G-6 LCD ULTIFUNCTION OWR TR with ULS OUTUT / RS-485 Dlease understand key indicators & functions at the first operation. Key Name Right Key & nter Key Left Key & scapte Key Up Key & Demand Switching Key Down Key & Forward / Reverse Watt Switching Key Left Key & scapte Key FRONT ANL & KY FUNCTIONS Symbol SC SC Up Key & Demand Switching Key Descriptions Right Key & nter Key ANUAL Down Key & Forward / Reverse Watt Switching Key 1. In the measuring page, press this key can switch WH& QH value. 2. In the measu ring page, press this key for 3 sec can ent er to pass code page. 3. In the par amet er setting, press this key for 3 sec can modi fy this par amet er. 4. In the parameter setting, press this key can move the cursor right. 5. In the parameter setting, press this key for 3 sec can save the value. 1. In the measuring page, press this key can switch volt & current value. 2. In the measuring page, press this key for 3 sec can switch auto / manual display. 3. In the parameter setting, press this key for 3 sec can escape the page. 4. In the parameter setting, press this key can move the cursor left. 1. In the measuring page, press this key for 3 sec can switch demand value. 2. In the parameter setting, press this key can increase the digits. 1. In the measuring page, press this key for 3 sec can switch forward /reverse watt value. 2. In the parameter setting, press this key can decrease the digits. RSS SC RSS SC RSS SC GNRAL OD ORATING ROCDURS Volta ge & Current 1. R hase Volt 2. S hase Volt 3. T hase Volt 1. R hase Amp 2. S hase Amp 3. T hase Amp! 1 2 W (3LN, 3CT) A N 1A FUS! 1 3 W (3LN, 3CT) A N 5 6 7 8 9 10 la+ lalb+ lb- lc+ lc- B 4 VN 3 VC 2 VB RSS SC RSS SC RSS SC 1 VA 1A FUS Total Harmonics 1. R hase Volt 2. S hase Volt 3. T hase Volt Total Harmonics 1. R hase Amp 2. S hase Amp 3. T hase Amp 1.Crest Factor 2.Watt-Hour 1.Key Factor 2.Watt-Hour Frequ ency ower Factor Demand RSS RSS RSS RSS RSS 1. Total Kw 2. ower Factor 3. Frequency 1. R hase ower Factor 2. S hase ower Factor 3. T hase ower Factor 1. ax. of KW 2. ax. of KVar 3. ax. of KVA 1. R hase ax. Current demand 2. S hase ax. Current demand 3. T hase ax. Current demand WIR CONNCTION! 3 3 W (2LL, 2CT) A B C 1A FUS 1A FUS 5 6 7 8 l11 l12 l21 l22 4 VN 9 l31 G 10 l32 11 3 V3 2 V2 1 V1! 3 3 W ( 2LL, 3CT) A B C RSS RSS RSS RSS RSS 1A FUS ower 1. R hase Active ower(kw) 2. S hase Active ower(kw) 3. T hase Active ower(kw) 1. R hase Reactive ower(kvar) 2. S hase Reactive ower(kvar) 3. T hase Reactive ower(kvar) 1. Instantaneous R hase (KVA) 2. Instantaneous S hase (KVA) 3. Instantaneous T hase (KVA) 1. Total KW 2. Total KVar 3. Total KVA! 3 4 W (3LN, 3CT) A B C N 1A FUS 1A FUS 5 6 7 8 9 10 la+ lalb+ lb- lc+ lc- 4 VN 3 VC 2 VB 1 VA 5 la+ 6 la- 4 3 2 1 VN VC VB VA 5 la+ 6 la- 4 3 2 1 VN VC VB VA 7 lb+ 7 lb+ 8 lb- 8 lb- 9 lc+ 9 lc+ 10 lc- 10 lc- 1 2
