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63

EN

DIRIS B-10L - 551174A - SOCOMEC

• Alarms

 

-

 Measurement alarm: you can configure up to 8 measurement alarms each based on high and low thresholds.

 

-

 Protection alarm: you can configure up to 6 protection alarms to alert in case the protective device is opened, has 

tripped or is defective.

 

-

Logical alarm: you can configure up to 4 logical alarms to alert when there is a change of digital input status.

 

-

System alarm: you can configure up to 4 system alarms to alert if there is a commissioning error.

• Date/time

 

- Date/time: to manually synchronise the date/time of the DIRIS B-10L with the computer’s date and time.

• Commands

 

-  Reset: to reboot the DIRIS B-10L, reset alarm logs, Min/Max values, partial meters or restore the device to its factory 

default settings.

9.2. 

Configuration from the DIRIS D-30 remote display

9.2.1. Connection mode

Configuration from the remote display (RJ9)

RJ9

DIRIS B-10L

Display

Refer to the manual for the DIRIS D-30 display for more details.
Connection cables for the remote display (RJ9):

Length (m)

Quantity

Reference

1.5

1

4829 0280

3

1

4829 0281

 

Summary of Contents for DIRIS B-10L

Page 1: ...Power Monitoring Device with wireless LoRaWAN communication DIRIS B 10L INSTALLATION AND OPERATING MANUAL EN ...

Page 2: ...nt sensors 18 4 4 2 1 Range 18 4 4 2 2 Dimensions 18 4 4 3 TF flexible current sensors 19 4 4 3 1 Range 19 4 4 3 2 Dimensions 19 4 4 4 Adaptor for 5A or 1A current transformers 20 4 4 4 1 Range 20 4 4 4 2 Dimensions 20 5 MOUNTING 21 5 1 Recommendations and safety 21 5 2 DIRIS B 10L mounting 21 5 2 1 DIN rail mounting 21 5 2 2 Plate mounting 21 5 2 3 Sealing accessory for sensors 22 5 3 Optional mo...

Page 3: ... 2 Description of the main network and load combinations 38 6 3 4 Connection of the functional earth 40 7 PRODUCT LEDS 41 8 LoRaWAN COMMUNICATION 42 8 1 General information 42 8 2 LoRa Key Recovery 42 8 3 LoRa payloads for DIRIS B 10L measurements 42 8 4 LoRaWAN to Ethernet Modbus TCP gateway 49 8 5 EU Declaration of Conformity 60 9 CONFIGURATION 61 9 1 Configuration using Easy Config System 61 9 ...

Page 4: ...teristics 68 11 1 7 Electromagnetic compatibility 68 11 1 8 Safety 68 11 1 9 Service life 68 11 2 DIRIS O optional modules characteristics 69 11 3 DIRIS D 30 display characteristics 70 11 3 1 Mechanical characteristics 70 11 3 2 Single device connection 70 11 3 3 Electrical characteristics 70 11 3 4 Environmental characteristics 70 11 4 TE TR iTR and TF sensors characteristics 71 12 PERFORMANCE CL...

Page 5: ...5 EN DIRIS B 10L 551174A SOCOMEC ...

Page 6: ...N DIRIS B 10L 551174A SOCOMEC 1 DOCUMENTATION All documentation relating to the DIRIS B 30 and its associated sensors is available on the SOCOMEC website at the following address www socomec com en diris b ...

Page 7: ...ct all power sources voltage inputs the unit s auxiliary power supply and dry contact supplies The isolation options must be within the electrical installation itself located somewhere convenient and easily accessible labelled as the unit s power switching device Always use an appropriate voltage detection device to confirm the absence of voltage Replace all devices doors and covers before turning...

Page 8: ...or 300 VAC phase neutral is observed Always connect the TE TR iTR or TF current sensors using the recommended connection cables and observing the maximum prescribed currents Failure to respect these precautions could cause damage to the device 2 3 Liability Assembly connection and use must be carried out in accordance with the installation standards currently in force The device must be installed ...

Page 9: ...s before installation Check the following points as soon as you receive the package containing the device one or several sensors The packaging is in good condition The device has not been damaged during transportation The device reference number conforms to your order The packaging includes the device fitted with removable terminal blocks and a Quick Start guide ...

