HPR-VI MODBUS communication driver

HPR-VI MODBUS communication driver is the driver to communicate with digital power meter controller of HyoSung in Korea.

1. Read Settings

<Figure 1> is read setting example of HPR-VI MODBUS communication driver.

<Figure 1> Read setting example of HPR-VI MODBUS communication driver

Device part of <Figure 1> input Com Port(COM1), Baud Rate(19200), Parity Bit(2), Data Bit(8), Stop Bit(1) respectively, according to setting of controller.

Note) Station number, baud rate, etc of HPR-VI power meter can set by using operation button of front panel.

HPR-VI MODBUS communication driver read schedule

Read schedule setting parameters are as follows:

1) Station – 0 ~ 255 station number of power meter.(you can set by using operation button of fron panel)

2) Device name of function number – Device name or function number of Modbus protocol.

Device name : DATA, DETAIL, HAR, MINMAX, SIN, SET, etc. ( refer to <Table 1> )

3) Read Start Address – Reading start address of modbus protocol. Don't care when using Device name.

4) Save start address for Communication Server – Saving start address of Communication Server.

5) Read Size – Read size(Word unit).

Read schedule example)

READ, 1, DATA, 0, 0, 45,

READ, 1, DETAIL, 0, 50, 90,

<Table 1> is device type and contents of HPR-VI MODBUS communication driver.

<Table 2>, <Table 3> are data saving address and contetns of Basic, Detail Measurement.

<Table 4> , <Table 5> are data saving address and contetns of Harmonic, Min/Max Measurement.

<Table 6>, <Table 7> are Data saving address and contetns of SIN(q)/K Factor Measurement, Setting Parameter.

Device name	Contents	Read size
DATA	Basic Measurement	45 WORD
DETAIL	Detail Measurement	90 WORD
HAR	Harmonic Measurement	90 WORD
MINMAX	MIN/MAX Measurement	90 WORD
SIN	SIN(q) K Factor Measurement	9 WORD
SET	Setting Parameter	20 WORD
<Table 1> Device type and contents of HPR-VI MODBUS communication driver

Data Saving Address	Contents	Modbus address	Scale	Units
Start Addr + 0000	phase voltage A MSB	0000	´100	V
Start Addr + 0001	LSB	0001
Start Addr + 0002	phase voltage B	0002	´100	V
Start Addr + 0003		0003
Start Addr + 0004	phase voltage C	0004	´100	V
Start Addr + 0005		0005
Start Addr + 0006	voltage AB	0006	´100	V
Start Addr + 0007		0007
Start Addr + 0008	voltage BC	0008	´100	V
Start Addr + 0009		0009
Start Addr + 0010	voltage CA	000A	´100	V
Start Addr + 0011		000B
Start Addr + 0012	phase current A	000C	´1000	A
Start Addr + 0013		000D
Start Addr + 0014	phase current B	000E	´1000	A
Start Addr + 0015		000F
Start Addr + 0016	phase current C	0010	´1000	A
Start Addr + 0017		0011
Start Addr + 0018	phase current N	0012	´1000	A
Start Addr + 0019		0013
Start Addr + 0020	current(average current)	0014	´1000	A
Start Addr + 0021		0015
Start Addr + 0022	active power(A+B+C)	0016	´10	KW
Start Addr + 0023		0017
Start Addr + 0024	reactive power(A+B+C)	0018	´10	KVar
Start Addr + 0025		0019
Start Addr + 0026	apparent power(A+B+C)	001A	´10	KW
Start Addr + 0027		001B
Start Addr + 0028	power factor(A+B+C), disp	001C	´1000
Start Addr + 0029		001D
Start Addr + 0030	power factor(A+B+C), true	001E	´1000
Start Addr + 0031		001F
Start Addr + 0032	frequency	0020	´100	Hz
Start Addr + 0033	amount of active power+(A+B+C)	0021	´1	KWh
Start Addr + 0034		0022
Start Addr + 0035	amount of active power-(A+B+C)	0023	´1	KWh
Start Addr + 0036		0024
Start Addr + 0037	reamount of active power+(A+B+C)	0025	´1	KVarh
Start Addr + 0038		0026
Start Addr + 0039	reamount of active power-(A+B+C)	0027	´1	KVarh
Start Addr + 0040		0028
Start Addr + 0041	amount of apparent power(A+B+C)	0029	´1	KVAh
Start Addr + 0042		002A
Start Addr + 0043	Reserved Word	002B
Start Addr + 0044	DI Status	002C		Bit
<Table 2> Data saving address and contetns of Basic Measurement

