COMPONENTS High-speed DC circuit-breakers for fixed installations (EN / IEC standards) Type UR General information The UR range of DC circuit-breakers has achieved worldwide acceptance as a well proven design for use in fixed installations. It has been regularly upgraded and adapted to new standard requirements and for different applications over the years, continuously improving the level of performance and functionality. These have led to an impressive service track record throughout the world for the UR product range. Combining a compact design with a high making and breaking capacity, the UR range, with its low number of parts also guarantees high reliability and low maintenance requirements. Applications • Line circuit-breaker for DC traction power substations • Interconnecting circuit-breaker for DC traction power substations • Rectifier circuit-breaker for DC traction power substations - + I> Rectifier circuit-breaker Line circuit-breaker I> Interconnecting circuit-breaker I> I> Main features • Conventional free air thermal current covering a range from 2’600 A to 8’000 A • Rated operational voltage 900 VDC, 1’800 VDC and 3’600 VDC • Safe with a high insulation level • Indoor installation • Bi-directional or uni-directional overcurrent release • Trip-free direct acting device • High rated short-circuit making and breaking capacity • Limited maximum arc voltage • Electro-magnetic closing with electric or magnetic holding • Optional integrated ECO-Drive control module, to manage the closing - holding sequences, and to save holding energy consumption and operational costs • Large number of different options to match the various application requirements • Very low maintenance requirements with high electrical and mechanical endurances • Simple design with few moving parts resulting in high reliability • Proven design with worldwide experience and acceptance • Reference standards: IEC77, EN50123-1 /-2 ,IEC61992-1 /-2 • Also available according to IEEE (ANSI) C37.14 / C37.16 standards (refer to our specific SG104309BEN brochure) • Insulation material according to relevant BS, NF, ASTM, IEC and DIN standards 2 Product range U [V=] 3600 * UR26-64 UR36-64 UR40-64 Not covered by this document. Refer to the brochure SG104147BEN “High-Speed DC circuit-breaker for fixed installation Type UR15”. 1800 900 UR15-42* UR26-82 UR36-82 UR40-82 UR46-82 UR60-82 UR15-41* UR26-81 UR36-81 UR40-81 UR46-81 UR60-81 1500 2600 3600 4000 4600 UR80-81 6000 I [A] 8000 High modularity concept 900 Arc chute 82 1800 Arc chute 81 3600 Arc chute 64 UNe [V=] UR26 UR36 UR40 UR 0 UR46 UR60 UR80 2600 3600 4000 4600 6000 8000 3 Ith [A] Breaking current parameters Third rail or over-head Catenary System powered by a rectifier f : duty f - peak of the short-circuit current e : duty e - maximum circuit-energy short-circuit f e d d : duty d - distant fault short-circuit Note: points f, e and d represent fault conditions along the line at different distances from the rectifier. Characteristics of the duties d, e and f d tc/TNc 1 TNc [ms] 1 16 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 e 31.5 Iss INss tc TNc >63 = = = = Prospective sustained short-circuit current Rated short-circuit current of the circuit-breaker Time-constant of the circuit Rated track time constant of the circuit-breaker f 0 0.4 0.6 0.8 1 Iss/INss 2INe/INss Breaking current parameters I tc Iss = Îss = di/dt = Id = Icut off = tc = = tl Ûarc = UNe = Îss >1.42Iss Typical duty f Iss di/d 0.63 Iss t Icut off Typical duty e and d Id t V Ûarc Prospective sustained short-circuit current Peak of Iss Initial current rate of rise Setting of maximum current release Cut-off current Time-constant of the circuit Opening time Maximum arc voltage Rated operational voltage UNe ti t Opening time Tl t l 20 [ms] 18 Relationship between opening time tl and the initial rate of rise of current di/dt for direct instantaneous over-current release. 