MULTI-LINE 2 DESCRIPTION OF OPTIONS. Option N Ethernet/IP. Document no.: B

MULTI-LINE 2 DESCRIPTION OF OPTIONS Option N Ethernet/IP Document no.: 4189340801B

This description of options covers the following products: -3-4 PPM-3 GPC-3/GPU-3/GPU-3 Hydro/PPU-3 SW version 3.31. or later SW version 4.0. or later SW version 3.0. or later SW version 3.0. or later DEIF A/S Page 2 of 155

Table of contents 1. GENERAL INFORMATION... 4 WARNINGS, LEGAL INFORMATION AND SAFETY... 4 OPEN SOURCE SOFTWARE... 5 2. DESCRIPTION OF OPTION... 6 3. ETHERNET/IP... 7 GENERAL... 7 OBJECT MODEL... 8 4. CLASSES... 9 DEIF CONTROLLER UNIT - (0X6B)... 22 BUS A - (0X64)... 34 BUS B - (0X65)... 53 BREAKER A - (0X66)... 55 BREAKER B - (0X67)... 57 ENGINE - (0X68)... 59 DIGITAL INPUTS - (0X6E)... 66 DIGITAL OUTPUTS - (0X6F)... 70 ANALOGUE INPUTS - (0X69)... 73 POWER MANAGEMENT - (0X6A)... 75 5. APPLICATIONS... 150 CONFIGURATION OF THE DEVICE... 150 USING THE EIPSCAN SOFTWARE (V2.2) WITH A DEIF MULTI-LINE 2 UNIT... 153 USING THE MOLEX EIP TOOL SOFTWARE (V2V3) WITH A DEIF MULTI-LINE 2 UNIT... 155 DEIF A/S Page 3 of 155

1. General information Warnings, legal information and safety Warnings and notes Throughout this document, a number of warnings and notes with helpful user information will be presented. To ensure that these are noticed, they will be highlighted as follows in order to separate them from the general tet. Warnings The warnings indicate a potentially dangerous situation which could result in death, personal injury or damaged equipment, if certain guidelines are not followed. Notes The notes provide general information which will be helpful for the reader to bear in mind. Legal information and disclaimer DEIF takes no responsibility for installation or operation of the generator set. If there is any doubt about how to install or operate the engine/generator controlled by the Multi-line 2 unit, the company responsible for the installation or the operation of the set must be contacted. The Multi-line 2 unit is not to be opened by unauthorised personnel. If opened anyway, the warranty will be lost. Disclaimer DEIF A/S reserves the right to change any of the contents of this document without prior notice. Safety issues Installing the unit implies work with dangerous currents and voltages. Therefore, the installation should only be carried out by authorised personnel who understand the risks involved in working with live electrical equipment. Be aware of the hazardous live currents and voltages. Do not touch any AC measurement inputs as this could lead to injury or death. Electrostatic discharge awareness Sufficient care must be taken to protect the terminals against static discharges during the installation. Once the unit is installed and connected, these precautions are no longer necessary. DEIF A/S Page 4 of 155

Factory settings The Multi-line 2 unit is delivered from factory with certain factory settings. These are based on average values and are not necessarily the correct settings for matching the engine/generator set in question. Precautions must be taken to check the settings before running the engine/generator set. Open source software This product contains open source software licensed under e.g. GNU General Public License (GNU GPL) and GNU Lesser Public License (GNU LGPL). The source code for this software can be obtained by contacting DEIF A/S at support@deif.com. DEIF A/S reserves the right to charge for the cost of the service. DEIF A/S Page 5 of 155

2. Description of option The option N is an Ethernet hardware option offering a number of features, hereafter called the option N. Please see the option N documentation for details about this option. The present document is describing the Ethernet/IP communication part of this option N. Please note that the Ethernet/IP communication is disabled as factory setting. You need the option N configurator software to enable this communication. Open the "Settings" menu of the option N configuration SW to enable or disable this option. You can now select or discard the Ethernet/IP communication option from there: The Ethernet/IP communication will be up and running after a short reboot of the option N card; The selection of the EtherNet/IP communication this way requires that the option N configurator software is in version 1.2 (build 1.2.0.58) or later. For the option N firmware in version 2.10.0 and 2.20.0, this selection was not necessary as the EtherNet/IP communication was always active. DEIF A/S Page 6 of 155

3. Ethernet/IP General Ethernet/IP stands for Ethernet Industrial Protocol and defines an open industry standard that etends the classic Ethernet with an industrial protocol. This standard was developed jointly by ControlNet International (CI) and the Open DeviceNet Vendor Association (ODVA) with the help of the Industrial Ethernet Association (IEA). This communication system enables devices to echange time-critical application data in an industrial environment. The spectrum of devices ranges from simple I/O devices (for eample sensors) to comple couplers (for eample robots). Ethernet/IP is based on the TCP/IP protocol family and consequently uses the bottom four layers of the OSI layer model in unaltered form, so that all standard Ethernet communication modules such as PC interface cards, cables, connectors, hubs and switches can also be used with Ethernet/IP. Positioned above the transport layer is the encapsulation protocol, which enables use of the Control & Information Protocol (CIP) on TCP/IP and UDP/IP. Ethernet/IP makes use of the well-known TCP port number 44818 for eplicit messaging and UDP port number 2222 for implicit messaging. Object modeling CIP uses an object-oriented approach to modelling the nodes and communication services on a CIP network. Each node is modelled as a collection of objects. An object represents a particular element or component within a node. Each object belongs to a class of objects that share the same set of attributes and implement the same behaviors. An object is an instance of that class with its own unique set of attribute values. A node may contain more than one object of the same class. Nodes and the objects are shown in the figure below. Messaging connection Ethernet/IP has three types of messaging connections: Eplicit messaging connections are point-to-point relationships that are established to facilitate request-response transactions between two nodes. These connections can be used to reach any network-accessible items within a device. Eplicit messaging connections utilise TCP/IP services to move messages across Ethernet. DEIF A/S Page 7 of 155

Unconnected messaging is used in the connection establishment process and for infrequent, low-priority messages. The unconnected resources in a device are referred to as the Unconnected Message Manager, or UCMM. Unconnected messages on Ethernet/IP utilise TCP/IP resources to move messages across Ethernet. To receive ODVA s Declaration of Conformity, Ethernet/IP products are required to implement a UCMM to receive requests from other devices. Implicit (I/O data) connections (or connected messaging) are established to move application-specific I/O data at regular intervals. These connections are often set up as one-tomany relationships in order to take full advantage of the producer-consumer multicast model. Implicit messaging uses UDP/IP resources to make multicast data transfers over Ethernet a reality. Ethernet/IP utilises resources within each node that are dedicated in advance to a particular purpose, such as frequent eplicit message transactions or real-time I/O data transfers. Connection resources are reserved and configured using communications services available via the UCMM. Object model General For network communication, Ethernet/IP uses an object model, in which all of the functions and data of a device are described. Each node in the network is represented as a collection of objects. A number of terms relating to object models are defined below. Object: An object provides an abstract representation of a particular component within a product. The realisation of this abstract object model within a product is implementation-dependent. In other words, a product internally maps this object model in a fashion specific to its implementation. Class: A class is a set of objects that all represent the same kind of system component. An object instance is the actual representation of a particular object within a class. Each instance of a class has the same set of attributes, but has its own particular set of attribute values. Multiple object instances within a particular class can reside in a CIP node. An object instance and/or an object class has attributes, provides services and implements a behavior. Instance: A specific and real (physical) occurrence of an object. For eample: New Zealand is an instance of the object class Country. Different instances of a class have the same services, the same behaviour and the same variables (attributes). They can, however, have different variable values. Attribute: The attributes represent the data a device provides over Ethernet/IP. These include the current values of for eample a configuration or an input. Typical attributes are configuration or status information. Service: Services are used to access classes or the attributes of a class or to generate specific events. These services eecute defined actions such as the reading of variables or the resetting of a class. A fied set of services eists for each class. Behaviour: The behaviour defines how a device reacts as a result of eternal events such as changed process data or internal events such as lapsing timers. DEIF A/S Page 8 of 155

4. Classes The following classes are supported by the Ethernet/IP option N software: Class Name 001 Identity CIP Common Class 002 Message Router CIP Common Class 004 Assembly CIP Common Class 006 Connection Manager CIP Common Class 064 Bus A DEIF Specific Class 065 Bus B DEIF Specific Class 066 Breaker A DEIF Specific Class 067 Breaker B DEIF Specific Class 068 Engine DEIF Specific Class 069 Analog inputs DEIF Specific Class 06A Power management DEIF Specific Class 06B DEIF controller unit DEIF Specific Class 06E Digital inputs DEIF Specific Class 06F Digital outputs DEIF Specific Class 0F5 TCP/IP Interface Object CIP Common Class 0F6 Ethernet Link Object CIP Common Class DEIF A/S Page 9 of 155

The description of these specific objects is product-dependent: Class 064 Name Bus A DEIF products names BTB PPM shaft PPM shore Generato r Mains Bus A Generator Generator SG SC Bus A Generator Generator 065 Bus B Busbar Busbar Bus B Busbar Busbar Busbar Busbar Bus B Busbar Busbar 066 Break. A GB TB BTB GB GB NA NA BTB GB GB 067 Break. B MB MB NA NA NA NA NA NA NA NA 068 Engine Engine Engine Engine Engine Engine Engine Engine Engine Engine Eng./turbine 069 AI AI AI AI AI AI AI AI AI AI AI 06A PM PM PM PM PM PM PM PM PM NA NA 06B DEIF ctr. unit unit unit unit PPM unit PPM unit PPM unit PPM unit PPM unit unit 06E DI DI DI DI DI DI DI DI DI DI DI 06F DO DO DO DO DO DO DO DO DO DO DO SG: Shaft Generator; SC: Shore Connection; AI: Analogue Inputs; PM: Power Management; NA: Not Available; DI: Digital Inputs; DO: Digital Outputs. unit DEIF A/S Page 10 of 155

Below an eample based on a 1 mains and 2 DGs application: (2) (2) (1) (2) (3) (2) (4) (3) (3) (1) (1) (5) (5) (3) (1) (6 to 10) (6 to 10) Mains DG 1 (6 to 10) BTB (6 to 10) DG 2 DEIF A/S Page 11 of 155

Identity (01 he) This object provides identification of and general information about the device. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 001 Get all attributes 00E Get single attribute Instance attributes ID Description 001 Vendor ID 002 Device type 003 code 004 Revision 005 Status 006 Serial number 007 name Instance services ID Service 001 Get all attributes 00E Get single attribute DEIF A/S Page 12 of 155

Message router (002) The message router object provides a messaging connection point through which a client may address a service to any object class or instance residing in the physical device. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 001 Get all attributes 00E Get single attribute No instance attributes and instance services. DEIF A/S Page 13 of 155

Assembly (004) This object allows to access I/O process data. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 00E Get single attribute Instance attributes ID Description 003 Data Instance services ID Service 00E Get single attribute 010 Set single attribute DEIF A/S Page 14 of 155

Static assembly instances Instance 100 (064): Inputs number Data description 004 3 1 2 3 to 150 from Modbus address 00 by using a Modbus function 4 from Modbus address 01 by using a Modbus function 4 from Modbus address 03 by using a Modbus function 4 (See the option H2 documentation of the concerned DEIF product) from Modbus address 149 by using a Modbus function 4 The DEIF option H2 documentation of the concerned DEIF product lists the factory-configured data which is readable by reading this vendor-specific assembly object. It is the first 150 words data (Modbus addresses 0 to 149) shown in this option H2 documentation. Please note that the data is from the user configuration area and can be modified by means of the DEIF Modbus configurator tool of the Utility Software (USW3). Supported services: Get single attributes. The implicit communication in Ethernet/IP is made using this input assembly object (instance 100). The first 150 Modbus addresses are mapped into the input assembly object, class code 004, instance 100. Configuration assembly has instance 151. DEIF A/S Page 15 of 155

