Programming Guide - Power Navigator Power Navigator / Enavigator

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PROGRAMMING GUIDE – POWER NAVIGATOR / eNAVIGATOR PN 77xx / EN84xx Series
1. FEATURES
• STAR (Wye)/ DELTA/1 Phase Programmable • Two Energy readings in single page
• Universal Auxiliary supply (80 - 300 VAC / DC) supply • User configurable (Editable) password
• PT ratio / CT ratio programmable including CT secondary • Clearance & Creepage distance meets IEC 61010 standard
• “OLD” Register for storing Cleared Energy and Load hours • Compact size and Weight
• 6 digit 4 Rows LED/Graphical LCD(7 digit 4 Row) display • Dynamic communication (user selectable parameter
with Auto scaling & Auto Scrolling sequence of register map)
• Universal Voltage Input (50 - 550 VAC) and Current • Multi-port
port communication (optional 2 maximum)
Secondary (0.05A to 6A)
2. UNIQUE FEATURES
• True RMS measurements • Auto-scaling
scaling of kilo, mega & giga decimal point
• Simultaneous sampling of volts & amps • 2 optional Analog Output(0-20mA)
20mA) or (4
(4-20mA)
• Best parameters grouping/bright displays • THD Measurement
• High/ low V, A, Hz, W, VA, VAr, PF value storage • Individual Harmonics display up to 31st level
• Data memory optional. (982080 records for 1 parameter) • 2 Programmable Parameters (only for PN series)
• Upgradable to higher versions • Phase wise Voltage and Current waveforms (only for
PN series)
3. WIRING DIAGRAM
Star Connection(3E) Delta Connection (2E) Single Phase Demand Controller / Digital
3 Phase 4 Wire system 3 Phase 3 Wire system Connection output Connection diagram
4. KEY FUNCTIONS
Key In SET (Programming) mode In RUN (Measurement) mode
RIGHT/Energy To select the value and to accept the value To scroll energy pages to look at different
parameters.
UP/Power To edit the value/system type up-ward

up in edit To scroll power pages to look at different
mode and scroll through the parameters. parameters.
DOWN/Basic To edit the value/system type down-ward

down in To scroll basic pages to look at different
edit mode and scroll through the parameters. parameters
OPTION Jumps to save Page To see the desired option (if any)
5. LED INDICATIONS: LED Indication for eNavigator and Display/LED Indication for Power Navigator
LED status / Display status Meaning LED status Meaning
K – ON K Kilo I/O 1 – ON Relay status Safe Limit (low limit)/default / step1
M – ON M Mega I/O 2 – ON Relay status Forecast demand >Hi.L1 / step2
K & M – ON G Giga I/O 3 – ON Relay status Rising demand >Hi.L2 / step3
K & M – OFF without K, M & G Direct reading I/O 4 – ON Relay status Rising demand >Hi.L1 / step4
Minus (-) ON L Lag/Delivered /T1 – Blink Pulse LED
Minus (-) OFF C Lead – ON Communication ON
6. DISPLAY OF PARAMETERS : Display of Parameters for eNavigator

