INSTRUCTION MANUAL
(M097B01-03-16A)
Multifunction multimeter
CirCAMP-4DP
CirCAMP-2IP
2
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
SAFETY PRECAUTIONS
DISCLAIMER
CIRCUTOR, SA reserves the right to make modi cations to the device or the unit speci ca-
tions set out in this instruction manual without prior notice.
CIRCUTOR, SA on its web site, supplies its customers with the latest versions of the device
speci cations and the most updated manuals.
www.circutor.com
DANGER
Warns of a risk, which could result in personal injury or material damage.
ATTENTION
Indicates that special attention should be paid to a speci c point.
Follow the warnings described in this manual with the symbols shown below.
If you must handle the unit for its installation, start-up or maintenance, the following
should be taken into consideration:
Incorrect handling or installation of the unit may result in injury to personnel as well as damage
to the unit. In particular, handling with voltages applied may result in electric shock, which may
cause death or serious injury to personnel. Defective installation or maintenance may also
lead to the risk of re.
Read the manual carefully prior to connecting the unit. Follow all installation and maintenance
instructions throughout the unit’s working life. Pay special attention to the installation standards of the National Electrical Code.
Refer to the instruction manual before using the unit
In this manual, if the instructions marked with this symbol are not respected or carried out correctly, it can
result in injury or damage to the unit and /or installations.
CIRCUTOR, SA reserves the right to modify features or the product manual without prior noti cation.
3
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
CONTENTS
SAFETY PRECAUTIONS ���������������������������������������������������������������������������������������������������������������������������������������3
DISCLAIMER ���������������������������������������������������������������������������������������������������������������������������������������������������������� 3
CONTENTS ������������������������������������������������������������������������������������������������������������������������������������������������������������� 4
REVISION LOG �������������������������������������������������������������������������������������������������������������������������������������������������������6
1�- VERIFICATION UPON RECEPTION ����������������������������������������������������������������������������������������������������������������� 7
2�- PRODUCT DESCRIPTION �������������������������������������������������������������������������������������������������������������������������������� 7
3�- DEVICE INSTALLATION ����������������������������������������������������������������������������������������������������������������������������������� 9
3�1�- PRELIMINARY RECOMMENDATIONS ���������������������������������������������������������������������������������������������������� 9
3�2�- INSTALLATION ���������������������������������������������������������������������������������������������������������������������������������������10
3�3�- DEVICE TERMINALS ������������������������������������������������������������������������������������������������������������������������������ 10
3�3�1�- CirCAMP-4DP MODEL �����������������������������������������������������������������������������������������������������������������10
3�3�2�- CirCAMP-2IP MODEL ������������������������������������������������������������������������������������������������������������������� 11
3�4�- CONNECTION DIAGRAM ����������������������������������������������������������������������������������������������������������������������� 12
3�4�1�- CirCAMP-4DP MODEL ������������������������������������������������������������������������������������������������������������������12
3�4�2�- CirCAMP-2IP MODEL ��������������������������������������������������������������������������������������������������������������������13
3�5�- CONNECTIONS ���������������������������������������������������������������������������������������������������������������������������������������� 14
4�- OPERATION ��������������������������������������������������������������������������������������������������������������������������������������������������� 15
4�1�- KEY FUNCTIONS ������������������������������������������������������������������������������������������������������������������������������������� 15
4�2�- DISPLAY ��������������������������������������������������������������������������������������������������������������������������������������������������� 15
4�3�- LED INDICATORS ������������������������������������������������������������������������������������������������������������������������������������ 16
4�3�1�- CirCAMP-4DP MODEL ������������������������������������������������������������������������������������������������������������������16
4�3�2�- CirCAMP-2IP MODEL ��������������������������������������������������������������������������������������������������������������������17
4�4�- IMPULSE INPUTS ������������������������������������������������������������������������������������������������������������������������������������ 18
4�5�- RELAY OUTPUTS ������������������������������������������������������������������������������������������������������������������������������������ 19
4�6�- CIRCUIT BREAKER ��������������������������������������������������������������������������������������������������������������������������������� 19
4�6�1�- CirCAMP-4DP MODEL �������������������������������������������������������������������������������������������������������������������19
4�6�2�- CirCAMP-2IP MODEL ���������������������������������������������������������������������������������������������������������������������20
4�7�- REAL TIME CLOCK ���������������������������������������������������������������������������������������������������������������������������������21
5�- DISPLAY IMPROVEMENTS ��������������������������������������������������������������������������������������������������������������������������� 22
5�1�- DISPLAY IN STANDBY MODE ����������������������������������������������������������������������������������������������������������������22
5�1�1�- CirCAMP-4DP MODEL ������������������������������������������������������������������������������������������������������������������23
5�1�2�- CirCAMP-2IP MODEL ��������������������������������������������������������������������������������������������������������������������24
5�2�- DISPLAY IN READING MODE ����������������������������������������������������������������������������������������������������������������� 25
5�2�1�- CirCAMP-4DP MODEL �������������������������������������������������������������������������������������������������������������������25
5�2�2�- CirCAMP-2IP MODEL ���������������������������������������������������������������������������������������������������������������������27
6�- CONFIGURATION ������������������������������������������������������������������������������������������������������������������������������������������ 29
7�- COMMUNICATIONS ��������������������������������������������������������������������������������������������������������������������������������������� 29
7�1�- OPTICAL COMMUNICATIONS PORT ����������������������������������������������������������������������������������������������������� 29
7�2�- PLC COMMUNICATIONS������������������������������������������������������������������������������������������������������������������������� 29
7�3�- RS-485 COMMUNICATIONS (according to version) ����������������������������������������������������������������������������� 30
7�3�1� CONNECTIONS ������������������������������������������������������������������������������������������������������������������������������� 30
7�4�- DLMS PROTOCOL �����������������������������������������������������������������������������������������������������������������������������������31
7�4�1�- ABSTRACT OBJECTS: SAP ASSIGNMENT, LN ASSOCIATIONS, COSEM �������������������������������31
7�4�2�- IDENTIFICATION NUMBERS ��������������������������������������������������������������������������������������������������������� 35
7�4�3�- CLOCK ��������������������������������������������������������������������������������������������������������������������������������������������36
7�4�4�- ERRORS ������������������������������������������������������������������������������������������������������������������������������������������ 37
7�4�5�- EVENTS ������������������������������������������������������������������������������������������������������������������������������������������� 37
7�4�6�- CONTROLLING THE CIRCUIT BREAKER ������������������������������������������������������������������������������������ 45
7�4�7�- FIRMWARE UPDATE ���������������������������������������������������������������������������������������������������������������������� 46
7�4�8�- METERING POINT ID ���������������������������������������������������������������������������������������������������������������������47
7�4�9�- FIRMWARE VERSION ��������������������������������������������������������������������������������������������������������������������47
7�4�10�- OPTICAL PORT CONFIGURATION ��������������������������������������������������������������������������������������������� 47
7�4�11�- RS-485 PORT CONFIGURATION ������������������������������������������������������������������������������������������������� 48
7�4�12�- TIMEOUT ��������������������������������������������������������������������������������������������������������������������������������������� 48
7�4�13�- RESETTING THE DEVICE ������������������������������������������������������������������������������������������������������������ 49
7�4�14�- ACTIVE ENERGY �������������������������������������������������������������������������������������������������������������������������� 49
7�4�15�- IMPULSE INPUTS ������������������������������������������������������������������������������������������������������������������������ 50
7�4�16�- INSTANTANEOUS VALUES �������������������������������������������������������������������������������������������������������� 50
7�4�17�- TRANSFORMER RATIO ��������������������������������������������������������������������������������������������������������������� 54
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
7�4�18�- OBJECTS RELATED TO PRE-PAYMENT ������������������������������������������������������������������������������������ 55
7�4�19�- LOAD PROFILES �������������������������������������������������������������������������������������������������������������������������� 61
8�- TECHNICAL FEATURES �������������������������������������������������������������������������������������������������������������������������������� 63
9�- MAINTENANCE AND TECHNICAL SERVICE ������������������������������������������������������������������������������������������������ 67
10�- GUARANTEE �������������������������������������������������������������������������������������������������������������������������������������������������67
11�- CE CERTIFICATE ������������������������������������������������������������������������������������������������������������������������������������������ 68
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
REVISION LOG
Table 1: Revision log�
Date Revision Description
07/16 M097B01-03-15A Initial Version
02/17 M097B01-03-16A
Changes in the following sections:
2. - 3.3.2. - 3.4.2. - 3.5. - 4. - 4.3.2. - 4.4. - 4.3.2. - 4.4.-
4.5. - 4.6.2. - 5.1.2. - 5.2.2. - 7.4.2. - 7.4.5.6. - 7.4.14. -
7.4.15. - 7.4.16. - 7.4.17. - 7.4.18.1. - 7.4.19. - 8
Note: The images of the devices are for illustrative purposes only and may differ from the orig-
inal device.
6
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
1�- VERIFICATION UPON RECEPTION
Check the following points when you receive the device:
a) The device meets the specications described in your order.
b) The device has not suffered any damage during transport.
c) Perform an external visual inspection of the device prior to switching it on.
d) Check that it has been delivered with the following:
- An installation guide.
If any problem is noticed upon reception, immediately contact the transport
company and/or CIRCUTOR's after-sales service.
2�- PRODUCT DESCRIPTION
CirCAMP-xxP units are a range of multichannel compact energy meters, with additional inputs
for metering the impulses of other devices, such as water and gas meters.
The system consists of two models:
El CirCAMP-4DP is a static energy meter that can manage 4 single-phase measurements
independently, all sharing the same neutral terminal.
El CirCAMP-2IP is a static energy meter that can manage 2 three-phase measurements,
indirectly /5A and independently in current, all sharing the same voltage.
Active energy is measured in compliance with Class B, according to European Directive
22/2004 EC.
The device features:
- 2 keys that allow you to browse the different screens and program the device.
- Indicator LEDs: 13 CirCAMP-4DP model y 7 CirCAMP-2IP model.
- Verication LEDs: 4 CirCAMP-4DP model y 2 CirCAMP-2IP model.
- LCD display, displays all parameters,
- 2 connection seals,
- 2 terminal covers, to cover the measuring terminals of the device and the xing screws.
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
- Communications via an optical port.
- RS-485 communications (according to version).
- PLC OFDM communications.
The CirCAMP-xxP is offered in different versions, Table 2 shows all of the possible options of
the device.
Table 2: CirCAMP-xxP options�
Options CirCAMP-4DP Code
Connection mode 4 single-phase measurements with shared neutral 1
Accuracy Class B active / Does not measure reactive energy 10
Measurement voltage
230 V
E
Current measurement system Transformer D
Current measurement 5(32) A 7
Frequency
50 Hz
A
60 Hz
B
Automatic (50/60Hz) C
Communications
PLC OFDM / RS-485 8
PLC OFDM B
Expansion 4 potential free outputs / 4 inputs 3
Model Pre-payment P
Number of quadrants Storage in both directions 2
Additional features With circuit breaker on the phase lines 2
Options CirCAMP-2IP Code
Connection mode
2 three-phase measurements with common volt-
ages
6
Accuracy Class B active / Does not measure reactive energy 10
Measurement voltage
3 x 127/220 V N
3 x 230/400 V Q
3 x 127/220 V ... 3 x 230/400 V U
Current measurement system Transformer T
Current measurement 5(10) A 8
Frequency
50 Hz
A
60 Hz B
Automatic (50/60Hz) C
Communications
PLC OFDM / RS-485 8
PLC OFDM B
Expansion 4 potential free outputs / 4 inputs 3
Model Pre-payment P
Number of quadrants Storage in both directions 2
Additional features No additional features 0
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
3�- DEVICE INSTALLATION
3.1.- PRELIMINARY RECOMMENDATIONS
In order to use the device safely, it is critical that individuals who handle it follow
the safety measures set out in the standards of the country where it is being used,
use the personal protective equipment necessary, and pay attention to the various warnings indicated in this instruction manual.
The CirCAMP-xxP device must be installed by authorised and qualied staff.
The power supply plug must be disconnected and measuring systems switched off before
handling, altering the connections or replacing the device. It is dangerous to handle the device
while it is powered.
