MiCOM P34x P342, P343, P344, P345 & P391
Generator Protection Relay
P34x/EN M/J96
Software Version 36 Hardware Suffix J (P342) K (P343/P344/P345) A (P391)
Technical Manual
Note The technical manual for this device gives instructions for its installation, commissioning, and operation. However, the manual cannot cover all conceivable circumstances or include detailed information on all topics. In the event of questions or specific problems, do not take any action without proper authorization. Contact the appropriate Schneider Electric technical sales office and request the necessary information.
Any agreements, commitments, and legal relationships and any obligations on the part of Schneider Electric including settlements of warranties, result solely from the applicable purchase contract, which is not affected by the contents of the technical manual.
This device MUST NOT be modified. If any modification is made without the express permission of Schneider Electric, it will invalidate the warranty, and may render the product unsafe.
The Schneider Electric logo and any alternative version thereof are trademarks and service marks of Schneider Electric.
All trade names or trademarks mentioned herein whether registered or not, are the property of their owners.
This manual is provided for informational use only and is subject to change without notice.
2011, Schneider Electric. All rights reserved.
MiCOM P34x (P342, P343, P344, P345 & P391) Contents
CONTENTS
Section No Description Publication Reference
Safety Information Pxxx/EN SI/G12
1 Introduction P34x/EN IT/J96
2 Technical Data P34x/EN TD/J96
3 Getting Started P34x_P341/EN GS/J96
4 Settings P34x/EN ST/J96
5 Operation P34x/EN OP/J96
6 Application Notes P34x/EN AP/J96
7 Programmable Logic P34x/EN PL/J96
8 Measurements and Recording P34x/EN MR/J96
9 Firmware Design P34x/EN FD/J96
10 Commissioning P34x/EN CM/J96
11 Maintenance P24x_P341_P34x/EN MT/I96
12 Troubleshooting Pxxx/EN TS/De7
13 SCADA Communications P34x/EN SC/J96
14 Symbols and Glossary Pxxx/EN SG/A03
15 Installation P34x/EN IN/J96
16 Firmware and Service Manual Version History P34x/EN VH/J96
P34x/EN CO/J96 Page (CO) 1
Contents MiCOM P34x (P342, P343, P344, P345 & P391)
Page (CO) 2 P34x/EN CO/J96
Notes:
MiCOM Pxxx SI Safety Information
SAFETY INFORMATION
CHAPTER SI
Pxxx/EN SI/G12 Page SI-1
SI Safety Information MiCOM Pxxx
Page SI-2 Pxxx/EN SI/G12
Contents SI Safety Information
CONTENTS
1 INTRODUCTION 5
2 HEALTH AND SAFETY 6
3 SYMBOLS AND LABELS ON THE EQUIPMENT 7 3.1 Symbols 7 3.2 Labels 7
4 INSTALLING, COMMISSIONING AND SERVICING 8
5 DE-COMMISSIONING AND DISPOSAL 11
6 TECHNICAL SPECIFICATIONS FOR SAFETY 12 6.1 Protective Fuse Rating 12 6.2 Protective Class 12 6.3 Installation Category 12 6.4 Environment 12
Pxxx/EN SI/G12 Page SI-3
SI Safety Information Contents
Page SI-4 Pxxx/EN SI/G12
Notes:
Introduction SI Safety Information
1 INTRODUCTION
This guide and the relevant equipment documentation provide full information on safe handling, commissioning and testing of this equipment. This Safety Information section also includes reference to typical equipment label markings.
Documentation for equipment ordered from Schneider Electric is dispatched separately from manufactured goods and may not be received at the same time. Therefore this guide is provided to ensure that printed information which may be present on the equipment is fully understood by the recipient.
The technical data in this Safety Information section is typical only, see the technical data section of the relevant product publication(s) for data specific to a particular equipment.
WARNING Before carrying out any work on the equipment the user should be familiar with the contents of this Safety Information section and the ratings on the equipments rating label.
Reference should be made to the external connection diagram before the equipment is installed, commissioned or serviced.
Language-specific, self-adhesive User Interface labels are provided in a bag for some equipment.
Pxxx/EN SI/G12 Page SI-5
SI Safety Information Health and Safety
2 HEALTH AND SAFETY
The information in the Safety Information section of the equipment documentation is intended to ensure that equipment is properly installed and handled in order to maintain it in a safe condition.
It is assumed that everyone who will be associated with the equipment will be familiar with the contents of that Safety Information section, or this Safety Guide.
When electrical equipment is in operation, dangerous voltages will be present in certain parts of the equipment. Failure to observe warning notices, incorrect use, or improper use may endanger personnel and equipment and also cause personal injury or physical damage.
Before working in the terminal strip area, the equipment must be isolated.
Proper and safe operation of the equipment depends on appropriate shipping and handling, proper storage, installation and commissioning, and on careful operation, maintenance and servicing. For this reason only qualified personnel may work on or operate the equipment.
Qualified personnel are individuals who:
Are familiar with the installation, commissioning, and operation of the equipment and of the system to which it is being connected;
Are able to safely perform switching operations in accordance with accepted safety engineering practices and are authorized to energize and de-energize equipment and to isolate, ground, and label it;
Are trained in the care and use of safety apparatus in accordance with safety engineering practices;
Are trained in emergency procedures (first aid). The equipment documentation gives instructions for its installation, commissioning, and operation. However, the manuals cannot cover all conceivable circumstances or include detailed information on all topics. In the event of questions or specific problems, do not take any action without proper authorization. Contact the appropriate Schneider Electric technical sales office and request the necessary information.
Page SI-6 Pxxx/EN SI/G12
Symbols and Labels on the Equipment SI Safety Information
3 SYMBOLS AND LABELS ON THE EQUIPMENT
For safety reasons the following symbols and external labels, which may be used on the equipment or referred to in the equipment documentation, should be understood before the equipment is installed or commissioned.
3.1 Symbols
Caution: refer to equipment documentation
Caution: risk of electric shock
Protective Conductor (*Earth) terminal
Functional/Protective Conductor (*Earth) terminal
Note: This symbol may also be used for a Protective Conductor (Earth) Terminal if that terminal is part of a terminal block or sub-assembly e.g. power supply.
*CAUTION: The term Earth used throughout this technical manual is the direct equivalent of the North American term Ground.
3.2 Labels See Safety Guide (SFTY/4L M) for typical equipment labeling information.
Pxxx/EN SI/G12 Page SI-7
SI Safety Information Installing, Commissioning and Servicing
4 INSTALLING, COMMISSIONING AND SERVICING
Manual Handling
Plan carefully, identify any possible hazards and determine whether the load needs to be moved at all. Look at other ways of moving the load to avoid manual handling. Use the correct lifting techniques and Personal Protective Equipment to reduce the risk of injury.
Many injuries are caused by: Lifting heavy objects Lifting things incorrectly Pushing or pulling heavy objects Using the same muscles repetitively. Follow the Health and Safety at Work, etc Act 1974, and the Management of Health and Safety at Work Regulations 1999.
Equipment Connections
Personnel undertaking installation, commissioning or servicing work for this equipment should be aware of the correct working procedures to ensure safety.
The equipment documentation should be consulted before installing, commissioning, or servicing the equipment.
Terminals exposed during installation, commissioning and maintenance may present a hazardous voltage unless the equipment is electrically isolated.
The clamping screws of all terminal block connectors, for field wiring, using M4 screws shall be tightened to a nominal torque of 1.3 Nm.
Equipment intended for rack or panel mounting is for use on a flat surface of a Type 1 enclosure, as defined by Underwriters Laboratories (UL).
Any disassembly of the equipment may expose parts at hazardous voltage, also electronic parts may be damaged if suitable ElectroStatic voltage Discharge (ESD) precautions are not taken.
If there is unlocked access to the rear of the equipment, care should be taken by all personnel to avoid electric shock or energy hazards.
Voltage and current connections shall be made using insulated crimp terminations to ensure that terminal block insulation requirements are maintained for safety.
Watchdog (self-monitoring) contacts are provided in numerical relays to indicate the health of the device. Schneider Electric strongly recommends that these contacts are hardwired into the substation's automation system, for alarm purposes.
To ensure that wires are correctly terminated the correct crimp terminal and tool for the wire size should be used.
The equipment must be connected in accordance with the appropriate connection diagram.
Protection Class I Equipment Before energizing the equipment it must be earthed using the protective conductor
terminal, if provided, or the appropriate termination of the supply plug in the case of plug connected equipment.
The protective conductor (earth) connection must not be removed since the protection against electric shock provided by the equipment would be lost.
When the protective (earth) conductor terminal (PCT) is also used to terminate cable screens, etc., it is essential that the integrity of the protective (earth) conductor is checked after the addition or removal of such functional earth connections. For M4 stud PCTs the integrity of the protective (earth) connections should be ensured by use of a locknut or similar.
The recommended minimum protective conductor (earth) wire size is 2.5 mm (3.3 mm for North America) unless otherwise stated in the technical data section of the equipment documentation, or otherwise required by local or country wiring regulations.
The protective conductor (earth) connection must be low-inductance and as short as possible.
Page SI-8 Pxxx/EN SI/G12
Installing, Commissioning and Servicing SI Safety Information
All connections to the equipment must have a defined potential. Connections that are pre-wired, but not used, should preferably be grounded when binary inputs and output relays are isolated. When binary inputs and output relays are connected to common potential, the pre-wired but unused connections should be connected to the common potential of the grouped connections.
Pre-Energization Checklist
Before energizing the equipment, the following should be checked: Voltage rating/polarity (rating label/equipment documentation); CT circuit rating (rating label) and integrity of connections; Protective fuse rating; Integrity of the protective conductor (earth) connection (where applicable); Voltage and current rating of external wiring, applicable to the application.
Accidental Touching of Exposed Terminals
If working in an area of restricted space, such as a cubicle, where there is a risk of electric shock due to accidental touching of terminals which do not comply with IP20 rating, then a suitable protective barrier should be provided.
Equipment Use
If the equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.
Removal of the Equipment Front Panel/Cover
Removal of the equipment front panel/cover may expose hazardous live parts, which must not be touched until the electrical power is removed.
UL and CSA/CUL Listed or Recognized Equipment
To maintain UL and CSA/CUL Listing/Recognized status for North America the equipment should be installed using UL or CSA Listed or Recognized parts for the following items: connection cables, protective fuses/fuseholders or circuit breakers, insulation crimp terminals and replacement internal battery, as specified in the equipment documentation.
For external protective fuses a UL or CSA Listed fuse shall be used. The Listed type shall be a Class J time delay fuse, with a maximum current rating of 15 A and a minimum d.c. rating of 250 Vd.c., for example type AJT15.
