You can provide solution in your Power transmission project with Klea Energy Analyser and Systemon Software
Shopping Malls and Chain Markets-Industrial Zones
With ETOR Gateway and Systemon software, you can read and invoice electric, naturel gas and
water meters as a sub-metering application automatically.
With Rapidus, you can always keep your facility’s reactive energy under control and never pay unexpected penalties.
With Klea and Ecras you can monitor, save and analyze energy consumptions. You can make saving decisions.
Factories
With Rapidus you can monitor your reactive energy remotely and you do not make unnecessary service and
never pay unexpected penalties.
With Klea and Ecras you can monitor, save and analyze energy consumptions. You can save expenses
and decrease your carbon emission.
Power Distribution Facilities
You can monitor, record and analyze your energy parameters and quality. You can minimize loss and leakage in your system.
With Rapidus you can keep your reactive energy consumption under control and you can monitor all energy parameters
with its advanced power measurement features.
KLEA Energy Analyzer
• Moduler design
• No connector cables
• No fixing screws
• State of the art technology
Easy
mounting on panels
connection to system
Data Collection Platform
• All forms of energy can be collected by one KLEA.
• 2 Digital I/O is standart in KLEA.
• Plus 5 I/O is optional.
• User can collect data from gas, water and/or pressure meters.
• Production quantity can be collected by a limit switch or a dry contact coming from a proximity sensor.
• User can calculate total consumption of all forms of energy and calculate energy cost per product.
Water
Meter
Gas
Meter
Quantity
Counting
KLEA
MOBDUS
Distribution
Panel
TCP/IP
ETOR
Dual Source Energy Measurement
• Generators produces much more expensive energy compared to utility supply.
• Klea has generator input and it is activated once generator is on.
• Users can set Tariff 2 to measure genset usage as a power supply and this brings users to identify the exact cost of the energy.
Genset
Utility
KLEA
TCP/IP
LOAD
ETOR
MOBDUS
RS 485
NETWORK
11
12
10
T1-1
T1-3
9
1
7
Multi-Tariff Energy Measurement
3
T1-2
8
2
6
4
5
• In addition to Tariff 2, Tariff 1 is splitted into three with adjustable
start & end times for each sub-tariff.
• User can use these sub-tariffs in order to measure energy consumption
for different shifts in a facility.
• Tariff 1-1, 1-2 and 1-3 values are also saved in non-volatile memory.
User can read these values from the screen remotely Modbus communication.
Demand Management
• User can adjust demand period between 1 to 60 minutes.
• Klea keeps demand for I, P ,Q, and, S for each phase.
• Klea monitors P, Q, S and I values and gets the average values of
4 parameters for each demand period.
• Klea logs the maximum value of the average values in a month.
• Klea keeps 4 months demand logs for 4 parameters with time stamp.
• P, Q, S and I values are measured for each phase and sum.
Data Logging
• Klea measures
• Klea logs
• Klea logs
• Klea logs
• 1 MB Memory
68 different energy parameters.
80 days hourly
240 days daily
36 months monthly real time measurements of 68 parameters.
4 months demand values.
50 recent alarms with time stamp.
100 A
5A
Surge Withstand 100 A/1 sec
1 sec.
Klea current inputs can withstand surges upto 100 A for 1 second.
In medium voltage applications, current transformers may generate
peak currents in secondary windings. These peak values may reach
upto 100 A and as a result of this current inputs of the analyzer may
burn out and create an open circuit for secondary connections of
the CT.
This may result with an explosion on CT since secondary side is
open circuited.
Signal Waveform Monitoring
• Klea’s high sampling rate enables the user to monitor a real
time signal waveform.
• Klea’s sampling rate per period is 512.
• User can monitor the effects of harmonics on the system from
this screen.
Programmable Analog Outputs
• Klea can be used as an energy transducer in substation
automation projects.
• Some models have either 2 or 4 programmable analog outputs
and user can set any measured parameter to be disclosed with
any of the output channel.