During implicit communication, two different transportation triggers can be used: Cyclic I/O: It is one of three types of I/O triggers supported by CIP for the echange of data on class 0 or 1 I/O connections. Endpoints send their messages at pre-determined cyclic time intervals. [3] Change of state I/O: It is one of three types of I/O triggers supported by CIP for the echange of data on class 0 or 1 I/O connections. CoS endpoints send their messages when a change occurs. The data is also sent at a background cyclic interval if no change occurs to keep the connection from timing out. [3] During implicit communication, three different connection types can be used: Eclusive owner (input assembly instance: 100 - ouput assembly instance: 150): This is one of three types of implicit (I/O) connections. It is a class 0 or 1 bidirectional connection to an output connection point (typically an assembly object), where the data of this assembly can only be controlled by one scanner. There may be a connection to an input assembly; this data is being sent to the scanner. If the input data length is zero, then this direction becomes a heartbeat connection. [3] Input only (input assembly instance: 100 - ouput assembly instance: 152): This is one of three types of implicit (I/O) connections. It is a class 0 or 1 connection to an input connection point (typically an assembly object). The scanner receives input data from the target device and produces a heartbeat to the target device. There is no output data. [3] Listen only (input assembly instance: 100 - ouput assembly instance: 153): This is one of three types of implicit connections. It is a class 0 or 1 connection to an input connection point (typically an assembly object). The scanner receives input data from the target device and produces a heartbeat to the target device. There is no output data. A listen only connection can only be attached to an eisting eclusive owner or input only connection. If this underlying connection closes, then the listen only connection will also be closed or timed out. [3] DEIF A/S Page 16 of 155

Because the Get Attributes All service supports only 31 attributes, another solution is used to get all the alarms/alarmacks using eplicit messages. Indeed, four different assembly objects (different instances) inside attribute #3 contain all the information related to alarm and alarm ack. Instance 155 (09B): Alarms block A Instance ID Byte number Data description 004 09B 3 1 bit from Modbus address 4000 by using a Modbus function 2 to 2 bit from Modbus address 4001 by using a Modbus function 2 3 bit from Modbus address 4002 by using a Modbus function 2 (See the option H2 documentation of the concerned DEIF product) 1000 bit from Modbus address 4999 by using a Modbus function 2 The DEIF option H2 documentation of the concerned DEIF product eplains how to read all alarms of the DEIF unit. This vendor-specific assembly object contains the first half of all these alarms (Modbus addresses 4000 to 4999 by using the Modbus function 2). Supported services: Get single attributes. Each byte (8 bits) data of the above table represents one alarm bit. The value of all the above bytes will then never be higher than 1 (value = 0 for inactive alarm and 1 for an active alarm). Instance 156 (09C): Alarms block B Instance ID Byte number Data description 004 09C 3 1 bit from Modbus address 5000 by using a Modbus function 2 to 2 bit from Modbus address 5001 by using a Modbus function 2 3 bit from Modbus address 5002 by using a Modbus function 2 (See the option H2 documentation of the concerned DEIF product) 1000 bit from Modbus address 5999 by using a Modbus function 2 The DEIF option H2 documentation of the concerned DEIF product eplains how to read all alarms of the DEIF unit. This vendor-specific assembly object contains the second half of all these alarms (Modbus addresses 5000 to 5999 by using the Modbus function 2). Supported services: Get single attributes. Each byte (8 bits) data of the above table represents one alarm bit. The value of all the above bytes will then never be higher than 1 (value = 0 for inactive alarm and 1 for an active alarm). DEIF A/S Page 17 of 155

Instance 157 (09D): Alarms acknowledged block A Instance ID Byte number Data description 004 09D 3 1 bit from Modbus address 6000 by using a Modbus function 2 to 2 bit from Modbus address 6001 by using a Modbus function 2 3 bit from Modbus address 6002 by using a Modbus function 2 (See the option H2 documentation of the concerned DEIF product) 1000 bit from Modbus address 6999 by using a Modbus function 2 The DEIF option H2 documentation of the concerned DEIF product eplains how to read all the acknowledged alarms of the DEIF unit. This vendor-specific assembly object contains the first half of all these acknowledged alarms (Modbus addresses 6000 to 6999 by using the Modbus function 2). Supported services: Get single attributes. Each byte (8 bits) data of the above table represents one alarm bit. The value of all the above bytes will then never be higher than 1 (value = 1 for an acknowledged alarm and 0 for a nonacknowledged alarm). Instance 158 (09E): Alarms acknowledged block B Instance ID Byte number Data description 004 09E 3 1 bit from Modbus address 7000 by using a Modbus function 2 to 2 bit from Modbus address 7001 by using a Modbus function 2 3 bit from Modbus address 7002 by using a Modbus function 2 (See the option H2 documentation of the concerned DEIF product) 1000 bit from Modbus address 7999 by using a Modbus function 2 The DEIF option H2 documentation of the concerned DEIF product eplains how to read all the acknowledged alarms of the DEIF unit. This vendor-specific assembly object contains the second half of all these acknowledged alarms (Modbus addresses 7000 to 7999 by using the Modbus function 2). Supported services: Get single attributes. Each byte (8 bits) data of the above table represents one alarm bit. The value of all the above bytes will then never be higher than 1 (value = 1 for an acknowledged alarm and 0 for a nonacknowledged alarm). DEIF A/S Page 18 of 155

Connection manager (006) This object is used for connection and connectionless communications. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 001 Get all attributes 00E Get single attribute No instance attributes and instance services. DEIF A/S Page 19 of 155

TCP/IP interface object (0F5) The TCP/IP interface object provides the mechanism to configure a device s TCP/IP network interface. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 001 Get all attributes 00E Get single attribute Instance attributes ID Description 001 TCP status 002 Config. capability 003 Config. control 004 Physical link object 005 Interface config. 006 Hostname Instance services ID Service 001 Get all attributes 00E Get single attribute DEIF A/S Page 20 of 155

Ethernet link object (0F6) The Ethernet link object maintains link-specific counters and status information for an IEEE 802.3 communications interface. Class attributes ID Description 001 Revision 002 Ma. instance 003 Number of instances 006 Ma. class attrib. num 007 Ma. instance attrib. num Class services ID Service 001 Get all attributes 00E Get single attribute Instance attributes ID Description 001 Interface speed 002 Interface flag 003 Physical address Instance services ID Service 001 Get all attributes 00E Get single attribute DEIF A/S Page 21 of 155

DEIF controller unit - (06B) 06B 1 Number of alarms 06B 2 Number of unack. alarms 06B 3 Number of active ack. alarms 06B 4 DC supply term. 1-2 [V/10] 06B 5 DC supply term. 98-99 [V/10] 06B 6 Bus power 105 Bus A power 105 06B 7 Mains power 102 102 Tie breaker power 102 06B 8 Mains failure/main busbar failure 06B 9 Battery test 06B 10 Block mode 06B 11 Manual mode SWBD control DEIF A/S Page 22 of 155

06B 12 Semi-auto mode 06B 13 Auto mode 06B 14 Test 06B 15 06B 16 06B 17 06B 18 06B 19 Island DG supply Automatic mains failure (AMF) SG 1 supply Peak shaving SG 2 supply Fied power SHORE supply Mains power eport SPLIT 06B 20 Load take over 06B 21 Power management 06B 22 Power regulator setpoint 06B 23 Power factor regulator setpoint 06B 24 Reactive power DEIF A/S Page 23 of 155

regulator setpoint 06B 25 Frequency regulator setpoint 06B 26 Voltage regulator setpoint 06B 27 Fied frequency 06B 28 P load sharing 06B 29 Frequency droop 06B 30 Et. GOV setpoint 06B 31 Fied voltage 06B 32 Fied Q 06B 33 Fied PF 06B 34 Q load sharing 06B 35 Voltage droop 06B 36 Et. AVR setpoint 06B 37 Remote 06B 38 Local 06B 39 Deload 06B 40 Start sync./control 06B 41 Nominal power active (1-4) DEIF A/S Page 24 of 155

06B 42 Mains power transducer used Tie breaker power transducer 06B 43 Fan A running hours 06B 44 Fan B running hours 06B 45 Fan C running hours 06B 46 Fan D running hours 06B 47 CANshare ID 06B 48 CANshare section 06B 49 CANshare, total active power 06B 50 CANshare, total reactive power 06B 51 Reset analogue outputs 06B 52 Start + sync. (semi) 06B 53 Alarm inhibit 1 06B 54 Alarm inhibit 2 06B 55 Alarm inhibit 3 06B 56 Alarm acknowledge 06B 57 Nominal setting 1 DEIF A/S Page 25 of 155

06B 58 Nominal setting 2 06B 59 Nominal setting 3 06B 60 Nominal setting 4 06B 61 Deload/stop (semi) 06B 62 06B 63 06B 64 06B 65 06B 66 Island DG supply Automatic mains failure (AMF) SG 1 supply Peak shaving SG 2 supply Fied power SHORE supply Mains power eport (MPE) SPLIT 06B 67 Load take over 06B 68 DG supply 06B 69 SG/SC supply 06B 70 Auto start/stop DEIF A/S Page 26 of 155

06B 71 Manual mode 06B 72 Auto mode 06B 73 Semi-auto mode 06B 74 Test mode 06B 75 Eternal frequency control 06B 76 Eternal voltage control 06B 77 Eternal active power control 06B 78 Eternal reactive power control 06B 79 Eternal power factor control 06B 80 Capacitive PF 06B 81 Base load 06B 82 1st priority 06B 83 Application 1 06B 84 Application 2 06B 85 Application 3 06B 86 Application 4 06B 87 Battery test DEIF A/S Page 27 of 155

06B 88 Event printer 06B 89 Synchronise clock to 4:00 a.m. 06B 90 Virtual event 1 06B 91 Virtual event 2 06B 92 Virtual event 3 06B 93 Virtual event 4 06B 94 Virtual event 5 06B 95 Virtual event 6 06B 96 Virtual event 7 06B 97 Virtual event 8 06B 98 Virtual event 9 06B 99 Virtual event 10 06B 100 Virtual event 11 06B 101 Virtual event 12 06B 102 Virtual event 13 06B 103 Virtual event 14 06B 104 Virtual event 15 06B 105 Virtual event 16 06B 106 Virtual event 17 DEIF A/S Page 28 of 155

06B 107 Virtual event 18 06B 108 Virtual event 19 06B 109 Virtual event 20 06B 110 Virtual event 21 06B 111 Virtual event 22 06B 112 Virtual event 23 06B 113 Virtual event 24 06B 114 Virtual event 25 06B 115 Virtual event 26 06B 116 Virtual event 27 06B 117 Virtual event 28 06B 118 Virtual event 29 06B 119 Virtual event 30 06B 120 Virtual event 31 06B 121 Virtual event 32 06B 122 Fied frequency 06B 123 Fied P 06B 124 P load sharing 06B 125 Frequency droop DEIF A/S Page 29 of 155

