background image

29

4

Quadrant 

Energy Analyzer

4

Quadrant 

Energy Analyzer

•  Network

•  Device

•  Energy

•  Digital input

•  Digital output

•  Communication

•  Alarm

•  Clear

The user can scroll inside the menus by pressing up and down keys. Press OK key in order 

to access contents of each submenus (the submenus under the setup menu) .

In order for the new settings to be accepted by KLEA and stored in the memory, operator should 

navigate back (by pressing X key) to Startup Screen from the tab at which change has been made. 

When the operator returns to Startup page, “Settings changed. Save?” message will appear on 

the screen. If OK is pressed, changes will be accepted and stored in permanent memory. If X key is 

pressed, the changes will not be accepted by KLEA and will not be stored in permanent memory.

When “Settings changed. Save?” message appears on KLEA screen; if OK is pressed, 

setting changes will be accepted and stored in permanent memory. If X key is pressed, 

the changes will not be accepted and will not be stored in permanent memory.

Settings changed. 

Save? 

OK

X

Fig. 3-12 KLEA Save Query

3.2.1.1.1  Network Menu

Electrical network related settings are accomplished in this menu.

V1

V2

V3

V

V

V

A

A

A

I

1

I

2

I

3

1 7 : 2 2

0.0

0.0

220.0

5.0

5.0

5.0

V

1 2 3

I

1

2

1

2

E

Setup

Date / Time

System info

Password

Restart

Default settings

Settings

Measure Meters

Alarms  Analysis

Network 

Device

Energy 

Digital input

Digital output

Communication

Alarm

Clear

Settings->Setup->Network

CTR  

10

VTR 1.0

Connection 

3phase 4wire

Demand period 

15 

min

Power unit 

Kilo

Fig. 3-13 Network Menu

SECTION  3 MENUS

Summary of Contents for Klea 320P-D

Page 1: ...1 4Quadrant Energy Analyzer 1 KLEA Network Analyzer User Manual 4Quadrant Energy Analyzer...

Page 2: ...Power on Settings 22 3 1 1 Dil Language 22 3 1 2 Date 23 3 1 3 Time 24 3 1 4 Current Transformer Ratio CTR 24 3 1 5 Voltage Transformer Ratio VTR 25 3 1 6 Connection 26 3 1 7 Start 27 3 2 Startup Scre...

Page 3: ...6 Input 6 Menu optional 43 3 2 1 1 4 7 Input 7 Menu optional 43 3 2 1 1 5 Digital Output Menu 43 3 2 1 1 5 1 Output1 Menu 44 3 2 1 1 5 2 Output2 Menu 46 3 2 1 1 5 3 Output3 Menu optional 46 3 2 1 1 5...

Page 4: ...2 1 2 Active power menu 69 3 2 2 2 1 3 Reactive power menu 69 3 2 2 2 1 4 Apparent power menu 69 3 2 2 2 2 1 month Ago Menu 69 3 2 2 2 3 2 Months Ago Menu 70 3 2 2 2 4 3 Months Ago Menu 70 3 2 2 3 Ph...

Page 5: ...NGS 119 SECTION 6 TECHNICAL SPECIFICATIONS 123 FIGURES Figure 1 1 KLEA Display 12 Figure 1 2 Four Quadrant Representation 13 Figure 2 1 Mounting KLEA into the Panel 16 Figure 2 2 Fixing KLEA to the pa...

Page 6: ...put1 Counter 41 Figure 3 32 Delay 42 Figure 3 33 Tariff 1 or Tariff 2 ctivation 42 Figure 3 34 Digital Output Menu 43 Figure 3 35 Digital Output Menu optional digital I O model 44 Figure 3 36 Output1...

Page 7: ...Harmonics in Graphical Format 72 Figure 3 80 Imp Active Menu 73 Figure 3 81 Imp Active Energy Page 73 Figure 3 82 T1 rate1 import active energy 74 Figure 3 83 T1 rate2 import active energy 74 Figure 3...

Page 8: ...8 4Quadrant Energy Analyzer SECTION 1 GENERAL INFORMATION 4Quadrant Energy Analyzer...

Page 9: ...r leads be sure that they are short circuited elsewhere or connected to a parallel load which has sufficie tly low impedance Otherwise dangerously high voltages will be inducedatthecurrenttransformerl...

