AUXILIARY RELAYS FOR TRIPPING APPLICATIONS

AUXILIARY RELAYS FOR TRIPPING APPLICATIONS

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INDEX.............. Answers for any tripping application Technical standards General characteristics Range of products Trip relays Trip and lockout relays Trip circuit supervision relays Auxiliary supply circuit supervision relays High / low burden configuration Breaking capacity Pickup voltage/release voltagetemperature charts Model selection Dimensions and panel mounting cutoff

ANSWER FOR ANY TRIPPING APPLICATION ARTECHE offers a wide range of relays specially designed to be used in circuit breaker tripping applications. Interface between protection and control equipments and HV and/or MV circuit breakers, eliminating risks in case of internal failure of the circuit breaker. Trip contacts multiplication, to operate directly on the circuit breaker and transmit the corresponding alarms in a minimum time. Trip and lockout, with electric or hand reset to avoid accidental closing of circuit breakers associated to power transformers, generators or machines. The surveillance of the trip circuit, guarantees it is in perfect conditions to allow the trip when it is needed. TECHNICAL STANDARDS GENERAL STANDARDS In addition to the specific applicable standards, ARTECHE auxiliary relays are designed based on the fulfilment of the following standards: IEC : Electromechanical allornothing relays. IEC 0: Electrical relays. Measuring relays and protection equipment. IEC : Specified time relays for industrial use. IEC 09: Lowvoltage switchgear and controlgear. IEC 00: Electromagnetic compatibility.

GENERAL CHARACTERISTICS Some of the general characteristics of the ARTECHE trip relays are: High isolation level between input and output circuit, which guarantees that a problem in the circuit breaker will not cause irreparable damages on the protection system. Fast operating times, down to ms, minimizing the impact on the total trip time. High breaking capacity, which allows direct operation on highly inductive circuits. Sturdy design, which ensures high reliability. Wide range of auxiliary voltage (Vdc and Vac). Selfcleaning of the contacts. Security contacts according to EN 00. Easy installation (plugin relays with different installation possibilities). Designed to work in permanent service, even at high temperature for the whole voltage range. Capable to work under ambients with relative humidity around 0%. Seismic characteristics, allowing their use in installations which can be subject to vibrations, as for example in power stations or in regions with high risk of seism. High protection degree (IP0), with transparent cover, making them appropriate for tropical and saline environments. Fulfilment of the most demanding standards: IEC, EN, IEEE, CE and UL mark. No maintenance needed. In addition, the different number of alternatives that are offered when the equipment is selected, both technically (increase of the breaking capacity by serial contacts, high speed operation of the output contacts, possibility of adding different options to the relay) and in the assembly method (front, rear or flush mounted sockets, with screws or fastons) must be considered. E UL Recognized Component Marks for USA and Canada: The combined UL signs for the USA and Canada are recognized by the authorities of both countries. All auxiliary relays identified with this mark meet the requirements of both countries.

RANGE OF PRODUCTS TRIP RELAYS Instantaneous trip relays, whose contacts change instantaneously from the rest position to the working position when the coil is energized. The contacts return to the rest position when the coil is no longer energized. This range includes relays with,, and contacts, with operating times from ms to ms, depending on the model. All the relays include a diode in parallel with the coil (see auxiliary relays with overvoltage protection characteristic) and comply with the shock and vibration standards, related to the relays with seismic characteristics. TRIP AND LOCKOUT RELAYS Trip relays with stable positions for the output contacts. Depending on which coil is energized, the contacts will change from one position to the other. The design of the ARTECHE relays has no consumption in permanence, and prevents both coils from being energized simultaneously. This range includes relays with,, and contacts, with operating times below ms, depending on the model, and possibility of manual reset. The position change is made with sets of coils with separated entrances, in BF and BJ, and with breakingflame contacts for each set of coils. TRIP CIRCUIT SUPERVISION RELAYS For single phase or three phase circuit breakers. Through a small supervision current the whole circuit is supervised, in both positions of the circuit breaker (open or closed). The correct state of the circuit is showed with a green LED on the front plate of the relay. The output contacts change their position if the relay detects a failure in the continuity of the circuit. The single phase trip circuit supervision relay can be manufactured with different LED indicator configurations, refers to selection chart for more detailed information AUXILIARY SUPPLY CIRCUIT SUPERVISION RELAYS Auxiliary relay with four changeover contacts, aimed to supervise the failure of trip supply. Connecting the relay across the trip circuit supply, the equipment is normally energized. Faults will occur when the trip voltage is lost, so the relay drops off in those cases, providing the related signs and alarms. In order to avoid faulty alarms due to instantaneous supply voltage dips, the drop off time of the relay is delayed over 0 ms so those nonpermanent failures of trip supply would not be considered. Auxiliary supply circuit supervision relays can be manufactured with different LED indicator configuration, refers to selection chart for more detailed information