06B 126 Et. GOV setpoint 06B 127 Fied voltage 06B 128 Fied Q 06B 129 Fied PF 06B 130 Q load sharing 06B 131 Voltage droop 06B 132 Et. AVR setpoint 06B 133 Remote 06B 134 Local 06B 135 Deload 06B 136 Start sync./control 06B 137 Manual gov. up 06B 138 Manual gov. down 06B 139 Manual AVR up 06B 140 Manual AVR down 06B 141 06B 142 06B 143 Activate CANshare section 1 Activate CANshare section 2 Activate CANshare section 3 DEIF A/S Page 30 of 155

06B 144 Activate CANshare section 4 06B 145 Activate CANshare section 5 06B 146 Enable eternal frequency control 06B 147 Disable eternal frequency control 06B 148 Enable eternal voltage control 06B 149 Disable eternal voltage control 06B 150 Enable eternal power control 06B 151 Disable eternal power control 06B 152 Enable eternal VAr control 06B 153 Disable eternal VAr control 06B 154 Enable eternal CosPhi control 06B 155 Disable eternal CosPhi control 06B 156 Enable PM base load DEIF A/S Page 31 of 155

06B 157 Disable PM base load 06B 158 Year 06B 159 Month 06B 160 Date 06B 161 Day 06B 162 Hour 06B 163 Min. 06B 164 Sec. 06B 165 0 = Mains failure 0 = Main busbar failure 2 = DG ramp down 3 = Start regulation 9 = Battery test 10 = Printing log 06B 166 12 = DG supply 13 = SG/SC supply 15 = AMF active DEIF A/S Page 32 of 155

06B 167 0 = SWBD mode 2 = Fied P DEIF A/S Page 33 of 155

Bus A - (064) 064 1 U L1-L2, Generator voltage L1-L2 [V] U L1-L2, Mains voltage L1-L2 [V] U L1-L2, Bus A voltage L1-L2 [V] U L1-L2, Shore voltage L1-L2 [V] 064 2 U L2-L3, Generator voltage L1-L2 [V] U L2-L3, Mains voltage L1-L2 [V] U L2-L3, Bus A voltage L1-L2 [V] U L2-L3, Shore voltage L1-L2 [V] 064 3 U L3-L1, Generator voltage L1-L2 [V] U L3-L1, Mains voltage L1-L2 [V] U L3-L1, Bus A DEIF A/S Page 34 of 155

voltage L1-L2 [V] 064 4 064 5 064 6 U L3-L1, Shore voltage L1-L2 [V] V L1, Generator voltage L1-L2 [V] V L1, Mains voltage L1-L2 [V] V L1, Bus A voltage L1-L2 [V] V L1, Shore voltage L1-L2 [V] V L2, Generator voltage L1-L2 [V] V L2, Mains voltage L1-L2 [V] V L2, Bus A voltage L1-L2 [V] V L2, Shore voltage L1-L2 [V] V L3, Generator voltage L1-L2 [V] V L3, Mains voltage L1-L2 [V] V L3, Bus A voltage L1-L2 [V] DEIF A/S Page 35 of 155

V L3, Shore voltage L1-L2 [V] 064 7 f L1, Generator f L1 [Hz/100] f L1, Mains f L1 [Hz/100] f L1, Bus A f L1 [Hz/100] f L1, Shore f L1 [Hz/100] 064 8 f L2, Generator f L1 [Hz/100] f L2, Mains f L1 [Hz/100] f L2, Bus A f L1 [Hz/100] f L2, Shore f L1 [Hz/100] 064 9 f L3, Generator f L1 [Hz/100] f L3, Mains f L1 [Hz/100] f L3, Bus A f L1 [Hz/100] f L3, Shore f L1 DEIF A/S Page 36 of 155

[Hz/100] 064 10 064 11 Phi L1-L2, U gen. phase angle L1-L2 [Deg/10] Phi L1-L2, U mains phase angle L1-L2 [Deg/10] Phi L1-L2, U BA phase angle L1-L2 [Deg/10] Phi L1-L2, U SC phase angle L1-L2 [Deg/10] Phi L2- L3, U gen. phase angle L2-L3 [Deg/10] Phi L2- L3, U mains phase angle L2-L3 [Deg/10] Phi L2- L3, U BA phase angle L2-L3 [Deg/10] Phi L2- L3, U SC phase angle L2-L3 [Deg/10] DEIF A/S Page 37 of 155

064 12 Phi L3-L1, U gen. phase angle L3-L1 [Deg/10] Phi L3-L1, U mains phase angle L3-L1 [Deg/10] Phi L3-L1, U BA phase angle L3-L1 [Deg/10] Phi L3-L1, U SC phase angle L3-L1 [Deg/10] 064 13 I L1, Generator current L1 [A] I L1, Mains current L1 [A] I L1, Bus A current L1 [A] I L1, Shore current L1 [A] 064 14 I L2, Generator current L1 [A] I L2, Mains current L1 [A] I L2, Bus A current L1 DEIF A/S Page 38 of 155

[A] 064 15 064 16 064 17 I L2, Shore current L1 [A] I L3, Generator current L1 [A] I L3, Mains current L1 [A] I L3, Bus A current L1 [A] I L3, Shore current L1 [A] PGEN L1 Generator power L1 [kw] PMAINS L1 Mains power L1 [kw] Bus A power L1 [kw] Bus A power L1 [kw] PGEN L2 Generator power L2 [kw] PMAINS L2 Mains power L2 [kw] Bus A power L2 [kw] Bus A power L2 [kw] DEIF A/S Page 39 of 155

064 18 PGEN L3 Generator power L3 [kw] PMAINS L3 Mains power L3 [kw] Bus A power L3 [kw] 064 19 064 20 Bus A power L3 [kw] PGEN Generator power [kw] PMAINS Mains power [kw] Bus A power [kw] Bus A power [kw] QGEN L1 Generator reactive power L1 [kvar] QMAINS L1 Mains reactive power L1 [kvar] QBA L1 Bus A reactive power L1 [kvar] QSC L1 Bus A reactive power L1 [kvar] DEIF A/S Page 40 of 155

064 21 QGEN L2 Generator reactive power L2 [kvar] QMAINS L2 Mains reactive power L2 [kvar] QBA L2 Bus A reactive power L2 [kvar] QSC L2 Bus A reactive power L2 [kvar] 064 22 QGEN L3 Generator reactive power L3 [kvar] QMAINS L3 Mains reactive power L3 [kvar] QBA L3 Bus A reactive power L3 [kvar] QSC L3 Bus A reactive power L3 [kvar] 064 23 QGEN Generator DEIF A/S Page 41 of 155

reactive power [kvar] 064 24 064 25 QMAINS Mains reactive power [kvar] QBA Bus A reactive power [kvar] QSC Bus A reactive power [kvar] SGEN L1 Generator apparent power L1 [kva] SMAINS L1 Mains apparent power L1 [kva] SBA L1 Bus A apparent power L1 [kva] SSC L1 Bus A apparent power L1 [kva] SGEN L2 Generator apparent power L2 [kva] SMAINS L2 Mains apparent power L2 [kva] DEIF A/S Page 42 of 155

SBA L2 Bus A apparent power L2 [kva] SSC L2 Bus A apparent power L2 [kva] 064 26 SGEN L3 Generator apparent power L3 [kva] SMAINS L3 Mains apparent power L3 [kva] SBA L3 Bus A apparent power L3 [kva] SSC L3 Bus A apparent power L3 [kva] 064 27 SGEN Generator apparent power [kva] SMAINS Mains apparent power [kva] SBA Bus A apparent power [kva] SSC Bus A apparent DEIF A/S Page 43 of 155

power [kva] 064 28 RGEN, Eport, reactive energy counter [kvarh] RMAINS, Eport, reactive energy counter [kvarh] RBA, Eport, reactive energy counter [kvarh] RSC, Eport, reactive energy counter [kvarh] 064 29 RGEN, Eport, reactive energy counter month [kvarh] RMAINS, Eport, reactive energy counter month [kvarh] RBA, Eport, reactive energy counter month [kvarh] RSC, Eport, reactive DEIF A/S Page 44 of 155

energy counter month [kvarh] 064 30 RGEN, Eport, reactive energy counter week [kvarh] RMAINS, Eport, X reactive energy counter week [kvarh] RBA, Eport, reactive energy counter week [kvarh] RSC, Eport, reactive energy counter week [kvarh] 064 31 RGEN, Eport, reactive energy counter total [kvarh] RMAINS, Eport, reactive energy counter total [kvarh] RBA, Eport, reactive energy counter total [kvarh] RSC, Eport, reactive energy counter total DEIF A/S Page 45 of 155

[kvarh] 064 32 064 33 RGEN, Eport, active energy counter day [kwh] RMAINS, Eport, active energy counter day [kwh] RBA, Eport, active energy counter day [kwh] RSC, Eport, active energy counter day [kwh] RGEN, Eport, active energy counter week [kwh] RGEN, Eport, active energy counter week [kwh] RGEN, Eport, active energy counter week [kwh] RGEN, Eport, active energy counter week [kwh] DEIF A/S Page 46 of 155

064 34 RGEN, Eport, active energy counter month [kwh] RGEN, Eport, active energy counter month [kwh] RGEN, Eport, active energy counter month [kwh] RGEN, Eport, active energy counter month [kwh] 064 35 RGEN, Eport, active energy counter total [kwh] RGEN, Eport, active energy counter total [kwh] RGEN, Eport, active energy counter total [kwh] RGEN, Eport, active energy counter total [kwh] 064 36 RGEN, import, DEIF A/S Page 47 of 155

reactive energy counter day [kvarh] RMAINS, import, reactive energy counter day [kvarh] RBA, import, reactive energy counter day [kvarh] RSC, import, reactive energy counter day [kvarh] 064 37 RGEN, import, reactive energy counter month [kvarh] RMAINS, import, reactive energy counter month [kvarh] RBA, import, reactive energy counter month [kvarh] RSC, import, reactive energy counter month [kvarh] DEIF A/S Page 48 of 155

064 38 RGEN, import, reactive energy counter week [kvarh] RMAINS, import, reactive energy counter week [kvarh] RBA, import, reactive energy counter week [kvarh] RSC, import, reactive energy counter week [kvarh] 064 39 RGEN, import, reactive energy counter total [kvarh] RMAINS, import, reactive energy counter total [kvarh] RBA, import, reactive energy counter total [kvarh] RSC, import, reactive energy counter total [kvarh] 064 40 RGEN, import, active DEIF A/S Page 49 of 155

energy counter day [kwh] RMAINS, import, active energy counter day [kwh] RBA, import, active energy counter day [kwh] RSC, import, active energy counter day [kwh] 064 41 RGEN, import, active energy counter month [kwh] RMAINS, import, active energy counter month [kwh] RBA, import, active energy counter month [kwh] RSC, import, active energy counter month [kwh] 064 42 RGEN, import, active energy counter week DEIF A/S Page 50 of 155

[kwh] 064 43 064 44 RMAINS, import, active energy counter week [kwh] RBA, import, active energy counter week [kwh] RSC, import, active energy counter week [kwh] RGEN, import, active energy counter total [kwh] RMAINS, import, active energy counter total [kwh] RBA, import, active energy counter total [kwh] RSC, import, active energy counter total [kwh] PF, Generator PF [CosPhi/100] PF, Mains PF DEIF A/S Page 51 of 155

[CosPhi/100] PF, Bus A PF [CosPhi/100] PF, Shore PF [CosPhi/100] 064 45 CosPhi [CosPhi/100] 064 46 CosPhi type 064 47 Pulse counter 1 064 48 Pulse counter 2 064 49 Demand of peak current 1 064 50 Demand of peak current 2 064 51 Demand of peak current 3 064 52 Demand of of avg. peak current 1 064 53 Demand of of avg. peak current 2 064 54 Demand of of avg. peak current 3 064 55 8 = DG Hz/V OK, timer epired DEIF A/S Page 52 of 155