Also, it is critical to keep the cables in perfect condition to avoid accidents, personal injury and
damage to installations.
The manufacturer of the device is not responsible for any damage resulting from failure by the
user or installer to heed the warnings and/or recommendations set out in this manual, nor for
damage resulting from the use of products or accessories that did not come with the device or
that were made by other manufacturers.
If an anomaly or malfunction is detected in the device, do not use the device to take any measurements.
Inspect the work area before taking any measurements. Do not take measurements in dangerous areas or where there is a risk of explosion.
Disconnect the device from the power supply (device and measuring system
power supply) before maintaining, repairing or handling the device's connections.
Please contact the after-sales service if you suspect that there is an operational
fault in the device.
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
3.2.- INSTALLATION
On the side of the device are all of the indications adjusted to the CEI 62052-11 standard.
The device is installed on a DIN rail. All connections are located inside the electric panel.
Terminals, opening roofs or removing elements can expose parts that are hazardous to the touch while the device is powered. Do not use the device until it is
fully installed.
3.3.- DEVICE TERMINALS
3�3�1�- CirCAMP-4DP MODEL
Table 3:List of CirCAMP-4DP terminals
Device terminals
1 : Input channel 1 25,26 : Channel 3 relay output
3 : Output channel 1 27,28 : Channel 4 relay output
4 : Input channel 2 / Power supply 31 : Impulse input common
6 : Output channel 2 32 : Channel 1 impulse input
7 : Input channel 3 33 : Channel 2 impulse input
9 : Output channel 3 34 : Channel 3 impulse input
10: Input channel 4 35 : Channel 4 impulse input
11 : Neutral connection 36,37 : Reclose input
12 : Output channel 4 38 : B, RS-485 communications (according to version)
21,22 : Channel 1 relay output 39 : S, RS-485 communications (according to version)
23,24 : Channel 2 relay output 40 : A, RS-485 communications (according to version)
1 3
4 6 11
7
9
10
12
31 32 33 34 35 36 37 38 39 40
21 22 23 24 25 26 27 28
Figure 1:CirCAMP-4DP terminals�
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
3�3�2�- CirCAMP-2IP MODEL
Table 4:List of CirCAMP-2IP terminals
Device terminals
1 : S1, Current input L1 (CH1 y CH2) 23,24 : Channel 2 relay output
3 : S2, Current output L1 (CH1 y CH2) 25,26 : Circuit breaker control 1
4 : S1, Current input L2 (CH1 y CH2) 27,28 : Circuit breaker control 2
6 : S2, Current output L2 (CH1 y CH2) 31 : Impulse input common
7 : S1, Current input L3 (CH1 y CH2) 32 : Channel 1 impulse input
9 : S2, Current output L3 (CH1 y CH2) 33 : Channel 2 impulse input
2: VL1, Voltage input L1 34,35 : Not used
5 : VL2, Voltage input L2 36,37 : Reclose input
8 : VL3, Voltage input L3 38 : B, RS-485 communications (according to version)
11 : Neutral connection 39 : S, RS-485 communications (according to version)
21,22 : Channel 1 relay output 40 : A, RS-485 communications (according to version)
1
3 4
6 7 9
21 22 23 24 252627 28
CH1
2 5 8 11
31 32
33 343536 37 383940
1
3
4
6
7 9
CH2
Figure 2:CirCAMP-2IP terminals�
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
3.4.- CONNECTION DIAGRAM
3�4�1�- CirCAMP-4DP MODEL
1 3 4 6 11
7 9 10 12
31 32 33 34 35 36 37 38 39 40
21 22 23 24 25 26 27 28
L
N
LOAD
Channel 1 Channel 2 Channel 3 Channel 4
CH1
Channel 2
Channel 3 Channel 4
LOAD
LOAD LOAD
Utilizar cualquiera de las 3 fases / Use any line
Channel 1
CH2*
CH3 CH4
Figure 3: Connection diagram, CirCAMP-4DP�
* CH2: The power supply of the device and the PLC communications occur via channel 2.
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
3�4�2�- CirCAMP-2IP MODEL
1
3 4
6 7 9
21 22 23 24 252627 28
CH1
2 5 8 11
31 32
33 343536 37 383940
1
3
4
6
7 9
CH2
L1
N
L2
L3
L1
N
L2
L3
S1 S2
P1
P2
S1 S2
P1
P2
S1 S2
P1
P2
S1 S2
P1
P2
S1 S2
P1
P2
S1 S2
P1
P2
VL1
VL2
VL3
N
Figure 4: Connection diagram, CirCAMP-2IP�
Note: The power supply of the unit is through phase 2
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
3.5.- CONNECTIONS
The CirCAMP-xxP has terminal covers that cover the measuring terminals of the device and
the xing screws (Figure 5).
Figure 5: CirCAMP-xxP terminal covers�
The xing screws are of the mixed type, allowing the use of PZ1 and at head screwdrivers.
Table 5:CirCAMP-xxP connection features
Connection
Model CirCAMP-4DP CirCAMP-2IP
Terminals
1, 3, 4, 6, 7, 9, 10,11,12 1, 3, 4, 6, 7, 9, 2, 5, 8, 11
8 mm 16 mm
2
≤ 1.2 Nm 8 mm 16 mm
2
≤ 1.2 Nm
Screwdriver head PZ1 PZ1
Terminals
21 ��� 28 , 31 ��� 40 21 ��� 28 , 31 ��� 40
8 mm 1.5 mm
2
≤ 0.6 Nm 8 mm 1.5 mm
2
≤ 0.6 Nm
Screwdriver head Flathead ( 3 x 0.5 mm) Flathead ( 3 x 0.5 mm)
Once connected, the device can be protected with two connection seals (Figure 6).
Figure 6: CirCAMP-xxP seal�
14
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
4�- OPERATION
The CirCAMP-4DP is a static meter capable of:
Measuring and managing 4 single-phase measurements, independent phase mode.
( CirCAMP-4DP model)
Measuring and managing 1 three-phase measurement, two-phase, etc. , polyphase
mode.( CirCAMP-4DP model)
Measure and manage 2 three-phase measurements independently in current, sharing
the same voltage ( CirCAMP-2IP model)
The device measures:
Active energy stored in both directions.
The active, reactive and apparent power.
Effective voltage and current.
The internal temperature of the unit, CirCAMP-2IP model.
4.1.- KEY FUNCTIONS
The CirCAMP-xxP has 2 keys that allow you to browse the different screens (Table 6):
Table 6: Key functions�
Key Keystroke
For the cyclic movement.
Next screen.
Enters reading mode.
4.2.- DISPLAY
The device features an LCD display where all parameters are displayed (Figure 7):
CirCamp v01.01
s/n: 123456789
Model: 110ED7A83B22
CRC:12341234h
Figure 7:CirCAMP-4DP display�
15
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
4.3.- LED INDICATORS
4�3�1�- CirCAMP-4DP MODEL
The device features 17 LEDs:
Active Energy pulses
Pulse input
Cutting element
Relay outputs
PLC
CirCAMP-4DP
Figure 8:CirCAMP-4DP LED indicators�
4 to verify the active energy, one for each measurement element. The weight of the
LEDs is 10,000 imp/kWh.
The LEDs will remain lit when the current is lower than the energy meter start-up current.
Once the start-up current is exceeded the LEDs are turned off and emit impulses that are
proportional to the measured energy.
4 to indicate the impulse input of other supplies.
4 to indicate the circuit breaker status.
4 to indicate the relay output status.
1 to indicate the PLC communications status.
Table 7: Status LEDs: CirCAMP-4DP�
LEDs
Cutting element
Power on
The power supply is connected to the electrical network
Power off
The power supply is disconnected from the electrical network
Pulse input Calculation of impulses of other supplies: water, gas, etc.
Relay outputs
Power on
Relay connected.
Power off
Relay disconnected.
16
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
Table 7 (Cont�): Status LEDs: CirCAMP-4DP�
LEDs
PLC
Power on
Red: It detects other PLC devices but it does not detect the presence of a
concentrator or transducer in the network.
Yellow: After start-up, the recording process can take up to a few hours.
Green: Device recording and fully operational.
Power off
The device does not detect other devices in the PLC network.
4�3�2�- CirCAMP-2IP MODEL
The device features 8 LEDs :
PLC
CirCAMP-2IP
Active Energy pulses
Cutting element
Relay outputs
Pulse input
Figure 9:CirCAMP-2IP LED indicators�
2 to verify the active energy, one for each measurement element. The weight of the
LEDs is 20.000 imp/kWh.
The LEDs will remain lit when the current is lower than the energy meter start-up current.
Once the start-up current is exceeded the LEDs are turned off and emit impulses that are
proportional to the measured energy.
2 to indicate the impulse input of other supplies.
2 to indicate the circuit breaker status.
2 to indicate the relay output status.
1 to indicate the PLC communications status.
Table 8: Status LEDs: CirCAMP-2IP�
LEDs
Cutting element
Power on
The power supply is connected to the electrical network
Power off
The power supply is disconnected from the electrical network
Pulse input Calculation of impulses of other supplies: water, gas, etc.
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 8 (Cont�): Status LEDs: CirCAMP-2IP�
LEDs
Relay outputs
Power on
Relay connected.
Power off
Relay disconnected.
PLC
Power on
Red: It detects other PLC devices but it does not detect the presence of a
concentrator or transducer in the network.
Yellow: After start-up, the recording process can take up to a few hours.
Green: Device recording and fully operational.
Power off
The device does not detect other devices in the PLC network.
4.4.- IMPULSE INPUTS
The device features:
CirCAMP-4DP model: 4 impulse inputs (terminals 31 ... 35 in Table 3), according to UNE EN
62053-31:1999 class B, for the calculation of other supplies.
CirCAMP-2IP model: 2 impulse inputs (terminals 31, 32 and 35 in Table 4), according to UNE
EN 62053-31:1999 class B, for the calculation of other supplies.
31 35
5 V DC
470 Ω
COMM
470 Ω
...
CirCAMP-4DP
31
33
5 V DC
470 Ω
COMM
470 Ω
CirCAMP-2IP
Figure 10:Impulse inputs�
18
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
4.5.- RELAY OUTPUTS
The device features:
CirCAMP-4DP model: 4 relay outputs (terminals 21 ... 28 in Table 3).
CirCAMP-2IP model: 2 relay outputs (terminals 21 ... 24 in Table 4).
21
28
CirCAMP-4DP
Relay
Channel 1Channel2Channel 3Channel
4
21 24
CirCAMP-2IP
Relay
Channel 1Channel
2
Figure 11:Impulse inputs�
4.6.- CIRCUIT BREAKER
4�6�1�- CirCAMP-4DP MODEL
The CirCAMP-4DP features 4 circuit breakers, one for each of the measurement channels
located inside the device, with no parts being accessible from the exterior.
Cut off occurs only on the phase line and can be generated:
By an order� The manager can send a command to open a circuit breaker via any
communications port. These orders are usually used for:
● Cut offs or Reclosures for managing unpaid accounts.
● Commencing or terminating supply service.
The circuit breaker can only be reclosed via another communications command.
Depending on the contracted power. A different power threshold can be congured
for each circuit breaker, which opens the circuit breaker in the case that the power
demanded by the customer is exceeded.
The circuit breaker is reclosed automatically after 2n minutes have passed, with n being
the number of attempted retries. Or automatically, via the reclose input of the CirCAMP-
4DP.
The reclose input is located in terminals 36 and 37 of the device, see Table 3�
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
36
37
5 V DC
470 Ω
COMM
Figure 12:Circuit breaker�
4�6�2�- CirCAMP-2IP MODEL
The CirCAMP-2IP model does not have circuit breakers located inside the unit.
It has two relays (terminals 25... 28 of Table 4) for controlling the external circuit breakers.
The cut-off can be generated:
By an order� The manager can send a command to open a circuit breaker via any
communications port. These orders are usually used for:
● Cut offs or Reclosures for managing unpaid accounts.
● Commencing or terminating supply service.
The circuit breaker can only be reclosed via another communications command.
Depending on the contracted power. A different power threshold can be congured
for each circuit breaker, which opens the circuit breaker in the case that the power
demanded by the customer is exceeded.
