Electrical network management. Vigilohm. The IT earthing system to improve electrical network availability. Catalogue 2013

Transcription

1 Electrical network management Vigilohm The IT earthing system to improve electrical network availability Catalogue 203

2

3 Vigilohm General contents Presentation 3 Insulation Monitoring Devices 6 Fault Location Devices Measurement per feeder Communication interfaces 30 Accessories 3 Dimensions and connections 40 Commercial references 52

4 2

5 Presentation Ensuring continuity of service in the event of an insulation fault Continuity of service in an essential operational requirement for power networks. The installation must also comply with specific rules to protect people and property. These safety requirements involve the use of protective devices which operate when there is a risk that could cause the network to become partially unavailable. > Total or partial stopping of the process. > Partial or total loss of production. An IT ("isolated from earth") earthing system is the only one in which safety is assured without the need for additional protective equipment. The installation can operate without endangering people even in the presence of an initial insulation fault. What do the standards say? The IT earthing system is described in several standards: > IEC protection for safety, - protection against electric shock. > IEC Requirements for special installations or locations - Medical locations. > IEC Insulation monitoring devices for IT earthing systems. > IEC Equipment for insulation fault location in IT earthing systems. These standards clearly state that, with the IT earthing system, the installation must be isolated from earth or connected impedance. In the event of only one ground or earth fault, the fault current is very low and interruption is unnecessary. Since a second fault would cause a circuit breaker to trip, an insulation monitoring device (IMD) is required to indicate an initial fault. This device must activate an audible and/or visual signal. IEC Our solution complies with international standards 3

6 Presentation The IT earthing system The neutral of the transformer's secondary is not connected to earth, and the load casing is connected to earth. In the event of an insulation fault, current cannot loop via the transformer's neutral: > IT earthing system Frame 3 L L2 L3 N PE > No dangerous contact voltage when touching metal parts. > Very low fault currents. Therefore, an IT earthing system guarantees the best continuity of service. The installation can operate without endangering people and equipment even in the presence of an insulation fault. As a result, protective devices are not triggered. However, the faulty circuit must be detected and repaired before a second fault occurs because a second fault would cause a short circuit between phases and trigger protective devices. 230 V TT 0 V 0 ma 230 V IT 0.7 V < ma 4

7 Insulation monitoring devices An indispensible solution for implementing an IT earthing network. Insulation monitoring device (IMD): These devices are mandatory in an IT earthing system. An insulation monitoring device injects DC or low-frequency AC voltage between the network through the IMD is then measured. The insulation value is calculated from this low-frequency current. Depending on the device, it can also be used to: > Display the insulation resistance value locally. > Display the leakage capacitance value for the monitored network. > Store time-stamped alarms. > Communicate with a supervisor. to measure since it loops through the capacitances distributed in the network. The injected current will go through the insulation monitor. The IMD indicates the fault locally on its front panel depending on the adjustable threshold set on the device. It also activates a relay output to a visual or audible indicator. CPI PE PE Fault location: On networks with many circuits, the IMD can be associated with a locator (XD30 XD32) that can identify the faulty circuit. Such locators use the 2.5 Hz signal injected by the IMD to determine through which circuit the fault Measure - Indicate - Locate - Repair IMD 2-circuit Locator -circuit Locator 2-circuit Locator No connection between the locator and the IMD. Possibility of R and C measurements per circuit (XL and XML series). Manual 2.5 Hz current to toroids that measure the injected current, or mobile. They can monitor 2 circuits or one separate circuit. Advanced versions of these locators (XL and XML) provide the insulation value on a circuit of large networks. 5

8 Presentation A reliable and effective solution Schneider Electric, a global specialist in electrical power management, offers a range of solutions tailored to your network. We accommodate expanse, number of circuits, presence of coupling, etc. Schneider Electric has been in the IMD business for more than 50 years. Small networks or islands (C max = 40 µf) Network with many feeders: simple solution IM400 IM0 XD32 Easy to install and use > There is a transformer to create the IT island. Its neutral is not connected to earth. > There is an IMD (IM9 or IM0) to detect - it is generally powered by the network that it monitors, - it is connected to neutral (or to one phase) and earth, - its only setting is the fault threshold level, - it has a single relay output to a light or alarm sound. These products are available in both Multi 9 Further options depending on model include > Display of R value to facilitate preventive maintenance. > Display of the network's C value. > Modbus serial link. > Alarm log. Advanced monitoring and fault location This architecture is simple to implement since there are no connections between the various modules.the IMD (IM400) injects a 2.5 Hz current and measures R and C using this current. When the IM400 indicates a fault, the maintenance team must locate and clear the fault. On a continuous process, this fault tracing operation cannot be done by tripping circuit breakers. The XD32 modules measure the 2.5 Hz current in each circuit and compare it with a threshold value. The fault can then be located without interference on the network. Advantage of the Schneider Electric offer Measurement and display of C Monitoring of C is essential on large networks since the C-related impedance can cause these networks to drift towards a TT arrangement, which would give rise to a dangerous contact voltage and a high fault current after an insulation fault. Only Schneider Electric displays the C value. Fault location without connection to the IMD This feature can simplify the implementation and use of the system. It also removes any limit on the number of XD32 locators. 6

9 A reliable and effective solution Per-feeder measurements for highly critical networks. Large networks and/or several buildings Easy to manage IT islands are ideal for large networks. If this is not possible, then it is per building or per critical circuit. Improvement of preventive maintenance Per-feeder measurements enable constant monitoring of the insulation change for each group of critical circuits. This gives the maintenance team a better overview of the entire network and the capability to anticipate issues. This feature, which is exclusive to Schneider Electric, can meet the following needs. Supervisor MT/BT MT/BT XLI300 XML36 XML308 XML36 Per-feeder measurement In this architecture, the XML products provide both the IMD function and per-feeder measurements. All measurements and time-stamped alarms are accessed via the supervisor. The XLI300 provides both a communication circuit breaker is closed (). This solution can also be combined with fault location by an XD product, thereby enabling fault location lower down in the network tree. () Exclusion The IMD injects a low frequency into the network. In a network with several incoming feeders, depending on the circuit breaker position, there must be no more than one IMD injecting into the network. This injection exclusion is managed by the XLI300 interface. At least one IMD, but no more than one, per subnetwork. 7

10 XAS XM200 XD32 défaut on P2 M M test reset P50 P00 XL308c XD308c test/reset test on P2 P50 P00 on P2 P50p P00 XML K XD M M test test reset Presentation Fault locating Fault locating Once detected, an insulation fault must be located and eliminated in order to guarantee Manual fault locating XGR IM0 IM20 Manual fault locating The fault is located by testing different points in the installation, one after another, using a Vigilohm System XRM mobile receiver and a current probe. The receiver captures the low-frequency fault locating signal. > the installation is equipped with an IM400 or an XM300C. In this case, the manual of the automatic locating system. > the installation (relatively small or a subnetwork) is equipped with an insulation monitoring device with a small measurement current (IM0, IM20). In this case, a Vigilohm XGR portable generator is used together with an XRM receiver. Automatic fault locating IM400 XRM XD32 Automatic fault locating For easy locating of insulation faults, the Vigilohm System makes it possible to combine the IM400 and XM300C insulation > XD30/XD32 fault detectors to monitor the different circuits of the installation. > XRM receivers for mobile fault locating. Fault locating in hospitals The safety of the patient and operating room staff is critical and standards prohibit measurement currents greater than ma. This is not compatible with automatic fault locating or the XGR portable generator. However, the need to have automatic fault > an insulation fault is rare in such a limited area. It is not not so urgent to localize the fault as the probability of having a second fault is close to zero. > it is easy to locate the fault by disconnecting equipment or sequentially opening the circuit breakers after using the room. Interface Supervisor XL308/36 XD308c Printer XRM Automatic fault locating with R & C measurement per feeder XML308/36 valeur d'isolement TEST MENU XRM XD32 8

11 Hospital: dedicated modules To secure power distribution and monitoring solution for operating theatres. Operating rooms require extremely high availability and quality of electric power to offer patients maximum safety. For this reason, the standards lay down very strict rules to ensure the continuity of service of electrical installations. What do the standards say? > In group 2 rooms for medical use, the medical IT system should be used for the circuits powering medical electrical equipment and systems for survival and surgical applications, and the other equipment located in the environment of the patient. > An audible and visual alarm must be provided in the room in question to alert medical personnel. > Operating activities must have continuity of electric power supply. > For the satisfactory operation of medical equipment, prevention of electromagnetic disturbances may be necessary. > Monitoring of overload and high temperature for the medical IT transformer is required. > An alarm should take place if the earth connection or the connection to the system is disconnected. IEC Our solution complies with international standard IEC and national standards and regulations IM0-H and HRP (Hospital Remote Panel) for the "Classic" solution > Graphic display. > Bargraph. > Smart HMI. > 8 languages. > Earth and injection connection monitoring. IM20-H as a brick of the advanced solution > Modbus Communication. > Datalog with timestamping of all events. > Transformer management: - secondary load current display, - alarm on threshold (in % of nominal current), - alarm on temperature through the sensor (bimetal). > IM20-H outputs can be connected to the HRP for a simple solution with transformer management. XD32-H for simple fault location in hospitals > Locating fault up to 2 feeders > Led per feeder > output contact > Compatible with IM0-H & IM20-H Simple and efficent > Audible and visual alarm for an insulation or electrical fault (transformer overload or circuit breaker tripping). > Testing of the insulation monitoring system. > Audible alarm stoppage. > 24 V DC power supply. > Antibacterial. > Tested with Anios products (disinfection products). > Complies with IEC (medical equipment). Hospital version specificities > Threshold minimum: 50 kohm. > Measurement current < ma. > Measurement voltage < 25 V. > Transformer monitoring (IM20-H). Hospital version specificities > Operating threshold 50K Ohm > Auxiliary supply voltage 220/240 VAC 9