Data Saving Address	Contents	Modbus address	Scale	Units
Start Addr + 0000	phase voltage(fundamental) A MSB	002D	´100	V
Start Addr + 0001	LSB	002E
Start Addr + 0002	phase voltage(fundamental) B	002F	´100	V
Start Addr + 0003		0030
Start Addr + 0004	phase voltage(fundamental) C	0031	´100	V
Start Addr + 0005		0032
Start Addr + 0006	phase current(fundamental) A	0033	´1000	A
Start Addr + 0007		0034
Start Addr + 0008	phase current(fundamental) B	0035	´1000	A
Start Addr + 0009		0036
Start Addr + 0010	phase current(fundamental) C	0037	´1000	A
Start Addr + 0011		0038
Start Addr + 0012	active power A	0039	´10	KW
Start Addr + 0013		003A
Start Addr + 0014	active power B	003B	´10	KW
Start Addr + 0015		003C
Start Addr + 0016	active power C	003D	´10	KW
Start Addr + 0017		003E
Start Addr + 0018	reactive power A	003F	´10	KVar
Start Addr + 0019		0040
Start Addr + 0020	reactive power B	0041	´10	KVar
Start Addr + 0021		0042
Start Addr + 0022	reactive power C	0043	´10	KVar
Start Addr + 0023		0044
Start Addr + 0024	apparent power A	0045	´10	KVA
Start Addr + 0025		0046
Start Addr + 0026	apparent power B	0047	´10	KVA
Start Addr + 0027		0048
Start Addr + 0028	apparent power C	0049	´10	KVA
Start Addr + 0029		004A
Start Addr + 0030	power factor A ,dpf	004B	´1000
Start Addr + 0031		004C
Start Addr + 0032	power factor B ,dpf	004D	´1000
Start Addr + 0033		004E
Start Addr + 0034	power factor C ,dpf	004F	´1000
Start Addr + 0035		0050
Start Addr + 0036	power factor A ,true	0051	´1000
Start Addr + 0037		0052
Start Addr + 0038	power factor B ,true	0053	´1000
Start Addr + 0039		0054
Start Addr + 0040	power factor C ,true	0055	´1000
Start Addr + 0041		0056
Start Addr + 0042	amount of active power(+) A	0057	´1	KWh
Start Addr + 0043		0058
Start Addr + 0044	amount of active power(+) B	0059	´1	KWh
Start Addr + 0045		005A
Start Addr + 0046	amount of active power(+) C	005B	´1	KWh
Start Addr + 0047		005C
Start Addr + 0048	amount of active power(-) A	005D	´1	KWh
Start Addr + 0049		005E
Start Addr + 0050	amount of active power(-) B	005F	´1	KWh
Start Addr + 0051		0060
Start Addr + 0052	amount of active power(-) C	0061	´1	KWh
Start Addr + 0053		0062
Start Addr + 0054	reamount of active power(+) A	0063	´1	KVarh
Start Addr + 0055		0064
Start Addr + 0056	reamount of active power(+) B	0065	´1	KVarh
Start Addr + 0057		0066
Start Addr + 0058	reamount of active power(+) C	0067	´1	KVarh
Start Addr + 0059		0068
Start Addr + 0060	reamount of active power(-) A	0069	´1	KVarh
Start Addr + 0061		006A
Start Addr + 0062	reamount of active power(-) B	006B	´1	KVarh
Start Addr + 0063		006C
Start Addr + 0064	reamount of active power(-) C	006D	´1	KVarh
Start Addr + 0065		006E
Start Addr + 0066	amount of apparent power A	006F	´1	KVAh
Start Addr + 0067		0070
Start Addr + 0068	amount of apparent power B	0071	´1	KVAh
Start Addr + 0069		0072
Start Addr + 0070	amount of apparent power C	0073	´1	KVAh
Start Addr + 0071		0074
Start Addr + 0072	power(Demand)	0075	´1	KW
Start Addr + 0073		0076
Start Addr + 0074	average power(Demand)	0077	´1	KW
Start Addr + 0075		0078
Start Addr + 0076	max power(Demand)	0079	´1	KW
Start Addr + 0077		007A
Start Addr + 0078	symmetric factor voltage of positive phase sequence	007B	´100	V
Start Addr + 0079		007C
Start Addr + 0080	symmetric factor voltage of negative phase sequence	007D	´100	V
Start Addr + 0081		007E
Start Addr + 0082	symmetric factor voltage of zero-phase sequence	007F	´100	V
Start Addr + 0083		0080
Start Addr + 0084	symmetric factor current of positive phase sequence	0081	´1000	A
Start Addr + 0085		0082
Start Addr + 0086	symmetric factor current of negative phase sequence	0083	´1000	A
Start Addr + 0087		0084
Start Addr + 0088	symmetric factor current of zero-phase sequence	0085	´1000	A
Start Addr + 0089		0086
<Table 3> Data saving address and contetns of Detail Measurement

