AZ943-1CH-5DE

AZ943 15 AMP MINIATURE PC BOARD RELAY FEATURES • • • • • • • High performance Low seated height Flux tight and sealed versions available Class B insulation (130°C) standard Class F insulation (155°C) available UL, CUR file E44211 TÜV file R50161256  VDE certificate 40047375 CONTACTS Arrangement SPST (1 Form A) SPDT (1 Form C) Ratings UL/CUR TÜV VDE Material Resistance Form A and C Max. switched power: 210W or 2770VA Max. switched current: 15A (1 Form A), 10A (1 Form C) Max. switched voltage: 30VDC or 277VAC 1 Form A 15A at 125VAC, General use, 6k cycles, 70°C 12A at 125VAC, General use, 100K cycles, 85°C 10A at 277VAC, General use, 100k cycles 70°C 10A at 277VAC, General use, 20k cycles 85°C 12A at 120VAC, Res. 6k cycles 70°C TV-5 120VAC 70°C 500W, 120VAC Tungsten 70°C 9.8 FLA 1/2HP at 125VAC, 6k Cycles 70°C 125VA at 120VAC Pilot Duty, 100k cycles, 70°C 10A at 28VDC, Res. 100K cycles 70°C 1 Form C 10A at 120VAC, Res, 100k cycles, (N.O.) 70°C 10A at 120VAC, Res, 6k cycles, (N.C.) 70°C 10A at 277VAC, General Use, 100k cycles, (N.O./N.C.) 70°C 10A at 277VAC, General use, 20k cycles (N.O./N.C.) 85°C 9.8 FLA, 58.8 LRA 1/2HP at 125VAC,6K cycles (N.O.) 70°C 10A at 28VDC, Res. 100k cycles (N.O.) 70°C 1 Form A 10A at 277VAC, Resistive, 25k cycles, 85°C 1 Form C 5A at 250VAC, Resistive, 25k cycles, 85°C 10A at 277VAC, Resistive, 10k cycles, 85°C 12A at 125VAC, Resistive, 10k cycles, 85°C 10 A at 250 VAC, resistive, 70°C, 50k cycles (N.O.) 12 A at 125 VAC, resistive, 25°C, 50k cycles (N.O.) 1 Form C only 5 A at 250 VAC, res., 70°C, 50k cycles, (N.C.) GENERAL DATA Life Expectancy Mechanical Electrical 1 x 107 1 x 105 at 10A 277VAC Res. Operate Time 10ms max. Release Time 5ms max. (with no coil suppression) Dielectric Strength 1500Vrms contact to coil (at sea level for 1 min.) 750Vrms across contacts Insulation Resistance 100 megohms min. at 500VDC, 50% RH Dropout Greater than 10% of nominal coil voltage Ambient Temperature At nominal coil voltage Operating -40°C(-40°F) to 90°C(194°F) Class B -40°C(-40°F) to 110°C(230°F) Class F Storage -40°C(-40°F) to 130°C(266°F) Vibration 0.062" DA at 10–55Hz Shock 10g Enclosure P.B.T. polyester Terminals Tinned copper alloy, P.C. Max. Solder Temp. 270°C (518°F) Max. Solder Time 5 seconds Max. Solvent Temp. 80°C (176°F) Max. Immersion Time 30 seconds Weight 10 grams Silver tin oxide, (gold plating available) < 100 milliohms initially (6V, 1A method) NOTES 1. All values at 20°C (68°F). 2. Relay may pull in with less than “Must Operate” value. 3. Unsealed relays should not be dip cleaned. 4. Specifications subject to change without notice. COIL Power At Pickup Voltage Max Continuous Dissipation Temperature Rise Temperature 203mW 1.8W at 20°C (68°F) Class B 2.4W at 20°C (68°F) Class F 32°C (58°F) at nominal coil voltage Max. 130°C (266°F) Class B Max. 155°C (311°F) Class F 04/23/19 AZ943 RELAY ORDERING DATA STANDARD RELAYS COIL SPECIFICATIONS Coil Resistance ±10% 44 ORDER NUMBER* Nominal Coil VDC 4 Must Operate VDC 3.0 Max Continuous VDC 5.2 5 3.8 6.5 70 AZ943–1CH–5D 6 4.5 7.8 100 AZ943–1CH–6D 9 6.8 11.7 225 AZ943–1CH–9D 12 9.0 15.6 400 AZ943–1CH–12D 18 13.5 23.4 900 24 18.0 31.2 1,600 ±15% AZ943–1CH–24D 48 36.0 62.4 6,400 ±15% AZ943–1CH–48D AZ943–1CH–4D AZ943-1CH-18D * Substitute “1AH” in place of “1CH” to indicate 1 Form A contact. Add suffix “E” for epoxy sealed versions. Add suffix “G” for gold plated contacts. To indicate Class F version, add suffix “F”. MECHANICAL DATA Outline Dimensions PC Board Layout .758 MAX 19.25 .610 MAX 15.49 5XØ.051 Ø1.30 .134 3.40 .059 1.49 .62 MAX 15.95 .138 3.5 .236 6.00 .472 12.00 .017 0.43 x.01 x.01 0.50 0. 0 .480 12.20] .014 0.36 x.01 0.50] .039 .559 14.20 x.03 1.00 VIEWED TOWARD TERMINALS 03 1.00 Wiring Diagram 3 2 3 2 5 5 FORM "A" FORM "C" 4 VIEWED TOWARD TERMINALS Dimensions in inches with metric equivalents in parentheses. Tolerance: ± .010" 04/23/19 This specification provides an overview of the most significant part features. Any individual applications and operating conditions are not taken into consideration. It is recommended to test the product under application conditions. Responsibility for the application remains with the customer. Proper operation and service life cannot be guaranteed if the part is operated outside the specified limits.