12 Presentation Product selection according to type of installation Markets Industrial & Marine (for hospital, see page 7) Networks Small Networks Medium & Large Networks (2) Machine Off-line Motor Medium networks up to 60 µf (IT island) (3) Large network Simple fault location Measurement per Feeder Compatible control networks No No Yes Yes Yes Yes Yes Threshold + Alarm Yes Yes Yes Yes Yes Yes Yes R Display No No Yes Yes Yes Yes Yes AC Network Yes Yes Yes Yes Yes Yes Yes DC or AC with DC components Network No No Yes Yes Yes Yes Yes Communication No No No Yes Yes Yes Yes Automatic fault location compatible No No No No Yes Yes Yes C No No No Yes Yes Yes Yes Zc No No No Yes Yes No No Alarm Log No No No Yes Yes Yes Yes HV Subassembly No No No Yes Yes Yes Yes Motor Off-Line No Yes No No No No No Input for Injection inhibition No No No Yes Yes No No Form Factor Insulation Monitoring Device Multi 9 Insert screws for panel mount Panel Mount & DIN Rail (Multi 9 compatible) Panel Mount Platine Mount IM9 IM9-OL IM0 IM20 IM400 XM300C Panel Mount XML308/ 36 CPI + Measurement per feeder 0-45 V AC 25/250 V DC 380/45 V AC 5/27 or 220/240 or 380/45 V AC XD30 Fault Location Devices No No No No XD32/XD308C Measurement per feeder No No No No No XL308/36 Communication interfaces No No No No No XLI300 or XTU300 IM IM or PHT000 PHT000 Accessories () () Except IM9-OL. (2) Choice between IM0/IM20 and IM400 - see page 2. (3) 50µF in photovoltaic farms - see page 4. 0 Cardews - Limiting impedance (ZX) Mobile fault locating Toroids

13 Choosing the best architecture A variety of possibilities depending on the type of network. What kind of network? > > > IM20 range (IM0-H or IM20-H for hospitals). > A larger network for which fault location would IM400 + XDs. > A very large network for which main-circuit XML36 or XM300 + XL308/36 if the circuits are not in the same substation. > A photovoltaic farm (see page 3) Supervision and event logging Selection criteria the network to be supervised can also affect > is it a large network where it is preferable to measure the earth leakage capacitance? > is there a requirement for a prevention threshold indicating a change in insulation to less than a non-critical value set by the user? > is there coupling present in the network? > are there electrical disturbances generated by consumers such as variable-speed drives, UPSs, etc.? System choice Supervisor Printer There are three steps to choosing a system: AC, display, automatic fault location, additional features Interface XLI300 Select the appropriate locators (XD locators, XML or XL local measurement). Check whether an interface is necessary.> A very Permanent insulation monitoring XML308/36 XM300C IM400 IM20 IM0 IM9 Fault XD30 XD32 XL308/36 XD30/32/308C Sensors This system is scalable. It is simply a matter of adding devices to adapt it to changes in the network or in the degree of monitoring.

14 Presentation Selecting the correct device For monitoring different types of installation. IT system for part of an installation The requirement for continuity of supply may apply to only or a circuit subject to special conditions (safety lighting). In this case, it is recommended to use the IT system for this part of the installation, whatever the system used for general distribution. IMD = IM9 or IM0 or IM20 - Depending on the characteristics and function of the network (see table, page 0). In hospitals, for the operating rooms, it is necessary to use either the IM0-H or the IM20-H according to the desired functionalities. MV/LV MV/LV machine tool or robot TN or TT LV/LV CPI TN or TT CPI IT IT control/monitoring L L2 L3 N L L2 L3 N L L2 L3 LV/LV Sub-network Control and auxiliary circuits + DC sub-network _ CPI IT system for the entire installation The requirement for continuity of supply may apply to the entire installation or to a large sub-network. For this kind of network it is necessary to have a monitor compatible with the fault localization or the measurement par feeder. IMD = IM400 or XM300C (communication with a supervisor) or XML308/36 (local measurement) (see table, page 0). MV/LV MV/LV CPI L- L+ L L2 L3 N PHT 000 CPI Choice between IM0/IM20 and IM400 Automatic fault location The IM0/IM20 is not compatible with this feature; the IM400 is. Medium or large networks The limit is linked to the network capacitance as the it is necessary to take into account the cables and the loads. µf/km. devices Device Micro-computer UPS Variable speed controllers Fluorescent tubes (in ramp of 0) Network/earth capacity 20 nf to 40 nf 40 nf 70 nf 20 nf Off-line insultation monitoring Using motors in industrial processes creates further need for insulation monitoring. By checking insulation with power off, insulation faults can be determined before starting motors L L2 L3 M It is also possible to automatically prevent motor starting if the insulation resistance is below a certain threshold. CPI 2

15 The photovoltaic power system Photovoltaic is a unique application which introduces the following specifications: Selecting the IT Power System In industry, the IT power system is used when availability is required. It s the only grounding scheme that provides people Insulation Monitoring Devices such as Vigilohm provide then an insulation alarm but do not trig the interruption of the power system. In photovoltaic applications, the IT power system allows limiting of the faulty current. People safety against the risk of electric shock is provided by using class II DC power system (double isolation) in combination with class II PV modules. Within a grounded photovoltaic installation, an insulation fault may allow the circulation of an important faulty current with preventing any risk for the installation. However it is then required to correct the insulation fault reported by the IMD as in case of a second insulation fault the faulty current would be very important. Selecting the relevant Vigilohm device IM0 / IM20 / IM400 The IM400 is designed for the demanding applications including paralleled inverters. IM0 IM20 IM400 Insulation Monitoring Device 250kW 750kW 5MW Leakage Capacitance 40µF 50µF (2) 2000µF connection) (3) subassembly) (3) 345 V DC 600 V AC L-L N.A. 345 V DC 600 V AC L-L 000 VDC 700 V AC L-L Communication No Yes Yes 480 V DC 830 V AC L-L 200 V DC (4) 700 V AC L-L () Total power of the PV modules connected to the power system monitored by the IMD (3) In case of connection on the AC side of non isolated inverter, the device must be choice taking in account also the DC side voltage and then the higher value of both AC & DC. (4) 000 V DC with IM and 200 V DC with PHT000 3

16 The photovoltaic power system Architectures Non isolated inverter Isolated inverter On installation with non isolated inverter, the IMD can be placed either on AC or on the DC side. On installation with isolated inverter, the IMD must be placed on the DC side. Optionally an IMD can be placed on the AC side (if in IT power system). Non isolated inverter Isolated inverter Increased value of C a value of the leakage capacitance (C) much higher than those usually witnessed in industry. In industry, if the C value is very high, the impedance (Zc) linked to C could drive this network towards a TT network leading to risk of dangerous contact voltage and high faulty current. In photovoltaic applications like every DC applications, the high value of C has no consequences on people s safety nor on the faulty current. Determining the C value Increased values often occur regularly (a few seconds to a few minutes) during phases of low production. 4

17 Selecting a communication interface (for XM300C & XML308/36) The power of a communicating system. Connect all devices The power of the Vigilohm System lies in the capacity it offers for communication between all its devices, thereby ensuring insulation monitoring and complementary functions such as automatic locating of faults or the anticipation of their occurrence. supervisor or PLC In addition, the Vigilohm System is capable of communicating with a supervisor or a PLC, i.e. it can both transmit data to and receive data > via the internal Vigilohm System bus for communication between the devices; > communication interface. XML308 MV/LV XM300c MV/LV XLI300 XL308 Two interfaces > XLI300 interface, for the transmission of measurements and measurement parameters from the XM300C and XD308C devices to a supervisor. This interface is used on single busbar installations. on the same installation is managed automatically. One set of busbars with supervisor. supervisor or PLC > XTU300 interface, for communication between the Vigilohm System and a supervisor, like the XLI300 interface. This interface is required for installations with multiple busbars and bus coupler circuit found on the same installation and the link between the locators and their corresponding insulation monitoring devices. XML308 MV/LV XM300c MV/LV XTU300 Interface selection table Without supervision With supervision One XML308/36 device IMD with at least locator + set of busbars XLI300 IMD with at least locator + serveral sets of busbars with bus coupling XTU3000 XLI3000 XLI3000 XTU3000 Several sets of busbars with coupling and with or without supervisor. Application of the measurement voltage Internal Vigilohm System bus Modbus XL308 5

18 Insulation Monitoring Devices Vigilohm IM9 PB06370_47 Use IT systems: b LV AC installations up to: v 45 V ph-ph b one device only for each separate installation b isolated from earth or connected to earth through an impedance b remote test (for machine control). Operation b Injection of DC voltage. b An electronic device measures insulation from the leakage current created in the installation by the voltage injected between the installation and earth and trips the alarm pre-set by the user. Earth coupling capacitances do not affect insulation measurement. Installation and connection b Live part in moulded, insulating, disconnectable, modular case, eight 9 mm modules wide, with transparent sealable cover. b Horizontal or vertical mounting on symmetrical rail. b Connection by tunnel terminals for 2.5 mm² wiring. Standards b Product: IEC b Safety: IEC Vigilohm IM9 Type of installation to be monitored LV AC IT systems Phase-to-phase voltage with IM9 connected to neutral with IM9 connected to phase Frequency Limited in size Electrical characteristics 600 V AC max 480 V AC max Hz IT subsystem Fault signalling Number of thresholds 2 (sealable) Response time Device operating test Failsafe feature () Thresholds Pre-alarm: Alarm -2, Option on the front face y 7 s Local and remote Output contact Number (standard or failsafe) Maximum consumption Type of contact Breaking capacity AC 250 V DC 2 to 24 V Changeover 6 A 6 A 7 VA Impedance At 50 Hz Maximum current injected 70 µa Auxiliary supply voltage 50/60/400 Hz 5/45 V AC ±5 % Mechanical characteristics Weight DC 25/250 V DC ±5 % < 0.2 kg Thermoplastic case Mounting Horizontal or vertical Degree of protection Front IP40 Other characteristics Case IP20 Temperature range For operation -25 ºC to +55 ºC Climatic conditions (2) For storage -40 ºC to +70 ºC Standards Product IEC Fault locating with other device Mobile Safety IEC EMC IEC Marine DNV approval XGR portable generator and XRM receiver + probes ()Failsafe: the relay is disactivated either on occurrence of a fault or if the auxiliary supply voltage accidentally fails. (2) Suitable for use in all climates: b damp heat, equipment not operating (IEC ) b damp heat, equipment operating (IEC ) b salt mist (IEC ). Auxiliaries b Cardew C surge limiter (only downstream of MV/LV transformer): see page 33. b ZX impedance: see page 34. Commecial reference: IMD-IM9 6

