Miniature Signal Relays EA2/EB2 Series Overview Applications The KEMET EA2/EB2 miniature signal relays offer a compact case size in a flat package. Minimal board space is consumed with either a through-hole or surface mount configuration. These relays are recognized by UL and CSA, while also being compliant with Part 68 of the FCC's 1,500 V surge capacity. * * * * Electronic switching systems PBX Terminal equipment Telephone systems Benefits * * * * Low power consumption (< 200 mW) Compact and lightweight Low magnetic interference Breakdown voltage: 1,000 VAC (1,500 VAC surge), FCC Part 68 compliant * Tube or embossed tape and reel packaging * UL recognized (E73266) and CSA certified (LR46266) * Surface mount and through-hole options Part Number System EB2- 3 S NU -L Series Coil Voltage Latch Type Lead Type Packaging Blank = Non-latch type S = Single coil latch type T = Double coil latch type NU = Standard Blank = Tube -L = Embossed tape on reel EA2- = Through-hole mount EB2- = Surface mount 3 = 3 VDC 4.5 = 4.5 VDC 5 = 5 VDC 12 = 12 VDC 24 = 24 VDC One world. One KEMET (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 1 Miniature Signal Relays - EA2/EB2 Series Dimensions - Millimeters EA2 Series B Maximum D Maximum H Maximum 0.33 0.5 0.25 K P2 P1 General tolerance: 0.2 EB2 Series D Maximum B Maximum H Maximum 0.5 0.25 K P1 P2 General tolerance: 0.2 11.5 Series D H B P1 P2 K EA2 (NU) EB2 14.2 14.3 5.4 7.5 9.2 9.3 2.54 2.54 7.62 7.62 3.5 1.35 (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 2 Miniature Signal Relays - EA2/EB2 Series Pin Configurations Bottom view Single coil latch type (Reset position) Non-latch type (Non-energized position) 3 4 5 1 + - 10 9 8 7 6 2 3 4 Set coil 5 1 +SR Direction mark 2 Direction mark Direction mark 1 Double coil latch type (Reset position) - + 10 9 8 7 6 S: Coil polarity for Set R: Coil polarity for Reset 2 3 4 5 10 9 8 7 Reset coil 6 Safety Standards and Ratings Certification Body 1 Mark Specification File Number UL UL Recognized (UL508)1 E73266 CSA CSA Certified (CSA 22.2 #14) LR46266 Rating 30 VDC, 1 A (resistive) 110 VDC, 0.3 A (resistive) 125 VAC, 0.5 A (resistive) Spacing: UL114, UL478 Environmental Compliance All KEMET relays are RoHS Compliant. RoHS Compliant (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 3 Miniature Signal Relays - EA2/EB2 Series Table 1 - Ratings & Part Number Reference Part Number Nominal Coil Voltage (VDC) Lead Type Packaging EA2-3(1)NU EA2-4.5(1)NU EA2-5(1)NU EA2-12(1)NU EA2-24(1)NU EB2-3(1)NU EB2-4.5(1)NU EB2-5(1)NU EB2-12(1)NU EB2-24(1)NU EB2-3(1)NU-L EB2-4.5(1)NU-L EB2-5(1)NU-L EB2-12(1)NU-L EB2-24(1)NU-L 3 4.5 5 12 24 3 4.5 5 12 24 3 4.5 5 12 24 Radial Radial Radial Radial Radial Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Surface Mount Tube Tube Tube Tube Tube Tube Tube Tube Tube Tube Tape on Reel Tape on Reel Tape on Reel Tape on Reel Tape on Reel (1) To complete KEMET part number, leave blank for Non-latch, insert S for Single coil, or T for Double coil. Designates latch type. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 4 Miniature Signal Relays - EA2/EB2 Series Land Pattern - Millimeters EA2 (bottom view) EB2 (bottom view) 1.0 10 - o 0.8 2.54 9.56 7.62 2.94 2.54 10.16 2.54 General tolerance: 0.1 10.16 General tolerance: 0.1 Soldering Process EA2 - Through-hole Mounting Automatic Soldering Preheating: 110-120C/110 seconds (maximum) Solder temperature: 260C maximum Solder time: 5 seconds maximum Note: KEMET recommends cooling down a printed circuit board to less than 110C within 40 seconds after soldering. Manual Soldering Solder temperature: 350C maximum Solder time: 3 seconds maximum EB2 - Surface Mounting IRS Method Temperature (C) Maximum 240C 220 200 180 45 (Maximum 70) Time (seconds) 70 (Maximum 120) 190 (Maximum 300) Note: Temperature profile shows printed circuit board surface temperature on the relay terminal portion. Please consult KEMET if you wish to use a temperature profile other than above. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 5 Miniature Signal Relays - EA2/EB2 Series Contact Specifications Item EA2/EB2 Contact Form 2 Form C Contact Material Contact Ratings Silver alloy with gold alloy overlay Maximum Switching Power 30 W, 62.5 VA Maximum Switching Voltage 220 VDC, 250 VAC Maximum Switching Current 1A Maximum Carrying Current 2A Minimum Contact Ratings 10 mVDC, 10 A*1 Initial Contact Resistance 75 m maximum (initial) Operating Time (excluding bounce) Approximately 2 milliseconds Release Time (excluding bounce) Approximately 1 millisecond Insulation Resistance 1,000 M at 500 VDC Withstand Voltage Between Open Contacts 1,000 VAC (for one minute), 1,500 V surge (10 x 160 s)*2 Between Adjacent Contacts 1,000 VAC (for one minute), 1,500 V surge (10 x 160 s)*2 Between Coil and Contacts 1,000 VAC (for one minute), 1,500 V surge (10 x 160 