eNavigator/Power Navigator
DISPLAY Meaning DISPLAY Meaning DISPLAY Meaning
/LL Voltage line to line Amps THD Number of Interrupts
/Ln Voltage line to Neutral Amps THD Phase-wise up to Voltage THD Phase-wise
31st level up to 31st level
/ry Voltage RY Phase K-Factor V On Hour
/yb Voltage YB Phase K-Factor A Old
/br Voltage BR Phase Watts Total Clear
/A Current Average Total VA Rising Demand
/F Frequency Total VAR Forecast Demand
/An Neutral Current Power Factor Maximum Demand
/RPM Revolution Per Minute Active Energy Received Additional Load
Voltage Phase Angle Apparent Energy Elapse Time
Current Phase Angle Reactive Inductance Energy High Level of Parameter
Unbalance Voltage Reactive Capacitance Energy Low Level of Parameter
Unbalance Current Average Baud Rate
Voltage THD Load Hour delivered
Amps average Received Lagging Power factor Leading Power factor
M1-M6 No. of demand slots S1
S1-S6 No. of energy slots Real time clock
Conversions of alphabets used
7. ENTERING CONFIGURATION (SETUP) MODE
To configure the setup parameters rs in EN/PN series of meters through front panel keys, the following
ollowing steps can be followed. For
display readings refer blockk for EN, Square bracket for PN series.
Step Actions Display Reads Range/Options/Comments
Press RIGHT & UP keys [SETUP
SETUP]
1
together to enter SETUP
Row 1 [PASWD] Password page is displayed
2 Press DOWN key Row 2 0000 with first digit “0”
“
blinking.
Press UP key to increment PASSWORD = 1000 If any other password is already set, press up and
3
the first digit to “1”. (default/factory set). down key to set the correct password
Press RIGHT key four Row 1: [ELEMNT] Element: Defines the power system configuration.
4 times to accept the Row 2: [STAR] Displays last Options: STAR / DELTA/ 1.Phase
password. programmed system type
Press RIGHT key to select Row 1: Element
5
required system type Row 2: Blinks StAr/dELtA/1 Phase
Press UP/DOWN key to Row 1: Element (selected system mode blinks)
6 select required system Row 2: StAr/dELtA/
StAr/dELtA/1 Phase
type
Row 1: Element
7 Press RIGHT key to accept
Row 2: selected system type stabilizes
Row 1: [Pt.Pri.] PT Primary: (415.0 -default/factory
default/factory set)
8 Press DOWN key
Row 2 : 415.0
Press RIGHT key to set the Row 1 : PT Primary Value can be edited using UP/DOWN key.
9
PT primary value Row 2 : 415.0 First digit blinking
Row 1 : PT Primary
Row 2: Second digit blinking, can be
Press RIGHT key to accept
edited using UP/DOWN key. Press
10 the edited value for first Program Range for PT Primary : 100V to 999kV
RIGHT key to accept the edited value.
digit.
Continue the same method till fourth
digit.
Row 1: PT Primary
Row 2: Decimal point blinking. Can be Eg: To set 11.00kV Set first four
fo digits (1100) as
set at appropriate location using explained above press UP/DOWN key to place
11 Press RIGHT key UP/DOWN key. Ascertain the correct decimal point at appropriate location. Letter K/M will
scale (Kilo/Mega/Giga) is selected. indicate the Kilo/Mega. In PN series G indicate for
Press RIGHT key to accept the edited Giga. In EN/TM M & K LED will glow for Giga
value.
Row 1: [Pt.Sec.]
PT Secondary
12 Press DOWN key Row 2 : 415.0 (Fo
(Follow the procedure as
Range: 50V to 550V
described in steps 9 to 11)
Row 1: [Ct.Pri.]
CT Primary
13 Press DOWN key Row 2 : 5.000 (Repeat steps 9 to 11 to
Range: 0.5A to 99kA
change the settings)
Row 1: [Ct.Sec.] CT Secondary
14 Press DOWN key
Row 2 : 5.000 (Repeat steps 9 to 11) Range: 0.5A to 6A
Row 1: [VA.SEL.] Method of VA Selection: Arithmetic / Vector
15 Press DOWN key
Row 2: [UEC.HAr] harmonics / Vector
Row 1: PARAM1
Only in PN
16 Press DOWN key Options: WATTS/FREQ/A/VLL/VA/PF
Row 2: WAttS
Option can be edited using RIGHT &
Series
Row 1: PARAM2 UP/DOWN keys.
17 Press DOWN key
Row 2: PF
Row 1 : [YEAR]
18.1.a Press DOWN key Range: 2000 to 2040
EN/PN with Data

Row 2 : xxxx
Row 1 : [DATE]
18.1.b Press DOWN key Jan 01 (01.01) to December 31 (12.31)
Row 2: xx.xx. (Mm.dd)
logger
Row 1: [TIME]
18.1.c Press DOWN key Min.Sec : 00:00 to 23:59 (24 hour format)
Row 2: xx.xx. (HH.mm)
Row 1: [dM.TYPE]
EN8400/PN 7700 1 Relay DMC
18.2.a Press DOWN key Demand type: Sliding
Row 2: [SLidin]
Row 1: [dM.PAR] Demand parameter

18.2.b Press DOWN key
Row 2: [WAtts] Options: Watts/ VA/ Amps Average/
Average VAr
Row 1: [dM.Prd.] Demand Period

18.2.c Press DOWN key
Row 2: 15.00 Range : 5 to 30 min
Row 1: [Hi.Lt1] High Limit 1

18.2.d Press DOWN key
Row 2: xxxx Range: 1% to 100% of Full scale.
Row 1: [Lo.Lt] Low Limit

18.2.e Press DOWN key
Row 2: xxxx Range: 1% to 99% of Hi Limit1
Row 1: [dM.TYPE]
/PN 7700 LM 2
18.3.a Press DOWN key Demand type: Sliding

EN8400 LM
Row 2: [SLidin]
Press DOWN key Row 1: [dM.PAR] Demand parameter
18.3.b
Row 2: [WAtts] Options: Watts/ VA/ Amps Average/
Average VAr
Press DOWN key Row 1: [dM.Prd.] Demand Period
18.3.c
Row 2: 15.00 Range : 5 to 30 min
Press DOWN key Row 1: [Hi.Lt1] High Limit 1
18.3.d
Row 2: xxxx Range : 1% to 100% of Full scale
Press DOWN key Row 1: [Hi.Lt2] High Limit 2
18.3.e
Row 2: xxxx Range: 50% to 99% of Hi Limit2.
Limit2
Press DOWN key Row 1: [Lo.Lt] Low Limit
18.3.f
Row 1 : [YEAR]
Row 2 : xxxx
EN8410/PN7710 Demand
Row 1 : [DATE] Month. date
Row 2: xx.xx. (Mm.dd) Jan 01 (01.01) to December 31 (12.31)
Monitor
Row 1: [TIME]
Row 1: [dM.TYPE] Demand type

Row 2: [SLidin] Options: Sliding / block (fixed

Row 2: [WAtts] Options: Watts / VA/ Amps Average / VAr
Row 1 : [YEAR]
Row 2 : xxxx
Row 1 : [DATE] Month. date
Row 2: xx.xx. (Mm.dd) Jan 01 (01.01) to December 31 (12.31)
Row 1: [TIME]
Row 1: [dM.TYPE] Demand type
Row 2: [SLidin] Options: Sliding / block (fixed
EN8410 /PN 7710 4 Relay DMC