Page 10: ... temperature etc Current sensors are connected via an RJ12 cable which allows a quick and easy installation The type of current sensor and their current rating is automatically detected by the DIRIS B 10L which significantly reduces the risk of errors during installation A global class 0 5 accuracy is guaranteed for the DIRIS B 10L and associated current sensors The DIRIS B 10L is configured from ...

Page 11: ...ed V I association bad CT primary phase rotation Measurement alarms Protection alarms only available with iTR current sensors Logical alarms status change RJ12 inputs Connection of TE solid core TR iTR split core and TF flexible current sensors Measuring monitoring 4 currents or 4 circuits Automatic detection of the current sensor type and rating Simultaneous management of several single phase two...

Page 12: ...12 EN DIRIS B 10L 551174A SOCOMEC 4 1 3 Dimensions Dimensions in mm 1 77 45 4 72 120 0 59 15 2 12 54 3 54 90 3 93 100 1 73 44 0 59 15 2 56 65 1 42 36 ...

Page 13: ...re fitted on the DIRIS B 10L they are used to extend its functionalities 4 2 1 Range DIRIS O iod DIRIS O it Module with 2 digital inputs outputs Module with 3 temperature inputs Ref 4829 0030 Ref 4829 0032 4 2 2 Dimensions Dimensions in mm A 1 73 44 0 59 15 2 56 65 3 54 90 3 93 100 DIRIS O iod DIRIS O it A 1 77in 45mm ...

Page 14: ...n be connected to a remote antenna located outside the electrical panel The remote antenna is connected to the DIRIS B 10L via a 3 meter SMA cable The losses incurred by the antenna and the extension cable are about 4 dB Therefore the overall gain of the external antenna ranges from 11 to 16 dB Part no Description Ref 4829 0922 Remote antenna with mounting bracket and 3m SMA extension cable CAUTIO...

Page 15: ...hain DIRIS B 10L Current sensors TE TR iTR TF Recommendations For connecting the current sensors use SOCOMEC cables only RJ12 straight twisted pair unshielded 600 V 10 C 70 C as per IEC 61010 1 version 3 0 It is recommended that all the current sensors be installed in the same direction Connection cables for current sensors RJ12 connection cables Cable length m 0 1 0 2 0 3 0 5 1 2 3 5 10 50 m reel...

Page 16: ...le flexible or rigid busbar or on a DIN rail support or plate Thanks to the specific link they are recognised by the DIRIS B 30 and the overall accuracy of the measurement chain is guaranteed 4 4 1 1 Range TE 18 TE 18 TE 25 TE 35 TE 45 TE 55 Pitch 18 mm 18 mm 25 mm 35 mm 45 mm 55 mm Nominal current range In 5 20 A 25 63 A 40 160 A 63 250 A 160 630 A 400 1000 A I Max 24 A 75 6 A 192 A 300 A 756 A 1...

Page 17: ...HxD 1 10 x 0 79 x 1 77 28 x 20 x 45 0 98 x 1 28 x 2 56 25 x 32 5 x 65 1 37 x 1 28 x 2 79 35 x 32 5 x 71 1 77 x 1 28 x 3 38 45 x 32 5 x 86 2 16 x 1 28 x 3 93 55 x 32 5 x 100 Aperture W ø 0 39 ø 9 0 53 x 0 53 13 5 x 13 5 0 82 x 0 82 21 x 21 1 22 x 1 22 31 x 31 1 61 x 1 61 41 x 41 T 0 69 17 5 0 69 17 5 0 77 19 5 0 85 21 5 TE 90 Dimensions in mm 3 54 90 0 08 2 2 0 77 19 7 1 42 36 2 52 64 4 96 126 0 97...

Page 18: ...s TR 10 iTR 10 TR 14 iTR 14 TR 21 iTR 21 TR 32 iTR 32 APERTURE Ø 10 mm Ø 14 mm Ø 21 mm Ø 32 mm Nominal current range In 25 63 A 40 160 A 63 250 A 160 600 A Recommended cable section 6 mm iTR 10 10 mm iTR 14 50 mm iTR 21 50 mm iTR 32 I MAX 75 6 A 192 A 300 A 720 A Part number 4829 0555 4829 0655 4829 0556 4829 0656 4829 0557 4829 0657 4829 0558 4829 0658 4 4 2 2 Dimensions D B C A E Dimensions in m...

