Conzerv

µeLAN^® Max FAQ

µeLAN® Max Frequently Asked Questions
1.      What is µeLAN® Max?
2.      Whats’ New about µeLAN®Max?
3.      µeLAN ® Max Vs. μeLAN® 3.2
4.      What operating systems are supported?
5.      What is the Communication Interface supported?
6.      Can I Print HMI Screens like in µeLAN® 3.2?
7.      Can I Save HMI Screens as BMP like in µeLAN® 3.2?
8.      How to enable only Load Center (Meter) which you want?
9.      What I am supposed to do if I have to upgrade?
10.    What will happen if µeLAN® Max is reinstalled (or PC formatted) after (License) upgrade?
11.   What third party software required?
12.   What hardware is recommended?
13.   What are meLAN®Max Technical Specs
14.   What devices are supported?
15. What tags are read from the EM 3000 Series?
16.   What tags are read from the EM 6000 Series?
17.   What tags are read from the CVM 96?
18.   What tags are read from the CVM 144?
19.   What tags are read from the LM 24 Data Logger?
20.   How many tags are read from the devices?
21.   What reports are provided?
22.   What about the installation and commissioning of µeLAN® Max?
23.   How many meters/devices are supported?
24.   Can I set the meter ID of my choice?
25.   Can I interchange meter in later stage?(for e.g. EM 6000 to LM 24)
26.   Can I export the generated report to other formats?
27.   How the customer will know the meter ID configuration for the meters?
28.   Ordering information required.

What is meLAN® Max?

µeLAN® Max is a totally indigenous, state of the art SCADA software package.
Easy to install, plug and play Energy Management software
Provides all the standard features required for an electrical energy management system.
Supports on-line monitoring of various parameters, generating history information, and periodic reports.
Communicates with 30 Devices (EM3000 series, EM6400 series( including DigitAN), CVM 96, CVM 144 and LM24 Data Loggers)
Reports through Crystal Reports.

Whats’ New about meLAN®Max?

Enable only Load Center (Meter) which you want

Supports Maximum 30 nodes.

Conzerv EM 3360, EM 3460, EM 3480 (IE, IE + TOU)
Conzerv EM 6400 (Basic, IE, THD, DM, TOU, DM+IE, DM+THD, DM+THD+IE), EM 6434, and DigitAN.
CVM 96.
CVM 144.
LM 24 Data logger -24 channel.

Multiple Windows Platform Support
Multiple Communication Interface

Serial Port, USB Port, Ethernet converter.

History View given a complete face-lift
Print HMI Screens
Take Snapshot of HMI Screens
Tabular View provided in HMI Screens

Tabular View of Tags and its value is added. You can configure any tags from any load center and view in one single frame. Also this presents an elegant look to HMI Screens.

Improved Appearance

In “DatabaseBuilder”, the tag values are right justified, this gives better readability
In “DatabaseBuilder” tags are displayed only for the configured devices.
Now HMI Screens presents more elegant look.

Specific Energy Consumption Report.
Power Interruption Report.
Max Demand & Time of occurrence report.
Data logger Report.
Log Report.

meLAN®Max Vs. μeLAN® 3.2

μeLAN® 3.2 is an upgraded version of μeLAN® 3.2
Most of the features of μeLAN® 3.2 retained.
Hardware key used in μeLAN® 3.2 cannot be used for μeLAN® Max and vice versa.
Parameters supported: Instantaneous, Power, Demand, Phase Angle, Forward Integrated Parameters and Old Integrated Parameters.
- Parameters not supported by Meters will display as “No Response” or “0 (Zero)”. For e.g. EM 6434 will display zero for VLL and Current.

What operating systems are supported?

Windows 2000 Server
Windows XP Professional ( Service pack 1)
Windows 2000 Professional (Service pack 3 and Service pack 4 )

What is the Communication Interface supported?

Connect the Devices / Meters thru any one of the following

RS232 Serial Port (COM Ports available in the PCs)
USB Port via USB to Serial Converter Cable

Requires USB to Serial Converter driver to be installed.