19 Vigilohm IM9-OL (Off-Line) PB0637_47 Vigilohm IM9-OL Type of installation to be monitored LV AC IT / TT /TN-S systems (de-energised) Phase-to-phase voltage y 690 V () Frequency Hz DC (de-energised) Voltage between polarities y 690 V () Electrical characteristics Fault signalling Number of thresholds 2 Response time Device operating test Thresholds Prealarm Motor no start y 2 s Yes Use pumps, etc.) whatever the earthing system (IT / TT / TN-S). De-energised installations: b AC or DC (up to 690 V) b when associated with a circuit breaker possessing an MN or MX release or with a contactor, the IM9-OL protects motors against insulation faults that may be produced during operating shutdowns (e.g. due to condensation), by initiating an alarm or startup lock-out. Operation b Injection of DC voltage. Voltage is applied, with the motor de-energised, between the stator and earth, thereby creating a leakage current in the motor insulation resistances. b 2 pre-set thresholds: v prealarm threshold, adjustable in 8 steps v motor no start threshold, adjustable in 8 steps An electronic device measures insulation from the leakage current created by the voltage injected and activates the prealarm or prevents starting when insulation drops below the corresponding threshold. Installation and connection b Live part in moulded, insulating, disconnectable, modular case, eight 9 mm modules wide, with transparent sealable cover. b Horizontal or vertical mounting on symmetrical rail. b Connection: wires up to 2.5 mm². b The IM9-OL is used with a contact that opens to disconnect the device from the installation when the installation is energised. Motor no start inhibition Failsafe feature (2) As standard (3) Internal impedance DC Measurement voltage Measurement current At Hz By selector switch 20 V max 20 µa max Output contact Number 2 Motor no start standard Breaking Capacity Prealarm AC 250 V DC 2 to 24 V failsafe Auxiliary supply voltage 50/60/400 Hz 0/45 V AC ±5 % Mechanical characteristics Weight 6 A 6 A DC 25/250 V DC ±5 % < 0.2 kg Thermoplastic case Mounting Horizontal or vertical Degree of protection Front IP40 Other characteristics Case IP20 Temperature range For operation -25 ºC to +55 ºC Climatic conditions (4) For storage -40 ºC to +70 ºC Standards Product IEC Safety IEC EMC IEC Marine DNV approval ()Depends on rated voltage withstand of the contact used to disconnect the IM9-OL when the network is energised. (2) Failsafe: the relay is desactivated on occurrence of a fault or if the auxiliary supply voltage accidentally fails. (3) (4) Suitable for use in all climates: b damp heat, equipment not operating (IEC ) b damp heat, equipment operating (IEC ) b salt mist (IEC ). Commercial reference: IMD-IM9-OL Standards b Product: IEC b Safety: IEC

20 Insulation Monitoring Devices Vigilohm IM0 and IM20 PB06374_55 Use IT systems: b LV AC/DC installations up to: v 600 V AC max phase to phase v 345 V DC b For sub-networks or small networks up to 60 µf without automatic insulation fault detectors. b One device only for each separate installation. b Isolated from earth or connected to earth through an impedance. Operation b Injection of low-frequency AC voltages between the installation and the earth. Measurement b Insulation resistance. b Earth leakage capacitance (IM20). Indications b Satisfactory insulation resistance (green light). b Drop in insulation resistance: v below prevention threshold (white light) v below fault threshold (orange light + popup window) v window) v earth or injection connection lost. Display (8 languages (5) ) b All values, thresholds, settings are accessible on the graphic display. (5) French, English, Spanish, Italian, Portuguese, German, Russian, Chinese. Additional functions with IM20 b Modbus communication. b Earth leakage capacitance. b Impedance of the capacitance Zc. b Input injection inhibition (for easy exclusion management). b Datalog with timestamping of all events. b Compatible with HV plate IMD-IM for networks up to.7 kv. Installation b Module compatible with DIN rail and panel mounting. Vigilohm IM0 and IM20 Type of installation to be monitored LV AC / DC IT systems (4) Phase-to-phase voltage With IM0/IM20 connected to neutral With IM0/IM20 connected to phase Frequency 600 V AC max 480 V AC max Hz Line voltage 345 VDC max Limited in size Electrical characteristics Range for insulation resistance readings IT subsystem Range for capacitance readings (IM20) 0. µf to 60 µf (50 µf (5) ) Fault signalling Number of thresholds 2 (password protected) Prevent Fault Accuracy 5 % Response time Device operating test y 5 s typical Internal impedance At 50 Hz Failsafe feature () Self-test and manual (standard) Output contact Number (standard or failsafe) Type of contact Breaking Capacity AC 250 V DC 2 to 24 Input contact (injection inhibition input) Voltage supplied 24 V Circuit breaker position Minimum load 5 ma Time delay on signalling Changeover 6 A 6 A 0 s to 7200 s Auxiliary supply voltage 50/60/400 Hz 0 to 45 V AC ±5 % Maximum device consumption Measurement voltage Measurement current Dielectric strength Mechanical characteristics Weight DC 25/250 V DC ±5 % 2 VA 75 V peak <0.4 ma 4000 V AC / 5500 V DC 0.25 kg Thermoplastic case Mounting Panel or DIN rail Degree of protection Front IP52 Other characteristics Temperature range For operation -25 ºC to +55 ºC (65 ºC) (6) For storage -40 ºC to +70 ºC Climatic conditions (2) IEC Others Indoor use Altitude Pollution degree 2 Maximum overvoltage up to 3000m CAT III Standards Product IEC Marine Fault locating with other device and accessories Mobile HV plate reference Safety IEC 600- (3) Installation IEC EMC IEC DNV approval XGR portable generator and XRM receiver + probes IMD-IM (for networks up to.7 kv) ()Failsafe: the relay is disactivated either on occurrence of a fault or if the auxiliary supply voltage accidentally fails. (2) Suitable for use in all climates: b damp heat, equipment not operating (IEC ) b damp heat, equipment operating (IEC ) b salt mist (IEC ). (3) The assigned voltage is 45 V AC / 300 V DC according to the IEC (4) When the insulation monitor is linked to a non-insulated inverter it is necessary to take into account the DC voltage limit rather than the AC limit. (5) With a limited range for R. See the photovoltaic example page 3. (6) - Auxiliary power supply 230 V +5% max. - Utilization of the HV plate. Commecial references: b IMD-IM0 b IMD-IM20 8

21 Vigilohm IM0-H and IM20-H (For hospitals) PB06375_55 Use These modules are dedicated to hospital IT networks. Operation b Injection of a low-frequency AC voltage between the network and the earth. Measurement b Insulation measurement through the earth leakage current in the IMD. Indication b Satisfactory insulation resistance (green light). b Drop in insulation resistance below the fault threshold (orange light). b Earth or injection connection lost. Display (8 languages (3) ) b Insulation resistance. b Thresholds. b Alarms with dedicated pop-up windows. (3) French, English, Spanish, Italian, Portuguese, German, Russian, Chinese. Additional functions with IM20-H b Modbus communication. b Datalog with timestamping of all events. b Transformer management: v secondary load current display (in %) v alarm on a threshold (in % of nominal current) v alarm on temperature through the sensor (bimetal). v Accessories Hospital Remote Panel HRP (ref 5068) see pages 36 and 37. Or as part of the solution for operating theatres. Vigilohm IM0-H and IM20-H Type of installation to be monitored LV AC / DC IT systems Phase-to-neutral voltage y 230 V AC +5 % Frequency Electrical characteristics Range for insulation resistance readings y 230 V DC +5 % 50/60 Hz k M Fault signalling Number of thresholds (password protected) Response time Device operating test Failsafe feature () Thresholds As standard 50 k 500 k y s Internal impedance At 50 Hz 0 k Accuracy 5 % Output contact IM0-H Number (standard or failsafe) Type Breaking Capacity AC 250 V DC 2 to 24 V Output contact IM20-H Number 2 Type Breaking Capacity DC 2 to 48 V Yes Changeover 6 A 6 A Static y 50 ma Input contact Voltage supplied 24 V Transformer bimetal Minimum load 5 ma Auxiliary supply voltage 50/60 Hz 0/230 V AC ±5 % DC 25/250 V DC ±5 % Cable size 0.2 to 2.5 mm 2 Maximum device consumption Measurement voltage Measurement current Dielectric strength Mechanical characteristics Weight 2 VA 25 V max 0.2 ma 4000 V AC / 5500 V DC 0.25 kg Thermoplastic case Mounting Panel mount or DIN rail Degree of protection Front IP52 Installation Other characteristics Cat. III, pollution 2, moulded case, disconnectable assembly, symetrical or embedded Temperature range For operation -25 ºC to +55 ºC Climatic conditions (2) For storage -40 ºC to +70 ºC Standards Product IEC Safety IEC 600- EMC IEC Installation IEC () Failsafe: the relay is deactivated on occurrence of a fault or if the auxiliary supply voltage accidentally fails. (2) Suitable for use in all climates: b damp heat, equipment not operating (IEC ) b damp heat, equipment operating (IEC ) b salt mist (IEC ). Commercial references: b IMD-IM0-H b IMD-IM20-H Hospital fault location See page 26. 9

22 P O S S2 on P2 RM 0N P50 P00 Insulation Monitoring Devices Vigilohm IM400???????? Functions and characteristics Overall insulation monitoring The IM400 provides overall insulation monitoring of electrical installations by injecting a special signal between the installation and earth. The IM400 accurately measures insulation of systems that contain switching power electronics (speed drives, motor starters, inverters, Thyristors ) and DC components. The IM400 is compatible with the following applications: b Power Circuits. b Control Circuits. b Photovoltaic Systems. b Impedant IT systems (HRG). DB27888 Insulation monitoring Supervisor Insulation fault detection and locating Sensors IM400 Main functions b Measurement v insulation resistance. v earth leakage capacitance. b Indications v satisfactory insulation resistance (green light). v drop in insulation resistance: - below prevention threshold (white light and prevention relay actuated) - below fault threshold (yellow light and alarm relay actuated). v transient faults (yellow light blinking). v Loss of connection (wiring) of Vigilohm to the system or to earth. b Display: v measurements. v logging of events detected by IM400. v trend of system insulation during the last day, week, month, year. v all this data is accessible locally on the LCD screen of the IM400 and remotely via a built-in Modbus RS485 communication. Insulation fault locating Locating faulty circuits obtained by using the IM400 with XD30, XD32 and XD308C. In addition, an XRM mobile receiver and a current probe can determine the exact location of the fault on the faulty circuit. device at once is allowed to inject a voltage between earth and the installation downstream on the incoming circuit breaker. The system must therefore manage the exclusion of other monitoring devices. This is handled by either: v. v. In both cases, the injection inhibition input of the IM400 will be used. Communication IM400 has a built in Modbus RS485 port, it is used for remote monitoring and control. The IM400 complies with standards: b IEC 364, parts 4 and 5. b IEC b IEC b UL508 (pending). b C22.2 No 4-05CSA (pending). b DNV (pending). Installation b b Easy mounting in Prisma enclosures using the corresponding mounting plates and front plates that come with the appropriate cut-outs. b Wall mounting using inserts on the back of the IM400. Auxiliaries Cardew surge limiter: page 33. ZX impedance: page 34. IMD-IM : page 37. PHT000: page