s)*2 Shock Resistance 735 m/s2 (75 G) - misoperation 980 m/s2 (100 G) - destructive failure Vibration Resistance 10 to 55 Hz, double amplitude 3 mm (20 G) - misoperation 10 to 55 Hz, double amplitude 5 mm (30 G) - destructive failure Ambient Temperature -40 to +85C Coil Temperature Rise 18C at nominal coil voltage (140 mW) Non-load 1 x 108 operations (Non-latch type)*3 1 x 107 operations (Latch type) Load 50 VDC 0.1 A (resistive), 1 x 106 operations at 85C, 5 Hz 10 VDC 10 mA (resistive), 1 x 106 operations at 85C, 2 Hz Running Specifications Weight Approximately 1.5 g This value is a reference value in the resistance load. Minimum capacity changes depending on the switching frequency, environment temperature, and load. *2 Rise time: 10 s; decay time to half crest: 160 s. *3 This shows the number of operations with fatal defects. Stable characteristics are maintained for 1 x 107 operations. *1 Coil Specifications Non-latch Type (at 20C) 1 Nominal Coil Voltage (VDC) Coil Resistance () 10% Operating Voltage1 (VDC) Release Voltage1 (VDC) Nominal Operating Power (mW) 3 64.3 2.25 0.3 140 4.5 145 3.38 0.45 140 5 178 3.75 0.5 140 12 1028 9.0 1.2 140 24 2880 18.0 2.4 200 Test by pulse voltage. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 6 Miniature Signal Relays - EA2/EB2 Series Coil Specifications cont'd Single Coil Latch Type (at 20C)2 1 2 Nominal Coil Voltage (VDC) Coil Resistance () 10% Set Voltage1 (VDC) Reset Voltage1 (VDC) Nominal Operating Power (mW) 3 90 2.25 2.25 100 4.5 202.5 3.38 3.38 100 5 250 3.75 3.75 100 12 1440 9.0 9.0 100 24 3840 18.0 18.0 150 Test by pulse voltage. Latch type relays should be initialized to a known position before using. Only the specified polarity should be used to energize the coil. Double Coil Latch Type (at 20C)2,3 Nominal Coil Voltage (VDC) 3 4.5 5 12 24 Coil Resistance () 10% Set Voltage4 (VDC) Release Voltage4 (VDC) S 64.3 2.25 - R 64.3 - 2.25 S 145 3.38 - R 145 - 3.38 S 178 3.75 - R 178 - 3.75 S 1028 9.0 - R 1028 - 9.0 S 2880 18.0 - R 2880 - 18.0 Nominal Operating Power (mW) 140 140 140 140 200 Latch type relays should be initialized to a known position before using. Only the specified polarity should be used to energize the coil. Can not be driven by reverse polarity for reverse operation. 4 S = Set coil [pin #1 (+), pin #5 (-)], R = Reset coil [pin #10 (+), pin #6 (-)]. 2 3 (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 7 Miniature Signal Relays - EA2/EB2 Series Recommended Relay Drive Conditions Coil Type Non-latch Single Coil Double Coil Rating Ambient Temperature Voltage: 5% of nominal voltage Square pulse (rise and fall time is rapid) Pulse height: 5% of nominal voltage Pulse Width: > 10 ms -40 to +85C Marking Top view Part number UL, CSA marking EA2-5NU JAPAN Direction mark (pin No. 1 and 10) Country of origin 1D1727F Company logo Date code (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 8 EA2/EB2 EA2/EB2 SERIESSERIES EA2/EB2 EA2/EB2 SERIES SERIES EA2/EB2 EA2/EB2 SERIES SERIES Miniature Signal Relays - EA2/EB2 Series PERFORMANCE PERFORMANCE DATA DATA PERFORMANCE PERFORMANCE DATA DATA Performance Data PERFORMANCE PERFORMANCE DATA DATA COIL TEMPERATURE COIL TEMPERATURE RISE RISE Coil Temperature Rise Temperature is TEMPERATURE measured coil resistance by coil resistance COILTemperature TEMPERATURE COIL RISE is bymeasured RISE is COIL TEMPERATURE COILby TEMPERATURE RISE RISE Temperature measured coilisby resistance Temperature isTemperature measured measured coil resistance by coil resistance Temperature Temperature is measuredis by measured coil resistance by coil resistanceCoil temperature Coil temperature Coil temperature Coil temperature Coil temperature temperature rise (C) Coilrise (C) Applied powerApplied 0.2W power 0.2W 60 60 Coil temperature Coil temperature 30 30 Coil temperature temperature rise (C ) Coilrise (C ) rise (C) rise (C) Applied power 0.2W Applied power 0.2W Coil temperature Coil temperature60 60 rise (C) rise (C) 30 30 Applied power Applied 0.2W power 0.2W rise (C ) rise (C )60 60 30 30 rise (C ) rise40 (C ) Applied powerApplied 0.14W power 0.14W 40 20 20 Applied power 0.14W Applied power 0.14W 40 40 20 20 Applied Applied 0.1W power Appliedpower power Applied 0.14W power0.1W 0.14W 40 40 20 20 20 20 10 10 Applied power 0.1W Applied power 0.1W Applied power Applied 0.1W power 0.1W 20 20 20 0 0 0 0 10 20 0 0 1000 100 200 300 200 300 0 100 0 Applied 200 100power 300 200 300 (mW) power 1000 100 200Applied 300 200 (mW)300 Applied powerApplied (mW) power (mW) Applied power Applied (mW)power (mW) 0 0 0 10 0 00 10 10 0 10 5 15 10 20 15 20 05 0 5 00 Applied 10 5 time 15 (minute) 10 20time 15 20 5 0 10 5 Applied 1510 20(minute) 15 20 Applied time (minute) Applied time (minute) Applied timeApplied (minute) time (minute) 0 0 MAXIMUM COIL MAXIMUM VOLTAGE COIL VOLTAGE SWITCHING SWITCHING CAPACITY