Page 19: ...ll accuracy for the measurement chain is guaranteed 4 4 3 1 Range Six models are available covering a large current range up to 6000 A with openings of different shapes and sizes They include a compact and self supplied integrator required to shape the current signal TF 40 TF 80 TF 120 TF 200 TF 300 TF 600 Ø mm 40 80 120 200 300 600 I nom a c 100 400A 150 600A 400 2000A 600 4000A 1600 6000A 1600 6...

Page 20: ...all DIRIS Digiware system accuracy is no longer guaranteed as it depends on the accuracy of the associated CT see standard IEC 61557 12 annex F for more information The primary current is maximum 10000 A for a 5 A secondary CT and 2000 A for a 1 A secondary CT 4 4 4 1 Range 5A adaptor I name 5 A I Max 6 A Reference 4829 0599 4 4 4 2 Dimensions L D W H L D W H Dimensions in mm 5A adaptor LxHxD 28 x...

Page 21: ...ssociated sensors 5 1 Recommendations and safety Refer to the safety instructions section 2 Hazards and warnings page 7 5 2 DIRIS B 10L mounting 5 2 1 DIN rail mounting Mounting Removal L 1 2 0 29 or 0 59 7 5 or 15 1 38 35 1 2 5 2 2 Plate mounting 0 19 in 5 mm 3 94 in 100 mm Type of screw M4 Tightening torque 0 5 Nm Washer maximum Ø 0 47in 12mm ...

Page 22: ...ors Reference Sealing case for terminal 4829 0600 x20 1 3 4 2 5 3 Optional modules mounting 5 3 1 Optional module mounted on DIRIS B 10L DIRIS B 10L 1 3 4 Optional module 2 5 3 2 Mounting an optional module on an optional module Optional module 1 3 4 Optional module 2 ...

Page 23: ...rail or base plate Remote antenna mounting 5 4 TE solid core sensors mounting 5 4 1 Mounting accessories The list of mounting accessories supplied with the sensors are listed below Reference Pitch DIN rail and plate mounting DIN rail mounting Plate mounting Busbar mounting 4829 0500 4829 0501 TE 18 18 mm x1 4829 0502 TE 25 25 mm x2 x4 4829 0503 TE 35 35 mm x2 x4 x2 4829 0504 TE 45 45 mm x2 x4 x2 4...

Page 24: ...RIS B 10L 551174A SOCOMEC TE 90 2 1 Removing clamps or Fix sensor TE 90 to the DIN rail to make it easier to install This is a temporary installation Use the clamps to install the TE 90 sensors on the DIN rail ...

Page 25: ...25 EN DIRIS B 10L 551174A SOCOMEC 5 4 3 Plate mounting TE 18 1x diameter 0 17 4 2 M4 max 1 Nm 0 81 20 5 1 05 26 8 1 1 2 2 2 2 3 3 TE 25 TE 55 4x diameter 0 20 5 2 M5 max 1 Nm ...

Page 26: ...26 EN DIRIS B 10L 551174A SOCOMEC TE 90 2 1 Removing clamps x6 diameter 0 20 diameter 5 2 Use the clamps to install the TE 90 sensors on the board ...

Page 27: ...r TE 18 TE 25 TE 55 2 1 3 TE 90 2 1 Removing clamps I Use the clamps to install the TE 90 sensors on a cable with clamping collar Do NOT clamp or pull out NON INSULATED conductors carrying DANGEROUS VOLTAGE which could cause an electric shock burn or arc flash Ref IEC 61010 2 032 ...

Page 28: ...4mm key B C TE 90 or Tighten the jaws on both sides of the cable by applying pressure The jaws must be perpendicular to the holding notches 60x10 mm 50x10 mm I I 2 1 Do NOT clamp or pull out NON INSULATED conductors carrying DANGEROUS VOLTAGE which could cause an electric shock burn or arc flash Ref IEC 61010 2 032 ...

Page 29: ...Linear mounting 1x Staggered assembly Mounting accessories for combining sensors Reference Linear assembly Staggered assembly 4829 0598 x30 These accessories must be ordered separately 5 4 7 Sealing accessories for sensors 2 1 Reference Sealing case for terminal 4829 0600 x20 These accessories must be ordered separately ...

Page 30: ...3 2 Recommended installation Not recommended Use cable ties to push the conductor against the base of the aperture Do NOT clamp or pull out NON INSULATED conductors carrying DANGEROUS VOLTAGE which could cause an electric shock burn or arc flash Ref IEC 61010 2 032 Before closing the TR iTR sensor check that the air gap is clean no contamination or corrosion ...

