AZ762T 16 AMP HIGH INRUSH MINIATURE POWER RELAY FEATURES • • • • • • Dielectric strength 5000 Vrms Low height: 15.7 mm 16 Amp switching Tungsten premake contact for extreme high inrush Isolation spacing greater than 10 mm Reinforced insulation, EN 60730-1 (VDE 0631, part 1) EN 60335-1 (VDE 0700, part 1) • UL, CUR file E44211 • VDE certificate 40006031 CONTACTS GENERAL DATA Arrangement SPST (1 Form A) Ratings Resistive load: Max. switched power: 4000 VA Max. switched current: 16 A Max. inrush current: 165 A, 20 ms 500 A, 2 ms 800 A, 200 µs Max. switched voltage: 125 VDC* or 440 VAC * Note: Rated Load UL, CUR VDE If switching voltage is greater than 30 VDC, special precautions must be taken. Please contact the factory. 16 A at 277 VAC, general use, 10k cycles, 85°C 2.2 A at 277 VAC, standard ballast, 10k cycles, 50°C 3000 W at 230 VAC, tungsten, 12k cycles, 40°C 1200 W at 277 VAC, tungsten, 6k cycles, 50°C 1200 W at 120 VAC, tungsten, 6k cycles, 50°C TV-8 at 120 VAC, 25k cycles, 40°C 16 A at 250 VAC resistive, 30k cycles, 85°C Material Silver tin oxide + tungsten Resistance < 100 milliohms initially COIL Power At Pickup Voltage (typical) Life Expectancy Mechanical Electrical Minimum operations 5 x 106 1 x 104 Operate Time (typical) 7 ms at nominal coil voltage Release Time (typical) 3 ms at nominal coil voltage (with no coil suppression) Dielectric Strength (at sea level for 1 min.) 5000 Vrms coil to contact 1250 Vrms between open contacts Insulation Resistance 1000 megaohms min. at 20°C 500 VDC 50% RH Insulation (according to DIN VDE 0110, IEC 60664-1) C250 Overvoltage category: III Pollution degree: 3 Nominal voltage: 250 VAC Dropout Greater than 10% of nominal coil voltage Ambient Temperature Operating At nominal coil voltage -40°C (-40°F) to 85°C (185°F) Vibration 0.062” (1.5 mm) DA at 10-55 Hz Shock 10 g 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 13.5 grams Packing unit in pcs. 50 per tray / 500 per carton box 200 mW (235 mW at 60 V and 110 V) Max. Continuous Dissipation 0.9 W at 20°C (68°F) ambient Temperature Rise 26°C (47°F) at nominal coil voltage 1. All values at 20°C (68°F). Max. 130°C (266°F) Class B Max. 155°C (311°F) Class F 2. Relay may pull in with less than “Must Operate” value. Temperature NOTES 3. Specifications subject to change without notice. ZETTLER electronics GmbH Junkersstr. 3, D-82178 Puchheim, Germany phone: +49 89 800 97-0 [email protected] fax: +49 89 800 97-200 www.ZETTLERelectronics.com This product specification to be used only together with the application notes which can be downloaded from http://www.ZETTLERelectronics.com/pdfs/relais/ApplicationNotes.pdf 2013-07-17 AZ762T RELAY ORDERING DATA COIL SPECIFICATION - DC COIL Nominal Coil VDC Must Operate VDC Max. Continuous VDC 5 3.5 7.5 6 4.2 9 6.3 12 8.4 18 12.6 24 48 ORDER NUMBER* Coil Resistance Ohm 1 Form A 62 ±10% AZ762T-1AE-5D 9 90 ±10% AZ762T-1AE-6D 13.5 202 ±10% AZ762T-1AE-9D 18 360 ±10% AZ762T-1AE-12D 27 810 ±10% AZ762T-1AE-18D 16.8 36 1,440 ±10% AZ762T-1AE-24D 33.6 72 5,760 ±15% AZ762T-1AE-48D 60 42.0 90 7,500 ±15% AZ762T-1AE-60D 110 77.0 165 25,200 ±15% AZ762T-1AE-110D * “1AE” denote silver tin oxide contacts with tungsten premake contact. Add suffix “E” at the end of the order number for sealed version. Add suffix “F” at the end of the order number for Class F insulation system. MECHANICAL DATA PC BOARD LAYOUT 12.7 ± 0.3 20.16 5.04 2.6 2.7 7.56 15.7 ± 0.3 29 ± 0.3 3.6 ± 0.5 0.3 ± 0.2 6 x ø 1.3 Viewed toward terminals WIRING DIAGRAM 2 x 0.5 x 0.5 4 x 0.5 5.04 20.16 4 5 7.56 4 x 0.8 1 Form A 2 2.6 8 7 1 Viewed toward terminals Dimensions in mm. Tolerance: ± 0.25 mm ZETTLER electronics GmbH Junkersstr. 3, D-82178 Puchheim, Germany phone: +49 89 800 97-0 [email protected] fax: +49 89 800 97-200 www.ZETTLERelectronics.com This product specification to be used only together with the application notes which can be downloaded from http://www.ZETTLERelectronics.com/pdfs/relais/ApplicationNotes.pdf 2013-07-17