Accuracy Class (0,2s)
Function
Symbol
Function
Function
Performance Class
According to IEC
61557-12
P
Total active power
0,2
10 % Ib ≤ I ≤ Imax 0,5 Ind to 0,8 Cap
-
QV
Total reactive power
1
5 % Ib ≤ I ≤ Imax 0,25 Ind to 0,25 Cap
-
SA
Total apparent power
0,2
10 % Ib ≤ I ≤ Imax 0,5 Ind to 0,8 Cap
-
EA
Total active energy
0,2
0 to 49999999999
IEC 62053-22 Class 0.2S
ERV
Total reactive energy
2
0 to 49999999999
IEC 62053-23 Class 2
f
Frequency
0,05
45 - 65 Hz
-
I
Phase current
0,2
20 % Ib ≤ I ≤ Imax
-
INc
Neutral current
0,5
20 % Ib ≤ I ≤ Imax
-
U
Voltage
0,2
Umin ≤ U ≤ Umax
-
PFA
Power factor
0,5
0,5 Ind to 0,8 Cap
-
THDV
Total harmonic distortion voltage
1
0 % to 20 %
-
THDI
Total harmonic distortion current
1
0 % to 100 %
-
Measuring Range
Other
Complementary
Characteristics
Other Features
• Graphical LCD
• Language Support
• Harmonics Measurement upto 51
• Advanced Alarm Settings
• Real Time Clock
606100 KLEA 320P
606101 KLEA 370P
606102 KLEA 322P
606103 KLEA 324P
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W Aron
4
TT, TN, IT
0.2
0.2
0.5
512
< 3VA
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W Aron
4
TT, TN, IT
0.2
0.2
0.5
512
< 3VA
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W Aron
4
TT, TN, IT
0.2
0.2
0.5
512
< 3VA
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W Aron
4
TT, TN, IT
0.2
0.2
0.5
512
< 3VA
Upto 51st
*
*
*
Upto 51st
*
*
*
Upto 51st
*
*
*
Upto 51st
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
300 V Cat II
1-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat II
1-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat II
1-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat II
1-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
2
10 A
250 VAC
1250 VA
2
100 Hz, 10 ms
Dry Contact
2
5-30 VDC
20 Hz, 50 ms
3750 Vrms
0
2
10 A
250 VAC
1250 VA
7
100 Hz, 10 ms
Dry Contact
7
5-30 VDC
20 Hz, 50 ms
3750 Vrms
0
2
10 A
250 VAC
1250 VA
2
100 Hz, 10 ms
Dry Contact
2
5-30 VDC
20 Hz, 50 ms
3750 Vrms
2
2
10 A
250 VAC
1250 VA
2
100 Hz, 10 ms
Dry Contact
2
5-30 VDC
20 Hz, 50 ms
3750 Vrms
4
-
-
*
Isolated
*
Nonisolated
0,404 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
0,428 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
0,428 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
0,428 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
EMC - Electrostatic discharge immunity test
EMC - Radiated, radio-frequency,
electromagnetic field immunity test
EN 61000-4-2
EN 61000-4-3
EN 61000-4-2
EN 61000-4-3
EN 61000-4-2
EN 61000-4-3
EN 61000-4-2
EN 61000-4-3
EMC - Electrical fast transient/burst immunity test
EMC - Surge immunity test
EMC - Immunity to conducted disturbances,
induced by radio-frequency fields
EMC - Power frequency magnetic field immunity test
EMC - Voltage dips, short interruptions and
voltage variations immunity tests
Industrial, scientific and medical equipment - Radio-frequency
disturbance characteristics - Limits and methods of measurement
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-8
EN 61000-4-11
EN 61000-4-8
EN 61000-4-11
EN 61000-4-8
EN 61000-4-11
EN 61000-4-8
EN 61000-4-11
EN 55011/A1:2010
EN 55011/A1:2010
EN 55011/A1:2010
EN 55011/A1:2010
General
