std::vector<Point> calculateErrorBoxes(std::vector<VirtualDevice::VNAMeasurement> data_2xthru, std::vector<VirtualDevice::VNAMeasurement> data_fix_dut_fix, double z0);`
optional 2xthru impedance correction 2021-02-11 23:59:59 +08:00
wrapper work 2022-08-05 02:12:15 +08:00			`std::vector<VirtualDevice::VNAMeasurement> measurements2xthru;`
			`std::vector<VirtualDevice::VNAMeasurement> measurementsDUT;`
optional 2xthru impedance correction 2021-02-11 23:59:59 +08:00			`double Z0;`
Merge branch 'master' into compoundDevice 2022-09-05 01:15:53 +08:00			`int port1, port2;`
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`std::vector<Point> points;`
optional 2xthru impedance correction 2021-02-11 23:59:59 +08:00			`bool measuring2xthru;`
			`bool measuringDUT;`
Additional de-embedding options: 2xthru and matching network 2021-01-30 04:44:44 +08:00			`Ui::TwoThruDialog *ui;`
			`};`

			`#endif // TWOTHRU_H`