Data Bulletin 011DB110 07/01 Choosing a Trip Unit for PowerPact H-, J-, and L-Frame Circuit Breakers ENGLISH Inoduction Thermal-Magnetic or Eleconic Trip Unit? Thermal-Magnetic Trip Units 01171 t 0119 0A 11A (l n ) (l i ) H-Frame Trip Unit 0117 0A 10 00 (l n ) (l m ) J-Frame Trip Unit UL, NEMA, and NEC define a circuit breaker as A device designed to open and close a circuit by nonautomatic means and to open the circuit automatically on a predetermined overcurrent without damage to itself when properly applied within its rating. In order to open automatically during an overcurrent, circuit breakers are equipped with some type of ip system. Some circuit breakers employ thermal magnetic ip systems and some use eleconic ip systems. Thermal-magnetic ip units (available on PowerPact H- and J-frame circuit breakers only) protect against overcurrents and short-circuits using aditional technology. For applications requiring installation optimization and energy efficiency, eleconic ip units offer more advanced protection functions combined with measurements. Thermal-magnetic ip units are the most widely used overcurrent protection devices. These general purpose circuit breakers are the indusy standard. Thermal-magnetic ip units are designed to open automatically under overload or short circuit conditions. H-frame and J-frame thermal-magnetic circuit breakers contain individual thermal (overload) and instantaneous (short circuit) sensing elements in each pole. The thermal portion of the circuit breaker provides an inverse time response feature which provides faster or slower response for larger or smaller overcurrents respectively. Thermal-magnetic circuit breakers are the type found in most disibution equipment. Thermal-magnetic ip units can be used on PowerPact H- and J-frame circuit breakers with interrupting levels D/G/J/L/R. Thermalmagnetic ip units are available in factory sealed or field-interchangeable consuctions. 0 l n l i l H-Frame Trip Curve (l n ) Fixed threshold thermal protection against overload (l i ) Fixed threshold instantaneous protection against short circuits 0A 10 00 l n l m (= l i ) Eleconic Trip Units In most cases, the basic overcurrent protection provided by standard thermal-magnetic circuit breakers will meet the requirements of the elecical system design. In some cases, however, basic overcurrent protection might not be enough. Eleconic ip circuit breakers can provide 01 Schneider Elecic All Rights Reserved
Choosing a Trip Unit 011DB110 Data Bulletin 07/01 the additional features needed in those cases. Reasons to use eleconic ip circuit breakers include enhanced coordination capabilities integral ground-fault detection communication capabilities future growth potential eleconic ip units provide intelligent operation, with wide setting ranges to make installation upgrades easier. Trip units using digital eleconics are faster as well as more accurate. Designed with processing capabilities, ip units can provide measurement information and device operating assistance. With this information, users can avoid or deal more effectively with disturbances and can play a more active role in system operation. They can manage the installation, anticipate events and plan any necessary servicing. PowerPact H-, J-, and L-frame circuit breakers devices offer excellent measurement accuracy from 1 amperes on up to the short-circuit currents. This is made possible by a new generation of current ansformers combining iron-core sensors for self-powered eleconics and air core sensors (Rogowski coils) for measurements. The protection functions are managed by an ASIC (Application Specific Integrated Circuit) component that is independent of the measurement functions. This independence ensures immunity to conducted and radiated disturbances and a high level of reliability. An LED on the front of the eleconic ip units indicates the result of the selftest running continuously on the measurement system and the ipping release. A minimum current of 1 to 0 A, depending on the device, is required for this function. Front Indicators The green Ready LED blinks slowly when the eleconic ip unit is ready to provide protection. It indicates the links between the CTs, the processing eleconics, and the Mitop release are operational. The circuit breaker is ready to protect the circuit. Orange overload pre-alarm LED stays on when I > 90% I r Red overload LED stays on when I > 10% I r Green LED Yellow LED Red LED 01 Schneider Elecic All Rights Reserved