Graphical LCD 6 buttons
Password Protection
Supply Voltage AC
Supply Voltage DC
Current Transformer Ratio
Voltage Transformer Ratio
Connection Type
Measurement in Quadrants
Networks
Accuracy Class Voltage
Accuracy Class Current
Accuracy Class Active Energy
Number of Measurement in a period
Power Consumption
Power Quality Measurements
Harmonics / current and voltage
THD-Voltage in %
THD-Current in %
Phasor Diagram
Data Logging
Average, Minimum, Maximum Values
Alarms
Time Stamp
Demand
Voltage Measurement Input
Overvoltage Category
Measured Range L-N
Measured Range L-L
Measured Frequency Range
Power Consumption
Sampling Freq.between 45-65 Hz
Current Measurement Input
Rated Current
Measurement Range
Overvoltage Category
Measurement Surge Voltage
Power Consumption
Peak current for 1 sec
Sampling Freq.between 45-65 Hz
Input Outputs
• Relay Outputs
Max. Switching Current
Max. Switching Voltage
Max. Switching Power
• Digital Inputs
Minimum Counting Frequency
Input Present or Not
• Digital Outputs
Switching Voltage Range
Minimum Switching Frequency
Isolation Level
• Analog Outputs
Range of Outputs
0-5 V, 0-10 V, -5-5 V, -10-10V, 0-20 mA, 4-20 mA
Isolation
Mechanical Properties
Weight
Protection Class
Assembly Type
Dimensions
• Cable Cross Sections
Supply Voltage, Current, Relay Outputs
Stranded:
Solid:
Digital I/O, RS 485
Stranded:
Solid:
Ambient Conditions
Operating Temperature
Storage Temperature
Relative Humidity (no condensation)
Communication and Others
Modbus RTU
Battery
Real Time Clock
Standarts in Compliance
Safety requirements for electrical equipment
for measurement, control, and laboratory use
Dimensions (mm)
Wiring Diagrams
3 Phase Connection With Neutral (3P4W)
3 Phase Connection No Neutral (3P3W)
3 Phase No Neutral Aron Connection
Ecras Electronic Multimeter
• Moduler design
• No connector cables
• No fixing screws
• State of the art technology
Easy
mounting on panels
connection to system
Instanteneous Measurement
• Each phase VL-N and its averages.
• Each phase VL-L and its averages.
• Each phase I and its sum.
• Neutral Current
• Each phase active power(P) and its sum.
• Each phase reactive power(Q) and its sum.
• Each phase apparent power(S) and its sum.
• Each phase power factor(PF) and its average.
• Frequency
Data Logging
• Ecras measures 30 different energy parameters.
• Ecras logs min and max values of the measured parameters
• Ecras logs demand values for I, Q, P and S.
Alarms
• Low limit, High Limit, Hysterysis and Delay Values can be set from the
Alarm Menu for the below parameters:
VL-N, V L-L, I, IN, PF and F
• Phase sequence
• Absence of Voltage and Current
Can be detected by Ecras and indicates each alarm by blinking
leds on its front panel.
• User can activate two output relays by assigning them individually to
any alarm.
Surge Withstand 100 A/1 sec
100 A
5A
1 sec.
Ecras current inputs can withstand surges upto 100 A for 1 second.
In case of a current rise in the secondary winding of the current
transformer, current inputs of the multimeter should withstand to
these peak values. If not, current transformer may explode due to
open circuit in the secondary winding.
This may result with shutdown of the measurement system.