Bus B - (065) 065 1 U BB L1-L2 [V] 065 2 U BB L2-L3 [V] 065 3 U BB L3-L1 [V] 065 4 V BB L1 [V] 065 5 V BB L2 [V] 065 6 V BB L3 [V] 065 7 f BB L1 [Hz/100] 065 8 f BB L2 [Hz/100] 065 9 f BB L3 [Hz/100] 065 10 065 11 065 12 065 13 065 14 Phi BB L1-L2, phase angle [Deg/10] Phi BB L2-L3, phase angle [Deg/10] Phi BB L3-L1, phase angle [Deg/10] Phi BB L1-BA L1, phase angle [Deg/10] Phi BB L2-BA L2, phase angle [Deg/10] DEIF A/S Page 53 of 155

065 15 Phi BB L3-BA L3, phase angle [Deg/10] 065 16 13 = BB Hz/V OK DEIF A/S Page 54 of 155

Breaker A - (066) 066 1 MBoper, No. of MB operations TBoper, No. of TB operations SGBoper, No. of SGB operations 066 2 GB position on TB position on BTB position on 066 3 Remote GB on Remote TB on Remote BTB on 066 4 Remote GB off 066 5 Remote TB off Remote BTB off 5 = GB synchronising 5 = TB synchronising DEIF A/S Page 55 of 155

5 = BTB synchronising 11 = GB position OFF 11 = TB position OFF 11 = BTB position OFF DEIF A/S Page 56 of 155

Breaker B - (067) 067 1 GBoper, No. of GB operations TBoper, No. of TB operations BTBoper, No. of BTB operations 067 2 MB position on 067 3 067 4 067 5 SGB position on SCB position on EDG-TB position on MB/SG/SC/EDG TB ON MB/SG/SC/EDG TB OFF 12 = MB position OFF 12 = SGB position OFF 12 = SCB position OFF DEIF A/S Page 57 of 155

12 = TB position OFF 14 = MB synchronising DEIF A/S Page 58 of 155

Engine - (068) 068 1 Absolute running hours 068 2 Relative running hours 068 3 Running mn. counter, shutdown override 068 4 Running hour counter, shutdown override 068 5 Start attempts 068 6 Service timer 1 run. hours 068 7 Service timer 1 run. days 068 8 Service timer 2 run. hours 068 9 Service timer 2 run. days 068 10 RPM 068 11 Running hours load profile DEIF A/S Page 59 of 155

068 12 EIC speed [RPM] 068 13 EIC coolant temp. [deg] [F] [1/1 or 1/10] 068 14 EIC oil pressure [bar/100] [psi/100] 068 15 EIC no. of faults 068 16 068 17 068 18 068 19 068 20 068 21 068 22 068 23 EIC oil temp. [deg/10] [F/10] EIC fuel temp. [deg] [F] [1/1 or 1/10] EIC intake manifold #1 P [bar/100] [psi/100] EIC air inlet temp. [deg] [F] EIC coolant level [%/10] EIC fuel rate [L/h] [1/1 or 1/10] EIC charge air press. [bar/100] [psi/100] EIC intake manifold 1 T [deg] [F] [1/1 or 1/10] DEIF A/S Page 60 of 155

068 24 EIC d.d. % torque [%] 068 25 EIC actual % torque [%] 068 26 EIC acc. pedal pos. [%] 068 27 EIC % load, c. speed [%] 068 28 EIC air inlet pressure [bar/100] [psi/100] 068 29 EIC ehaust gas temp. [deg/10] [F/10] 068 30 EIC engine hours [H] 068 31 EIC oil filter diff. press. [bar/100] [psi/100] 068 32 EIC battery voltage [V] 068 33 EIC fuel del. press. [bar/100] [psi/100] 068 34 EIC oil level [%] 068 35 068 36 EIC crankcase press. [bar/100] [psi/100] EIC coolant pressure [bar/100] [psi/100] DEIF A/S Page 61 of 155

068 37 EIC water in fuel [bit] (1 = Yes, 0) 068 38 EIC turbo oil temp. [deg/10] [F/10] 068 39 EIC trap inlet [bar/100] [psi/100] 068 40 EIC Air filter diff. press. [bar/1000] [psi/1000] 068 41 EIC Cool filter diff. press. [bar/100] [psi/100] 068 42 EIC Atm press. [bar/100] [psi/100] 068 43 EIC Ambient air temp. [deg/10] [F/10] 068 44 EIC ech. temp. A [deg/10] [F/10] 068 45 EIC ech. temp. B [deg/10] [F/10] 068 46 EIC Winding 1 temp. [deg] [F] 068 47 EIC Winding 2 temp. [deg] [F] 068 48 EIC Winding 3 temp. DEIF A/S Page 62 of 155

[deg] [F] 068 49 068 50 068 51 068 52 068 53 068 54 068 55 068 56 068 57 068 58 068 59 EIC Turbo 1 compr. outlet press. [bar/10] [psi/10] EIC Intercooler temp. [deg/10] [F/10] EIC trip fuel_gaseous [kg] EIC total fuel used_gaseous [ton] EIC engine trip fuel [L] EIC engine total fuel used [kl] EIC trip average fuel rate [L/h] EIC nominal power [kw] EIC trip fuel liquid [L] [1/2 or 1/10] EIC total fuel liquid [L] [1/2 or 1/10] EIC mean trip fuel consumption [L/h] [1/1000] DEIF A/S Page 63 of 155

068 60 EIC engine power [kw] 068 61 EIC intake manifold #1 absolute [bar/100] [psi/100] 068 62 EIC Air filter diff. pressure [bar/100] [psi/100] 068 63 EIC Fuel supply pump inlet [bar/100] [psi/100] 068 64 EIC Fuel filter diff. press. (suction side) [bar/100] [psi/100] 068 65 EIC Fuel filter diff. pressure [bar/100] [psi/100] -4 068 66 EIC Speed demand source -4 068 67 EIC lube oil pressure LO limit [mbar/100] -4 068 68 EIC lube oil pressure LOLO limit -4 [mbar/100] 068 69 EIC fuel pressure -4 DEIF A/S Page 64 of 155

[bar/100] 068 70 EIC coolant limit HI [deg/10] [F/10] -4 068 71 EIC coolant limit HIHI [deg/10] [F/10] -4 068 72 EIC intercooler coolant [deg/10] [F/10] -4 068 73 EIC ECU temperature [deg/10] [F/10] -4 068 74 EIC actual droop [%/10] -4 068 75 EIC act. inject. quantity [%/10] -4 068 76 Remote start 068 77 Remote stop 068 78 7 = Running detect. timer epired DEIF A/S Page 65 of 155

Digital inputs - (06E) 06E 1 Digital input 97 97 97 97 97 97 97 97 97 97 06E 2 Digital input 96 96 96 96 96 96 96 96 96 96 06E 3 Digital input 95 95 95 95 95 95 95 95 95 95 06E 4 Digital input 94 94 94 94 94 94 94 94 94 94 06E 5 Digital input 93 93 93 93 93 93 93 93 93 93 06E 6 Digital input 92 92 92 92 92 92 92 92 92 92 06E 7 Digital input 91 91 91 91 91 91 91 91 91 91 06E 8 Digital input 133 133 133 133 133 133 133 133 133 133 06E 9 Digital input 132 132 132 132 132 132 132 132 132 132 06E 10 Digital input 131 131 131 131 131 131 131 131 131 131 06E 11 Digital input 130 130 130 130 130 130 130 130 130 130 06E 12 Digital input 129 129 129 129 129 129 129 129 129 129 06E 13 Digital input 128 128 128 128 128 128 128 128 128 128 06E 14 Digital input 127 127 127 127 127 127 127 127 127 127 06E 15 to 28 Reserved 06E 29 Digital input 43 43 43 43 43 43 43 43 43 43 06E 30 Digital input 44 44 44 44 44 44 44 44 44 44 DEIF A/S Page 66 of 155

06E 31 Digital input 45 45 45 45 45 45 45 45 45 45 06E 32 Digital input 46 46 46 46 46 46 46 46 46 46 06E 33 Digital input 47 47 47 47 47 47 47 47 47 47 06E 34 Digital input 48 48 48 48 48 48 48 48 48 48 06E 35 Digital input 49 49 49 49 49 49 49 49 49 49 06E 36 Digital input 50 50 50 50 50 50 50 50 50 50 06E 37 Digital input 51 51 51 51 51 51 51 51 51 51 06E 38 Digital input 52 52 52 52 52 52 52 52 52 52 06E 39 Digital input 53 53 53 53 53 53 53 53 53 53 06E 40 Digital input 54 54 54 54 54 54 54 54 54 54 06E 41 Digital input 55 55 55 55 55 55 55 55 55 55 06E 42 Digital input 23 23 23 23 23 23 23 23 23 23 06E 43 Digital input 24 24 24 24 24 24 24 24 24 24 06E 44 Digital input 25 25 25 25 25 25 25 25 25 25 06E 45 Digital input 26 26 26 26 26 26 26 26 26 26 06E 46 Digital input 27 27 27 27 27 27 27 27 27 27 06E 47 to 83 Reserved 06E Digital input (emer. 118 118 118 118 118 118 118 118 118 118 84 stop) 06E 85 Digital input 117 117 117 117 117 117 117 117 117 117 DEIF A/S Page 67 of 155

06E 86 Digital input 116 116 116 116 116 116 116 116 116 116 06E 87 Digital input 115 115 115 115 115 115 115 115 115 115 06E 88 Digital input 114 114 114 114 114 114 114 114 114 114 06E 89 Digital input 113 113 113 113 113 113 113 113 113 113 06E 90 Digital input 112 112 112 112 112 112 112 112 112 112 06E Stop coil superv. 91 (M4) 123 123 123 123 123 123 123 123 123 123 06E Multi-func. input 92 cable fail. 108 108 108 108 108 108 108 108 108 108 06E Multi-func. input 93 cable fail. 105 105 105 105 105 105 105 105 105 105 06E Multi-func. input 94 cable fail. 102 102 102 102 102 102 102 102 102 102 06E 95 Eternal digital input 1 1 1 1 1 1 1 1 1 1 06E 96 Eternal digital input 2 2 2 2 2 2 2 2 2 2 06E 97 Eternal digital input 3 3 3 3 3 3 3 3 3 3 06E 98 Eternal digital input 4 4 4 4 4 4 4 4 4 4 06E 99 Eternal digital input 5 5 5 5 5 5 5 5 5 5 06E 100 Eternal digital input 6 6 6 6 6 6 6 6 6 6 06E 101 Eternal digital input 7 7 7 7 7 7 7 7 7 7 06E 102 Eternal digital input 8 8 8 8 8 8 8 8 8 8 DEIF A/S Page 68 of 155

06E 103 Eternal digital input 9 9 9 9 9 9 9 9 9 9 06E 104 Eternal digital input 10 10 10 10 10 10 10 10 10 10 06E 105 Eternal digital input 11 11 11 11 11 11 11 11 11 11 06E 106 Eternal digital input 12 12 12 12 12 12 12 12 12 12 06E 107 Eternal digital input 13 13 13 13 13 13 13 13 13 13 06E 108 Eternal digital input 14 14 14 14 14 14 14 14 14 14 06E 109 Eternal digital input 15 15 15 15 15 15 15 15 15 15 06E 110 Eternal digital input 16 16 16 16 16 16 16 16 16 16 DEIF A/S Page 69 of 155

