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#ifndef SUNSPECWATTPFMODEL_H
#define SUNSPECWATTPFMODEL_H
#include
#include "sunspecmodel.h"
#include "sunspecmodelrepeatingblock.h"
class SunSpecConnection;
class SunSpecWattPfModel;
class SunSpecWattPfModelRepeatingBlock : public SunSpecModelRepeatingBlock
{
Q_OBJECT
public:
enum Readonly {
ReadonlyReadwrite = 0,
ReadonlyReadonly = 1
};
Q_ENUM(Readonly)
explicit SunSpecWattPfModelRepeatingBlock(quint16 blockIndex, quint16 blockSize, quint16 modbusStartRegister, SunSpecWattPfModel *parent = nullptr);
~SunSpecWattPfModelRepeatingBlock() override = default;
SunSpecWattPfModel *parentModel() const;
QString name() const override;
/* Number of active points in array. */
quint16 actPt() const;
QModbusReply *setActPt(quint16 actPt);
/* Point 1 Watts. [% WMax] */
float w1() const;
QModbusReply *setW1(float w1);
/* Point 1 PF in EEI notation. [cos()] */
float pf1() const;
QModbusReply *setPf1(float pf1);
/* Point 2 Watts. [% WMax] */
float w2() const;
QModbusReply *setW2(float w2);
/* Point 2 PF in EEI notation. [cos()] */
float pf2() const;
QModbusReply *setPf2(float pf2);
/* Point 3 Watts. [% WMax] */
float w3() const;
QModbusReply *setW3(float w3);
/* Point 3 PF in EEI notation. [cos()] */
float pf3() const;
QModbusReply *setPf3(float pf3);
/* Point 4 Watts. [% WMax] */
float w4() const;
QModbusReply *setW4(float w4);
/* Point 4 PF in EEI notation. [cos()] */
float pf4() const;
QModbusReply *setPf4(float pf4);
/* Point 5 Watts. [% WMax] */
float w5() const;
QModbusReply *setW5(float w5);
/* Point 5 PF in EEI notation. [cos()] */
float pf5() const;
QModbusReply *setPf5(float pf5);
/* Point 6 Watts. [% WMax] */
float w6() const;
QModbusReply *setW6(float w6);
/* Point 6 PF in EEI notation. [cos()] */
float pf6() const;
QModbusReply *setPf6(float pf6);
/* Point 7 Watts. [% WMax] */
float w7() const;
QModbusReply *setW7(float w7);
/* Point 7 PF in EEI notation. [cos()] */
float pf7() const;
QModbusReply *setPf7(float pf7);
/* Point 8 Watts. [% WMax] */
float w8() const;
QModbusReply *setW8(float w8);
/* Point 8 PF in EEI notation. [cos()] */
float pf8() const;
QModbusReply *setPf8(float pf8);
/* Point 9 Watts. [% WMax] */
float w9() const;
QModbusReply *setW9(float w9);
/* Point 9 PF in EEI notation. [cos()] */
float pf9() const;
QModbusReply *setPf9(float pf9);
/* Point 10 Watts. [% WMax] */
float w10() const;
QModbusReply *setW10(float w10);
/* Point 10 PF in EEI notation. [cos()] */
float pf10() const;
QModbusReply *setPf10(float pf10);
/* Point 11 Watts. [% WMax] */
float w11() const;
QModbusReply *setW11(float w11);
/* Point 11 PF in EEI notation. [cos()] */
float pf11() const;
QModbusReply *setPf11(float pf11);
/* Point 12 Watts. [% WMax] */
float w12() const;
QModbusReply *setW12(float w12);
/* Point 12 PF in EEI notation. [cos()] */
float pf12() const;
QModbusReply *setPf12(float pf12);
/* Point 13 Watts. [% WMax] */
float w13() const;
QModbusReply *setW13(float w13);
/* Point 13 PF in EEI notation. [cos()] */
float pf13() const;
QModbusReply *setPf13(float pf13);
/* Point 14 Watts. [% WMax] */
float w14() const;
QModbusReply *setW14(float w14);
/* Point 14 PF in EEI notation. [cos()] */
float pf14() const;
QModbusReply *setPf14(float pf14);
/* Point 15 Watts. [% WMax] */
float w15() const;
QModbusReply *setW15(float w15);
/* Point 15 PF in EEI notation. [cos()] */
float pf15() const;
QModbusReply *setPf15(float pf15);
/* Point 16 Watts. [% WMax] */
float w16() const;
QModbusReply *setW16(float w16);
/* Point 16 PF in EEI notation. [cos()] */
float pf16() const;
QModbusReply *setPf16(float pf16);
/* Point 17 Watts. [% WMax] */
float w17() const;
QModbusReply *setW17(float w17);
/* Point 17 PF in EEI notation. [cos()] */
float pf17() const;
QModbusReply *setPf17(float pf17);
/* Point 18 Watts. [% WMax] */
float w18() const;
QModbusReply *setW18(float w18);
/* Point 18 PF in EEI notation. [cos()] */
float pf18() const;