Where UL or CSA Listing of the equipment is not required, a high rupture capacity (HRC) fuse type with a maximum current rating of 16 Amps and a minimum d.c. rating of 250 Vd.c. may be used, for example Red Spot type NIT or TIA.
Equipment Operating Conditions
The equipment should be operated within the specified electrical and environmental limits.
Current Transformer Circuits
Do not open the secondary circuit of a live CT since the high voltage produced may be lethal to personnel and could damage insulation. Generally, for safety, the secondary of the line CT must be shorted before opening any connections to it.
For most equipment with ring-terminal connections, the threaded terminal block for current transformer termination has automatic CT shorting on removal of the module. Therefore external shorting of the CTs may not be required, the equipment documentation should be checked to see if this applies.
For equipment with pin-terminal connections, the threaded terminal block for current transformer termination does NOT have automatic CT shorting on removal of the module.
External Resistors, including Voltage Dependent Resistors (VDRs)
Where external resistors, including Voltage Dependent Resistors (VDRs), are fitted to the equipment, these may present a risk of electric shock or burns, if touched.
Battery Replacement
Where internal batteries are fitted they should be replaced with the recommended type and be installed with the correct polarity to avoid possible damage to the equipment, buildings and persons.
Pxxx/EN SI/G12 Page SI-9
SI Safety Information Installing, Commissioning and Servicing
Insulation and Dielectric Strength Testing
Insulation testing may leave capacitors charged up to a hazardous voltage. At the end of each part of the test, the voltage should be gradually reduced to zero, to discharge capacitors, before the test leads are disconnected.
Insertion of Modules and PCB Cards
Modules and PCB cards must not be inserted into or withdrawn from the equipment whilst it is energized, since this may result in damage.
Insertion and Withdrawal of Extender Cards
Extender cards are available for some equipment. If an extender card is used, this should not be inserted or withdrawn from the equipment whilst it is energized. This is to avoid possible shock or damage hazards. Hazardous live voltages may be accessible on the extender card.
External Test Blocks and Test Plugs
Great care should be taken when using external test blocks and test plugs such as the MMLG, MMLB and MiCOM P990 types, hazardous voltages may be accessible when using these. *CT shorting links must be in place before the insertion or removal of MMLB test plugs, to avoid potentially lethal voltages.
*Note: When a MiCOM P992 Test Plug is inserted into the MiCOM P991 Test Block, the secondaries of the line CTs are automatically shorted, making them safe.
Fiber Optic Communication
Where fiber optic communication devices are fitted, these should not be viewed directly. Optical power meters should be used to determine the operation or signal level of the device.
Cleaning
The equipment may be cleaned using a lint free cloth dampened with clean water, when no connections are energized. Contact fingers of test plugs are normally protected by petroleum jelly, which should not be removed.
Page SI-10 Pxxx/EN SI/G12
De-commissioning and Disposal SI Safety Information
5 DE-COMMISSIONING AND DISPOSAL
De-commissioning
The supply input (auxiliary) for the equipment may include capacitors across the supply or to earth. To avoid electric shock or energy hazards, after completely isolating the supplies to the equipment (both poles of any dc supply), the capacitors should be safely discharged via the external terminals prior to de-commissioning.
Disposal
It is recommended that incineration and disposal to water courses is avoided. The equipment should be disposed of in a safe manner. Any equipment containing batteries should have them removed before disposal, taking precautions to avoid short circuits. Particular regulations within the country of operation, may apply to the disposal of the equipment.
Pxxx/EN SI/G12 Page SI-11
SI Safety Information Technical Specifications for Safety
Page SI-12 Pxxx/EN SI/G12
6 TECHNICAL SPECIFICATIONS FOR SAFETY
Unless otherwise stated in the equipment technical manual, the following data is applicable.
6.1 Protective Fuse Rating The recommended maximum rating of the external protective fuse for equipments is 16A, High Rupture Capacity (HRC) Red Spot type NIT, or TIA, or equivalent. Unless otherwise stated in equipment technical manual, the following data is applicable. The protective fuse should be located as close to the unit as possible.
DANGER CTs must NOT be fused since open circuiting them may produce lethal hazardous voltages.
6.2 Protective Class IEC 60255-27: 2005 Class I (unless otherwise specified in the equipment
documentation).
EN 60255-27: 2005 This equipment requires a protective conductor (earth) connection to ensure user safety.
6.3 Installation Category IEC 60255-27: 2005 Installation Category III (Overvoltage Category III)
EN 60255-27: 2005 Distribution level, fixed installation.
Equipment in this category is qualification tested at 5 kV peak, 1.2/50 s, 500 , 0.5 J, between all supply circuits and earth and also between independent circuits.
6.4 Environment The equipment is intended for indoor installation and use only. If it is required for use in an outdoor environment then it must be mounted in a specific cabinet of housing which will enable it to meet the requirements of IEC 60529 with the classification of degree of protection IP54 (dust and splashing water protected).
Pollution Degree Pollution Degree 2 Compliance is demonstrated by reference to safety standards.
Altitude Operation up to 2000m
MiCOM P34x (P342, P343, P344, P345 & P391) (IT) 1 Introduction
INTRODUCTION
CHAPTER 1
P34x/EN IT/J96 Page (IT) 1-1
(IT) 1 Introduction MiCOM P34x (P342, P343, P344, P345 & P391)
Page (IT) 1-2 P34x/EN IT/J96
Date: November 2011
Hardware Suffix: J (P342) K (P343/P344/P345) A (P391)
Software Version: 36
Connection Diagrams:
10P342xx (xx = 01 to 17)
10P343xx (xx = 01 to 19)
10P344xx (xx = 01 to 12)
10P345xx (xx = 01 to 07)
10P345xx (xx = 01 to 07)
10P391xx (xx =01 to 02)
Contents (IT) 1 Introduction
CONTENTS
Page (IT) 1-
1 DOCUMENTATION STRUCTURE 5
2 INTRODUCTION TO MiCOM 7
3 PRODUCT SCOPE 8 3.1 Functional Overview 8 3.2 Application Overview 12 3.3 Ordering Options 12
FIGURES
Page (IT) 1-
Figure 1 - Functional diagram 12
TABLES
Page (IT) 1-
Table 1 - Functional overview 11
P34x/EN IT/J96 Page (IT) 1-3
(IT)1 Introduction Tables
Page (IT) 1-4 P34x/EN IT/J96
Notes:
Documentation Structure (IT) 1 Introduction
1 DOCUMENTATION STRUCTURE
The manual provides a functional and technical description of the MiCOM protection relay and a comprehensive set of instructions for the relays use and application.
The chapter contents are summarised below:
P34x/EN IT 1. Introduction
A guide to the range of relays and the documentation structure. General safety aspects of handling Electronic Equipment is discussed with particular reference to relay safety symbols. Also a general functional overview of the relay and brief application summary is given.
P34x/EN TD 2. Technical Data
Technical data including setting ranges, accuracy limits, recommended operating conditions, ratings and performance data. Compliance with norms and international standards is quoted where appropriate.
P34x_P341/EN GS 3. Getting Started
A guide to the different user interfaces of the protection relay describing how to start using it. This chapter provides detailed information regarding the communication interfaces of the relay, including a detailed description of how to access the settings database stored within the relay.
P34x/EN ST 4. Settings
List of all relay settings, including ranges, step sizes and defaults, together with a brief explanation of each setting.
P34x/EN OP 5. Operation
A comprehensive and detailed functional description of all protection and non-protection functions.
P34x/EN AP 6. Application Notes
This chapter includes a description of common power system applications of the relay, calculation of suitable settings, some typical worked examples, and how to apply the settings to the relay.
P34x/EN PL 7. Programmable Logic
Overview of the Programmable Scheme Logic (PSL) and a description of each logical node. This chapter includes the factory default and an explanation of typical applications.
P34x/EN MR 8. Measurements and Recording
Detailed description of the relays recording and measurements functions including the configuration of the event and disturbance recorder and measurement functions.
P34x/EN FD 9. Firmware Design
Overview of the operation of the relays hardware and software. This chapter includes information on the self-checking features and diagnostics of the relay.
P34x/EN IT/J96 Page (IT) 1-5
(IT) 1 Introduction Documentation Structure
P34x/EN CM 10. Commissioning
Instructions on how to commission the relay, comprising checks on the calibration and functionality of the relay.
Pxxx/EN MT 11. Maintenance
A general maintenance policy for the relay is outlined.
Pxxx/EN TS 12. Troubleshooting
Advice on how to recognise failure modes and the recommended course of action. Includes guidance on whom within Schneider Electric to contact for advice.
P34x/EN SC 13. SCADA Communications
This chapter provides an overview regarding the SCADA communication interfaces of the relay. Detailed protocol mappings, semantics, profiles and interoperability tables are not provided within this manual. Separate documents are available per protocol, available for download from our website.
Pxxx/EN SG 14. Symbols and Glossary
List of common technical abbreviations found within the product documentation.
P34x/EN IN 15. Installation
Recommendations on unpacking, handling, inspection and storage of the relay. A guide to the mechanical and electrical installation of the relay is provided, incorporating earthing recommendations. All external wiring connections to the relay are indicated.
P34x/EN CS 16. Cyber Security
Information about Cyber Security and how it applies to this product.
P34x/EN VH 17. Firmware and Service Manual Version History
History of all hardware and software releases for the product.
Page (IT) 1-6 P34x/EN IT/J96
Introduction to MiCOM (IT) 1 Introduction
2 INTRODUCTION TO MiCOM
MiCOM is a comprehensive solution capable of meeting all electricity supply requirements. It comprises a range of components, systems and services from Schneider Electric.
Central to the MiCOM concept is flexibility.
MiCOM provides the ability to define an application solution and, through extensive communication capabilities, integrate it with your power supply control system.
The components within MiCOM are:
P range protection relays; C range control products; M range measurement products for accurate metering and monitoring; S range versatile PC support and substation control packages. Our products include extensive facilities for recording information on the state and behavior of the power system using disturbance and fault records. They can also provide measurements of the system at regular intervals to a control center enabling remote monitoring and control to take place.
For up-to-date information on any MiCOM product, visit our website:
www.schneider-electric.com
P34x/EN IT/J96 Page (IT) 1-7
(IT) 1 Introduction Product Scope
3 PRODUCT SCOPE
The P342/P343/P344/P345 generator protection relays have been designed for the protection of a wide range of generators.
The P342 is suitable for protection of small to medium size generators (1-10 MVA) or can be used as back-up protection for larger generators.