Digital outputs - (06F) 06F 1 Relay 65 65 65 65 65 65 65 65 65 65 06F 2 Relay 67 67 67 67 67 67 67 67 67 67 06F 3 Relay 69 69 69 69 69 69 69 69 69 69 06F 4 Relay 71 71 71 71 71 71 71 71 71 71 06F 5 Relay 132 132 132 132 132 132 132 132 132 132 06F 6 Relay 130 130 130 130 130 130 130 130 130 130 06F 7 Relay 128 128 128 128 128 128 128 128 128 128 06F 8 Relay 126 126 126 126 126 126 126 126 126 126 06F 9 Relay 96 96 96 96 96 96 96 96 96 96 06F 10 Relay 94 94 94 94 94 94 94 94 94 94 06F 11 Relay 92 92 92 92 92 92 92 92 92 92 06F 12 Relay 90 90 90 90 90 90 90 90 90 90 06F 13 to 16 Reserved 06F 17 Relay 57 57 57 57 57 57 57 57 57 57 06F 18 Relay 59 59 59 59 59 59 59 59 59 59 06F 19 Relay 61 61 61 61 61 61 61 61 61 61 DEIF A/S Page 70 of 155

06F 20 Relay 63 63 63 63 63 63 63 63 63 63 06F 21 to 25 Reserved 06F 26 Relay 5 5 5 5 5 5 5 5 5 5 06F 27 Relay 8 8 8 8 8 8 8 8 8 8 06F 28 Relay 11 11 11 11 11 11 11 11 11 11 06F 29 Relay 14 14 14 14 14 14 14 14 14 14 06F 30 Relay 17 17 17 17 17 17 17 17 17 17 06F 31 Relay T20 T20 T20 T20 T20 T20 T20 T20 T20 T20 06F 32 Relay T21 T21 T21 T21 T21 T21 T21 T21 T21 T21 06F 33 to 49 Reserved 06F 50 Run. coil 06F 51 Start prepare 06F 52 Start relay (crank) 06F 53 Stop coil 06F 54 LED CAN B 06F 55 LED CAN A 06F 56 LED USB 06F 57 Eternal digital output 1 1 1 1 1 1 1 1 1 1 06F 58 Eternal digital output 2 2 2 2 2 2 2 2 2 2 DEIF A/S Page 71 of 155

06F 59 Eternal digital output 3 3 3 3 3 3 3 3 3 3 06F 60 Eternal digital output 4 4 4 4 4 4 4 4 4 4 06F 61 Eternal digital output 5 5 5 5 5 5 5 5 5 5 06F 62 Eternal digital output 6 6 6 6 6 6 6 6 6 6 06F 63 Eternal digital output 7 7 7 7 7 7 7 7 7 7 06F 64 Eternal digital output 8 8 8 8 8 8 8 8 8 8 06F 65 Eternal digital output 9 9 9 9 9 9 9 9 9 9 06F 66 Eternal digital output 10 10 10 10 10 10 10 10 10 10 06F 67 Eternal digital output 11 11 11 11 11 11 11 11 11 11 06F 68 Eternal digital output 12 12 12 12 12 12 12 12 12 12 06F 69 Eternal digital output 13 13 13 13 13 13 13 13 13 13 06F 70 Eternal digital output 14 14 14 14 14 14 14 14 14 14 06F 71 Eternal digital output 15 15 15 15 15 15 15 15 15 15 06F 72 Eternal digital output 16 16 16 16 16 16 16 16 16 16 DEIF A/S Page 72 of 155

Analogue inputs - (069) 069 1 Multi input 102 unscaled 069 2 Multi input 105 unscaled 069 3 Multi input 108 unscaled 069 4 Multi input 102 scaled 069 5 Multi input 105 scaled 069 6 Multi input 108 scaled 069 7 4-20 ma input 91 scaled 069 8 4-20 ma input 93 scaled 069 9 4-20 ma input 95 scaled 069 10 4-20 ma input 97 scaled 069 11 Analogue input 127 069 12 Analogue input 129 069 13 Analogue input 131 DEIF A/S Page 73 of 155

069 14 Analogue input 133 069 15 069 16 069 17 069 18 069 19 069 20 069 21 069 22 Eternal analogue input 1 (unscaled) Eternal analogue input 2 (unscaled) Eternal analogue input 3 (unscaled) Eternal analogue input 4 (unscaled) Eternal analogue input 5 (unscaled) Eternal analogue input 6 (unscaled) Eternal analogue input 7 (unscaled) Eternal analogue input 8 (unscaled) DEIF A/S Page 74 of 155

Power management - (06A) 06A 1 Total power 06A 2 Available power 06A 3 Total nominal power 06A 4 Total genset power 06A 5 Total reactive power 06A 6 Number of gensets 06A 7 Mains selection 06A 8 Load-dependent stop 06A 9 Load-dependent start 06A 10 Stop genset calculation 06A 11 Nominal power genset 1 1 06A 12 Nominal power genset 2 2 06A 13 Nominal power genset 3 3 06A 14 Nominal power genset 4 4 DEIF A/S Page 75 of 155

06A 15 Nominal power genset 5 5 06A 16 Nominal power genset 6 6 06A 17 Nominal power genset 7 7 06A 18 Nominal power genset 8 8 06A 19 Nominal power genset 9 9 06A 20 Nominal power genset 10 10 06A 21 Nominal power genset 11 11 06A 22 Nominal power genset 12 12 06A 23 Nominal power genset 13 13 06A 24 Nominal power genset 14 14 06A 25 Nominal power genset 15 15 06A 26 Nominal power genset 16 16 06A 27 Power genset 1 1 DEIF A/S Page 76 of 155

06A 28 Power genset 2 2 06A 29 Power genset 3 3 06A 30 Power genset 4 4 06A 31 Power genset 5 5 06A 32 Power genset 6 6 06A 33 Power genset 7 7 06A 34 Power genset 8 8 06A 35 Power genset 9 9 06A 36 Power genset 10 10 06A 37 Power genset 11 11 06A 38 Power genset 12 12 06A 39 Power genset 13 13 06A 40 Power genset 14 14 06A 41 Power genset 15 15 06A 42 Power genset 16 16 06A 43 06A 44 06A 45 Reactive power genset Reactive power genset Reactive power genset 1 1 2 2 3 3 DEIF A/S Page 77 of 155

06A 46 Reactive power genset 4 4 06A 47 Reactive power genset 5 5 06A 48 Reactive power genset 6 6 06A 49 Reactive power genset 7 7 06A 50 Reactive power genset 8 8 06A 51 Reactive power genset 9 9 06A 52 Reactive power genset 10 10 06A 53 Reactive power genset 11 11 06A 54 Reactive power genset 12 12 06A 55 Reactive power genset 13 13 06A 56 Reactive power genset 14 14 06A 57 Reactive power genset 15 15 06A 58 Reactive power 16 16 DEIF A/S Page 78 of 155

genset 06A 59 Power, mains 1A 06A 60 Power, mains 1B 06A 61 Power, mains 2A 06A 62 Power, mains 2B 06A 63 Reactive power mains 1A 06A 64 Reactive power mains 1B 06A 65 Reactive power mains 2A 06A 66 Reactive power mains 2B 06A 67 Power mains 17 Power shaft 17 Power shore 17 06A 68 Power mains 18 Power shaft 18 Power shore 18 06A 69 Power mains 19 Power shaft 19 DEIF A/S Page 79 of 155

Power shore 19 06A 70 Power mains 20 Power shaft 20 Power shore 20 06A 71 Power mains 21 06A 72 Power mains 22 06A 73 Power mains 23 06A 74 Power mains 24 06A 75 Power mains 25 06A 76 Power mains 26 06A 77 Power mains 27 06A 78 Power mains 28 06A 79 Power mains 29 06A 80 Power mains 30 06A 81 Power mains 31 06A 82 Power mains 32 06A 83 Reactive power mains 17 Reactive power shaft 17 DEIF A/S Page 80 of 155

Reactive power shore 17 06A 84 Reactive power mains 18 Reactive power shaft 18 Reactive power shore 18 06A 85 Reactive power mains 19 Reactive power shaft 19 Reactive power shore 19 06A 86 Reactive power mains 20 Reactive power shaft 20 Reactive power shore 20 06A 87 Reactive power mains 21 06A 88 Reactive power mains 22 06A 89 Reactive power DEIF A/S Page 81 of 155

mains 23 06A 90 06A 91 06A 92 06A 93 06A 94 06A 95 06A 96 06A 97 06A 98 06A 99 06A 100 06A 101 Reactive power mains 24 Reactive power mains 25 Reactive power mains 26 Reactive power mains 27 Reactive power mains 28 Reactive power mains 29 Reactive power mains 30 Reactive power mains 31 Reactive power mains 32 Power bus tie breaker 33 Power bus tie breaker 34 Power bus tie breaker 35 DEIF A/S Page 82 of 155

06A 102 Power bus tie breaker 36 06A 103 Power bus tie breaker 37 06A 104 Power bus tie breaker 38 06A 105 Power bus tie breaker 39 06A 106 Power bus tie breaker 40 06A 107 Reactive power bus tie breaker 33 06A 108 Reactive power bus tie breaker 34 06A 109 Reactive power bus tie breaker 35 06A 110 Reactive power bus tie breaker 36 06A 111 Reactive power bus tie breaker 37 06A 112 Reactive power bus tie breaker 38 06A 113 Reactive power bus tie breaker 39 06A 114 Reactive power bus DEIF A/S Page 83 of 155

tie breaker 40 06A 115 Plant mode mains 17 06A 116 Plant mode mains 18 06A 117 Plant mode mains 19 06A 118 Plant mode mains 20 06A 119 Plant mode mains 21 06A 120 Plant mode mains 22 06A 121 Plant mode mains 23 06A 122 Plant mode mains 24 06A 123 Plant mode mains 25 06A 124 Plant mode mains 26 06A 125 Plant mode mains 27 06A 126 Plant mode mains 28 06A 127 Plant mode mains 29 06A 128 Plant mode mains 30 06A 129 Plant mode mains 31 06A 130 Plant mode mains 32 06A 131 Bus power mains 17 06A 132 Bus power mains 18 DEIF A/S Page 84 of 155

06A 133 Bus power mains 19 06A 134 Bus power mains 20 06A 135 Bus power mains 21 06A 136 Bus power mains 22 06A 137 Bus power mains 23 06A 138 Bus power mains 24 06A 139 Bus power mains 25 06A 140 Bus power mains 26 06A 141 Bus power mains 27 06A 142 Bus power mains 28 06A 143 Bus power mains 29 06A 144 Bus power mains 30 06A 145 Bus power mains 31 06A 146 Bus power mains 32 06A 147 0 = ID 17 mains transducerconfigured 1 = ID 18 mains transducerconfigured 2 = ID 19 mains DEIF A/S Page 85 of 155

transducerconfigured 3 = ID 20 mains transducerconfigured 4 = ID 21 mains transducerconfigured 5 = ID 22 mains transducerconfigured 6 = ID 23 mains transducerconfigured 7 = ID 24 mains transducerconfigured 8 = ID 25 mains transducerconfigured 9 = ID 26 mains transducerconfigured 10 = ID 27 mains transducer- DEIF A/S Page 86 of 155

configured 06A 148 11 = ID 28 mains transducerconfigured 12 = ID 29 mains transducerconfigured 13 = ID 30 mains transducerconfigured 14 = ID 31 mains transducerconfigured 15 = ID 32 mains transducerconfigured 0 = ID 17 TB transducerconfigured 1 = ID 18 TB transducerconfigured 2 = ID 19 TB transducerconfigured DEIF A/S Page 87 of 155