Row 2: [WAtts] Options: Watts / VA/ Amps Average / VAr
Row 1: [dM.Prd.]
18.5.f Press DOWN key Demand Period Range : 5 to 30 min
Row 2: 15.00
Row 1 : [dM.Cont] Demand controller
18.5.g Press DOWN key
Row 2 : [Forc.dM] Options: Forecast demand / step demand
Row 1 : [FC.Int] Forecast Interval
18.5.h Press DOWN key
Row 2 : 7.000 Range : 20% to 50% of demand period
18.5.i Press DOWN key
Row 2: xxxx Range: 1% to 100% of Full scale.
18.5.j Press DOWN key
Row 2: xxxx Range : 1% to 99% of Hi Limit1
Row 1: [Lo.Lt] Low Limit
18.5.k Press DOWN key
At Sl.No. 18.5.g if demand control type is programmed as Step demand
Row 1 : StEP1 [STEP1]
18.5.l Press DOWN key Step 1 Range : 1% to 100% of Full Scale
Row 2: xxxx.
18.5.m Press DOWN key Step 2 Range : 1% to 100% of Full Scale
Row 2: xxxx.
18.5.n Press DOWN key Step 3 Range : 1% to 100% of Full Scale
Row 2: xxxx.
18.5.o Press DOWN key Step 4 Range : 1% to 100% of Full Scale
Row 2: xxxx.
Digital Output 1 parameter

Digital Output
Options:
A.thd,V.thd,under(An.In2,An.In1(Analog
option
Row 1: [d1.PAR.]
18.6.a Press DOWN key input)),over(An.In2,An.In1(analog
Row 2: diSAbL
input))Single
Single phasing/reverse Amps/Over
(VLL/A/Freq/Watts/VA/Wh) under (VLL/
A/Freq/ Watts/VA/Wh)
th float th float
134 11 harmonics Current Y phase 40559 187 29 harmonics Current R phase 40665
th th
135 11 harmonics Current B phase float 40561 188 29 harmonics Current Y phase float 40667
th float th float
136 13 harmonics Voltage R phase 40563 189 29 harmonics Current B phase 40669
th float st float
137 13 harmonics Voltage Y phase 40565 190 31 harmonics Voltage R phase 40671
th float st float
138 13 harmonics Voltage B phase 40567 191 31 harmonics Voltage Y phase 40673
139 13th harmonics Current R phase float 40569 192 31st harmonics Voltage B phase float 40675
th float st float
th st
th float st float
th nd
143 15 harmonics Voltage Y phase float 40577 196 2 harmonics Voltage R phase float 40683
th float nd float 40685
144 15 harmonics Voltage B phase 40579 197 2 harmonics Voltage Y phase
145 15th harmonics Current R phase float 40581 198 2nd harmonics Voltage B phase float 40687
146 15 harmonics Current Y phase 40583 199 2 harmonics Current R phase
nd
147 15th harmonics Current B phase float 40585 200 2 harmonics Current Y phase float 40691
nd float 40693 244 th float 40779
201 2 harmonics Current B phase 18 harmonics Voltage R phase
th th
202 4 harmonics Voltage R phase float 40695 245 18 harmonics Voltage Y phase float 40781
th float 40697 246 th float 40783
203 4 harmonics Voltage Y phase 18 harmonics Voltage B phase
204 4 harmonics Voltage B phase 18 harmonics Current R phase
205 4 harmonics Current R phase 18 harmonics Current Y phase
206 4th harmonics Current Y phase float 40703 249 18th harmonics Current B phase float 40789
th float 40705 250 float 40791
207 4 harmonics Current B phase 20th harmonics Voltage R phase
th th
th float 252 th float 40795
209 6 harmonics Voltage Y phase 40709 20 harmonics Voltage B phase
th th
210 6 harmonics Voltage B phase float 40711 253 20 harmonics Current R phase float 40797
211 6 harmonics Current R phase 40713 20 harmonics Current Y phase
212 6 harmonics Current Y phase 20 harmonics Current B phase
th float 40717 256 nd float 40803
th nd
th nd
219 8th harmonics Current B phase float 40729 262 24th harmonics Voltage R phase float 40815
220 10 harmonics Voltage R phase 24 harmonics Voltage Y phase
th th
223 th float 40737 266 th float 40823
10 harmonics Current R phase 24 harmonics Current Y phase
224 th float 40739 267 th float 40825
10 harmonics Current Y phase 24 harmonics Current B phase