Page 10: ...lock for digital output and RS485 B GND1 A DO1 DO1 DO2 DO2 2 pcs 10 pin female terminal block for digital IO optional KLEA 606101 product DO3 DO3 DI3 GND3 1 pc 4 pin female terminal block for two anal...

Page 11: ...y There are 6 keys and 160x240 graphical LCD on the front panel By means of them device settings and monitoring of measurement values can eaClear y be accomplished 1 5 KleaCom Software Operator can re...

Page 12: ...arm in the system at the same time this symbol shall appear on the screen 1 stands for 1st Alarm Relay and 2 stands for 2nd Alarm Relay 9 KLEA digital output symbol 1 indicates digital output 1 and 2...

Page 13: ...ive QUADRANT 1 P positive Q positive inductive Cos inductive PF positive QUADRANT 2 P negative Q positive capacitive Cos capacitive PF negative Meters Imp Active Cap Reactive Meters Exp Active Cap Rea...

Page 14: ...14 4Quadrant Energy Analyzer SECTION 2 INSTALLATION 4Quadrant Energy Analyzer...

Page 15: ...stallation Assembly and related connections of KLEA must be implemented by authorized persons in accordance with the instructions of user manual The device must not be put into service if the operator...

Page 16: ...2 and 1 5mm2 screwed female terminal blocks connected to fixed male terminal blocks on KLEA Remove female terminal blocks and loosen their screws Fig 2 3 Loosening of Terminal Block Screws Before wiri...

Page 17: ...Otherwise dangerously high voltages will be induced at the current transformer leads Same phenomena also apply for putting into service The cable is placed into the related opening Fig 2 4 Inserting...

Page 18: ...connect K and L ends of the current inputs belonging to the related phase s After that check that all values are positive on Measure Instantaneous Active Power screen If KLEA is placed in a panel whic...

Page 19: ...nt Measurement Inputs Voltage Measurement Inputs 2A 2A 2A L1 L2 L3 k1 k2 l1 l2 k3 l3 Fig 2 7 KLEA 3 Phase Delta Connection Diagram 2 3 3 Three Phase No Neutral Aron Connection Current Measurement Inpu...

Page 20: ...nnected to the current measuring inputs L1 and L3 are used in the figure above 2 3 4 Digital Output Connection Diagram DO DO External DC Power Supply must be connected 5 30VDC load Fig 2 9 Digital Out...

Page 21: ...21 4Quadrant Energy Analyzer SECTION 3 MENUS 4Quadrant Energy Analyzer...

Page 22: ...ressed on this tab T rk e English and P options appear on the screen as seen below Operator can scroll inside the options by pressing up and down keys and then should press OK to select the desired op...

Page 23: ...alues Press OK key to complete date setting Startup Settings Language English Date 07 January 2013 Time 17 45 28 CTR 1 VTR 1 0 Connection 3phase 4wire Start Fig 3 3 Date Example In order to enter 7 Ja...

Page 24: ...Low limit 1 High limit 5000 1 2 3 4 5 6 7 8 9 0 ok clr Fig 3 5 Current Transformer Ratio Use arrow keys left right up and down of Klea to navigate inside the virtual keyboard In order to enter any num...

Page 25: ...nter the integer part of the decimal number first Then scroll inside virtual keyboard till box is highlighted Press OK key of Klea to insert the decimal point Following the point enter the decimal par...

Page 26: ...ate measurements current transformer ratio should be entered correctly 3 1 6 Connection This menu contains information about how to connect KLEA to the panel electrical network There are 3 connection...

Page 27: ...s page only appears when KLEA is powered up for the first time after factory production Following this first initialization all the required settings including first power on page settings can be acco...

Page 28: ...RON connection is selected VL N voltages are shown in startup screen When3phase 3wireconnectionisselected VL Lvoltagesareshowninstartupscreen 3 2 1 Settings KLEA settings are made in this menu Select...

Page 29: ...beacceptedbyKLEAandwillnotbestoredinpermanentmemory When Settings changed Save message appears on KLEA screen if OK is pressed settingchangeswillbeacceptedandstoredinpermanentmemory IfXkeyispressed th...

Page 30: ...ratio should be entered correctly 3 2 1 1 1 2 Voltage Transformer Ratio In this submenu voltage transformer ratio is entered Inside Network menu press up and down keys to select VTR Press OK key and K...