The P343 is suitable for protection of medium to large size generators (>10 MVA) or more important generators, providing generator differential, 100% stator earth fault via a 3rd harmonic measuring technique, pole slipping and unintentional energisation at standstill protection in addition to the features of the P342.
The P344 is similar to the P343 but includes a second neutral voltage input for earth fault/interturn protection.
The P345 is suitable for protection of large generators (>50 MVA) providing 100% stator earth fault protection via a low frequency injection technique in addition to the features of the P344.
The P343/P344/P345 also includes 10 function keys for integral scheme or operator control functionality and tri-color (red/yellow/green) LEDs. Rotor earth fault protection is provided by the P391 low frequency square wave injection, coupling and measurement unit connected to the rotor circuit. The measurement of the rotor resistance is passed to the P342/P343/P344/P345 via a current loop output (0-20 mA) on the P391 connected to one of the 4 current loop inputs on the P342/P343/P344/P345. The rotor ground fault protection is only available if the relay includes the CLIO hardware option.
3.1 Functional Overview The P342/P343/P344/P345 generator protection relays contain a wide variety of protection functions. The protection features are summarized below:
Protection Functions Overview P34x
87 Two types of differential protections are provided in P343/P344/P345, (1) generator differential protection and (2) generator - transformer protection.
1. Phase segregated generator differential protection is provided for high speed discriminative protection for all fault types. The differential protection can be selected as biased or high impedance or interturn.
2. Phase-segregated generator-transformer biased differential protection is provided for high-speed discriminative protection for all fault types. The differential protection includes ratio and vector compensation and 2nd/5th harmonic blocking for magnetizing inrush conditions.
P343 / P344 / P345
64 Restricted earth fault is configurable as a high impedance or a biased low impedance element. This can be used to provide high speed earth fault protection and is mainly applicable to small machines where differential protection is not possible or for transformer applications. The CT input is selectable as IA-1/IB-1/IC-1 or IA-2/IB-2/IC-2 via a setting.
P342 / P343 / P344 / P345
32R, 32L, 32O
Two definite time stages of power protection are provided and each stage can be independently configured to operate as Reverse Power (RP), OverPower (OP) or Low Forward Power (LFP) protection. The direction of the power measured by the protection can be reversed by selecting the operating mode, generating/motoring. The power protection can be used to provide simple back-up Overload Protection (OP), protection against motoring (RP, generating mode), CB interlocking to prevent overspeeding during machine shutdown (LFP, generating mode) and loss of load protection (LFP, motoring mode). The relays provide a standard 3-phase power protection element and also a single phase power protection element which can be used with a dedicated metering class CT using the sensitive current input.
P342 / P343 / P344 / P345
40 A two stage offset mho definite time impedance element is provided to detect failure of the machine excitation. A power factor alarm element is also available to offer more sensitive protection.
P342 / P343 / P344 / P345
Page (IT) 1-8 P34x/EN IT/J96
Product Scope (IT) 1 Introduction
P34x/EN IT/J96 Page (IT) 1-9
Protection Functions Overview P34x
46T Negative phase sequence thermal overload protection is provided to protect against unbalanced loading which can cause overheating in the rotor. Both alarm and trip stages are provided.
P342 / P343 / P344 / P345
51V, 21 A voltage dependent overcurrent (controlled or restrained) or underimpedance protection is provided for back-up protection of phase faults. The voltage dependent overcurrent protection may be set as controlled or restrained with an Inverse Definite Minimum Time (IDMT) or Definite Time (DT). There are 2 stages of underimpedance protection which may be set as definite time only.
P342 / P343 / P344 / P345
50/51/67 Four overcurrent protection stages are provided which can be selected to be either non-directional, directional forward or directional reverse. Stages 1 and 2 may be set Inverse Definite Minimum Time (IDMT) or Definite Time (DT); stages 3 and 4 may be set DT only. The CT input is selectable as IA-1/IB-1/IC-1 or IA-2/IB-2/IC-2 via a setting.
P342 / P343 / P344 / P345
46OC Four definite time stages of negative phase sequence overcurrent protection are provided for remote back-up protection for both phase to earth and phase to phase faults. Each stage can be selected to be either non-directional, directional forward or directional reverse. The CT input is selectable as IA-1/IB-1/IC-1 or IA-2/IB-2/IC-2 via a setting.
P342 / P343 / P344 / P345
49G Generator thermal overload protection based on I1 and I2 is provided to protect the stator/rotor against overloading due to balanced and unbalanced currents. Both alarm and trip stages are provided.
P342 / P343 / P344 / P345
49T Transformer thermal overload protection is provided based on IEEE Std C57.91-1995. The thermal trip can be based on either hot spot or top oil temperature, each with three time-delayed stages available.
P342 / P343 / P344 / P345
50N/51N Two stages of non-directional earth fault protection are provided for stator earth fault protection. Stage 1 may be set Inverse Definite Minimum Time (IDMT) or Definite Time (DT); stage 2 may be set DT only.
P342 / P343 / P344 / P345
64R Rotor earth fault protection can be provided by a low frequency injection method. There are 2 stages of definite time under resistance protection. An external injection, coupling and measurement unit (P391) is required with this function. The measurement of the rotor resistance is passed to the P34x via a current loop output (0-20 mA) on the P391 connected to one of the 4 current loop inputs on the P34x. The rotor ground fault protection is only available if the relay includes the CLIO hardware option. The injection frequency is selectable 0.25/0.5/1 Hz via a jumper link in the P391
P342 / P343 / P344 / P345
67N/67W One sensitive earth fault element is provided for discriminative earth fault protection of parallel generators. The protection can be selected to be either non-directional, directional forward or directional reverse. Either Zero sequence or negative sequence polarizing is available.
The Sensitive Earth Fault element can be configured as an cos, Isin or Vcos (Wattmetric) element for application to isolated and compensated networks.
P342 / P343 / P344 / P345
59N Residual overvoltage protection is available for stator earth fault protection where there is an isolated or high impedance earth. The residual voltage can be measured from a broken delta VT, from the secondary winding of a distribution transformer earth at the generator neutral, or can be calculated from the three phase to neutral voltage measurements. Two independent stages of protection are provided for each measured neutral voltage input and also for the calculated value, each stage can be selected as either IDMT or DT. The P342/P343/P344/P345 have 2 measured and 2 calculated stages of residual overvoltage protection. The P344/P345 has an additional neutral voltage input and so has an additional 2 stages of measured residual overvoltage protection.
P342 / P343 / P344 / P345
27TN/59TN A 3rd harmonic voltage element is provided to detect earth fault close to the generator star point. This element combined with the standard stator earth fault protection (59N/50N/51N) provides 100% stator earth fault protection.
A definite time 3rd harmonic undervoltage element is provided if neutral voltage measurement is available at the neutral of the machine. This element is supervised by a 3-phase undervoltage element and optionally by 3-phase W/VA/VAr elements. A 3rd harmonic overvoltage element is provided if neutral voltage measurement is available from the terminals of the machine.
P342 / P343 / P344 / P345
64S 100% stator earth fault protection can also be provided by a low frequency injection method. There are 2 stages of definite time under resistance protection and 1 stage of definite time overcurrent protection. An external 20 Hz generator and bandpass filter is required with this function.
P345
(IT) 1 Introduction Product Scope
Page (IT) 1-10 P34x/EN IT/J96
Protection Functions Overview P34x
24 A five-stage overfluxing (V/Hz) element is provided to protect the generator, or connected transformer, against overexcitation. The first stage is a definite time alarm, the second stage can be used to provide an inverse or definite time trip characteristic and stages 3/4/5 are definite time.
P342 / P343 / P344 / P345
81R A 4-stage rate of change of frequency element (df/dt) is provided for Loss of Mains/Grid and load shedding applications.
P342 / P343 / P344 / P345
50/27 A voltage supervised overcurrent scheme is provided for dead machine/generator unintentional energisation at standstill (GUESS) protection to detect if the machine circuit breaker is closed accidentally, when the machine is not running. The CT input is selectable as IA-1/IB-1/IC-1 or IA-2/IB-2/IC-2 via a setting.
P342 / P343 / P344 / P345
27 A 2-stage undervoltage protection element, configurable as either phase to phase or phase to neutral measuring is provided to back up the automatic voltage regulator. Stage 1 may be selected as either IDMT or DT and stage 2 is DT only.
P342 / P343 / P344 / P345
59 A 2-stage overvoltage protection element, configurable as either phase to phase or phase to neutral measuring is provided to back up the automatic voltage regulator. Stage 1 may be selected as either IDMT or DT and stage 2 is DT only.
P342 / P343 / P344 / P345
47 A definite time negative phase sequence overvoltage protection element is provided for either a tripping or interlocking function upon detection of unbalanced supply voltages.
P342 / P343 / P344 / P345
81U/O A 4-stage definite time underfrequency and 2-stage definite time overfrequency protection is provided for load shedding and back-up protection of the speed control governor.
P342 / P343 / P344 / P345
81AB Turbine abnormal frequency protection is provided to protect the turbine blade from potential damage due to prolonged under/overfrequency operation of the generator. Up to six frequency bands can be programmed, each having an integrating timer to record the time spent within the band.
P342 / P343 / P344 / P345
RTD 10 RTDs (PT100) are provided to monitor the temperature accurately in the windings and bearings of the machine. Each RTD has an instantaneous alarm and definite time trip stage.
Option P342 / P343 / P344 / P345
50BF A 2-stage circuit breaker failure function is provided with a 3 pole initiation input from external protection.
P342 / P343 / P344 / P345
37P/37N Phase, neutral and sensitive earth fault undercurrent elements are available for use with for example the circuit breaker fail function.
P342 / P343 / P344 / P345
78 A lens shaped impedance characteristic is used to detect loss of synchronization (pole slipping) between the generation and the power system. Two zones are created by a reactance line which is used to distinguish whether the impedance centre of the pole slip is located in the power system or in the generator. Separate counters are used to count pole slips in the 2 zones. A setting is also provided to determine whether the protection operates in a generating mode, motoring mode or both.
P342 / P343 / P344 / P345
BOL Blocked overcurrent logic is available on each stage of the overcurrent, earth fault and sensitive earth fault protection. This consists of start outputs and block inputs that can be used to implement busbar blocking schemes for example.
P342 / P343 / P344 / P345
VTS Voltage transformer supervision is provided (1, 2 & 3-phase fuse failure detection) to prevent mal-operation of voltage dependent protection elements on loss of a VT input signal.
P342 / P343 / P344 / P345
CTS Current transformer supervision is provided to prevent mal-operation of current dependent protection elements upon loss of a CT input signal.