16 14 12 Example for a di/dt of 3.106 A/s: - for UR26: tl ~ 4.3 ms, - for UR60/80: tl ~ 4.1 ms. 10 UR36/40/46 R 64 / 6 8 UR26 6 4 2 Note!: for a shorter opening time on low di/dt, the “indirect release” (shunt trip) option can be used (refer to “Options” section page 13). 0 3.105 5 7 106 3 7 5 3 di/dt [A/s] 10 8 6 4 UR60/80 2 0 3.105 4 5 7 106 3 5 7 3 di/dt [A/s] Data for product selection Symbol Unit UR26 UR36 UR40 UR46 UR60 UR80 [VDC] 900 1’800 3’600 900 1’800 3’600 900 1’800 3’600 900 1’800 - 900 1’800 - 900 - [VDC] 1’000 2’000 4’000 1’000 2’000 4’000 1’000 2’000 4’000 1’000 2’000 - 1’000 2’000 - 1’000 - [VDC] 3’000 3’000 4’800 2’600 3’000 3’000 4’800 3’600 3’000 3’000 4’800 4’000 3’000 3’000 4’600 1’800 3’000 6’000 1’800 8’000 MAIN HIGH VOLTAGE CIRCUIT Rated voltage - arc chute type 81 - arc chute type 82 - arc chute type 64 UNe Maximal operational voltage - arc chute type 81 - arc chute type 82 - arc chute type 64 Rated insulation voltage - arc chute type 81 - arc chute type 82 - arc chute type 64 Conventional free air thermal current UNm (1) Ith [A] Rated short-circuit making & breaking capacity - arc chute type 81 at UNe 900 VDC INss/TNc - arc chute type 82 at UNe 1’800 VDC - arc chute type 64 at UNe 3’600 VDC Peak & rated short-time withstand current (250 ms) ÎNcw/INcw Direct over-current instantaneous release - (bi-directional)(3) - (uni-directional) [kA]/[ms] 125/100 125/100 125/100 125/100 125/100 125/100 80/31.5 80/31.5 80/31.5 80/31.5 80/31.5 40/31.5 40/31.5 40/31.5 [kA]/[kA](2) 75/53 75/53 [kA] [kA] 1.4-8.0 - 2-15 - 2-15 - 2-15 - 6-18 6 8-24 6 Ua [kV] 15 12 15 15 12 15 15 12 15 15 12 - 15 15 - 15 - UNi [kVDC] 18 18 30 18 18 30 18 18 30 18 18 - 15 18 - 15 - Ûarc [V] Power frequency withstand voltage (50 Hz, 1 min) (4): - arc chute type 81 - arc chute type 82 - arc chute type 64 Rated impulse withstand voltage - arc chute type 81 - arc chute type 82 - arc chute type 64 Maximum arc voltage - arc chute type 81 - arc chute type 82 - arc chute type 64 2’500 2’500 2’500 2’500 2’500 2’500 4’000 4’000 4’000 4’000 4’000 8’000 8’000 8’000 - (1) At Tamb = +40°C and tested with high voltage connections according to standards EN50123 and IEC61992. For uni-directional version (3) For range selection, refer to the table on page 6 (4) Values applicable for factory tests on serial products. (2) LOW VOLTAGE AUXILIARY CIRCUIT Control circuit Nominal voltage Range of voltage Closing power (8) Holding power for electric holding (8) Holding power for magnetic holding (8) Opening power for magnetic holding (8) Mechanical opening time on opening order Mechanical closing time (8)(9) (5) (6) (7) (8) (9) Un(5) (8)(9) to tc 24 (6), 36 (6), 48, 60 (6), 64, 72, 110, 125, 200 (7), 220, 250 [0.7 - 1.25] Un [0.8 - 1.1] Un [W]/[s] 1’300/1 2’800/1 [W] 2.3 30 [W] 0 0 [W]/[s] 25/1 170/1 [ms] 15 - 30 15 - 30 [ms] ~ 150 ~ 150 [VDC] (6) The breaker can also be controlled with a rectified AC