23 . Display indicating: b the value of the overall insulation resistance R b other information as selected via function keys. 2. Red self-test light, indicating internal IM400 fault or wiring connection lost or over capacitance. 3. communication. 4. Green light, indicating a normal insulation value. Blinking indicates the injection inhibition. 5. White light, indicating a pre-alarm. 6. Yellow light, indicating an insulation fault. Blinking indicates a transient fault. 7. Function key to access the menu. 8. Function key to Escape to the previous screen. 9. Three contextual keys. Inverter without transformer () Vigilohm IM400 Type of installation to be monitored AC or mixed AC/DC IT systems () Phase-to-phase voltage with IM400 connected to neutral With IM400 connected to phase Frequency y 830 V AC ()(4) or 700 V AC (5) y 480 V AC ()(4) or 000 V AC (5) Hz Line voltage < 480 V DC ()(4) or 200 V DC (5)(6) Electrical characteristics Range for insulation resistance readings 0 Range for capacitance readings 0. µf to 500 µf applications) Signalling Number of thresholds 2 (protected password) Time delay for signaling Dielectric strength Threshold settings Insulation Alarm Preventative Insulation Alarm 0. k to 500 k k to M 0s to 7200s 4000 V AC / 5500 V DC 7.3 kv impulse Auxiliary supply voltage 50/60/400 Hz 00 to 440 V AC Auxiliary supply voltage tolerances +/-5 % Monitored system voltage tolerances Maximum device consumption DC IM400 directly connected +5% IM400 used with IM % 00 to 440 V DC 25 VA / 0W Measurement voltage Variable 5 Vp, 33 Vp, 20 Vp Measurement current Variable 375 Ap, 825 Ap, 3 map Fault Locating current Extraneous DC voltage Ufg 3.75 map 506 V 50 Hz/DC impedance 40 k (directly connected) Device test Output contact Quantity 2 Type of contact Breaking Capacity Injection inhibition (voltage supllied by the IM400) Installation Category Mechanical characteristics Weight AC 250 V DC 48 V Voltage Current Self-test / manual test Changeover 3 A A, 0 ma min. load 24 V DC 5 ma 300 V/OVC III, degree of polution V/OVC II, degree of polution kg Degree of protection Front face IP54 Other characteristics Multi-language display Tamperproof settings Back case IP20 8 languages Password Temperature range Operating -25ºC to +55ºC [65ºC (3) ] Storage Fault locating with other devices and accessories Automatic Manual HV plate commercial reference Detectors XD30/32/308C Mobile receiver XRM + probes -40ºC to +70ºC IMD-IM (for network up to.7 kv without fault location) (for network up to.7 kv with fault location) () When the insulation monitor is linked to a non insulated inverter it is necessary to take into account the DC voltage limit rather than the AC limit. (2) Failsafe: a failsafe relay operates in the event of an accidental interruption of auxiliary power or a fault. (3) With HV subassembly and % V AC power supply. (4) IM400 directly connected to the power system (5) IM400 used with IM or PHT000 subassemblies (6) 000 V DC with IM and 200 V DC with PHT000 Commercial reference: b IMD-IM400 2

24 o n P 2 R M 0 N P 0 0 P 5 0 X L I d é f a u t X M c X L 3 6 valeur d'isolement 040 K TEST MENU P O test 8 6 test/reset test S S2 Insulation Monitoring Devices Vigilohm XM300C 04448_SE_52 Functions and characteristics Overall insulation monitoring The XM300C provides overall insulation monitoring of electrical installations by injecting a low-frequency AC voltage between the installation and earth. Main functions b Measurement: v insulation resistance v earth leakage capacitance. b Indications: v satisfactory insulation resistance (green light) v drop in insulation resistance: - below prevention threshold (orange light and relay actuated) - below fault threshold (red light and two relay actuated, including one with failsafe feature). v transient faults (orange light). b Display: v measurements v events detected by any XL308/36 locators connected. All this data is accessible locally on the LCD screen of the insulating monitoring device and remotely via the Vigilohm System bus. Additional functions with other devices Locating faulty circuits obtained by using the XM300C with: b XL308 and XL36 locators connected to 8 or 6 toroids; they are linked to the XM300C by the Vigilohm System bus. b XD308C communicating detectors; they are linked to the XM300C by the Vigilohm System bus and connected to the toroids on the circuits being monitored. b XD30 and XD32 detectors connected to toroids on the circuits being monitored. b All these devices can be combined on a given installation. DB4028 Interfaces Insulation monitoring Insulation fault detection and locating XRM Sensors XLI300C XM300C XL308/36 Distributed measurements This function is provided by combining an XM300C (or an XML308/36) with XL308 or XL36 locators. These locators measure insulation resistance and earth leakage capacitance of each circuit. They have a fault alarm threshold that can be set to different levels for each channel. Communication XLI300 and XTU300 interfaces allow monitoring devices, locators, and communicating detectors to exchange data with a supervision system via Modbus protocol. The XLI300 and XTU300 interfaces connect to the Vigilohm System bus and allow timestamping of insulation monitoring events. one device at once is allowed to inject a voltage between earth and the installation downstream on the incoming circuit breaker. The system must therefore manage the exclusion of other monitoring devices and each locator must identify the monitoring device it is capturing the signal from. This is handled by either: b by the XTU300 interface for multiple busbar installations b by the XLI300 inrterface for single busbar installations. In both cases, the circuit breaker position indication contacts are wired to the digital inputs of the XM300C or the XML308/36. If only XD308C detectors are associated with the XM300C, monitoring device exclusion is handle by the XLI300. Standards The XM300C complies with the following standards: b IEC 364 parts 4 and 5 b IEC Installation and connection b b Easy mounting in Prisma enclosures using the corresponding mounting plates and front plates appropriate cutouts. b The devices are interconnected by shielded cables (double 0.75 mm 2 twisted pair). The coupling capacitance between pairs must not exceed 250 nf. 22

25 DB i. Display indicating: b the value of the overall insulation resistance R b other information as selected via function keys. 2. Red self-test light, indicating internal XM300C faults. 3. Light indicating that a transient fault has occurred. 4. Five lights indicating the insulation level. 5. Instruction manual stored in a drawer on the front face of the device. 6. Sealable cover ensuring tamperproof settings. 7. Function keys for: b accessing earth coupling capacitance readings b setting thresholds b displaying the value of the last transient insulation fault b choosing language. Auxiliaries b Cardew surge limiter: page 33. b ZX limiting impedance to create an impedanceearthed neutral: page 34. b PHT000 subassembly if the device is used on V installations: page 34. Vigilohm XM300C Type of installation to be monitored AC or mixed AC/DC IT systems (4) Phase-to-phase voltage with XM300C connected to neutral y % or 700 V AC () With XM300C connected to phase y % or 000 V AC () Frequency Hz Line voltage < 500 V DC or 200 V DC () Electrical characteristics Ohmmeter Digital Range for insulation resistance readings 0. k k Range for capacitance readings 0. µf to 999 µf Signalling Number of thresholds 2 (sealable settings) Dielectric strength Threshold settings st threshold (prevent) to 299 k 2nd threshold (fault) 0.2 to 99.9 k 2500 V Auxiliary supply voltage 50/60 Hz 5/27 V AC 220/240 V AC 380/45 V AC Auxiliary supply voltage tolerances -5 % to +0 % Maximum device consumption Measurement voltage Measurement current 30 VA 6 V max 5 ma max 50 Hz/DC impedance 22 k Device test Failsafe feature (2) As standard Self-test & manual test Output contacts Changeover Quantity 3 ( failsafe) Breaking capacity AC 400 V pf = A Circuit breaker position indication contacts (3) (voltage and current supplied by XLI or XTU interfaces) AC 230 V pf = 0.7 DC 220 V L/R = ms DC 48 V L/R = ms DC 24 V L/R = ms Voltage supplied Max current supplied 5 A 0.45 A 2.5 A 0 A 24 V 0 ma (short circuit) Connection cross-sections Rigid conductors to.5 mm 2 Inverter without transformer (4) Mechanical characteristics Weight Flexible conductors 0.75 to.5 mm kg Sheet-metal case Horizontal Disconnectable screw terminal block Degree of protection Flush mounting IP30 Other characteristics Interfacing possible with supervisor Multi-language display Tamperproof settings English/French Behind sealable cover Temperature range Operating -5 ºC to +55 ºC Fault locating with other device Automatic Manual Storage -25 ºC to +70 ºC Detectors XD30/32 Mobile receiver XRM + probes () The upper limit is extended to the second value by adding a PHT000 subassembly. (2)Failsafe: a failsafe relay operates in the event of an accidental interruption of auxiliary power or a fault. (3) This contact is an auxiliary switch mounted on the circuit breaker and used to indicate its operating status. (4) When the insulation monitor is linked to a non insulated inverter it is necessary to take into account the DC voltage limit rather than the AC limit. Commercial references: b 5/27 V AC: b 220/240 V AC: 5054 b 380/45 V AC:

26 o n P 2 R M 0 N P 0 0 P 5 0 X L I d é f a u t XML valeur d'isolement 040 K TEST MENU P O test S S2 Insulation Monitoring Devices Vigilohm XML308 and XML _SE_60 Functions and characteristics Overall and individual circuit insulation monitoring The XML308 and XML36 monitoring-locating devices combine the functions of: b the XM300C insulation monitoring device b XL308 or XL36 insulation fault locators, they monitor the insulation of: v the whole installation by injection of a low-frequency AC voltage between the installation and earth v 8 or 6 individual circuits via detection toroids. Main functions b Measurement of the overall installation and each monitored circuit: v insulation resistance v earth leakage capacitance. b Indications: v satisfactory insulation resistance (green light) v drop in insulation resistance: - for the overall installation, below prevention threshold (orange light and relay actuated) - for the overall installation and each monitored circuit, below adjustable fault threshold (red light and two relays actuated, including one with a failsafe feature). v transient faults (orange light) last three values stored v faulty circuit by 8 or 6 indicator lights ( per circuit). Display: v measurements accessible locally on the display unit of the device v events detected by connected XL308/36. All this data available on the LCD screen and remotely via Vigilohm System bus. Additional functions with other devices Monitor more than 8 or 6 circuits by adding: b XL308 or XL36 locators b XD308C to automatically detect faults and communicate via XLI300 or XTU300 b XD30 and XD32 detectors that provide local indications. DB40439 Interfaces Insulation monitoring Insulation fault detection and locating XRM Sensors XLI300C XML308/36 Communication XLI300 and XTU300 interfaces allow monitoring devices, locators, and communicating detectors to exchange data with a supervisor. The XLI300 and XTU300 interfaces connect to the Vigilohm System bus and allow timestamping of insulation monitoring events. one device at once is allowed to inject a voltage between earth and the installation downstream on the incoming circuit breaker. The system must manage the exclusion of other monitoring devices and each locator must identify the monitoring device it is capturing the signal from. This is handled by either: b the XTU300 interface for multiple busbar installations b the XLI300 inrterface for single busbar installations. In both cases, the circuit breaker position indication contacts are wired to the digital inputs of the XM300C or the XML308/36. Standards b IEC 364, parts 4 and 5 b IEC Toroids XML308 and XML36 can operate with type A, OA, and XS toroids. Installation and connection b b Easy mounting in Prisma enclosures using the corresponding mounting plates and front plates appropriate cutouts b The devices are interconnected by shielded cables (double 0.75 mm 2 twisted pair). The coupling capacitance between pairs must not exceed 250 nf. 24