TRIP RELAYS Worldclass range of auxiliary relays for energy sector, specially designed for the most demanding applications

TRIP RELAYS (I) Model RDR RDXR RFR RFXR Applications Intended for tripping applications where high demanding requirements in operating time (with tripping time from ms to ms) and breaking capacity are needed, that is the case of tripping HV and MV circuit breakers. High burden configuration not available See page for technical details Construction characteristics Contacts no. Changeover Changeover Connections Options () () 9 () () With 0P options LED included Diode in parallel with the coil included Weight (g) 0 Dimensions (mm) (A), x (B) 0, x (C) (D type) (A), x (B) 0, x (C) (F short type) Coil characteristics Standard voltages (),,,, 0, 0 Vdc /,, 0 Vac (00Hz),,, 0, 0 Vdc,,,, 0, 0 Vdc /,, 0 Vac (00 Hz),,, 0, 0 Vdc Voltage range Pickup voltage Release voltage Average consumption In permanence (U N ) Peak 9 Vdc Peak >9 Vdc % 0% U N See pickup/release voltagetemperature curves 0,9 W W 0, A / 0 ms, A / 0 ms 0, A / 0 ms, A / 0 ms 0, A / 0 ms 0, A / 0 ms 0, A / 0 ms 0, A / 0 ms Operating time Pickup time < ms (< ms Vac) <, ms < ms (< ms Vac) <, ms Dropout time Vdc: <0 ms Vac: <0 ms Vdc: <0 ms Vdc: <0 ms Vac: <0 ms Vdc: <0 ms Contacts Contact material Contacts resistance () Distance between contacts Permanent current Instantaneous current Max. making capacity AgNi 0 mω, mm A 0 A during s / 0 A during 00 ms / 00 A during ms 0 A / 0, s / Vdc Breaking capacity See breaking capacity curves (Contact configuration type B) Max. breaking capacity U max opened contact See value for 0.000 operations 0 Vdc / 00 Vac Perfomance data Mechanical endurance Operating temperature Storage temperature Max. operating humidity Operating altitude () operations ºC 0ºC 0ºC ºC 9% / 0ºC <000 m () Other voltage upon request () Guarantee data for relays just manufactured () Ask for higher altitudes