control voltage Available for UR60/80 Rectified 230VAC, available for UR60/80 At Un and Tamb = +20°C Starting when the signal is received by the coil. Applicable for maximum breaking capacity - see below. Auxiliary contacts Type of contacts (refer to definition on page 11) Number of auxiliary contacts Rated voltage [VDC] [A] Conventional thermal current Ith Switching categories according to EN60947 (silver contacts) [A] Minimum let-through current at 24 VDC(10) (silver contacts) (10) [mA] Potential free (PF) or change-over (CO) 5a + 5b 24 to 220 10 – AC-15 230 VAC 1.0 A – DC-13 110 VDC 0.5 A 10 For a dry and clean environment Low voltage interface Type of connection (11) (11) Harting type HAN® 32 EE / VEAM type 22 pins For mobile connector information refer to page 10 OPERATING CONDITIONS Installation Altitude Working ambient temperature Humidity Minimum mechanical durability Tamb N Indoor < 1’400 -5 to +40 Class 5K2 Operations 4×50’000 8×25’000 8×25’000 8×25’000 4×20’000 4×20’000 [m] [°C] 5 Direct over-current instantaneous release Available setting ranges (in kA) with their corresponding codification: UR26 1.4 2.0 2.0 2.0 4.0 (1) (2) - UR36 2.7 5.0 5.0 8.0 8.0 2.0 2.0 2.0 4.0 4.0 4.0 6.0 9.0 - 5.0 5.0 8.0 8.0 15.0 10.0 10.0 15.0 UR40 2.0 2.0 2.0 4.0 4.0 4.0 6.0 9.0 - 5.0 5.0 8.0 8.0 15.0 10.0 10.0 15.0 UR46 UR60 UR80 Type - 6.0 - 10.0 9.0 - 14.0 13.0 - 18.0 6.0 (2) 8.0 - 14.0 12.0 - 18.0 16.0 - 24.0 6.0 (2) DV1 DV2 DE1 DS1 DE2 DS2 DV2 DE3 DE4 2.0 2.0 2.0 4.0 4.0 4.0 6.0 9.0 5.0 5.0 8.0 8.0 15.0 10.0 10.0 15.0 For selection page 16. For uni-directional over-current instantaneous release. Tripping device for UR26/36/40/46 Tripping device for UR60/80 Standard tripping devices DS tripping device Standard tripping device Tripping device DV tripping device Tripping device adjustment method. Tripping device adjustment method. Specific tripping device DE tripping device (optional) Tripping device adjustment method. 6 Designation code (1) Standard Option A B C D E F G H I J K L N O P U Main dimensions Dimensions without tolerances are indicative. All dimensions are in mm. The maximum allowed flatness deviation of the support frame is 0.5 mm. Main dimensions for UR26/36/40/46 UR26/36-81/82 (1) UR26/36/40/46-81/82 UR40/46-81/82 238 617 (1) 419 (2) (2) Arc chute 82 Arc chute 81 168 51 69 R4 160 240 56 HV connections for UR26/36/40/46 (except upper connection of UR46) E 23 HV 4x Ø Ø11 LV 40 C 160 379 194 UR40-64S UR26/36-64S 40 25 386 D 95 100 784 5 90 320 A B UR26/36/40-64S 420 320 25 50 25 700 HV upper connection for UR46 only 4x Ø11 LV 4x Ø18 160 56 C 160 379 40 240 194 320 A Dimensions [mm] UR26 UR36 UR40 UR46 A 645 760 760 760 B 131 246 246 246 C 131 176 176 176 D 20 30 30 40 E 176 176 176 177 7 B E 23 23 30 HV 20 50 90 371 D 95 100 140,5 90 50 25 1025 4x Ø14 Main dimensions for UR60/80 UR60 UR80 350 238 238 UR60/80 617 (1) 419 (2) 50.5 60 120 30 50 0 177 783 51 69 25 120 4x Ø11 39 30 56 182 40 718 240 411 40 160 240 8x Ø18 LV 75.5 23 HV (1) Arc chute 82 (only valid for UR60) (2) Arc chute 81 Weights Weights (1) [Kg] UR26 (1) UR36 UR40 UR46 UR60 UR80 150 With arc chute 81 77 94 98 110 139 With arc chute 82 87 104 108 120 149 With arc chute 64 133 150 154 Weights for standard circuit-breaker without any option. Insulation distances for UR26/36/40/46/60/80 The below values correspond to the insulation distances in the cubicles used to perform duty cycles of “f”, “e” and “d” with the rated short-circuit breaking and making capacity INss / TNc of the circuit-breakers. For other installation conditions, please contact Sécheron. Minimum insulation distances [mm] UR..81S UR..82S To insulating wall UR..64S A 140 40 120 B 140 140 270 C* 765 765 670 To earth Please contact Sécheron *: Grid with 50% of surface opening. UR..64S 617(1) 419(2) C 238 240 B B B A A (1) Arc chute 82 (2) Arc chute 81 8 700 632 C UR..81/82S B A A Arc chute installation Arc chutes 81 and 82 Opening of the arc chute on the LV connector side (for UR26/36/40/46 and for UR60 with arc chute 82). Vertical removal of the arc chute (for UR60/80 with arc chute 81). Opening of the arc chute on the LV connector opposite side (for UR26/36/40/46). Arc chutes 64 (only for UR26/36/40) The SE type includes two arc chute locking levers. The S-CC type includes an arc chute lifting lever located on connector side. The S-OC type includes an arc chute lifting lever located on the connector opposite side. The SI-CC type includes an arc chute lifting lever located on connector side and, for installation of circuit-breaker without insulation walls, an additional insulation around the arc chute. The SI-OC type includes an arc chute lifting lever located on the connector opposite side and, for installation of circuit-breaker without insulation walls, an additional insulation around the arc chute. Designation for arc chute installation Arc chute type Circuit-breaker Arc chute installation Opening on LV connector side Codification Standard Option 1 UR26/36/40/46/60 (1) Opening on LV connector opposite side 81 / 82 UR60/80 64 (1) (2) (2) UR26/36/40 7 Vertical removal 8 SE 2 SI-CC 3 SI-OC 4 S-CC 5 S-OC 6 For UR60, this option is only available with arc chute 82, with opening on LV connector side. This option is only available with arc chute 81 9 Low voltage interface Note!: Low voltage connectors are delivered with all pins mounted, even if not all wired. Harting type HAN® 32 EE (Standard) VEAM type 22 pins (Option - Only for UR26/36/40/46) Low voltage control scheme Electric holding: E type Magnetic holding: M type A A B Ie C D E 100% Ie S V= UR26/36/40/46 B D C S V= + 100% + F 0 0,5 R1 G t [s] ~ 5% t [s] 0 ~ 20% 1 0 0,5 1 tc tc+0.5 E Rp tc+1 Rs – – Customer scope A B C D E F UR60/80 Sécheron scope S V= + Start of the closing pulse: the F + G contacts close. Closing pulse: 0.5 to 1 s. Start of the holding current: the G contact opens. Holding: a R1 resistance limits the holding current to 5% of the closing current. Opening: the F contact opens to provoke the interruption of the holding current. Customer scope Sécheron scope E F Rs – A E, F, G: contacts R1: resistor to be inserted in the holding circuit of the E type; the power to be considered for the resistor choice is 220 W (4x55 W) Rs: resistor to be inserted in series with the coil in the opening circuit of the M type; the power to be considered for the resistor choice is 50 W (200 W / 4) Rp: resistor to be inserted in parallel with the closing coil in the opening circuit of the M type S: automatic circuit-breaker B C D Start of the closing pulse: the E contacts close. Closing pulse: 0.5 to 1 s, then the E contacts open. Holding: achieved by the permanent magnet. Opening: the F contacts close to provoke a current pulse of the opposite polarity to the closing current. The duration of this pulse is 0.5-1 s, then the F contact opens. The opening