P342 / P343 / P344 / P345
CLIO 4 analog (or current loop) inputs are provided for transducers (vibration, tachometers etc.). Each input has a definite time trip and alarm stage and each input can be set to operate for Over or Under operation. Each input can be independently selected as 0-1/0-10/0-20/4-20 mA.
4 analogue (or current loop) outputs are provided for the analogue measurements in the relay. Each output can be independently selected as 0-1/0-10/0-20/4-20 mA.
Option P342 / P343 / P344 / P345
25 Check synchronizing (2-stage) with advanced system split features and breaker closing compensation time is provided. The P345 includes a dedicated voltage input for check synchronizing. For the P344 the VN2 input can be used for neutral voltage protection or check synchronizing. For the P342/P343 the VN1 input can be used for neutral voltage protection or check synchronizing.
P342 / P343 / P344 / P345
Product Scope (IT) 1 Introduction
P34x/EN IT/J96 Page (IT) 1-11
Protection Functions Overview P34x
Phase rotation - the rotation of the phases ABC or ACB for all 3-phase current and voltage channels can be selected. Also, for pumped storage applications where 2 phases are swapped the swapping of 2 phases can be emulated independently for the 3-phase voltage and 3-phase current channels.
P342 / P343 / P344 / P345
Programmable function keys 10 (P343 / P344/ P345)
Programmable LEDs (tri-color P343/P344/P345, red P342) 18 (P343 / P344/ P345) 8 (P342)
Digital inputs (order option) 7 to 32
Output relays (order option) 8 to 32
Front communication port (EIA(RS)232) P342 / P343 / P344 / P345
Rear communication port (KBUS/EIA(RS)485). The following communications protocols are supported; Courier, MODBUS, IEC870-5-103 (VDEW) and DNP3.0.
P342 / P343 / P344 / P345
Rear communication port (Fibre Optic). The following communications protocols are supported; Courier, MODBUS, IEC870-5-103 (VDEW) and DNP3.0.
Option P342 / P343 / P344 / P345
Second rear communication port (EIA(RS)232/EIA(RS)485). Courier protocol. Option P342 / P343 / P344 / P345
Rear IEC 61850 Ethernet communication port. Option P342 / P343 / P344 / P345
Rear redundant IEC 61850 Ethernet communication port Option P342 / P343 / P344 / P345
Time synchronization port (IRIG-B) Option P342 / P343 / P344 / P345
Table 1 - Functional overview
The P34x supports these relay management functions in addition to those shown above.
Measurement of all instantaneous & integrated values Circuit breaker control, status & condition monitoring Trip circuit and coil supervision 4 Alternative setting groups Programmable function keys (P343/P344/P345) Control inputs Programmable scheme logic Programmable allocation of digital inputs and outputs Sequence of event recording Comprehensive disturbance recording (waveform capture) Fault recording Fully customizable menu texts Multi-level password protection Power-up diagnostics and continuous self-monitoring of relay Commissioning test facilities
(IT) 1 Introduction Product Scope
Real time clock/time synchronization - time synchronization possible from IRIG-B input, opto input or communications
3.2 Application Overview
Figure 1 - Functional diagram
3.3 Ordering Options The following information is required with an equipment order:
Page (IT) 1-12 P34x/EN IT/J96
Product Scope (IT) 1 Introduction
P34x/EN IT/J96 Page (IT) 1-13
(IT) 1 Introduction Product Scope
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Product Scope (IT) 1 Introduction
P34x/EN IT/J96 Page (IT) 1-15
(IT) 1 Introduction Product Scope
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Product Scope (IT) 1 Introduction
P34x/EN IT/J96 Page (IT) 1-17
(IT) 1 Introduction Product Scope
Page (IT) 1-18 P34x/EN IT/J96
Notes:
Contents (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-1
TECHNICAL DATA
CHAPTER 2
(TD) 2 Technical Data Contents
Page (TD) 2-2 P34x/EN TD/J96
Date: November 2011
Hardware Suffix: J (P342) K (P343/P344/P345) A (P391)
Software Version: 36
Connection Diagrams:
10P342xx (xx = 01 to 17)
10P343xx (xx = 01 to 19)
10P344xx (xx = 01 to 12)
10P345xx (xx = 01 to 07)
10P391xx (xx =01 to 02)
Contents (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-3
CONTENTS
Page (TD) 2-
1 MECHANICAL SPECIFICATIONS 5
2 POWER SUPPLY 9
3 ENVIRONMENTAL CONDITIONS 13
4 TECHNICAL DATA P391 18
5 PROTECTION FUNCTIONS 23
6 SETTINGS, MEASUREMENTS AND RECORDS LIST 42
7 PROTECTION FUNCTIONS 48
TABLES
Page (TD) 2-
Table 1 - Interface Transmitter optical characteristics 100 base FX interface 7 Table 2 - Receiver optical characteristics 100 base FX interface 7 Table 3 - Typical repetitive shots 12 Table 4 - IDMT characteristics 52
FIGURES
Page (TD) 2-
Figure 1 - Hysteresis of the pole slipping characteristic 35 Figure 2 - Negative phase sequence thermal characteristic 51 Figure 3 - Current/Time Curves 54 Figure 4 - IDG Characteristic 57
(TD) 2 Technical Data Figures
Page (TD) 2-4 P34x/EN TD/J96
Notes:
Mechanical Specifications (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-5
1 MECHANICAL SPECIFICATIONS
1.1.1 Design
Modular Px40 platform relay, P342 in 40TE or 60TE case, P343 in 60TE or 80TE case, P344/P345 in 80TE case. Mounting is front of panel flush mounting, or 19 rack mounted (ordering options).
1.1.2 Enclosure Protection
Per IEC 60529: 1992: IP 52 Protection (front panel) against dust and dripping water, IP 50 Protection for rear and sides of the case, against dust, IP 10 Protection Product safety protection for the rear due to live connections on the terminal block.
1.1.3 Weight
Product Case Weight
P342 (40TE): 7.9kg
P342 (60TE): 9.2kg
P343 (60TE): 11.5kg
P343/P344/P345 (80TE): 14kg
1.2 Terminals
1.2.1 AC Current and Voltage Measuring Inputs
Located on heavy duty (black) terminal block: Threaded M4 terminals, for ring lug connection. CT inputs have integral safety shorting, on removal of the terminal block.
1.2.2 General Input/Output Terminals
For power supply, opto inputs, output contacts and RP1 rear communications. Located on general purpose (grey) blocks: Threaded M4 terminals, for ring lug connection.
1.2.3 Case Protective Earth Connection
Two rear stud connections, threaded M4. Must be earthed (grounded) for safety, minimum earth wire size 2.5 mm2.
1.2.4 Front Port Serial PC Interface
EIA(RS)232 DCE, 9 pin D-type female connector Socket SK1. Courier protocol for interface to S1 Studio software. Isolation to ELV (extra low voltage) level. Maximum cable length 15 m.
(TD) 2 Technical Data Mechanical Specifications
Page (TD) 2-6 P34x/EN TD/J96
1.2.5 Front Download/Monitor Port
EIA(RS)232, 25 pin D-type female connector Socket SK2. For firmware and menu text downloads. Isolation to ELV level.
1.2.6 Rear Communications Port (RP1)
EIA(RS)485 signal levels, two wire connections located on general purpose block, M4 screw. For screened twisted pair cable, multidrop, 1000 m max. For K-Bus, IEC-60870-5-103, MODBUS or DNP3.0 protocol (ordering options). Isolation to SELV (Safety Extra Low Voltage) level.
1.2.7 Optional Rear Fiber Connection for SCADA/DCS
BFOC 2.5 - (ST)-interface for glass fibre, as per IEC 874-10. 850 nm short-haul fibers, one Tx and one Rx. For Courier, IEC-60870-5-103, MODBUS or DNP3.0 (Ordering options).
1.2.8 Optional Second Rear Communications Port (RP2)
EIA(RS)232, 9 pin D-type female connector, socket SK4. Courier protocol: K-Bus, EIA(RS)232, or EIA(RS)485 connection. Isolation to SELV level.
1.2.9 Optional Rear IRIG-B Interface modulated or unmodulated
BNC plug. Isolation to SELV level. 50 ohm coaxial cable.
1.2.10 Optional Rear Ethernet Connection forIEC 61850
1.2.10.1 10BaseT/100BaseTX Communications
Interface in accordance with IEEE802.3 and IEC 61850
Isolation 1.5 kV
Connector type RJ45
Cable type Screened Twisted Pair (STP)
Max. cable length 100 m
1.2.10.2 100 Base FX Interface
Interface in accordance with IEEE802.3 and IEC 61850
Wavelength 1300 nm
Fibre multi-mode 50/125 m or 62.5/125 m
Connector type BFOC 2.5 -(ST)
1.2.11 Optional Rear Redundant Ethernet connection for IEC 61850
1.2.11.1 100 base FX interface
Interface in accordance with IEEE802.3 and IEC 61850
Wavelength: 1300 nm
Mechanical Specifications (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-7
Fibre: multi-mode 50/125 m or 62.5/125 m
Connector style: BFOC 2.5 -(ST)
1.2.11.2 Transmitter optical characteristics 100 base FX interface
Parameter Sym Min Typ Max Unit
Output Optical Power BOL 62.5/125 m, NA = 0.275 Fiber EOL
PO -19 -20
-16.8 -14 dBm avg.
Output Optical Power BOL 50/125 m, NA = 0.20 Fiber EOL
PO -22.5 -23.5
-20.3 -14 dBm avg.
Optical Extinction Ratio 10 -10
%
dB
Output Optical Power at Logic 0 State PO (0)
-45 dBm avg.
BOL - Beginning of life EOL - End of life
Table 1 - Interface Transmitter optical characteristics 100 base FX interface
1.2.11.3 Receiver optical characteristics 100 base FX interface
Parameter Sym Min Typ Max Unit
Input Optical Power Minimum at Window Edge
PIN Min. (W) -33.5 -31 dBm avg.
Input Optical Power Minimum at Eye Center
PIN Min. (C) -34.5 -31.8 Bm avg.
Input Optical Power Maximum
PIN Max. -14 -11.8 dBm avg.