The circuit breaker is reclosed automatically after 2n minutes have passed, with n being
the number of attempted retries. Or automatically, via the reclose input of the CirCAMP-
2IP.
The reclose input is located in terminals 36 and 37 of the device, see Table 4 and Figure 12�
20
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
4.7.- REAL TIME CLOCK
The device has a real time clock capable of maintaining the date and time with a drift of less
than 0.5 s/day, in accordance with the UNE EN 62054-21 Standard.
The CirCAMP-4DP is capable of maintaining the time during 12 hours, without being powered
from the electrical network, via a Supercap. Provided that the device was previously connected
to the electrical network during 1 hour.
The device automatically makes the daylight saving time change.
Table 9: Real time clock�
Real Time Clock
Source Quartz crystal oscillator
Drift < 0.5 seconds / day at 25ºC
Supercap 12 hrs of autonomy, after 1 hour of charging
21
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
5�- DISPLAY IMPROVEMENTS
The device's home screen, Figure 13, appears for a few seconds when the device connects
to the network. It displays the rmware version, model and CRC of the DLNS version that it is
running.
CirCamp v01.01
s/n: 123456789
Model: 110ED7A83B22
CRC:12341234h
Figure 13: Home screen�
The CirCAMP-xxP has 2 display modes:
Display in standby mode
Display in reading mode
5.1.- DISPLAY IN STANDBY MODE
With the display in standby mode, all of the information is presented in cyclic form without any
need to perform any action on the CirCAMP-xxP keypad.
In CirCAMP-4DP model, 6 different parameters are viewed in this mode, see Table 10, in
which they alternate every 6 seconds.
In CirCAMP-2IP model, 3 different parameters are viewed in this mode, see Table 11, in
which they alternate every 6 seconds.
The device is in this mode by default when none of the keys are pressed.
Short press the key to stop the cyclic movement of the parameter being shown at the time.
From then on, short press the key to browse all the parameters dened in Table 10 or
Table 11
Press the key to jump to reading mode.
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
5�1�1�- CirCAMP-4DP MODEL
Table 10: Standby mode displays: CirCAMP-4DP�
Screen Parameters
V1: 230.2 V
V2: 231.1 V
V3: 230.9 V
V4: 230.3 V
Device model, current date and time
CH: Indicates the status of each one of the connected channels:
+ Consuming.
- Channel not connected.
C: A critical alarm has occurred on the device.
(2)
N: A non-critical alarm has occurred on the device.
(2)
EN1: 003503.0 kWh
EN2: 003103.0 kWh
EN3: 003502.0 kWh
EN4: 003109.0 kWh
ENx : Active energy as an absolute value of each one of the
device's channels. (kWh)
(1)
Note: Screen visible in independent phase mode.
IN1: 000003501 imp
IN2: 000000023 imp
IN3: 000013509 imp
IN4: 000001115 imp
INx: No. of impulses that have arrived at each impulse input.
(1)
Note: Screen visible in independent phase mode.
PC1: 004400 W 079%
PC2: 004400 W 095%
PC3: 004400 W 157%
PC4: 003500 W 001%
PCx: Contracted power in each channel, for energy consumption (W).
095%: % of charge of the device related to instantaneous consumption.
Note: Screen visible in independent phase mode.
CR1: 0012600
CR2: 0009800
CR3: 0021000 LOW
CR4: 0005200
CRx: Credit available in each channel, for supply consumption
(1)
LOW, indicates that the credit is below the dened warning
threshold level.
Note: Screen visible in independent phase mode, pre-payment
option.
EN: 013217.1 kWh
IN: 000018148 imp
PC: 015000 W 097%
CR: 0002218 LOW
EN : Total active energy of the device (kWh),
IN: Total no. of impulses that have arrived at the impulse inputs
PC: Total contracted power (W).
097%: total % of charge of the device related to instantaneous
consumption.
CR: Total credit available for supply consumption.
(Only visible in the pre-payment option)
Note: Screen visible in polyphase mode.
(1)
This parameter can be deleted via communications (see “7.- COMMUNICATIONS”)
(2)
A critical alarm gathers the internal and external incidents that directly affect the measurement.
A non-critical alarm gathers the incidents that do not directly affect the measurement, but that indicate
a malfunction of the device.
If there are critical and non-critical alarms activated, only the critical alarm symbol is displayed.
The code of the activated alarm is displayed on the screen in reading mode Status of the CirCAMP-
4DP, Table 12.
The activation of an alarm generates an event in the event log of the device (see “7.4.5.- EVENTS”).
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
5�1�2�- CirCAMP-2IP MODEL
Table 11: Standby mode displays: CirCAMP-2IP�
Screen Parameters
CirCamp 610QT8C83P20
05/11/2015
15:17:01
CH:1+ CN
2+ 3+ 4+ 5+ 6+
Device model, current date and time
CH: Indicates the status of each one of the connected channels:
+ Consuming.
- Channel not connected.
C: A critical alarm has occurred on the device.
(2)
N: A non-critical alarm has occurred on the device.
(2)
EN1: 003503.0 kWh
IN1: 000003501 imp
PC1: 004400 W 095%
CR1: 0012600
Summary of the parameters of channels 1 and 2.
ENx : Active energy, in absolute value, of each channel (kWh)
(1)
INx:No. of impulses that have reached the input of impulses 1
or 2
(1)
PCx: Contracted power of channel 1 and 2, for energy consumption (W).
095%: % of load of unit in relation to instantaneous consumption.
CRx: Available credit in the corresponding channel, for con-
sumption of supplies
(1)
LOW, indicates that the credit is below the level dened as the
alert threshold.
Note: CRx only visible in the prepaid option.
EN2: 003503.0 kWh
IN2: 000003501 imp
PC2: 004400 W 079%
CR2: 0021000 LOW
(1)
This parameter can be deleted via communications (see “7.- COMMUNICATIONS”)
(2)
A critical alarm gathers the internal and external incidents that directly affect the measurement.
A non-critical alarm gathers the incidents that do not directly affect the measurement, but that indicate
a malfunction of the device.
If there are critical and non-critical alarms activated, only the critical alarm symbol is displayed.
The code of the activated alarm is displayed on the screen in reading mode Status of the CirCAMP-
2IP, Table 14�
24
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
5.2.- DISPLAY IN READING MODE
The reading mode is activated by pressing the key .
To browse the different screens (see Table 12 or Table 14), short press the key . The standby
mode is activated again when no key is pressed for 60 seconds or by pressing the key .
5�2�1�- CirCAMP-4DP MODEL
Table 12: Value screens in reading mode: CirCAMP-4DP
Screen Parameters
V1: 230.2 V
V2: 231.1 V
V3: 230.9 V
V4: 230.3 V
Vx : Instantaneous voltage value of each measure-
ment channel. (V)
I1: 15.22 A
I2: 18.12 A
I3: 30.09 A
I4: 00.15 A
Ix : Instantaneous current value of each measure-
ment channel. (A)
P1: 03503 W
P2: 04187 W
P3: 06947 W
P4: 00035 W
Px : Instantaneous active power value, as an abso-
lute value, of each measurement channel. (W)
Q1: 03000 var
Q2: 04107 var
Q3: 08947 var
Q4: 01035 var
Qx : Instantaneous reactive power value, as an ab-
solute value, of each measurement channel. (var)
S1: 00503 VA
S2: 04087 VA
S3: 06900 VA
S4: 04035 VA
Sx : Instantaneous apparent power value, as an ab-
solute value, of each measurement channel. (VA)
ENT1: 000000000 Wh
ENT2: 000000000 Wh
ENT3: 000000000 Wh
ENT4: 000000000 Wh
ENTx : Active energy, as an absolute value, of each
measurement channel. (Wh)
(1)
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 12 (Cont�): Value screens in reading mode: : CirCAMP-4DP
Screen Parameters
INT1: 000003501 imp
INT2: 000000023 imp
INT3: 000013509 imp
INT4: 000001115 imp
INTx: No. of impulses that have arrived at each impulse input.
(2)
CirCamp v01.01
s/n: 123456789
Model: 110ED7A83B22
CRC:12341234h
Device version,
s/n : Serial number.
Model: Device model.
CRC: Device CRC.
PLC OFDM
Version: 2207
Status: Connected
PLC communications data:
Version: PLC version.
Status: PLC status.
RS485
Address: 00000001
BaudRate:19200
RS485 communications data:
Address : Address.
Baudrate: Communication speed.
STATUS
Correct
CirCAMP-4DP status:
Correct, The device is operating correctly.
Code xxxxxxxx,code of the alarm generated
by the device (see Table 13).
(1)
This parameter saves the active energy from manufacture of the device and cannot be deleted.
(2)
This parameter saves the number of impulses from manufacture of the device and cannot be deleted.
Table 13: Alarm code�
Code Alarm type Description
00000100 Critical
Firmware integrity error. The calculated and expected
CRC of the rmware in operation do not match.
00000400 Critical Error when accessing the non-volatile memory.
00000800 Critical Error in the measurement system.
00002000 Critical Error when accessing the display controller.
00000001 Non-critical Error in the real time clock.
Note: If there is more than one alarm activated, the sum (logical OR) of the different active
error codes is shown.
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
5�2�2�- CirCAMP-2IP MODEL
Table 14: Value screens in reading mode: CirCAMP-2IP�
Screen Parameters
V11: 230.2 V
V12: 231.1 V
V13: 230.9 V
Channel 1:
V11 : Instantaneous voltage value of L1 (V)
V12 : Instantaneous voltage value of L2 (V)
V13 : Instantaneous voltage value of L3 (V)
I11: 15.22 A
I12: 18.12 A
I13: 30.09 A
Channel 1:
I11 : Instantaneous current value of L1 (A)
I12 : Instantaneous current value of L2 (A)
I13 : Instantaneous current value of L3 (A)
P11: 03503 W
P12: 04187 W
P13: 06947 W
P1III: 10035 W
Channel 1:
P1x : Instantaneous active power value (absolute val-
ue), of L1, L2 y L3 (W)
P1III : Instantaneous active three-phase power val-
ue, (absolute value) (W)
Q11: 03000 var
Q12: 04107 var
Q13: 08947 var
Q1III: 11035 var
Channel 1:
Q1x : Instantaneous reactive power value (absolute
value) of L1, L2 y L3 (var)
Q1III : Instantaneous reactive three-phase power
value, (absolute value) (var)
S11: 00503 VA
S12: 04087 VA
S13: 06900 VA
S1III: 14035 VA
Channel 1:
S1x : Instantaneous apparent power value (absolute
value) of L1, L2 y L3 (VA)
S1III : Instantaneous apparent three-phase power
value (absolute value) (VA)
V21: 230.2 V
V22: 231.1 V
V23: 230.9 V
Channel 2:
V21 : Instantaneous voltage value of L1 (V)
V22 : Instantaneous voltage value of L2 (V)
V23 : Instantaneous voltage value of L3 (V)
I21: 15.22 A
I22: 18.12 A
I23: 30.09 A
Channel 2:
I21 : Instantaneous current value of L1 (A)
I22 : Instantaneous current value of L2 (A)
I23 : Instantaneous current value of L3 (A)
P21: 03503 W
P22: 04187 W
P23: 06947 W
P2III: 10035 W
Channel 2:
P2x : Instantaneous active power value (absolute
value) of L1, L2 y L3 (W)
P2III : Instantaneous active three-phase power val-
ue (absolute value) (W)
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 14 (Cont�) : Value screens in reading mode: CirCAMP-2IP�
Screen Parameters
Q21: 03000 var
Q22: 04107 var
Q23: 08947 var
Q2III: 11035 var
Channel 2:
Q2x : Instantaneous reactive power value (absolute
value) of L1, L2 y L3 (var)
Q2III :Instantaneous reactive three-phase power
value (absolute value) (var)
S21: 00503 VA
S22: 04087 VA
S23: 06900 VA
S2III: 14035 VA
Channel 2:
S2x : Instantaneous apparent power value (absolute
value) of L1, L2 y L3 (VA)
S2III : Instantaneous apparent three-phase power
value (absolute value) (VA)
ENT1: 000000000 Wh
INT1: 000000000 imp
ENT2: 000000000 Wh
INT2: 000000000 imp
ENTx : Active Energy (absolute value) of each channel
of measure. (Wh)
(1)
INTx: No. of impulses that have arrived at each im-
pulse input.
