S4EB-5V

4 AMP POLARIZED HIGH DENSITY RELAY WITH HIGH SENSITIVITY FEATURES 28.0 1.102 12.0 .472 10.4 .409 S-RELAYS • Wide switching range From 100µA 100 mV DC to 4 A 250 V AC • Low thermal electromotive force Approx. 3 µV • Dual-In-Line packaging arrangement • Amber types available mm inch • A variety of contact arrangements 2 Form A 2 Form B, 3 Form A 1 Form B, 4 Form A • Latching types available • High sensitivity in small size 100 mW pick-up and 200 mW nominal operating power • High shock and vibration resistance Shock: 50 G Vibration: 10 to 55 Hz at double amplitude of 3 mm .118 inch SPECIFICATIONS Contacts Arrangement 2 Form A 2 Form B, 3 Form A 1 Form B, 4 Form A Characteristics (at 25°C 77°F 50% Relative humidity) Max. operating speed Initial insulation resistance*1 Between open contacts Initial Between contact sets breakdown Between contacts and voltage*2 coil Operate time*3 (at nominal voltage)(at 20°C) Release time (without diode)*3 (at nominal voltage)(at 20°C) Set time*3 (latching) (at nominal voltage)(at 20°C) Reset time*3 (latching) (at nominal voltage)(at 20°C) Initial contact bounce, max. Temperature rise (at nominal voltage)(at 20°C) Shock resistance Approx. 100 Approx. 200 Approx. 100 Approx. 200 mW mW mW mW Functional*4 Destructive*5 Functional*6 Vibration resistance Destructive Conditions for operation, Ambient transport and storage*7 temp. (Not freezing and condensHumidity ing at low temperature) Unit weight 20 cpm for maximum load, 50 cps for low-level load (1 mA 1 V DC) 10,000 MΩ at 500 V DC 750 Vrms 1,000 Vrms 1,500 Vrms Max. 15 ms (Approx. 8 ms) Max. 10 ms (Approx. 5 ms) Max. 15 ms (Approx. 8 ms) Max. 15 ms (Approx. 8 ms) 1 ms Max. 35°C with nominal coil voltage and at maximum switching current Min. 490 m/s2 {50 G} Min. 980 m/s2 {100 G} 176.4 m/s2 {18 G}, 10 to 55 Hz at double amplitude of 3 mm 235.2 m/s2 {24 G}, 10 to 55 Hz at double amplitude of 4 mm –40°C to +65°C –40°F to +149°F 5 to 85% R.H. Approx. 8 g .28 oz Initial contact resistance, max. 50 mΩ (By voltage drop 6 V DC 1 A) Initial contact pressure Approx. 12 g .42 oz Contact material Gold clad silver alloy Electrostatic capacitance Approx. 3pF Thermal electromotive force Approx. 3µV (at nominal coil voltage) Nominal switching capacity 4 A 250 V AC, 3 A 30 V DC Maximum switching power 1,000 VA, 90 W Rating 250 V AC, 30 V DC Maximum switching voltage (resistive) (48 VDC at less than 0.5 A) Max. switching current 4 A (AC), 3 A (DC) 100µA 100 m V DC Min. switching capacity**1 Mechanical (at 50 cps) 108 Expected life (min. 4 A 250 V AC 105 Electrical operations) (at 20 cpm) 3 A 30 V DC 2 × 105 Coil (polarized) (at 20°C 68°F) Single side stable Latching Notes: **1 This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Minimum operating power Nominal operating power Minimum set and reset Nominal set and reset Remarks * Specifications will vary with foreign standards certification ratings. *1 Measurement at same location as "Initial breakdown voltage "section *2 Detection current: 10mA *3 Excluding contact bounce time *4 Half-wave pulse of sine wave: 11ms; detection time: 10µs *5 Half-wave pulse of sine wave: 6ms *6 Detection time: 10µs *7 Refer to 5. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (Page 61). TYPICAL APPLICATIONS Telecommunications equipment, data processing equipment, facsimiles, alarm equipment, measuring equipment. 219 S ORDERING INFORMATION Ex. S 2 EB L2 48V Contact arrangement 2: 2 Form A 2 Form B 3: 3 Form A 1 Form B 4: 4 Form A Classification of type EB: Amber sealed type Operating function Nil: Single side stable L2: 2 coil latching Coil voltage (DC) 3, 5, 6, 12, 24, 48 V (Notes) 1. Standard packing Carton: 50 pcs. Case: 500 pcs. 2. 