CAPACITY This is a maximum This is value a maximum of permissible value ofalteration. permissible alteration. These are maximum These are values. maximum values. MAXIMUM COIL MAXIMUM VOLTAGE COIL VOLTAGE SWITCHING CAPACITY SWITCHING CAPACITY Switching Capacity Maximum Voltage MAXIMUM Coil MAXIMUM COIL VOLTAGE COIL VOLTAGE SWITCHING SWITCHING CAPACITY CAPACITY This is a Inquire maximum This isNEC a maximum ofTOKIN permissible valueTOKIN alteration. of permissible alteration.use. These are with maximum These values. are maximum values. withvalue Inquire withunder NEC continuous under use. continuous Inquire NEC Inquire TOKIN with for NEC maximum TOKIN for values maximum under values continuous under use. continuous use. This is a maximum This isof value a maximum of permissible value ofalteration alteration. permissible alteration. These are maximum These are values. maximum values. MaximumInquire Values Maximum value permissible Inquire TOKIN with under NECcontinuous TOKIN under use.continuous use. with NEC Inquire TOKIN with forNEC maximum TOKINvalues for maximum under continuous values under use.continuous use. Inquire with NEC Inquire with NEC Inquire TOKIN with for NEC maximum TOKIN for values maximum undervalues continuous underuse. continuous use. 2.0 2.0 2.0 2.0 1.0 1.0 Contact Contact 1.0 0.5 1.0 0.5 Contact current (A) Contact current 1.0 (A) 1.0 Contact 0.5 Contact 0.5 current (A) current (A) 0.5 0.5 2.0 current (A) 2.0 current (A) 0.2 0.2 0.2 0.1 10 0.1 0.1 10 10 Inquire with NEC Inquire TOKIN with under NEC TOKIN continuous underuse. continuous use. DC(Resistive)DC(Resistive) 200 200 DC(Resistive) DC(Resistive) AC(Resistive) AC(Resistive) DC(Resistive)DC(Resistive) 200 200 AC(Resistive) AC(Resistive) 200 200 Ratio of 150 Ratio of 150 AC(Resistive)AC(Resistive) Ratio of 150Ratio of 150 nominal nominal Ratio of 150 Ratio of 150 nominal nominal coil coil nominal 100 nominal 100 coil voltage 100coil voltage 100 coil coil 100 100 voltage voltage (%) (%) 50 50 voltage voltage (%) (%) 50 50 (%) (%) 50 50 0.2 0.2 0.2 0.1 5020 100 50 100 -40 -20 -40 0 -20 20 040 20 60 80 40 100 60 80 100 0.1 2010 250VAC 250VAC -40 -20 0 -40 20 -20 40 0 60 20 8040 10060 80 100 200.1 10 50 20 10050 100 Ambient temperature Ambient temperature ( C) ( C)80 100 -40 -20 -40 0 -20 20 0 40 20 60 40 80 100 60 20 10 50 20 (V) voltage 100 50 250VAC (V) 100 Contact voltage Contact 250VAC 220VDC 220VDC 250VAC Ambient temperature Ambient(temperature C) ( C) (V) voltage (V) 250VAC Contact voltage Contact Ambient temperature Ambient temperature ( C) ( C) (V) voltage220VDC (V) Contact voltage Contact 220VDC 220VDC 220VDC APPLIED VOLTAGE APPLIED VOLTAGE VS. TIMINGVS.(Sample: TIMING EA2-5NU) (Sample: EA2-5NU) Applied Voltage vs. Timing APPLIEDVOLTAGE APPLIEDVS. VOLTAGE TIMING VS. (Sample: TIMINGEA2-5NU) (Sample: EA2-5NU) (Sample: EA2-5NU) APPLIED VOLTAGE APPLIED VOLTAGE VS. TIMINGVS. (Sample: TIMING EA2-5NU) (Sample: EA2-5NU) 4 3 Operate Operate time Operate2 time(ms) time (ms) (ms) 1 0 8 8 8 4 3 4 4 3 2Operate 3 4 4 3 3 2 Operate time 2 2Operate 2 time 1(ms) 1 time (ms) 1 (ms) 1 4 3 Release Release time 2 Release time(ms) time (ms) (ms) 1 4 3 2 4 3Release (Without coil diode) (Without coil diode) 4 (Without coil diode) (Without coil diode) diode) coil diode) 4 (Without coil (Without 3 4 3 3 2 Release time Release2 time 2(ms) 2 1 time 1 (ms) 1 (ms) 1 1 1 0 0 0 0 100 0 150 100 200 150 250 200 250 0 100 0 200 100 300 200 400 300 400 0 0 0 00 100 0 0 Applied 150100 power 200 150 250 200(mW) 250 00 100 0 0 Applied 200100 power 300 200 400 300(mW) 400 (mW) (mW) 0 100 0 150 100 Applied 200 150power 250 200 250 100 Applied 200power 300 400 0 100 0 200 300 400 Applied powerApplied (mW) power (mW) Applied powerApplied (mW) power (mW) Applied power Applied (mW)power (mW) Applied power Applied (mW)power (mW) 0 8 8 8 (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 All specifications Allinspecifications this catalog and in this production catalog status and production of products status are subject of products to change are subject without to change notice. Prior without to the notice. purchase, Prior toplease the purchase, contact NEC please TOKIN contact forNEC updated TOKIN product for updated data. product data. request Please for acatalog specification request for sheet a specification for detailed product for detailed data product the purchase. prior to theto purchase. AllPlease specifications All in this specifications andin production this catalog status and sheet of production products status areprior subject ofto products to data change are subject without notice. change Prior without to thenotice. purchase, Priorplease to the contact purchase, NEC please TOKIN contact for updated NEC TOKIN product fordata. updated product data. All specifications All inspecifications this and in this production