27 DB27893 XML Display indicating: b the value of the overall insulation resistance R b other information as selected via function keys. 2. Red self-test light, indicating internal device faults. 3. Light indicating that a transient fault has occurred. 4. Five lights indicating the insulation level. 5. Instruction manual stored in drawer on front of device. 6. Sealable cover ensuring tamperproof settings. 7. Function keys for: b accessing earth coupling capacitance readings b setting thresholds b displaying three last values of transient insulation faults b reading measurements made on individual circuits by the internal locator b remote access to faults located by XL308 or XL36 detectors b choice of language (English or French). 8. Two indicator lights continuously display insulation level of the whole installation or 6 lights indicating faulty circuits. 0. Light indicating transient fault event. Auxiliaries b Cardew surge limiter: page 33. b ZX limiting impedance to create an impedanceearthed neutral: page 34. b PHT000 subassembly if the device is used on V installations: page 34. test i Vigilohm XML308 and XML36 Type of installation to be monitored AC or mixed AC/DC IT systems Phase-to-phase voltage with XM308/36 connected to neutral y 760 or 700 V AC () With XM308/36 connected to phase y 440 or 000 V AC () Frequency Hz Line voltage < 500 or 200 V DC () Electrical characteristics Ohmmeter Digital Range for insulation resistance readings 0. k k Range for capacitance readings 0. µf to 999 µf Signalling Number of thresholds per installation 2 (sealable settings) Number of thresholds per circuit (sealable settings) Threshold st threshold (prevent) to 299 k settings 2nd threshold (fault) 0.2 to 99.9 k Dielectric strength 2500 V Auxiliary supply voltage 50/60 Hz 5/27 V AC 220/240 V AC 380/45 V AC Auxiliary supply voltage tolerances -5 % to +0 % Maximum device consumption Measurement voltage 30 VA 6 V max Measurement current 5 ma max 50 Hz/DC impedance 22 k Device test Self-test & manual test Failsafe feature (2) As standard Output contacts Changeover Quantity 3 ( failsafe) Breaking capacity AC 400 V pf = A AC 230 V pf = A DC 220 V L/R = ms 0.45 A DC 48 V L/R = ms 2.5 A DC 24 V L/R = ms 0 A Circuit breaker position indication contacts (3) Voltage supplied 24 V (voltage and current supplied by XLI or XTU interfaces) Max current supplied 0 ma (short circuit) Connection cross-sections Rigid conductors to.5 mm 2 Mechanical characteristics Weight Flexible conductors 0.75 to.5 mm kg Sheet-metal case Horizontal Disconnectable screw terminal block Degree of protection Flush mounting IP30 Other characteristics Types of toroid used A, OA, (XS compliant) Interfacing possible with supervisor Multi-language display English/French Tamperproof settings Behind sealable cover Temperature range Operating -5 ºC to +55 ºC Storage -25 ºC to +70 ºC () The upper limit is extended to the second value by adding a PHT000 subassembly. (2)Failsafe: a failsafe relay operates in the event of an accidental interruption of auxiliary power or a fault. (3) This contact is an auxiliary switch mounted on the circuit breaker and used to indicate its operating status. Commercial references: b XML308: v 5/27 V AC: v 220/240 V AC: 5049 v 380/45 V AC: b XML36: v 5/27 V AC: v 220/240 V AC: v 380/45 V AC:

28 Fault Location Devices Vigilohm XD30 / XD32 / XD32-H Automatic insulation fault locators 04444_SE_52 Insulation fault detectors XD30 XD32 XD32-H Electrical characteristics Type of installation to be monitored Low voltage AC Hz / DC Hospital Operating threshold 2.5 ma at 2.5 Hz DB27894 Use XD30 & XD32 insulation fault locators have two functions: b fault detection (with respect to the fault threshold) b automatic locating of the faulty circuit. Operation b XD30 and XD32 insulation fault detectors are XM300C, XML308/36 and IM400 insulation monitoring devices. Via measurement toroids, they detect and automatically locate insulation faults. b The XD32-H is compatible with IM0-H and IM20-H. b The XD32/XD32-H detector, with 2 channels different circuits of the installation, includes the following features on its front face: v 2 fault indicator lights corresponding to 2 channels v a selector to enable or disable latching of transient fault indications until reset. b Detector XD30 is a single-channel version designed for use with one measurement toroid. Installation and connection b Live part is in an insulated case with a sealable, transparent sealable cover. Width equal to 8 (XD30) or 2 (XD32) 9 mm width modules. b b Tunnel terminals for.5 mm 2 wiring. Toroids b XD30 and XD32 insulation fault detectors operate with type A and OA toroids. They are also compatible with the older type N and O toroids. b The XD32-H must be used with the toroid TA XD32 test Polling time 20 s 20 s per channel Fault indications indicator light Local tests Clearing of indications Latching of transient fault indications Output relay Number of contacts failsafe Breaking capacity of output contacts AC 400 V pf = 0.7 AC 230 V pf = 0.7 DC 220 V L/R = ms DC 20 V L/R = ms DC 48 V L/R = ms DC 24 V L/R = ms 2 channel indicator lights (+ general) For indicator lights and output relay Reset button on device On/off via selector 3 A 5 A 0.45 A 0.65 A 2.5 A 0 A 50/60 Hz 5/27 V AC - 220/240 V AC 380/45 V AC - -5 % to +0 % Consumption Dielectric strength Connection with insulation monitoring device Mechanical characteristics 6 V A 2500 V None Weight 0.3 kg 0.6 kg Thermoplastic case Degree of protection Flush mount IP30 Other characteristics Surface mount Horizontal mounting IP20 Temperature range For operation -5 ºC to +55 ºC Types of toroids to be used Toroid for direct connection to case Fault locating with other device Mobile For storage -25 ºC to +70 ºC A, OA, (N and O compatible) TA30 30 & 50 mm type A None XGR portable generator and XRM receiver + probes ()The operating threshold of the XD30/32 detectors is not adjustable. These devices are Commercial references b XD30: v 5/27 V AC: v 220/240 V AC: v 380/45 V AC: b XD32: v 5/27 V AC: v 220/240 V AC: v 220/240 V AC: H v 380/45 V AC: reset To improve the toroid sensitivity it is necessary to have two loops (3 crossings) in the toroid Lights indicating the faulty circuit. 2. Selector to enable or disable transient fault indication latching 3. Sealable cover. 4. General fault indicator light. 5. Test button for indicator lights and output relay. 6. Reset button (to clear fault indications). 26

29 o n P 2 R M 0 N P 0 0 P 5 0 X L I d é f a u t X D c test reset test on P O S S2 Vigilohm XD308C Communicating automatic insulation fault locator 04443_SE_29 DB27895 XD308C test reset Lights indicating faulty circuit. 2. General fault indicator light. 3. Power on. 4. Test button for indicator lights. 5. Device internal fault indication (self-test). 6. Self-test fault indicator light. Use The XD308C provides 3 functions: b detection of insulation faults b by the number of the illuminated indicating light b communication of this information to an XLI300 or XTU300 interface for transmission to a supervisor or PLC. Operation b The XD308C is a fault locator with communication. When associated with an IM400 it enables a simple solution for remote fault location. It can also be used with the XM300C and the XML308/36. b The XD308C detector, with 8 channels connected of the installation, includes the following features: v 8 fault indicator lights corresponding to the 8 channels v general fault indicator light signalling that a fault has occurred v light indicating the device operating status v 2 pushbuttons (self-test and reset). Installation and connection b Live parts in a disconnectable metal case. b Vertical mounting on front plate. b Tunnel terminals for.5 mm 2 wires. b The devices are interconnected by shielded cables (double 0.75 mm 2 twisted pairs). Resistance between 250 nf. Toroids b XD308C insulation fault detectors operate with type A and OA toroids. They are also compatible with the older type N and O toroids. DB27887 Type of installation to be monitored Electrical characteristics Type of installation to be monitored Low voltage AC Hz /DC Operating threshold 2.5 ma at 2.5 Hz () Polling time Fault indications Operating tests Functions tested Clearing of memorised faults 20 s per channel 8 indicator lights Local Indicator lights and electronics Local reset on front face 50/60 Hz 5/27 V AC Remote reset from supervisor 220/240 V AC 380/45 V AC -5 % to +0 % Consumption 6 V A Dielectric strength Connection with insulation monitoring device Mechanical characteristics Weight Metal case with insulated front Degree of protection 2500 V Via 4-wire Vigilohm System bus 0.6 kg Vertical mounting Flush mount IP 30 Other characteristics Temperature range For operation -5 ºC to +55 ºC For storage -25 C to +70 C Types of toroids to be used A, OA, (N and O compatible) ()The operating threshold of the XD308C detectors is not adjustable. This device is designed depending on the characteristics of the installation. Commercial references b 5/27 V AC: b 220/240 V AC: b 380/45 V AC: Interfaces Insulation monitoring Insulation fault detection and locating XRM Sensors XLI300C IM400 XD308C 27

30 o n P 2 R M 0 N P 0 0 P 5 0 X L I d é f a u t X M c X L 3 6 valeur d'isolement 040 K TEST MENU P O test 8 6 test/reset test S S2 Measurement per feeder Vigilohm XL308 & XL36 Insulation fault local measurement 04445_SE_5 Functions and characteristics Basic function Local insulation fault monitoring. Used together with an XM300C or XML308/36 monitoring device, XL308 and XL36 locators monitor the insulation of 8 or 6 individual circuits and automatically locate any faults. Main functions b Measurement: v insulation resistance of each monitored circuit v earth leakage capacitance of each monitored circuit. b Indications: v satisfactory insulation resistance (green light) v drop in insulation resistance below fault threshold (red light and two relays actuated, including one with a failsafe feature). The fault threshold is adjustable for each of the 8 or 6 channels corresponding to the monitored circuits v transient faults on each of the monitored circuits. b Display: v faulty circuits are indicated by the corresponding LEDs (8 or 6 depending on the model) v Communication Faults detected by XL308/36 locators can be displayed on the insulation monitoring device associated with the locator. The information transmitted to the insulation monitoring device can be transmitted to a supervisor via an XLI300 or XTU300 interface connect to the Vigilohm System bus. Standards XL308 and XL36 locators comply with the following standards: b IEC 364, parts 4 and 5 b class DLD/M of UTE C They are implemented in accordance with standard NF C 5-00 paragraph 43.4 b IEC Toroids XL308 and XL36 locators operate with type A and OA toroids. DB4028 Interfaces Insulation monitoring XLI300C XM300C Installation and connection b b Easy mounting in Prisma enclosures using the corresponding mounting plates and front plates that come with the appropriate cut-outs. b The devices are interconnected by shielded cables (double 0.75 mm 2 twisted b Connection of toroids using twisted, shielded cable ( pair). Insulation fault detection and locating XRM XL308/36 Sensors 28