Page 31: ...VTR 1 0 Connection 3phase 4wire Demand period 15 min Power unit Kilo 3phase 4wire 3phase 3wire Aron Fig 3 16 Connection 3 2 1 1 1 4 Demand Period Inside Network menu press up and down keys to select...

Page 32: ...3phase 4wire Demand period 15 min Power unit Kilo Mega Kilo Fig 3 18 Power Unit Setup 3 2 1 1 2 Device Menu In this menu following settings can be accomplished Language Contrast New Password Display o...

Page 33: ...e P English Fig 3 20 Language Selection 3 2 1 1 2 2 Contrast Inside Device menu press up and down keys to select highlight Contrast menu item Press OK key and contrast levels will appear on the screen...

Page 34: ...it 9999 1 2 3 4 5 6 7 8 9 0 ok clr Pass protection Off Fig 3 22 Entering New Password 3 2 1 1 2 4 Display on Selection Continuous Time dependent If continuous is selected the backlight of KLEA graphic...

Page 35: ...1000 0 kWh T1 kWh E 1000 0 kWh T1 kVArh Imp I 1000 0 kVArh T1 kVArh Imp C 1000 0 kVArh T1 kVArh Exp I 1000 0 kVArh T1 kVArh Imp C 1000 0 kVArh T2 kWh 1000 0 kWh Fig 3 24 Energy Menu 3 2 1 1 3 1 T1_1 s...

Page 36: ...he second time slice of tariff 1 me er T1_2 start time can be adjusted between 0 23 for Virtual Keyboard Refer to 3 1 4 E g T1 rate2 meter the second time slice of T1 meter T1_2 counts between T1_2 st...

Page 37: ...gy T1_1 start time 8 hr T1_2 start time 16 hr T1_3 start time 0 hr Start of day 0 hr Start of month 1 T1 kWh 1000 0 kWh T1 kWh E 1000 0 kWh T1 kVArh Imp I 1000 0 kVArh T1 kVArh Imp C 1000 0 kVArh T1 k...

Page 38: ...energy by multiplying with CTR and VTR values User should take this fact into account when entering the below intial energy values 3 2 1 1 3 6 T1 kWh Initial value for meter of Imp Active T1 can be en...

Page 39: ...modebus address Related ModeBus addresses are given below For more information refer to Table 4 4 2032 modebusaddress Initial energyvalueformeterof Imp active T1rate1 canbeentered 2034 modebusaddress...

Page 40: ...nu Digital input menu consists of Input1 and Input2 menus KLEA digital inputs are used in order to activate Tariff 2 me er and or to count a digital signal V1 V2 V3 V V V A A A I1 I2 I3 17 22 0 0 0 0...

Page 41: ...cted as the mode setting Under this condition when digital input 1 is short circuited activated tariff 1 meter will stop and tariff 2 me er will start to count Assume that for digital input 1 Counter...

Page 42: ...hort circuited for minimum 200 msec Input 1 Counter increments by 1 E g Digital input Input1 Mode Tariff Delay 200 msec In order for theTariff 2 meter to be active DI1 and GND pins should be short cir...

Page 43: ...operates with DI5 and GND pins 3 2 1 1 4 6 Input 6 Menu optional Input 6 is applicable to optional digital IO Klea models Input 6 applications and settings are the same as Input1 Digital input6 operat...

Page 44: ...ut5 Output6 Output7 Fig 3 35 Digital Output Menu optional digital I O model 3 2 1 1 5 1 Output1 Menu Output1 gives output from D01 and D01 pins Mode Press up and down keys to navigate between digital...

Page 45: ...lier is of use only when Output1 mode is adjusted as Digital input When digital input1 counter Refer to Digital Input 3 2 3 2 reaches the multiplier digital output1 generates a pulse from DO1 and DO1...

Page 46: ...are the same as Output1 Output generates pulse from DO2 and DO2 pins 3 2 1 1 5 3 Output3 Menu optional Output 3 applications and settings are the same as Output1 Output3 generates pulse from DO3 and D...

Page 47: ...alog output channels for the following parameters voltage current active power reactive power apparent power frequency phase phase voltages neutral current total current total active power total react...