Ecras Product Selection Chart
General
Seven Segment Display 4 buttons
Password Protection
Supply Voltage AC
Supply Voltage DC
Current Transformer Ratio
Voltage Transformer Ratio
Connection Type
Measurement in Quadrants
Networks
Accuracy Class Voltage
Accuracy Class Current
Accuracy Class Active Energy
Number of Measurement in a period
Measurement Accuracy
Power Consumption
Power Quality Measurements
Harmonics / current and voltage
THD-Voltage in %
THD-Current in %
Phasor Diagram
Data Logging
Average, Minimum, Maximum Values
Alarms
Time Stamp
Demand
Voltage Measurement Input
Overvoltage Category
Measured Range L-N
Measured Range L-L
Measured Frequency Range
Power Consumption
Sampling Freq.between 45-65 Hz
Current Measurement Input
Rated Current
Measurement Range
Overvoltage Category
Measurement Surge Voltage
Power Consumption
Peak current for 1 sec
Sampling Freq.between 45-65 Hz
Input Outputs
Alarm Relay Outputs
Max. Switching Current
Max. Switching Voltage
Max. Switching Power
Mechanical Properties
Weight
Protection Class
Assembly Type
Dimensions
• Cable Cross Sections
Supply Voltage, Current, Relay Outputs
Stranded:
Solid:
606200 ECRAS
606201 ECRAS ALARM
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W
4
TT, TN, IT
0.2
0.2
0.5
512
+ - 1 digit
< 6VA
*
*
85-300 V AC
85-300 V DC
1-5000 A
1-5000 A
3P4W, 3P3W
4
TT, TN, IT
0.2
0.2
0.5
512
+ - 1 digit
< 6VA
*
*
*
*
*
*
*
*
*
*
*
*
*
*
300 V Cat II
10-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat II
10-300 Vrms
2-500 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
6A
0.01-5,5A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-5,5A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
0
2
10 A
250 VAC
1250 VA
0,291 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
0,292 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
300 VAC CAT II acc. to IEC 61010-1
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-8
EN 61000-4-11
EN 55011/A1:2010
300 VAC CAT II acc. to IEC 61010-1
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-8
EN 61000-4-11
EN 55011/A1:2010
Digital I/O, RS 485
Stranded:
Solid:
Ambient Conditions
Operating Temperature
Storage Temperature
Relative Humidity (no condensation)
Communication and Others
Modbus RTU
Battery
Real Time Clock
Standarts in Compliance
Safety requirements for electrical equipment for measurement, control, and laboratory use
EMC - Electrostatic discharge immunity test
EMC - Radiated, radio-frequency, electromagnetic field immunity test
EMC - Electrical fast transient/burst immunity test
EMC - Surge immunity test
EMC - Immunity to conducted disturbances, induced by radio-frequency fields
EMC - Power frequency magnetic field immunity test
EMC - Voltage dips, short interruptions and voltage variations immunity tests
Industrial, scientific and medical equipment - Radio-frequency disturbance characteristics - Limits and methods of measurement
Dimensions (mm)
Wiring Diagrams
Star Connection (with neutral)
Measuring
Current
Measuring
Voltage
Delta Connection (no neutral)
Measuring
Current
Measuring
Voltage
Rapidus Power Factor Controller
• Moduler design
• No connector cables
• No fixing screws
• State of the art technology
Easy
mounting on panels
connection to system
Dynamic Capacitor Monitoring
• DCM is a supreme function in Rapidus which enables the user to make pro-active maintenance for compensation cabinets.
• DCM tracks the real time KVAR values of each capacitor and uses the measured KVAR value in compensation calculations.
• If a contactor is broken or a capacitor is out of order, DCM will detect it within 1 or 2 days* and activate the alarm for user.
• DCM has 3,4% accuracy.
* This information is valid for 3 shift operating facilities.
Initial Values
Alarm Level Setup
Contactors
C1
C2
C3
C4
Alarm Level %20
5 kvar
10 kvar
10 kvar
20 kvar
After a certain time
Alarm screen indicates the status of 3rd and 4rd steps
Remotely monitor actual
kvar values of each step
in addition to DCM alarms
MOBDUS - RS 485
Pro active maintenance
Highly sensitive compensation
due to realtime kvar
measurements of the steps
Contactors
C1
C2
C3
C4
Alarm Level %20
3 kvar
3 kvar
1 kvar
0 kvar
Means
Means
capacitor should
be changed
capacitor is out of order
or contactor is out of order
or cable connection problem
or fuse blown
Capacitor/Reactor---1P/3P
• Rapidus can be connected to either single or three phase capacitors or reactors.