31 DB27896 XL test/reset F! i. Display indicating measured insulation resistance and earth coupling capacitance value. 2. Light indicating measurement units for displayed 3. Red self-test light, indicating device faults 4. Yellow light indicating that a transient fault has occurred lights indicating the insulation level: b green light: normal b red light: insulation resistance below fault threshold on one of the circuits. 6. Instruction manual stored in a drawer on the front face. 7. Function keys for: b accessing earth leakage capacitance readings b setting thresholds b accessing three last values of transient insulation faults. 8. Sealable cover ensuring tamperproof settings. 9. Lights indicating faulty circuits. Insulation fault locators XL308 XL36 Electrical characteristics Ohmmeter Range for insulation resistance readings Digital Range for capacitance readings 0. µf to 999 µf Signalling 8 lights (/channel) 6 lights (/channel) Signalling threshold and setting range (per channel) Polling time Device test Dielectric strength Fault threshold 0.2 to 99.9 k 5 seconds per channel Self-test and manual test 2500 V 50/60 Hz 5/27 V AC 220/240 V AC 380/45 V AC -5 % to +0 % Consumption Indicator and output relay Output relays Breaking capacity of output contacts AC 400 V pf = 0.7 AC 230 V pf = 0.7 DC 220 V L/R = ms DC 20 V L/R = ms DC 48 V L/R = ms DC 24 V L/R = ms Connection with insulation monitoring device 30 V A Local or from insulation monitoring device 2 ( failsafe) 3 A 5 A 0.45 A 0.65 A 2.5 A 0 A Connection cross-sections Rigid conductors to.5 mm 2 Via 4-wire communication bus 0.75 to.5 mm 2 Mechanical characteristics Weight Sheet-metal case Other characteristics 3.5 kg Horizontal mounting Temperature range For operation -5 C to +55 C Types of toroids to be used For storage -20 C to +70 C Disconnectable screw terminal block A, OA, (N and O compatible) Commercial references b XL308: v 5/27 V AC: v 220/240 V AC: v 380/45 V AC: b XL36: v 5/27 V AC: 5065 v 220/240 V AC: 5066 v 380/45 V AC:

32 Communication interfaces Vigilohm XLI300, XTU _SE_30 Use When two or more communicating devices (XM300C, XML308/36, XL308/36 or XD308C) are used or when communication with a supervisor is required, it is necessary to connect one (and only one) interface to the communication bus. Functions The interface allows communication between the Vigilohm System and a supervisor or PLC using a Modbus type protocol. It transmits the information provided by the Vigilohm System: b prevention and fault alarms from XM300C or XML308/36 monitoring devices b fault alarms from XML308/36 or XM308/36 locators b insulation resistance and capacitance measurements b threshold settings b from XD308C detectors. The interface also allows the thresholds to be set form the supervisor. As the IMD injects a low frequency into the network, it is necessary to have at least one IMD, but no more than one, per subnetwork. Exclusion This injection exclusion is managed by the interface. With two or several set of busbars with bus coupling, the exclusion becomes more complex and is managed by a PLC inside the XTU300. is made by Schneider Electric according to the wiring diagram. Device XLI300 / XTU300 Function Interface between the Vigilohm System bus and a supervisor or PLC b Power supply to Vigilohm System bus b Operates with Monitoring device XM300C b Maximum Mon./locating device XML308/36 b Locator XL308/36 b Detector XD30/32 - XD308C b Monitoring device XM300C and/or XML308/36 4 Locator XL308/36 8 Detector XD308C 8 Electrical characteristics Auxiliary supply voltage 50/60 Hz 5/27 V AC Maximum device consumption Dielectric strength Mechanical characteristics Weight Metal case with insulated front Degree of protection Degree of protection of front Other characteristics Interface possible with supervisor b Modbus connector Sub D 9-pin (not supplied) b Communication with other devices Via 4-wire data bus b 220/240 V AC 380/45 V AC 30 VA 2500 V.864 kg b IP30 IP40 Temperature range Operation -5 ºC to +55 ºC Storage -25 ºC to +70 ºC Installation Vertical mounting on front plate b Connection Vigilohm System bus.5 mm 2 tunnel terminals b External bus RS485 Sub D9 female connector b Communication Speed (baud) Adjustable Per fault 9600 Data length (bits) 8 Parity Start bits Stop bits Commercial references b XLI300 5/27 V AC: 5055 b XLI /240 V AC: 5056 b XLI /45 V AC: 5057 b XTU /240 V AC: () b XTU /45 V AC: () None () 30

33 P O S S2 on P2 RM 0N P50 P00 Accessories XRM mobile fault locating Receiver & current probes 05350_SE_25 Functions and characteristics Operation The XRM mobile receiver, used with a current probe, is mainly intended as an enhancement to automatic fault locating systems. It can be placed at various points along a faulty circuit, capturing the signal emitted by an XM300C, XML308/36 or IM400 insulation monitoring device to determine the exact location of the fault. Three current probes are available, the XP5, XP50 and XP00. The set of live conductors to be tested must have a maximum diameter of 2, 50 and 00 mm respectively. DB0070 XRM receiver. Display The XRM receiver displays a number from 0 to 9, corresponding to the insulation level: b 0: no fault b 9: solid fault (no insulation). Note: the photographs are for information purposes only. There are two types of probes that function in the same way but are different in shape and colour. DB0047_SE_50 The XP5, XP50 and XP00 current probes. DB27889 Insulation monitoring Insulation fault detection and locating XD30 XD32 XRM Sensors 3

34 Accessories Vigilohm mobile fault locating Kit XGR + XRM + probes 05330_SE_63 Presentation The mobile fault locating kit comes in the form of a case containing: b a locating signal generator, XGR, supplied with V AC b a locating signal receiver XRM b three tong-type current probes: XP5, XP50 and XP00. The devices making up the kit and the XGR for other voltages are all available individually. See catalogue number tables. Use The kit is used on LV IT systems (i.e. installations with an unearthed or impedance-earthed neutral). It enables fault locating on: b AC installations 50 to 400 Hz b DC installations. It is used mainly with insulation monitoring devices that inject DC currents (IM9) or too small AC current (IM0, IM20). Operation of the XGR b The XGR generator injects a 2.5 Hz AC voltage between the installation and the earth, thereby creating a leakage current which passes through the installation insulation impedance. b The XRM mobile receiver is associated with one of the three tong-type probes, XP5, XP50 or XP00, and detects this leakage current at 2.5 Hz. It displays a value between and 9 according to the current passing through the probe, thus detecting the leakage current. b Three current probes are available, the XP5, XP50 and the XP00, for cables with diameters up to 2, 50 and 00 mm respectively. Older probe models are not compatible with the XRM. DB0070 DB0047_SE_36 Type of installation to be monitored General LV AC or mixed AC/DC IT systems Phase-to-phase voltage with XGR connected to neutral y 760 V AC With XGR connected to phase y 440 V AC Frequency Hz Voltage between polarities 500 V DC Electrical characteristics Auxiliary supply voltage XGR 50/60 Hz 5/27 V AC Max consumption 220/240 V AC 380/45 V AC 5 VA XRM IEC alkaline 9 V cell PP3 or 6 LR6 type (not supplied) Display XRM Type Digital Scale 0 to 9 Calibration XRM By potentiometer Impedance XGR 40 k Maximum current injected XGR 2.5 ma Mechanical characteristics Weight XGR 0.85 kg XRM 0.2 kg Case XGR Plastic Portable XRM Plastic Portable Associated equipment Probes () XP5 For cables up to 2 mm XP50 For cables up to 50 mm XP00 For cables up to 00 mm Fault locating with other device Automatic Detectors XD30/32 Manual Mobile receiver XRM + probes () Maximum diameter of all live conductors together. Commercial references: b XRM: b XGR 5/27 V AC: 5028 b XGR 220/240 V AC: b XGR 380/45 V AC: b Empty case: b Kit case: 5030 b XP5 probe: b XP50 probe: b XP00 probe: _SE_ _SE_30 XRM locating signal receiver. XGR locating signal generator. 32

35 Vigilohm toroids Earth leakage current detectors 05352_SE_60 Toroids Use The toroids are used to detect the earth leakage currents. They are used with the Vigilohm System for the detection, locating and measurement of earth fault currents on IT systems. Closed toroids (type A) are suitable for new installations and extensions. Split toroids (type OA) are suitable for renovated installations and extensions. Closed toroids (type A). Functions These toroids detect leakage current and transmit a proportional signal to the associated receiver _SE_46 Compatibility All type A and OA toroids are compatible with the various devices of the Vigilohm System range: XD30, XD32, XD308C, XL308, XL36, XML308 and XML36. Installation and connection DB2790 Split toroids (type OA). N 23 PE DB279 N 23 PE Closed toroids (type A) b Enclosed in an insulated casing. b 2 possibilities for mounting: v diam mm on symmetrical rail v all diameters on plate and cables. b Connection: v diam. 30 to 200 mm by tunnel terminals for 0.22 mm 2 wires (minimum) v diam. 300 mm by 6.35 mm tab connectors. Split toroids (type OA) b Enclosed in an insulated casing b Mounting on plate and cable b Connection by 5 mm diam. screws for 0.22 mm 2 wires. (see table page 32) Immunity to line overcurrents Line overcurrents, due to motor starting or transformer energising, may result in unnecessary fault detection by the detector. A number of simple precautions can help prevent this from happening: when used together they are even more effective: b place the toroid on a straight part of the cable b carefully centre the cable in the toroid b use a toroid with a diameter far larger than the diameter of the cable (2 x diameter) Figure. Figure 2. For severe operating conditions, use of a mild steel sleeve placed around the cable, in the toroid, considerably increases immunity. Recommended characteristics b Mild steel foil, /0 mm thick, to be wound several times around the cable in the toroid (at least mm thick). b b Toroid-detector link: v resistance y v cross-sectional area of wires: 0.75 mm² to.5 mm². b Maximum length: 00 m (see the toroid user manual for details). 33