Data Saving Address	Contents	Modbus address	Scale	Units
Start Addr + 0000	voltage THD A	0087	´100	%
Start Addr + 0001	voltage THD B	0088	´100	%
Start Addr + 0002	voltage THD C	0089	´100	%
Start Addr + 0003	current THD A	008A	´100	%
Start Addr + 0004	current THD B	008B	´100	%
Start Addr + 0005	current THD C	008C	´100	%
Start Addr + 0006	V3A	008D	´100	%
Start Addr + 0007	V3B	008E	´100	%
Start Addr + 0008	V3C	008F	´100	%
Start Addr + 0009	V5A	0090	´100	%
Start Addr + 0010	V5B	0091	´100	%
Start Addr + 0011	V5C	0092	´100	%
Start Addr + 0012	V7A	0093	´100	%
Start Addr + 0013	V7B	0094	´100	%
Start Addr + 0014	V7C	0095	´100	%
Start Addr + 0015	V9A	0096	´100	%
Start Addr + 0016	V9B	0097	´100	%
Start Addr + 0017	V9C	0098	´100	%
Start Addr + 0018	V11A	0099	´100	%
Start Addr + 0019	V11B	009A	´100	%
Start Addr + 0020	V11C	009B	´100	%
Start Addr + 0021	V13A	009C	´100	%
Start Addr + 0022	V13B	009D	´100	%
Start Addr + 0023	V13C	009E	´100	%
Start Addr + 0024	V15A	009F	´100	%
Start Addr + 0025	V15B	00A0	´100	%
Start Addr + 0026	V15C	00A1	´100	%
Start Addr + 0027	I3A	00A2	´100	%
Start Addr + 0028	I3B	00A3	´100	%
Start Addr + 0029	I3C	00A4	´100	%
Start Addr + 0030	I5A	00A5	´100	%
Start Addr + 0031	I5B	00A6	´100	%
Start Addr + 0032	I5C	00A7	´100	%
Start Addr + 0033	I7A	00A8	´100	%
Start Addr + 0034	I7B	00A9	´100	%
Start Addr + 0035	I7C	00AA	´100	%
Start Addr + 0036	I9A	00AB	´100	%
Start Addr + 0037	I9B	00AC	´100	%
Start Addr + 0038	I9C	00AD	´100	%
Start Addr + 0039	I11A	00AE	´100	%
Start Addr + 0040	I11B	00AF	´100	%
Start Addr + 0041	I11C	00B0	´100	%
Start Addr + 0042	I13A	00B1	´100	%
Start Addr + 0043	I13B	00B2	´100	%