Page 48: ...iplier 1 Fig 3 38 Output1 3 2 1 1 6 1 1 Input mode Analog output will generate a signal in accordance with the parameter selected in Input mode tab Analog output examples will clarify the application...

Page 49: ...40 will appear on the screen Press up and down keys to select the desired option and press OK key to complete the setting Settings Setup Analog output Output1 Input mode V1 L N Output conn 0 5V Min v...

Page 50: ...be set to ON If both switches are ON or OFF at the same time analog output will not operate correctly If the setting of output connection and setting of the dip switch are incompatible related analog...

Page 51: ...y up to 2 5 of its value In summary output signals from AOX GND pins will operate as follows 0 5 V 0 5 125 V output signal low value will not fall below zero 5 5 V 5 125 5 125 V 0 10 V 0 10 25 V outpu...

Page 52: ...AO1 GND 5 0 x 120 100x1 0 1V olur 200 KLEA V1 L N 185V the result will be as follows 100 x1 AO1 GND 5 0 x 185 100x1 0 4 25V olur 200 100 x1 E g 2 Assume that the following have been assigned Input con...

Page 53: ...g output 3 settings are the same as Output1 Analog output gives output from AO3 GND pins 3 2 1 1 6 4 Output 4 Menu Output 4 Menu Settings ve kullan m Output 1 Menu ile ayn d r Analog Output AO4 GND ze...

Page 54: ...the slave ID For Virtual Keyboard Refer to 3 1 4 E g Slave Id 1 Fig 3 46 Slave Id KLEA can operate in an RS 485 network having a maximum quantity of 247 units As a result Slave Id can be adjusted bet...

Page 55: ...n alarm occurs For alarm relay setting following options are available Off In case of V L N alarm none of the alarm relaysis energized Relay1 In case of V L N alarm relay 1 is energized Relay2 In case...

Page 56: ...arm will be deactivated no alarm will be set Delay When the related alarm parameter exceeds the Low limit or High Limit value before declaring an alarm Klea waits for delay time Similarly when the rel...

Page 57: ...30000 3 2 1 1 8 4 P Menu Alarm for active power is adjusted in this submenu P settings are the same as V L N Low and high limit values can be adjusted between 100000000000 10000000000 3 2 1 1 8 5 Q M...

Page 58: ...usted in this submenu Frequency settings are the same asV L N Low and high limit values can be adjusted between 35 70 3 2 1 1 8 11 Temp Menu Alarm for temperature is adjusted in this submenu Temperatu...

Page 59: ...HDV hi limit 0 0 V3 hi limit 0 0 V5 hi limit 0 0 V7 hi limit 0 0 V9 hi limit 0 0 V11 hi limit 0 0 V13 hi limit 0 0 V15 hi limit 0 0 V17 hi limit 0 0 V19 hi limit 0 0 V21 hi limit 0 0 Delay 60 sec Fig...

Page 60: ...enu Delay setting 3 2 1 1 8 13 Harmonics I Menu Harmonics I settings are the same as the Harmonics V alarm settings 3 2 1 1 9 Clear Menu In this tab operator can clear demand values energy tariff mete...

Page 61: ...mp Active T1 Import active power submenu is as shown below Meters Imp active T1 267500 1 kWh T1 rate 1 0 0 kWh T1 rate 2 0 0 kWh T1 rate 3 0 0 kWh T2 0 0 kWh Fig 3 59 Before Clear When the clear proce...

Page 62: ...Wh T2 0 0 kWh Fig 3 61 Initial Value After Clear Process 3 2 1 2 Date Time Menu In the following menu Date Time setting is made For date time setting Refer to 3 1 4 E g Settings Date Time Time 17 22 1...

Page 63: ...password only Date Time System Info and Password tabs are active inside settings menu In order for the remaining tabs to be activated operator should login via Password tab If the entered password is...

Page 64: ...ssumed to be a setting As a result index values will not be cleared via this menu Default settings will be assigned Are you sure V1 V2 V3 V V V A A A I1 I2 I3 17 22 0 0 0 0 220 0 5 0 5 0 5 0 V 1 2 3 I...

Page 65: ...ys 220 0 Measure Instantaneous V L N V1 V V2 220 0 V V3 220 0 V Vo 220 0 V Powers V L N V L L Fig 3 68 Instantaneous Menu Line to neutral V L N voltage for each phase and their average Line to line V...