36 Accessories Vigilohm toroids Type A closed toroid, Type OA split toroid Sensors Type A closed toroid Type OA split toroid DB2795 DB2796 General characteristics Type of installation to be monitored LV 50/60/400 Hz & DC LV 50/60/400 Hz & DC Insulation voltage Ui 000 V 000 V Closed sensor b - Split sensor - b Operating temperature -35 ºC to +70 ºC -35 ºC to +70 ºC Storage temperature -55 ºC to +85 ºC -55 ºC to +85 ºC Degree of protection IP30 (IP20 connections) IP30 (IP20 connections) Electrical characteristics Transformation ratio /000 /000 3-phase short-circuit withstand current lcw of 00 ka/0.5 s b b Differential short-circuit withstand current l w of 85 ka/0.5 s (as per IEC in ka rms) b b Overvoltage category 4 4 Rated impulse withstand voltage Uimp (kv) 2 2 Sensor characteristics TA30 PA50 IA80 MA20 SA200 GA300 POA GOA Max cross-section area of conductors per phase (mm 2 of copper) x 85 2 x Mechanical characteristics Type of sensor Diameter (mm) Weight (kg) Diameter (mm) Weight (kg) Toroid TA30 Ø Toroid PA50 Ø Toroid IA80 Ø Toroid MA20 Ø Toroid SA200 Ø Toroid GA300 Ø Toroid POA Toroid GOA Mounting Horizontal or vertically on symmetrical DIN rail TA30, PA50, IA80, MA20 - TA30, PA50, IA80, MA20, SA200 POA, GOA On cable IA80, MA20, SA200, GA300 - Environment () Damp heat, equipment not operating (IEC ) 28 cycles +25 C/+55 C / HR 95 % 28 cycles +25 C/+55 C / HR 95 % Damp heat, equipment operating (IEC ) 48 hours, environment category C2 48 hours, environment category C2 Salt mist (IEC ) KB test, severity 2 KB test, severity 2 Degree of pollution (IEC ) () Allows use in all climates. Commercial references: b TA30: b PA50: b IA80: b SA200: 5044 b MA20: b GA300: b Open POA: b Open GOA: b 00 m cable (shielded):

37 Vigilohm auxiliaries Accessories for various installations (Cardew) 04857_SE_20 Auxiliary characteristics Cardew C surge limiter b On LV network with isolated or impedance earthed neutral. b Connected to the secondary of the MV/ LV transformer to discharge overvoltages to earth. b Capable of withstanding the short-circuit current of the transformer. b Its operation causes continuous indication on the insulation monitor. DB2792 DB27953 Ø70 MV/LV DB Ø3 cardew C Ø7 M2 DB L3 L2 L N Connection Characteristics b Non-arcing voltage at 50 Hz y.6 x nominal U. b Certain arcing voltage at 50 Hz >2.5 x nominal U (3 x nominal U for 220 V). b Maximum current after arcing: 40 ka/0.2 sec. b Insulation resistance > 0 0. b Cartridge not reusable. b Temperature range: v operating: -5 C to +40 C v storage: -25 C to +70 C. Standards b NF C 63-50, NF C b Weight: kg. Cardew selection table The selection depends on: b the operating voltage Un of the installation b the installation insulation level b the connection point (neutral-earth or phase-earth). Connecting conductor size b Cable or bar with a size adapted to the transformer rating. b The connecting conductor should be considered to be a protective conductor (PE) and the calculation of its crosssectional area must satisfy applicable installation standards, considering that this part of the installation is protected by protective devices located upstream of the MV/LV transformer. b According to standard IEC 364, the formula for the calculation of the of the size of conductor in mm 2, I is the fault current, t is the operating time of the protective device conductor. b Recommendation: if insulation monitoring is provided using the Vigilohm System, install a type A toroid on the Cardew earthing circuit in order to monitor operation of the Cardew. The toroid can be connected to an XD30/32 detector or an XL308/36 or XML308/36 locating device. Un: ph-ph operating voltage of AC installation Ui arcing voltage Cardew C Neutral distributed Neutral not distributed - type U y 380 V U y 220 V 400 V < Ui y 750 V 250 V 380 V < U y 660 V 220 V < U y 380 V 700 V < Ui y 00 V 440 V 660 V < U y 000 V 380 V < U y 660 V 00 V < Ui y 600 V 660 V 000 V < U y 560 V 660 V < U y 000 V 600 V < Ui y 2400 V 000 V 35

38 Accessories Vigilohm auxiliaries Accessories for various installations 09303_SE_20 ZX limiting impedance subassembly The ZX is not mandatory. The ZX prevents variation of potential so is useful if there is sensitive low-power equipment placed close to the MV/LV transformer, e.g. modem power supplies. DB2795 MV/LV L3 L2 L N Connection b Creates an installation with an impedance earthed neutral. b Remains connected during fault locating at 2.5 Hz: v v b U y 500 V AC. Dimension, mounting Weight: kg ZX 2 IMD DB Ø _SE_30 Commercial reference: 5059 PHT000 additional subassembly Connection b For use with Vigilohm System XM300C and XML308/36 on the following installations: v 440 V AC y U y 000 V AC neutral not accessible v 760 V AC y U y 700 V AC neutral, accessible v 500 V DC y U y 200 V DC: installation. DB27952 MV/LV 3 3 PHT XM Connection b For use with Vigilohm IM400 and fault location on the following installations: v 480 V AC y U y 000 V AC neutral not accessible v 830 V AC y U y 700 V AC neutral accessible v 480 V DC y U y 200 V DC DB2798 Dimension, mounting Weight: 2 kg 0 4 holes Ø

39 Vigilohm auxiliaries Selection table PB06376_32 HV-IM20 additional subassembly Connection b For use with Vigilohm System IM20 on the following installations: v 600 V AC y U y 700 V L-L AC neutral accessible v 440 V AC y U y 000 V L-L AC neutral not accessible v 345 V DC y U y 000 V DC It is recommended to have the subassembly close to the IM20 (max 3m) Dimension, mounting Weight: 0.2 kg 440 V < U < 000 V ~ L-L (injection on phase) 600 V < U < 700 V ~ L-L (injection on neutral) 345 VDC < U < 000 V DC Cardew C Wiring diagram Commercial reference: IMD-IM PB06376_32 HV-IM400 additional subassembly Connection b For use with Vigilohm System IM400 on the following installations: v 830 V AC y U y 700 V L-L AC neutral accessible v 480 V AC y U y 000 V L-L AC neutral not accessible v 480 V DC y U y 000 V DC It is recommended to have the subassembly close to the IM400 (max 3m) Dimension, mounting Weight: 0.2 kg 480 V < U < 000 V ~ L-L (injection on phase) 830 V < U < 700 V ~ L-L (injection on neutral) 480 VDC < U < 000 V DC Cardew C Wiring diagram Commercial reference: IMD-IM Selection of auxiliaries - some are required for Vigilohm installations, some are optional b Essential auxiliary v Optional auxiliary Vigilohm XM300C / XML308 / XML36 IM400 IM0 IM20 U < 760 V AC (3) 760 to 700 V AC (3) U < 440 V AC (4) 440 to 000 V AC (4) U < 500 V DC (5) 500 to 200 V DC (5) 250 V Cardew C () or b (7) b (7) b (7) b (7) V Cardew C () or b (7) b (7) b (7) b (7) V Cardew C () or b (7) b (7) b (7) b (7) b (7) V Cardew C () or b (7) b (7) b (7) 5083 Cardew C base v v v v v 5069 IM9 Commercial references IM subassembly v (2) IMD-IM IM subassembly v (8) IMD-IM ZX limiting impedance v v v v 5059 PHT000 additional subassembly bj v (6) () See choice of the type of Cardew C (250, 440, 600 or 000 V). (2) Required for IM20 used on installation with U > 440 V (neutral not accessible) or U> 600 V (neutral accessible). (3) Neutral distributed. (4) Neutral not distributed. (5) DC installation. (6) (7) Cardew C not required for DC installation (8) Required for IM400 used on installation with U > 480 V AC (neutral not accessible) or U > 830 V AC (neutral accessible) or U > 480 V DC 37

40 Accessories HRP Hospital Remote Panel PB05943_58 Presentation This accessory provides the interface for an electrical installation monitoring system in hospitals. Installed in the operating theatre, the Vigilohm HRP informs hospital personnel, in real time, of correct operation or the presence of a fault: b faulty insulation of operating theatre equipment b electrical fault following a circuit breaker trip or transformer overload. Use b Insulation fault signal light (orange). b Electrical fault signal light (red). b Correct operation signal light (green). b Push button to test installation insulation. b Push button to stop alarm buzzer. Vigilohm HRP Mechanical characteristics Weight 0.5 kg Case Plastic Vertical mounting Degree of protection IP54 IK08 Dimensions Height 70 mm Width Depth 70 mm 20 mm Buzzer Factory setting 80 db Electrical characteristics Auxiliary supply voltage 24 V DC 65 ma Environment Operating temperature 0 C to 40 C Storage temperature -25 C to +70 C Maximum relative humidity 90 % Altitude Standards 2000 m Complies with IEC Medical locations IEC IEC Electrical safety Medical electrical equipment Tested with Anios products (disinfection, antiseptis and detergency products). Commercial reference: PB05945 Visual alarm on insulation fault Right operation lamp Visual alarm on electrical fault (overload or overheating transformer or circuit-breaker fault tripping) Test button of the insulation monitoring system (daily test in compliance with IEC standard) Audible alarm stoppage, in case of insulation fault or electrical fault. The alarm volume setting is made at the mounting phase (available in the rear) 38

41 HRP and IM0-H or IM20-H DB27897 CPI Cabinet Electrical fault Insulation fault Vigilohm HRP CPI Cabinet 2 Electrical fault Insulation fault Vigilohm HRP Example architecture using IM0-H and HRP This monitoring system makes it possible, with the Vigilohm HRP in the operating room, to gather and display information concerning the alarms generated by the electrical installation. IM0-H wire electrical fault (CB fault tripping or transformer overload) HRP 2 wires (NC Contact) 2 wires (N, Earth) 2 wires (+24 V 0 V) ABL8MEM24003 Ex: ABL8MEM24003 DB27898 Example architecture 2 using IM20-H the HRP in the operating room and a global supervision The Modbus communication provides the nurses' room, and/or the maintenance personnel: b insulation value b transformer load level b alarms b timestamping of events. This enables event traceability. IM20-H Supervision 4 wires Modbus 3 wires (common, insulation fault, transformer monitoring) 2 wires (+24 V 0 V) HRP ABL8MEM24003 Existing or specfic power supply Ex: ABL8MEM

