janitza UMG 96 RM-PN Installationsanleitung Seite 12

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Voltage measurement connection variants

Residual current monitoring (RCM) via I5 and I6

3p 4w

(Addr. 509 = 0, standard setting)

Connection variant of residual current monitoring

via current transformer

Measurement with 3 phase

conductors

and neutral conductor.

d for

hich

1p 2w1

(Addr. 509 = 4)

phase

system

NOTE!

The device

• possesses no monitoring function and

does not send warnings itself!

Measured values derived from

System with equal loading of the

• is designed to deliver measuring data

voltage measurement inputs V2

• is designed to deliver measuring data

phases. The measured values of

and V3 are taken to be 0 and are

the voltage measurement input V2

to a PLC, which performs monitoring

not calculated.

functions if necessary.

Ethernet/ProfiNet interface

Programming the current transformer

The device is equipped with 2 equivalent

Ethernet interfaces, via which further Ethernet/

1. Switch to programming mode.

ProfiNet end devices can be connected for

2. The symbols for programming mode PRG

example.

and for the current transformer CT appear.

3. Press button 1 - the first digit of the input

field for the primary current flashes.

4. Use button 2 to select the value for the

1st digit.

5. Use button 1 to move to the 2nd. digit.

6. Use button 2 to select the value of the

2nd digit.

7. Use button 1 to move to the 3rd digit.

8. Use button 2 to select the value of the

3rd digit.

9. Confirm with button 1.

10. The complete number flashes.

11. Use button 2 to select the decimal place and

thus the unit of the primary current.

12. Confirm with button 1.

13. The input range of the secondary current

flashes.

14. Use button 2 to set the secondary current

(value 1 A or 5 A).

NOTE! The device master data file (GSDML file):

15. Confirm with button 1.

Describes the ProfiNet characteristics of the UMG96RM-PN and is required by the configuration

16. Pressing buttons 1 and 2 simultaneously

program of the PLC for example. The device master file (XML) for the UMG96RM-PN has the file

(1. sec.) exits the programming mode.

name "GSDML-V2.31-JanitzaelectronicsGmbH-UMG96RM-PN-xxxxxxxx.xml" and can be

Use button 2 to change to the input field for

found on a separate data carrier (included).

the voltage transformer.

3p 4wu

3p 4u

(Addr. 509 = 1)

(Addr. 509 = 2)

The UMG 96 RM-PN measures AC currents,

pulsing direct currents and DC currents.

The UMG 96 RM-PN measures residual currents

in accordance with IEC/TR 60755 (2008-01), of

N L1

L2 L3

N L1

L2 L3

type A and

type B.

Suitable residual current transformers with

Measurement via voltage

Measurement with 3 phase

a rated current of 30 mA are connected to

transformer with 3 phase

conductors without neutral

a rated current of 30 mA are connected to

conductors and a neutral

conductor. Measured values which

terminals 32 to 34 (I5) and terminals 35 to 37 (I6).

conductor.

require an N, use a calculated N.

conductor. Measured values which

2p 4w

1p 2w

(Addr. 509 = 3)

(Addr. 509 = 6)

NOTE!

• The transformation ratios for the

residual current transformer inputs

can be individually configured via

Load

the GridVis® software (included).

• A connection variant "UMG 96 RM-PN

with residual current measurement

via measurement inputs I5/I6" can be

found in the user manual.

• Measurement inputs I5 and I6 do

System with equal loading of the

TN-C system with 1-phase, three-

phases. The measured values of

conductor connection. Measured

not require connection variants on

the voltage measurement input V2

values derived from voltage

for the phases that are not created

the device.

are calculated.

measurement input V3 are taken to

be 0 and are not calculated.

ProfiNet status LED bar

LED

Status

LED

Status

Function

RDY

Off

Device is not powered.

Off

Device is not powered.

RDY Flashing Device is being initialised.

RDY

Device is ready for operation.

Configuration error or system error.

Fig.:

No connection.

No ProfiNet connection,

Example

Flashing

Fig. "Current transformer" input area

physical connection available.

connection

Off

Connection to the PLC active.

Off

Connection to the PLC active.

NOTE!