011DB110 Choosing a Trip Unit 07/01 Data Bulletin Available Trip Units To choose the right eleconic ip unit select from the following features. Table 1: Trip Unit Features Trip Unit (X = Standard Feature, O = Available Option Features Standard Ammeter Energy./..S/.S.A/.A.A/.A.E/.E.E/.E LI X LSI 1 X X X LSIG/Ground Fault Trip X X Ground-Fault Alarm Trip X X Current Settings Directly in Amperes X X X X X X True RMS Sensing X X X X X X UL Listed X X X X X X Thermal Imaging X X X X X X LED for Long-Time Pickup X X X X X X LED for Long-Time Alarm X X X X X X LED Green Ready Indicator X X X X X X Up to 1 Alarms Used Together X X X X Digital Ammeter X X X X Zone-Selective Interlocking X X X X Communications O O O O O O LCD Display X X X X Front Display Module FDM11 O O O O Advanced User Interface X X X X Neual Protection X X X X Contact Wear Indication X X X X Incremental Fine Tuning of Settings X X X X Load Profile, X X X X Power Measurement X X Power Quality Measurements X X 1 The LSI with.s/.s ip units have fixed short time and long time delays. Requires neual current ansformer on three-phase four-wire loads. ZSI for H/J-frame devices is only IN. ZSI for L-frame devices is IN and OUT. Indication available using the communication system only. % of hours in current ranges: 0 9%, 0 79%, 0 9%, and >90% I n. 01 Schneider Elecic All Rights Reserved
Choosing a Trip Unit 011DB110 Data Bulletin 07/01 Trip Units ip units can be used on PowerPact H-, J-, and L-Frame circuit breakers with performance levels D/G/J/L/R.. 0 0 1 10 1 0 0 1 1 1 0. 1 1. 1 Ir (A) @ Ir Ii (x In) Ir Ii They provide: standard protection of disibution cables indication of: overloads (using LEDs) overload ipping (using the SDx relay module). Circuit breakers equipped with ip units can be used to protect disibution systems supplied by ansformers. Protection Settings are made using the adjustment rotary switches. Overloads: Long time protection (I r ) Inverse time protection against overloads with an adjustable current pick-up I r set using a rotary switch and an adjustable time delay t r. Neual protection On -pole L-frame circuit breakers, neual protection is not possible. On four-pole L-frame circuit breakers, neual protection may be set using a three-position switch: switch position P D: neual unprotected switch position P D + N/: neual protection at half the value of the phase pick-up, (0. x I r ) switch position P D: neual fully protected at I r 011 00 0 1 17 00 1 10 0 1 10 1 0. 1 1. 1 Ir (A) Tr @ Ir Ii (x In) Ii 01 Schneider Elecic All Rights Reserved
011DB110 Choosing a Trip Unit 07/01 Data Bulletin / A or E Trip Units / A (Ammeter) or E (Energy) ip units can be used on PowerPact H-, J-, and L-frame circuit breakers with performance levels D, G, J, L, or R. They all have a front LED display and offer basic LSI protection ( ip unit) or LSI and ground-fault protection G ( ip unit). They also offer measurement, alarm and energy values. Measurement Display Settings Maintenance 0 0 0 0 1 0 10 1 1. 1 Ii (x In).E Ig tg The capabilities of / A and E ip units come into full play with the front display module. When the two are connected using a simple cable with RJ connectors, the combination offers full Power Meter capabilities and all the measurements required to monitor the elecical installation. Measurements Operating and Maintenance Assistance Communication Network Indicators, alarms and histories Ammeter ( A Trip Unit) Current measurements Phase and neual currents I A, I B, I C, I N Average current of the phases I avg Highest current of the three phases I max Ground-fault current I g (. /. A) ip units Maximum and minimum current measured Fault types Alarms for high/low alarm thresholds linked to I measurements Trip, alarm and operating histories Time-stamped tables for settings and maximum current Maintenance indicators Operation, ip and alarm counters Operating hours counter Contact wear Load profile and thermal image Modbus with add-on module Current measurements Phase and neual currents I A, I B, I C, I N Average current of the phases I avg Highest current of the three phases I max Ground-fault current I g (. /. A ip units) Maximum and minimum current measured Current unbalance between phases Energy ( E Trip Unit) Voltage measurements Phase-to-phase (V) and phase-to-neual (U) voltages Average voltages V avg, U avg Ph-Ph (V) and Ph-N (U) voltage unbalance Frequency measurements Frequency (f) Power-quality indicators Total harmonic distortion (THD) for current and voltage Power measurements Active, reactive and apparent power, total and per phase Power factor and cos φ Maximum and minimum For all I, V, f, P, E measurements Demand current and power measurements Demand values, total and per phase Maximum demand Energy metering Active, reactive and apparent energy, total and per phase Indicators, alarms and histories Fault types Alarms for high/low thresholds linked to I, V, f, P, E measurements Trip, alarm and operating histories Time-stamped tables for settings and I, V, f, P, E maximum values Maintenance indicators Operation, ip and alarm counters Operating hours counter Contact wear Load profile and thermal image Modbus with add-on module 01 Schneider Elecic All Rights Reserved
Choosing a Trip Unit 011DB110 Data Bulletin 07/01 Protection Settings can be adjusted in two ways, using the rotary switches and/or the keypad. The keypad can be used to make fine adjustments in 1 A steps below the maximum value defined by the setting on the rotary switch. Access to setting modifications using the keypad is protected by a locking function displayed on the screen and conolled by a microswitch. The lock is activated automatically if the keypad is not used for minutes. Access to the microswitch is protected by a ansparent, sealable cover. With the cover closed, it is still possible to display the various settings and measurements using the keypad. Overloads: Long-Time Protection (I r ) Inverse time protection against overloads with an adjustable current pick-up I r is set using a rotary switch or the keypad for fine adjustments. The time delay t r is set using the keypad. Short-Circuits: Short-Time Protection (I sd ) Short-circuit protection with an adjustable pick-up I sd and adjustable time delay t sd, with the possibility of including a portion of an inverse time curve (I t On). Short-Circuits: Instantaneous Protection (I i ) Instantaneous protection with adjustable pick-up I i. Additional Ground Fault Protection (I g ) on Trip Units Residual type ground-fault protection with an adjustable pick-up I g and adjustable time delay t g. Possibility of including a portion of an inverse time curve (I t On). Neual Protection On -pole circuit breakers, this protection can be set using the keypad: Off: neual unprotected 0.: neual protection at half the value of the phase pick-up (0. x I r ) 1.0: neual fully protected at I r OSN: Oversized neual protection at 1. times the value of the phase pick-up. Used when there is a high level of rd order harmonics (or orders that are multiples of ) that accumulate in the neual and create a high current. In this case, the device must be limited to I r = 0. x I n for the maximum neual protection setting of 1. x I r. With -pole circuit breakers, the neual can be protected by installing an external neual sensor with the output (T1, T) connected to the ip unit. Zone Selective Interlocking (ZSI) A ZSI terminal block may be used to interconnect a number of ip units to provide zone selective interlocking for short-time (I sd ) and ground-fault (I g ) protection, without a time delay. For PowerPact H- and J-frame circuit breakers, the ZSI function is available only in relation to the upseam circuit breaker (ZSI out). For PowerPact L-frame circuit breakers, the ZSI function is available in relation to the upseam circuit breaker (ZSI out) and downseam circuit breakers (ZSI in). 01 Schneider Elecic All Rights Reserved
011DB110 Choosing a Trip Unit 07/01 Data Bulletin Display of Type of Fault. 011 Isd Fault On a fault ip, the type of fault (I r, I sd, I i, I g ), the phase concerned and the interrupted current are displayed. An external power supply is required. Fault Phase Display of Interrupted Current. Interrupted Current 0111 x Remote Indicators An SDx relay module installed inside the circuit breaker can be used to remote the following information: overload ip overload prealarm ( ip units) or ground fault ip ( ip units). This module receives the signal from the eleconic ip unit through an optical link and makes it available on the terminal block. The signal is cleared when the circuit breaker is closed. Note: all the ip units have a ansparent wire-sealable cover These outputs can be reprogrammed to be assigned to other types of ipping or that protects access to the adjustment rotary switch. The module is described in detail in the section dealing with accessories. SDx Module 01 Schneider Elecic All Rights Reserved 7