3 = ID 20 TB transducerconfigured 4 = ID 21 TB transducerconfigured 5 = ID 22 TB transducerconfigured 6 = ID 23 TB transducerconfigured 7 = ID 24 TB transducerconfigured 8 = ID 25 TB transducerconfigured 9 = ID 26 TB transducerconfigured 10 = ID 27 TB transducerconfigured 11 = ID 28 TB DEIF A/S Page 88 of 155

transducerconfigured 12 = ID 29 TB transducerconfigured 13 = ID 30 TB transducerconfigured 14 = ID 31 TB transducerconfigured 15 = ID 32 TB transducerconfigured 06A 149 0 = ID 33 BTB transducerconfigured 1 = ID 34 BTB transducerconfigured 2 = ID 35 BTB transducerconfigured 3 = ID 36 BTB transducer- DEIF A/S Page 89 of 155

configured 06A 150 4 = ID 37 BTB transducerconfigured 5 = ID 38 BTB transducerconfigured 6 = ID 39 BTB transducerconfigured 7 = ID 40 BTB transducerconfigured 0 = ID 33 BTB controlled 1 = ID 34 BTB controlled 2 = ID 35 BTB controlled 3 = ID 36 BTB controlled 4 = ID 37 BTB controlled 5 = ID 38 BTB controlled DEIF A/S Page 90 of 155

6 = ID 39 BTB controlled 7 = ID 40 BTB controlled 06A 151 ID 17 nominal power 06A 152 ID 18 nominal power 06A 153 ID 19 nominal power 06A 154 ID 20 nominal power 06A 155 ID 21 nominal power 06A 156 ID 22 nominal power 06A 157 ID 23 nominal power 06A 158 ID 24 nominal power 06A 159 ID 25 nominal power 06A 160 ID 26 nominal power 06A 161 ID 27 nominal power 06A 162 ID 28 nominal power 06A 163 ID 29 nominal power 06A 164 ID 30 nominal power 06A 165 ID 31 nominal power 06A 166 ID 32 nominal power DEIF A/S Page 91 of 155

06A 167 0 = ID 1 Transducerconfigured 1 = ID 2 Transducerconfigured 2 = ID 3 Transducerconfigured 3 = ID 4 Transducerconfigured 4 = ID 5 Transducerconfigured 5 = ID 6 Transducerconfigured 6 = ID 7 Transducerconfigured 7 = ID 8 Transducerconfigured 8 = ID 9 DEIF A/S Page 92 of 155

Transducerconfigured 9 = ID 10 Transducerconfigured 10 = ID 11 Transducerconfigured 11 = ID 12 Transducerconfigured 12 = ID 13 Transducerconfigured 13 = ID 14 Transducerconfigured 14 = ID 15 Transducerconfigured 15 = ID 16 Transducerconfigured 06A 168 ID 1 Transducermeasured value DEIF A/S Page 93 of 155

06A 169 ID 2 Transducer measured value 06A 170 ID 3 Transducermeasured value 06A 171 ID 4 Transducermeasured value 06A 172 ID 5 Transducermeasured value 06A 173 ID 6 Transducermeasured value 06A 174 ID 7 Transducermeasured value 06A 175 ID 8 Transducermeasured value 06A 176 ID 9 Transducermeasured value 06A 177 ID 10 Transducermeasured value 06A 178 ID 11Transducermeasured value 06A 179 ID 12 Transducermeasured value 06A 180 ID 13 Transducermeasured value 06A 181 ID 14 Transducer- DEIF A/S Page 94 of 155

measured value 06A 182 ID 15 Transducermeasured value 06A 183 ID 16 Transducermeasured value 06A 184 0 = TB available 0 = Shore unit available 1 = Mains unit available 1 = SG unit available 2 = Any MB pos. ON 2 = Any SGB/SCB pos ON 3 = Any MB pos. OFF 3 = Any SGB/SCB pos OFF 4 = TB pos. ON (Mains Command Unit) 4 = SCB pos ON DEIF A/S Page 95 of 155

5 = TB pos. OFF (Mains Command Unit) 5 = SCB pos OFF 6 = Any GB pos. ON 7 = Any GB pos. OFF 8 = Any TB pos. ON 9 = Any TB pos. OFF 10 = Any BTB pos. ON 11 = Any BTB pos. OFF 06A 185 0 = GB pos. ON ID 1 1 = GB pos. ON ID 2 2 = GB pos. ON ID 3 3 = GB pos. ON ID 4 DEIF A/S Page 96 of 155

4 = GB pos. ON ID 5 5 = GB pos. ON ID 6 6 = GB pos. ON ID 7 7 = GB pos. ON ID 8 8 = GB pos. ON ID 9 9 = GB pos. ON ID 10 10 = GB pos. ON ID 11 11 = GB pos. ON ID 12 12 = GB pos. ON ID 13 13 = GB pos. ON ID 14 14 = GB pos. ON ID 15 15 = GB pos. ON ID 16 06A 186 0 = GB pos. OFF DEIF A/S Page 97 of 155

ID 1 1 = GB pos. OFF ID 2 2 = GB pos. OFF ID 3 3 = GB pos. OFF ID 4 4 = GB pos. OFF ID 5 5 = GB pos. OFF ID 6 6 = GB pos. OFF ID 7 7 = GB pos. OFF ID 8 8 = GB pos. OFF ID 9 9 = GB pos. OFF ID 10 10 = GB pos. OFF ID 11 11 = GB pos. OFF ID 12 12 = GB pos. OFF ID 13 DEIF A/S Page 98 of 155

13 = GB pos. OFF ID 14 14 = GB pos. OFF ID 15 15 = GB pos. OFF ID 16 06A 187 0 = DG Hz/V OK, ID 1 1 = DG Hz/V OK, ID 2 2 = DG Hz/V OK, ID 3 3 = DG Hz/V OK, ID 4 4 = DG Hz/V OK, ID 5 5 = DG Hz/V OK, ID 6 6 = DG Hz/V OK, ID 7 7 = DG Hz/V OK, ID 8 8 = DG Hz/V OK, ID 9 9 = DG Hz/V OK, DEIF A/S Page 99 of 155

ID10 06A 188 06A 189 10 = DG Hz/V OK, ID 11 11 = DG Hz/V OK, ID 12 12 = DG Hz/V OK, ID 13 13 = DG Hz/V OK, ID 14 14 = DG Hz/V OK, ID 15 15 = DG Hz/V OK, ID 16 0 = Mains OK, single mains 1 = Mains OK, mains 1A 2 = Mains OK, mains 1B 3 = Mains OK, mains 2A 4 = Mains OK, mains 2B 0 = Ready for auto start, ID 1 DEIF A/S Page 100 of 155

1 = Ready for auto start, ID 2 2 = Ready for auto start, ID 3 3 = Ready for auto start, ID 4 4 = Ready for auto start, ID 5 5 = Ready for auto start, ID 6 6 = Ready for auto start, ID 7 7 = Ready for auto start, ID 8 8 = Ready for auto start, ID 9 9 = Ready for auto start, ID 10 10 = Ready for auto start, ID 11 11 = Ready for auto start, ID 12 12 = Ready for auto start, ID 13 13 = Ready for DEIF A/S Page 101 of 155

auto start, ID 14 06A 190 06A 191 14 = Ready for auto start, ID 15 15 = Ready for auto start, ID 16 0 = Mains not in semi, single mains 1 = Mains not in semi, mains 1A 2 = Mains not in semi, mains 1B 3 = Mains not in semi, mains 2A 4 = Mains not in semi, mains 2B 0 = Any alarms, ID 1 1 = Any alarms, ID 2 2 = Any alarms, ID 3 3 = Any alarms, ID 4 4 = Any alarms, ID 5 DEIF A/S Page 102 of 155

5 = Any alarms, ID 6 6 = Any alarms, ID 7 7 = Any alarms, ID 8 8 = Any alarms, ID 9 9 = Any alarms, ID 10 10 = Any alarms, ID 11 11 = Any alarms, ID 12 12 = Any alarms, ID 13 13 = Any alarms, ID 14 14 = Any alarms, ID 15 15 = Any alarms, ID 16 06A 192 0 = Any alarms, single mains 1 = Any alarms, DEIF A/S Page 103 of 155

mains 1A 2 = Any alarms, mains 1B 3 = Any alarms, mains 2A 4 = Any alarms, mains 2B 0 = Engine running, ID 1 1 = Engine running, ID 2 2 = Engine running, ID 3 3 = Engine running, ID 4 4 = Engine running, ID 5 5 = Engine running, ID 6 6 = Engine running, ID 7 7 = Engine running, ID 8 8 = Engine running, ID 9 DEIF A/S Page 104 of 155

9 = Engine running, ID 10 10 = Engine running, ID 11 11 = Engine running, ID 12 12 = Engine running, ID 13 13 = Engine running, ID 14 14 = Engine running, ID 15 15 = Engine running, ID 16 06A 193 0 = MB pos. ON, single mains 1 = MB pos. ON, mains 1A 2 = MB pos. ON, mains 1B 3 = MB pos. ON, mains 2A 4 = MB pos. ON, mains 2B 5 = MB pos. OFF, DEIF A/S Page 105 of 155

single mains 06A 194 6 = MB pos. OFF, mains 1A 7 = MB pos. OFF, mains 1B 8 = MB pos. OFF, mains 2A 9 = MB pos. OFF, mains 2B 0 = GB synchronising, ID 1 1 = GB synchronising, ID 2 2 = GB synchronising, ID 3 3 = GB synchronising, ID 4 4 = GB synchronising, ID 5 5 = GB synchronising, ID 6 6 = GB synchronising, ID 7 7 = GB synchronising, ID 8 DEIF A/S Page 106 of 155

8 = GB synchronising, ID 9 9 = GB synchronising, ID 10 10 = GB synchronising, ID 11 11 = GB synchronising, ID 12 12 = GB synchronising, ID 13 13 = GB synchronising, ID 14 14 = GB synchronising, ID 15 15 = GB synchronising, ID 16 06A 195 0 = Mains OK, ID 17 0 = Shaft OK, ID 17 0 = Shore OK, ID 17 1 = Mains OK, ID 18 1 = Shaft OK, ID DEIF A/S Page 107 of 155

18 1 = Shore OK, ID 18 2 = Mains OK, ID 19 2 = Shaft OK, ID 19 2 = Shore OK, ID 19 3 = Mains OK, ID 20 3 = Shaft OK, ID 20 3 = Shore OK, ID 20 4 = Mains OK, ID 21 5 = Mains OK, ID 22 6 = Mains OK, ID 23 7 = Mains OK, ID 24 8 = Mains OK, ID 25 DEIF A/S Page 108 of 155

9 = Mains OK, ID 26 10 = Mains OK, ID 27 11 = Mains OK, ID 28 12 = Mains OK, ID 29 13 = Mains OK, ID 30 14 = Mains OK, ID 31 15 = Mains OK, ID 32 06A 196 0 = Mains not in semi 17 1 = Mains not in semi 18 2 = Mains not in semi 19 3 = Mains not in semi 20 4 = Mains not in semi 21 5 = Mains not in DEIF A/S Page 109 of 155

semi 22 06A 197 6 = Mains not in semi 23 7 = Mains not in semi 24 8 = Mains not in semi 25 9 = Mains not in semi 26 10 = Mains not in semi 27 11 = Mains not in semi 28 12 = Mains not in semi 29 13 = Mains not in semi 30 14 = Mains not in semi 31 15 = Mains not in semi 32 0 = Any alarms, mains ID 17 0 = Any alarms, shaft ID 17 DEIF A/S Page 110 of 155