TRIP RELAYS (II) Model RJR RJXR RJXR* Applications High burden configuration Características constructivas Contacts no. Intended for tripping applications where high quality requirements in operating time (with models even tripping in less than ms) and breaking capacity are needed, that is the case of tripping HV and MV circuit breakers. See page for technical details Changeover See page for technical details not available Changeover Fast SinglesInversors without break power Connections 0 0 0 0 0 Options With 0P options LED included Diode in parallel with the coil included Weight (g) 00 Dimensions (mm) (A), x (B) 0, x (C) (J short type) (A), x (B) 0, x (C) (J short Type) Coil characteristics Standard voltages (),,,, 0, 0,,, 0,,, 0, 0 Vdc Vdc/,, 0 Vac (00 Hz) 0 Vdc Voltage range % 0% U N % 0% U N Pickup voltage See pickup/release voltagetemperature curves % U N Release voltage % U N Average consumption In permanence (U N ), W, W Peak 9 Vdc 0, A / 0 ms, A / 0 ms W / ms Peak >9 Vdc 0, A / 0 ms 0, A / 0 ms Operating time Pickup time < ms Vdc (< ms Vac) (Range Vdc < ms) <, ms Contacts : < ms Contacts : <0 ms Dropout time Vdc: <0 ms Vac: <0 ms Vdc: <0 ms Contacts : < ms Contacts : <0 ms Contacts Contact material AgNi Contacts resistance () 0 mω Distance between contacts, mm Contacts :, mm Permanent current A Contacts : A Contacts : A Instantaneous current 0 A during s / 0 A during 00 ms / 00 A during ms Contacts : 0 A during s / 0 A during 00 ms / 00 A during ms Max. making capacity 0 A / 0, s / Vdc Contacts : 0 A / 0, s / Vdc Breaking capacity See breaking capacity curves (Contact configuration type B) Contacts : See breaking capacity curves (Contact configuration type B) Max. breaking capacity See value for 0,000 operations Contacts : See value for 0,000 operations U max opened contact 0 Vdc / 00 Vac Perfomance data Mechanical endurance operations Operating temperature ºC 0ºC 0ºC ºC Storage temperature 0ºC ºC Max. operating humidity 9% / 0ºC Operating altitude () <000 m () d () a 0 0 0 0 0 () d () a 0 0 0 0 High breaking capacity Trip () Other voltage upon request () Guarantee data for relays just manufactured () Ask for higher altitudes *Not recognized by UL 9

TRIP RELAYS (III) Model RIR RXR RFUR Applications Intended for trip applications where high demanding requirements in operating time and breaking capacity are needed. Tripping applications with very high speed requirements. Tripping applications with very high speed requirements. High burden configuration See page for technical details Not available Not available Construction characteristics Contacts no. Changeover Changeover Changeover Terminals A Terminals B NC 0 C NO 0 0 0 Connections NC () () d 0 0 C NO 0 0 NC 9 C () a 0 NO 0 () NC 0 0 C NO 0 0 Options With 0P options LED included Diode in parallel with the coil LED included No options available included Weight (g) 0 0 Dimensions (mm) (A) 0 x (B) x (C) (A) x (B) 90 x (C) (A), x (B) 0, x (C) (type F short) Coil characteristics Standard voltages (),,, 0 Vdc,, 0 Vdc,, 0 Vdc Voltage range % 0% U N % 0% U N % 0% Un Pickup voltage See pickup/release voltagetemperature % % Release voltage curves % 0% Average consumption W, W W Operating time Pickup time < ms < ms < ms Dropout time <0 ms < ms < ms Contactos Contact material AgNi AgNi AgNi Permanent current A A A Max. making capacity 0A / 0, s / Vdc A during s A during s Breaking capacity ee breaking capacity curves See breaking capacity curves See breaking capacity curves (Contact configuration type A) U max opened contact 0 Vdc / 00 Vac 0 Vdc / 00 Vac 0 Vdc / 00 Vac Performance data Mechanical endurance operations operations operations Operating temperature ºC 0ºC 0ºC ºC 0ºC ºC Storage temperature 0ºC ºC 0ºC ºC 0ºC ºC Max. operating humidity 9% / 0ºC 9% / 0ºC 9% / 0ºC Operating altitude () <,000 m <,000 m <,000 m () Other voltage upon request () Ask for higher altitudes