Start Addr + 0044	I13C	00B3	´100	%
Start Addr + 0045	I15A	00B4	´100	%
Start Addr + 0046	I15B	00B5	´100	%
Start Addr + 0047	I15C	00B6	´100	%
Start Addr + 0048	V2A	00B7	´100	%
Start Addr + 0049	V2B	00B8	´100	%
Start Addr + 0050	V2C	00B9	´100	%
Start Addr + 0051	V4A	00BA	´100	%
Start Addr + 0052	V4B	00BB	´100	%
Start Addr + 0053	V4C	00BC	´100	%
Start Addr + 0054	V6A	00BD	´100	%
Start Addr + 0055	V6B	00BE	´100	%
Start Addr + 0056	V6C	00BF	´100	%
Start Addr + 0057	V8A	00C0	´100	%
Start Addr + 0058	V8B	00C1	´100	%
Start Addr + 0059	V8C	00C2	´100	%
Start Addr + 0060	V10A	00C3	´100	%
Start Addr + 0061	V10B	00C4	´100	%
Start Addr + 0062	V10C	00C5	´100	%
Start Addr + 0063	V12A	00C6	´100	%
Start Addr + 0064	V12B	00C7	´100	%
Start Addr + 0065	V12C	00C8	´100	%
Start Addr + 0066	V14A	00C9	´100	%
Start Addr + 0067	V14B	00CA	´100	%
Start Addr + 0068	V14C	00CB	´100	%
Start Addr + 0069	I2A	00CC	´100	%
Start Addr + 0070	I2B	00CD	´100	%
Start Addr + 0071	I2C	00CE	´100	%
Start Addr + 0072	I4A	00CF	´100	%
Start Addr + 0073	I4B	00D0	´100	%
Start Addr + 0074	I4C	00D1	´100	%
Start Addr + 0075	I6A	00D2	´100	%
Start Addr + 0076	I6B	00D3	´100	%
Start Addr + 0077	I6C	00D4	´100	%
Start Addr + 0078	I8A	00D5	´100	%
Start Addr + 0079	I8B	00D6	´100	%
Start Addr + 0080	I8C	00D7	´100	%
Start Addr + 0081	I10A	00D8	´100	%
Start Addr + 0082	I10B	00D9	´100	%
Start Addr + 0083	I10C	00DA	´100	%
Start Addr + 0084	I12A	00DB	´100	%
Start Addr + 0085	I12B	00DC	´100	%
Start Addr + 0086	I12C	00DD	´100	%
Start Addr + 0087	I14A	00DE	´100	%
Start Addr + 0088	I14B	00DF	´100	%
Start Addr + 0089	I14C	00E0	´100	%
<Table 4> Data saving address and contetns of Harmonic Measurement