(2)
CirCamp v01.01
s/n: 123456789
Model: 610QT8C83P20
CRC:12341234h
Device version,
s/n : Serial number.
Model: Device model.
CRC: Device CRC.
PLC OFDM
Version: 2207
Status: Connected
PLC communications data:
Version: PLC version.
Status: PLC status.
RS485
Address: 00000001
BaudRate:19200
RS485 communications data:
Address : Address.
Baudrate: Communication speed.
STATUS
Correct
Temperature: 32 C
CirCAMP-2IP Status:
Correct, operating correctly.
Code xxxxxxxx,code of the alarm generated by
the device ( see Table 13).
Temperature, device internal temperature (ºC)
(1)
This parameter saves the active energy from manufacture of the device and cannot be deleted.
(2)
This parameter saves the number of impulses from manufacture of the device and cannot be deleted.
28
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
6�- CONFIGURATION
The device is congured with the CirCAMP-xxP concentrator via PLC communications.
Certain parameters can be congured via DLMS. (See “7.- COMMUNICATIONS”)
7�- COMMUNICATIONS
7.1.- OPTICAL COMMUNICATIONS PORT
In all versions, the device has a serial optical communications port, in compliance with the UNE
EN 62056-21:2003 Standard.
The communications port is fully compatible with the optical heads approved by major utility
companies.
There is a prole for the correct fastening and location of the optical heads on the surface of
the cover.
CirCAMP-xxP uses the DLMS communications protocol, see “7.4.- DLMS PROTOCOL”.
7.2.- PLC COMMUNICATIONS
The device is equipped with a communications system that communicates via the electrical
network, using PLC technology that allows the energy meters to be connected to the network
with no need for additional cabling.
PLC (Power Line Communications) transfers data via the electrical network using advanced
modulation technology.
The PLC frequency bands are dened by different committees: FCC for North America and
Canada, ARIB for Asia and Japan and CENELEC for Europe.
CirCAMP-xxP uses the DLMS communications protocol, see “7.4.- DLMS PROTOCOL”.
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7.3.- RS-485 COMMUNICATIONS (according to version)
The CirCAMP-xxP devices feature an RS-485 serial communication output with the DLMS
communications protocol (see “7.4.- DLMS PROTOCOL”)
7�3�1� CONNECTIONS
The RS-485 cable should be wired with a twisted pair cable with shielding mesh (minimum 3
wires), with a maximum distance between the CirCAMP-xxP and the master device of 1200
metres.
Up to 32 CirCAMP-xxP devices can be connected to this bus.
Use an intelligent RS-232 to RS-485 network protocol converter to establish the
communications with the master device.
B(-)A(+)
A(+)
B(-)
S
S
RS-232 / USB / Ethernet / Profibus ...
PC
RS-485
RS-485
RS-232
USB
Ethernet
Profibus
...
1 3
4 6 11
7
9
10
12
31 32 33 34 35 36 37 38 39 40
21 22 23 24 25 26 27 28
Figure 14: RS-485 Connection diagram�
30
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
7.4.- DLMS PROTOCOL
The DLMS (Device Language Message Specication) is a protocol for standardising metering
communications within the IEC.
The DLMS is independent from the communication system used and guarantees the interoperability of energy meters from different manufacturers.
This protocol enables the recording and sending of different types of parameters and events.
A logic device (Device) has 4 types of possible association or access:
- Public client (PC) , server address 16.
- Management client (MC), server address 1.
- Reading client (RC), server address 2.
- Update rmware client (FC), server address 3.
Depending on the type of association, the user has different privileges for each one of the objects of the protocol:
- , No access
R, Read Access
W, Write Access
E, Execution Access
7�4�1�- ABSTRACT OBJECTS: SAP ASSIGNMENT, LN ASSOCIATIONS, COSEM
Table 15:DLMS Protocol, Abstract Objects (Table 1)
Object / Attribute name CL Type Value Description Access
SAP Assignment 17 0-0:41�0�0�255 MC RC FC PC
logical_name octet-string[6] 0000290000FF R R - R
SAP_assignment_list asslist_type
List of logic devic-
es
R R - R
Table 16:DLMS Protocol, Abstract Objects (Table 2)
Object / Attribute name Access
Association LN MC RC FC PC
logical_name R R R R
object_list R R R R
associated_partners_id R R R R
application_context_name R R R R
xDLMS_context_info R R R R
authentication_mechanism_name R R R R
LLS_secret W - W -
association_status R R R R
Object / Attribute name CL Type Value Description
Association LN 15 0-0:40�0�0�255
Current
association
logical_name octet-string[6] 0000280000FF
object_list object_list_type List of all objects
associated_partners_id associated_partners_type
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 16 (Cont�):DLMS Protocol, Abstract Objects (Table 2)
Object / Attribute name CL Type Value Description
application_context_name application_context_name
xDLMS_context_info xDLMS_context_type
authentication_mechanism_name mechanism_name
LLS_secret octet-string[8]
association_status enum
Table 17:DLMS Protocol, Abstract Objects (Table 3)
Object / Attribute name Access
Association LN MC RC FC PC
logical_name R - - R
object_list R - - R
associated_partners_id R - - R
application_context_name R - - R
xDLMS_context_info R - - R
authentication_mechanism_name R - - R
LLS_secret - - - -
association_status R - - R
Object / Attribute name CL Type Value Description
Association LN 15 0-0:40�0�1�255
Association
Public Client
logical_name octet-string[6] 0000280001FF
object_list object_list_type List of objects
associated_partners_id associated_partners_type
Management of the
logic device(1) Public client (16)
application_context_name application_context_name
xDLMS_context_info xDLMS_context_type
authentication_mechanism_name mechanism_name
LLS_secret octet-string[8]
association_status enum
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Table 18:DLMS Protocol, Abstract Objects (Table 4)
Object / Attribute name Access
Association LN MC RC FC PC
logical_name R - - R
object_list R - - R
associated_partners_id R - - R
application_context_name R - - R
xDLMS_context_info R - - R
authentication_mechanism_name R - - R
LLS_secret W - - -
association_status R - - R
Object / Attribute name CL Type Value Description
Association LN 15 0-0:40�0�2�255
Association
Reading Client
logical_name octet-string[6] 0000280002FF
object_list object_list_type List of objects
associated_partners_id associated_partners_type
Management of the
logic device(1) Reading client (2)
application_context_name application_context_name
xDLMS_context_info xDLMS_context_type
authentication_mechanism_name mechanism_name
LLS_secret octet-string[8]
association_status enum
Table 19:DLMS Protocol, Abstract Objects (Table 5)
Object / Attribute name Access
Association LN MC RC FC PC
logical_name R - - -
object_list R - - -
associated_partners_id R - - -
application_context_name R - - -
xDLMS_context_info R - - -
authentication_mechanism_name R - - -
LLS_secret W - - -
association_status R - - -
Object / Attribute name CL Type Value Description
Association LN 15 0-0:40�0�3�255
Association
Management Client
logical_name octet-string[6] 0000280003FF
object_list object_list_type List of objects
associated_partners_id associated_partners_type
Management of the
logic device(1) - Management client (2)
application_context_name application_context_name
xDLMS_context_info xDLMS_context_type
authentication_mechanism_name mechanism_name
LLS_secret octet-string[8]
association_status enum
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Instruction Manual
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Table 20:DLMS Protocol, Abstract Objects (Table 6)
Object / Attribute name Access
Association LN MC RC FC PC
logical_name - - R -
object_list - - R -
associated_partners_id - - R -
application_context_name - - R -
xDLMS_context_info - - R -
authentication_mechanism_name - - R -
LLS_secret - - W -
association_status - - R -
Object / Attribute name CL Type Value Description
Association LN 15 0-0:40�0�4�255
Association
Firmware update
Client
logical_name octet-string[6] 0000280004FF
object_list object_list_type List of objects
associated_partners_id associated_partners_type
Management of the
logic device(1) Firmware update
client (3)
application_context_name application_context_name
xDLMS_context_info xDLMS_context_type
authentication_mechanism_name mechanism_name
LLS_secret octet-string[8]
association_status enum
Table 21:DLMS Protocol, Abstract Objects (Table 7)
Object /
Attribute name
CL Type Value Description Access
COSEM
logical device name
1 0-0:42�0�0�255 MC RC FC PC
logical_name octet-string[6] 00002A0000FF R R - R
value object_list_type[16]
Unique identication of the logic
device, used by
the manufacturer
R R - R
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7�4�2�- IDENTIFICATION NUMBERS
Table 22:DLMS Protocol, Identication Number (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Device ID 1 1 0-0:96�1�0�255 MC RC FC PC
logical_name octet-string[6] 0000600100FF R R - R
value octet-string[10] Device serial no. R R - R
Table 23:DLMS Protocol, Identication Number (Table 2)
Object / Attribute name CL Type Value Description Access
Device ID 2 1 0-0:96�1�1�255 MC RC FC PC
logical_name octet-string[6] 0000600101FF R R - R
value octet-string[6]
manuf_code[2] +
model_code[2] +
manuf_year[2]
(1)
R R - R
(1)
The identier is made up of: Barcode of the manufacturer UNESA + Model code + Year of manufac-
ture. The manufacturer code is made up of two digits: the rst is blank and the second is the UNESA
code.
Table 24:DLMS Protocol, Identication Number (Table 3)
Object /
Attribute name
CL Type Value Description Access
Device ID 3 1 0-0:96�1�2�255 MC RC FC PC
logical_name octet-string[6] 0000600102FF R R - R
value octet-string[18]
equipment_type[10]
+ Protocol_ID[8]
Identier
Equipment_type = “energy meter” + protocol
identier (“DLMS” +
protocol version)
(2)
R R - R
(2)
Example: CirCAMP-4DP : Value = “CirCamp4DP” + “DLMS” + “0106”
CirCAMP-2IP : Value = “CirCamp2IP” + “DLMS” + “0106”
Table 25:DLMS Protocol, Identication Number (Table 4)
Object / Attribute name CL Type Value Description Access
Device ID 5 1 0-0:96�1�4�255 MC RC FC PC
logical_name octet-string[6] 0000600104FF R R - R
value octet-string[13] FLAG_ID
(3)
R R - R
(3)
FLAG_ID = Device manufacturer [3] + device serial no. [10]. The serial no. does not use the 10 digits,
the digit furthest to the left is 0.
Table 26:DLMS Protocol, Identication Number (Table 5)
Object / Attribute name CL Type Value Description Access
Device ID 7 1 0-0:96�1�6�255 MC RC FC PC
logical_name octet-string[6] 0000600106FF R R - R
value octet-string[5] Firmware version R R - R
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Instruction Manual
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7�4�3�- CLOCK
Table 27:DLMS Protocol, Clock (Table 1)
Object / Attribute name Access
Clock MC RC FC PC
logical_name R R - -
time RW R - R
time_zone RW R - -
status R R - -
daylights_savings_begin RW R - -
daylights_savings_end RW R - -
daylights_savings_deviation RW R - -
daylights_savings_enabled RW R - -
clock_base R R - -
Object / Attribute name CL Type Value Description
Clock 8 0-0:1�0�0�255
logical_name octet-string[6] 0000010000FF
time octet-string[12]
Local time and date in accordance
with the technical specications
time_zone Long
status Unsigned
daylights_savings_begin octet_string[12] Last Sunday of March at 2:00 a.m.
daylights_savings_end octet_string[12] Last Sunday of October at 3:00a.m.
daylights_savings_deviation integer 60
daylights_savings_enabled boolean
clock_base enum 1 Internal crystal
Table 28:DLMS Protocol, Clock (Table 2)
Object /
Attribute name
CL Type Value Description
Access
Clock Synchronisation
1 0-0:96�2�12�255 MC RC FC PC
logical_name octet-string[6] 000060020CFF R R - -
value octet-string[12] Date/Time format R R - -
Table 29:DLMS Protocol, Clock (Table 3)
Object / Attribute name CL Type Value Description Access
Clock Time Shift Event
Limit
3 1-0:0�9�11�255 MC RC FC PC
logical_name octet-string[6] 010000090BFF R R - -
value unsigned 30
(4)
RW R - -
scaler_device
scal_device_
type
{0,7}
Scale = 0,
Devices = seconds
R R - -
(4)
Maximum time allowed without recording a daylight saving time event.