current is 20 % of the closing current. Typical value for closing coils – UR26/36/40/46 Coil characteristics Closing pulse 0.5 to 1s M type opening pulse 0,5 to 1s E type holding Unom Inom Imin E Imin M Imax R1 Inom Imin Imax Rs Rp Inom Imin Imax [VDC] [A] [A] [A] [A] [] [A] [A] [A] [] [] [A] [A] [A] 24 41.7 22.5 25 70.9 11.4 2.0 1.4 2.5 2.4 1.3 6.1 3.8 8.5 36 32.7 17.7 19.6 55.6 25 1.4 0.1 1.7 5.3 3.0 4.3 2.7 6.0 48 20.9 11.3 12.5 35.4 45.7 1.0 0.7 1.3 9.4 5.4 3.1 1.9 4.3 64 17.6 9.5 10.6 29.9 79.4 0.8 0.5 1.0 17.2 9.0 2.3 1.5 3.2 72 16.4 8.8 9.8 27.8 100 0.7 0.5 0.9 21.2 12.0 2.2 1.4 3.0 110 11.7 6.3 7.0 19.9 210 0.5 0.4 0.6 40 20 1.6 1.0 2.3 125 10.5 5.6 6.3 17.8 272 0.4 0.3 0.6 52 26 1.4 0.9 2.0 220 5.9 3.2 3.5 9.9 840 0.3 0.2 0.3 160 80 0.8 0.5 1.1 10 Typical value for closing coils – UR60/80 – electric holding Coil characteristics Closing pulse 0.5 to 1 s M type opening pulse 0.5 to 1 s Inom Imin E Imax R1nom Inom(2) Imin (2) Imax (2) Unom Inom Imin Imax Rsnom Inom Imin Imax [VDC] [A] [A] [A] [A] [A] [A] [] [A] [A] [A] [VDC] 85 12 3.8 3.1 4.2 110 [] [A] [A] [A] 21.3 13.5 28.3 15 5.4 4.1 6.2 48 63.9 40.8 60 53.6 34.2 71.2 18 3.2 2.5 3.4 125 18.4 11.7 24.5 18 5.0 3.8 5.8 72 41.2 26.3 54.8 27 2.5 2 2.75 220 11.6 56 2.9 2.2 3.3 110 25.0 16.6 33.2 56 1.8 1.5 2.0 22.5 14.9 29.9 75 1.6 1.3 1.7 17.2 11.4 22.9 180 1.1 0.9 1.1 12.4 0.9 0.8 1.0 200 (1) 220 (2) Coil characteristics E type holding Unom 125 (1) Closing pulse 0.5 to 1 s Typical value for closing coils – UR60/80 – magnetic holding 8.2 16.4 220 7.4 15.5 Rectified 230VAC With chosen economy resistor Low voltage wiring diagrams The following wiring schemes represent the low voltage connector pins assignement in function of the selected connectors and the configuration chosen for standard or optional functions. They are valid for all control voltages except 24 VDC. For 24 VDC control scheme, please contact Sécheron. Legend of the schemes I> Circuit-breaker main contact Low voltage connector interface (male pin) Direct overcurrent release Circuit-breaker closing coil a b 1a+1b - Switch PF (WI) Wear indicator switch a b 1a+1b - Switch CO (I>) Overcurrent release detector switch Indirect release (shunt trip) I Harting type HAN® 32 EE connector (Standard) Only the pins related to your selected configuration page 16 will be wired according to the below’s pin assignment. The connector will be delivered with all 32 pins even if not all wired. Auxiliary contacts (switch PF) (I>) ( ) (WI 31 29 27 25 32 30 28 26 23 24 Auxiliary contacts (switch CO) I 21 22 (I>) ( ) (WI 19 17 15 13 11 9 7 5 3 1 31 29 27 25 20 18 16 14 12 10 8 6 4 2 32 30 28 26 I> 23 24 I 21 22 I> 11 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 VEAM type 22 pins connector (Option - Only for UR26/36/40/46) Auxiliary contacts (switch PF) Each below’s scheme represents the low voltage connector pins wired in function of the possible selected configuration (refer page 16) The connector will be delivered with all 22 pins even if not all wired. 19 20 21 22 I> 19 17 15 13 11 9 7 5 3 1 20 18 16 14 12 10 8 6 4 2 15 13 11 9 7 5 3 1 19 17 16 14 12 10 8 6 4 2 18 21 22 18 ( ) (WI 18 17 16 I> 17 15 13 11 9 7 5 3 1 18 16 14 12 10 8 6 4 2 15 13 11 9 7 5 3 1 16 14 12 10 8 6 4 2 13 11 9 7 5 3 1 14 12 10 8 6 4 2 (I>) ( ) (WI 19 17 I 21 22 I> 19 20 I (I>) 21 22 I> 13 11 9 7 5 3 1 18 17 14 12 10 8 6 4 2 16 21 22 19 20 I> I 21 22 I> Auxiliary contacts (switch CO) Each below’s scheme represents the low voltage connector pins wired in function of the possible selected configuration (refer page 16) The connector will be delivered with all 22 pins even if not all wired. 