Table 2 - Receiver optical characteristics 100 base FX interface
1.2.12 Fibre defect connector (watchdog relay) redundant Ethernet board
Connector (3 terminals) 2 NC contacts
Rated voltage 250 V
Continuous current 5 A
Short-duration current 30 A for 3 s
Breaking capacity DC 50 W resistive
DC 25 W inductive (L/R = 40 ms)
AC 1500 VA resistive (cos = unity) AC 1500 VA inductive (cos = 0.5) Subject to maxima of 5 A and 250 V
1.3 Ratings
1.3.1 AC Measuring Inputs
Nominal frequency 50 and 60 Hz (settable)
Operating range 5 to 70 Hz
1.3.2 AC Current
Nominal current (In) 1 and 5 A dual rated.
(TD) 2 Technical Data Mechanical Specifications
Page (TD) 2-8 P34x/EN TD/J96
(1A and 5A inputs use different transformer tap connections, check correct terminals are wired).
Nominal burden
Power Supply (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-9
2 POWER SUPPLY
2.1.1 Auxiliary Voltage (Vx)
Three ordering options:
(i) Vx 24 to 48 Vdc
(ii) Vx 48 to 110 Vdc, and 40 to 100 Vac (rms)
(iii) Vx 110 to 250 Vdc, and 100 to 240 Vac (rms)
2.1.2 Operating Range
Operating Range (i) 19 to 65 V (dc only for this variant)
(ii) 37 to 150 V (dc), 32 to 110 V (ac)
(iii) 87 to 300 V (dc), 80 to 265 V (ac).
With a tolerable ac ripple of up to 12% for a dc supply, per IEC 60255-11 1979.
2.1.3 Nominal Burden
Quiescent burden 11 W or 24 VA. (Extra 1.25 W when fitted with second rear communications board).
Additions for energised binary inputs/outputs
Per opto input 0.09 W (24 to 54 V)
0.12 W (110/125 V)
0.19 W (220/250 V)
Per energised output relay 0.13 W
2.1.4 Power-up Time
Time to power up < 11 s.
2.1.5 Power Supply Interruption
Power supply options:
(i) Vx: 24 to 48 V dc
(ii) Vx: 48 to 110 V dc, 40 to 100 V ac (rms)
(iii) Vx: 110 to 250 V dc, 100 to 240 V ac (rms)
2.1.5.1 Per IEC 60255-11: 2008
The relay will withstand a 100% interruption in the DC supply without de-energizing as follows:
(i) Vx: 24 to 48 V dc (ii) Vx: 48 to 110 V dc (iii) Vx: 110 to 250 V dc
Quescent / half load Quescent / half load Quescent / half load
20 ms at 24 V 20 ms at 36 V 50 ms at 110 V
50 ms at 36 V 50 ms at 60 V 100 ms at 160 V
100 ms at 48 V 100 ms at 72 V 200 ms at 210 V
maximum loading: 200 ms at 110 V maximum loading:
20 ms at 24 V maximum loading: 20 ms at 85 V
50 ms at 36V 20 ms at 36 V 50 ms at 98V
(TD) 2 Technical Data Power Supply
Page (TD) 2-10 P34x/EN TD/J96
(i) Vx: 24 to 48 V dc (ii) Vx: 48 to 110 V dc (iii) Vx: 110 to 250 V dc
100 ms at 48 V 50 ms at 60 V 100 ms at 135 V
100 ms at 85 V 200 ms at 174 V
200 ms at 110 V
2.1.5.2 Per IEC 60255-11: 2008:
The relay will withstand an interruption in the AC supply without de-energizing as follows:
(ii) Vx = 40 to 100 V ac (iii) Vx = 100 to 240 V ac
Quescent / half load Quescent / half load
50 ms at 27 V for 100% voltage dip 50 ms at 80 V for 100% voltage dip
Maximum loading: Maximum loading:
10 ms at 27 V for 100% voltage dip 50 ms at 80 V for 100% voltage dip Maximum loading = all digital inputs/outputs energized
Quescent or 1/2 loading = 1/2 of all digital inputs/outputs energized
2.1.6 Battery Backup
Front panel mounted Type AA, 3.6V Lithium Thionyl Chloride Battery (SAFT advanced battery reference LS14250) Battery life (assuming relay energized for 90% time) >10 years
2.1.7 Field Voltage Output
Regulated 48 Vdc Current limited at 112 mA maximum output Operating range 40 to 60 V
2.1.8 Digital (Opto) Inputs
Universal opto inputs with programmable voltage thresholds (24/27, 30/34, 48/54, 110/125, 220/250 V). May be energized from the 48 V field voltage, or the external battery supply.
Rated nominal voltage 24 to 250 Vdc
Operating range 19 to 265 Vdc
Withstand 300 Vdc, 300 Vrms.
Peak current of opto input when energized is 3.5 mA (0-300 V)
Nominal pick-up and reset thresholds
Nominal battery 24/27 60 - 80% DO/PU
(logic 0) 19.2
Nominal battery 24/27 50 - 70% DO/PU
(logic 0) 16.8
Nominal battery 30/34 60 - 80% DO/PU
(logic 0) 24.0
Nominal battery 30/34 50 - 70% DO/PU
(logic 0) 21.0
Nominal battery 48/54 60 - 80% DO/PU
(logic 0) 38.4
Nominal battery 48/54 50 - 70% DO/PU
Power Supply (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-11
(logic 0) 33.6
Nominal battery 110/125 60 - 80% DO/PU
(logic 0) 88.0
Nominal battery 110/125 50 - 70% DO/PU
(logic 0) 77.0
Nominal battery 220/250 60 - 80% DO/PU
(logic 0) 176.0
Nominal battery 220/250 50 - 70% DO/PU
(logic 0) 154
Recognition time
(TD) 2 Technical Data Power Supply
Page (TD) 2-12 P34x/EN TD/J96
Rated voltage: 300 V
Make & Break Capacity: DC: 7500 W resistive
DC: 2500 W inductive (L/R = 50 ms)
Make, Carry: 30A for 3 secs, dc resistive, 10,000 operations (subject to the above limits of make / break capacity & rated voltage)
Make, Carry & Break: 30A for 3 secs, dc resistive, 5,000 operations (subject to the above limits of make / break capacity & rated voltage)
30 A for 200 ms, dc resistive, 10,000 operations (subject to the above limits of make / break capacity & rated voltage)
10 A (*), dc inductive, 10,000 operations (subject to the above limits of make / break capacity & rated voltage) *Typical for repetitive shots 2 minutes idle for thermal dissipation
Voltage Current L/R No of shots in 1 sec
65 V 10 A 40 ms 5
150 V 10 A 40 ms 4
250 V 10 A 40 ms 2
250 V 10 A 20 ms 4
Table 3 - Typical repetitive shots
MOV protection: Max Voltage 330 V dc
Durability: Loaded contact: 10 000 operations minimum,
Unloaded contact: 100 000 operations minimum.
Operate Time: Less than 0.2 ms
Reset Time: Less than 8 ms
2.2.3 Watchdog Contacts
Non-programmable contacts for relay healthy/relay fail indication:
Breaking capacity: DC: 30 W resistive
DC: 15 W inductive (L/R = 40 ms)
AC: 375 VA inductive (cos = 0.7)
2.2.4 IRIG-B 12X Interface (Modulated)
External clock synchronization per IRIG standard 200-98, format B12x
Input impedance: 6 k at 1000 Hz Modulation ratio: 3:1 to 6:1
Input signal, peak-peak: 200 mV to 20 V
2.2.5 IRIG-B 00X Interface (Un-modulated)
External clock synchronization per IRIG standard 200-98, format B00X. Input signal TTL level Input impedance at dc 10 k
Environmental Conditions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-13
3 ENVIRONMENTAL CONDITIONS
3.1 Temperature, Humidity and Corrosion
3.1.1 Ambient Temperature Range
Per IEC 60255-6: 1988:
Operating temperature range: -25C to +55C (or -13F to +131F)
Storage and transit: -25C to +70C (or -13F to +158F) Tested as per
IEC 60068-2-1: 2007 -25C storage (96 hours)
-40C operation (96 hours)
IEC 60068-2-2: 2007 +85C storage (96 hours)
+85C operation (96 hours)
3.1.2 Ambient Humidity Range
Per IEC 60068-2-3: 1969: 56 days at 93% relative humidity and +40 C
Per IEC 60068-2-30: 1980 Damp heat cyclic, six (12+12) hour cycles, 93% RH, +25 to +55C
3.1.3 Corrosive Environments (for relays with harsh environment coating of PCBs)
Per IEC 60068-2-60: 1995, Part 2, Test Ke, Method (class) 3
Industrial corrosive environment/poor environmental control, mixed gas flow test.
21 days at 75% relative humidity and +30oC exposure to elevated
concentrations of H2S, (100 ppb) NO2, (200 ppb) Cl2 (20 ppb).
Per IEC 60068-2-52 Salt mist (7 days)
Per IEC 60068-2-43 for H2S (21 days), 15 ppm
Per IEC 60068-2-42 for SO2 (21 days), 25 ppm
3.2 Type Tests
3.2.1 Insulation
Per IEC 60255-27: 2005
Insulation resistance > 100 M at 500 Vdc (Using only electronic/brushless insulation tester).
3.2.2 Creepage Distances and Clearances
IEC 60255-27: 2005
Pollution degree 3, Overvoltage category III, Impulse test voltage 5 kV.
3.2.3 High Voltage (Dielectric) Withstand
(i) Per IEC 60255-27: 2005, 2 kV rms
AC, 1 minute:
(TD) 2 Technical Data Environmental Conditions
Page (TD) 2-14 P34x/EN TD/J96
Between all independent circuits.
Between independent circuits and protective (earth) conductor terminal.
1 kV rms AC for 1 minute, across open watchdog contacts.
1 kV rms AC for 1 minute, across open contacts of changeover output relays.
1 kV rms AC for 1 minute for all D-type EIA(RS)232/EIA(RS)485 ports between the
communications port terminals and protective (earth) conductor terminal.
(ii) Per ANSI/IEEE C37.90-1989 (reaffirmed 1994):
1.5 kV rms AC for 1 minute, across open contacts of normally open output relays.
1 kV rms AC for 1 minute, across open watchdog contacts.
1 kV rms AC for 1 minute, across open contacts of changeover output relays.
3.2.4 Impulse Voltage Withstand Test
Per IEC 60255-27 2005
Front time 1.2 s,
Time to half-value 50 s,
Peak value 5 kV, 0.5 J
Between all independent circuits. Between all independent circuits and protective (earth) conductor terminal. Between the terminals of independent circuits. EIA(RS)232 & EIA(RS)485 ports and normally open contacts of output relays excepted.
3.3 Electromagnetic Compatibility (EMC)
3.3.1 1 MHz Burst High Frequency Disturbance Test
Per IEC 60255-22-1: 1988, Class III,
Common-mode test voltage: 2.5 kV,
Differential test voltage: 1.0 kV,
Test duration: 2 s, Source impedance: 200 (EIA(RS)232 ports excepted).