225 th float 40741 268 th float 40827
10 harmonics Current B phase 26 harmonics Voltage R phase
226 th float 40743 269 th float 40829
12 harmonics Voltage R phase 26 harmonics Voltage Y phase
227 th float 40745 th float 40831
12 harmonics Voltage Y phase 270 26 harmonics Voltage B phase
th th
229 th float 40749 272 th float 40835
th th
230 12 harmonics Current Y phase float 40751 273 26 harmonics Current B phase float 40837
231 th float 40753 274 th float 40839
232 th float 40755 275 th float 40841
233 th float 40757 276 th float 40843
14 harmonics Voltage Y phase 28 harmonics Voltage B phase
th th
235 th float 40761 278 th float 40847
th th
14 harmonics Current B phase 280 30 harmonics Voltage R phase
238 th float 40767 281 th float 40853
Page 11 of 14 PG/ENP/OP/ R04 /0114
Row 1: [START.A] Starting current value to be displayed in the meter
26 Press DOWN key
Row 2: 0.400 Range: (0.2% to 10% of full scale)
Row 1: (DISP.U.R] Update time for Displaying parameter.
27 Press DOWN key
Row 2: 1.000 Range: 1 to 5 seconds.
Row 1: [Auto.T] Display increment during auto scroll.
28 Press DOWN key
Row 2: 5.000 Range: 1 to 10 seconds.
Row 1: [POP.ON.T] Pulse width defined for pulse output occurrence.
29 Press DOWN key
Row 2: 250.0 Range: 50 to 500m Sec.
Row 1: [AO.1.PAR] Analog Output 1 parameter
30 Press DOWN key
Row 2: disable [DI
[DISABL] Option :VLL/ A/ Freq/Watts/PF/VA
Analog Output
Row 1: [AO.1.OFS] Analog Output 1 OFFSET
31 Press DOWN key
Row 2: 0.t.20mA Option :0.t.20mA or 4.t.20mA
Row 1: [AO.2.PAR] Analog Output 2 parameters
32 Press DOWN key
Row 2: disable [DISABL] Option :VLL/ A/ Freq /Watts/PF/VA
Row 1: [AO.2.OFS] Analog Output 2 OFFSET
33 Press DOWN key
Row 2: 0.t.20mA Option : 0.t.20mA or 4.t.20mA
Press DOWN key Row 1: [PWR.SAV] Defines Power Save of the LCD back light PN series
34
(Only for PN series) Row 2: [DISABL] Option: ENABLE/DISABLE only
Row 1: bYt.Ord [bYt.Ord] Byte order
35 Press DOWN key
Row 2: FLOAt [FLOAt] Option: FLOAt/biG.End/LitLE.E
Row 1: [SAVE]
36 Press DOWN key
Row 2: blinking.
”(no) is selected then Meter enters into
If “n”(no)
Row 1 : xxxxLL
Measurement mode without memorizing any
Row 2 : xxxxLn
36 edited Values in the setup
Row 3 : xxxx A
Row 4 : xxxx F
Once the required parameter is programmed press the DOWN key continuously till it reaches SAVE page OR press the OPTIONS key
to reach SAVE page directly.
7.1 The List of parameters can be configured and the range is given below
Sl.No. Parameter Default Range Remarks
setup
1 Connection mode STAR STAR/ DELTA/ 1.Phase
2 PT Primary 415.0 100V- 999kV
3 PT Secondary 415.0 50V - 550V
4 CT Primary 5.000 0.5A - 99kA
5 CT Secondary 5.000 0.5A - 6A
6 VA selection VEC.HAr Arith (Arithmetic) / Uector/ Uec.HAr (vector harmonics)
armonics)
7 Programmable Parameter – 1 Watts WATTS/FREQ/A/VLL/VA/PF Only in PN Series
8 Programmable Parameter – 2 PF PF /FREQ/A/VLL/VA/ WATTS
9 Year 2011 2000 to 2040
10 Date 01.0
.01 (MM:DD format) Jan 01 to Dec 31
11 Time 00.00 (HH:MM format) 00:00 to 23:99
12 Demand Type Sliding SlidIn(sliding) /bLOC (block/fixed)
13 Demand Parameter Watts uAttS (Watts)/VA/A.AVg (Amps Avg)/ VAr (Reactive pwr)
14 Demand Period 15.00 5 to 30 Minutes Meter with
15 Demand Control type Forc.dn Forc.dn (Forecast) or StEP. dn (step) Data logger/
20% to 50% of demand period Demand
15.1.a Forecast interval 7.000 Monitor/
15.1.b Hi Limit 1 1800 1% of Full scale to Full scale Demand
Controller
15.1.c Hi Limit2 1700 1% to 99% of Hi limit 1
15.1.d Low Limit 1300 50% to 95% of Hi limit 2
15.2.a Step1 level 35.94 1% of Full scale to Full scale
15.2.b Step 2 level 1800 1% of Full scale to Full scale