QModbusReply *setPf18(float pf18);
/* Point 19 Watts. [% WMax] */
float w19() const;
QModbusReply *setW19(float w19);
/* Point 19 PF in EEI notation. [cos()] */
float pf19() const;
QModbusReply *setPf19(float pf19);
/* Point 20 Watts. [% WMax] */
float w20() const;
QModbusReply *setW20(float w20);
/* Point 20 PF in EEI notation. [cos()] */
float pf20() const;
QModbusReply *setPf20(float pf20);
/* Optional description for curve. */
QString crvNam() const;
QModbusReply *setCrvNam(const QString &crvNam);
/* The time of the PT1 in seconds (time to accomplish a change of 95%). [Secs] */
quint16 rmpPt1Tms() const;
QModbusReply *setRmpPt1Tms(quint16 rmpPt1Tms);
/* The maximum rate at which the power factor may be reduced in response to changes in the power value. [% PF/min] */
float rmpDecTmm() const;
QModbusReply *setRmpDecTmm(float rmpDecTmm);
/* The maximum rate at which the power factor may be increased in response to changes in the power value. [% PF/min] */
float rmpIncTmm() const;
QModbusReply *setRmpIncTmm(float rmpIncTmm);
/* Enumerated value indicates if curve is read-only or can be modified. */
Readonly readOnly() const;
quint16 pad() const;
void processBlockData(const QVector blockData) override;
protected:
void initDataPoints() override;
private:
SunSpecWattPfModel *m_parentModel = nullptr;
quint16 m_actPt = 0;
float m_w1 = 0;
float m_pf1 = 0;
float m_w2 = 0;
float m_pf2 = 0;
float m_w3 = 0;
float m_pf3 = 0;
float m_w4 = 0;
float m_pf4 = 0;
float m_w5 = 0;
float m_pf5 = 0;
float m_w6 = 0;
float m_pf6 = 0;
float m_w7 = 0;
float m_pf7 = 0;
float m_w8 = 0;
float m_pf8 = 0;
float m_w9 = 0;
float m_pf9 = 0;
float m_w10 = 0;
float m_pf10 = 0;
float m_w11 = 0;
float m_pf11 = 0;
float m_w12 = 0;
float m_pf12 = 0;
float m_w13 = 0;
float m_pf13 = 0;
float m_w14 = 0;
float m_pf14 = 0;
float m_w15 = 0;
float m_pf15 = 0;
float m_w16 = 0;
float m_pf16 = 0;
float m_w17 = 0;
float m_pf17 = 0;
float m_w18 = 0;
float m_pf18 = 0;
float m_w19 = 0;
float m_pf19 = 0;
float m_w20 = 0;
float m_pf20 = 0;
QString m_crvNam;
quint16 m_rmpPt1Tms = 0;
float m_rmpDecTmm = 0;
float m_rmpIncTmm = 0;
Readonly m_readOnly;
quint16 m_pad = 0;
};
class SunSpecWattPfModel : public SunSpecModel
{
Q_OBJECT
public:
enum Modena {
ModenaEnabled = 0x1
};
Q_DECLARE_FLAGS(ModenaFlags, Modena)
Q_FLAG(Modena)
explicit SunSpecWattPfModel(SunSpecConnection *connection, quint16 modbusStartRegister, quint16 modelLength, QObject *parent = nullptr);
~SunSpecWattPfModel() override;
QString name() const override;
QString description() const override;
QString label() const override;
/* Index of active curve. 0=no active curve. */
quint16 actCrv() const;
QModbusReply *setActCrv(quint16 actCrv);
/* Is watt-PF mode active. */
ModenaFlags modEna() const;
QModbusReply *setModEna(ModenaFlags modEna);
/* Time window for watt-PF change. [Secs] */
quint16 winTms() const;
QModbusReply *setWinTms(quint16 winTms);
/* Timeout period for watt-PF curve selection. [Secs] */
quint16 rvrtTms() const;
QModbusReply *setRvrtTms(quint16 rvrtTms);
/* Ramp time for moving from current mode to new mode. [Secs] */
quint16 rmpTms() const;
QModbusReply *setRmpTms(quint16 rmpTms);
/* Number of curves supported (recommend 4). */
quint16 nCrv() const;
/* Max number of points in array. */
quint16 nPt() const;
/* Scale factor for percent WMax. */
qint16 wSf() const;
/* Scale factor for PF. */
qint16 pfSf() const;
/* Scale factor for increment and decrement ramps. */
qint16 rmpIncDecSf() const;
protected:
quint16 m_fixedBlockLength = 10;
quint16 m_repeatingBlockLength = 54;
void initDataPoints();
void processBlockData() override;
private:
quint16 m_actCrv = 0;
ModenaFlags m_modEna;
quint16 m_winTms = 0;
quint16 m_rvrtTms = 0;
quint16 m_rmpTms = 0;
quint16 m_nCrv = 0;
quint16 m_nPt = 0;
qint16 m_wSf = 0;
qint16 m_pfSf = 0;
qint16 m_rmpIncDecSf = 0;
};
QDebug operator<<(QDebug debug, SunSpecWattPfModel *model);
#endif // SUNSPECWATTPFMODEL_H