• Rapidus can be used in Data Centers or Mining Areas where the load is frequently capacitive.
• Rapidus can be used with a selection of capacitors and reactors in single or three phase connections.
3 Phase Reactor
1 Phase Reactor
- Fig. A
Mono Phase
Capacitor
3 Phase Capacitor
3 Phase Capacitor
- Fig. B
V1
V1
V2
V2
V3
V3
N
N
Advanced Learning Function
• Rapidus can learn the connections and capacitor
or reactor values.
• If there is a fault in the CT or VT connections,
Rapidus detects the fault and corrects it.
It shows the fault on the screen.
L3
K3 L2 K2 L1 K1
V1 V2 V3 N
K3
Correct connection
L3 L2 K2 K1 L1
V1 V3 V2 N
Wrong connection
Advanced Learning Function
Rapidus detects the wrong connections after learning mode is activated.
Connections are displayed on the screen. Rapidus don't take misconnections into consideration and
operates as if all connections are properly made as shown in Fig A.
Rapidus learns all step values regardless they are capacitor or reactor.
Rapidus = PFC + Energy Analyzer
• In standart compensation cabinets, there are always a multimeter or analyzer to be associated with a power factor controller.
Rapidus, as a two-in-one device meets both requirements of the industry.
• User can reduce the cost of analyzer, wiring and labor by choosing Rapidus.
Saving On
• Extra multimeter / analyzer cost
• Wiring cost
• Labor cost
Rapidus as an Energy Analyzer
Rapidus can measure and monitor the following parameters :
• All electrical parameters
• Min, Max and Average Values for
Hour, Day and Month
• Harmonics upto 51 st
• Demand
• Phasor Diagram
Data Logging
• Rapidus measures
68 different energy parameters.
• Rapidus logs
80 days hourly
240 days daily
36 months monthly real time measurements of 68 parameters.
• Rapidus logs
demand values for P. Q, S, I
• Rapidus logs
50 recent alarms with time stamp.
• 1 MB Memory
100 A
Surge Withstand 100 A/1 sec
5A
1 sec.
Rapidus current inputs can withstand surges upto 100 A for 1 second.
In case of a current rise in the secondary winding of the current
transformer, current inputs of the PFC should withstand to these peak
values. If not, current transformer may explode due to open circuit in the
secondary winding.
This may result with shutdown of the compensation system and
compensation penalty for the end-user.
Accuracy Class (0,2s)
Function
Symbol
Function
Function
Performance Class
According to IEC
61557-12
P
Total active power
0,2
10 % Ib ≤ I ≤ Imax 0,5 Ind to 0,8 Cap
-
QV
Total reactive power
1
5 % Ib ≤ I ≤ Imax 0,25 Ind to 0,25 Cap
-
SA
Total apparent power
0,2
10 % Ib ≤ I ≤ Imax 0,5 Ind to 0,8 Cap
-
EA
Total active energy
0,2
0 to 49999999999
IEC 62053-22 Class 0.2S
ERV
Total reactive energy
2
0 to 49999999999
IEC 62053-23 Class 2
f
Frequency
0,05
45 - 65 Hz
-
I
Phase current
0,2
20 % Ib ≤ I ≤ Imax
-
INc
Neutral current
0,5
20 % Ib ≤ I ≤ Imax
-
U
Voltage
0,2
Umin ≤ U ≤ Umax
-
PFA
Power factor
0,5
0,5 Ind to 0,8 Cap
-
THDV
Total harmonic distortion voltage
1
0 % to 20 %
-
THDI
Total harmonic distortion current
1
0 % to 100 %
-
Other Features
• Graphical LCD
• Language Support
• Harmonics Measurement upto 51
• Advanced Alarm Settings