catalog and status production of products status are of subject products to change are subject without to change notice. without Prior to the notice. purchase, Prior toplease theversion purchase, contact please NEC TOKIN contact forNEC updated TOKIN product for updated data. product data. Before using the Before product using incatalog this the catalog, please in this product read catalog, "Precautions" please read "Precautions" other safety precautions other safety listed precautions in the printed listed version in the catalog. printed catalog. Please request for Please a specification request for sheet aproduct specification for detailed sheet fordata detailed prior product toand the purchase. data priorand to the purchase. Please request Please for a specification request for sheet a specification for detailed sheet product for detailed data prior product to thedata purchase. prior to the purchase. Before using theBefore product in using thisthe catalog, product please in this read catalog, "Precautions" please read and"Precautions" other safety precautions and other safety listed precautions in the printedlisted version in the catalog. printed version catalog. 9 Miniature Signal Relays - EA2/EB2 Series EA2/EBE2 SERIES EA2/EBE2 SERIES Performance Data cont'd Operate and Release Voltage vs. Ambient Temperature OPERATE AND RELEASE VOLTAGE VS.AMBIENT TEMPERATURE This shows a typical change operate (release) voltage. Theoperate valueis of must sooperate ismust estimated, This shows a typical change ofof operate (release) voltage. The value of must estimated, coil voltage be applied so coil voltage must be OPERATE AND RELEASE VOLTAGE VS.AMBIENT TEMPERATURE than this avalue forchange safety operation. hot start operation, with NEC applied more higher than this value for safeFor operation. For hot start please inquire KEMET. This shows typical of operate (release) voltage. The please value ofinquire must operation, operate is TOKIN. estimated, so coil voltage with must be applied more than this value for safety operation. For hot start operation, please inquire with NEC TOKIN. 100 100 80 Ratio of nominal coil voltage (%) Ratio of nominal coil voltage (%) Must operate voltage Operate voltage (typical) Must operate voltage 80 60 Operate voltage (typical) 60 40 Release voltage (typical) 40 20 Release voltage (typical) 20 0 -40 0 -40 -20 -20 0 20 40 60 80 0 Ambient 20 temperature 40 60 (C) 100 80 100 Ambient temperature (C) RUNNING TEST (Non-load) Running(Load: Test none, (Non-load) Drive:5VDC50Hz50%duty, Ambient temperature :room temperature, Sample:EA2-5NU ,20pieces) RUNNING TEST (Non-load) (Load: none; Drive: 5 VDC, 50 Hz, 50% duty; Ambient Temperature: room temperature; Sample: EA2-5NU, 10000 (Load: none, Drive:5VDC50Hz50%duty, Ambient temperature :room temperature, Sample:EA2-5NU ,20pieces) 10000 Contact resistance Contact (m) resistance (m) 20 pieces) 5 1000 1000 100 100 10 10 0 20 0 50 100 500 4 20 50 Operations (x10100 ) 500 5 Operate 4 voltage Operate3 4 (V)voltage 2 3 Release (V) voltage 1 2 Release (V)voltage 0 1 1000 (V) 00 1000 Operate voltage Operate voltage Release voltage Release voltage 20 0 50 20 100 500 50 100(x10 ) Operations 4 RUNNING TEST(Load) Operations (x1044) 4 Operations (x104) (Load: 50VDC 0.1A resistive, Drive: 5VDC,5Hz,50%duty,Ambient temperature:85 C, Sample:EA2-5NU ,10pieces) RUNNING TEST(Load) Running(Load: Test50VDC (Load) 0.1A resistive, Drive: 5VDC,5Hz,50%duty,Ambient temperature:85 C, Sample:EA2-5NU ,10pieces) 1000 500 1000 0.1 A resistive; Drive: 5 VDC, 5 Hz, 50% duty; Ambient Temperature: 85C; Sample: EA2-5NU, 10 pieces) (Load: 50 VDC,10000 5 Contact Operate voltage 4 5 10000 Operate voltage Operate 3 4 voltage Operate 3 2 (V) voltage Release 1 2 (V) 1000 resistance Contact 1000 (m) resistance (m) 100 Release voltage Release voltage Release 1 0 100 00 10 10 0 2 0 5 10 50 2 Operations 5 (x10 104) 50 100 100 2 0 5 2 10 50 4 Operations (x10 ) 5 10 50 100 100 4 Operations (x104) 4 4 Operations (x10 ) 9 9 (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 10 EA2/EB2 SERIES EA2/EB2 EA2/EB2 SERIESSERIES Miniature Signal Relays - EA2/EB2 Series Performance Data cont'd BREAKDOWN VOLTAGE Sample: EA2-5NU 10peices BREAKDOWN Voltage BREAKDOWN VOLTAGE VOLTAGE Breakdown Sample: EA2-5NU 10peices Sample: EA2-5NU 10peices (Sample: EA2-5NU, 10 pieces) (a) Between open contacts (b) Between adjacent contacts (a) Between (a) Between open contactsopen contacts 100 100 50 100 50 Distribution 50 Distribution Distribution (b) Between adjacent contacts (b) Between adjacent contacts 100 100 100 50 Distribution (%)50 50 Distribution (%) Distribution (%) 0 0.5 1.0 1.5 2.0 1.0 1.5 2.0 2.5 0 0 0 Breakdown voltage (K V) voltage1.5 (K V) 2.0 2.0 2.5 0.5 1.0 0.5 1.5 1.0 2.0 1.5 1.0 Breakdown 1.5 1.0 2.0 2.5 Breakdown Breakdown Breakdown voltage (K V) voltage (K V) Breakdown