42 Dimensions and connections Installation and connection Product dimensions IM9, IM9-OL Mounting on symmetrical DIN rail Cutout DB Ø3.85 = ± ±0.3 = ±0.3 = = 72.5 ±0.4 IM0, IM20, IM0-H, IM20-H Mounting on symmetrical DIN rail Cutout DB ± ±0.4?????? IM400 Flush mounting RS DB27938 Cutout XM300C, XL308, XL36 Flush mounting 43.4 Cutout DB27899 DB XD30, XD32 Flush mounting Cutout Surface mounting DB XD30 2 Ø4.2 XD32 2 Ø4.2 DB27937 XD30 2 Ø4.2 XD32 2 Ø XD30 XD

43 XLI300, XTU300 Flush mounting Cutout DB27900 DB XD308C Flush mounting Cutout DB2790 DB XML308, XML36 Flush mounting Cutout DB27902 DB XRM + probes XRM manual receiver DB DB2794 Inside dimensions: XP5: 2 mm XP50: 50 mm XP00: 00 mm XP5, XP50 and XP00 probes. 4

44 Dimensions and connections Installation and connection Product dimensions XGR DB HRP Flush mounting DB27907 DB min. H Test D W H W D Weight 70 mm 70 mm 20 mm 0.5 kg Ø50 min. Ø80 max. () 2 2 () 42

45 Toroids (type A and OA) Flush mounting Type A Ø30 and Ø50 Types A Ø80 to Ø300 DB Ø4.5 DB27920 Ø Ø5 F E 6 F H 23 G K B 5 Ø C B 8 D J E C D L Type Ø B C D E F TA PA Type Ø B C D E F G H J K L IA MA SA GA Type A Ø30, type OA Ø46 and Ø0 DB27922 Ø5 B Ø L H Type Ø H L B POA GOA Mounting examples for Type A torids On XD30 detector Ø30 to Ø50 On rail Ø30 to Ø80 mm On plate or section Type A Ø30 to Ø200 mm _SE_ _SE_ _SE_45 On cable Ø20 to Ø300 mm 43

46 Dimensions and connections Installation and connection Product connection IM9 PB06370_32 DB27954 U y 600 V a L-N P+N L N A 3P U y 480 V a L-L L L2 L3 A 3P+N U y 600 V a L-L L L2 L3 N Va 6 A 0 A 6 A A IM9-OL PB0637_32 DB27955 U y 690 Va L-L 2P/3P KM 6 A 6 A Vc 6 A y 250 Va 6 A U y 690 Va L-L 3P KM 6 A 6 A Vc 6 A y 250 Va 6 A - KM3 6 A Va 6 A Va L L2 L3 - KM - F U V W U V M 3a M a L L2 L3 - KM - F U V W Ry 0 k M 3a - KM2 U2 V2 W2 3 x R - KM4 IM0, IM20 PB06374_32 DB27956 P+N U y 480 V a max. 3P U y 480 V L-L a max. 3P+N U y 600 V L-L a max. L L L L2 L2 L3 N L3 N DC U y 345 V --- max. A B C D A B C D 6 A A Va Failsafe wiring Standard wiring u 5 ma 24 V c 0 V D0 = A / Rx-, A / Tx- D = B / Rx+, B / Tx Vc 6 A y 250 Va 6 A 6 A Vc 6 A y 250 Va 6 A 6 A to 6: IM20 only 44

47 IM0-H PB06375_32 DB27957 L U Va N 6 A 6 A Relay setting: Failsafe (recommended) IM 0-H Relay setting: IM 0-H Standard Vigilohm HRP Vigilohm HRP IM20-H 04447_SE_32 DB27957 L U Va N IT transformer bimetal contact 24 VDC 5mA Shorting block 6 A 6 A Output setting: Failsafe 3 Vigilohm 2 HRP IM20-H Optional: Circuit Breaker Auxiliary Contacts (NC contacts) 0 V D0 = A / Rx-, A / Tx- D = B / Rx+, B / Tx+ Modbus RS

48 Dimensions and connections Installation and connection Product connection IM _SE_32 46

49 Dimensions and connections Installation and connection Product connection XM300C 04448_SE_32 Tunnel terminals for.5 mm² wiring DB ut ut fault (failsafe feature) fault prevention adress XM300C 4 Legend aa: a 5 %, +0 %, Hz ut: r: terminal 3: aa I 20 I V- B V+ S r DB fault (failsafe feature) DB27925 MT/BT 3 2 N ut fault cardew C 4 3 XM300C 5 4 MT/BT 3 2 cardew C 4 3 XM300C XM300C DB2796 * XM300C PHT000 aa V- B V+ S 2 3 r 47

50 XML308, XML _SE_60 Tunnel terminals for.5 mm² wiring Legend aa: a 5 %, +0 %, Hz ut: r: terminal 3: DB ut ut aa fault (failsafe feature) fault prevention address I 20 I V- B V+ S t9 t XML308 XML36 t t r DB fault (failsafe feature) DB27927 MV/LV 3 2 N ut fault cardew C 4 3 XML MV/LV 3 2 cardew C 4 3 XML XML

51 Dimensions and connections Installation and connection Product connection XD _SE_32 DB27928 t XD Tunnel terminals for.5 mm² wiring aa ut Legend aa: a 5 %, +0 %, Hz ut: t: toroid A or OA XD _SE_32 DB27929 n n XD32 n 2 Tunnel terminals for.5 mm² wiring aa ut Legend aa: a 5 %, +0 %, Hz ut: t: toroid A or OA XD308C 04443_SE_32 DB27930 aa 2 t t8 XD308c V B V+ S Tunnel terminals for.5 mm² wiring adress 4 8 Legend aa: a 5 %, +0 %, Hz t: toroid A or OA 49

52 XL308, XL _SE_60 DB2693 ut aa fault (failsafe feature) fault XL308 XL36 t9 t6 t t address V- B V+ S Tunnel terminals for.5 mm² wiring Legend aa: a 5 %, +0 %, Hz ut: t: toroid A or OA terminal 3: DB27926 ut fault (failsafe feature) fault XGR DB27890 DB26932 a.a DB26933 MV/LV 3 2 N XGR CPI XGR Legend aa r: r DB CPI XGR 50

53 Dimensions and connections Installation and connection Product connection XLI300, XTU300 DB27949 not used RS RS485 : GND 4 : B'(RD-) 5 : B(TD-) 8 : A'(RD+) 9 : A(TD+) 8 V- 7 B 6 V+ 5 S 2 aa b Never connect more than one interface to the Vigilohm System bus. b To connect devices to the communication bus (shielded, double twisted pair) it is recommended to interconnect their respective terminals S, B, V+ and V-. XLI300 Sub D9 RS485 signal ground 4 received data - 5 transmitted data - 8 received data + 9 transmitted data + 3 Example of line connection DB27935 XM300c V- B V+ S XL308 XL36 V- B V+ S XD308c V- B V+ S XML308 XML36 V- B V+ S XLI300 XTU300 XAS V- B V+ S HRP PB05943_42 DB mm² max V c 4.5 ma 34 V c 4.5 ma +24 V c 65 ma 0V c N Electrical fault Common Insulation fault Auxiliary power supply 5

54 Commercial references Vigilohm insulation monitoring PB06370_5 PB06374_ _SE_20 Vigilohm commercial references IM9 IM9-OL IM0 & IM20 IM0-H & IM20-H IM400 Product Auxiliary supply voltage Reference Insulation monitoring device IM9 0/45 V AC 50/60 Hz IMD-IM9 Off-line insulation monitoring device IM9-OL 0/45 V AC 50/60 Hz IMD-IM9-OL Insulation monitoring devices IM0 0/45 V AC 50/60 Hz IMD-IM0 IM20 0/45 V AC 50/60 Hz IMD-IM20 Insulation monitoring devices for hospitals IM0-H 0/240 V AC 50/60 Hz IMD-IM0-H IM20-H 0/240 V AC 50/60 Hz IMD-IM20-H Insulation monitoring device IM400 0/440 V AC/DC 50/60/400 Hz IMD-IM _SE_20 XM300C Insulation monitoring device XM300C 5/27 V AC 50/60 Hz XM300C 220/240 V AC 50/60 Hz 5054 XM300C 380/45 V AC 50/60 Hz _SE_ _SE_ _SE_2 XML308 & XML36 XD30 & XD32 XD308C Monitoring-locating devices XML308 5/27 V AC 50/60 Hz XML /240 V AC 50/60 Hz 5049 XML /45 V AC 50/60 Hz XML36 5/27 V AC 50/60 Hz XML36 220/240 V AC 50/60 Hz XML36 380/45 V AC 50/60 Hz Automatic insulation fault detectors XD30 5/27 V AC 50/60 Hz XD30 220/240 V AC 50/60 Hz XD30 380/45 V AC 50/60 Hz XD32 5/27 V AC 50/60 Hz XD32 220/240 V AC 50/60 Hz XD32-H 220/240 V AC 50/60 Hz H XD32 380/45 V AC 50/60 Hz Communicating automatic insulation fault detector XD308C 5/27 V AC 50/60 Hz XD308C 220/240 V AC 50/60 Hz XD308C 380/45 V AC 50/60 Hz _SE_22 XL308 & XL36 Insulation fault locators XL308 5/27 V AC 50/60 Hz XL /240 V AC 50/60 Hz XL /45 V AC 50/60 Hz XL36 5/27 V AC 50/60 Hz 5065 XL36 220/240 V AC 50/60 Hz 5066 XL36 380/45 V AC 50/60 Hz

55 Commercial references Vigilohm insulation monitoring 05350_SE_0 PB0047_SE_ _SE_5 Vigilohm commercial references XGR & XRM & probes XLI300 & XTU300 Product Voltage range Reference Mobile fault locating Kit case: XGR (50282) + XRM + XP5 + XP50 + XP XRM XGR 5/27 V AC 50/60 Hz 5028 XGR 220/240 V AC 50/60 Hz XGR 380/45 V AC 50/60 Hz XP5 probe XP50 probe XP00 probe Empty case Communication interfaces XLI300 5/27 V AC 50/60 Hz 5055 XLI /240 V AC 50/60 Hz 5056 XLI /45 V AC 50/60 Hz 5057 XTU /240 V AC 50/60 Hz () XTU /45 V AC 50/60 Hz () 05352_SE_ _SE_ _SE_0 Toroids Auxiliaries (2) Earth leakage current detectors TA PA IA MA SA GA Open POA Open GOA m cable (shielded) 5036 Accessories for various installations 250 V Cardew C V Cardew C V Cardew C V Cardew C 5083 Cardew C base _SE_8 HV-IM subassembly IMD-IM HV-IM subassembly IMD-IM ZX limiting impedance 5059 PHT000 additional subassembly HRP 5068 PB05943_22 () (2) 53