Page 66: ...ed on a panel which generates power the values in Measure Instantaneous P page should be negative Otherwise K L leads of the current should be cross connected P1 Measure Instantaneous P 1100 0 W P2 11...

Page 67: ...ir totals for the current present month V3 V V V A A A I1 I2 I3 17 22 0 0 220 0 220 0 0 0 5 0 5 0 V I 1 2 3 1 2 1 2 E Current V3 V V V A A A I1 I2 17 22 I3 0 0 220 0 220 0 5 0 5 0 5 0 V I 1 2 3 1 2 1...

Page 68: ...VArh T2 kWh 1000 0 kWh Fig 3 73 Example of Current Month Menu 3 2 2 2 1 1 Current Menu This menu shows demand values of currents of each phase and the demand value for the sum of phase currents Date a...

Page 69: ...will be as follows 05 07 00 15 14 59 The 1st demand period 15 14 59 15 29 59 The 2nd demand period 15 29 59 15 44 59 The 3rd demand period 15 44 59 15 59 59 The 4th demand period 15 59 59 16 14 59 The...

Page 70: ...mesizecircleshavebeenaddedtotheendsoflinesbelonging to the same phase Thus it will be easy to follow currents and voltages of a phase V2 V3 V V V A A A I1 I2 I3 17 22 150 2 150 0 3 0 3 0 3 0 V I 1 2 3...

Page 71: ...3 1 2 1 2 E Measure Meters Alarms Analysis Instantaneous Demand Phasor diagram Signals Harmonics Fig 3 77 Harmonics Menu 3 2 2 5 1 Table Menu Current and voltage harmonics of each phase are displayed...

Page 72: ...sure Harmonics V1 20 15 10 5 1 21 11 31 41 51 I3 V1 V2 Fig 3 79 Harmonics in Graphical Format 3 2 3 Meters Menu In this menu the energy values of Tariff 1 and Tariff 2 me ers are displayed Imp active...

Page 73: ...Active Menu 3 2 3 1 1 T1 Tab Import active energy values that belongs T1 are displayed as seen in the following figure Meters Imp active T1 kWh 302500 0 T1 rate1 kWh 99250 0 T1 rate2 98350 0 kWh T1 r...

Page 74: ...T1_2 start time and T1_3 start time Refer to 3 2 1 1 3 2 and 3 2 1 1 3 3 for T1_2 start time and T1_3 start time settings Meters Imp active T1 kWh 302500 0 T1 rate1 kWh 99250 0 T1 rate2 98350 0 kWh T...

Page 75: ...Wh T1 rate3 kWh 104900 0 T2 3506 0 kWh Fig 3 85 Tariff 2 impo t active energy While Tariff 2 me er is active Tariff 1 T1 rate1 T1 rate2 T1 rate3 meters are not active mutually exclusive In order for T...

Page 76: ...ers Digital input 4 Counter 1 2 Counter 2 0 Counter 3 0 Counter 4 0 Counter 5 0 Counter 6 0 Counter 7 Fig 3 86 Digital Input Menu Dijital IO opsiyonlu model KLEA base model has2 optional digital IO mo...

Page 77: ...the related alarm parameter E g Assume that 100 VAC is assigned as low limit for V L N for phase1 phase2 and phase3V L N voltages and again assume that phase3 voltage falls below 100VAC in the system...

Page 78: ...Alarm I Normal P Normal Q Normal S Normal Cos Normal Normal PF V harmonics Normal THDV Normal Normal I harmonics THDI Normal F Normal Fig 3 88 Phase1 Menu In Phase1 menu following alarm statuses are...

Page 79: ...VLL23 Normal VLL31 Normal IN Alarm Normal Temperature Battary Normal Fig 3 89 Other Menu In Other menu following alarm statuses are monitored VLL12 phase1 phase2 voltage VLL23 phase2 phase3 voltage VL...

Page 80: ...nu It consists of hourly daily and monthly submenus V1 V2 V3 V V V A A A I1 I2 I3 17 22 220 0 220 0 220 0 5 0 5 0 5 0 V 1 2 3 I 1 2 1 2 E Analysis Average Minimum Maximum Hourly Daily Monthly Fig 3 91...

Page 81: ...31 phase3 phase1 voltage 3 2 5 1 2 Daily Menu Thismenudisplaystheminimuminstantaneousvaluesmeasured calculatedfromstartof day Refer to 3 2 1 1 3 4 up to present time Its submenus are the same as Hourl...