0 = Any alarms, shore ID 17 1 = Any alarms, mains ID 18 1 = Any alarms, shaft ID 18 1 = Any alarms, shore ID 18 2 = Any alarms, mains ID 19 2 = Any alarms, shaft ID 19 2 = Any alarms, shore ID 19 3 = Any alarms, mains ID 20 3 = Any alarms, shaft ID 20 3 = Any alarms, shore ID 20 4 = Any alarms, mains ID 21 5 = Any alarms, mains ID 22 6 = Any alarms, DEIF A/S Page 111 of 155

mains ID 23 06A 198 7 = Any alarms, mains ID 24 8 = Any alarms, mains ID 25 9 = Any alarms, mains ID 26 10 = Any alarms, mains ID 27 11 = Any alarms, mains ID 28 12 = Any alarms, mains ID 29 13 = Any alarms, mains ID 30 14 = Any alarms, mains ID 31 15 = Any alarms, mains ID 32 0 = MB pos. ON, ID 17 0 = SGB/SCB ON, ID 17 1 = MB pos. ON, ID 18 DEIF A/S Page 112 of 155

1 = SGB ON, ID 18 2 = MB pos. ON, ID 19 2 = SGB/SCB ON, ID 19 3 = MB pos. ON, ID 20 3 = SGB/SCB ON, ID 20 4 = MB pos. ON, ID 21 5 = MB pos. ON, ID 22 6 = MB pos. ON, ID 23 7 = MB pos. ON, ID 24 8 = MB pos. ON, ID 25 9 = MB pos. ON, ID 26 10 = MB pos. ON, ID 27 11 = MB pos. ON, DEIF A/S Page 113 of 155

ID 28 06A 199 12 = MB pos. ON, ID 29 13 = MB pos. ON, ID 30 14 = MB pos. ON, ID 31 15 = MB pos. ON, ID 32 0 = MB pos. OFF, ID 17 0 = SGB/SCB pos OFF, ID 17 1 = MB pos. OFF, ID 18 1 = SGB/SCB pos OFF, ID 18 2 = MB pos. OFF, ID 19 2 = SGB/SCB pos OFF, ID 19 3 = MB pos. OFF, ID 20 4 = MB pos. OFF, ID 21 DEIF A/S Page 114 of 155

5 = MB pos. OFF, ID 22 6 = MB pos. OFF, ID 23 7 = MB pos. OFF, ID 24 8 = MB pos. OFF, ID 25 9 = MB pos. OFF, ID 26 10 = MB pos. OFF, ID 27 11 = MB pos. OFF, ID 28 12 = MB pos. OFF, ID 29 13 = MB pos. OFF, ID 30 14 = MB pos. OFF, ID 31 15 = MB pos. OFF, ID 32 06A 200 0 = Mains failure, ID 17 1 = Mains failure, DEIF A/S Page 115 of 155

ID 18 2 = Mains failure, ID 19 3 = Mains failure, ID 20 4 = Mains failure, ID 21 5 = Mains failure, ID 22 6 = Mains failure, ID 23 7 = Mains failure, ID 24 8 = Mains failure, ID 25 9 = Mains failure, ID 26 10 = Mains failure, ID 27 11 = Mains failure, ID 28 12 = Mains failure, ID 29 13 = Mains failure, ID 30 DEIF A/S Page 116 of 155

14 = Mains failure, ID 31 15 = Mains failure, ID 32 06A 201 0 = MB synchronising, ID 17 0 = SGB/SCB synchronising, ID 17 1 = MB synchronising, ID 18 1 = SGB/SCB synchronising, ID 18 2 = MB synchronising, ID 19 2 = SGB/SCB synchronising, ID 19 3 = MB synchronising, ID 20 3 = SGB/SCB synchronising, ID 20 4 = MB synchronising, ID 21 5 = MB synchronising, ID 22 6 = MB DEIF A/S Page 117 of 155

synchronising, ID 23 06A 202 7 = MB synchronising, ID 24 8 = MB synchronising, ID 25 9 = MB synchronising, ID 26 10 = MB synchronising, ID 27 11 = MB synchronising, ID 28 12 = MB synchronising, ID 29 13 = MB synchronising, ID 30 14 = MB synchronising, ID 31 15 = MB synchronising, ID 32 0 = TB pos. ON, ID 17 1 = TB pos. ON, ID 18 2 = TB pos. ON, ID 19 DEIF A/S Page 118 of 155

3 = TB pos. ON, ID 20 4 = TB pos. ON, ID 21 5 = TB pos. ON, ID 22 6 = TB pos. ON, ID 23 7 = TB pos. ON, ID 24 8 = TB pos. ON, ID 25 9 = TB pos. ON, ID 26 10 = TB pos. ON, ID 27 11 = TB pos. ON, ID 28 12 = TB pos. ON, ID 29 13 = TB pos. ON, ID 30 14 = TB pos. ON, ID 31 15 = TB pos. ON, DEIF A/S Page 119 of 155

ID 32 06A 203 0 = TB pos. OFF, ID 17 1 = TB pos. OFF, ID 18 2 = TB pos. OFF, ID 19 3 = TB pos. OFF, ID 20 4 = TB pos. OFF, ID 21 5 = TB pos. OFF, ID 22 6 = TB pos. OFF, ID 23 7 = TB pos. OFF, ID 24 8 = TB pos. OFF, ID 25 9 = TB pos. OFF, ID 26 10 = TB pos. OFF, ID 27 11 = TB pos. OFF, ID 28 DEIF A/S Page 120 of 155

12 = TB pos. OFF, ID 29 13 = TB pos. OFF, ID 30 14 = TB pos. OFF, ID 31 15 = TB pos. OFF, ID 32 06A 204 0 = TB synchronising, ID 17 1 = TB synchronising, ID 18 2 = TB synchronising, ID 19 3 = TB synchronising, ID 20 4 = TB synchronising, ID 21 5 = TB synchronising, ID 22 6 = TB synchronising, ID 23 7 = TB synchronising, ID 24 8 = TB DEIF A/S Page 121 of 155

synchronising, ID 25 205 9 = TB synchronising, ID 26 10 = TB synchronising, ID 27 11 = TB synchronising, ID 28 12 = TB synchronising, ID 29 13 = TB synchronising, ID 30 14 = TB synchronising, ID 31 15 = TB synchronising, ID 32 0 = Any alarms, BTB ID 33 1 = Any alarms, BTB ID 34 2 = Any alarms, BTB ID 35 3 = Any alarms, BTB ID 36 4 = Any alarms, BTB ID 37 DEIF A/S Page 122 of 155

5 = Any alarms, BTB ID 38 6 = Any alarms, BTB ID 39 7 = Any alarms, BTB ID 40 06A 206 0 = BTB pos. ON, ID 33 1 = BTB pos. ON, ID 34 2 = BTB pos. ON, ID 35 3 = BTB pos. ON, ID 36 4 = BTB pos. ON, ID 37 5 = BTB pos. ON, ID 38 6 = BTB pos. ON, ID 39 7 = BTB pos. ON, ID 40 06A 207 0 = BTB pos. OFF, ID 33 1 = BTB pos. DEIF A/S Page 123 of 155

OFF, ID 34 06A 208 2 = BTB pos. OFF, ID 35 3 = BTB pos. OFF, ID 36 4 = BTB pos. OFF, ID 37 5 = BTB pos. OFF, ID 38 6 = BTB pos. OFF, ID 39 7 = BTB pos. OFF, ID 40 0 = BTB synchronising, ID 33 1 = BTB synchronising, ID 34 2 = BTB synchronising, ID 35 3 = BTB synchronising, ID 36 4 = BTB synchronising, ID 37 5 = BTB synchronising, ID 38 DEIF A/S Page 124 of 155

6 = BTB synchronising, ID 39 7 = BTB synchronising, ID 40 06A 209 0 = Et. comm. error, ID 1 1 = Et. comm. error, ID 2 2 = Et. comm. error, ID 3 3 = Et. comm. error, ID 4 4 = Et. comm. error, ID 5 5 = Et. comm. error, ID 6 6 = Et. comm. error, ID 7 7 = Et. comm. error, ID 8 8 = Et. comm. error, ID 9 9 = Et. comm. error, ID 10 10 = Et. comm. DEIF A/S Page 125 of 155

error, ID 11 06A 210 11 = Et. comm. error, ID 12 12 = Et. comm. error, ID 13 13 = Et. comm. error, ID 14 14 = Et. comm. error, ID 15 15 = Et. comm. error, ID 16 0 = Et. comm. error, ID 17 1 = Et. comm. error, ID 18 2 = Et. comm. error, ID 19 3 = Et. comm. error, ID 20 4 = Et. comm. error, ID 21 5 = Et. comm. error, ID 22 6 = Et. comm. error, ID 23 DEIF A/S Page 126 of 155

7 = Et. comm. error, ID 24 8 = Et. comm. error, ID 25 9 = Et. comm. error, ID 26 10 = Et. comm. error, ID 27 11 = Et. comm. error, ID 28 12 = Et. comm. error, ID 29 13 = Et. comm. error, ID 30 14 = Et. comm. error, ID 31 15 = Et. comm. error, ID 32 06A 211 0 = Et. comm. error, ID 33 1 = Et. comm. error, ID 34 2 = Et. comm. error, ID 35 3 = Et. comm. DEIF A/S Page 127 of 155

error, ID 36 06A 212 4 = Et. comm. error, ID 37 5 = Et. comm. error, ID 38 6 = Et. comm. error, ID 39 7 = Et. comm. error, ID 40 0 = EDG TB pos. ON, ID 1 1 = EDG TB pos. ON, ID 2 2 = EDG TB pos. ON, ID 3 3 = EDG TB pos. ON, ID 4 4 = EDG TB pos. ON, ID 5 5 = EDG TB pos. ON, ID 6 6 = EDG TB pos. ON, ID 7 7 = EDG TB pos. ON, ID 8 DEIF A/S Page 128 of 155

8 = EDG TB pos. ON, ID 9 9 = EDG TB pos. ON, ID 10 10 = EDG TB pos. ON, ID 11 11 = EDG TB pos. ON, ID 12 12 = EDG TB pos. ON, ID 13 13 = EDG TB pos. ON, ID 14 14 = EDG TB pos. ON, ID 15 15 = EDG TB pos. ON, ID 16 06A 213 0 = EDG TB pos. OFF, ID 1 1 = EDG TB pos. OFF, ID 2 2 = EDG TB pos. OFF, ID 3 3 = EDG TB pos. OFF, ID 4 4 = EDG TB pos. DEIF A/S Page 129 of 155

OFF, ID 5 06A 214 5 = EDG TB pos. OFF, ID 6 6 = EDG TB pos. OFF, ID 7 7 = EDG TB pos. OFF, ID 8 8 = EDG TB pos. OFF, ID 9 9 = EDG TB pos. OFF, ID 10 10 = EDG TB pos. OFF, ID 11 11 = EDG TB pos. OFF, ID 12 12 = EDG TB pos. OFF, ID 13 13 = EDG TB pos. OFF, ID 14 14 = EDG TB pos. OFF, ID 15 15 = EDG TB pos. OFF, ID 16 0 = Shaft/shore running ID 17 DEIF A/S Page 130 of 155