Page 31: ...e or bus bar mounting 1 2 3 4 I DIRIS B 10L Centred position for the best measurement Centred position for the best measurement Do NOT clamp or pull out NON INSULATED conductors carrying DANGEROUS VOLTAGE which could cause an electric shock burn or arc flash Ref IEC 61010 2 032 ...

Page 32: ...OCOMEC 5 7 Installing the 5A adaptor 4 3 1 2 5A secondary current transformer Do NOT clamp or pull out NON INSULATED conductors carrying DANGEROUS VOLTAGE which could cause an electric shock burn or arc flash Ref IEC 61010 2 032 ...

Page 33: ... 2 5 mm2 stranded with ferrule 0 25 mm2 1 5 mm2 2x 2 positions spring cage 10 mm solid 0 2 mm2 2 5 mm2 stranded with ferrule 0 25 mm2 1 5 mm2 2x 6 positions spring cage Current sensor inputs Recommendation Use Socomec Display cable type RJ9 straight twisted pairs non shielded 300V cat III rated 20 70 C 4x current sensor inputs 2 digital inputs 7 mm solid 0 14 mm2 1 5 mm2 stranded 0 14 mm2 1 5 mm2 ...

Page 34: ...IRIS D 30 Self powered and data 110 230VAC N L1 L2 L3 V2 VN V3 V1 VN V1 N L 1 1 1 Separated power supply N L N L1 L2 L3 V2 VN V3 110 230VAC V1 VN V1 1 1 1 Self powered Easy connection of the power supply from the measurement terminal specific terminals 1 0 5 A gG 0 5 A class CC fuses 1 0 5 A gG 0 5 A class CC fuses RJ9 RJ12 I 04 I 03 I 02 I 01 110 230VAC V2 VN V3 V1 VN V1 N L N L N L OPTIONAL MODU...

Page 35: ...ax 2x 2 positions spring cage 4 positions screw connection 0 25 Nm max 10 mm DIRIS O iod Module with 2 digital inputs outputs Ref 4829 0030 DIRIS O it Module with 3 temperature inputs Ref 4829 0032 7 mm 0 14 mm2 1 5 mm2 solid 0 14 mm2 1 5 mm2 stranded 2x4 positions screw connection 0 25 Nm max 7 mm 0 14 mm2 1 5 mm2 solid 0 14 mm2 1 5 mm2 stranded 4 positions screw connection 0 25 Nm max PT100 or P...

Page 36: ...ncept DIRIS B 10L Current sensors TE TR iTR TF Recommendations For connecting the current sensors use SOCOMEC cables only RJ12 straight twisted pair unshielded 600 V 10 C 70 C as per IEC 61010 1 version 3 0 It is recommended that all the current sensors are installed in the same direction ...

Page 37: ... 3 2 Details of the RJ12 connections for each current sensor TE SOCOMEC cable for current sensors DIRIS B 10L TE 18 to TE 55 TE 90 TR iTR TF SOCOMEC cable for current sensors Do not bring into contact with dangerous voltages DIRIS B 10L ...

Page 38: ...se with or without neutral using 1 2 3 or 4 sensors for balanced or unbalanced loads Several loads can be measured simultaneously The overall accuracy of the DIRIS B 10L sensors measurement chain is guaranteed To guarantee this accuracy SOCOMEC cables must be used for the current sensors 6 3 3 1 Configurable loads based on the network type The table below summarises the loads that it is possible t...

Page 39: ... I01 I02 I03 I04 1 N L1 L2 L3 1 N V1 V2 V3 VN B 10L B 10L 1 L1 L2 L3 I01 I02 I03 I04 3 N N V1 V2 V3 VN B 10L B 10L 1 L1 L2 L3 3 N N V1 V2 V B 10 L1 L2 L3 V1 V2 V3 VN B 10L B 10L L1 L2 L3 3 I01 I02 I03 I04 N L1 L2 L3 V1 V2 V3 VN B 10L B 10L L1 L2 L3 I01 I02 I03 I04 L1 L2 L3 V1 V2 V B 10 L1 L2 N 3 3 3 Three phase 3P 2CT x2 2 three phase loads Three phase 3P 1CT x4 4 three phase balanced loads N V1 V...