3.3.2 100 kHz Damped Oscillatory Test
Per EN61000-4-18: 2007: Level 3 Common mode test voltage: 2.5 kV
Differential mode test voltage: 1 kV
Immunity to Electrostatic Discharge
Per IEC 60255-22-2: 1996, Class 4, 15 kV discharge in air to user interface, display, communication port and exposed metalwork.
8 kV point contact discharge to any part of the front of the product.
3.3.3 Electrical Fast Transient or Burst Requirements
Per IEC 60255-22-4: 2002 and EN61000-4-4:2004. Test severity Class III and IV:
Amplitude: 2 kV, burst frequency 5 kHz (Class III),
Amplitude: 4kV, burst frequency 2.5 kHz (Class IV).
Applied directly to auxiliary supply, and applied to all other inputs. (EIA(RS)232 ports excepted).
Environmental Conditions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-15
Amplitude: 4 kV, burst frequency 5 kHz (Class IV) applied directly to auxiliary.
3.3.4 Surge Withstand Capability
Per IEEE/ANSI C37.90.1: 2002:
4 kV fast transient and 2.5 kV oscillatory Applied directly across each output contact, optically isolated input, and power supply circuit.
4 kV fast transient and 2.5 kV oscillatory Applied common mode to communications, IRIG-B.
3.3.5 Surge Immunity Test
(EIA(RS)232 ports excepted).
Per IEC 61000-4-5: 2005 Level 4,
Time to half-value: 1.2 / 50 s,
Amplitude: 4 kV between all groups and protective (earth) conductor terminal,
Amplitude: 2 kV between terminals of each group.
3.3.6 Conducted/Radiated Immunity
For RTDs used for tripping applications the conducted and radiated immunity performance is guaranteed only when using totally shielded RTD cables (twisted leads).
3.3.7 Immunity to Radiated Electromagnetic Energy
Per IEC 60255-22-3: 2000, Class III:
Test field strength, frequency band 80 to 1000 MHz: 10 V/m,
Test using AM: 1 kHz / 80%,
Spot tests at 80, 160, 450, 900 MHz Per IEEE/ANSI C37.90.2: 2004:
80 MHz to 1000 MHz, 1 kHz 80% am and am pulsed modulated. Field strength of 35 V/m.
3.3.8 Radiated Immunity from Digital Communications
Per EN61000-4-3: 2002, Level 4:
Test field strength, frequency band 800 to 960 MHz, and 1.4 to 2.0 GHz: 30 V/m,
Test using AM: 1 kHz/80%.
3.3.9 Radiated Immunity from Digital Radio Telephones
Per IEC 61000-4-3: 2002: 10 V/m, 900 MHz and 1.89 GHz.
3.3.10 Immunity to Conducted Disturbances Induced by Radio Frequency Fields
Per IEC 61000-4-6: 1996, Level 3, Disturbing test voltage: 10 V.
3.3.11 Power Frequency Magnetic Field Immunity
Per IEC 61000-4-8: 1994, Level 5, 100 A/m applied continuously,
1000 A/m applied for 3 s.
(TD) 2 Technical Data Environmental Conditions
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Per IEC 61000-4-9: 1993, Level 5, 1000 A/m applied in all planes.
Per IEC 61000-4-10: 1993, Level 5, 100 A/m applied in all planes at
100 kHz/1 MHz with a burst duration of 2 s.
3.3.12 Conducted Emissions
Per EN 55022: 1998 Class A: 0.15 - 0.5 MHz, 79 dBV (quasi peak) 66 dBV (average) 0.5 - 30 MHz, 73 dBV (quasi peak) 60 dBV (average).
3.3.13 Radiated Emissions
Per EN 55022: 1998 Class A: 30 - 230 MHz, 40 dBV/m at 10 m measurement distance 230 - 1 GHz, 47 dBV/m at 10 m measurement distance.
3.4 EU Directives
3.4.1 EMC Compliance
Per 2004/108/EC:
Compliance to the European Commission Directive on EMC is demonstrated using a Technical File. Product Specific Standards were used to establish conformity: EN 50263: 2000
3.4.2 Product Safety
Per 2006/95/EC: Compliance to the European Commission Low Voltage Directive. (LVD) is demonstrated using a Technical File. A product specific standard was used to establish conformity. EN 60255-27: 2005
3.4.3 R&TTE Compliance
Radio and Telecommunications Terminal Equipment (R & TTE) directive 99/5/EC. Compliance demonstrated by compliance to both the EMC directive and the Low voltage directive, down to zero volts. Applicable to rear communications ports.
3.4.4 ATEX Compliance
ATEX Potentially Explosive Atmospheres directive 94/9/EC, for equipment. The equipment is compliant with Article 1(2) of European directive 94/9/EC. It is approved for operation outside an ATEX hazardous area. It is however approved for connection to Increased Safety, Ex e, motors with rated ATEX protection, Equipment Category 2, to ensure their safe operation in gas Zones 1 and 2 hazardous areas.
Caution Equipment with this marking is not itself suitable for operation within a potentially explosive atmosphere.
Compliance demonstrated by Notified Body certificates of compliance.
Environmental Conditions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-17
3.5 Mechanical Robustness
3.5.1 Vibration Test
Per IEC 60255-21-1: 1996: Response Class 2
Endurance Class 2
3.5.2 Shock and Bump
Per IEC 60255-21-2: 1996: Shock response Class 2
Shock withstand Class 1
Bump Class 1
3.5.3 Seismic Test
Per IEC 60255-21-3: 1995: Class 2
3.6 P34x Third Party Compliances
Underwriters Laboratory (UL)
File Number E202519
Original Issue Date 05-10-2002
(Complies with Canadian and US requirements).
Energy Networks Association (ENA)
Certificate Number 104 Issue 2
Assessment Date 16-04-2004
(TD) 2 Technical Data Technical Data P391
Page (TD) 2-18 P34x/EN TD/J96
4 TECHNICAL DATA P391
4.1 Mechanical Specifications
4.1.1 Design
80TE case. Mounting options are, wall mounting, front of panel flush mounting, or 19 rack mounted (ordering options)
4.1.2 Enclosure Protection
Per IEC 60529: 1992
Rack and Panel Mounting Options: IP 20 (Safety) Protection for the case with the terminal safety cover fitted.
Wall Mounting Option: IP 20 (Safety) Protection for the P391 unit with the terminal safety cover fitted.
4.1.3 Weight
P391 (80TE): 5kg
4.2 Terminals
4.2.1 AC Voltage Measuring Inputs
Located on general purpose (grey) terminal blocks: Threaded M4 terminals, for insulated ring crimped connectors.
4.2.2 Protective Conductor (Earth) Terminal
Two rear stud connections, threaded M4. Must be earthed (grounded) for safety, using the protective (earth) conductor, of minimum wire size 2.5 mm2.
4.2.3 Current Loop Output
Located on general purpose (grey) terminal blocks: Threaded M4 terminals, for insulated ring crimped connectors.
4.3 Ratings
4.3.1 Low Frequency Measuring Inputs
Nominal frequency: 0.25, 0.5, 1 Hz (settable with an internal jumper link)
4.3.2 DC Field Voltage Inputs
1200 V dc maximum
Technical Data P391 (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-19
4.4 Power Supply
4.4.1 Auxiliary Voltage (Vx)
60-250 V dc, or 100-230 V ac (rms) 50/60 Hz
4.4.2 Operating Range
48-300 V dc, or 85-253 V ac (rms) 50/60 Hz With a tolerable ac ripple of up to 12% for a dc supply, per IEC 60255-11: 1979.
4.4.3 Nominal Burden
Auxiliary Supply Input burden: 11 W or 24 VA.
4.4.4 Power Supply Interruption
Per IEC 60255-11: 1979 The relay will withstand a 20 ms interruption in the DC auxiliary supply, without De-energizing.
Per IEC 61000-4-11: 2004 The relay will withstand a 20 ms interruption in an AC auxiliary supply, without de-energizing.
4.5 Output Contacts
4.5.1 Watchdog Contacts
Non-programmable contacts for relay healthy/relay fail indication:
Breaking capacity: DC: 30 W resistive
DC: 15 W inductive (L/R = 40 ms)
AC: 375 VA inductive (cos = 0.7) Loaded contact: 10 000 operations Minimum,
Unloaded contact: 10 000 operations Minimum.
4.6 Environmental Conditions
4.6.1 Ambient Temperature Range
Per IEC 60068-2-1: 2007: cold; IEC 60068-2-2: 2007: dry heat
Operating temperature range: -25C to +55C (or -13F to +131F)
Storage and transit: -25C to +70C (or -13F to +158F)
4.6.2 Ambient Humidity Range
Per IEC 60068-2-78: 2001 56 days at 93% relative humidity and +40 C
4.7 Type Tests
4.7.1 Insulation
Per IEC 60255-27: 2005: Insulation resistance > 100 M at 500 Vdc (Using only electronic/brushless insulation tester).
(TD) 2 Technical Data Technical Data P391
Page (TD) 2-20 P34x/EN TD/J96
4.7.2 Creepage Distances and Clearances
Per IEC 60664-1: 2007 Pollution degree 2, Impulse 9.6 kVp between injection resistor inputs and protective (case earth) conductor terminal. Minimum of 10.5 mm clearance and 12 mm creepage distance.
4.7.3 High Voltage (Dielectric) Withstand
(i) Per IEC 60255-27: 2005, 2 kV rms ac, 1 minute:
Between all independent circuits.
Between independent circuits and protective (case earth) conductor terminal.
1 kV rms ac for 1 minute, across open watchdog contacts.
(ii) Per ANSI/IEEE C37.90: 2005
1 kV rms ac for 1 minute across open watchdog contacts.
(iii) Per 60664-1: 2007
5.8 kV rms 1 minute between injection resistor inputs and protective (case earth) conductor terminal.
4.7.4 Impulse Voltage Withstand Test
Per IEC 60255-27 2005
Front time: 1.2 s
Time to half-value: 50 s,
Peak value: 5 kV, 0.5 J
Between all independent circuits. Between all independent circuits and protective (case earth) conductor terminal. Between the terminals of independent circuits. Normally open contacts of output relays excepted.