Setting Gup cedures KY FUNCTIONS SC scapte Key(3secs) & Left Key Up Key & Demand Switching Key Down Key & Forward / Reverse Watt Switching Key nter Key(3secs) & Right Key RSS RSS RSS ass Code (Default: 1000) Address Setting (1~247) T rimary Ratio Setting Select the ulse Output Option by or key (k/kvarh) Select the ulse Rate Option 1 ulse = 0.001/0.01/0.1/1/ 10/100/1000k/kVArh Change ass Code (1~9999) Auto Switch ages (9000/8000/7000/6000/5000/ 4000/3000/2000/1000/500ms) RSS T hase Forward Current Setting (Frd/rV) RSS RSS RSS RSS The options for AO1 output : NO/I/U(No output/current/ower) Use or to select Volta ge(v)/current(i) Harmonic checking ress or to select the phase 1:hase A/L1 2:hase B/L2 3:hase C/L3 ress or to select the THD% (02~60) RSS RSS Baud Rate Setting (2400, 4800,9600, 19200, 38400) Select the arity Option (ODD,VN,NON) Select the ulse Width Option (200/100/60ms) Select the DIT Option (OFF:0/5/8/10/ 15/30/60m) S hase Forward Current Setting (Frd/rV) R hase Forward Current Setting (Frd/rV) The options for AO 2 output : NO/I/U(No output/current/ower) Use or to select AO 1 4mA analog output signal correction ress key for and adjust to 4mA by or Select the Stop Bit Option (1,2) Status Setting (12/33/34) RSS Time Setting AO 2 4mA analog output signal correction ress key for and adjust to 4mA by or CT Secondary Actual Value Setting (1A/5A) Clear Watt-Hour Value ( Yes) Date Setting AO 1 20mA analog output signal correction ress key for and adjust to 20mA by or CT rimary Ratio Setting (0005~9999) x. If CT is 300:5 Ct1 set to 300 T Secondary Actual Value Setting Clear KVar-Hour Value (Yes) Select the Reset Option (YS) RSS eriod 1 start time information The format is HH- Showing tariff which period 1 belongs to F0:no tariff F1~F4 AO 2 20mA analog output signal correction ress key for and adjust to 20mA by or 3 4
1 Input register odbus X835-AO Input Register 3 3 1 tocol Start arameter Ø Ø Ø Address arameter Address Hex (Register) Number Hi Lo 4 3 2 Description Units Byte Byte W W W 30001 1 hase 1 line to neutral volts. Volts 00 00 X 30003 2 hase 2 line to neutral volts. Volts 00 02 X X 30005 3 hase 3 line to neutral volts. Volts 00 04 X X 30007 4 hase 1 current. Amps 00 06 30009 5 hase 2 current. Amps 00 08 X 30011 6 hase 3 current. Amps 00 0A X 30013 7 hase 1 power. Watts 00 0C X 30015 8 hase 2 power. Watts 00 0 X 30017 9 hase 3 power. Watts 00 10 X X 30019 10 hase 1 volt amps. VoltAmps 00 12 X 30021 11 hase 2 volt amps. VoltAmps 00 14 X X 30023 12 hase 3 volt amps. VoltAmps 00 16 X X 30025 13 hase 1 volt amps reactive. VAr 00 18 X 30027 14 hase 2 volt amps reactive. VAr 00 1A X X 30029 15 hase 3 volt amps reactive. VAr 00 1C X X 30031 16 hase 1 power factor (1). None 00 1 X 30033 17 hase 2 power factor (1). None 00 20 X X 30035 18 hase 3 power factor (1). None 00 22 X X 30037 19 hase 1 phase angle. Degrees 00 24 X 30039 20 hase 2 phase angle. Degrees 00 26 X X 30041 21 hase 3 phase angle. Degrees 00 28 X X 30043 22 Average line to neutral volts. Volts 00 2A X X 30047 24 Average line current. Amps 00 2 30049 25 Sum of line currents. Amps 00 30 30053 27 Total system power. Watts 00 34 30057 29 Total system volt amps. VA 00 38 30061 31 Total system VAr. VAr 00 3C 30063 32 Total system power factor (1). None 00 3 30067 34 Total system phase angle. Degrees 00 42 30071 36 Frequency of supply voltages. Hz 00 46 30073 37 Import since last reset (2). k/ 00 48 30075 38 xport since last reset (2). kwh/ 00 4A 30077 39 Import VArh since last reset (2). kvarh/va 00 4C rh 30079 40 xport VArh since last reset (2). kvarh/va 00 4 rh 30081 41 VAh since last reset (2). kvah/va 00 50 h 30083 42 Ah since last reset(3). Ah/kAh 00 52 5 30085 43 Total system power demand Watts 00 54 (4). 