RS485 / RS232 Serial Port to Ethernet Converter

Recommended Make: Moxa NPort Express Model No DE-211

Respective Drivers should be installed and configured by user.

µeLAN® Max Supports only COM1, COM2, COM3 and COM4. So configure the communication interface for any one of the ports

Can I Print HMI Screens like in µeLAN® 3.2?

The HMI Screens you view like Trends, Bar graph, Vector diagram, etc can now be printed directly to printer

Can I Save HMI Screens as BMP like in µeLAN® 3.2?

You can take the snapshot of the HMI screen and save it as “bmp” file.

How to enable only Load Center (Meter) which you want?

µeLAN® Max will read from the load centers which are enabled as per the PO/Indent. So if you have only meters connected then μeLAN® Max will read only from the meter you have configured.
You should order this information before you buy μeLAN® Max, the hardware key will be programmed per order.
- You can enable more load centers at later period also( max upto 30 nodes), for this you shall contact Conzerv HO.

What I am supposed to do if I have to upgrade?

Raise indent on the requirement. Mention the µeLAN® Max hardware key number in the indent itself.
On receipt of the indent Conzerv will raise invoice, following which you will receive License Upgrade Utility thru’ email as attachment or CD. Run the License Upgrade Utility to upgrade µeLAN® Max.
Save the attachment in your PC and copy the License Upgrade Utility to the µeLAN® Max PC. (For e.g. C:\ or D:\ in your µeLAN® 4.0 PC) and run the License Upgrade Utility.

What will happen if µeLAN® Max is reinstalled (or PC formatted) after (License) upgrade?

The Upgraded License information will be retained, since it is stored in hardware key.
You will have to just reinstall µeLAN® Max and insert the hardware key firmly and run µeLAN® Max.

What third party software required?

Microsoft Office 2000 / XP / 2003 to generate reports
Microsoft Internet Explorer 5.x or above..

What hardware is recommended?

PC:	Pentium III or better
RAM:	Min. 256 MB. Recommended: 512 MB
Hard disk capacity:	40 GB Minimum 5GB free Disk space required before installation
Monitor resolution:	1024 X 768 with minimum 256 colors
Serial ports:	COM1 to COM4 ports
Parallel port:	LPT1: for Hardware key, Printer can be connected through Hardware Key
CDROM drive:	48X or above

What are meLAN®Max Technical Specs

Number of mimic (values display) pages: Based on the number of devices configured.
Number of trend pages: Based on the number of EM 3000, EM 6000, CVM 96, CVM 144.
Number of matrix pages: 3 pages displaying VLL, A, KW, KVA, PF, HZ, KWH, DM.
Number of pens per trend: 8 Preset. Maximum is 20.
Archiving: Supported on Windows compatible internal or external HDD or MO Drive. (Requires drivers from drive supplier)
Duration of storage of historical data in HDD: Storage until 90% of HDD is full, after which old data will be purged.
Alarms: User programmed Full-Scale settings required before use. Arranged in 16 Groups.
Operating Quadrant: 1st and 4th quadrant, i.e., the meters should be in Forward current direction.

What devices are supported?

Conzerv EM 3360, EM 3460, EM 3480 (IE, IE + TOU)

In EM 3000 Series TOU Meters, only the select parameters are available, the TOU parameters are not available in μeLAN® Max.

Conzerv EM 6434.
Conzerv EM 6400 (Basic, IE, THD, DM, TOU, DM+IE, DM+THD, DM+THD+IE)

In EM 6400 Series Meters, the voltage phase angle parameters will always displays constant value for the following parameters Vr_deg = 0, Vy_deg = 120 and Vb_deg = 240. The Voltage Phase Angles Parameters are available only for communication and not available for display in the meter. However, this is applicable for EM 6400 Series meters up to version 02.03.01, in future version meters these parameters may display actual readings

CVM 96.
CVM 144.
LM 24 Data Logger
- Conzerv DM 52 (Any pulse-generating device) can be connected to LM 24 Data Logger.