• Real Time Clock
Measuring Range
Other
Complementary
Characteristics
Rapidus Product Selection Chart
General
Graphical LCD 6 buttons
Password Protection
Measurement Type
Supply Voltage AC
Supply Voltage DC
Day/Night Input
Number of Steps
Current Transformer Ratio
Voltage Transformer Ratio
Connection Type
Type of Switching
Target cosQ
Accuracy Class Voltage
Accuracy Class Current
Accuracy Class Active Energy
Number of Measurement in a period
Power Consumption
Power Quality Measurements
Harmonics / current and voltage
THD-Voltage in %
THD-Current in %
Phasor Diagram
Data Logging
Average, Minimum, Maximum Values
Alarms
Time Stamp
Voltage Measurement Input (Supply and
Measurement Inputs are the same node)
Overvoltage Category
Measured Range L-N
Measured Range L-L
Measured Frequency Range
Power Consumption
Sampling Freq.between 45-65 Hz
Current Measurement Input
Rated Current
Measurement Range
Overvoltage Category
Measurement Surge Voltage
Power Consumption
Peak current for 1 sec
Sampling Freq.between 45-65 Hz
Input Outputs
• Relay Outputs
Max. Switching Current
Max. Switching Voltage
Max. Switching Power for a Single Relay
• Alarm Relay Outputs
Max. Switching Current
Max. Switching Voltage
Max. Switching Power
• GEN Input
Input range
Mechanical Properties
Weight
Protection Class
Assembly Type
Dimensions
• Cable Cross Sections
Voltage, Current, All Relay Outputs, Gen Input
Stranded:
Solid:
RS 485
Stranded:
Solid:
Ambient Conditions
Operating Temperature
Storage Temperature
Relative Humidity (no condensation)
Communication and Others
Modbus RTU
Battery
Real Time Clock
Standarts in Compliance
Safety requirements for electrical equipment
for measurement, control, and laboratory use
606006 RAPIDUS 231R-E
606007 RAPIDUS 232R-E
606011 RAPIDUS 211R
606014 RAPIDUS 212R
606020 RAPIDUS 218R
*
*
3 Phase
95-272 V AC
95-272 V AC
85-265 V AC
1-12 Selectable
1-5000 A
1-5000 A
3P4W
Relay
0,80--1,00 Inductive or Capacitive
0.2
0.2
0.5
512
< 10VA
*
*
3 Phase
95-272 V AC
95-272 V AC
85-265 V AC
1-24 Selectable
1-5000 A
1-5000 A
3P4W
Relay
0,80--1,00 Inductive or Capacitive
0.2
0.2
0.5
512
< 10VA
*
*
1 Phase
95-272 V AC
95-272 V AC
85-265 V AC
1-12 Selectable
1-5000 A
1-5000 A
3P4W
Relay
0,80--1,00 Inductive or Capacitive
0.2
0.2
0.5
512
< 10VA
*
*
1 Phase
95-272 V AC
95-272 V AC
85-265 V AC
1-24 Selectable
1-5000 A
1-5000 A
3P4W
Relay
0,80--1,00 Inductive or Capacitive
0.2
0.2
0.5
512
< 10VA
*
*
1 Phase
95-272 V AC
95-272 V AC
85-265 V AC
1-8 Selectable
1-5000 A
1-5000 A
3P4W
Relay
0,80--1,00 Inductive or Capacitive
0.2
0.2
0.5
512
< 10VA
Upto 51st
*
*
*
Upto 51st
*
*
*
Upto 51st
*
*
*
Upto 51st
*
*
*
Upto 51st
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
300 V Cat III
95-272 Vrms
165-470 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat III
95-272 Vrms
165-470 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat III
95-272 Vrms
165-470 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat III
95-272 Vrms
165-470 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
300 V Cat III
95-272 Vrms
165-470 Vrms
45-65 Hz
<0.1 VA
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
6A