Page 40: ...t be added to the neutral I I01 I02 I03 I V I V V1 V2 V3 VN V L1 L2 I01 I02 I03 V1 V2 V3 VN L1 N I02 I03 N V1 V2 V3 VN I L1 L2 L3 3 I01 I02 I03 N V1 V2 V3 VN V I L2 L3 3 I01 I02 I03 N V1 V2 V3 VN V I L1 L2 L3 3 3 3 I01 I02 I03 I01 N V1 V2 V3 VN V L2 L3 2 2 2 3 N 1 1 1 Fuse 0 5 A gG BS 88 2A gG 0 5 A class CC Notes relating to connections The Easy Config software can also be used to select numerous...

Page 41: ...ED OFF Flashing Stable ON Green Device is off 10 sec during startup Manual blinking command Product ON ALARM Red No active alarm System alarm active on a device At least one Protection Alarm and or Logical Alarm and or Measurement Alarm is active COM Orange LoRa card not started or not connected to LoRa network LoRa card is pairing LoRa card is connected and operational Red No energy flowing Energ...

Page 42: ...ds elapsed since 01 01 2000 00 00 Remains at 0 as long as the date and time has not been written via the LoRa network Ea 4 10 1 Wh Ea 4 10 1 Wh Er 4 10 1 Varh Er 4 10 1 Varh Pulse Meter 4 NA Native Input 1 Digital Inputs and VirtualMonitor iTR 1 Bit field Bit 0 Digital Input 1 Native Bit 1 Digital Input 2 Native Bit 2 Digital Input 1 optional module 1 Bit 3 Digital Input 2 optional module 1 Bit 4 ...

Page 43: ...tor iTR 1 Bit field Bit 0 Digital Input 1 Native Bit 1 Digital Input 2 Native Bit 2 Digital Input 1 optional module 1 Bit 3 Digital Input 2 optional module 1 Bit 4 Digital Input 1 optional module 2 Bit 5 Digital Input 2 optional module 2 Bit 6 Digital Input 1 optional module 3 Bit 7 Digital Input 2 optional module 3 Bit 8 Digital Input 1 optional module 4 Bit 9 Digital Input 2 optional module 4 Bi...

Page 44: ...tor iTR 1 Bit field Bit 0 Digital Input 1 Native Bit 1 Digital Input 2 Native Bit 2 Digital Input 1 optional module 1 Bit 3 Digital Input 2 optional module 1 Bit 4 Digital Input 1 optional module 2 Bit 5 Digital Input 2 optional module 2 Bit 6 Digital Input 1 optional module 3 Bit 7 Digital Input 2 optional module 3 Bit 8 Digital Input 1 optional module 4 Bit 9 Digital Input 2 optional module 4 Bi...

Page 45: ...Digital Input 1 optional module 2 Bit 5 Digital Input 2 optional module 2 Bit 6 Digital Input 1 optional module 3 Bit 7 Digital Input 2 optional module 3 Bit 8 Digital Input 1 optional module 4 Bit 9 Digital Input 2 optional module 4 Bit 10 Voltage Detection iTR1 Bit 11 Voltage Detection iTR2 Bit 12 Voltage Detection iTR3 Bit 13 Voltage Detection iTR4 Temperature Input 1 optional module 1 0 01 deg...

Page 46: ... 1 Digital Input 2 Native Bit 2 Digital Input 1 optional module 1 Bit 3 Digital Input 2 optional module 1 Bit 4 Digital Input 1 optional module 2 Bit 5 Digital Input 2 optional module 2 Bit 6 Digital Input 1 optional module 3 Bit 7 Digital Input 2 optional module 3 Bit 8 Digital Input 1 optional module 4 Bit 9 Digital Input 2 optional module 4 Bit 10 Voltage Detection iTR1 Bit 11 Voltage Detection...

Page 47: ...Unsigned Flag point before last 0 Complete period and date configured 1 Incomplete period and date configured 2 Complete period and date not configured 3 Incomplete period and date not configured Digital Inputs and VirtualMonitor iTR 1 Bit field Bit 0 Digital Input 1 Native Bit 1 Digital Input 2 Native Bit 2 Digital Input 1 optional module 1 Bit 3 Digital Input 2 optional module 1 Bit 4 Digital In...