What tags are read from the EM 3000 Series?

Sl.	Parameters	EM 3360 IE, IE+TOU	EM 3460, EM 3480 IE, IE+TOU
1	Instantaneous Parameters (Tags)
1.1.	VLL – Voltage Line-to-Line	Available	Available
1.2.	Vry – Voltage Line-to-Line between r & y phase	Available	Available
1.3.	Vyb – Voltage Line-to-Line between y & b phase	Available	Available
1.4.	Vbr – Voltage Line-to-Line between b & r phase	Available	Available
1.5.	Vr – Voltage R phase	Available	Available
1.6.	Vy – Voltage Y phase	Available	Available
1.7.	Vb – Voltage B phase	Available	Available
1.8.	A – Current	Available	Available
1.9.	Ar – Current r phase	Available	Available
1.10.	Ay – Current y phase	Available	Available
1.11.	Ab – Current b phase	Available	Available
1.12.	PF – Power Factor	Available	Available
1.13.	PF_r – Power Factor r Phase	Available	Available
1.14.	PF_y – Power Factor y Phase	Available	Available
1.15.	PF_b – Power Factor b Phase	Available	Available
1.16.	Hz – Frequency	Available	Available
2	Power Parameters (Tags)
2.1.	kVA – Average Apparent power	Available	Available
2.2.	kW – Average Active power	Available	Available
2.3.	kVAR – Average Reactive power	Available	Available
2.4.	kVAR_r - Reactive power R phase	Available	Available
2.5.	kVAR_y - Reactive power Y phase	Available	Available
2.6.	kVAR_b - Reactive power B phase	Available	Available
3	Demand Parameters (Tags)
3.1.	DM – Demand	No Response
3.2.	PdDM_Output – Predictive Demand	No Response	Available
3.3.	MaxDM – Maximum Demand	No Response	Available
4	Phase Angle Parameters (Tags)
4.1.	Vr_deg – Voltage angle r-phase	Available	Available
4.2.	Vy_deg – Voltage angle y-phase	Available	Available
4.3.	Vb_deg – Voltage angle b-phase	Available	Available
4.4.	Ir_deg – Current angle r-phase	Available	Available
4.5.	Iy_deg – Current angle y-phase	Available	Available
4.6.	Ib_deg – Current angle b-phase	Available	Available
5	Forward Integrated Parameters (Tags)
5.1.	kWh – Average Energy	Available	Available
5.2.	kVAh – Apparent Energy	Available	Available
5.3.	kVARh – Reactive Energy	Available	Available
5.4.	PFAvg – Average Power Factor	Available	Available
5.5.	RunSeconds – No. of seconds the meter was ON	Available	Available
5.6.	Intr – No. Of auxilary power interruptions	Available	Available
6	Reverse Integrated Parameters (Tags)
6.1.	kWh – Average Energy	Available	Available
6.2.	kVAh – Apparent Energy	Available	Available
6.3.	kVARh – Reactive Energy	Available	Available
6.4.	PFAvg – Average Power Factor	Available	Available
6.5.	null	-	-
7	Total Integrated Parameters (Tags)
7.1.	kWh – Average Energy	Available	Available
7.2.	kVAh – Apparent Energy	Available	Available
7.3.	kVARh – Reactive Energy	Available	Available
7.4.	PFAvg – Average Power Factor	Available	Available
7.5.	null	-	-
8	Old Integrated Parameters (Tags)
8.1	Old kWh – Active Energy before meter reset	Available	Available
8.1	Old kVAh – Apparent Power before meter reset	Available	Available

What tags are read from the EM 6000 Series?