TRIP AND LOCKOUT RELAYS (I) Model BFR BFR BJR BIR Applications Intended for trip and lockout applications where high demanding requirements in operating time and breaking capacity are needed. High burden configuration not available See page for technical details See page for technical details See page for technical details Construction characteristics Contacts no. Changeover Changeover Changeover Changeover Connections Options Trip Reset 9 Trip Reset B 9 Options are not available Trip Reset b a d c 0 0 0 0 0 0 0 A Terminals 0 0 0 0 0 0 0 Trip Reset b a d c B Terminals 0 0 0 0 0 0 0 Weight (g) 00 00 0 Dimensions (mm) (A) x (B) x (C) 9, (F large Type) (A) 90 x (B) 0 x (C) 0, (J large Type) (A) 0 x (B) x (C) Coil characteristics Standard voltages () Voltage range Pickup voltage Average consumptions only in the changeover,,,,, 0 Vdc /,,,, 0 Vac (00 Hz) % 0% U N See pickup voltage / temperature curves for Latching relays W W W 90 W Operating time Pickup time < ms (Vdc) <0 ms (Vac) Contacts Contact material Distance between contacts Permanent current Instantaneous current Max. making capacity AgNi, mm A 0 A during 00 ms / 00 A during ms 0 A / 0, s / Vdc Breaking capacity See breaking capacity curves (Contact configuration type A) Max. breaking capacity U max opened contact See value for 0.000 operations 0 Vdc / 00 Vac Performance data Mechanical endurance operations operations Operating temperature Storage temperature Max. operating humidity Operating altitude () 0ºC 0ºC 0ºC ºC 9% / 0ºC <000 m () Other voltage upon request () Ask for higher altitudes

TRIP AND LOCKOUT RELAYS (II) Model BFRP BJRP BIRP Applications High burden configuration Construction characteristics Intended for tripping and locking applications where high quality requirements in operating time and breaking capacity are needed, with manual reset. See page for technical details Contacts no. Changeover Changeover Changeover Connections Options Options are not available Weight (g) 00 00 0 Dimensions (mm) (A) x (B) x (C) 9, (F large Type) Coil characteristics Trip Reset B 9 Trip Reset b a d c 0 0 0 0 0 0 0 (A) 90 x (B) 0 x (C) 0, (J large Type) A Terminals 0 0 0 0 0 0 0 Trip Reset b a d c B Terminals 0 0 0 0 0 0 0 (A) 0 x (B) x (C) Standard voltages () Voltage range Pickup voltage (0ºC) Average consumptions only in the changeover,,,,, 0 Vdc,,, 0 Vcc (),,,, 0 Vac (00 Hz) % 0% U N See pickup voltage / temperature curves for Latching relays W W 90W Operating time Pickup time < ms (Vdc) < ms (Vac) < ms (Vdc) <0 ms (Vac) < ms Contacts Contact material AgNi Distance between contacts, mm Permanent current A Instantaneous current 0 A during 00 ms / 00 A during ms Max. making capacity 0 A / 0, s / Vdc Breaking capacity See breaking capacity curves (Contact configuration type A) Max. breaking capacity See value for 0,000 operations U max opened contact 0 Vdc / 00 Vac Performance data Mechanical endurance operations operations Operating temperature 0ºC 0ºC Storage temperature 0ºC ºC Max. operating humidity 9% / 0ºC Operating altitude () <000 m () Other voltage upon request () Ask for higher altitudes () Vac voltage upon request

TRIP CIRCUIT SUPERVISION RELAYS Model VDF VDJ0 Applications Construction characteristics Trip circuit supervision for singlephase circuit breakers Trip circuit supervision for threephase circuit breakers Timing Contacts no. Changeover Changeover FU TRIP SUPPLY FU Connections Trip contact Trip contact Trip contact Trip contact TRIP SUPPLY a b e K K K K K K h a b 0 0 0 a b a b K K 9 0 a b CB CB CB CIRCUIT BREAKER CB CIRCUIT BREAKER FU TRIP SUPPLY FU TRIP SUPPLY Options With OP options. See model selection table. Options are not available. Weight (g) 0 Dimensions (mm) (A), x (B) 0, x (C) 9, (F large Type) (A), x (B) 0, x (C) 9, (J large Type) Coil characteristics Standard voltages () Voltage range Pickup voltage (º C) Release voltage (º C) /0, 0, /, 0 Vdc, /, 0 Vac (00 Hz) % % U N 0% U N 0% U N Consumptions, W, W Operating time Dropout time >00 ms Contacts Contact material Permanent current Instantaneous current Max. making capacity Max. breaking capacity U max opened contact AgNi A A A during s 0, A / Vdc 0 Vdc / 00 Vac Performance data Mechanical endurance Operating temperature Storage temperature Max. operating humidity Operating altitude () operations 0ºC ºC 0ºC ºC 9% / 0ºC <000 m () Other voltage upon request () Ask for higher altitudes