IEC 60664-1: 2007
Impulse 9.6 kV between injection resistor inputs and protective (case earth) conductor terminal
4.8 ElectroMagnetic Compatibility (EMC)
4.8.1 1 MHz Burst High Frequency Disturbance Test
Per IEC 60255-22-1: 2005, Class III,
Common-mode test voltage: 2.5 kV,
Differential test voltage: 1.0 kV,
Test duration: 2 s, Source impedance: 200
4.8.2 100 kHz Damped Oscillatory Test
Per EN61000-4-18: 2007: Level 3
Common mode test voltage: 2.5 kV
Differential mode test voltage: 1 kV
4.8.3 Electrical Fast Transient or Burst Requirements
Per IEC 60255-22-4: 2002 and EN61000-4-4:2004. Test severity Class III and IV:
Amplitude: 2 kV, burst frequency 5 kHz (Class III),
Technical Data P391 (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-21
Amplitude: 4 kV, burst frequency 2.5 kHz (Class IV). Applied directly to auxiliary supply, and applied to all other inputs. (EIA(RS)232 ports excepted).
Amplitude: 4 kV, burst frequency 5 kHz (Class IV) applied directly to auxiliary.
4.8.4 Surge Withstand Capability
Per IEEE/ANSI C37.90.1: 2002
4 kV fast transient and 2.5 kV oscillatory applied directly across each output contact, optically isolated input, and power supply circuit.
4 kV fast transient and 2.5 kV oscillatory applied common mode to communications, IRIG-B.
4.8.5 Surge Immunity Test
(EIA(RS)232 ports excepted).
Per EN 61000-4-5: 2006 Level 4, EN 60255-22-5: 2002
Time to half-value: 1.2 / 50 s,
Amplitude: 4 kV between all groups and protective (earth) conductor terminal,
Amplitude: 2 kV between terminals of each group.
Level 3: 1 kV between terminals of injection resistor inputs
4.8.6 Immunity to Radiated Electromagnetic Energy
Per IEC 60255-22-3: 2007, Class III: (EN61000-4-3: 2006, Level 3)
Test field strength, frequency band 80 to 1000 MHz: 10 V/m,
Test using AM: 1 kHz / 80%,
Spot tests at 80, 160, 450, 900 MHz
Per IEEE/ANSI C37.90.2: 2004: 80 MHz to 1000 MHz, 1 kHz 80% am and am pulsed modulated. Field strength of 35 V/m.
4.8.7 Radiated Immunity from Digital Communications
Per EN61000-4-3: 2002, Level 4: Test field strength, frequency band 800 to 960 MHz, and 1.4 to 2.0 GHz: 30 V/m,
Test using AM: 1 kHz/80%.
4.8.8 Radiated Immunity from Digital Radio Telephones
Per IEC61000-4-3: 2002: 10 V/m, 900 MHz and 1.89 GHz.
4.8.9 Immunity to Conducted Disturbances Induced by Radio Frequency Fields
Per IEC 61000-4-6: 2007, Level 3, IEC60255-22-6: 2001
Disturbing test voltage: 10 V.
4.8.10 Power Frequency Magnetic Field Immunity
Per IEC 61000-4-8: 1994, Level 5, 100 A/m applied continuously,
1000 A/m applied for 3 s.
Per IEC 61000-4-9: 1993, Level 5, 1000 A/m applied in all planes.
Per IEC 61000-4-10: 1993, Level 5, 100 A/m applied in all planes at 100 kHz/1MHz with a burst duration of 2 s.
(TD) 2 Technical Data Technical Data P391
Page (TD) 2-22 P34x/EN TD/J96
4.8.11 Conducted Emissions
Per EN 55022: 1998 Class A: 0.15 - 0.5 MHz, 79 dBV (quasi peak) 66 dBV (average) 0.5 - 30 MHz, 73 dBV (quasi peak) 60 dBV (average).
4.8.12 Radiated Emissions
Per EN 55022: 1998 Class A: 30 - 230 MHz, 40 dBV/m at 10 m measurement distance 230 - 1 GHz, 47 dBV/m at 10 m measurement distance.
4.9 EU Directives
4.9.1 EMC Compliance
Per 2004/108/EC: Compliance to the European Commission Directive on EMC is demonstrated using a Technical File route. Product Specific Standards were used to establish conformity: EN 50263: 2000
4.9.2 Product Safety
Per 2006/95/EC: Compliance with European Commission Low Voltage Directive (LVD). A Product Specific Standard was used to establish conformity:
EN 60255-27: 2005
4.10 Mechanical Robustness
4.10.1 Vibration Test
Per IEC 60255-21-1: 1996: Response Class 2 and Endurance Class 2
4.10.2 Shock and Bump
Per IEC 60255-21-2: 1996: Shock response Class 2
Shock withstand Class 1
Bump Class 1
4.10.3 Seismic Test
Per IEC 60255-21-3: 1995: Class 2
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-23
5 PROTECTION FUNCTIONS
5.1 Generator Differential
5.1.1 Accuracy
Pick-up: Formula 5% Drop-off: 95% of setting 5% Operating time:
(TD) 2 Technical Data Protection Functions
Page (TD) 2-24 P34x/EN TD/J96
5.2.6 5th Harmonic Blocking (P345)
Pick-up: Setting 5% Drop-off: 0.95 of setting 5% Pick-up and drop-off repeatability:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-25
5.6 Sensitive Reverse/Low Forward/ Overpower (1 Phase)
5.6.1 Accuracy
Pick-up: Setting 10% Reverse/Overpower Drop-off: 0.9 of setting 10% Low forward power Drop-off: 1.1 of Setting 10% Angle variation Pick-up: Expected pick-up angle 2 degree Angle variation Drop-off: Expected drop-off angle 2.5% degree Operating time: 2% or 50 ms whichever is greater Repeatability:
(TD) 2 Technical Data Protection Functions
Page (TD) 2-26 P34x/EN TD/J96
5.10 System Back-up
5.11 Voltage Dependent Overcurrent
5.11.1 Accuracy
VCO threshold Pick-up: Setting 5% Overcurrent Pick-up: Formula 5% VCO threshold Drop-off: 1.05 x Setting 5% Overcurrent Drop-off: 0.95 x formula 5% Operating time:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-27
5.14 4-Stage Negative Phase Sequence Overcurrent
5.14.1 Accuracy
I2>Pick-up: Setting 5% I2> Drop-off: 0.95 x Setting 5% Vpol Pick-up: Setting 5% Vpol Drop-off: 0.95 x Setting 5% DT operation: 2% or 60 ms whichever is greater Disengagement time: DT: 5% or 200 ms whichever is greater Pick-up repeatability: Pick-up: Expected Pick-up Current 5%.
Repeatability: DT: 5% or 200 ms whichever is greater
(TD) 2 Technical Data Protection Functions
Page (TD) 2-28 P34x/EN TD/J96
5.17 2-Stage Non-Directional Earth Fault
5.17.1 Accuracy
Pick-up: Setting 5% Drop-off: 0.95 x Setting 5% IDMT trip level elements: 1.05 x Setting 5% IDMT characteristic shape: 5% or 40 ms whichever is greater* IEEE reset: 5% or 40 ms whichever is greater DT operation: 2% or 60 ms whichever is greater DT reset: 5% Repeatability: 2.5%
5.18 Rotor Earth Fault
5.18.1 Accuracy
Pick-up: Setting 10% (1 k to 5 k) Setting 5% (5 k to 80 k) Drop-off: 1.05 x Setting 10% (1 k to 5 k) 1.02 x Setting 5% (5 k to 80 k) Repeatability:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-29
P = 0 W Drop-off: (0.95 x ISEF>) 5% P > 0 W Drop-off: 0.9 x P> 5% Boundary accuracy: 5% with 1 hysteresis Repeatability: 5%
5.19.3 Polarizing Quantities Accuracy
Operating boundary Pick-up: 2 of RCA 90 Hysteresis: Vnpol Pick-up: Setting 10% ISEF>Vnpol Drop-off: 0.9 x Setting or 0.7 V (whichever is greater) 10%
5.20 Restricted Earth Fault
5.20.1 Accuracy
5.20.2 Low impedance biased REF
Pick-up: Setting formula 5% Drop-off: 0.9 x formula 5%
Pick-up and drop-off repeatability:
(TD) 2 Technical Data Protection Functions
Page (TD) 2-30 P34x/EN TD/J96
5.23 100% Stator Earth Fault (3rd Harmonic)
5.23.1 Accuracy
VN3H Pick-up: Setting 5% V/P/Q/S Drop-off: 95% of Pick-up 5% V/P/Q/S
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-31
5.25 Volts/Hz
5.25.1 Accuracy
Pick-up: Setting 2% Drop-off: 98% or pick-up 2% Repeatability (operating threshold):
(TD) 2 Technical Data Protection Functions
Page (TD) 2-32 P34x/EN TD/J96
Repeatability:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-33
5.32.1.3 Rolling Window (P342/P343/P344)
Pick-up: Setting 0.01 Hz/s or 3% whichever is greater
Repeatability:
(TD) 2 Technical Data Protection Functions
Page (TD) 2-34 P34x/EN TD/J96
5.34 Resistive Temperature Detectors
5.34.1 Accuracy
Pick-up: Setting 1C Drop-off: (Setting -1C) Operating time: 2% or
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-35
This is shown in Figure 1. This distance is equivalent to (ZA + ZB)/2*tan87.5.
For both characteristics the hysteresis is reset when the impedance locus leaves the lens.