15.2.c Step 3 level 1700 1% of Full scale to Full scale
15.2.d Step 4 level 1300 1% of Full scale to Full scale
A.thd,V.thd( Voltage & current Harmonics
Distortion),under(An.In2,An.In1(Analog
16.1 Digital Output 1 Parameter Disable input)),over(An.In2,An.In1(analog input))Single
phasing/reverse Amps/Over (VLL/A/Freq/Watts/VA/Wh)
under (VLL/ A/Freq/ Watts/VA/Wh) **
16.2 Digital 1 Threshold Limit 1000 0.001 to 9999 × 106 Meter with
16.3 Digital Output 2 Parameter Disable ** Digital output
16.4 Digital 2 Threshold Limit 1000 0.001 to 9999 × 106 option
16.5 Digital Output 3 Parameter Disable **
16.6 Digital 3 Threshold Limit 1000 0.001 to 9999 × 106
16.7 Digital Output 4 Parameter Disable **
16.8 Digital 4 Threshold Limit 1000 0.001 to 9999 × 106
16.9 Digital delay 5.000 1to 180 Sec
17.1 Analog input 1 Disable 4 to 20 mA/0 to 20 mA/0 to 1 V
Meter with
17.2 Analog Input 1 full scale 1200 0.001 to 9999 × 106 Analog Input
17.3 Analog input 2 Disable 4 to 20 mA/0 to 20 mA/0 to 1 V option
17.4 Analog Input 2 full scale 1200 0.001 to 9999 × 106
18 Baud rate 9600 1200 /2400/ 4800 /9600/19200
19 Parity Even Even/ Odd/ no
20 Device Id 1.000 1.000 to 247.0
21 No of Poles 4.000 1.000 to 28.00
22 Reverse lock No Yes/no
23 Password 1000 1000 to 9999
24 Energy rESoLu Resolution / Counter
25 Starting Current 0.400 0.2% to 10 % of full scale
26 Display update time 1.000 1 to 5 seconds
27 Display auto-scroll time 5.000 1 to 10 seconds
28 Pulse output on time 250.0 50 to 500 milliseconds
29 Analog Output 1 parameter diSAbL VLL/ A/Freq/Watts/PF/VA
30 Analog Output 1 Offset 0.t.20mA 0.t.20mA/4.t.20mA Meter with
Analog Output
31 Analog Output 2 parameter diSAbL VLL/ A/Freq/Watts/PF/VA option
32 Analog Output 2 offset 0.t.20mA 0.t.20mA/4.t.20mA
33 Power Save Mode Disable Disable / Enable Only in PN Series
34 Byte order FLOAt FLOAt/ biG.End/LitLE.E
Note:
Options Applicable steps
Data logger 9 to 11
Demand Monitor 9 to 15
Demand controller 9 to 15.2.d
Digital output 16.1 to 16.9
Analog input 17.1 to 17.4
Analog output 29 to 32
8. CLEARING PARAMETERS:
To Clear parameters from the front panel, Press UP and DOWN Keys together, and 'CLEAR' is shown on the display. Enter the
Password (Default password is 1000. Set up and clear has the same password) and it will display “CLr.Int”. Press DOWN Key for
selecting CLr.Int (Clear Integrator)/CLr.Hi.L (Clear max. /min values) /CLr.Md (Clear Max. demand). Once the parameter to be
cleared is selected, Press RIGHT key, display will prompt to 'n' (no). Press UP/DOWN key for changing to 'Y'(Yes) or to 'n'(no) and
Press the RIGHT key to do the operation.
Note: Once the data is cleared (except energy) the value will not be retained.

