AZ2703 30 AMP POWER RELAY FEATURES * * * * * * Low cost 30 Amp switching Class B insulation system standard, Class F available PCB Terminals 4 kV dielectric Standard (2.4 mm) and wide contact gap (3.0 mm) available * Epoxy sealed version available * UL, CUR file E44211 * TUV R50164753 CONTACTS GENERAL DATA Arrangement SPST (1 Form X) DPST (2 Form X) Ratings Resistive load: Max. switched power: 840 W or 8310 VA Max. switched current: 30 A Max. switched voltage: 150* VDC or 400 VAC Life Expectancy Mechanical Electrical Minimum operations 1 x 106 1 x 105 at 30 A 120 VAC Res. Operate Time (max) 30 ms at nominal coil voltage Release Time (max) 30 ms at nominal coil voltage (with no coil suppression) *Note: If switching voltage is greater than 30 VDC, special precautions must be taken. Please contact the factory. Rated Load UL, CUR TUV 30 A at 277 VAC res. 30k cycles [1] 1.5 HP at 120 VAC [1] 3 HP at 240 VAC [1] TV-10 at 120 VAC [1] 30 A at 277 VAC res. 70k cycles [2] 3 HP at 240 VAC 100k cycles [2] 10 A at 120 VAC tungsten load, 10k cycles [2] 27 A at 240 VAC, cos phi = .8, 100k cycles [1] Dielectric Strength 4000 Vrms coil to contact (at sea level for 1 min.) 2000 Vrms between open contacts Insulation Resistance 1000 megohms min. at 20C, 500 VDC, 50% RH Dropout Greater than 5% of nominal coil voltage (DC) Greater than 15% of nominal coil voltage (AC) Ambient Temperature Operating Storage At nominal coil voltage -40C (-40F) to 85C (185F) - Class B -40C (-40F) to 105C (221F) - Class F -40C (-40F) to 130C (266F) - Class B -40C (-40F) to 155C (311F) - Class F 0.062" DA at 10-55 Hz [1] silver cadmium oxide, [2] silver tin oxide (1 Form X only) Material Silver cadmium oxide, silver tin oxide Vibration Resistance < 100 milliohms initially (24 V, 1 A voltage drop method) Shock COIL Power At Pickup Voltage (typical) 1.08 W (DC) 1.2 VA (AC) Max. Continuous Dissipation 3.8 W at 20C (68F) ambient Temperature Rise 50C (90F) at nominal coil voltage Temperature Max. 130C (266F) - Class B Max. 155C (311F) - Class F Operating 10 g, 11 ms, 1/2 sine (no false operation) Non-Operating 100 g, 11 ms, 1/2 sine (no damage) Enclosure P.B.T. polyester Terminals Tinned copper alloy, PC mount Max. Solder Temp. 270C (518F) Max. Solder Time 5 seconds Weight 120 grams NOTES 1. All values at 20C (68F). 2. Relay may pull in with less than "Must Operate" value. 3. Specifications subject to change without notice. 10/2/09 AZ2703 RELAY ORDERING DATA COIL SPECIFICATIONS - DC COIL Nominal Coil VDC 3 6 12 24 48 100 110 200 ORDER NUMBER* Must Operate VDC 2.25 4.50 9.00 18.00 36.0 75.0 82.5 150.0 Max. Continuous VDC 4.2 8.4 16.8 33.7 67.5 140.5 154.7 282.4 Coil Resistance 10% 4.7 18.8 75 300 1200 5200 6300 21000 1 Form X AZ2703-1A-3D AZ2703-1A-6D AZ2703-1A-12D AZ2703-1A-24D AZ2703-1A-48D AZ2703-1A-100D AZ2703-1A-110D AZ2703-1A-200D COIL SPECIFICATIONS - AC COIL 2 Form X AZ2703-2A-3D AZ2703-2A-6D AZ2703-2A-12D AZ2703-2A-24D AZ2703-2A-48D AZ2703-2A-100D AZ2703-2A-110D AZ2703-2A-200D ORDER NUMBER* Nominal Coil Must Operate Max. Continuous Coil Current 1 Form X 2 Form X VAC VAC VAC mA 10% 6 4.80 6.6 319 AZ2703-1A-6A AZ2703-2A-6A 12 9.60 13.2 160 AZ2703-1A-12A AZ2703-2A-12A 24 19.2 26.4 80 AZ2703-1A-24A AZ2703-2A-24A 48 38.4 52.8 40 AZ2703-1A-48A AZ2703-2A-48A 120 96.0 132.0 23 AZ2703-1A-120A AZ2703-2A-120A 220 176.0 242.0 10 AZ2703-1A-220A AZ2703-2A-220A 240 192.0 264.0 9.2 AZ2703-1A-240A AZ2703-2A-240A *For epoxy sealed version add suffix "E". For silver tin oxide add suffix "T" (UL approved for 1 Form X version only). For wide contact gap add suffix "W". For Class F add suffix "F". MECHANICAL DATA MOUNTING HOLE LAYOUT .031 [0.8] .567 .274 [6.9] [14.4] .437 .567 [14.4] .437 .321 [8.1] [11.1] [11.1] .504 [12.8] .043 [1.1] 1.418 [36.0] .748 [19.0] .067 [1.7] .236 [6.0] .130 [3.3] .250 [6.3] .748 [19.0] .432 [11.0] 1.575 [40.0] .110 x .032 [2.8 x 0.81] 1.575 [40.0] .207 [5.2] VIEWED TOWARD TERMINALS 1 3 2 WIRING DIAGRAMS 4 o.177 [o4.5] 1.374 [34.9] 1 2 3 2 4 3 5 6 2.028 [51.5] 5 6 2 FORM X 5 6 1 FORM X Dimensions in inches with metric equivalents in parentheses. Tolerance: .010" 10/2/09