• PC

• Changes are only applied after exiting

• Switch

LED 1

LED 2

LED 1

LED 2

LED Colour Function

programming mode.

• PLC

• For further information on current

Green

Ethernet /

transformers and current transformer

ProfiNet

ratios, see the user manual.

Yellow

device

NOTE!

Programming voltage transformers:

• Change to programming mode for the

voltage transformer.

• The symbols PRG and VT appear in

the display.

• The procedure for the voltage

transformer programming is analogous

to that of the current transformer.

Further information on voltage transformers

and voltage transformer ratios can be found

in the user manual.

Current measurement I1, I2, I3

Establish the connection to the PC

The UMG 96 RM-PN

3p 2u

• is only approved for measuring current with a

(Addr. 509 = 5)

Communication connections:

• is intended for connecting current transformers

PLC

• has the current transformer ratio 5/5 A set as

Direct connection of

the device to a PC/PLC

• measures AC currents, does not measure

with Ethernet/ProfiNet.

PLC

Measurement via voltage

transformer with 3 phase

conductors without neutral

conductor. Measured values which

Connection of the device to a PC/PLC with Ethernet/ProfiNet

require an N, use a calculated N.

WARNING!

via a switch (fieldbus level).

3p 1w

Serious bodily injury or death can result from:

(Addr. 509 = 7)

Device connection with a PC via an

interface converter.

De-energise your device before starting

work! Check that it is de-energised.

Earth your system! Use the earth connection

points with earthing symbols for this!

Earth the secondary windings of current

Connection of the device to a PC via a

transformers and all of the metal parts of the

3 systems with equal loading of

the phases. The measured values

UMG 604 as a gateway.

transformer that could be touched!

for the phases that are not created

(L2/L3, L1/L3, L1/L2) for the

relevant systems are calculated.

More information on device configuration and

communication is provided as of step 14.

Current transformer,

primary

Manual TCP/IP configuration via the Ethernet interface

PROFIenergy/Entity Class 2 certification

Programming mode

Unit indicator

Current transformer,

secondary

Current transformer

Each device within an Ethernet network has a unique

The UMG 96 RM-PN

Current transformer

symbol

TCP/IP address. The TCP/IP address is assigned

• is certified as Entity Class 2 for use of the

manually on the device.

The 4-byte-long device address (Byte 0 to 3) is

• provides a defined set of functions and

appended within the TCP/IP configuration with the

The configuration and installation effort are

subnet mask and gateway details.

thereby standardised and reduced.

Manual configuration (example) of the TCP/IP

device address (Addr):

Lights up when connection

Green

1. Switch to programming mode.

(link) is active.

2. The symbols for programming mode PRG and for

Flashes with network

Yellow

activity.

3. Pressing button 2 3 times takes you to the TCP/

4. Use button 1 to select the 1st digit of byte 0

5. Use button 2 to select the value.

6. Use button 1 to move to the 2nd. digit / 3rd. digit.

7. Use button 2 to select the corresponding value.

8. Use button 1 to move to byte 1.

9. Select bytes 1 to 3 in the same way.

10. Configure the subnet mask (display SUb) and

12 / 16

Current measurement I1, I2, I3

Establish the connection to the PC

The UMG 96 RM-PN

• is only approved for measuring current with a

Communication connections:

current transformer.

• is intended for connecting current transformers

Ethernet/Profinet

UMG 96

(GridVis)

Ethernet/Profinet

UMG 96

(GridVis)

RM-PN

with secondary currents of ../1 A and ../5 A.

PLC

with secondary currents of ../1 A and ../5 A.

RM-PN

• has the current transformer ratio 5/5 A set as

Direct connection of

standard.

UMG 96

Ethernet/Profinet

the device to a PC/PLC

Ethernet/Profinet

RM-PN

• measures AC currents, does not measure

with Ethernet/ProfiNet.

DC currents!

(GridVis)

UMG 96

(GridVis)

PLC

RM-PN

Ethernet/Profinet

Switch

Risk of injury due

to electric voltage!

Connection of the device to a PC/PLC with Ethernet/ProfiNet

WARNING!

via a switch (fieldbus level).

Serious bodily injury or death can result from:

RS232

• Contact with bare or stripped live wires.