Page 48: ...ned Ptot Load 2 point before last 2 W Unsigned Ptot Load 3 point before last 2 W Unsigned Ptot Load 4 point before last 2 W Unsigned Flag point before last 1 0 Complete period and date configured 1 Incomplete period and date configured 2 Complete period and date not configured 3 Incomplete period and date not configured Digital Inputs and VirtualMonitor iTR 1 Bit field Bit 0 Digital Input 1 Native...

Page 49: ...scription Data Type 1 1 4 DevEUI U64 5 5 1 Device reference ID U16 6 6 2 Last uplink U32 14 E 1 SF Spreading Factor U16 15 F 1 RSSI S16 16 10 1 SNR S16 20 14 1 Profile number U16 Energy meters Load 1 Profile 1 Single load Energies Profile 2 Multi load Energies Profile 3 Multi load Energies production Dec address Hex address Words count Description Unit Data type Function Profile 4096 0x1000 1 Load...

Page 50: ...Multi load Energies production Dec address Hex address Words count Description Unit Data type Function Profile 4224 0x1080 1 Load status 0 Disabled 1 Enabled U16 READ 2 3 4225 0x1081 2 Date of last instance s DATETIME READ 2 3 4227 0x1083 4 Ea Wh 10 1 U64 READ 2 3 4231 0x1087 4 Ea Wh 10 1 U64 READ 3 4235 0x108B 4 Er varh 10 1 U64 READ 2 4239 0x108F 4 Er varh 10 1 U64 READ 4243 0x1093 4 Reserved En...

Page 51: ...erage Current phase 2 mA S32 READ 4 8207 0x200F 2 Average Current phase 3 mA S32 READ 4 8209 0x2011 2 Average Frequency mHz S32 READ 4 Average measurements Load 2 The following Modbus table can be used only if one of the following profiles is selected Profile 5 Multi load Monitoring Dec address Hex address Words count Description Unit Data type Function Profil 8256 0x2040 1 Load status 0 Disabled ...

Page 52: ...se 2 mA S32 READ 4 8335 0x208F 2 Average Current phase 3 mA S32 READ 4 8337 0x2091 2 Average Frequency mHz S32 READ 4 Average measurements Load 4 The following Modbus table can be used only if one of the following profiles is selected Profile 5 Multi load Monitoring Dec address Hex address Words count Description Unit Data type Function Profil 8384 0x20C0 1 Load status 0 Disabled 1 Enabled U16 REA...

Page 53: ... last instance s DATETIME READ 4 9539 0x2543 1 Average temperature C 10 2 S16 READ 4 Probe 3 Dec address Hex address Words count Description Unit Data type Function Profil 9600 0x2580 1 Sensor status 0 Disabled 1 Enabled U16 READ 4 9601 0x2581 2 Date of last instance s DATETIME READ 4 9603 0x2583 1 Average temperature C 10 2 S16 READ 4 Multi utility pulse metering The following Modbus table can be...

Page 54: ... 16393 0x4009 2 Total Negative Reactive Power last point var U32 READ 6 16395 0x400B 1 Flag last point 0 Complete period date configured 1 Incomplete period date not configured 2 Complete period date configured 3 Incomplete period date not configured U16 READ 6 7 16396 0x400C 2 Date previous point s DATETIME READ 6 7 16398 0x400E 2 Total Positive Active Power previous point W U32 READ 6 7 16400 0x...

Page 55: ...otal Negative Reactive Power last point var U32 READ 6 16459 0x404B 1 Flag last point 0 Complete period date configured 1 Incomplete period date not configured 2 Complete period date configured 3 Incomplete period date not configured U16 READ 6 7 16460 0x404C 2 Date previous point s DATETIME READ 6 7 16462 0x404E 2 Total Positive Active Power previous point W U32 READ 6 7 16464 0x4050 2 Total Nega...

Page 56: ...otal Negative Reactive Power last point var U32 READ 6 16523 0x408B 1 Flag last point 0 Complete period date configured 1 Incomplete period date not configured 2 Complete period date configured 3 Incomplete period date not configured U16 READ 6 7 16524 0x408C 2 Date previous point s DATETIME READ 6 7 16526 0x408E 2 Total Positive Active Power previous point W U32 READ 6 7 16528 0x4090 2 Total Nega...