Page 82: ...82 4Quadrant Energy Analyzer SECTION 4 MODBUS PROTOCOL 4Quadrant Energy Analyzer...

Page 83: ...4 2 Computer Connection KLEA can communicate with PCs via USB RS85 or RS232 RS485 converters PC USB RS485 or RS232 RS485 converter Fig 4 2 Connection of KLEA to a PC 4 3 Message Format and Data Types...

Page 84: ...Significant Bit int 32 bit integer value Byte order starts from the lowest byte address as b0 b1 b2 and so on float It is a 32 bit flo ting point number in IEEE 754 standard string Character array in...

Page 85: ...alue high 1 and low 1 constitute a 32 bit value This value should be converted typecasted to a flo t value The flo t value of the mentioned 32 bit variable is 221 2143555 Tablo 4 4 Read only Data Addr...

Page 86: ...lo t 70 L1 V Harmonics23 Phase1 voltage 23th harmonic RO 32 bit flo t 72 L1 V Harmonics25 Phase1 voltage 25th harmonic RO 32 bit flo t 74 L1 V Harmonics27 Phase1 voltage 27th harmonic RO 32 bit flo t...

Page 87: ...e RO V 32 bit flo t 154 L2 I Phase2 current RO A 32 bit flo t 156 L2 P Phase2 active power RO W 32 bit flo t 158 L2 Q Phase2 reactive power RO VAr 32 bit flo t 160 L2 S Phase2 apparent power RO VA 32...

Page 88: ...19th harmonic RO 32 bit flo t 246 L2 I Harmonics21 Phase2 current 21th harmonic RO 32 bit flo t 248 L2 I Harmonics23 Phase2 current 23th harmonic RO 32 bit flo t 250 L2 I Harmonics25 Phase2 current 25...

Page 89: ...onics45 Phase3 voltage 45th harmonic RO 32 bit flo t 342 L3 V Harmonics47 Phase3 voltage 47th harmonic RO 32 bit flo t 344 L3 V Harmonics49 Phase3 voltage 49th harmonic RO 32 bit flo t 346 L3 V Harmon...

Page 90: ...kVArh 32 bit flo t 434 Reactive R2 T1_2 Reactive Region 2 Tariff 1 ate2 meter RO kVArh 32 bit flo t 436 Reactive R3 T1_2 Reactive Region 3 Tariff 1 ate2 meter RO kVArh 32 bit flo t 438 Reactive R4 T1_...

Page 91: ...Reactive Power Timestamp RO 32 bit unix time 524 Curr Month L3 S Current Month Phase 3 Apparent Power RO VA 32 bit flo t 526 Curr Month L3 S time Current Month Phase 3 Apparent PowerTimestamp RO 32 bi...

Page 92: ...2 Months Ago Phase 1 Reactive Power Timestamp RO 32 bit unix time 620 2 months ago L1 S 2 Months Ago Phase 1 Apparent Power RO VA 32 bit flo t 622 2 months ago L1 S time 2 Months Ago Phase 1 Apparent...

Page 93: ...ago L3 P 3 Months Ago Phase 3 Active Power RO W 32 bit flo t 706 3 months ago L3 P time 3 Months Ago Phase 3 Active Power Timestamp RO 32 bit unix time 708 3 months ago L3 I 3 Months Ago Phase 3 Curr...

Page 94: ...8 8 Alarm ID 8 Alarm ID RO 32 bit int 800 8 Alarm Status 8 Alarm ON Alarm OFF status RO 32 bit int 802 8 Alarm Value 8 Value of related alarm parameter RO 32 bit flo t 804 9 Alarm Timestamp 9 Alarm ti...

Page 95: ...meter RO 32 bit flo t 892 20 Alarm Timestamp 20 Alarm time RO 32 bit unix time 894 20 Alarm ID 20 Alarm ID RO 32 bit int 896 20 Alarm Status 20 Alarm ON Alarm OFF status RO 32 bit int 898 20 Alarm Val...

Page 96: ...31 Alarm Status 31 Alarm ON Alarm OFF status RO 32 bit int 986 31 Alarm Value 31 Value of related alarm parameter RO 32 bit flo t 988 31 Alarm Timestamp 32 Alarm time RO 32 bit unix time 990 32 Alarm...