30087 44 aximum total system power Watts 00 56 demand (4). 30101 51 Total system VA VA 00 64 30103 52 aximum total system VA VA 00 66 30105 53 Neutral current Amps 00 68 X X 30107 54 aximum neutral current Amps 00 6A X X 30201 101 Line 1 to Line 2 volts. Volts 00 C8 X 30203 102 Line 2 to Line 3 volts. Volts 00 CA X 30205 103 Line 3 to Line 1 volts. Volts 00 CC X 30207 104 Average line to line volts. Volts 00 C X 30225 113 Neutral current. Amps 00 0 X X 30235 118 hase 1 L/N volts THD % 00 A X 30237 119 hase 2 L/N volts THD % 00 C X X 30239 120 hase 3 L/N volts THD % 00 X X 30241 121 hase 1 Current THD % 00 F0 30243 122 hase 2 Current THD % 00 F2 X 30245 123 hase 3 Current THD % 00 F4 X 30249 125 Average line to neutral volts % 00 F8 X THD. 30251 126 Average line current THD. % 00 FA 30255 128 -Total system power factor (5). Degre 00 F es 30259 130 hase 1 current Amps 01 02 30261 131 hase 2 current Amps 01 04 X 30263 132 hase 3 current Amps 01 06 X 30265 133 aximum phase 1 current Amps 01 08 30267 134 aximum phase 2 current Amps 01 0A X 30269 135 aximum phase 3 current Amps 01 0C X 30335 168 Line 1 to line 2 volts THD. % 01 4 X 30337 169 Line 2 to line 3 volts THD. % 01 50 X 6
1 Input register 30339 170 Line 3 to line 1 volts THD. % 01 52 X 30341 171 Average line to line volts THD. % 01 54 X 30343 172 Total kwh % 01 56 30345 173 Total kvarh % 01 58 30399 200 Current KF 01 8 X 30401 201 Voltage CF 01 90 X 30403 202-260 Ua 2-60 THD % 01 92 30521 261-319 Ub 2-60 THD % 02 08 X 30639 320-378 Uc 2-60 THD % 02 7 X 30757 379-437 Ia 2-60 THD % 02 F4 30875 438-496 Ib 2-60 THD % 03 6A X 30993 497-555 Ic 2-60 THD % 03 0 X 31199 600 TI1 import wh k/ 04 A 31201 601 TI2 import wh k/ 04 B0 31203 602 TI3 import wh k/ 04 B2 31205 603 TI4 import wh k/ 04 B4 31207 604 TI1 export wh k/ 04 B6 31209 605 TI2 export wh k/ 04 B8 31211 606 TI3 export wh k/ 04 BA 31213 607 TI4 export wh k/ 04 BC 31215 608 TI1 import varh kvarh/ 04 B VArh 31217 609 TI2 import varh kvarh/ 04 C0 VArh 31219 610 TI3 import varh kvarh/ 04 C2 VArh 31221 611 TI4 import varh kvarh/ VArh 04 C4 31223 612 TI1 export varh kvarh/ VArh 31225 613 TI2 export varh kvarh/ VArh 31227 614 TI3 export varh kvarh/ VArh 31229 615 TI4 export varh kvarh/ VArh 31231 616 Net Real energy k/ 31233 617 Net reactive energy kvarh/ VArh 31235 618 Abs real energy k/ 31237 619 Abs reactive energy kvarh/ VArh 31239 620 aximum demand occurred k/ at a time DD HH IN 04 C6 04 C8 04 CA 04 CC 04 C 04 D0 04 D2 04 D4 04 D6 7 8
2 od bus tocol Holding Registers and Digital meter set up Address arameter arameter odbus tocol Start Register Number Address Hex Valid range ode High Byte Low Byte 40001 1 Read minutes into first demand calculation. en the Demand Demand 00 00 Time reaches the Demand Time eriod then the demand values Ro are valid. 40003 2 Write demand period: 0, 5,8, 10, 15, 20, 30 or 60 minutes, default 60. Setting the period to 0 will Demand cause the demand to show the 00 02 eriod current parameter value, and demand max to show the maximum parameter value since last demand reset. 