AUXILIARY SUPPLY SUPERVISION RELAYS Model RUT Applications Construction characteristics Timing Contacts no. Supervise only the auxiliary supply circuit of the protection equipments, avoiding false alarms due to shorttime drop of supply Changeover () Connections 9 () Options With OP options. See model selection table. Weight (g) 0 Dimensions (mm) (A), x (B) 0, x (C) 9, (F large Type) Coil characteristics Standard voltages () Voltage range Pickup voltage Release voltage Consumptions in permanence,,,,, 0 Vdc /,,,, 0 Vac % 0% U N See pickup release voltagetemperature curves for standard relays, W Operating time Pickup time Dropout time () Other voltage upon request () Guarantee data for relays just manufactured () Ask for higher altitudes To minimum voltage Maximum <0 ms >0 ms <00 ms Contacts Contact material AgNi Contacts resistance () 0 mω Distance between contacts, mm Permanent current A Instantaneous current 0 A during 00 ms / 00 A during ms Max. making capacity 0 A / 0, s / Vdc Breaking capacity See breaking capacity curves (Contact Configuration Type A) Max. breaking capacity See value for 0.000 operations U max opened contact 0 Vdc / 00 Vac Performance data Mechanical endurance operations Operating temperature 0ºC ºC Storage temperature 0ºC ºC Max. operating humidity 9% / 0ºC Operating altitude () <000 m

HIGH / LOW BURDEN CONFIGURATION High Burden configuration: Fast and extrafast types Low Burden configuration: Ultrafast, extrafast and fast types The standard high speed tripping relays are manufactured with a low burden configuration, considering that the initiating contact is placed close to the tripping relay. However, and in order to avoid unwanted trip relay operation due to pickup or transients, particularly if the relay operating coil is connected to extensive wiring, ARTECHE tripping relays could be manufactured with a high burden configuration, complying with ESI international standard, as EB class relays. These EB class relays are suitable for use in high security circuit breaker tripping circuits, increasing their immunity to capacitance discharge currents. For relays with rated voltage up to and including the V, the relays will withstand, without operating, a discharge into their operate circuits of a µf capacitor charged to 0% of the nominal voltage. For relays with rated voltage of 0 V, the relays will withstand, without operating a discharge into their operate circuits of a µf capacitor charged to 0% of the nominal voltage. Specifications: ESI EB: 9 ESI EB: 9 Low Burden High Burden HIGH BURDEN RELAYS CONSUMPTIONS See table below: Standard Voltage Consumption Model Peak (< ms) SteadyState Instantaneous RFR HB RJR HB 00 W W W RIR HB W Latching Electrical and hand&electric reset RFR (RP) HB BJR (RP) HB BIR (RP) HB 00 W W (Only In commutation) W (Only In commutation) 90 W (Only In commutation)

BREAKING CAPACITY With devices operating worldwide, also heavy industries like oil & gas sector trust in our relays.