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Instruction Manual
7�4�4�- ERRORS
Table 30:DLMS Protocol, Errors (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Error Object 1 0-0:97�97�0�255 MC RC FC PC
logical_name octet-string[6] 0000616100FF R R - -
value double_long_unsigned Error code
(5)
R R - -
(5)
Error code:
Table 31:DLMS Protocol, Error code�
Bit Description
Non-critical errors
1 Invalid clock
2 Replace battery
3 ��� 8 Not used
Critical errors
9 Program memory error
10 RAM error
11 NV memory error
12 Error in the measurement system
13 Watchdog error
14 - 32 Not used
7�4�5�- EVENTS
The device has 7 types of event logs, each one with different subtypes. Each event type has a
cyclical memory that is independent of the others.
Table 32:Events�
Group Subgroup Name No� of logs Description
1
10 Standards 100 Set of non-special events
12 Firmware 25 Changes in the rmware version
13 Synchronization 15 Clock synchronisations in real time
2 20 Circuit breaker 20 Circuit breaker events
4 40 Fraud 10 Fraud detection events
6 60 Communications 100 Communication events
7 70 Pre-payment 100 Pre-payment events
7�4�5�1�- Standard events
The device has a capacity to record 100 logs and records:
Table 33:Standard events�
No� Description
2 Reset energy meter
3 Power supply failure
11 Critical internal error
30 Change in the parameter log
31 Changes in the communication port parameters
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 33 (Cont�): Standard events�
No� Description
32 Change in the read password.
33 Change in the parameterisation password
34 Change in the rmware password
36 Automatic summer time change
96 Change in the contracted power
100 Data reset
101 Parameter reset
Table 34:DLMS protocol, Standard events (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Event Object
Standard Event Log
1 0-0:96�11�0�255 MC RC FC PC
logical_name octet-string[6] 0000600B00FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 35:DLMS protocol, Standard events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Standard Event Log 7 0-0:99�98�0�255
Standard events contain
error logs and alarms
logical_name octet-string[6] 0000636200FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.0.255,2,0}
Clock
Event code
capture_period double_long_unsigned 0 Asynchronous
sort_method enum 1 Not classied (FIFO)
sort_object object_denition none Not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 100
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Instruction Manual
7�4�5�2�- Fraud events
The device has a capacity to record 10 logs and records:
Table 36:Fraud events�
No� Description
6 Fraud detection by communications.
Table 37:DLMS Protocol, Fraud events (Table 1)
Object /
Attribute name
CL Type Value Description Access
Event Object
Fraud Detection Log
1 0-0:96�11�1�255 MC RC FC PC
logical_name octet-string[6] 0000600B01FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 38:DLMS Protocol, Fraud events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Fraud Detection Log 7 0-0:99�98�1�255
Fraud events contains fraud
detected logs
logical_name octet-string[6] 0000636201FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.1.255,2,0}
clock
event code
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 10
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�5�3�- Circuit breaker events
The device has a capacity to record 20 logs and records:
Table 39:Circuit breaker events�
No� Description
2 Remote disconnection of the circuit breaker
3 Remote connection of the circuit breaker
4 Disconnection due to excess power
5 Manual connection after disconnection due to excess power
6 Disconnection due to lack of credit
7 Connection due to credit top-up
Table 40:DLMS Protocol, Circuit breaker events (Table 1)
Object /
Attribute name
CL Type Value Description Access
Event Object
Disconnect Control Log
1 0-0:96�11�2�255 MC RC FC PC
logical_name octet-string[6] 0000600B02FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 41:DLMS Protocol, Circuit breaker events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Disconnect Control Log 7 0-0:99�98�2�255
Circuit breaker status
changes
logical_name octet-string[6] 0000636202FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.2.255,2,0}
clock
event code
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 20
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Instruction Manual
7�4�5�4�- Firmware update events
The device has a capacity to record 25 logs and records:
Table 42:Firmware update events�
No� Description
97 Changes in the rmware version.
Table 43:DLMS Protocol, Firmware update events (Table 1)�
Object /
Attribute name
CL Type Value Description Access
Event Object
Firmware Event Log
1 0-0:96�11�4�255 MC RC FC PC
logical_name octet-string[6] 0000600B04FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 44:DLMS Protocol, Firmware update events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Firmware Event Log 7 0-0:99�98�4�255 Firmware events
logical_name octet-string[6] 0000636204FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.4.255,2,0}
{1,1-0:0.2.0.255,2,0}
{1,1-0:96.1.6.255,2,0}
clock
event code
rmware version
previous rmware version
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 25
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Instruction Manual
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7�4�5�5�- Communication events
The device has a capacity to record 100 logs and records:
Table 45:Communication events�
No� Description
1 Start of PLC communications
2 End of PLC communications
3 Start of communications via optical port
4 End of communications via optical port
5 Start of communications via RS-485 port
6 End of communications via RS-485 port
Table 46:DLMS Protocol, Communication event (Table 1)
Object /
Attribute name
CL Type Value Description Access
Event Object
Common Event Log
1 0-0:96�11�7�255 MC RC FC PC
logical_name octet-string[6] 0000600B07FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 47:DLMS Protocol, Communication event (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Common Event Log 7 0-0:99�98�7�255 Common events
logical_name octet-string[6] 0000636207FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.7.255,2,0}
clock
event code
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 100
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Instruction Manual
7�4�5�6�- Synchronisation events
The device has a capacity to record 15 logs and records:
Table 48:Synchronisation events�
No� Description
98 Synchronisation of the clock in real time
Table 49:DLMS Protocol, Synchronisation events (Table 1)
Object / Attribute name CL Type Value Description Access
Event Object
Synchronisation Event Log
1 0-0:96�11�8�255 MC RC FC PC
logical_name octet-string[6] 0000600B08FF R R - -
value unsigned
Event no.
(0 to 255)
R R - -
Table 50:DLMS Protocol, Synchronisation events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object / Attribute name CL Type Value Description
Synchronisation
Event Log
7 0-0:99�98�8�255 Common events
logical_name octet-string[6] 0000636208FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.8.255,2,0}
{1,0-0:96.2.12.255,2,0}
clock
event code
previous clock
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 15
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�5�7�- Pre-payment system events
The device has a capacity to record 100 logs and records:
Table 51:Pre-payment system events�
No� Description
1 Activation of the pre-payment contract
2 Deactivation of the pre-payment contract.
3 Credit top-up
4 Credit is below the threshold
5 End of credit
Table 52:DLMS Protocol, Pre-payment system events (Table 1)
Object /
Attribute name
CL Type Value Description Access
Event Object
Payment Event Log
1 0-0:96�11�20�255 MC RC FC PC
logical_name octet-string[6] 0000600B14FF R R - -
value unsigned Event no. (0 to 255) R R - -
Table 53:DLMS Protocol, Pre-payment system events (Table 2)
Object / Attribute name Access
Standard Event Log MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Payment Event Log 7 0-0:99�98�20�255 Payment events
logical_name octet-string[6] 0000636214FF
buffer array Selective access by range
capture_objects array
{8,0-0:1.0.0.255,2,0}
{1,0-0:96.11.20.255,2,0}
clock
event code
capture_period double_long_unsigned 0 asynchronous
sort_method enum 1 not classied (FIFO)
sort_object object_denition none not classied
entries_in_use double_long_unsigned
prole_entries double_long_unsigned ≥ 100
44
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Instruction Manual
7�4�6�- CONTROLLING THE CIRCUIT BREAKER
Table 54:DLMS Protocol, Controlling the circuit breaker (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Energy Disconnect
Control
70 0-x:96�3�10�255
Controlling the circuit
breaker
MC RC FC PC
logical_name octet-string[6] 00xx60030AFF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
output_state boolean R R - -
control_state enum 0; 1; 2
0 = Disconnected
1 = Connected
2 = Ready for manual
reclosure
R R - -
control_mode enum 4 R R - -
remote_disconnect E - - -
remote_connect E - - -
Table 55:DLMS Protocol, Controlling the circuit breaker (Table 2)
Object /
Attribute name
CL Type Value Description Access
Impulses Disconnect
Control
70 0-x:96�3�11�255
Controlling the cir-
cuit breaker
MC RC FC PC
logical_name octet-string[6] 00xx60030BFF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
output_state boolean R R - -
control_state enum 0; 1
0 = Disconnected
1 = Connected
R R - -
control_mode enum 4 R R - -
remote_disconnect E - - -
remote_connect E - - -
Table 56:DLMS Protocol, Controlling the circuit breaker (Table 3)
Object /
Attribute name
Access
Disconnect Values MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period
R R - -
sort_method
R R - -
sort_object
R R - -
entries_in_use
R R - -
prole_entries
R R - -
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Object /
Attribute name
CL Type Value Description
Disconnect
Values
7 0-0:21�0�20�255
logical_name octet-string[6] 0000150014FF
buffer array
capture_objects array
{8,0-0:1.0.0.255,2}
{70,0-0:96.3.10.255,3}
{70,0-1:96.3.10.255,3}
{70,0-2:96.3.10.255,3}
{70,0-3:96.3.10.255,3}
{70,0-4:96.3.10.255,3}
{70,0-0:96.3.11.255,3}
{70,0-1:96.3.11.255,3}
{70,0-2:96.3.11.255,3}
{70,0-3:96.3.11.255,3}
{70,0-4:96.3.11.255,3}
Clock
Energy disconnected, All channels
Energy disconnected, Channel 1
Energy disconnected, Channel 2
Energy disconnected, Channel 3
Energy disconnected, Channel 4
Impulses disconnected, All channels
Impulses disconnected, Channel 1
Impulses disconnected, Channel 2
Impulses disconnected, Channel 3
Impulses disconnected, Channel 4
capture_period
double-long-unsigned 0 Asynchronous
sort_method
enum 1 not classied (FIFO)
sort_object capture object de-
nition
none none
entries_in_use
double-long-unsigned 1
prole_entries
double-long-unsigned 1 limited to 1
7�4�7�- FIRMWARE UPDATE
Table 57:DLMS Protocol, Firmware update (Table 1)
Object / Attribute name Access
Image Transfer MC RC FC PC
logical_name - - R -
image_block_size - - R -
image_transferred_blocks_status - - R -
image_rst_not_transferred_block_number - - R -
image_transfer_enabled - - R -
image_transfer_status - - R -
image_to_active_info - - R -
image_transfer_initiate - - E -
image_block_transfer - - E -
image_verify - - E -
image_activate - - E -
Object / Attribute name CL Type Value Description
Image Transfer 18 0-0:44�0�0�255
Firmware
transfer
(6)
logical_name octet-string[6] 00002C0000FF
image_block_size double-long-unsigned
image_transferred_blocks_status bit_string
image_rst_not_transferred_block_number double-long-unsigned
image_transfer_enabled boolean
image_transfer_status enumerated
image_to_active_info array
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Instruction Manual
Table 57 (Cont�): DLMS Protocol, Firmware update (Table 1)
Object / Attribute name CL Type Value Description
image_transfer_initiate
image_block_transfer
image_verify
image_activate
(6)
Firmware transfer to the COSEM server.