40007 4 Read system voltage, VLL for 00 06 Volts 33W, VLN for others. 40009 5 Write system current, limited to 1 00 06 to 9999A.Requires password, Current see parameter 13 40011 6 Write system type: 3p4w = 3, 3p3w = 2 & 1p2w= 1 00 08 Type Requires password, see parameter 13 p 40013 7 Relay ulse Width 00 OA Write relay on period in milliseconds: 60, 100 or 200, default 200. p Write any value to password lock ptected registers. 40015 8 Read password lock status: assword 00 O 0 = locked. 1 = unlocked. Lock Reading will also reset the password timeout back to one minute. 9 40019 10 Network arity Stop 00 12 40021 11 Network Node 00 14 40023 12 ulse Divisor 00 16 40025 13 assword 00 18 40029 15 Network Baud Rate 00 1C nergy 40031 16 Units 00 1 refix 10 Write the network port parity/stop bits for ODBUS tocol, where: 0 = One stop bit and no parity, default. 1 = One stop bit and even parity. 2 = One stop bit and odd parity.3 = Two stop bits and no parity.requires a restart to become effective. Write the network port node address: 1 to 247 for ODBUS tocol, default 1. Requires a restart to become effective. Note, both the ODBUS tocol and Johnson Contls node addresses can be changed via the display setup menus. Write pulse divisor index: n = 2 to 6 in /l0^n, default 3. Write password for access to ptected registers. Read ze. Reading will also reset the password timeout back to one minute. Default password is 0000. Write the network port baud rate for ODBUS tocol, where: 0 = 2400 baud. 1 = 4800 baud. 2 = 9600 baud, default. 3 = 19200 baud. 4 = 38400 baud. Requires a restart to become effective Write the units prefix for energy output values. 0 = k, e.g. k, default. But Ah for ampere hours. 1 =, e.g.. But kah for ampere hours.
2 od bus tocol Holding Registers and Digital meter set up 40037 19 40041 21 40043 22 40045 23 ower Register Order Serial Number Hi Serial Number Lo 00 24 00 28 00 2A 00 2C Read the total system power, e.g. for 3p4w returns Volts x Amps x 3. Write the value 2141 in the required register order. Read the first pduct serial number. Read the second pduct serial number. 40257 129 Time 01 00 Format :BCD Code 130806122030 mean At 12:20:30 on August 6, 2013 A total of 8 hours: For example: rate Start time time1: 01 07:00 time2: 02 09:00 time3: 03 12:00 time4: 04 14:00 Write ODBUS tocol time5: 01 17:00 40087 44 40089 45 Relayl nergy Type Relay2 nergy Type Reset 00 56 00 58 input parameter for pulse relay 1: 0 = relay off, 37 = Import or 39 = Import VArh, default 37. ODBUS tocol input parameter for pulse relay 2: 0 = relay off, 37 = Import or 39 = Import VArh, default 37. Write code to reset data gup. Code 1 for nergy. Code 2 for 40260 130 Rates and the period setting 01 03 time6: 02 19:00 time7: 03 21:00 time8: 04 22:00 Less than eight hours, only the fnt set Behind both complement 0; For example: rate Start time time1: 01 07:00 time2: 02 20:00 40217 109 Logged 00 D8 Demand aximums. Code 3 for time3: 00 00:00 Data Demand aximums and Demand Time. time4: 00 00:00 time5: 00 00:00 time6: 00 00:00 time7: 00 00:00 time8: 00 00:00 12 WORD BCD AO1 00 no output 40289 145 output 01 20 01 current 02 Active power settings AO2 00 no output 40290 146 output 01 21 02 current 02 Active power settings 11 12