Parameters

EM
6400 (basic)

EM
6400 IE

EM
6400 DM

EM
6400 DM+IE

EM
6400 THD

EM
6400 IE+ THD

EM
6400 DM+ THD

EM
6400 IE+DM THD

EM
6434

EM 6459

Total RMS Block

1.1

1.2

VAR

1.3

1.4

1.5

VLL

1.6

1.7

Intr

1.8

THD Block

2.1

Vr_THD

2.2

Vy_THD

2.3

Vb_THD

2.4

Ir_THD

2.5

Iy_THD

2.6

Ib_THD

R-Phase RMS Block

3.1

VAR_r

3.2

PF_r

3.3

V_ry

3.4

V_r

3.5

A_r

Y-Phase RMS Block

4.1

VAR_y

4.2

PF_y

4.3

V_yb

4.4

V_y

4.5

A_y

B-Phase RMS Block

5.1

VAR_b

5.2

PF_b

5.3

V_br

5.4

V_b

5.5

A_b

Forward Integerated Block

6.1

Fwd_KWh

6.2

Fwd_KVARh

6.3

Fwd_KVAh

6.4

Fwd_RunSecs

6.5

Fwd_PFavg

Reverse Integerated Block

7.1

Rev_KWh

7.2

Rev _KVARh

7.3

Rev _KVAh

7.4

Rev_RunSecs

7.5

Rev_PFavg

Total Integerated Block

8.1

Tot_KWh

8.2

Tot_KVARh

8.3

Tot_KVAh

8.4

Tot_RunSecs

8.5

Tot_PFavg

Percentage Of Load

9.1

Load_Avg

9.2

Load_r

9.3

Load_y

9.4

Load_b

9.5

Load_ub

Phase Angle Block

10.1

Vr_deg

10.2

Vy_deg

10.3

Vb_deg

10.4

Ir_deg

10.5

Iy_deg

10.6

Ib_deg

10.7

RPM

MaxDemand Block

11.1

MaxDM

Old Forward Integrated Block

12.1

Old_KVah

12.2

Old_KWh

Demand Block

13.1

PdDM_Output

13.2

13.3

TimeRemaining

What tags are read from the CVM 96?

Parameter	Description
V1	Inst Phase Voltage
A1	Inst Current
KW1	Inst Active Power
KVAR1	Inst Reactive Power
PF1	Inst Power Factor
V2	Inst Phase Voltage
A2	Inst Current
KW2	Inst Active Power
KVAR2	Inst Reactive Power
PF2	Inst Power Factor
V3	Inst Phase Voltage
A3	Inst Current
KW3	Inst Active Power
KVAR3	Inst Reactive Power
PF3	Inst Power Factor
KW	Inst 3 Ph Active Power
KVARL	Inst 3 Ph Power [L]
KVARC	Inst 3 Ph Power [C]
Cos	Inst Cosine
PF	Inst 3 Ph Power Factor
Hz	Inst Frequency [L1]
V12	Inst Line Voltage L1-L2
V23	Inst Line Voltage L2-L3
V31	Inst Line Voltage L3-L1
THD_V1	Inst % THD Voltage
THD_V2	Inst % THD Voltage
THD_V3	Inst % THD Voltage
THD_I1	Inst % THD Current
THD_I1	Inst % THD Current
THD_I1	Inst % THD Current
KWh	Inst Active Energy