BREAKING CAPACITY The breaking capacity is a critical parameter on the design and the applications of the relays. Its mechanical life could be considerably reduced, depending on the value of the load (especially with heavy duty loads), the number of operations and the environmental conditions in which the relay is operating. In any configuration, ARTECHE s auxiliary relays have a high breaking capacity values. These limits are showed in the table below, in terms of power and current values. In all the cases, these relays guarantee a right performance during 0,000 operations. Likewise, the values showed in the following charts have been obtained in standard conditions in the laboratory, and they could be different in real conditions. In any case, the possibility of connecting serial contacts or a bigger distance between contacts makes these values to be considerably increased. MAX. BREAKING CAPACITY ULTRAFAST TYPE (Tripping contact): ELECTRICAL ENDURANCE ULTRAFAST TYPE (Tripping contact): Voltage 0Vac Configuration of resistive load: L/R0 ms ELECTRICAL ENDURANCE OTHER MODELS Vdc voltage Different loads configurations. *The two loads may open simultaneously up to A Resistive load: L/R 0 ms. Highly inductive load: L/R 0 ms. 0 No. operations No. operations 0 0 0 0 0 0 Current Type A (Distance between contacts, mm) Type B (Distance between contacts, mm) Current 0 ms 0 ms 0 ms Vdc Contact configuration P(W) I(A) P(W) I(A) P(W) I(A) Type A 00 0, 0, 0, Type B 0, 00,0,

Vdc voltage Different loads configurations. Resistive load: L/R 0 ms. Highly inductive load: L/R 0 ms. No. operations No. operations 0 9 0 Current Current Type A (Distance between contacts, mm) Type B (Distance between contacts, mm) contacts type A contacts type B 0 ms 0 ms 0 ms Vdc Contacts configuration P(W) I(A) P(W) I(A) P(W) I(A) Type A 0,, 90 0, Type B, 0 0,9 0,9 contacts type A.0,.,0 0, contacts type B,9,, Vdc voltage Different loads configurations. Resistive load: L/R 0 ms. Highly inductive load: L/R 0 ms. No. operations No. operations 0 9 0 0,,,, Current Current Type A (Distance between contacts, mm) Type B (Distance between contacts, mm) contacts type A contacts type B

0 ms 0 ms 0 ms Vdc Contacts configuration P(W) I(A) P(W) I(A) P(W) I(A) Type A, 0 0,9 0,0 Type B 9 0, 0, contacts type A 9,,90,09,,9, contacts type B,, 9,9,,, 0 Vdc voltage Different loads configurations. Resistive load: L/R 0 ms. Highly inductive load: L/R 0 ms. No. operations No. operations 0,00 0,0 0,0 0,0 0,0,00,0,0,0 0,00 0, 0,0 0,0 0,0 0,0 0,0 0,0 0,0 Current Type A (Distance between contacts, mm) Type B (Distance between contacts, mm) contacts type A contacts type B Current 0 ms 0 ms 0 ms Vdc Contacts configuration P(W) I(A) P(W) I(A) P(W) I(A) Type A 0, 0, 0,0 0 Type B 0, 0, 0 0, contacts type A 9,,0 0, contacts type B, 0, 0 0, 9

HOW TO SELECT THE CURVE OF MY RELAY These charts show the breaking capacity values, either for resistive and highly inductive loads, in three voltage values of reference (ask for other voltage values). The charts show four different curves: Type A: Breaking capacity of the relays with distance between contacts. mm. Type B: Breaking capacity of the relays with distance between contacts. mm. contacts type A: Breaking capacity for relays with serial contacts, and distance between contacts. mm. contacts type B: Breaking capacity for relays with serial contacts, and distance between contacts. mm. The distance between contacts is shown in the tables of technical data. HOW THE BREAKING CAPACITY CAN BE INCREASED ARTECHE s auxiliary relays are power relays, designed specially to have a high breaking capacity. Thus, there are applications where the loads are so high that it is necessary to even increase the breaking capacity, keeping the reliability of the contacts of the auxiliary relays. Recommendations to increase breaking capacity: Connect contacts in series. The breaking capacity is increased considerably, guaranteeing the right performance during a high number of operations. See curves for two contacts. Use ARTECHE range of contactors. See ARTECHE contactors catalogue for more detailed information. 0