voltage (K V) voltage (K V) (C) Between coil and 0 0 (C) 100 Between(C) coilBetween and coil and 100 100 Distribution (%) 50 50 Distribution (%) 50 Distribution (%) 0 0.5 1.5 2.0 2.5 0 0.5Breakdown 1.5 0.5 2.0 1.5 2.5V) 2.0 voltage (K 0 2.5 Breakdown Breakdown voltage (K V) voltage (K V) Alteration of in Dense Mounting Voltage ALTERNATION OF VOLTAGE IN DENSE MOUNTING (magnet interference) ALTERNATION OFINVOLTAGE IN DENSE MOUNTING (magnet interference) (magneticinterference) ALTERNATION OF VOLTAGE DENSE MOUNTING (magnet interference) Alternation of operate voltage +40 Alternation of operate voltage Alternation of operate voltage Alternation of operate voltage +40 +30 +40 +20 +30 +30 -40 a a -30 -40 b Alternation of operate voltage Alternation of operate voltage +40 +30 +40 +20 +30 +30 +10 +20 +20 Ratio of +10 +10 0 alternation (%) Ratio0 of -10 0 Ratio of alternation (%)alternation -10-20 (%) -10 -20 -20-30 +10 +20 +20 Ratio of +10 +10 0 alternation (%) -10 Ratio0 of 0 Ratio of alternation (%)alternation -10-20 (%) -10 -20 -20-30 -30-40 +40 b c d e ac b c Mountingd layout e -30-40 f d f e -40 f a a -30 -40 b b ON ON OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON e c e OFF OFF OFF OFF OFF OFF f OFF f e f 2.54mm 2.54mm 2.54mm OFF d dc d 2.54mm 2.54mm OFF ON e b f OFF c b f d 2.54mm 2.54mm 2.54mm OFF ON b a OFF OFF ON a e OFF OFF ON ON a d Mounting layout Mounting layout Mounting layout Mounting layout Device under test ON Device under test Device under test ON OFF OFF c a cMounting b d layout ce 2.54mm OFF f 10 10 10 (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data. Please request for a specification sheet for detailed product data prior thetopurchase. All specifications in this catalog and production status ofto products are subject to notice. changePrior without notice. Prior to the purchase, please contact TOKIN for updated All specifications in this catalog and production status of products are subject change without to the purchase, please contact NEC TOKIN for NEC updated product data. product data. 11 S Miniature Signal Relays - EA2/EB2 Series Tube Packing - Millimeters 40 pieces/Tube (anti-static) 12.0 586 13.7 Direction of relay direction mark Rubber stopper (Red) Rubber stopper (Green) Tape & Reel Packaging Information (EB2 only) - Millimeters Appearance Reel 750 pieces / Reel ReelReel Emboss Emboss Emboss pieces / Reel 380mm 750 750 pieces /diameter: Reel Reel diameter: 380mm ReelReel diameter: 380mm Carrying tape Carrying Carrying tapetape cover TopTop cover tapetape Top cover tape Tape Dimensions Maximum max. 8.1 8.1 Maximum max. 8.1 8.1 1.751.75 2.0 2.0 1.5 1.5 2.2 2.2 1.5 1.75 2.04 4 16 16 16 4 2.2 Maximum max. 8.1 8.1 0.4 0.4 0.4 11.511.5 14.7 14.7 24.0 11.524.0 24.0 12.112.1 14.7 12.1 K AND TAPE CARRYING DIRECTION ARK AND TAPE CARRYING DIRECTION Relay Direction Mark and Tape Carrying Direction Sprocket holehole Sprocket D TAPE CARRYING DIRECTION Direction markmark Direction Sprocket hole Direction mark Direction of unreeling Direction of unreeling (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 12 NOTE ON CORRECT USE 1. Notes on contact load at a temperature outside this range may adversely affect Make sure that the contact load is within the specified range; otherwise, lifetime of Series the contacts Miniature Signal Relaysthe - EA2/EB2 will be shortened insulation or contact performance. - If the relay is used for a long period of time in highly humid considerably. (RH 85% or higher) environment, moisture may be absorbed Note that the running performance shown is an example, into the relay. This moisture may react with the NOx and Notes onandUsing Relays that it varies depending on parameters such as the type of load, switching frequency, driver circuit, and ambient temperature under the actual operating conditions. 1. Contact Evaluate Load the performance by using the actual circuit before SOx generated by glow discharges that occur when the contacts are opened or closed, producing nitric or sulfuric acid. If this happens, the acid produced may corrode the metallic parts of the relay, causing operational malfunction. f any material containing silicon (silicon rubber, silicon oil, Make sure that the contact load is within the specified- Irange; otherwise, the lifetime of the contacts will be shortened 2. Driving relays and silicon based coating material) is used in the considerably. Noteconnection that thediagram running performance is an example, andisthat varies that depending on parameters such - If the internal of a relay shows + and - shown neighborhood of relay, there someitpossibility these symbols the coil, apply the rated voltage to driver the relaycircuit, in materials will emit silicon gas that will penetrate the relay. In operating conditions. as the type of on load, switching frequency, and ambient temperature under the actual using the relay. the specified direction. If a rippled DC current source is used, abnormalities such as beat at the coil may occur. 