Data Saving Address	Contents (Min/Max Zone)	Modbus address	Scale	Unit
Start Addr + 0000	phase voltage Min A MSB	00E1	´100	V
Start Addr + 0001	LSB	00E2
Start Addr + 0002	phase voltage Min B	00E3	´100	V
Start Addr + 0003		00E4
Start Addr + 0004	phase voltage Min C	00E5	´100	V
Start Addr + 0005		00E6
Start Addr + 0006	phase voltage Max A	00E7	´100	V
Start Addr + 0007		00E8
Start Addr + 0008	phase voltage Max B	00E9	´100	V
Start Addr + 0009		00EA
Start Addr + 0010	phase voltage Max C	00EB	´100	V
Start Addr + 0011		00EC
Start Addr + 0012	voltage Min AB	00ED	´100	V
Start Addr + 0013		00EE
Start Addr + 0014	voltage Min BC	00EF	´100	V
Start Addr + 0015		00F0
Start Addr + 0016	voltage Min CA	00F1	´100	V
Start Addr + 0017		00F2
Start Addr + 0018	voltage Max AB	00F3	´100	V
Start Addr + 0019		00F4
Start Addr + 0020	voltage Max BC	00F5	´100	V
Start Addr + 0021		00F6
Start Addr + 0022	voltage Max CA	00F7	´100	V
Start Addr + 0023		00F8
Start Addr + 0024	phase current Min A	00F9	´1000	A
Start Addr + 0025		00FA
Start Addr + 0026	phase current Min B	00FB	´1000	A
Start Addr + 0027		00FC
Start Addr + 0028	phase current Min C	00FD	´1000	A
Start Addr + 0029		00FE
Start Addr + 0030	phase current Max A	00FF	´1000	A
Start Addr + 0031		0100
Start Addr + 0032	phase current Max B	0101	´1000	A
Start Addr + 0033		0102
Start Addr + 0034	phase current Max C	0103	´1000	A
Start Addr + 0035		0104
Start Addr + 0036	active power Min A	0105	´10	KW
Start Addr + 0037		0106
Start Addr + 0038	active power Min B	0107	´10	KW
Start Addr + 0039		0108
Start Addr + 0040	active power Min C	0109	´10	KW
Start Addr + 0041		010A
Start Addr + 0042	active power Max A	010B	´10	KW
Start Addr + 0043		010C
Start Addr + 0044	active power Max B	010D	´10	KW
Start Addr + 0045		010E
Start Addr + 0046	active power Max C	010F	´10	KW
Start Addr + 0047		0110
Start Addr + 0048	reactive power Min A	0111	´10	KVar
Start Addr + 0049		0112
Start Addr + 0050	reactive power Min B	0113	´10	KVar
Start Addr + 0051		0114
Start Addr + 0052	reactive power Min C	0115	´10	KVar
Start Addr + 0053		0116
Start Addr + 0054	reactive power Max A	0117	´10	KVar
Start Addr + 0055		0118
Start Addr + 0056	reactive power Max B	0119	´10	KVar
Start Addr + 0057		011A
Start Addr + 0058	reactive power Max C	011B	´10	KVar
Start Addr + 0059		011C
Start Addr + 0060	apparent power Min A	011D	´10	KVA
Start Addr + 0061		011E
Start Addr + 0062	apparent power Min B	011F	´10	KVA
Start Addr + 0063		0120
Start Addr + 0064	apparent power Min C	0121	´10	KVA
Start Addr + 0065		0122
Start Addr + 0066	apparent power Max A	0123	´10	KVA
Start Addr + 0067		0124
Start Addr + 0068	apparent power Max B	0125	´10	KVA
Start Addr + 0069		0126
Start Addr + 0070	apparent power Max C	0127	´10	KVA
Start Addr + 0071		0128
Start Addr + 0072	active power Min (A+B+C)	0129	´10	KW
Start Addr + 0073		012A
Start Addr + 0074	active power Max (A+B+C)	012B	´10	KW
Start Addr + 0075		012C
Start Addr + 0076	reactive power Min (A+B+C)	012D	´10	KVar
Start Addr + 0077		012E
Start Addr + 0078	reactive power Max (A+B+C)	012F	´10	KVar
Start Addr + 0079		0130
Start Addr + 0080	apparent power Min (A+B+C)	0131	´10	KVA
Start Addr + 0081		0132
Start Addr + 0082	apparent power Max (A+B+C)	0133	´10	KVA
Start Addr + 0083		0134
Start Addr + 0084	power factor Min (A+B+C)	0135	´1000
Start Addr + 0085		0136
Start Addr + 0086	power factor Max (A+B+C)	0137	´1000
Start Addr + 0087		0138
Start Addr + 0088	frequency Min (A+B+C)	0139	´100	Hz
Start Addr + 0089	frequency Max (A+B+C)	013A	´100	Hz
<Table 5> Data saving address and contetns of Min/Max Measurement