Page 97: ...Timestamp 43 Alarm time RO 32 bit unix time 1078 43 Alarm ID 43 Alarm ID RO 32 bit int 1080 43 Alarm Status 43 Alarm ON Alarm OFF status RO 32 bit int 1082 43 Alarm Value 43 Value of related alarm pa...

Page 98: ...1 ate1 meter RO kVArh 64 bit double 1194 Reactive R1 T1_2 Reactive Region 1 Tariff 1 ate2 meter RO kVArh 64 bit double 1198 Reactive R1 T1_3 Reactive Region 1 Tariff 1 ate3 meter RO kVArh 64 bit doub...

Page 99: ...tActiveEnergyT2 T2 Rate Phase R ExportActive Energy RO kWh 64 bit double 1358 PhaseSExportActiveEnergyT1 T1 Rate Phase S Export Active Energy RO kWh 64 bit double 1362 PhaseSExportActiveEnergyT1_1 T1_...

Page 100: ...eactive Region 3 Tariff 2 eter RO kVArh 64 bit double 1538 Phase S Reactive B3 T1 Phase S Reactive Region 3 Tariff 1 eter RO kVArh 64 bit double 1542 Phase S Reactive B3 T1_1 Phase S Reactive Region 3...

Page 101: ...g 10 Time stamp Log 10 Time stamp RO 32bittime_t unixtime 1676 Log 10 Data Log 10 Data RO 32 bit integer 1678 Log 11 Time stamp Log 11 Time stamp RO 32bittime_t unixtime 1680 Log 11 Data Log 11 Data R...

Page 102: ...g 28 Time stamp Log 28 Time stamp RO 32bittime_t unixtime 1748 Log 28 Data Log 28 Data RO 32 bit integer NOTE Tariff eters Index Values can be read in 32 bit and or 64 bit flo ting point format Mathem...

Page 103: ...b18 b17 b16 b31 b30 b29 b28 b27 b26 b25 b24 4 5 1 2 Digital Input Flags In order to understand related digital input active or passive user should query 1446th modebus address If related digital inpu...

Page 104: ...hase2 Phase3 Voltage VLL3 Phase3 Phase1 Voltage IN Neutral Current P1 Phase1 Active Power P2 Phase2 Active Power P3 Phase3 Active Power Q1 Phase1 Reactive Power Q2 Phase2 Reactive Power Q3 Phase3 Reac...

Page 105: ...tored in the permanent memory NOTE1 3 parameters given with RO Read Only in Table 4 5 are read only data They cannot be changed by the user This data is as given below Serial Number Firmware Version C...

Page 106: ...it flo t R W KVArh 0 20000000000 0 2054 T1_2 KVArh C Exp 32 bit flo t R W KVArh 0 20000000000 0 2056 T1_3 KWh 32 bit flo t R W KWh 0 20000000000 0 2058 T1_3 KWhE 32 bit flo t R W KWh 0 20000000000 0 2...

Page 107: ...lo t R W A 0 30000 2132 High Limit 32 bit flo t R W A 0 30000 2134 Delay 32 bit int R W sn 0 600 2136 Hysteresis 32 bit flo t R W 0 20 Active Power Alarm 2138 Alarm Relay 32 bit int SL6 R W 0 2 2140 L...

Page 108: ...it flo t R W 0 20 Temperature Alarm 2208 Alarm Relay 32 bit int SL6 R W 0 2 2210 Low Limit 32 bit flo t R W C 20 80 2212 High Limit 32 bit flo t R W C 20 80 2214 Delay 32 bit int R W sn 0 600 2216 Hys...

Page 109: ...ode 32 bit int SL3 R W 0 13 2312 Output3 Energy 32 bit flo t R W 0 001 10000000000 2314 Output3 Width 32 bit int R W msn 50 2500 2316 Output3 Multiplier 32 bit int R W 1 10000 2318 Output4 Mode 32 bit...

Page 110: ...80 AO2 Input Mode 32 bit int SL10 R W 0 24 2382 AO2 Output Conn 32 bit int SL11 R W 0 5 2384 AO2 Max Value 32 bit flo t R W 100000 100000 2386 AO2 Min Value 32 bit flo t R W 100000 100000 2388 AO2 Mul...