2. Driving Relays - The maximum voltage that can be applied to the coil of the relay varies depending on the ambient temperature. this case, the switching contact may generate silicon compounds on the surface of contacts. This silicon compound may result in contact failure. Avoid use of relay in such an environment. * If theGenerally, internaltheconnection diagram of a relay shows -+ and - symbols on the coil, apply the rated voltage to the relay in higher the voltage applied to the coil, the Because the operating temperature range varies the specified If aNote, rippled DC that current source is used, abnormalities at the coil may occur. shorter the direction. operating time. however, a high depending on the humidity, use the such relay inas theheat temperature voltage also increases the bounce of the contacts and range illustrated in the figure below. Prevent the relay from * The maximum voltageandthat canfrequency, be applied the coilbeing of frozen the relay varies depending on the ambient temperature. the contact opening closing whichtomay and avoid the generation of condensation. shorten the the lifetime of the contacts. Generally, higher the voltage applied to the coil, the shorter the operating time. Note, however, that high voltage If the driving voltage waveform of the relay coil rises and 85 opening and closing frequency, which may shorten the also -increases the bounce of the contacts and the contact 80 falls gradually, the inherent performance of the relay may not lifetime of the contacts. be fully realized. Make sure that the voltage waveform 60 Humidity (%RH) 40 instantaneously rises and falls as a pulse. Nominal coil voltage 20 5 -60 -40 -20 0 20 40 0 60 80 100 Temperature (C ) <1msec. <1msec. - The relay maintains constant sealability under normal atmospheric pressure (810 to 1,200 hpa). Its sealability may degraded or the relay may be deformed and malfunction * For consistent operation, the driving voltage shouldbehave rise and fall times of less than 1 ms. - For a latching relay, apply a voltage to the coil according to if it is used under barometric conditions exceeding the specifiedto range. polarity specified in the internal connection diagram * For athe latching relay, apply a voltage to the coilofaccording the polarity specified in the internal connection diagram of - The same applies when the relay is stored or transported. the relay. the relay. Keep the upper-limit value of the temperature to which the - If a current is applied to the coil over a long period of time, relay is exposed after temperature it is removed fromrises, the carton box to the coil temperature rises, of organic * If a current is applied to promoting the coil generation over a long period of time, the coil promoting generation of organic within 50C. gas inside the relay, which may result in faulty contacts. In gas inside the relay, which may result in faulty contacts. In this case, use of a latching relay is recommended. - Permanent magnets are used in polarized relays. For this this case, use of a latching relay is recommended. reason, when magnets, transformers, or speakers are - The operating time and release time indicate the time * The operating time and release time indicate the time required for each contact to close after the voltage has been located nearby the relay characteristics may change and required for each contact to close after the voltage has been applied to or removed from the coil. However, because relaymay hasresult. a mechanical structure, a bounce state exists faulty the operations applied to or removed from the coil. However, because the If excessive vibration or shock is applied to theisrelay, it may until the contact relay has a mechanical structure, a bounce state exists at at the end of the operating and release times. Furthermore, because additional time required malfunction and the contacts remain closed. Vibration or the end of the operating and release times. Furthermore, stabilizes after being in a high-resistance state, care must be taken when using the relay at high speeds. because additional time is required until the contact shock applied to the relay during operation may cause stabilizes after being in a high-resistance state, care must be considerable damage to or wearing of the contacts. Note that taken when using the relay at high speeds. 