Figure 1 - Hysteresis of the pole slipping characteristic
5.38 Supervisory Functions
5.39 Voltage Transformer Supervision
5.39.1 Accuracy
Fast block operation: Drop-off: 0.9 x Setting 5% VN < Drop-off: (1.05 x Setting) 5% or 1 V whichever is greater
(TD) 2 Technical Data Protection Functions
Page (TD) 2-36 P34x/EN TD/J96
CTS block operation: < 1 cycle
CTS reset: < 35 ms
5.41 Differential CTS
5.41.1 Accuracy
CTS I1 Pick-up ratio: Setting 5% CTS I2/I1>1 Pick-up ratio: 0.95 x setting 5% CTS I2/I1>2 Pick-up ratio: setting 5% CTS I1 Drop-off ratio: 0.95 x setting 5% CTS I2/I1>1 Drop-off ratio: setting 5% CTS I2/I1>2 Drop-off ratio: 0.95 x setting 5% Pick-up and drop-off repeatability:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-37
5.44 Check Synch
5.44.1 Accuracy
5.44.1.1 CS1 Phase Angle:
Pick-up: (Setting-2) 1
Drop-off: (Setting-1) 1
Repeatability:
(TD) 2 Technical Data Protection Functions
Page (TD) 2-38 P34x/EN TD/J96
5.45 System Split
5.45.1 Accuracy
5.45.2 SS Phase Angle:
Pick-up: (Setting+2) 1
Drop-off: (Setting+1) 1
Repeatability:
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-39
Apparent Power (VA): 0.22 Vn, 0.053 In: 5% of reading Energy (Wh): 0.22 Vn, 0.23 In: 5% of reading at zero power factor Energy (Varh): 0.22 Vn, 0.23 In: 5% of reading at zero power factor Phase accuracy: 0360: 5% Frequency: 570 Hz: 0.025 Hz
5.51 IRIG-B and Real Time Clock
5.51.1 Performance
Year 2000: Compliant
Real time accuracy: < 1 second / day
5.51.2 Features
Real time 24 hour clock settable in hours, minutes and seconds Calendar settable from January 1994 to December 2092 Clock and calendar maintained via battery after loss of auxiliary supply Internal clock synchronization using IRIG-B Interface for IRIG-B signal is BNC
5.52 Current Loop Input and Outputs
5.52.1 Accuracy
Current loop input accuracy: 1% of full scale CLI drop-off threshold Under: setting 1% of full scale CLI drop-off threshold Over: setting 1% of full scale CLI sampling interval: 50 ms
CLI instantaneous operating time: < 250 ms
CLI DT operating time: 2% setting or 200 ms whichever is the greater CLO conversion interval: 50 ms
CLO latency: < 1.07 s or
(TD) 2 Technical Data Protection Functions
Page (TD) 2-40 P34x/EN TD/J96
Isolation between output channels and case earth/other circuits 2 kV rms for 1 minute
5.53 Disturbance Records
5.53.1 Accuracy
Magnitude and relative phases: 5% of applied quantities Duration: 2% Trigger Position: 2% (minimum 100 ms) Record length: 50 records each 1.5 s duration (75 s total memory) with 8 analog
channels and 32 digital channels (Courier, MODBUS, DNP 3.0), 8
records each 3 s (50 Hz) or 2.5 s (60 Hz) duration
(IEC 60870-5-103).
5.54 Event, Fault & Maintenance Records
Maximum 512 events in a cyclic memory
Maximum 5 fault records
Maximum 10 maintenance records
5.54.1 Accuracy
Event time stamp resolution: 1 ms
5.55 IEC 61850 Ethernet Data
5.55.1 100 Base FX Interface
Transmitter Optical Characteristics (TA = 0C to 70C, VCC = 4.75 V to 5.25 V) Parameter Sym Min. Typ. Max. Unit
Output Optical Power BOL 62.5/125 m, NA = 0.275 Fiber EOL PO
-19
-20 -16.8 -14 dBm avg.
Output Optical Power BOL 50/125 m, NA = 0.20 Fiber EOL PO
-22.5
-23.5 -20.3 -14 dBm avg.
Optical Extinction Ratio 10
-10 % dB
Output Optical Power at Logic 0 State PO
(0) -45 dBm avg.
BOL - Beginning of life EOL - End of life
Receiver Optical Characteristics (TA = 0C to 70C, VCC = 4.75 V to 5.25 V) Parameter Sym Min. Typ. Max. Unit
Input Optical Power Minimum at Window Edge PIN Min. (W) -33.5 31 dBm avg.
Input Optical Power Minimum at Eye Center PIN Min. (C) -34.5 -31.8 Bm avg.
Protection Functions (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-41
Parameter Sym Min. Typ. Max. Unit
Input Optical Power Maximum PIN Max. -14 -11.8 dBm avg.
Note The 10BaseFL connection will no longer be supported as IEC 61850 does not specify this interface.
(TD) 2 Technical Data Settings, Measurements and Records List
Page (TD) 2-42 P34x/EN TD/J96
6 SETTINGS, MEASUREMENTS AND RECORDS LIST
6.1 Settings List
6.2 Global Settings (System Data)
Language: English/French/German/Spanish
Frequency: 50/60 Hz
6.3 Circuit Breaker Control (CB Control)
CB Control by: Disabled or Local or Remote or Local+Remote or Opto or Opto+localOpto+Remote or Opto+Rem+local
Close Pulse Time: 0.1010.00 s
Trip Pulse Time: 0.105.00 s
Man Close Delay: 0.01600.00 s
CB Healthy Time: 0.019999.00 s
Sys Check Time: 0.019999.00 s
Reset Lockout by: User Interface/CB Close
Man Close RstDly: 0.10600.00 s
CB Status Input: None or 52A or 52B or 52A & 52B
6.4 Date and Time
IRIG-B Sync: Disabled, Enabled
Battery Alarm: Disabled, Enabled
LocalTime Enable: Disabled/Fixed/Flexible
LocalTime Offset: -720 min720min
DST Enable: Disabled, Enabled
DST Offset: 30min60min
DST Start: First/Second/Third/Fourth/Last
DST Start Day: Sun/Mon/Tues/Wed/Thurs/Fri/Sat
DST Start Month: Jan/Feb/Mar/Apr/May/ Jun/Jul/Aug/Sept/Oct/Nov/Dec
DST Start Mins: 0min1425min
DST End: First/Second/Third/Fourth/Last
DST End Day: Sun/Mon/Tues/Wed/Thurs/Fri/Sat
DST End Month: Jan/Feb/Mar/ Apr/May/Jun/Jul/Aug/Sept/Oct/Nov/Dec
DSTEnd Mins: 0min1425min
RP1 Time Zone: UTC/Local
RP2 Time Zone: UTC/Local
Tunnel Time Zone: TC/Local
6.5 Configuration
Setting Group: Select via Menu or Select via Opto
Active Settings: Group 1/2/3/4
Setting Group 1: Disabled, Enabled
Settings, Measurements and Records List (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-43
Setting Group 2: Disabled, Enabled
Setting Group 3: Disabled, Enabled
Setting Group 4: Disabled, Enabled
System Config: Invisible, Visible
Power: Disabled, Enabled
Field Failure: Disabled, Enabled
NPS Thermal: Disabled, Enabled
System Back-up: Disabled, Enabled
Overcurrent: Disabled, Enabled
Thermal Overload: Disabled, Enabled
Differential: Disabled, Enabled
Earth Fault: Disabled, Enabled
Rotor EF Disabled, Enabled
SEF/REF/Spower: Disabled or SEF/REF or Sensitive Power
Residual O/V NVD: Disabled, Enabled
100% Stator EF: Disabled, Enabled
V/Hz: Disabled, Enabled
df/dt: Disabled, Enabled
Dead Machine: Disabled, Enabled
Volt Protection: Disabled, Enabled
Freq Protection: Disabled, Enabled
RTD Inputs: Disabled, Enabled
CB Fail: Disabled, Enabled
Supervision: Disabled, Enabled
Pole Slipping: Disabled, Enabled
Input Labels: Invisible, Visible
Output Labels: Invisible, Visible
RTD Labels: Invisible, Visible
CT & VT Ratios: Invisible, Visible
Event Recorder: Invisible, Visible
Disturb Recorder: Invisible, Visible
Measuret Setup: Invisible, Visible
Comms Settings: Invisible, Visible
Commission Tests: Invisible, Visible
Setting Values: Primary, Secondary
Control Inputs: Invisible, Visible
CLIO Inputs: Disabled, Enabled
CLIO Outputs: Disabled, Enabled
System Checks: Disabled, Enabled
Ctrl I/P Config: Invisible, Visible
Ctrl I/P Labels: Invisible, Visible
Direct Access: Disabled, Enabled
IEC GOOSE Invisible, Visible
Function Keys: Invisible, Visible
RP1 Read Only Disabled, Enabled
(TD) 2 Technical Data Settings, Measurements and Records List
Page (TD) 2-44 P34x/EN TD/J96
RP2 Read Only Disabled, Enabled
NIC Read Only Disabled, Enabled
LCD Contrast: 031
6.6 CT and VT Ratios
Main VT Primary: 100...1000000 V
Main VT Sec'y: 80...140 V (100/120 V)
320560 V
(380/480 V)
C/S VT Primary: 100 V...1 MV
C/S VT Secondary: 80...140 V
VN1 Primary: 1001000000 V
VN1 VT Secy: 80140 V (100/120 V)
320560 V
(380/480 V)
VN2 Primary (P344/P345): 1001000000 V
VN2 VT Secy (P344/P345): 80140 V (100/120 V)
320560 V
(380/480 V)
Ph CT Polarity/Ph CT1 Polarity: Standard/Inverted
Phase CT Primary/Phase CT1 Primary: 1A60 kA
Phase CT Sec'y/Phase CT1 Sec'y: 1A/5A
Ph CT2 Polarity: Standard/Inverted
Phase CT2 Primary: 1A60 kA
Phase CT2 Sec'y: 1A/5A
E/F CT Polarity: Standard/Inverted
E/F CT Primary: 1A60 KA
E/F CT Secy: 1A/5A
Isen CT Polarity: Standard, Inverted
ISen CT Primary: 1A60 KA
ISen CT Secy: 1A/5A
6.7 Sequence of Event Recorder (Record Control)
Alarm Event: Disabled, Enabled
Relay O/P Event: Disabled, Enabled
Opto Input Event: Disabled, Enabled
General Event: Disabled, Enabled
Fault Rec Event: Disabled, Enabled
Maint Rec Event: Disabled, Enabled
Protection Event: Disabled, Enabled
DDB 31 - 0: (up to): DDB 2047 - 2016:
Binary function link strings, selecting which DDB signals will be stored as events, and which will be filtered out.
6.8 Oscillography (Disturbance Recorder)
Duration: 0.1010.50 s
Settings, Measurements and Records List (TD) 2 Technical Data
P34x/EN TD/J96 Page (TD) 2-45
Trigger Position: 0.0100.0%
Trigger Mode: Single/Extended
Analog Channel 1: (up to): Analog Channel 15
(depending on model):
Disturbance channels selected from:
IA-1/IB-1/IC-1/IA-2/IB-2/IC-2/IN/VA/VB/VC/ VN1/VN2/ISensitive/ I64S/ V64S/ Frequency/ 64R CL Input Raw/ 64R R Fault Raw/ 64R R Fault/CS Voltage (depending on model
Digital Input 1: (up to) Digital Input 32:
Selected binary channel assignment from any DDB status point within the relay (opto input, output contact, alarms, starts, trips, controls, logic).
Input 1 Trigger: (up to):Input 32 Trigger: No Trigger/Trigger/LH (Low to High)/Trigger H/L (High to Low)
6.9 Measured Operating Data (Measuret Setup)
Default Display: Access Level or 3Ph + N Current or 3Ph Voltage Power or Date and Time or Description Plant Reference or Frequency
Local Values: Primary, Secondary
Recommended