Page 111: ...3 T2 Digital Input 0 2400 1 4800 2 9600 3 19200 4 38400 5 57600 6 115200 0 Off 1 Relay1 2 Relay2 A7 A8 A9 A10 A11 A12 0 T rk e 1 English 2 Russian 0 Level 4 1 Level 3 2 Level 2 3 Level 1 4 Level 0 5 L...

Page 112: ...of blocks having 68 parameters Each parameter inside the archive block is a 32 bit length variable Archive data block is as shown in Table 4 7 The programmer will access archive by implementing 0x14 R...

Page 113: ...lue V2 min 32 bit flo t 21 L2 maximum voltage value V2 max 32 bit flo t 22 L2 average current value I2 ave 32 bit flo t 23 L2 minimum current value I2 min 32 bit flo t 24 L2 maximum current value I2 m...

Page 114: ...flo t 61 V31 voltage maximum value V31 max 32 bit flo t 62 L1 average frequency value F1 ave 32 bit flo t 63 L1 minimum frequency value F1 min 32 bit flo t 64 L1 maximum frequency value F1 max 32 bit...

Page 115: ...rly record is come the last saved file number will be 2 Example of upper case 1st file memory Hourly Data Record 1921 2nd file memory Hourly Data Record 1922 3rd file memory Hourly Data Record 3 19th...

Page 116: ...as they should be On the other hand Klea response is given to describe the message structure As a result values for variables are not defined CRC HI XXX CRC LO XXX 4 5 3 2 Daily archive data Recordin...

Page 117: ...tion operates with file numbers File numbers 10001 10036 are used for MONTHLY data Klea has a memory that is reserved for monthly files It can keep totally 36 monthly files When Klea s monthly memory...

Page 118: ...1912 32 bit int Hourly archieve records W 1 10H 06H 1914 32 bit int Daily archieve records W 1 10H 06H 1916 32 bit int Monthly archieve records W 1 10H 06H 1918 32 bit int Alarm records W 1 10H 06H In...

Page 119: ...119 4Quadrant Energy Analyzer SECTION 5 FACTORY DEFAULT SETTINGS 4Quadrant Energy Analyzer...

Page 120: ...0 0 20000000000 0 T1 kVArh Imp I 0 0 kVArh 0 0 20000000000 0 T1 kVArh Imp C 0 0 kVArh 0 0 20000000000 0 T1 kVArh Exp I 0 0 kVArh 0 0 20000000000 0 T1 kVArh Imp C 0 0 kVArh 0 0 20000000000 0 T1_1 kWh...

Page 121: ...1 2 7 1 1 10000 A nalog Output Settings Input mode Refer to 3 2 1 1 6 Refer to 3 2 1 1 6 Output conn 0 5V V mA Refer to 3 2 1 1 6 Min value 0 0 Refer to 3 2 1 1 6 Max value 0 0 Refer to 3 2 1 1 6 Mult...

Page 122: ...0 High limit 0 0 V 0 0 100 0 Harmonics I Low limit 0 0 V 0 0 100 0 High limit 0 0 V 0 0 100 0 Temp Low limit 0 0 V 20 80 High limit 0 0 V 20 80 Alarm Relay and Alarm Time of V L N V L L Current P Q S...

Page 123: ...123 4Quadrant Energy Analyzer SECTION 6 TECHNICAL SPECIFICATIONS 4Quadrant Energy Analyzer...

Page 124: ...0 25 Ind to 0 25 Cap SV Total apparent power 0 2 10 Ib I Imax 0 5 Ind to 0 8 Cap EA Total active energy 0 5 0 to 49999999999 IEC 62053 21 Class 0 2S ERC Total reactive energy 2 0 to 49999999999 IEC 6...

Page 125: ...0 20mA 4 20mA Current Transformer Ratio CTR 1 5000 adjustable Voltage Transformer Ratio VTR 1 5000 adjustable Connection Type 3phase 4 wire 3phase 3 wire Aron Demand Period 1 60 minutes adjustable Op...

Page 126: ...Quadrant Energy Analyzer Revision No 20032018 www klemsan com info klemsan com tr K z l z m Mahallesi Kemalpa a K z l z m Cad No 15 35730 Kemalpa a zmir TURKEY Tel 90 232 877 08 00 Fax 90 232 877 08 0...

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