19 20 21 22 I> 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 21 22 16 ( ) (WI 17 18 16 I> 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 (I>) ( ) (WI 17 18 I 21 22 19 20 I> 16 I (I>) 21 22 17 18 I> 15 14 12 11 9 8 6 5 3 2 13 10 7 4 1 17 18 16 12 21 22 19 20 I> I 21 22 I> Options (subject to additional costs) Mobile connector — UR26/36/40/46/60/80 Mobile connector Auxiliary switches Fixed connector type Number of pins Cable Sécheron’s Size 2.5 mm² Size 1.5 mm² gland number Connector Device Number Type UR26/36 /40/46 /60/80 5a+5b PF or CO Harting HAN® 32 EE 0 32 M32 SG104063R10100 UR26/36 /40/46 5a+5b PF or CO VEAM type 22 pins 22 0 Ø25 to Ø34 SG101699R00001 ECO-Drive integrated control module— UR26/36/40/46 ECO-Drive is a compact control module integrated with UR circuit-breakers, to manage closingholding sequences with electric control. ECO-Drive is set on the UR breaker’s closing device. This option offers to system integrators the following advantages: • UR26/36/40/46 breakers need no more additional hardware to manage the closing-holding sequences • Reduction of the overall space necessary to operate the circuit-breaker • Reduction of overall installation costs of the DC circuit-breakers • Reduction of holding power consumption and operational costs versus conventional holding variant • Reduction of the risks of damaging the closing coil during commissioning and service operations The UR breaker together with the ECO-Drive is fully compliant for electromagnetic compatibility with EN 50121-3-2 and with EN 50155: § 5.1.1.2 short (10 ms) interruptions class S2 and § 5.1.3: voltage dips / variation (at 0.6Un during 100ms) class C1 Low voltage wiring diagram (Harting connector) ED k0 Un + k1 + UEF - 28 26 19 17 15 13 11 9 7 5 3 1 Harting pin number Vbat P 25 27 Vbat N 4 22 ORDP 3 21 ORDN C Customer’s scope Sécheron’s scope D 20 18 16 14 12 10 8 6 4 2 Technical data Control circuit Nominal voltage (electric holding only) (1) Un/UEF [VDC] Range of voltage Idle (standby) power Nominal closing power 72, 110 [ 0.7 - 1.25 ] Un (2) Pc Nominal holding power for electric holding (2) Nominal opening power for electric holding (2) Mechanical opening time on opening order (3) Mechanical closing time on closing order (2)(3) Tc (1) Control voltage UEF and supply voltage Un can be different At Un and Tamb = +20°C (3) Starting when the signal is received by the coil (2) 13 [W] <1.6 [W]/[s] 1’300/0.5 [W] <8 [W] <1.6 [ms] 15 - 30 [ms] ~150 Position indicator — UR26/36/40/46/60/80 A mechanical position indicator actuated though a rod linked to the circuit-breaker moving contact gives the position of the breaker: 0 = OPEN while I = CLOSED BIM indirect release (shunt trip) and manual release The indirect release enables to shorten the opening time when required by specific application. The choice of the relevant type has to be validated by Sécheron prior quoting. This device can also be manually activated. UR26/36/40/46 UR60/80 Opening time Control mode BIM5 4 - 6 ms CID-3* BIM6 12 - 19 ms Direct battery 77-140 VDC BIM7 4 - 6 ms CID-3* BIM8 12 - 19 ms Direct battery 77-140 VDC * Not included in the DC circuit-breaker - To be ordered separately BIM5 & BIM 6 — UR26/36/40/46 