PICKUP VOLTAGE/RELEASE VOLTAGETEMPERATURE CHARTS

Variability of operative voltage range against temperature for the instantaneous auxiliary relays. TRIPPING RELAYS Operative range against ambient temperature. Maximum storage temperature 00 Upper limit of the pickup voltage U/UN (%) 0 Pickup voltage limit Dropout voltage limit Operative range of the coil voltage 0 0 0 0 0 0 0 0 0 0 0 0 0 90 0 Temperature (ºC) TRIP AND LOCKOUT RELAYS AND TRIP AND LOCKOUT RELAYS WITH RESET PUSH BUTTON Operative range against ambient temperature. 0 Maximum storage temperature 00 U/UN (%) 0 Upper limit of the pickup voltage Pickup voltage limit Operative range of the coil voltage 0 0 0 0 0 0 0 0 0 0 0 0 0 90 0 0 Temperature (ºC)

MODEL SELECTION TRIP Type Range Aux. Supply Options Model Selection OP Relay type contacts relay RDR * 0* 0 0 0 contacts relay RDXR * 0* 0 0 0 contacts relay RFR 0* 0 0 0 contacts relay RFXR 0* 0 0 0 contacts relay RJR 0* 0 0 0 contacts relay RJXR 0* 0 0 0 Standard model contacts relay RIR 0* */*** 0* 0* 0* Ultrafast (only Vdc) RJXR * 0* * 0* 0* 0* Ultrafast (only Vdc) RXR * * * * * * Ultrafast (only Vdc) RFUR * * * * * * Range High Burden Low burden (all by default) Rolling stock applications or low duty loads or guided contacts** HB FF Aux. Supply Vdc or Vac Indicate voltage level and if it is VDC or VAC (ex: VDC) Options 0 Front LED No 0 Yes Mechanical contact position indicator No 0 Yes Trip flag No 0 Yes Push to test button No 0 To Push the contacts *Mandatory option ** For more information refer to railway application brochure *** Option only available for HB models with and Vdc rated voltage. Red LED for trip signaling.

Trip and lockout Type Range Aux. Supply Model Selection Relay type contacts relay BFR contacts relay BFR contacts relay BFRP contacts relay BJR contacts relay BJRP contacts relay BIR contacts relay BIRP Range High Burden HB Low burden (all by default) Aux. Supply Vdc or Vac Indicate voltage level and if it is VDC or VAC (ex: VDC) Trip circuit supervision Type LED Indicator configuration Aux. Supply Model Selection Relay type One phase Three phase VDF VDJ0 One phase relay LED Indicators configurator Correct operation of the VDF OP is shown via an illuminated green LED (in the bottom left) Correct operation of the VDF OP is shown via an illuminated red LED (in the bottom left) Correct operation of the VDF OP is shown via an illuminated green LED (in the bottom left) in case of loss of continuity a red LED is illuminated in the upper left OP. OP. OP. Aux. Supply Vdc or Vac Indicate voltage level and if it is VDC or VAC (ex: VDC) Auxiliary supply circuit supervision Type LED Indicator configuration Aux. Supply Model Selection Relay type One phase RUT One phase relay Indicators.Options Correct operation of the RUT OP is shown via an illuminated green LED (in the bottom left) Correct operation of the RUT OP is shown via an illuminated green LED (in the bottom left) in case of voltage lack a red LED is illuminated in the upper left OP. OP. Aux. Supply Vdc or Vac Indicate voltage level and if it is VDC or VAC (ex: VDC) DIMENSIONS OF THE RELAYS Dimensions: A x B x C A Type RXR B C, Size and weight vary depending on the model. Please refer to datasheet for detailed info.