Page 57: ...otal Negative Reactive Power last point var U32 READ 6 16587 0x40CB 1 Flag last point 0 Complete period date configured 1 Incomplete period date not configured 2 Complete period date configured 3 Incomplete period date not configured U16 READ 6 7 16588 0x40CC 2 Date previous point s DATETIME READ 6 7 16590 0x40CE 2 Total Positive Active Power previous point W U32 READ 6 7 16592 0x40D0 2 Total Nega...

Page 58: ...itor iTR 4 0 Open 1 Closed U16 READ 1 2 3 4 5 6 7 20484 0x5004 1 Digital Input 1 DIRIS B 10L 0 N A 1 Active U16 READ 1 2 3 4 5 6 7 20485 0x5005 1 Digital Input 2 DIRIS B 10L 0 N A 1 Active U16 READ 1 2 3 4 5 6 7 20486 0x5006 1 Digital Input 1 Optional module 1 0 N A 1 Active U16 READ 1 2 3 4 5 6 7 20487 0x5007 1 Digital Input 2 Optional module 1 0 N A 1 Active U16 READ 1 2 3 4 5 6 7 20488 0x5008 1...

Page 59: ...EAD U16 28681 0x7009 1 Logical Alarm 4 0 N A 1 Active READ U16 28682 0x700A 1 Measurement Alarm 1 0 N A 1 Active READ U16 28683 0x700B 1 Measurement Alarm 2 0 N A 1 Active READ U16 28684 0x700C 1 Measurement Alarm 3 0 N A 1 Active READ U16 28685 0x700D 1 Measurement Alarm 4 0 N A 1 Active READ U16 28686 0x700E 1 Measurement Alarm 5 0 N A 1 Active READ U16 28687 0x700F 1 Measurement Alarm 6 0 N A 1...

Page 60: ...AD U16 28696 0x7018 1 System Alarm 1 Network rotation 0 N A 1 Active READ U16 28697 0x7019 1 System Alarm 2 V I association 0 N A 1 Active READ U16 28698 0x701A 1 System Alarm 3 CT disconnected 0 N A 1 Active READ U16 28699 0x701B 1 System Alarm 4 Bad CT primary 0 N A 1 Active READ U16 8 5 EU Declaration of Conformity The EU Declaration of Conformity for the DIRIS B 10L is available here www socom...

Page 61: ... is Admin Click on New Configuration then enter a name and icon Click on the newly created configuration Click on USB mode on the right top corner to connect to the DIRIS B 10L via a USB cable Go to the PARAMETERS part to configure the different menus Communication LoRa to configure the LoRaWAN communication Profile choose the LoRa profile depending on which measurements you need to collect Uplink...

Page 62: ...e shown on the D 50 D 70 display and on WEBVIEW Pulse meter if the digital input Mode is set to Bin State Pulse meter you must enable the Pulse Meter function if you want collect pulses from utility meters Digital Output the digital outputs can be used for alarm reporting purposes Type normally open or normally closed Name you can name the digital output The name will be shown on the D 50 D 70 dis...

Page 63: ...p to 4 system alarms to alert if there is a commissioning error Date time Date time to manually synchronise the date time of the DIRIS B 10L with the computer s date and time Commands Reset to reboot the DIRIS B 10L reset alarm logs Min Max values partial meters or restore the device to its factory default settings 9 2 Configuration from the DIRIS D 30 remote display 9 2 1 Connection mode Configur...

Page 64: ...ort the alarm on an output A time delay at the start and end of the alarm can be set for each system alarm 10 2 Measurement alarms Up to 8 Measurement alarms can be configured when a threshold is exceeded for the electrical measurements consumption variations in level The Measurement alarms are based on electrical parameters measured in the devices both instantaneous and average measurements Curre...

Page 65: ...able for circuit breakers A defect of the protective device if one pole is in a different position from the other poles abnormal for a multi phase protective device A time delay at the start and end of the alarm can be set for each alarm A digital output can be associated to each alarm to report the alarm on an output 10 4 Logical alarms Up to 4 Logical alarms can be configured to alert upon the c...

Page 66: ...1 2 Electrical characteristics Auxiliary power supply Alternative voltage 110 230 VAC 15 Ph N or Ph Ph Cat III Frequency 50 60 Hz Power consumption 2 VA without display 6 3 VA with DIRIS D 30 display Connection Removable spring cage terminal block 2x 2 positions 0 5 2 5 mm solid cable or 0 25 1 5 mm stranded cable with ferrule 11 1 3 Input characteristics Input Number 2 Type Power supply Optocoupl...