RS485

UMG 96

RS485

UMG 96

(GridVis)

RM-PN

• Current measurement inputs that are

RS485

dangerous to touch on the device and on the

Device connection with a PC via an

current transformers.

UMG 96

RS485

interface converter.

RM-PN

De-energise your device before starting

work! Check that it is de-energised.

Earth your system! Use the earth connection

Ethernet

RS485

Ethernet

RS485

UMG 96

UMG 604

(GridVis)

UMG 604

(GridVis)

points with earthing symbols for this!

RM-PN

Earth the secondary windings of current

transformers and all of the metal parts of the

Connection of the device to a PC via a

UMG 96

RS485

UMG 604 as a gateway.

RM-PN

transformer that could be touched!

RM-PN

More information on device configuration and

communication is provided as of step 14.

Manual TCP/IP configuration via the Ethernet interface

PROFIenergy/Entity Class 2 certification

PROFIenergy is a profile for energy

NOTE!

management in production systems,

The following steps are omitted with configuration of the device in a ProfiNet system (with DCP).

which is based on ProfiNet.

The UMG 96 RM-PN

Each device within an Ethernet network has a unique

• is certified as Entity Class 2 for use of the

TCP/IP address. The TCP/IP address is assigned

PROFIenergy Profile V1.1.

manually on the device.

• provides a defined set of functions and

The 4-byte-long device address (Byte 0 to 3) is

information.

appended within the TCP/IP configuration with the

The configuration and installation effort are

subnet mask and gateway details.

thereby standardised and reduced.

Manual configuration (example) of the TCP/IP

device address (Addr):

1. Switch to programming mode.

2. The symbols for programming mode PRG and for

the current transformer CT appear.

3. Pressing button 2 3 times takes you to the TCP/

IP settings.

(Press the subnet mask 4x and the gateway 5x)

4. Use button 1 to select the 1st digit of byte 0

(selection flashes).

5. Use button 2 to select the value.

6. Use button 1 to move to the 2nd. digit / 3rd. digit.

7. Use button 2 to select the corresponding value.

8. Use button 1 to move to byte 1.

9. Select bytes 1 to 3 in the same way.

10. Configure the subnet mask (display SUb) and

NOTE!

gateway address (display GAt) in the same way.

For further information on the Ethernet/Profinet interface see the user manual.

Connection variant 3p 4w current measurement

(I1, I2, I3) via current transformer (Addr. 510 = 0,

standard setting).

Load

NOTE!

With measurement range exceeding,

the measurement device display shows

"EEE". Further information on this can

Recommendation for the Ethernet connection:

be found in the user manual.

Use at least a CAT5 cable!

Risk of injury due to

large currents and high

Damage to property due to

electric voltages!

WARNING!

incorrect network settings

Current transformers operating with an open

CAUTION!

Current transformers operating with an open

CAUTION!

secondary circuit (high voltage peaks) can result in

Incorrect network settings can cause faults in

serious or even fatal injuries.

the IT network!

serious or even fatal injuries.

the IT network!

Avoid open operation of the current transformers

Obtain information from your network

Avoid open operation of the current transformers

Obtain information from your network

- short-circuit unloaded transformers!

administrator about the correct Ethernet

network settings for your device(s).

NOTE!

Dynamic Configuration Protocol (DCP)

This function assigns unique addresses

and names to the subscribers of

a ProfiNet system, and is prioritised by

the UMG 96 RM-PN.

Designation

Byte identifier

NOTE!

of the address (e.g. Byte 0)

ProfiNet configuration

Address value, Byte 0

Due to the reduced installation effort in

Fig. TCP/IP address,

the ProfiNet system, the TCP/IP settings

Byte 1, value 168.

for the UMG 96 RM-PN are omitted

A TCP/IP address consists

(from step 17).

of 4 bytes with the following

structure (example):

Byte 0

Byte 1

Byte 2 Byte 3

Byte 0

Byte 1

Byte 2 Byte 3

xxx.xxx.xxx.xxx

192,168,001,116

Fig. TCP/IP address,

Byte 2, value 001.

Fig. TCP/IP address,

Byte 3, value 116.

janitza UMG 96 RM-PN Installationsanleitung Seite 12

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