BIM7 & BIM8 — UR60/80 The terminal block allows the connection between 2.5 mm² cables from the BIM and 6 mm² cables from the CID-3 or 2.5 mm² from the battery. The terminal block allows the connection between 2.5 mm² cables from the BIM and 6 mm² cables from the CID-3 or 2.5 mm² from the battery. terminal block terminal block (rear view) cables from CID-3 or from battery (customer’s scope) terminal block (front view) cables from CID-3 or from battery (customer’s scope) Manual release Manual releases are safety devices designed to guarantee that the breaker is in OPEN position so as to access the breaker’s panel -e.g. for maintenance. The vertical release is automatically actuated while withdrawing from the panel the trolley on which the breaker is installed. The horizontal release must be manually actuated from the front side of the panel door before opening it. for UR26/36/40/46 vertical release for UR60/80 horizontal release vertical release horizontal release actuation actuation actuation actuation 14 Manual closing device The manual closing device, mainly used for maintenance operations, enables to close and open the circuit-breaker without low voltage supply and under no load. for UR26/36/40/46 for UR60/80 Contact wear indicator (WI) or overcurrent release detector (I>) — UR26/36/40/46 Installed on the rear side of the circuit-breaker closing device, these options monitor the position of a rod linked to the breaker’s moving contact, which rod actuates a micro-switch. Based on the selected configuration the detector informs about: - the reaching of the wear limit of the main contacts of the circuitbreaker: function ‘’contact wear indicator’’. - the tripping of the circuit-breaker through the over-current release: function ‘’over-current release detector’’.These two functions cannot be selected together. Designation code for ordering Designation code information • Be sure to establish the designation code from our latest version of the brochure by downloading it from our website “www.secheron.com”. • Be careful to write down the complete alphanumerical designation code with 22 characters when placing your order. • The customer shall write down the setting value Ids in its order form. • For technical reasons some variants and options indicated in the designation code might not be combined. • The bold part of this designation code defines the device type, and the complete designation defines the identification number of the product, as displayed on the identification plate attached to the product. Example of customer’s choice: UR 36 81 Line: S 1 E E 0 F 0 A C 0 0 0 0 0 S B 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Notes for page 16: Designation code - Order form (1) For UR60, this option is only available with arc chute 82 (2) ECO-Drive is only available for UR26/36/40/46 with Harting HAN® 32 connector and 72 or 110VDC control voltage (3) UR60/80: only for electric holding (4) Rectified 230VAC (5) In case control type “Electric holding with ECO-Drive is selected (line 15), select “No” for Varistor on Coil (line 17) 15 Designation code (options are subject to additional costs) - Order form Line Description 10 11 Designation Product type Conventional free air thermal current UR 2600 A 3600 A 4000 A 4600 A 6000 A 8000 A Standard Options UR 26 36 40 46 60 80 12 Place and date: S .... M 4 B D K 1 .... 