KVARh_L	Inst Reactive Energy
KVARh_C	Inst Reactive Energy
KVA	Three phase apparent power
Pd	Power demand
V1_Max	Max Phase Voltage
A1_Max	Max Current
KW1_Max	Max Active Power
KVAR1_Max	Max Reactive Power
PF1_Max	Max Power Factor
V2_Max	Max Phase Voltage
A2_Max	Max Current
KW2_Max	Max Active Power
KVAR2_Max	Max Reactive Power
PF2_Max	Max Power Factor
V3_Max	Max Phase Voltage
A3_Max	Max Current
KW3_Max	Max Active Power
KVAR3_Max	Max Reactive Power
PF3_Max	Max Power Factor
KW_Max	Max 3 Ph Active Power
KVARL_Max	Max 3 Ph Power [L]
KVARC_Max	Max 3 Ph Power [C]
Cos_Max	Max Cosine
PF_Max	Max 3 Ph Power Factor
Hz_Max	Max Frequency [L1]
V12_Max	Max Line Voltage L1-L2
V23_Max	Max Line Voltage L2-L3
V31_Max	Max Line Voltage L3-L1
THD_V1_Max	Max % THD Voltage
THD_V2_Max	Max % THD Voltage
THD_V3_Max	Max % THD Voltage
THD_I1_Max	Max % THD Current
THD_I1_Max	Max % THD Current
THD_I1_Max	Max % THD Current
KWh_Max	Max Active Energy
KVARh_L_Max	Max Reactive Energy
KVARh_C_Max	Max Reactive Energy
KVA_Max	Three phase apparent power
Pd_Max	Power demand
V1_Min	Min Phase Voltage
A1_Min	Min Current
KW1_Min	Min Active Power
KVAR1_Min	Min Reactive Power
PF1_Min	Min Power Factor
V2_Min	Min Phase Voltage
A2_Min	Min Current
KW2_Min	Min Active Power
KVAR2_Min	Min Reactive Power
PF2_Min	Min Power Factor
V3_Min	Min Phase Voltage
A3_Min	Min Current
KW3_Min	Min Active Power
KVAR3_Min	Min Reactive Power
PF3_Min	Min Power Factor
KW_Min	Min 3 Ph Active Power
KVARL_Min	Min t 3 Ph Power [L]
KVARC_Min	Min 3 Ph Power [C]
Cos_Min	Min Cosine
PF_Min	Min 3 Ph Power Factor
Hz_Min	Min Frequency [L1]
V12_Min	Min Line Voltage L1-L2
V23_Min	Min Line Voltage L2-L3
V31_Min	Min Line Voltage L3-L1
THD_V1_Min	Min % THD Voltage
THD_V2_Min	Min % THD Voltage
THD_V3_Min	Min % THD Voltage
THD_I1_Min	Min % THD Current
THD_I1_Min	Min % THD Current
THD_I1_Min	Min % THD Current
KWh_Min	Min Active Energy
KVARh_L_Min	Min Reactive Energy
KVARh_C_Min	Min Reactive Energy
KVA_Min	Three phase apparent power
Pd_Min	Power demand