Data Saving Address	Contents	Modbus address	Scale	Unit
Start Addr + 0000	SIN (A+B+C) MSB	013C	´1000
Start Addr + 0001	LSB	013D
Start Addr + 0002	SIN A	013E	´1000
Start Addr + 0003		013F
Start Addr + 0004	SIN B	0140	´1000
Start Addr + 0005		0141
Start Addr + 0006	SIN C	0142	´1000
Start Addr + 0007		0143
Start Addr + 0008	K Factor	0144	X100
<Table 6> Data saving address and contetns of SIN(q)/K Factor Measurement

Data Saving Address	Setting Parameter Contents	Modbus address	Scale	Unit	Input/Output Range
Start Addr + 0000	PT ratio MSB	014A	´1	V	110 ~ 345000
Start Addr + 0001	LSB	014B
Start Addr + 0002	CT ratio	014C	´1	A	5~6600
Start Addr + 0003	PT Type	014D	´1		0 – 2 PT, 1 – 3PT
Start Addr + 0004		014E			don't care
Start Addr + 0005		014F			don't care
Start Addr + 0006	Loop Enable	0150			0-OFF , 1-ON
Start Addr + 0007	Loop Time	0151	´1	Sec	0~99
Start Addr + 0008	PFCON Tap	0152	´1000		500~990
Start Addr + 0009	PFCON C Tap	0153	´100	A	10~250
Start Addr + 0010	PFCON Time	0154	´1	Sec	10~1000
Start Addr + 0011	PFCON Enable	0155			0-Manual, 1-Auto(APFR Enable)
Start Addr + 0012	DO Channel Select	0156			0 - S/W 1ch, APFR 3ch 1 - S/W 2ch 2- APFR 5ch
Start Addr + 0013	APFR Channel Select	0157			0x01 – 1 ch 0x02 – 2 ch 0x04 – 3 ch 0x08 – 4 ch 0x10 – 5 ch
Start Addr + 0014	Local/Remote	0158			0-Local, 1-Remote
Start Addr + 0015	Demand Time	0159	´1	Min	1~60
Start Addr + 0016	Demand Enable	015A			0-OFF, 1-ON
Start Addr + 0017	Demand Hour	015B	´1	Hour	0~23
Start Addr + 0018	Demand Min	015C	´1	Min	0~59
Start Addr + 0019	Demand Sec	015D	´1	Sec	0~59
<Table 7> Data saving address and contetns of Setting Parameter(enable read and write)

If you click the icon in protocol option part, you can see the dialogue box such as <Figure 2>. you can also set read schedule by using this part.

<Figure 2> Example of HPR-VI MODBUS communication driver’s Option dialogue box

You can set read schedule by using , , button and listbox of <Figure 2>.

<Figure 3> Example of HPR-VI MODBUS communication driver’s read schedule Add/Edit dialogue box

When you click Add button or Edit button in dialogue box of <Figure 2>, dialogue box of <Figure 3> is shown.

2. Writing settings

You can set HPR-VI controller by using write settings.

Digital Write

Digital write setting parameters are as follows:

1) PORT Port no. (0 ~ 255)

2) STATION 0 ~ 255 station number of power meter.(you can set by using operation button of fron panel)

3) ADDRESS Writing modubs address.

PT, PT_TYPE, CT, REMOTE, DO, DATE, TIME command – don't care.(fixed according to command),

other command – hex-decimal unit writing Modbus address.

4) Extra1 Write command.

CT – setting of CT Ratio (5 ~ 6600),

PT – setting of PT Ratio (110 ~ 345000 ),

PT_TYPE – setting of PT Type (0 – 2 PT, 1 – 3PT),

DATE – setting of current date (current time : RTC),

TIME – setting of current time (current time : RTC),

RESET- Wh RESET (broadcast to all connected station),

REMOTE- setting of Local/Remote (0 : Local, 1 : Remote),

DO – DO Control (output value : 1, 2, 4, 8, 16 = DO 1 ~ 5 chennel),

other command – 1 Word data writing by Modbus protocol type.

5) Extra2 Don't care.

<Table 8> is modbus address and contents for writing parameters.