7�4�8�- METERING POINT ID
Table 58:DLMS Protocol, Metering point ID (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Metering point ID 1 0-0:96�1�10�255 MC RC FC PC
logical_name octet-string[6] 000060010AFF R R - -
value octet-string[22] CUPS[22]
Standard Metering point
ID Spanish
RW R - -
7�4�9�- FIRMWARE VERSION
Table 59:DLMS Protocol, rmware version (Table 1)
Object /
Attribute name
CL Type Value Description Access
Active Firmware identier 1 1-0:0�2�0�255 MC RC FC PC
logical_name octet-string[6] 0100000200FF R R R R
value octet-string[5] Vvvxx Firmware version
(7)
R R R R
(7)
Firmware Version = Version + Subversion. Example = V0103 → V1.3
7�4�10�- OPTICAL PORT CONFIGURATION
Table 60:DLMS Protocol, optical port conguration (Table 1)
Object / Attribute name CL Type Value Description Access
IEC HDLS Setup Optical port 23 0-0:22�0�0�255 MC RC FC PC
logical_name octet-string[6] 0000160000FF R R - -
comm_speed enum 5 9600 db R R - -
window_size_transmit unsigned 1 R R - -
window_size_receive unsigned 1 R R - -
max_info_eld_length_transmit long-unsigned At least 128 R R - -
max_info_eld_length_receive long-unsigned At least 128 R R - -
inter_octet_time_out long-unsigned 150 [ms] RW R - -
Time Out long-unsigned 180 [s] RW R - -
device_address long-unsigned 16 RW R - -
47
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�11�- RS-485 PORT CONFIGURATION
Table 61:DLMS Protocol, RS-485 port conguration (Table 1)
Object / Attribute name CL Type Value Description Access
IEC HDLS Setup Serial port 23 0-1:22�0�0�255 MC RC FC PC
logical_name octet-string[6] 0001160000FF R R - -
comm_speed enum 5 9600 db RW R - -
window_size_transmit unsigned 1 R R - -
window_size_receive unsigned 1 R R - -
max_info_eld_length_transmit long-unsigned 128 minimum R R - -
max_info_eld_length_receive long-unsigned 128 minimum R R - -
inter_octet_time_out long-unsigned 150 [ms] RW R - -
inactivity_time_out long-unsigned 180 [s] RW R - -
device_address long-unsigned 16 RW R - -
7�4�12�- TIMEOUT
7�4�12�1�- Reading Client
Table 62:DLMS Protocol, Timeout (Table 1)
Object /
Attribute name
CL Type Value Description Access
Timeout open session
(8)
3 0-0:94�34�51�255 MC RC FC PC
logical_name octet-string[6] 00005E2233FF R R - -
value Double_long_unsigned 180 by default RW R - -
scaler_device scaler_device_type {0,7}
scale=0,
unit=sec.
R R - -
(8)
Timeout open session via the PLC channel for Reading Client access.
7�4�12�2�- Management Client
Table 63:DLMS Protocol, Timeout (Table 2)
Object /
Attribute name
CL Type Value Description Access
Timeout open session
(9)
3 0-0:94�34�52�255 MC RC FC PC
logical_name octet-string[6] 00005E2234FF R R - -
value
Double_long_unsigned
180 by default RW R - -
scaler_device scaler_device_type {0,7}
scale=0,
unit=sec.
R R - -
(9)
Timeout open session via the PLC channel for Management Client access.
7�4�12�3�- Firmware update Client
Table 64:DLMS Protocol, Timeout (Table 3)
Object /
Attribute name
CL Type Value Description Access
Timeout open session
(10)
3 0-0:94�34�53�255 MC RC FC PC
logical_name octet-string[6] 00005E2235FF R R - -
value Double_long_unsigned 7200 by default RW R - -
scaler_device scaler_device_type {0,7}
scale=0,
unit=sec.
R R - -
(10)
Timeout open session via the PLC channel for Firmware update Client access.
48
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Instruction Manual
7�4�13�- RESETTING THE DEVICE
Table 65:DLMS Protocol, Reset (Table 1)
Object /
Attribute name
CL Type Value Description
Access
Global Meter Reset 9 0-0:10�0�0�255
Resetting parameters
and logs
MC RC FC PC
logical_name octet-string[6] 00000A0000FF R R - -
scripts array R R - -
execute
(11)
E - - -
(11)
This script is activated via a call to the execute() method with the following arguments:
1 - Reset parameters.
2 - Reset data
7�4�14�- ACTIVE ENERGY
Table 66:DLMS Protocol, Active energy (Table 1)
Object /
Attribute name
CL Type Value Description Access
Active energy
(|+A| + |-A|)
3 1-x:15�8�0�255 Absolute value MC RC FC PC
logical_name octet-string[6] 01xx0F0800FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-unsigned R R - -
scaler_device scal_device_type {0,30}
scale: 3, devices: Wh
resolution: 0 KWh
R R - -
Reset Active energy reset E - - -
Table 67:DLMS Protocol, Active energy (Table 2)
Object /
Attribute name
CL Type Value Description Access
Active energy
(|+A| + |-A|)
incremental
3 1-x:15�29�0�255
Incremental value for
load prole 1
MC RC FC PC
logical_name octet-string[6] 01xx0F1D00FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-un-
signed
R R - -
scaler_device scal_device_type {0,30}
scale: 0, devices: Wh
resolution: 000.000 KWh
R R - -
49
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�15�- IMPULSE INPUTS
Table 68:DLMS protocol, Impulse inputs (Table 1)
Object /
Attribute name
CL Type Value Description Access
Input Impulses
Values
3 0-x:0�7�0�255 No� of impulses MC RC FC PC
logical_name octet-string[6] 00xx000700FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-unsigned R R - -
scaler_unit scal_unit_type {0,254}
scale: 3,
units: others
R R - -
reset impulses reset E - - -
Table 69:DLMS protocol, Impulse inputs (Table 2)
Object /
Attribute name
CL Type Value Description Access
Input Impulses
incremental
3 0-x:0�7�128�255
Incremental value for
load prole 1
MC RC FC PC
logical_name octet-string[6] 00xx000780FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-unsigned R R - -
scaler_unit scal_unit_type {0,254}
scale: 3,
units: others
R R - -
reset impulses reset E - - -
7�4�16�- INSTANTANEOUS VALUES
7�4�16�1�- Energy and No� of impulses
Table 70:DLMS Protocol, Instantaneous values (Table 1)
Object / Attribute name Access
Instantaneous Energy and
Impulse values
MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
50
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
Object /
Attribute name
CL Type Value Description
Instantaneous Energy
and Impulse values
7 0-0:21�0�6�255
Instantaneous value of
the energy and of the no�
of impulses
logical_name octet-string[6] 0000150006FF
buffer array
capture_objects array
{8,0-0:1.0.0.255,2};
{3,1-0:15.8.0.255,2};
{3,1-1:15.8.0.255,2};
{3,1-2:15.8.0.255,2};
{3,1-3:15.8.0.255,2};
{3,1-4:15.8.0.255,2};
{3,0-0:0.7.0.255,2};
{3,0-1:0.7.0.255,2};
{3,0-2:0.7.0.255,2};
{3,0-3:0.7.0.255,2};
{3,0-4:0.7.0.255,2};
Clock
Energy, all channels
Energy, channel 1
Energy, channel 2
Energy, channel 3
Energy, channel 4
Impulses, all channel
No. of impulses, channel 1
No. of impulses, channel 2
No. of impulses, channel 3
No. of impulses, channel 4
capture_period double-long-unsigned 0 Asynchronous
sort_method enum 1 not classied (FIFO)
sort_object capture object denition none none
entries_in_use double-long-unsigned 1
prole_entries double-long-unsigned limited to 1
7�4�16�2�- Voltage L1
Table 71:DLMS Protocol, instantaneous values (Table 2)
Object / Attribute name CL Type Value Description Access
Inst� voltage L1 3 1-x:32�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx200700FF
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,35}
scale: -1, units: V
resolution: 0.0V
R R - -
7�4�16�3�- Current L1
Table 72:DLMS Protocol, instantaneous values (Table 3)
Object / Attribute name CL Type Value Description Access
Inst� current L1 3 1-x:31�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx1F0700FF
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-2,33}
scale: -2, units: A
resolution: 0.00 A
R R - -
51
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�16�4�- Voltage L2
Table 73:DLMS Protocol, instantaneous values (Table 4)
Object / Attribute name CL Type Value Description Access
Inst� voltage L2 3 1-x:52�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx340700FF
x: 1 Channel 1
x: 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,35}
scale: -1, units: V
resolution: 0.0V
R R - -
7�4�16�5�- Current L2
Table 74:DLMS Protocol, instantaneous values (Table 5)
Object / Attribute name CL Type Value Description Access
Inst� current L1 3 1-x:51�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx330700FF
x: 1 Channel 1
x: 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-2,33}
scale: -2, units: A
resolution: 0.00 A
R R - -
7�4�16�6�- Voltage L3
Table 75:DLMS Protocol, instantaneous values (Table 6)
Object / Attribute name CL Type Value Description Access
Inst� voltage L2 3 1-x:72�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx480700FF
x: 1 Channel 1
x: 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,35}
scale: -1, units: V
resolution: 0.0V
R R - -
7�4�16�7�- Current L3
Table 76:DLMS Protocol, instantaneous values (Table 7)
Object / Attribute name CL Type Value Description Access
Inst� current L1 3 1-x:71�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx470700FF
x: 1 Channel 1
x: 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-2,33}
scale: -2, units: A
resolution: 0.00 A
R R - -
7�4�16�8�- Total current, sum of all phases
Table 77:DLMS Protocol, instantaneous values (Table 8)
Object /
Attribute name
CL Type Value Description Access
Inst� current 3 1-0:90�7�0�255 MC RC FC PC
logical_name octet-string[6] 01005A0700FF R R - -
value long-unsigned total current R R - -
scaler_unit scal_unit_type {-2,33}
scale: -2, units: A
resolution: 0.0 A
R R - -
52
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Instruction Manual
7�4�16�9�- Active power
Table 78:DLMS Protocol, instantaneous values (Table 9)
Object /
Attribute name
CL Type Value Description Access
Inst� active power
|P+| + |P-|
3 1-x:15�7�0�255 MC RC FC PC
logical_name octet-string[6] 01xx0F0700FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-unsigned
(11)
R R - -
scaler_unit scal_unit_type {0,27}
scale: 1, units: W
resolution: 0.00 kW
R R - -
(
11)
abs (Q|+Q|V) + (QII + QIII)
7�4�16�10�- Voltage, Current and Active power
Table 79:DLMS Protocol, instantaneous values (Table 10)
Object / Attribute name Access
Inst� values MC RC FC PC
logical_value R R - -
buffer R R - -
capture_objects R R - -
capture_period R R - -
sort_method R R - -
sort_object R R - -
entries_in_use R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Inst� values 7 0-0:21�0�5�255
logical_value octet-string[6] 0000150005FF
buffer array
capture_objects {8,0-0:1.0.0.255,2};
{3,1-1:32.7.0.255,2};
{3,1-2:32.7.0.255,2};
{3,1-3:32.7.0.255,2};
{3,1-4:32.7.0.255,2};
{3,1-0:90.7.0.255,2};
{3,1-1:31.7.0.255,2};
{3,1-2:31.7.0.255,2};
{3,1-3:31.7.0.255,2};
{3,1-4:31.7.0.255,2};
{3,1-1:52.7.0.255,2};
{3,1-2:52.7.0.255,2};
{3,1-1:51.7.0.255,2};
{3,1-2:51.7.0.255,2};
{3,1-1:72.7.0.255,2};
{3,1-2:72.7.0.255,2};
{3,1-1:71.7.0.255,2};
{3,1-2:71.7.0.255,2};
Clock
Voltage L1, channel 1
Voltage L1, channel 2
Voltage L1, channel 3
Voltage L1, channel 4
Current, all channels
Current L1, channel 1
Current L1, channel 2
Current L1, channel 3
Current L1, channel 4
Voltage L2, channel 1
Voltage L2, channel 2
Current L2, channel 1
Current L2, channel 2
Voltage L3, channel 1
Voltage L3, channel 2
Current L3, channel 1
Current L3, channel 2
53
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 79 (Cont�): DLMS Protocol, Instantaneous values (Table 10)
Object /
Attribute name
CL Type Value Description
capture_objects
{3,1-0:15.7.0.255,2};
{3,1-1:15.7.0.255,2};
{3,1-2:15.7.0.255,2};
{3,1-3:15.7.0.255,2};
{3,1-4:15.7.0.255,2};
Active power, all channels
Active power, channel 1
Active power, channel 2
Active power, channel 3
Active power, channel 4
capture_period double-long-unsigned 0 Asynchronous