0.01-6A
300 V Cat II
2 kV
<0.2 VA
100 A
25,6 kHz
12
2A
250 VAC
1250 VA
2
4A
250 VAC
1000 VA
1
85 - 265 VAC
24
2A
250 VAC
1250 VA
2
4A
250 VAC
1000 VA
1
85 - 265 VAC
12
2A
250 VAC
1250 VA
2
4A
250 VAC
1000 VA
1
85 - 265 VAC
24
2A
250 VAC
1250 VA
2
4A
250 VAC
1000 VA
1
85 - 265 VAC
8
2A
250 VAC
1250 VA
2
4A
250 VAC
1000 VA
1
85 - 265 VAC
0,670 kg
IP 40 front, IP 20 rear
Panel Mount
W144xH144xD78
0,765 kg
IP 40 front, IP 20 rear
Panel Mount
W144xH144xD78
0,653 kg
IP 40 front, IP 20 rear
Panel Mount
W144xH144xD78
0,750 kg
IP 40 front, IP 20 rear
Panel Mount
W144xH144xD78
0,415 kg
IP 40 front, IP 20 rear
Panel Mount
W96xH96xD72
300 VAC CAT III acc. to IEC 61010-1 300 VAC CAT III acc. to IEC 61010-1
Dimensions (mm)
58.0
137
7.0
144
144
Wiring Diagrams
Gen Input
Gen Input
Rapidus 12 Relays (606 011)
ETOR Ethernet Gateway
Product Code
Product Name
Product Description
601400
Etor-4
RS 485 to Ethernet bidirectional
601401
Etor-2
RS 232 to Ethernet bidirectional
• Can be operated in server or client mode
• Supports 6 different user’s interrogation at the same time
• 64 devices can be connected
• Slimmest gateway in the market
• DIN Rail mount
17,5 mm
ETOR 4 Ethernet –MODBUS Converter
ETOR series convert between MODBUS and Ethernet protocols and thus allow users to;
• Control and monitor the serial devices over the Internet or local network (server mode)
• Control and monitor the devices supporting Ethernet-based protocols via the serial interface (client mode)
It supports up to 6 remote connections. ETOR series can be configured via built-in USB port or built-in web server by using an
Internet browser.
Technical Specifications
Supply
18-60V AC/DC and USB
Reverse Connection Protection
Network Features
6 Remote Connections
Configuration via Web Interface
DHCP (Automatic IP Assignment)
ARP
Ping blocking
Serial Communication
Supports Up To 64 Devices
Baudrate: 300, 600, 1200, 2400, 4800, 9600,
19200, 38400, 57600, 115200
Stop Bit and Parity Bit Settings
USB
Configuration via USB
Micro USB Connection Interface
Supported Protocols
MODBUS RTU
MODBUS ASCII
MODBUS TCP
MODBUS RTU via TCP
MODBUS ASCII via TCP
Protocol Conversions
ETOR is capable of performing conversions between the serial and Ethernet data by running in server or client modes.
Server Mode
When running in the server mode, ETOR converts the MODBUS TCP, MODBUS RTU over TCP and MODBUS ASCII over
TCP queries to MODBUS RTU and MODBUS ASCII queries and transmits these queries to the serial devices. It converts the
responses it receives to query protocols and transmits them to the querying device (master).
Query Side
Response Side
Physical Port
Ethernet
Physical Port
Serial
Protocol
MODBUS TCP
Protocol
MODBUS RTU
MODBUS RTU over TCP
MODBUS ASCII
MODBUS ASCII overTCP
Client Mode
When running in the client mode, ETOR converts the MODBUS RTU and MODBUS ASCII queries to MODBUS TCP, MODBUS
RTU over TCP and MODBUS ASCII over TCP queries and transmits these queries to the remote devices connected to the
Internet or the local network. The responses received from the devices, convert the query protocols and transmit them to the
querying device (master).