3. Operating Environment 3. Operating environment operation of a snap switch mounted close to the relay or shock due to the operation of magnetic solenoid may also suresure thatthatthe mounted the application set is used within the specified temperature range. Use of a relay * Make- Make therelay relay mounted in theinapplication set is cause malfunctioning. used within the specified temperature range.may Use of a relay at a temperature outside this range adversely affect insulation or contact performance. * If the relay is used for a long period of time in highly humid (RH 85% or higher) environment, moisture may be 13 absorbed into the relay. This moisture may react with the NOx and SOx generated by glow discharges that occur when the contacts are opened or closed, producing nitric or sulfuric acid. If this happens, the acid produced may corrode the metallic parts of the relay, causing operational malfunction. * If any material containing silicon (silicon rubber, silicon oil, and silicon based coating material) is used in the neighborhood of production relay, there is some possibility thatnotice. these emit gas that product will penetrate the All specifications in this catalog and status of products are subject to change without Priormaterials to the purchase,will please contactsilicon NEC TOKIN for updated data. Please request for a specification sheet for detailed product data prior to the purchase. relay. In this case, the switching contact may generate silicon compounds on the surface of contacts. This silicon Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog. compound may result in contact failure. Avoid use of relay in such an environment. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com 2007.08.03 P0886EMDD03VOL01E R7001_EA2_EB2 * 8/8/2017 13 ctual operating conditions. ng the actual circuit before acid. If this happens, the acid produced may corrode the metallic parts of the relay, causing operational malfunction. - If any material containing silicon (silicon rubber, silicon oil, and silicon based coating material) is used in the am of a relay shows + and - neighborhood of relay, there is some possibility that these rated voltage to the relay in materials will emit silicon gas that will penetrate the relay. In Miniature Signal Relays - EA2/EB2 Series pled DC current source is this case, the switching contact may generate silicon at at the coil may occur. compounds on the surface of contacts. This silicon compound may result in contact failure. Avoid use of relay in Notes on Using Relays cont'd ambient temperature. such an environment. be applied to the coil of the the ge applied to the coil, the ote, however, that a high nce of the - Because the operating temperature range varies depending on the humidity, use the relay in the temperature * Because the operating temperature range varies depending on the humidity, use the relay in the temperature range range illustrated in the figure below. Prevent the relay from illustratedbeing in the below. Prevent the relay from being frozen and avoid the generation of condensation. frozenfigure and avoid the generation of condensation. contacts and ng frequency, which may s. m of the relay coil rises and rmance of the relay may not hat the voltage waveform a pulse. 85 80 60 Humidity (%RH) 40 20 5 -60 -40 -20 0 20 40 60 80 100 Temperature (C ) * The <1msec. relay- maintains constant sealability normal atmospheric pressure (810 to 1,200 hpa). Its sealability may The relay maintains constant sealability under under normal atmospheric pressure (810 to 1,200 hpa). Its sealability may be degraded or the relay may be deformed and malfunction if it is used under barometric conditions exceeding the be degraded or the relay may be deformed and malfunction specified range. tage to the coil according to if it is used under barometric conditions exceeding the range. * The samespecified applies when the relay is stored or transported. Keep the upper-limit value of the temperature to which the - The same applies when the relay is stored or transported. relay is exposed after it is removed from the carton box to within 50C. l over a long period of time, Keep the upper-limit value of the temperature to which the rnal connection diagram of relay is exposed after it is removed from the carton box to magnets are used in polarized relays. For this reason, when magnets, transformers, or speakers are * Permanent within 50C. located nearby themagnets relay characteristics are used in polarized may relays.change For this and faulty operations may result. - Permanent oting generation of organic result in faulty contacts. In s recommended. reason, when magnets, transformers, or speakers are * If excessive vibration or shock is applied to the relay, it may malfunction and the contacts remain closed. Vibration or located nearby the relay characteristics may change and shock to the may relay during operation may cause considerable damage to or wearing of the contacts. Note that faulty operations result. coil. However, because the applied - Ifof excessive or shock is applied to the to relay, it may e, a bounce state exists at operation a snapvibration switch mounted close the relay