1 coil latching also available as option. Contact our sales office for details. 3. UL/CSA approved type is standard. TYPES AND COIL DATA at 20°C 68°F Single side stable Type SuEB-3V SuEB-5V SuEB-6V SuEB-12V SuEB-24V SuEB-48V Nominal voltage, V DC 3 5 6 12 24 48 Pick-up voltage, V DC (max.) 2.1 3.5 4.2 8.4 16.8 33.6 Drop-out voltage, V DC (min.) 0.3 0.5 0.6 1.2 2.4 4.8 Nominal operating current, mA 66.7 38.5 33.3 16.7 8.4 5.6 Coil resistance, Ω (±10%) 45 130 180 720 2,850 8,500 Inductance, mH 23 65 93 370 1,427 3,410 Nominal operating power, mW 200 192 200 200 202 271 Maximum allowable voltage, V DC (40°C) 5.5 9.0 11.0 22.0 44.0 75.0 2 coil latching Type SuEB-L2-3V SuEB-L2-5V SuEB-L2-6V SuEB-L2-12V SuEB-L2-24V SuEB-L2-48V Nominal voltage, V DC 3 5 6 12 24 48 Set and reset voltage, V DC (max.) 2.1 3.5 4.2 8.4 16.8 33.6 Nominal operating current, mA 66.7 38.5 33.7 16.7 8.4 7.4 Coil resistance, Ω (±10%) Coil I 45 130 180 720 2,850 6,500 Coil II 45 130 180 720 2,850 6,500 Inductance, mH Coil I 10 31 40 170 680 1,250 Coil II 10 31 40 170 680 1,250 Nominal operating power, mW 200 192 200 200 202 355 Maximum allowable voltage, V DC (40°C) 5.5 9.0 11.0 22.0 44.0 65.0 Note: Insert 2, 3 or 4 in u for contact form reguired. DIMENSIONS 28±0.5 1.102±0.02 1 .039 4 .157 1.4 .055 3 .118 0.5 .020 1 12 2 11 3 10 4 9 5 8 mm inch 12 .472 10±0.5 .394±0.02 0.4 1.0 .016 .039 0.5 .020 7.62 .300 12-1.3 DIA. .047-.051 DIA. PC board pattern (Copper-side view) 2.54 .100 6 7.62 12 .472 7 .300 5.08 .200 2.54 .100 General tolerance: ±0.3 ±.012 Tolerance: ±0.1 ±.003 Schematic (Bottom view) Single side stable Deenergized position 2a2b 1 2 3 4 5 6 3a1b 1 2 3 4 5 6 4a 1 2 3 4 5 6 + 12 11 10 9 8 7 12 + 11 10 9 8 7 12 + 11 10 9 8 7 2 coil latching Diagram shows the "reset" position when terminals 6 and 7 are energized. Energize terminals 1 and 12 to transfer contacts. 220 2a2b Set 1 2 3 4 5 6 3a1b + Reset 1 2 3 4 5 6 4a + Reset 1 2 3 4 5 6 + 12 11 10 9 8 7 + Set 12 + Set 12 + Reset - 11 10 9 8 7 - 11 10 9 8 7 - S REFERENCE DATA 1. Maximum switching power 2. Life curve 3. Contact reliability Condition: 1V DC, 1mA Detection level 10 Ω Tasted Sample: S4EB-24V, 10pcs 1,000 DC resistive load Contact voltage, V AC resistive load 500 1,000 99.9 99.0 95.0 70.0 50.0 30.0 100 50 10 30 125 V AC (cosϕ = 1.0) 250 V AC (cosϕ = 1.0) 1 2 3 4 5 10.0 5.0 2.0 1.0 0.5 0.2 0.1 m = 1.6 µ: 79 million time σ: 51 million time 95% reliability limit: 14.6 million times (weibul probability paper) 1.0 No. of operations, ×107 10.0 100 Life, ×104 0.1 1 Contact current, A 10 10 0 Contact current, A 4.-(1) Coil temperature rise Tested Sample: S4EB-24V, 4 Form A 100 90 Temperature rise, °C 4.-(2) Coil temperature rise Tested Sample: S4EB-24V, 4 Form A 100 5.-(1) Operate and release time (Single side stable type) Tested Sample: S4EB-24V, 10pcs 20 Operate/release time, ms 18 16 14 12 10 8 6 4 Max. Min. 2 Release time 0 80 100 Operate time Max. Min. Release time (with diode) Max. Min. 90 Temperature rise, °C 80 70 60 50 40 30 20 10 0 0.2 0.4 0.6 0.8 1.0 Coil operating power, W 1.2 1 2 3 4 5 6 Coil operating power, 0.2 W 80 70 60 50 40 30 20 10 0 0A 4A 120 140 Contact current, A Coil applied voltage, %V 5.