9. ENABLING AND DISABLING OF AUTO SCROLLING:
Enabling auto scrolling: Press UP/DOWN key continuously for 5 seconds or until display shows EnAbLE Auto.Sc for scrolling.
Disabling auto scrolling: Press any key (RIGHT/ UP/ DOWN/ OPTION), display show dlSAbL Auto.Sc and returns to normal mode.
10. Multiplication Factor:

Energy Display programmable for counter based or Resolution based
Multiplication factor for counter based energy mode
• Full Scale kW 0.4 to 4.01 40.1 to 400.1 to 4 Mega 40 Mega to 400 Mega
√3 VPri LL x APri / 1000 4.0 to 40 400 4000 to 40 400 M to
M 4000 M
• Multiplication Factor 0.01 0.1 1.0 10 100 1000 10000
• Unit of Display KWh MWh GWh

Energy Reset: 999999kVAh x Multiplication Factor
10. DEMAND
Demand control is a method of controlling the consumption not to overload the grid. Demand is calculated in different ways,
different parameters, depends on the region/country. There are two types of demand measurement name
namely Sliding window & Fixed
(Block) window. Forecast demand control & Step wise demand Contro
Control.
DEMAND CONTROLLER:
Demand controller is designed to control for loads to achieve the desired savings. The instrument measure the demand based on
sliding or fixed (block) window. The demand calculations can be chosen based on Watts, VA or Amps (Average) or VAr parameter
parameters
for the given time period (Demand Period).
Sliding Window: This window slides Connection Diagram: Connection Diagram for Demand
every 1 second (update time), so it controller / Digital Output and RS 485
automatically synchronizes with EB meter.
But it will not return to zero at the end of
the demand period. For the fluctuating Note : Connections to the
terminals located at the rear
load this is the better method of
side of the unit is to be
measurement. The graphical made by using preferably 12
representation of sliding window is shown to 14 SWG (2.6mm2 to
below. 2.0mm2)
0mm2) industrial grade
wire. Relay rating No contact
Block Window: This window slides every SPST. 250VAC / 30VDC @ 2
demand period. It has to be synchronized Amps resistive.
to EB meter manually. It will return to zero
at the end of demand period. This can be
used for the fairly stable load. The
graphical representation of block window.
Forecast Demand Control: Forecast demand control is more Demand Pattern:
suitable for sliding window technique. This control predicts the
rising demand before the set time (Forecast Interval) and gives the
alarm/annunciation for pro active action. The user can then shed
some non-critical loads.
oads. (Additional load information is available in
Demand page). 4 relays are used to control the demand
1. Relay 2 will be activated if Forecast Demand > High Limit 1.
2. Relay 3 will be activated if Rising Demand > High Limit 2
3. Relay 4 will be activated if Rising Demand > High Limit 1 as a C.D - Contract Demand (sanctioned demand)
final trip. H.L1 - High Limit 1
4. Relay 1 can reconnect, once the rising demand comes down to H.L2 - High Limit 2
the safe limit (Low Limit). L.L - Low limit
Step demand control: Step demand control is suitable for sliding and fixed window.
4 loads or 4 set of loads can be connected to the relays for tripping. Each step tripping level can be programmed independent
independently
(1%
% to 100% of Full scale). In the step demand control the control is based on the rising demand only.
1. Relay 1 will be activated if Rising demand > Step1 Level.
How to synchronize with EB meter:
1. Enter into setup mode and set the right password.
2. Press the down key until it reaches Year page at the setup.
3. Edit the year to lower year (i.e. if present year is 2012 edit it to 2011).
4. Press the OPTIONS key and save the setup.
5. Enter once again to setup and set the right password.
6. Press the down key until it reaches ‘Year’ page at the setup.
7. Edit the current year (Eg: edit to 2012 for the above example)
8. Press the OPTIONS Key, meter displays Save Y
9. Wait till the EB meter reads zero. Press the right key the moment EB meter displays zero.
10. Both should have the same power ON and OFF events. If there is any difference, synchronization should be re done
manually in the same method mentioned above.
11. COMMUNICATION REGISTER MAP:

This Communication map is for EN/PN series. All the parameters declared in the communication map are either float or unsigned
long and follows the standard Modbus RTU protocol.
Data
Sl.No Parameter Address Sl.No Parameter Data type Address
type
1 Watts Total float 40101 48 Current B Harmonics float 40195
2 Watts R phase float 40103 49 Rising Demand float 40197
3 Watts Y phase float 40105 50 Forecast Demand float 40199
4 Watts B phase float 40107 51 Maximum Demand float 40201
5 VAR Total float 40109 52 RPM float 40215
6 VAR R phase float 40111 53 Load Hours Received Unsigned long 40217
7 VAR Y phase float 40113 54 Load Hours Delivered Unsigned long 40219
8 VAR B phase float 40115 55 No of interruptions Unsigned long 40221
9 PF Ave. (Inst.) float 40117 56 MD Occurrence time Unsigned long 40223
10 PF R phase float 40119 57 Voltage R phase angle float 40233
11 PF Y phase float 40121 58 Voltage Y phase angle float 40235
12 PF B phase float 40123 59 Voltage B phase angle float 40237
13 VA total float 40125 60 Current R phase angle float 40239
14 VA R phase float 40127 61 Current Y phase angle float 40241
15 VA Y phase float 40129 62 Current B phase angle float 40243
16 VA B phase float 40131 63 TOD Slot-1 float 40245
17 VLL average float 40133 64 TOD Slot-2 float 40247
18 Vry phase float 40135 65 TOD Slot-3 float 40249
19 Vyb phase float 40137 66 TOD Slot-4 float 40251
20 Vbr phase float 40139 67 TOD Slot-5 float 40253
21 VLN average float 40141 68 TOD Slot-6 float 40255
22 V R phase float 40143 69 Voltage Unbal R Phase float 40259
23 V Y phase float 40145 70 Voltage Unbal Y Phase float 40261
24 V B phase float 40147 71 Voltage Unbal B Phase float 40263
25 Current Total float 40149 72 Current Unbal R Phase float 40265
26 Current R phase float 40151 73 Current Unbal Y Phase float 40267
27 Current Y phase float 40153 74 Current Unbal B Phase float 40269
28 Current B phase float 40155 75 Additional Load float 40271
29 Frequency float 40157 76 Analog input 1 float 40273
30 Wh Received float 40159 77 Analog input 2 float 40275
31 VAh Received float 40161 78 VLL Max float 40285
32 VARh Ind. Received float 40163 79 VLL Min float 40287
33 VARh Cap. Received float 40165 80 VLN max float 40289
34 Wh Delivered float 40167 81 VLN min float 40291
35 VAh Delivered float 40169 82 Amps max float 40293
36 VARh Ind. Delivered float 40171 83 Amps Min float 40295
37 VARh Cap. Delivered float 40173 84 Frequency Max float 40297
38 PF average Received float 40175 85 Frequency Min float 40299
39 Amps average Received float 40177 86 Watts Max float 40301
40 PF average Delivered float 40179 87 Watts Min float 40303
41 Amps average Delivered float 40181 88 VAR max (absolute max) float 40305
42 Neutral Current float 40183 89 VAR min (absolute min) float 40307
43 Voltage R Harmonics float 40185 90 VA max float 40309
44 Voltage Y Harmonics float 40187 91 VA min float 40311
45 Voltage B Harmonics float 40189 92 PF max (absolute max) float 40313
46 Current R Harmonics float 40191 93 PF min (absolute min) float 40315
47 Current Y Harmonics float 40193 94 Maximum demand Slot1 value float 40325
th
95 Maximum demand Slot2 value float 40327 148 17 harmonics Voltage R phase float 40587
Maximum demand Slot3 value float th float
96 40329 149 17 harmonics Voltage Y phase 40589
th
97 Maximum demand Slot4 value float 40331 150 17 harmonics Voltage B phase float 40591
Maximum demand Slot5 value float th float
98 40333 151 17 harmonics Current R phase 40593
Maximum demand Slot 6 value float th float
99 40335 152 17 harmonics Current Y phase 40595
100 K factor Voltage R phase float 40491 153 17th harmonics Current B phase float 40597
101 K factor Voltage Y phase float 40493 154 19th harmonics Voltage R phase float 40599
float th float
102 K factor Voltage B phase 40495 155 19 harmonics Voltage Y phase 40601
th
103 K factor Current R phase float 40497 156 19 harmonics Voltage B phase float 40603
float th float
104 K factor Current Y phase 40499 157 19 harmonics Current R phase 40605
th
105 K factor Current B phase float 40501 158 19 harmonics Current Y phase float 40607
rd float th float
107 3rd harmonics Voltage Y phase float 40505 160 21st harmonics Voltage R phase float 40611
rd float float
108 3 harmonics Voltage B phase 40507 161 21st harmonics Voltage Y phase 40613
rd
109 3 harmonics Current R phase float 40509 162 21st harmonics Voltage B phase float 40615
rd float st float
rd st
th float st float
th float rd float
114 5th harmonics Voltage B phase float 40519 167 23rd harmonics Voltage Y phase float 40625
th float rd float
115 5 harmonics Current R phase 40521 168 23 harmonics Voltage B phase 40627
th float rd float
th rd
th float rd float
th float th float
th float th float
th float th float
th float th float
th th
th float th float
th th
th float th float
th float th float
th float th float
th th
th float th float
th th
th float th float
th float th float
th float th float
th th
th float th float
th float st float
th float st float
139 13th harmonics Current R phase float 40569 192 31st harmonics Voltage B phase float 40675
th float st float
th st
th float st float
th nd
144 15 harmonics Voltage B phase 40579 197 2 harmonics Voltage Y phase
145 15th harmonics Current R phase float 40581 198 2nd harmonics Voltage B phase float 40687
146 15 harmonics Current Y phase 40583 199 2 harmonics Current R phase
nd
147 15th harmonics Current B phase float 40585 200 2 harmonics Current Y phase float 40691
nd float 40693 244 th float 40779
th th
204 4 harmonics Voltage B phase 18 harmonics Current R phase
206 4th harmonics Current Y phase float 40703 249 18th harmonics Current B phase float 40789
th float 40705 250 float 40791
207 4 harmonics Current B phase 20th harmonics Voltage R phase
th th
209 6 harmonics Voltage Y phase 40709 20 harmonics Voltage B phase
th th
211 6 harmonics Current R phase 40713 20 harmonics Current Y phase
th nd
th nd
219 8th harmonics Current B phase float 40729 262 24th harmonics Voltage R phase float 40815
220 10 harmonics Voltage R phase 24 harmonics Voltage Y phase
th th
223 th float 40737 266 th float 40823
224 th float 40739 267 th float 40825
225 th float 40741 268 th float 40827
226 th float 40743 269 th float 40829
12 harmonics Voltage Y phase 270 26 harmonics Voltage B phase
th th
229 th float 40749 272 th float 40835
th th
231 th float 40753 274 th float 40839
232 th float 40755 275 th float 40841
233 th float 40757 276 th float 40843
th th
235 th float 40761 278 th float 40847
th th
14 harmonics Current B phase 280 30 harmonics Voltage R phase
238 th float 40767 281 th float 40853
239 th float 40769 282 th float 40855
th th
241 th float 40773 284 th float 40859
242 th float 40775 285 th float 40861
243 th float 40777
16 harmonics Current B phase
Programmable Data Logging:

1 Minutes to 12 hours interval programmable. Data interval and parameter can be selected through communication.
No of No of Records
Parameters 1MB 8MB
1 121920 982080
2 81280 654720
4 48768 392839
9 24384 196416
14 16256 130944
29 8128 65472
CAUTION: Change in number of parameters causes the entire memory to erase.
For data logging option number of parameters, list of parameters and time interval can be programmed through PC using our
ElMeasure software (EN_DLS).

12. TECHNICAL SPECIFICATIONS
Parameter Range
Accuracy Class 1 (Default) IEC 61036, CBIP 88, Class 0.5, 0.2 (Option)
Sensing / Measurement True RMS, 1 Sec update time
4 Quadrant Power & Energy (RD Option)
Input voltage (Measurement) 4 Voltage inputs (VR, VY, VB, N)
Programmable 110 or 415V LL Nominal
Primary Programmable up to 999 kV.
Burden 0.2VA Max. per phase
External Fuse Rating 2 Amps
Input Current (Measurement) Current inputs (AR, AY, AB) 50mA - 6A
(Field configurable 1A or 5A)
Primary Programmable up to 99 kA
Overload 10A max continuous, 50A max for 3 Sec
Burden 0.2VA Max. per phase
Auxiliary Supply (Control Power) 80 to 300V AC, 40-70Hz
80 to 300V DC (Default)
Burden 5VA Max
External Fuse Rating 200mA
CT PT Ratio Max 2000 MVA Programmable
Protection Class 3
Display Resolution EN: LED display - 4 Rows (10mm height), 4 digits for
Instantaneous, 6 digits for Integrated
PN: LCD display - 8 Rows, 4 digits for Instantaneous, 7 digits
for Integrated
Humidity 5% to 95% non condensing
Pollution Degree 2 (As per IEC 61010)
Altitude Below 2000 mts
Insulation Double Insulation 1)
( As per IEC 61010-1)
Ingress Protection IP 51 As per IEC 60529
Operating Temperature -10OC to + 55OC (14OF - 131OF)
Storage Temperature -25OC to +70OC (-13OF - 158OF)
Measurement Category CAT lll ( As per IEC 61010)
2 2
Wire Gauge (Connecting wires) 12-14 swg (2.6 to 2.0mm ). 2.5mm U cut llugs to be used.
Communication RS 485 serial channel connection Industry standard Modbus
RTU protocol (RS232 optional)
Baud rate 00 bps to 19200 bps (preferred 9600 bps)
2400
Isolation 2000 volts AC isolation for 1 minute between communication
and other circuits.
Dimension Bezel 96 x 96 mm - Depth 45mm behind bezel
+0 +0
Panel Cutout 92 -2 X 92 -2 mm
Mounting: The front bezel of the basic model is molded plastic. Bezel dimensions are 96x96mm. Depth 45mm behind the bezel.
TROUBLESHOOTING
Due to programming error, site conditions, some problems can cause the Meter malfunction. The fault symptoms and their
remedial action for correction is given below.
1. If the display does not turn ON:
a) Check that there is at least 80 volts available to the power supply (L and N connections) on the Aux supply terminals. If
the above steps do not solve the problem, Contact ElMeasure or your local ElMeasure representative and report the
problem and results of the test.
2. If the voltage or current readings are incorrect:
a) Check that the Connection mode (star/delta) is properly programmed.
b) Check that the voltage and current ratios are properly set.
c) Check the output of the CT's and PT's being used.
3. If the kW or Power Factor readings are incorrect but voltage and current readings are correct:
a) Make sure that the phase relationship between voltage and current inputs are correct by comparing the wiring with
the appropriate wiring diagram.
b) CT reversal can be observed by either seeing the phase wise kW. Negative kW is shown where the current polarity is
reversed, need to be corrected. Model where kW information is not available, you may check Amps Phase angle.
4. If RS-485 communication does not work:
a) Check that the baud rate of the host computer/PLC is the same as Meter.
b) Check that the device ID of the meter are unique and should not replicate.
c) Check all communications wiring is complete.
d) Check that the number of data bits is set to 8, with one stop bit and even parity.
If the symptom persists after performing the specified steps, or if the symptom is not listed above, contact your local ElMeasure
representative or the technical support / customer support department.
WARRANTY AND REGISTRATION
Every product of ElMeasure is warranted for 18 months from the date of invoice for the defects in materials and workmanship
when products are used in normal specified conditions.
The warranty is void to the product which has been damaged due to improper installation, improper handling, improper
connections, neglect, misuse, accident, and abnormal conditions of operation and natural calamities or acts of god. Any attempt
of dismantling and unauthorized repair or modifications shall also render the warranty null & void.
Calibration report, Warranty card, Programming guide with equipment will be provided.
1. Failure of products during warranty In India
Customer shall report the failure to the nearest ElMeasure contact point or dealer at the earliest once noticed. ElMeasure
shall replace the product failed due to workmanship or defects in materials against receipt of failed product. Burnt, blown,
damaged products are not covered under warranty and hence no replacements shall be given.
In the event of product un-available for replacement at ElMeasure or dealer, same shall be arranged at the earliest.
Replacement of product is solely at the discretion of dealer or the ElMeasure representative who receive the failed
product.
ElMeasure SE may on a case to case basis, recommend for the advance replacement of product mentioning the reasons
and justifications for doing so. Sales Manager shall approve advance replacement in genuine cases. The defective product
shall be collected and sent to ElMeasure factory within 30 calendar days. Non compliance shall result in debiting cost of the
product to the SE recommended for advance replacement.
Burnt, abused, damaged products shall be forwarded to ElMeasure's factory at Bangalore for investigation, transportation
pre-paid. Upon investigation, If found the rectification is possible, an estimation for servicing is sent to the customer.
Rectification shall be done on receipt of approval for the charges with advance payment only.
2. Failure of products outside warranty In India
The defective products shall be forwarded to ElMeasure factory at Bangalore for rectification, transportation pre-paid.
Upon investigation, estimation for servicing is sent to the customer. Rectification shall be done on receipt of approval for
the charges with advance payment only.
ElMeasure, as a policy, do not provide replacement for the products outside warranty.

Programming Guide - Power Navigator Power Navigator / Enavigator

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HO & Unit-I: #764, 4th Phase 707, Yelahanka New Town, Bangalore - 560 064.

Ph : +91 80 32904489 / 28461777 TeleFax : +91 80 41272461

Key In SET (Programming) mode In RUN (Measurement) mode

UP/Power To edit the value/system type up-ward

DOWN/Basic To edit the value/system type down-ward

6. DISPLAY OF PARAMETERS : Display of Parameters for eNavigator

EN/PN with Data

Row 1: [dM.PAR] Demand parameter

Row 1: [dM.Prd.] Demand Period

Row 1: [Hi.Lt1] High Limit 1

Row 1: [Lo.Lt] Low Limit

18.3.a Press DOWN key Demand type: Sliding

Row 1: [dM.TYPE] Demand type

Row 1: [dM.PAR] Demand parameter

EN8410 /PN 7710 4 Relay DMC

Digital Output 1 parameter

15.1.d Low Limit 1300 50% to 95% of Hi limit 2

15.2.a Step1 level 35.94 1% of Full scale to Full scale

15.2.b Step 2 level 1800 1% of Full scale to Full scale

Page 7 of 14 PG/ENP/OP/ R04 /0114

10. Multiplication Factor:

• Unit of Display KWh MWh GWh

11. COMMUNICATION REGISTER MAP:

Programmable Data Logging:

Page 12 of 14 PG/ENP/OP/ R04 /0114

Page 14 of 14 PG/ENP/OP/ R04 /0114

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