1 = Shaft/shore running ID 18 2 = Shaft/shore running ID 19 3 = Shaft/shore running ID 20 06A 215 0 = BB Hz/V OK, ID 1 1 = BB Hz/V OK, ID 2 2 = BB Hz/V OK, ID 3 3 = BB Hz/V OK, ID 4 4 = BB Hz/V OK, ID 5 5 = BB Hz/V OK, ID 6 6 = BB Hz/V OK, ID 7 7 = BB Hz/V OK, ID 8 8 = BB Hz/V OK, ID 9 9 = BB Hz/V OK, DEIF A/S Page 131 of 155

ID 10 06A 216 10 = BB Hz/V OK, ID 11 11 = BB Hz/V OK, ID 12 12 = BB Hz/V OK, ID 13 13 = BB Hz/V OK, ID 14 14 = BB Hz/V OK, ID 15 15 = BB Hz/V OK, ID 16 0 = BB Hz/V OK, ID 17 1 = BB Hz/V OK, ID 18 2 = BB Hz/V OK, ID 19 3 = BB Hz/V OK, ID 20 4 = BB Hz/V OK, ID 21 5 = BB Hz/V OK, ID 22 DEIF A/S Page 132 of 155

6 = BB Hz/V OK, ID 23 7 = BB Hz/V OK, ID 24 8 = BB Hz/V OK, ID 25 9 = BB Hz/V OK, ID 26 10 = BB Hz/V OK, ID 27 11 = BB Hz/V OK, ID 28 12 = BB Hz/V OK, ID 29 13 = BB Hz/V OK, ID 30 14 = BB Hz/V OK, ID 31 15 = BB Hz/V OK, ID 32 06A 217 0 = BB Hz/V OK, ID 33 1 = BB Hz/V OK, ID 34 2 = BB Hz/V OK, DEIF A/S Page 133 of 155

ID 35 06A 218 3 = BB Hz/V OK, ID 36 4 = BB Hz/V OK, ID 37 5 = BB Hz/V OK, ID 38 6 = BB Hz/V OK, ID 39 7 = BB Hz/V OK, ID 40 0 = BB Hz/V present, ID 1 1 = BB Hz/V present, ID 2 2 = BB Hz/V present, ID 3 3 = BB Hz/V present, ID 4 4 = BB Hz/V present, ID 5 5 = BB Hz/V present, ID 6 6 = BB Hz/V present, ID 7 DEIF A/S Page 134 of 155

7 = BB Hz/V present, ID 8 8 = BB Hz/V present, ID 9 9 = BB Hz/V present, ID 10 10 = BB Hz/V present, ID 11 11 = BB Hz/V present, ID 12 12 = BB Hz/V present, ID 13 13 = BB Hz/V present, ID 14 14 = BB Hz/V present, ID 15 15 = BB Hz/V present, ID 16 06A 219 0 = BB Hz/V present, ID 17 1 = BB Hz/V present, ID 18 2 = BB Hz/V present, ID 19 3 = BB Hz/V DEIF A/S Page 135 of 155

present, ID 20 4 = BB Hz/V present, ID 21 5 = BB Hz/V present, ID 22 6 = BB Hz/V present, ID 23 7 = BB Hz/V present, ID 24 8 = BB Hz/V present, ID 25 9 = BB Hz/V present, ID 26 10 = BB Hz/V present, ID 27 11 = BB Hz/V present, ID 28 12 = BB Hz/V present, ID 29 13 = BB Hz/V present, ID 30 14 = BB Hz/V present, ID 31 15 = BB Hz/V present, ID 32 DEIF A/S Page 136 of 155

06A 220 0 = BB Hz/V present, ID 33 1 = BB Hz/V present, ID 34 2 = BB Hz/V present, ID 35 3 = BB Hz/V present, ID 36 4 = BB Hz/V present, ID 37 5 = BB Hz/V present, ID 38 6 = BB Hz/V present, ID 39 7 = BB Hz/V present, ID 40 06A 221 0 = BA Hz/V OK, ID 32 1 = BA Hz/V OK, ID 33 2 = BA Hz/V OK, ID 34 3 = BA Hz/V OK, ID 35 4 = BA Hz/V OK, DEIF A/S Page 137 of 155

ID 36 06A 222 5 = BA Hz/V OK, ID 37 6 = BA Hz/V OK, ID 38 7 = BA Hz/V OK, ID 39 0 = BA Hz/V present, ID 1 0 = Mains present, ID 1 0 = DG Hz/V present, ID 1 1 = BA Hz/V present, ID 2 1 = Mains present, ID 2 1 = DG Hz/V present, ID 2 2 = BA Hz/V present, ID 3 2 = Mains present, ID 3 2 = DG Hz/V present, ID 3 DEIF A/S Page 138 of 155

3 = BA Hz/V present, ID 4 3 = Mains present, ID 4 3 = DG Hz/V present, ID 4 4 = BA Hz/V present, ID 5 4 = Mains present, ID 5 4 = DG Hz/V present, ID 5 5 = BA Hz/V present, ID 6 5 = Mains present, ID 6 5 = DG Hz/V present, ID 6 6 = BA Hz/V present, ID 7 6 = Mains present, ID 7 6 = DG Hz/V present, ID 7 7 = BA Hz/V DEIF A/S Page 139 of 155

present, ID 8 7 = Mains present, ID 8 7 = DG Hz/V present, ID 8 8 = BA Hz/V present, ID 9 8 = Mains present, ID 9 8 = DG Hz/V present, ID 9 9 = BA Hz/V present, ID 10 9 = Mains present, ID 10 9 = DG Hz/V present, ID 10 10 = BA Hz/V present, ID 11 10 = Mains present, ID 11 10 = DG Hz/V present, ID 11 11 = BA Hz/V present, ID 12 DEIF A/S Page 140 of 155

11 = Mains present, ID 12 11 = DG Hz/V present, ID 12 12 = BA Hz/V present, ID 13 12 = Mains present, ID 13 12 = DG Hz/V present, ID 13 13 = BA Hz/V present, ID 14 13 = Mains present, ID 14 13 = DG Hz/V present, ID 14 14 = BA Hz/V present, ID 15 14 = Mains present, ID 15 14 = DG Hz/V present, ID 15 15 = BA Hz/V present, ID 16 15 = Mains DEIF A/S Page 141 of 155

present, ID 16 06A 223 15 = DG Hz/V present, ID 16 0 = BA Hz/V present, ID 17 0 = Mains present, ID 17 0 = DG Hz/V present, ID 17 1 = BA Hz/V present, ID 18 1 = Mains present, ID 18 1 = DG Hz/V present, ID 18 2 = BA Hz/V present, ID 19 2 = Mains present, ID 19 2 = DG Hz/V present, ID 19 3 = BA Hz/V present, ID 20 3 = Mains present, ID 20 DEIF A/S Page 142 of 155

3 = DG Hz/V present, ID 20 4 = BA Hz/V present, ID 21 4 = Mains present, ID 21 4 = DG Hz/V present, ID 21 5 = BA Hz/V present, ID 22 5 = Mains present, ID 22 5 = DG Hz/V present, ID 22 6 = BA Hz/V present, ID 23 6 = Mains present, ID 23 6 = DG Hz/V present, ID 23 7 = BA Hz/V present, ID 24 7 = Mains present, ID 24 7 = DG Hz/V DEIF A/S Page 143 of 155

present, ID 24 8 = BA Hz/V present, ID 25 8 = Mains present, ID 25 8 = DG Hz/V present, ID 25 9 = BA Hz/V present, ID 26 9 = Mains present, ID 26 9 = DG Hz/V present, ID 26 10 = BA Hz/V present, ID 27 10 = Mains present, ID 27 10 = DG Hz/V present, ID 27 11 = BA Hz/V present, ID 28 11 = Mains present, ID 28 11 = DG Hz/V present, ID 28 DEIF A/S Page 144 of 155

12 = BA Hz/V present, ID 29 12 = Mains present, ID 29 12 = DG Hz/V present, ID 29 13 = BA Hz/V present, ID 30 13 = Mains present, ID 30 13 = DG Hz/V present, ID 30 14 = BA Hz/V present, ID 31 14 = Mains present, ID 31 14 = DG Hz/V present, ID 31 15 = BA Hz/V present, ID 32 15 = Mains present, ID 32 15 = DG Hz/V present, ID 32 06A 224 0 = BA Hz/V DEIF A/S Page 145 of 155

present, ID 33 0 = Mains present, ID 33 0 = DG Hz/V present, ID 33 1 = BA Hz/V present, ID 34 1 = Mains present, ID 34 1 = DG Hz/V present, ID 34 2 = BA Hz/V present, ID 35 2 = Mains present, ID 35 2 = DG Hz/V present, ID 35 3 = BA Hz/V present, ID 36 3 = Mains present, ID 36 3 = DG Hz/V present, ID 36 4 = BA Hz/V present, ID 37 DEIF A/S Page 146 of 155

4 = Mains present, ID 37 4 = DG Hz/V present, ID 37 5 = BA Hz/V present, ID 38 5 = Mains present, ID 38 5 = DG Hz/V present, ID 38 6 = BA Hz/V present, ID 39 6 = Mains present, ID 39 6 = DG Hz/V present, ID 39 7 = BA Hz/V present, ID 40 7 = Mains present, ID 40 7 = DG Hz/V present, ID 40 06A 225 0 = EDG TB synchronising ID 1 1 = EDG TB DEIF A/S Page 147 of 155

synchronising ID 2 2 = EDG TB synchronising ID 3 3 = EDG TB synchronising ID 4 4 = EDG TB synchronising ID 5 5 = EDG TB synchronising ID 6 6 = EDG TB synchronising ID 7 7 = EDG TB synchronising ID 8 8 = EDG TB synchronising ID 9 9 = EDG TB synchronising ID 10 10 = EDG TB synchronising ID 11 11 = EDG TB synchronising ID 12 12 = EDG TB synchronising ID 13 13 = EDG TB synchronising ID 14 DEIF A/S Page 148 of 155

14 = EDG TB synchronising ID 15 15 = EDG TB synchronising ID 16 DEIF A/S Page 149 of 155

5. Applications Configuration of the device Electronic Data Sheet (EDS) - a file that contains configuration data for specific device types. An EDS file is an electronic description of all details of a CIP device that are relevant for the configuration of the device. The EDS file can be downloaded to a PLC for configuring a device, but it is not mandatory as the paper documentation can also be used for this purpose. Please contact the DEIF support team for checking the availability of this Ethernet/IP EDS file. DEIF A/S Page 150 of 155

Adding a Multi-line 2 unit as new module inside the Rockwell PLC RSLogi software if you do not have any EDS file for this The module type to import must be the Generic Ethernet Module one: It must be configured in this way: Input assembly instance must be 100 with a size of 150 words or 300 bytes. Output assembly instance must be 152 without size. Configuration assembly instance must be 151, but its size can be anything. DEIF A/S Page 151 of 155

You can tick Use Unicast Connection over Ethernet/IP or leave it unticked. The RPI delay should not be lower than 10 ms. Finally, you can check that this new module implicit data is now visible inside the controller tags: DEIF A/S Page 152 of 155

Using the EIPscan software (v2.2) with a DEIF Multi-line 2 unit Eample 1: Reading the implicit data of a Multi-line 2 unit: DEIF A/S Page 153 of 155

Eample 2: Reading the power supply data (voltage on terminals 1 and 2) of a Multi-line 2 unit: DEIF A/S Page 154 of 155

Using the Mole EIP tool software (v2v3) with a DEIF Multi-line 2 unit Eample: Reading the A alarms status of a Multi-line 2 unit: DEIF A/S reserves the right to change any of the above. DEIF A/S Page 155 of 155