5 7 4 6 B B 1 2 3 2 1 1 Name: Signature: Sécheron SA Rue du Pré-Bouvier 25 1217 Meyrin - Geneva CH-Switzerland Tel: +41 22 739 41 11 Fax: +41 22 739 48 11 [email protected] www.secheron.com S This document is not contractual and contains information corresponding to the level of technology at the date of printing. Sécheron reserves the right to modify and/or improve the product, whose characteristics are described in these documents, as required by new technology at any time. It is the purchaser’s responsibility to inform himself, no matter what the circumstances, of the product’s maintenance conditions and requirements. Sécheron reserves all rights, especially those arising from our “General Delivery Conditions”. Copyright© 2014 Sécheron SA SG101001BEN_F07-09.14 Rated operational voltage For UR26/36/40/46/60/80 900 V 81 For UR26/36/40/46/60 1800 V 82 For UR26/36/40 3600 V 64 13 Application Fixed Installation S 14 Arc chute installation (Refer to page 9 for selection) (1) Arc chute 81/82 Opening on LV connector side 1 For UR26/36/40/46/60 For UR26/36/40 Arc chute 64 Type SE 2 For UR60/80 Arc chute 81 Vertical removal 8 For other selection, refer to codification table page 9 ..................... 15 Control type Electric holding - without ECO-Drive E Magnetic holding - without ECO-Drive Electric holding - with ECO-Drive (2) 16 Nominal control voltage A For UR26/36/40/46 24 VDC For UR26/36/40/46 36 VDC (3) For UR26/36/40/46/60/80 48 VDC C For UR26/36/40/46/60/80 (3) (60) 64 VDC G For UR26/36/40/46/60/80 (3) 72 VDC E For UR26/36/40/46/60/80 110 VDC For UR26/36/40/46/60/80 125 VDC R (3) (4 For UR60/80 200 VDC For UR26/36/40/46/60/80 220 VDC J (5) No 0 17 Varistor on coil Yes (battery voltage) 18 Direct over-current release (bi-directional) For UR26 1.4 - 2.7 kA A For UR26/36/40/46 2.0 - 8.0 kA D For UR36/40/46 4.0 - 15.0 kA F For UR60 13.0 - 18.0 kA L For UR80 16.0 - 24.0 kA P For other selection, refer to codification table page 6 ..................... Direct over-current release (uni-directional) - For UR60/80 U U 19 Indirect release (shunt trip) No 0 For UR26/36/40/46 (ncludes horizontal manual release) BIM5 For UR26/36/40/46 (includes horizontal manual release) BIM6 For UR60/80 (includes horizontal manual release) BIM7 For UR60/80 (includes horizontal manual release) BIM8 20 Auxiliary contacts For UR26/36/40/46/60/80 5a + 5b - (switch PF) A For UR26/36/40/46 5a + 5b - (switch CO) 21 LV connector type on circuit-breaker C For UR26/36/40/46/60/80 Harting type HAN® 32 EE For UR26/36/40/46 Veam type 22 pins 22 Manual release No 0 For UR26/36/40/46/60/80 Horizontal For UR26/36/40/46/60/80 Vertical 23 Manual closing device (not compatible with line 25 nor 26) No 0 For UR26/36/40/46/60/80 Yes 24 Position indicator No 0 Yes 25 Overcurrent release detector (not compatible with line 23 nor 26) No 0 For UR26/36/40/46 Yes 26 Contact wear indicator (not compatible with line 23 nor 25) No 0 For UR26/36/40/46 Yes 27 HV main connections (according to pages 7 and 8) Standard S 28 Digit for Sécheron internal purpose For UR26/36/40 Arc chute 64 A For UR26/36/40/46 Arc chute 81 B For UR26/36/40/46 Arc chute 82 C For UR60/80 Arc chute 81 & 82 L For notes, please refer to previous page. The low voltage connector must be ordered separately: SG104063R10100 VEAM type 22 pins: SG101699R00001 Harting type HAN® 32 EE: Value of the setting of the direct over-current release: . . . . . . . . . . . . . . [A] Customer’s choice UR
© Copyright 2024