> 0 > 1 1 0 > 0 A % Ir. 1.. M ic o r lo g i c E.9.9.9.9.9 7.9.9.9 1 Ir (x Io ) I s d(x Ir) 1 0 > 0 > 1 1 0 > 0 A % Ir > 0 > 1 1 0 > 0 A % Ir. 1.. 1.. M ic o r lo g i c E.9.9.9.9.9 7.9.9.9 1 Ir (x Io ) I s d(x Ir). M ic o r lo g i c E.9.9.9.9.9 7.9.9.9 1 Ir (x Io ) I s d(x Ir) 1 0 1 0 > 0 > 1 1 0 > 0 A % Ir. 1.. M ic o r lo g i c E.9.9.9.9.9 7.9.9.9 1 Ir (x Io ) I s d(x Ir) 1 0 Choosing a Trip Unit 011DB110 Data Bulletin 07/01 Trip Unit Applications PowerPact H-, J-, and L-Frame circuit breakers offer high performance and a wide range of ip units to protect a variety of applications. Table : Applications G 0117 Protection of disibution systems The PowerPact H-, J-, and L-frame circuit breakers provide protection against short circuits and overloads for: disibution systems supplied by ansformers disibution systems supplied by engine generator sets They are easily installed at all levels in disibution systems, from the main LV switchboard to the subdisibution boards and enclosures. Two types of ip units are available: thermal-magnetic ip units for standard disibution system applications eleconic ip units for enhanced coordination, communication, and metering applications 0119 Protection of special applications The PowerPact H-, J-, and L-frame circuit breakers offer a number of version for special protection applications: indusial conol panels with: compliance with international standards IEC 097- and UL 0/CSA. N 1 compliance with UL9 installation in universal and functional enclosures 00 Hz systems Protection of motors basic short-circuit protection with eleconic instantaneous only MCP or the eleconic 1. M ip units, combined with a special overload relay to provide thermal protection protection against overloads, short circuit and phase unbalance or loss with M ip units 0111 U G Manual ansfer systems To ensure a continuous supply of power, some elecical installations are connected to two power systems: the normal source, usually the utility (U) a replacement source to supply the installation when the normal source is not available, generally from a generator (G) A mechanical and/or elecical interlocking system between two circuit breakers avoids all risk of parallel connection of the sources during switching. 01 Schneider Elecic All Rights Reserved
> 0 A > 0 > 1 1 0 % Ir.9.9.9..9 1..9.9 1 Ir (x Io ) 1 I s d(x Ir).9 7.9 0. i g lo ic r 0 0 0 0 1 0 10 1 1. 1 0 0 0 0 1 0 10 1 1. 1 Ir Ii tsd Ir Isd Ii FLA Isd 0 011DB110 Choosing a Trip Unit 07/01 Data Bulletin Table : Trip Unit Availability Choose the Right Trip Unit for the Applications H-, J-Frame L-Frame Trip Unit Type Trip Unit M o c E Trip Unit Trip Unit Trip Unit Thermal-Magnetic T-M 0A 10 00 l n l m (= l i ) N/A. LI 0 0 1 10 1 0 0 1 1 1 0. 1 1. 1 Ir (A) @ Ir Ii (x In).. 00 0 1 17 00 1 10 0 1 10 1 0. 1 1. 1 Ir (A) Tr @ Ir Ii (x In) Ii LSI Fixed ST and LT delays 0 0 10 0 0 10 1 1 0 1. 1 1. 1 Ir (A) Isd (x In) Ii (x In).S.S.S 00 0 17 00 10 0 10 10 1 0 1. 1 1. 1 Ir (A) Isd (x In) Ii (x In).S tsd Ir Isd Ii LSI + Ammeter. A. A. A LSI + Energy Monitoring. E Ii (x In). E 00 0 17 00 10 0 1 00 10 1. 1 Ii (x In) tsd Ir Isd Ii LSIG + Ammeter. A. E LSIG + Energy Monitoring Ii (x In).E Ig tg. A. E 00 0 17 00 10 0 1 00 10 1. 1 Ii (x In) Ir Isd tsd Ii(xIn) Ig tg. A tsd Ir Isd Ii Motor Circuit Protection Magnetic Only M Standard Energy Efficient Energie Efficace Energia Eficiente N/A Motor Protection 1 M N/A 1.M 00 00 000 00 00 1. M 00 00 000 Isd (A). M.M Motor Protection M. M 1 1 17 1 11 17 10 11 17 FLA (A) Class. Isd (x FLA) Ii=70. M 70 0 90 0 10 10 0 190 FLA (A) Class. Isd (x FLA) FLA Isd 01 Schneider Elecic All Rights Reserved 9
Choosing a Trip Unit 011DB110 Data Bulletin 07/01 ENGLISH Schneider Elecic USA, Inc. 700 Sixth St. SW Cedar Rapids, IA 0 USA 1--77-7 www.schneider-elecic.us Elecical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Elecic for any consequences arising out of the use of this material. Square D and Schneider Elecic are ademarks or registered ademarks of Schneider Elecic. Other ademarks used herein are the property of their respective owners. 10 01 Schneider Elecic All Rights Reserved