Modbus address	Contents	Scale	Input/Output Range
014A	PT ratio MSB	´1	110 ~ 345000
014B	LSB
014C	CT ratio	´1	5~6600
014D	PT Type	´1	0 – 2 PT, 1 – 3PT
0150	Loop Enable		0-OFF , 1-ON
0151	Loop Time	´1	0~99
0152	PFCON Tap	´1000	500~990
0153	PFCON C Tap	´100	10~250
0154	PFCON Time	´1	10~1000
0155	PFCON Enable		0-Manual, 1-Auto(APFR Enable)
0156	DO Channel Select		0 - S/W 1ch, APFR 3ch 1 - S/W 2ch 2- APFR 5ch
0157	APFR Channel Select		0x01 – 1 ch 0x02 – 2 ch 0x04 – 3 ch 0x08 – 4 ch 0x10 – 5 ch
0158	Local/Remote		0-Local, 1-Remote
0159	Demand Time	´1	1~60 minute
015A	Demand Enable		0-OFF, 1-ON
015B	Demand Hour	´1	0~23 hour
015C	Demand Min	´1	0~59 minute
015D	Demand Sec	´1	0~59 second
<Table 8> Modbus address and contents for writing parameters

Write example 1)

PORT:0, station:1, ADDRESS:0000, Extra1:REMOTE, Extra2 :

The setting parameter shown above is a Local(OFF)/Remote(ON) status control example to 1 station HPR-VI power meter controller.

Write example 2)

PORT:0, station:1, ADDRESS:0000, Extra1:RESET, Extra2 :

The setting parameter shown above is Wh reset control example to 1 station HPR-VI power meter controller.

Analog Write

Analog write setting parameters are as follows:

1) PORT Port no. (0 ~ 255)

2) STATION 0 ~ 255 station number of power meter.(you can set by using operation button of fron panel)

3) ADDRESS Writing modubs address.

PT, PT_TYPE, CT, REMOTE, DO, DATE, TIME command – don't care.(fixed according to command),

other command – hex-decimal unit writing Modbus address.

4) Extra1 Write command.

CT – setting of CT Ratio (5 ~ 6600),

PT – setting of PT Ratio (110 ~ 345000 ),

PT_TYPE – setting of PT Type (0 – 2 PT, 1 – 3PT),

DATE – setting of current date and time (current time : RTC),

TIME – setting of current data and time (current time : RTC),

RESET- Wh RESET (broadcast to all connected station),

REMOTE- setting of Local/Remote (0 : Local, 1 : Remote),

DO – DO Control (output value : 1, 2, 4, 8, 16 = DO 1 ~ 5 chennel),

other command – 1 Word data writing by Modbus protocol type.

5) Extra2 Don't care.

Write example 1)

PORT:0, station:1, ADDRESS:0000, Extra1:CT, Extra2 :

The setting parameter shown above is CT ratio setting example of 1 station HPR-VI power meter controller.

Write example 2)

PORT:0, station:1, ADDRESS:0000, Extra1:PT_TYPE, Extra2 :

The setting parameter shown above is PT type(0 : 2PT, 1 : 3PT) setting example of 1 station HPR-VI power meter controller.

Write example 3)

PORT:0, station:1, ADDRESS:0000, Extra1:PT, Extra2 :

The setting parameter shown above is PT ratio setting example of 1 station HPR-VI power meter controller.

Write example 4)

PORT:0, station:1, ADDRESS:0159, Extra1: , Extra2 : , Output Value : 25.0

The setting parameter shown above is Demand Time setting example of 1 station HPR-VI power meter controller.(setting time = 25 minute)

Write example 5)

PORT:0, station:0, ADDRESS:0000, Extra1: TIME, Extra2 :

The setting parameter shown above is Time synchronization example to all connected station HPR-VI power meter controller.

Write example 6)

PORT:0, station:1, ADDRESS:0000, Extra1: TIME, Extra2 : , Output Value : 4.0

The setting parameter shown above is DO 3 channel control example of 1 station HPR-VI power meter controller.(Output Value : 4, DO 3)

3. Connection of communication cable

HPM-V1 controller use 4 wire RS-422 communication cable such as <Figure 4>.

<Figure 4> Communication cable connection diagram between HPM-VI controller and computer

Note) (1) Please be careful polarity of RX, TX. Connect (+) = (+), (-) = (-).

(2) Connect termination resistor at the each end of controller.

(3) If don't exist at computer, please use RS-232C to RS-422 converter.