-(2) Operate time (2 coil latching type) Tested Sample: S2EB-L2-12V 20 Operate/release time, ms 18 16 14 6. Influence of adjacent mounting Note: When installing an S-relay near another, and there is no effect from an external magnetic field, be sure to leave at least 10 mm .394 inch between relays in order to acheive the performance listed in the catalog. (1) (2) (3) (1) & (3) relays are energized Rate of change, % 10 8 6 Max. 4 Min. 2 (without diode) 80 100 120 140 (with diode) +30 Single side stable Drop-out voltage Rate of change, % 12 +30 2 coil latching Max. Min. 0 Pick-up voltage –30 0 Pick-up voltage –30 Coil applied voltage, %V 5 Inter-relay distance, mm 10 5 Inter-relay distance, mm 10 7. Thermal electromotive force 8. Effect from an external magnetic field Rate of change, % Rate of change, % +30 Single side stable φ Pick-up voltage +30 Single side stable φ Drop-out voltage 200 Thermal electromotive force, µV 0 Drop-out voltage –30 50 2 coil latching G 100 0 Pick-up voltage –30 NR-H 50 2 coil latching G 100 100 Rate of change, % Rate of change, % +30 +30 NF relay S relay 0 Pick-up voltage 0 Pick-up voltage –30 2 4 6 8 Minute 10 12 –30 50 G 100 50 G 100 221 S ACCESSORIES Specifications Breakdown voltage Insulation resistance Heat resistance Maximum continuous current 1,500 Vrms between terminals More than 100 MΩ between terminals at 500 V DC Mega 150 ±3°C (302 ±5.4°F) for 1 hour. 4A S Relay Socket, S-PS (Note: Don't insert or remove relays while in the energized condition.) Dimensions 12.4±0.6 .488±.024 mm inch PC board pattern (Copper-side view) 7.6 .299 18.3±0.6 .720±.024 1.2±0.3 .047±.012 5.08 5.08 5.08 5.08 5.08 12-1.6 DIA. HOLE .200 .200 .200 .200 .200 12-.063 DIA. HOLE 0.4±0.1 .016±.004 3.4±0.3 .134±.012 7.62±0.3 .300±.012 Terminal width: 1.3 .051 Terminal thickness: 1.2 .047 15.5±0.6 .610±.024 4.85±0.3 .191±.012 1.5±0.3 .059±.012 5.08±0.3 .200±.012 32.4±0.6 1.276±.024 1.5±0.3 .059±.012 Inserting and removing method Inserting method: Insert the relay as shown in Fig. 1 unit the rib of the relay snaps into the clip of the socket. Rib Fig. 1 Removing method: (1) Remove the relay straight from the socket holding the shaded portion of the relay as shown in Fig. 2. Fig. 2 (2) When sockets are mounted in close proximity, use a slotted screw driver as shown in Fig. 3. Fig. 3 NOTES 1. Special use of 2 coil latching types: 2 ways can be considered if 2 coil latching types are used as 1 coil latching types. (A) Reverse polarity is applied to the set coil of 2 coil latching type. (B) By shorting terminals 12 and 7, apply plus to 1, minus to 6 at set and plus to 6, minus to 1 at reset. Applied coil voltage should be the same as the nominal. Operating power will be reduced to one-half. Reset position of 2a2b type 2. Soldering operations should be accomplished as quick as possible; within 10 seconds at 250°C 482°F solder temperature or 3 seconds at 350°C 662°F. The header portion being sealed with epoxy resin, undue subjection to heat may cause loss of seal. Solder should not be permitted to remain on the header. - 1 2 3 4 5 6 + 12 11 10 9 8 7 CAUTIONS FOR USE Based on regulations regarding insulation distance, there is a restriction on same-channel load connections between terminals No. 2, 3 and 4, 5, as well as between No. 8, 9 and 10, 11. See the figure below for an example. 23 45 11 10 9 8 11 23 45 98 10 • Between 2, 3 and 4, 5: different channels, therefore not possible • Between 10, 11 and 8, 9: different channels, therefore not possible • Between 2, 3 and 4, 5: same channels, therefore possible • Between 10, 11 and 8, 9: same channels, therefore possible No good Good For Cautions for Use, see Relay Technical Information (Page 48 to 76). 222 9/1/2000 All Rights Reserved, © Copyright Matsushita Electric Works, Ltd. Go To Online Catalog