Page 67: ...ingle phase Two phase Two phase with neutral Three phase Three phase with neutral Measurement by voltage transformer Primary 400 000 VAC Secondary 60 100 110 173 190 VAC Input consumption 0 1 VA Permanent overload 300 VAC Ph N Accuracy of voltage measurement Class 0 2 Connection Removable spring cage terminal block 2 x 6 positions 0 5 2 5 mm solid cable or 0 25 1 5 mm stranded cable with ferrule M...

Page 68: ...ated radio frequency fields IEC 61000 4 3 LEVEL III Immunity to electrical fast transients bursts IEC 61000 4 4 LEVEL IV Immunity to impulse waves IEC 61000 4 5 LEVEL IV Immunity to conducted disturbances IEC 61000 4 6 LEVEL III Immunity to power frequency magnetic fields IEC 61000 4 8 400A m LEVEL IV Conducted emissions CISPR11 Group1 CLASS B Radiated emissions CISPR11 Group1 CLASS B Immunity to ...

Page 69: ...on Function Logical status or pulse meter Input connection Removable screw terminal block 4 positions stranded or solid 0 14 1 5 mm cable length max 1000 m Number of outputs 2 per optional module 4 optional modules max Type Relay 230 V 15 1A Function Configurable alarm current power etc on threshold overruns or remote controlled status Output connections 2 removable screw terminal blocks 2 x 2 pos...

Page 70: ...red and data Micro USB Upgrade Protection Index IP65 Front face only The use of a silicone seal may be required to ensure sufficient sealing of the junction between DIRIS D 30 display and panel door 11 3 3 Electrical characteristics Power supply 24 VDC 10 20 Power consumption 2 VA 11 3 4 Environmental characteristics Storage temperature range 20 70 C Operating temperature range 10 55 C Humidity 95...

Page 71: ...RH without condensation Altitude 2 000 m PEP ecopassport ISO 14025 TE sensors SOCO 2014 03 v1 fr SOCO 2014 03 v1 en UL UL 61010 Connection SOCOMEC RJ12 cable straight twisted pair unshielded 300 V cat III 40 85 C 1 1000A with 5A TC adapter TE solid core current sensor TE 90 Model TE 90 Nominal current range In 600 A 2000 A Max current 2400 A Weight 163g 118g without clamps Max voltage 600 V Rated ...

Page 72: ...sensors SOCO 2014 04 v1 fr SOCO 2014 04 v1 en Connection SOCOMEC RJ12 cable straight twisted pair unshielded 300 V cat III 40 85 C TF Flexible current sensor Model TF 40 TF 80 TF 120 TF 200 TF 300 TF 600 Weight g 90 130 142 164 193 274 Nominal current range In A 100 400 150 600 400 2000 600 4000 1600 6000 1600 6000 Max voltage AC 600 V Measurement category CAT III Frequency 50 Hz Power ratings d c...

Page 73: ...ial 1 with TE iTR or TF sensors 2 with TR sensors 5 120 In Sa Sv Total apparent power arithmetic vectorial 0 5 with TE iTR or TF sensors 1 with TR sensors 10 120 In Ea Total active energy 0 2 DIRIS B 10L alone 0 5 with TE iTR or TF sensors 1 with TR sensors 10 120 In 2 120 In 2 120 In ErA ErV Total reactive energy arithmetic vectorial 2 with TE TR iTR or TF sensors 5 120 In EapA EapV Total apparen...

Page 74: ... 1 with TR sensors 5 120 In 10 120 In 10 120 In INc Calculated neutral current 1 with TE iTR or TF sensors 2 with TR sensors 10 120 In U Voltage Lp Lg or Lp N 0 2 50 300 VAC Ph N Pst Plt Flicker short term long term Udip Voltage dip Lp Lg or Lp N 0 5 Uswl Temporary overvoltages Lp Lg or Lp N 0 5 Uint Voltage outage Lp Lg or Lp N 0 2 Unba Voltage amplitude unbalance Lp N 0 5 Unb Voltage phase and a...

Page 75: ...75 EN DIRIS B 10L 551174A SOCOMEC ...

Page 76: ...551174A CORPORATE HQ CONTACT SOCOMEC SAS 1 4 RUE DE WESTHOUSE 67235 BENFELD FRANCE www socomec com ...

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