What tags are read from the CVM 144?

Parameter	Description
V1	Inst Phase Voltage
A1	Inst Current
KW1	Inst Active Power
KVAR1	Inst Reactive Power
PF1	Inst Power Factor
V2	Inst Phase Voltage
A2	Inst Current
KW2	Inst Active Power
KVAR2	Inst Reactive Power
PF2	Inst Power Factor
V3	Inst Phase Voltage
A3	Inst Current
KW3	Inst Active Power
KVAR3	Inst Reactive Power
PF3	Inst Power Factor
KW	Inst 3 Ph Active Power
KVARL	Inst 3 Ph [L] Power
KVARC	Inst 3 Ph [C] Power
Cos	Inst Cosine
PF	Inst 3 Ph Power Factor
Hz	Inst Frequency [L1]
V12	Inst Line Voltage L1-L2
V23	Inst Line Voltage L2-L3
V31	Inst Line Voltage L3-L1
THD_V1	Inst % THD Voltage
THD_V2	Inst % THD Voltage
THD_V3	Inst % THD Voltage
THD_I1	Inst % THD Current
THD_I1	Inst % THD Current
THD_I1	Inst % THD Current
KWh	Inst Active Energy
KVARh_L	Inst Reactive Energy [L]
KVARh_C	Inst Reactive Energy [C]
KVA	Inst 3 Ph Apparent Power
Pd	Inst Power Demand
I	Inst 3 Ph Current
I_N	Inst Neutral Current
Har1_L1	Inst Harmonic 1
Har2_L1	Inst Harmonic 2
Har3_L1	Inst Harmonic 3
Har4_L1	Inst Harmonic 4
Har5_L1	Inst Harmonic 5
Har6_L1	Inst Harmonic 6
Har7_L1	Inst Harmonic 7
Har8_L1	Inst Harmonic 8
Har9_L1	Inst Harmonic 9
Har10_L1	Inst Harmonic 10
Har11_L1	Inst Harmonic 11
Har12_L1	Inst Harmonic 12
Har13_L1	Inst Harmonic 13
Har14_L1	Inst Harmonic 14
Har15_L1	Inst Harmonic 15
V1_Max	Max Phase Voltage
A1_Max	Max Current
KW1_Max	Max Active Power
KVAR1_Max	Max Reactive Power
PF1_Max	Max Power Factor
V2_Max	Max Phase Voltage
A2_Max	Max Current
KW2_Max	Max Active Power
KVAR2_Max	Max Reactive Power
PF2_Max	Max Power Factor
V3_Max	Max Phase Voltage
A3_Max	Max Current
KW3_Max	Max Active Power
KVAR3_Max	Max Reactive Power
PF3_Max	Max Power Factor
KW_Max	Max 3 Ph Active Power
KVARL_Max	Max 3 Ph [L] Power
KVARC_Max	Max 3 Ph [C] Power
Cos_Max	Max Cosine
PF_Max	Max 3 Ph Power Factor
Hz_Max	Max Frequency [L1]
V12_Max	Max Line Voltage L1-L2
V23_Max	Max Line Voltage L2-L3
V31_Max	Max Line Voltage L3-L1
THD_V1_Max	Max % THD Voltage
THD_V2_Max	Max % THD Voltage
THD_V3_Max	Max % THD Voltage
THD_I1_Max	Max % THD Current
THD_I1_Max	Max % THD Current
THD_I1_Max	Max % THD Current
KVA_Max	Max 3Ph App Power
Pd_Max	Max Power Demand [L1]
I_Max	Max 3 Ph Current
I_N_Max	Max Neutral Current
Har1_L2	Inst Harmonic 1
Har2_L2	Inst Harmonic 2
Har3_L2	Inst Harmonic 3
Har4_L2	Inst Harmonic 4
Har5_L2	Inst Harmonic 5
Har6_L2	Inst Harmonic 6
Har7_L2	Inst Harmonic 7
Har8_L2	Inst Harmonic 8
Har9_L2	Inst Harmonic 9
Har10_L2	Inst Harmonic 10
Har11_L2	Inst Harmonic 11
Har12_L2	Inst Harmonic 12
Har13_L2	Inst Harmonic 13
Har14_L2	Inst Harmonic 14
Har15_L2	Inst Harmonic 15
V1_Min	Min Phase Voltage
A1_ Min	Min Current
KW1_ Min	Min Active Power
KVAR1_ Min	Min Reactive Power
PF1_ Min	Min Power Factor
V2_ Min	Min Phase Voltage
A2_ Min	Min Current
KW2_ Min	Min Active Power
KVAR2_ Min	Min Reactive Power
PF2_ Min	Min Power Factor
V3_ Min	Min Phase Voltage
A3_ Min	Min Current
KW3_ Min	Min Active Power
KVAR3_ Min	Min Reactive Power
PF3_ Min	Min Power Factor
KW_ Min	Min 3 Ph Active Power
KVARL_ Min	Min 3 Ph [L] Power
KVARC_ Min	Min 3 Ph [C] Power
Cos_ Min	Min Cosine
PF_ Min	Min 3 Ph Power Factor
Hz_ Min	Min Frequency [L1]
V12_ Min	Min Line Voltage L1-L2
V23_ Min	Min Line Voltage L2-L3
V31_ Min	Min Line Voltage L3-L1
THD_V1_ Min	Min % THD Voltage
THD_V2_ Min	Min % THD Voltage
THD_V3_ Min	Min % THD Voltage
THD_I1_ Min	Min % THD Current
THD_I1_ Min	Min % THD Current
THD_I1_ Min	Min % THD Current
KVA_ Min	Min 3Ph App Power
Pd_ Min	Min Power Demand [L1]
I_ Min	Min 3 Ph Current
I_N_ Min	Min Neutral Current
Har1_L3	Inst Harmonic 1
Har2_L3	Inst Harmonic 2
Har3_L3	Inst Harmonic 3
Har4_L3	Inst Harmonic 4
Har5_L3	Inst Harmonic 5
Har6_L3	Inst Harmonic 6
Har7_L3	Inst Harmonic 7
Har8_L3	Inst Harmonic 8
Har9_L3	Inst Harmonic 9
Har10_L3	Inst Harmonic 10
Har11_L3	Inst Harmonic 11
Har12_L3	Inst Harmonic 12

What tags are read from the LM 24 Data Logger?