sort_method enum 1 not classied (FIFO)
sort_object capture object denition none none
entries_in_use double-long-unsigned 1
prole_entries double-long-unsigned limited to 1
7�4�17�- TRANSFORMER RATIO
7�4�17�1�- Current transformer ratio : numerator
Table 80:DLMS Protocol, transformer ratio (Table 1)
Object / Attribute
name
CL Type Value Description Access
transformer
ratio - current
(numerator)
3 1-x:0�4�2�255 MC RC FC PC
logical_name octet-string[6] 01xx000402FF
x : 1 Channel 1
x : 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,33}
scale: 1, units: A
resolution: 0.0 A
RW R - -
7�4�17�2�- Voltage transformer ratio : numerator
Table 81:DLMS Protocol, transformer ratio (Table 2)
Object / Attribute
name
CL Type Value Description Access
transformer
ratio - voltage
(numerator)
3 1-x:0�4�3�255 MC RC FC PC
logical_name octet-string[6] 01xx000403FF
x : 1 Channel 1
x : 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,35}
scale: 1, units: V
resolution: 0.0 V
RW R - -
54
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Instruction Manual
7�4�17�3�- Current transformer ratio : denominator
Table 82:DLMS Protocol, transformer ratio (Table 3)
Object / Attribute
name
CL Type Value Description Access
transformer
ratio - current
(denominator)
3 1-x:0�4�5�255 MC RC FC PC
logical_name octet-string[6] 01xx000405FF
x : 1 Channel 1
x : 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,33}
scale: 1, units: A
resolution: 0.0 A
RW R - -
7�4�17�4�- Voltage transformer ratio : denominator
Table 83:DLMS Protocol, transformer ratio (Table 4)
Object / Attribute
name
CL Type Value Description Access
transformer
ratio - voltage
(denominator)
3 1-x:0�4�6�255 MC RC FC PC
logical_name octet-string[6] 01xx000406FF
x : 1 Channel 1
x : 2 Channel 2
R R - -
value long-unsigned R R - -
scaler_unit scal_unit_type {-1,35}
scale: 1, units: V
resolution: 0.0 V
RW R - -
7�4�18�- OBJECTS RELATED TO PRE-PAYMENT
7�4�18�1�- Threshold value for controlling the contracted power
Table 84:DLMS Protocol, pre-payment values (Table 1)
Object /
Attribute name
CL Type Value Description Access
Power Demand
Control Threshold
3 1-x:15�35�0�255 MC RC FC PC
logical_name octet-string[6] 01xx0F2300FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
value double-long-unsigned 0 by default RW R - -
scaler_unit scal_unit_type {0,27}
scale: 1, units: W
resolution: 0.00 kW
R R - -
55
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�18�2�- Account
Table 85:DLMS Protocol, pre-payment values (Table 2)
Object / Attribute name Access
Account MC RC FC PC
logical_name R R - -
account_mode_and_status R R - -
current_credit_in_use R R - -
current_credit_status R R - -
available_credit R R - -
amount_to_clear R R - -
clearance_threshold R R - -
aggregated_debt R R - -
credit_reference_list R R - -
charge_reference_list R R - -
credit_charge_conguration R R - -
token_gateway_conguration R R - -
account_activation_time R R - -
account_closure_time R R - -
currency R R - -
long_credit_threshold R R - -
next_credit_available_threshold R R - -
max_provision R R - -
max_provision_period R R - -
active_account(data) E - - -
close_account(data) E - - -
reset_account(data) - - - -
Object / Attribute name CL Type Value Description
Account 111 0-x:19�0�0�255
logical_name octet-string[6] 00xx130000FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
account_mode_and_status structure {2,x}
Payment mode: 2 (pre-payment)
Account status:
2: Account closed
3: Account open
current_credit_in_use unsigned 0
current_credit_status bit-string
available_credit double_long
amount_to_clear double_long 0
clearance_threshold double_long 0
aggregated_debt double_long 0
credit_reference_list array {0-x:19.10.0.255}
charge_reference_list array
{0-x:19.20.0.255};
{0-x:19.20.1.255}
credit_charge_conguration array {0}
token_gateway_conguration array {0}
56
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
Table 85 (Cont�): DLMS Protocol, pre-payment values (Table 2)
Object / Attribute name CL Type Value Description
account_activation_time octet_string
account_closure_time octet_string
currency structure {EUR,-3,2}
Name: EUR
Scale: -3
Device: 2 (Monetary)
long_credit_threshold double_long
next_credit_available_threshold
double_long 0x80000000
max_provision long_unsigned 0
max_provision_period double_long 0
active_account(data)
close_account(data)
reset_account(data)
7�4�18�3�- Credit
Table 86:DLMS Protocol, pre-payment values (Table 3)
Object / Attribute name CL Type Value Description Access
Credit 112 0-x:19�10�0�255 MC RC FC PC
logical_name octet-string[6] 00xx130A00FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
R R - -
current_credit_amount double_long R R - -
credit_type enum 0 credit symbol R R - -
priority unsigned 1 R R - -
warning_threshold double_long RW R - -
limit double_long 0 R R - -
credit_conguration bit_string 0000 R R - -
credit_status enum
3: credit available
4: credit nished
R R - -
preset_credit_amount double_long 0 R R - -
credit_available_threshold
double_long 0 R R - -
period date_time invalid date R - - -
update_amount double_long E - - -
set_amount_to_value double_long E - - -
invoke_credit - - - -
7�4�18�4�- Energy consumption
Table 87:DLMS Protocol, pre-payment values (Table 4)
Object / Attribute name Access
Charge energy MC RC FC PC
logical_name R R - -
total_amount_paid R R - -
charge_type R R - -
priority R R - -
device_charge_active R R - -
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Table 87 (Cont�): DLMS Protocol, pre-payment values
(Table 4)
Object / Attribute name Access
Charge energy MC RC FC PC
device_charge_passive R R - -
device_charge_activation_time R R - -
period R R - -
charge_conguration R R - -
last_collection_time R R - -
last_collection_amount R R - -
total_amount_remaining R R - -
proportion R R - -
update_device_charge E - - -
active_passive_device_charge - - - -
collect - - - -
update_total_amount_remaining - - - -
set_total_amount_remaining - - - -
Object / Attribute name CL Type Value Description
Charge energy 113 0-x:19�20�0�255
logical_name octet-string[6] 00xx131400FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
total_amount_paid double_long
charge_type enum 0 consumption
priority unsigned 1
device_charge_active structure
{3,-3}
{3, 1-x:15.8.0.255,2}
{0,value}
device_charge_passive structure
device_charge_activation_time octet_string invalid date
period double-long-unsigned 1 basic scale
charge_conguration bit_string 00
last_collection_time date_time invalid date
last_collection_amount double_long 0
total_amount_remaining double_long 0
proportion long_unsigned 0
update_device_charge
active_passive_device_charge
collect
update_total_amount_remaining double_long
set_total_amount_remaining double_long
58
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Instruction Manual
7�4�18�5�- Consumption of impulse input
Table 88:DLMS Protocol, pre-payment values (Table 5)
Object / Attribute name Access
Charge energy MC RC FC PC
logical_name R R - -
total_amount_paid R R - -
charge_type R R - -
priority R R - -
device_charge_active R R - -
device_charge_passive R R - -
device_charge_activation_time R R - -
period R R - -
charge_conguration R R - -
last_collection_time R R - -
last_collection_amount R R - -
total_amount_remaining R R - -
proportion R R - -
update_device_charge E - - -
active_passive_device_charge - - - -
collect - - - -
update_total_amount_remaining - - - -
set_total_amount_remaining - - - -
Object / Attribute name CL Type Value Description
Charge input impulses 113 0-x:19�20�1�255
logical_name octet-string[6] 00xx131401FF
x: 0 All channels
x: 1 Channel 1
x: 2 Channel 2
x: 3 Channel 3
x: 4 Channel 4
total_amount_paid double_long
charge_type enum 0 consumption
priority unsigned 2
device_charge_active structure
{3,-3}
{1, 0-x:0.7.0.255,2}
{0,value}
device_charge_passive structure
device_charge_activation_time octet_string invalid date
period double-long-unsigned 1 basic scale
charge_conguration bit_string 00
last_collection_time date_time invalid date
last_collection_amount double_long 0
total_amount_remaining double_long 0
proportion long_unsigned 0
update_device_charge
active_passive_device_charge
collect
update_total_amount_remaining double_long
set_total_amount_remaining double_long
59
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
7�4�18�6�- Payment
Table 89:DLMS Protocol, pre-payment values (Table 6)
Object / Attribute name Access
Payment values MC RC FC PC
logical_value R R - -
buffer
R R - -
capture_objects R R - -
capture_period
R R - -
sort_method
R R - -
sort_object R R - -
entries_in_use
R R - -
prole_entries
R R - -
Object /
Attribute name
CL Type Value Description
Payment values 7 0-0:21�0�21�255
logical_value octet-string[6] 0000150015FF
buffer array
capture_objects array
{8,0-0:1.0.0.255,2};
{111,0-0:19.0.0.255,2};
{111,0-1:19.0.0.255,2};
{111,0-2:19.0.0.255,2};
{111,0-3:19.0.0.255,2};
{111,0-4:19.0.0.255,2};
{111,0-0:19.0.0.255,5};
{111,0-1:19.0.0.255,5};
{111,0-2:19.0.0.255,5};
{111,0-3:19.0.0.255,5};
{111,0-4:19.0.0.255,5};
{111,0-0:19.0.0.255,16};
{111,0-1:19.0.0.255,16};
{111,0-2:19.0.0.255,16};
{111,0-3:19.0.0.255,16};
{111,0-4:19.0.0.255,16};
{3,1-0:15.35.0.255,2};
{3,1-1:15.35.0.255,2};
{3,1-2:15.35.0.255,2};
{3,1-3:15.35.0.255,2};
{3,1-4:15.35.0.255,2};
Clock
Account status, all channels
Account status, channel 1
Account status, channel 2
Account status, channel 3
Account status, channel 4
Credit available, all channels
Credit available, channel 1
Credit available, channel 2
Credit available, channel 3
Credit available, channel 4
Low credit threshold, all channels
Low credit threshold, channel 1
Low credit threshold, channel 2
Low credit threshold, channel 3
Low credit threshold, channel 4
Contracted power, all channels
Contracted power, channel 1
Contracted power, channel 1
Contracted power, channel 1
Contracted power, channel 1
capture_period double-long-unsigned 0 Asynchronous
sort_method enum 1 not classied (FIFO)
sort_object capture object denition none none
entries_in_use double-long-unsigned 1
prole_entries double-long-unsigned 1 limited to 1
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Instruction Manual
7�4�19�- LOAD PROFILES
7�4�19�1�- Period 1
Table 90:DLMS Protocol, Load proles (Table 1)
Object / Attribute name CL Type Value Description Access
ARM prole status for
Load prole with period 1
1 0-0:96�10�7�255 MC RC FC PC
logical_name octet-string[6] 0000600A07FF R R - R
status unsigned
{IV,CA,RES,VH,
MP, INT, AL, RES}
R R - R
Table 91:DLMS Protocol, Load proles (Table 2)
Object /
Attribute name
Access
Load prole with period 1
Hourly Load prole
MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period
RW R - -
sort_method
R R - -
sort_object
R R - -
entries_in_use
R R - -
prole_entries R R - -
Object /
Attribute name
CL Type Value Description
Load prole with
period 1
Hourly Load prole
7 1-0:99�1�0�255 Incremental values
logical_name octet-string[6] 0100630100FF
buffer
array selective access by range
capture_objects array
{8,0-0:1.0.0.255,2};
{1,0-0:96.10.7.255,2};
{3,1-0:15.29.0.255,2};
{3,1-1:15.29.0.255,2};
{3,1-2:15.29.0.255,2};
{3,1-3:15.29.0.255,2};
{3,1-4:15.29.0.255,2};
{3,0-0:0.7.128.255,2};
{3,0-1:0.7.128.255,2};
{3,0-2:0.7.128.255,2};
{3,0-3:0.7.128.255,2};
{3,0-4:0.7.128.255,2};
Clock
ARM Prole status
Incremental energy, all channels
Incremental energy, channel 1