or shock due to the operation of magnetic solenoid may also malfunction and the contacts remain closed. Vibration or elease times. Furthermore, cause malfunctioning. shock applied to the relay during operation may cause equired until the contact ase time indicate the time e after the voltage has been sistance state, care must be considerable damage to or wearing of the contacts. Note that h speeds. operation of a snap switch mounted close to the relay or 4. Mounting shock due to the operation of magnetic solenoid may also cause malfunctioning. * When mounting a relay onto a PC board using an automatic chip mounter, if excessive force is applied to the cover ature range. Use of a relay of the relay when the relay is chucked or inserted, the cover may be damaged or the characteristics of the relay degraded. Keep the force applied to the relay to within 1 kg. ted in the application set is 13 * Avoid bending the pins to temporarily secure the relay to the PC board. Bending the pins may degrade sealability or adversely affect the internal mechanism. * Ventilation immediately after soldering is recommended. Avoid immersing the relay in cleaning solvent immediately after soldering due to the danger of thermal shock being applied to the relay. of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data. duct data prior to the purchase. ecautions" and other safety precautions listed in the printed version catalog. * Use an alcohol-based or water-based cleaning solvent. Never use thinner and benzene because they may damage the relay housing. * Do not use ultrasonic cleaning because the vibration energy generated by the ultrasonic waves may cause the 2007.08.03 P0886EMDD03VOL01E contacts to remain closed. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 14 Miniature Signal Relays - EA2/EB2 Series Notes on Using Relays cont'd 5. Handling and Storage * Relays are packaged in magazine cases for shipment. If a space is created in the case after some relays have been removed, be sure to insert a stopper to secure the remaining relays in the case. If relays are not well secured, vibration during transportation may cause malfunctioning of the contacts. * Exercise care in handling the relay so as to avoid dropping it or allowing it to fall. Do not use a relay that has been dropped. If a relay drops from a workbench to the floor, a shock of 9,800 m/s2 (1,000 G) or more is applied to the relay, possibly damaging its functions. Even if a light shock has been applied to the relay, thoroughly evaluate its operation before using it. * Latching relays are factory-set to reset state for shipment. A latching relay may be set, however, by vibration or shock applied while being transported. Be sure to forcibly reset the relay before using it in the application set. Also note that the relay may be set by unexpected vibration or shock when it is used in a portable set. * The sealability of a surface mount (SMT) relay may be lost if the relay absorbs and is then heated during soldering. When storing relays, therefore, observe the following points: 1. For standard packing, please use relays within 12 months after delivery (storage conditions: 30C/60% RH). If the relays have moisture absorption, dehumidify as follows: - Tape Packaging: 50 5C, 200-300 hours. - Simple Relay: 85 5C, 48 hours. 2. For MBB packing, please use relays within 2 years after delivery (storage conditions: 30C/60% RH). After opening MBB packing, please use within 3 months (storage conditions: 30C/60% RH). (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 15 Miniature Signal Relays - EA2/EB2 Series KEMET Electronics Corporation Sales Offices For a complete list of our global sales offices, please visit www.kemet.com/sales. Disclaimer All product specifications, statements, information and data (collectively, the "Information") in this datasheet are subject to change. The customer is responsible for checking and verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based on KEMET Electronics Corporation's ("KEMET") knowledge of typical operating conditions for such applications, but are not intended to constitute - and KEMET specifically disclaims - any warranty concerning suitability for a specific customer application or use. The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by KEMET with reference to the use of KEMET's products is given gratis, and KEMET assumes no obligation or liability for the advice given or results obtained. Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage. Although all product-related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indicted or that other measures may not be required. KEMET is a registered trademark of KEMET Electronics Corporation. (c) KEMET Electronics Corporation * P.O. Box 5928 * Greenville, SC 29606 * 864-963-6300 * www.kemet.com R7001_EA2_EB2 * 8/8/2017 16