RETAINING CLIPS RETAINING CLIPS OP SOCKET RELATED PLUGGED RELAY E0 Universal (D and F sized sockets require units ; J sized sockets require units) RD; RF; RJ; TDF; TDJ; VDF; VDJ E DNDE IP, DNDE C IP RD OP E0 DNTR OP, DNTR C OP RD OP E0 FNDE IP, FNDE C IP RF OP Universal (Bag of 0 units) Universal (Bag of 0 units) E FNDE IP, FNDE C IP TDF OP; VDF OP; RUT E FNTR OP, FNTR C OP RF OP E FNTR OP, FNTR C OP TDF OP; VDF OP; RUT E FNDE IP, FNDE C IP BF E FNTR OP, FNTR C OP BF E JNDE IP, JNDE C IP RJ OP E JNDE IP, JNDE C IP TDJ OP; VDJ OP E JNTR OP, JNTR C OP RJ OP E JNTR OP, JNTR C OP TDJ OP; VDJ OP E9 JNDE IP, JNDE C IP BJ; UJ E JNTR OP, JNTR C OP BJ; UJ OTHER ACCESSORIES Security pins for RD; RF; RJ; TDF; TDJ; VDF; VDJ relays (bag of 0 units) E0 retaining clips E ** retaining clips SOCKETS, DIMENSIONS AND CUTOUT Sockets Accessories Relay Type Screw Double faston Weight (g) IP Front connection DNDE IP DNDEC IP 0 D IP0 Front connection DNDE IP0 DNDEC IP0 0 IP Rear connection DNTR OP DNTRC OP 0 IP Front connection FNDE IP FNDEC IP IP0 Front connection FNDE IP0 FNDEC IP0 IP Rear connection FNTR OP FNTRC OP 90 F FEMP IP Flush mounting (short) 00 SHORT OP IP Flush mounting FEMP OP 00 IP Front connection JNDE IP JNDEC IP IP0 Front connection JNDE IP0 JNDEC IP0 IP Rear connection JNTR OP JNTRC OP J JEMP IP Flush mounting (short) 00 SHORT OP IP Flush mounting JEMP OP 00 IP Front connection IDE 00 I IP Rear connection ITR ITRC 00 IP Flush mounting IEMP 00 Accessories Retaining clips Function signs on the extraction ring Security pins Front connection for double faston IP sockets DNDEC IP FNDEC IP JNDEC IP lateral connection for the rest of the sockets Front connection socket Rear connection socket Flush mounting socket

Relays Type D Relays Type F Relays Type J Relays Type I IDE IP Socket rear connection for DIN rail or fix Drilling () Fix Drilling Fix Drilling Fix Drilling of, (opcional) de, 0 de, 0 de, Fix Drilling de ø DNTR OP IP DNTRC OP IP FNTR OP IP FNTRC OP IP JNTR OP IP JNTRC OP IP ITR, ITRC IP 0 Sockets for rear connection 90 of ø, min. min. IEMP IP0 () DIN rail according to EN00 DIN/ () Minimum distance between sockets will depend on type of relay and sockets. Please request sockets user manual for more detailed information. Flush mounting sockets for rear connection

Relays Type J FEMP IP SHORT OP FEMP IP SHORT JEMP IP SHORT OPOP fø o Relays Type I fø o min. IPOP IEMP IP0 JEMP IPIDE SHORT min. Relays Type F 90, Relays Type D min. 90, Sockets for rear connection min. IEMP IP0 Flush mounting sockets for rear connection Drilling JEMP IPIP OP OP FEMP FEMP IP OP Fix Drilling Fix Drilling 0 JEMP IP OP Fix Drilling, of nal) io c (op de, de 0, de d, eø FEMP IP OP min. IEMP IP0 JEMP IP SHORT OP Cutout Cutout fø o FEMP IP SHORT OP Cutout min. CutOut Cutout Cutout Cutout 0 0 0 ITR, ITRC IP JNTR OP IP JNTRC OP IP FNTR OP IP FNTRC OP IP 90, DNTR OP IP DNTRC OP IP JEMP IP OP

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