Pulse 1 – Pulse input 1 to Data Logger

Pulse 2 – Pulse input 2 to Data Logger

Pulse 3 – Pulse input 3 to Data Logger

Pulse 4 – Pulse input 4 to Data Logger

Pulse 5 – Pulse input 5 to Data Logger

Pulse 6 – Pulse input 6 to Data Logger

Pulse 7 – Pulse input 7 to Data Logger

Pulse 8 – Pulse input 8 to Data Logger

Pulse 9 – Pulse input 9 to Data Logger

Pulse 10 – Pulse input 10 to Data Logger

Pulse 11 – Pulse input 11 to Data Logger

Pulse 12 – Pulse input 12 to Data Logger

Pulse 13 – Pulse input 13 to Data Logger

Pulse 14 – Pulse input 14 to Data Logger

Pulse 15 – Pulse input 15 to Data Logger

Pulse 16 – Pulse input 16 to Data Logger

Pulse 17 – Pulse input 17 to Data Logger

Pulse 18 – Pulse input 18 to Data Logger

Pulse 19 – Pulse input 19 to Data Logger

Pulse 20 – Pulse input 20 to Data Logger

Pulse 21 – Pulse input 21 to Data Logger

Pulse 22 – Pulse input 22 to Data Logger

Pulse 23 – Pulse input 23 to Data Logger

Pulse 24 – Pulse input 24 to Data Logger

How many tags are read from the devices?

Number of parameter per EM 3000	49
Number of parameter per EM 6000	62
Number of parameter per CVM 96	105
Number of parameter per CVM 144	150
Number of parameter per LM 24	24

What reports are provided?

Crystal Report

Daily shift wise Consumption report
Day-To-Day Consumption report
Daily shift wise Demand report
Day-To-Day Demand report
Daily shift wise Power interruption report
Day-To-Day Power interruption report
Daily shift wise Log reports.
Daily shift wise Data logger report
Day-To-Day Data logger report

What about the installation and commissioning of µeLAN® Max?

This is a plug and play software and easy to install by following the procedure given in the manual.
In case, the customer requires assistance by visit it will be done on chargeable basis @ Rs5000 per man-day.

How many meters/devices are supported?

Communicates with 30 Devices( EM 3000 series, EM 6000 series ( including DigitAN), CVM 96, CVM 144 and LM 24 Data logger).
Any meter of any combination is possible and the same will be preconfigured in the hardware key while ordering.

Can I set the meter ID of my choice?

No, the meter id should match the meter Id configured in the hardware key.
The meters configured in the hardware key can be viewed in the setup screen.

Can I interchange meter in later stage?(for e.g. EM 6000 to LM 24)

It is instructed not to interchange the meter in later stage, because there will be a conflict in the history data and the new data.
Report generation will fail if meters are interchanged.

Can I export the generated report to other formats?

yes, the generated reports are automatically exported to excel and saved. These files can be viewed in view reports option.
After generating the reports the reports can be exported to any of the following format: ,pdf, .xls, .doc and .rtf.

How the customer will know the meter ID configuration for the meters?

The customer will be provided with a printout of the meter models and its ID
This information is also present in CD in the file “Meter Config Document.doc”.

e.g. If it is mentioned as meter ID 1 as EM 6000 then the meter connected with ID 1 should be EM 6000 only. You should not connect any other meter(EM 3000 or CVM 96 or CVM 144 or LM 24) with meter ID 1.

Ordering information required.

The meter models that are required.
Number of meters that are to be connected, in each model.
Company name.
type of hardware key required if USB key is required.