Incremental energy, channel 2
Incremental energy, channel 3
Incremental energy, channel 4
Incremental pulses, all channels
Incremental pulses, channel 1
Incremental pulses, channel 2
Incremental pulses, channel 3
Incremental pulses, channel 4
capture_period
double-long-unsigned 3600 3600 seconds (1 hour)
sort_method
enum 1 not classied (FIFO)
sort_object
capture object denition none none
entries_in_use
double-long-unsigned
prole_entries double-long-unsigned ≥2160
≥ 4320 (180 days, 6 months with
capture_period = 60 min)
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CirCAMP-4DP, CirCAMP-2IP
7�4�19�2�- Period 2
Table 92:DLMS Protocol, Load proles (Table 3)
Object / Attribute name CL Type Value Description Access
ARM prole status for Load
prole with period 2
1 0-0:96�10�8�255 MC RC FC PC
logical_name octet-string[6] 0000600A08FF R R - R
status unsigned
{IV,CA,CY,VH,
MP, INT, AL, RES}
R R - R
Table 93:DLMS Protocol, Load proles (Table 4)
Object /
Attribute name
Access
Load prole with period 2
Daily Values prole
MC RC FC PC
logical_name R R - -
buffer R R - -
capture_objects R R - -
capture_period
RW R - -
sort_method
R R - -
sort_object
R R - -
entries_in_use
R R - -
prole_entries R R - -
Object / Attribute name CL Type Value Description
Load prole with period 2
Daily Values prole
7 1-0:99�2�0�255 Absolute Values
logical_name octet-string[6] 0100630200FF
buffer
array selective access by range
capture_objects array
{8,0-0:1.0.0.255,2};
{1,0-0:96.10.8.255,2};
{3,1-0:15.8.0.255,2};
{3,1-1:15.8.0.255,2};
{3,1-2:15.8.0.255,2};
{3,1-3:15.8.0.255,2};
{3,1-4:15.8.0.255,2};
{3,0-0:0.7.0.255,2};
{3,0-1:0.7.0.255,2};
{3,0-2:0.7.0.255,2};
{3,0-3:0.7.0.255,2};
{3,0-4:0.7.0.255,2};
Clock
ARM Prole status
Energy, all channels
Energy, channel 1
Energy, channel 2
Energy, channel 3
Energy, channel 4
Pulses, all channels
Pulses, channel 1
Pulses, channel 2
Pulses, channel 3
Pulses, channel 4
capture_period
double-long-unsigned 86400 86400 (1 day)
sort_method
enum 1 not classied (FIFO)
sort_object
capture object denition none none
entries_in_use
double-long-unsigned
prole_entries
double-long-unsigned ≥90 ≥ 180 days (6 months)
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Instruction Manual
8�- TECHNICAL FEATURES
Power supply
CirCAMP-4DP CirCAMP-2IP
Mode Self-powered (CH2-N) Self-powered (L2)
Rated Voltage 230 V ~ ± 20% 127 ... 230 V ~ ± 20%
Frequency 50...60Hz 50...60Hz
Consumption
< 25 VA < 25 VA
Voltage Measurement
CirCAMP-4DP
Connection 4 single-phase elements with shared neutral
Reference voltage 230 V ~
Frequency
(according to version)
A B C
50 Hz 60 Hz 50/60 Hz
CirCAMP-2IP
Connection 1 measure of three-phase voltage
Reference voltage
(according to version)
U Q N
3x127/220... 3x230/400 V~ 3x230/400 V~ 3x127/220 V~
Frequency
(according to version)
A B C
50 Hz 60 Hz 50/60 Hz
Current measurement
CirCAMP-4DP
Current (In) 5 A
Maximum current (Imax) 32 A
Start-up current ≤ 25 mA
Self-consumption of the current circuit 0.56 VA @ 5 A
CirCAMP-2IP
Connection 2 independent measurements with current transformers
Current (In) .../ 5 A
Maximum current (Imax) 10 A
Start-up current ≤ 2 mA
Self-consumption of the current circuit 0.1 VA @ 1 A
Accuracy
Active Energy Class B (IEC 62053-21)
Impulse inputs
CirCAMP-4DP CirCAMP-2IP
Quantity 4 2
Type Self-powered at +5V (Vmax = 5.1 V, Imax = 8.5 mA)
Operating Calculating other supplies: water, gas, etc.
Maximum impedance 800 Ω
Pulse width Ton ≥ 30 ms, Toff ≥ 30 ms
Installation category CAT III 300 V
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Relay output
CirCAMP-4DP CirCAMP-2IP
Quantity 4 2
Maximum voltage, open contacts 240 V ~
Maximum current 3 A
Maximum switching power 720 VA (AC1)
Electrical life (at full load) 1x105 cycles
Mechanical life 2x107 cycles
Installation category CAT III 300 V
CirCAMP-4DP: Circuit breaker
Maximum current 40 A
No� of operations guaranteed
I = 20A, cos φ = 1
10000 operations
CirCAMP-2IP : Relés de control del elemento de Corte
Quantity 2
Maximum voltage, open contacts 240 V ~
Maximum current 3 A
Maximum switching power 720 VA (AC1)
Electrical life (at full load) 1x105 cycles
Mechanical life 2x107 cycles
Installation category CAT III 300 V
Real Time Clock
Source Quartz crystal oscillator
Drift < 0.5 seconds / day at 25ºC
Supercap 24 hrs of autonomy, after 1 hour of charging
Communications
Type Optical RS-485 (depending on the model)
Hardware EN62056-21 RS-485
Communications protocol DLMS DLMS
Baud rate 9600 9600
Data bits 8 8
Stop bits 1 1
Parity none none
Installation category - CAT III 300 V
PLC communications
Communications protocol Encapsulated DLMS
Modulation OFDM
Consumption
1.2 W 12VA
User interface
Display LCD
Keypad 2 keys
LED
CirCAMP-4DP CirCAMP-2IP
13 Indications LEDs
4 Active energy: 10000 imp/kWh
7 Indications LEDs
2 Active energy: 20000 imp/kWh
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Instruction Manual
Environmental features
Operating temperature -25ºC... +55ºC
Storage temperature -35ºC... +80ºC
Relative humidity (with no condensation) 5 ... 95%
Maximum altitude 2000 m
Protection degree
IP51 Front panel
IP40 in terminal area
Mechanical features
Measuring terminals
CirCAMP-4DP : 1, 3, 4, 6, 7, 9, 10,11,12 8 mm 16 mm
2
≤ 1.2 Nm
CirCAMP-2IP : 1,3, 4, 6, 7, 9, 2, 5, 8, 11 8 mm 16 mm
2
≤ 1.2 Nm
Output, input and communication terminals
CirCAMP-4DP : 21 ��� 28, 31 ��� 40 8 mm 1.5 mm
2
≤ 0.6 Nm
CirCAMP-2IP : 21 ��� 28, 31 ��� 40 8 mm 1.5 mm
2
≤ 0.6 Nm
Dimensions ( Figure 15) in mm DIM 46277
Weight
CirCAMP-4DP CirCAMP-2IP
900 g. 700 g.
Enclosure EN50022
192.5
49
70
5
125
120
Figure 15: CirCAMP-xxP dimensions�
Standards
Directive 2004/22/EC Directive 2004/22/EC
Application of the barcode for coding the electrical energy meters�
UNE 207010:2003
Electrical energy meters� Designation of the auxiliary terminals for
the tariff devices�
UNE 21454:1997 IN
Electricity metering equipment (AC)�Particular requirements�Part 23:
Static meters for reactive energy (classes 2 and 3)
UNE-EN 62053-23:2003
Electrical energy metering equipment (AC)� Particular requirements�
Part 52: Symbols� (IEC 62053-52:2005)
UNE-EN 62053-52:2006
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
Standards (Cont�)
Energy meter devices (AC)� Particular prescriptions Part 31: Impulse
output devices for electro-mechanical and electronic energy meters
(two-wire only)�
UNE-EN 62053-31:1999
Electrical energy metering equipment (AC)� Part 1: General requirements, tests and test conditions� Metering equipment (indexes of
classes A, B and C)
UNE EN 50470-1:2007
Electrical energy metering equipment (AC)� Part 3: Particular require-
ments. Static active energy meters (classication indexes A, B and
C)�
UNE EN 50470-3:2007
Energy meter devices (AC)� Particular prescriptions Part 61: Absorbed power and voltage prescriptions�
UNE-EN 62053-61:1999
Electrical energy metering equipment� Data exchange for electrical
energy meter readings, tariff and load control� Part 21: Local data
exchange�
UNE-EN 62056-21:2003
Electrical energy metering equipment� Data exchange for electrical
energy meter readings, tariff and load control� Part 42: Services of
the physical layer and procedures for exchanging asynchronous
data directed toward the connection�
UNE-EN 62056-42:2003
Electrical energy metering equipment� Data exchange for electrical
energy meter readings, tariff and load control� Part 46: Data link layer
using the HDLC protocol�
UNE-EN 62056-46:2003
Electrical energy metering equipment� Data exchange for electrical
energy meter readings, tariff and load control� Part 47: COSEM transport layer for IPv4 networks. (IEC 62056-47:2006). (Ratied by AENOR in May 2007�)
UNE-EN 62056-47:2007
Electrical energy metering equipment� Data exchange for electrical
energy meter readings, tariff and load control� Part 53: COSEM application layer�
UNE-EN 62056-53:2004
Data exchange for electrical energy metering equipment� The DLMS/
COSEM suite. Part 6-1: Object identication system (OBIS) COSEM.
(Ratied by AENOR in January 2014.)
UNE-EN 62056-6-1:2013
Data exchange for electrical energy metering equipment� The DLMS/
COSEM suite. Part 6-2: COSEM interface classes (Ratied by AENOR
in January 2014�)
UNE-EN 62056-6-2:2013
Acceptance control of the static active energy meters for alternating
current and direct connection (classes 1 and 2)�
UNE-EN 61358:1998
Electronic components� Reliability� Reference conditions for failure
rates and conversion models depending on the efforts�
UNE-EN 61709:2014
DIN 43857
Electrical energy metering equipment (AC)� General requirements,
tests and test conditions� Part 21: Tariff and load control equipment�
(IEC 62052-21:2004)
UNE-EN 62052-21:2006
Electrical energy metering (AC)� Tariff and load control: Part 21: Particular requirements for time switches�
UNE-EN 62054-21:2005
Supplied voltage features for general distribution networks� UNE-EN 50160:2011
Electricity metering equipment� Dependability� Part 41: Reliability
prediction (IEC 62059-41:2006)�
UNE-EN 62059-41:2006
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CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
9�- MAINTENANCE AND TECHNICAL SERVICE
10�- GUARANTEE
• No returns will be accepted and no unit will be repaired or replaced if it is not accompanied by a report indicating the defect detected or the reason for the return.
•The guarantee will be void if the units has been improperly used or the storage, installation and maintenance instructions listed in this manual have not been
followed. “Improper usage” is de ned as any operating or storage condition contrary to the national electrical code or that surpasses the limits indicated in the
technical and environmental features of this manual.
• CIRCUTOR accepts no liability due to the possible damage to the unit or other
parts of the installation, nor will it cover any possible sanctions derived from a possible failure, improper installation or “improper usage” of the unit. Consequently,
this guarantee does not apply to failures occurring in the following cases:
- Overvoltages and/or electrical disturbances in the supply;
- Water, if the product does not have the appropriate IP classi cation;
- Poor ventilation and/or excessive temperatures;
- Improper installation and/or lack of maintenance;
- Buyer repairs or modi cations without the manufacturer’s authorisation.
CIRCUTOR guarantees its products against any manufacturing defect for two years after the
delivery of the units.
CIRCUTOR will repair or replace any defective factory product returned during the guarantee
period.
In the case of any query in relation to unit operation or malfunction, please contact the
CIRCUTOR, SA Technical Support Service.
Technical Assistance Service
Vial Sant Jordi, s/n, 08232 - Viladecavalls (Barcelona)
Tel: 902 449 459 ( España) / +34 937 452 919 (outside of Spain)
email: sat@circutor.com
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
11�- CE CERTIFICATE
68
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Instruction Manual
69
Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
70
CirCAMP-4DP, CirCAMP-2IP
Instruction Manual
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Instruction Manual
CirCAMP-4DP, CirCAMP-2IP
CIRCUTOR, SA
Vial Sant Jordi, s/n
08232 - Viladecavalls (Barcelona)
Tel: (+34) 93 745 29 00 - Fax: (+34) 93 745 29 14
www.circutor.es central@circutor.com
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