AZ957 SUBMINIATURE PC BOARD RELAY FEATURES • • • • • • • Subminiature size for high density packaging DIL pitch terminals Epoxy sealed for automatic wave soldering High sensitivity: 150 mW nominal with 96 mW pickup Meets FCC Part 68.302 1500 V lightning surge Meets FCC Part 68.304 1000 V dielectric UL, CUR file E43203 CONTACTS GENERAL DATA Arrangement SPDT (1 Form C) Crossbar contacts Ratings Resistive load: Max. switched power: Max. switched current: Life Expectancy Mechanical Electrical Minimum operations 10 million operations 1 x 105 at 0.5 A 120 VAC Res. 30 W or 62.5 VA 1 A continous 2 A (30 s, 50% duty) Max. switched voltage: 60 VDC* or 125 VAC Operate Time (typical) Standard: 3 ms at nominal coil voltage Sensitive: 5 ms at nominal coil voltage Release Time (typical) 1 ms at nominal coil voltage (with no coil suppression) * Note: If switching voltage is greater than 30 VDC, Capacitance Coil to contact: 7.0 pF Contact to contact: 7.0 pF Bounce (typical) At 10 mA contact current 2 ms at operate 8 ms at release special precautions must be taken. Please contact the factory. Rated Load UL, CUR 1.0 A at 30 VDC resistive 0.3 A at 60 VDC resistive 0.5 A at 125 VAC resistive Material Silver palladium, gold clad Resistance < 100 milliohms initially COIL Power At Pickup Voltage (typical) Max. Continuous Dissipation Temperature Rise Standard coil Sensitive coil Temperature Standard coil: 128 mW Sensitive coil: 96 mW Dielectric Strength 1250 Vrms coil to contact (at sea level for 1 min.) 400 Vrms between open contacts Meets FCC Part 68.302 1500 V lightning surge Meets FCC Part 68.304 1000 V dielectric Insulation Resistance 100 megohms min. at 20°C, 500 VDC, 50% RH Dropout Greater than 10% of nominal coil voltage Ambient Temperature Operating At nominal coil voltage Standard: -40°C (-40°F) to 70°C (158°F) Sensitive: -40°C (-40°F) to 80°C (176°F) Both: -40°C (-40°F) to 105°C (221°F) Storage 0.5 W at 20°C (68°F) ambient 33°C (59°F) at nominal coil voltage 25°C (45°F) at nominal coil voltage Max. 105°C (221°F) NOTES 1. All values at 20°C (68°F). 2. Relay may pull in with less than “Must Operate” value. 3. Specifications subject to change without notice. ZETTLER Vibration 0.13" (3.3 mm) DA at 10–55 Hz Shock 10 g Enclosure P.E.T. polyester Terminals Tinned copper alloy Max. Solder Temp. 270°C (518°F) Max. Solder Time 5 seconds Max. Immersion Time 30 seconds Weight 2.2 grams Packing unit in pcs 20 per plastic tube / 1000 per carton box electronics GmbH Junkersstrasse 3, D-82178 Puchheim, Germany Tel. +49 89 800 97 0 Fax +49 89 800 97 200 [email protected] www.ZETTLERelectronics.com 2004-08-22 AZ957 RELAY ORDERING DATA COIL SPECIFICATIONS: STANDARD COIL Must. Operate VDC 1.2 Max. Continuous VDC 2.4 3 2.4 4.7 5 4.0 7.9 125 AZ957-1C-5DE 6 4.8 9.5 180 AZ957-1C-6DE 9 7.2 14.2 405 AZ957-1C-9DE 12 9.6 19.0 720 AZ957-1C-12DE 24 19.2 37.9 2,880 AZ957-1C-24DE 45.0 ORDER NUMBER AZ957-1C-1.5DE AZ957-1C-3DE 120 Coil Temperature Rise °C Coil Resistance Ohm ±10% 11.3 Standard Coil 200 mW Nominal Coil VDC 1.5 100 80 60 40 1A 20 0A 0 60% COIL SPECIFICATIONS: SENSITIVE COIL Coil Resistance Ohm ±10% 15.0 Max. Continuous VDC 2.7 3 2.4 5.5 5 4.0 9.1 167 AZ957-1C-5DSE 6 4.8 11.0 240 AZ957-1C-6DSE 9 7.2 16.4 540 AZ957-1C-9DSE 12 9.6 21.9 960 AZ957-1C-12DSE 24 19.2 43.8 3,840 AZ957-1C-24DSE 60.0 80% 90% 100% 110% 120% Sensitive Coil 150 mW Must. Operate VDC 1.2 ORDER NUMBER AZ957-1C-1.5DSE AZ957-1C-3DSE 120 Coil Temperature Rise °C Nominal Coil VDC 1.5 70% Percent of Nominal Coil Voltage (at 20°C) 100 80 60 40 1A 20 0 0A 60% 70% 80% 90% 100% 110% 120% Percent of Nominal Coil Voltage (at 20°C) MECHANICAL DATA PC BOARD LAYOUT .504MAX [12.8] .307MAX [7.8] .406MAX [10.3] .200 [5.08] 6 x ø .039 [ø 1.0] .020 [0.5] .138 [3.5] .020 [0.5] .100 [2.54] .300 [7.62] .100 [2.54] Viewed toward terminals WIRING DIAGRAM .300 [7.62] .200 [5.08] Viewed toward terminals Dimensions in inches with metric equivalents in parentheses. Tolerance: ± .010" ZETTLER electronics GmbH Junkersstrasse 3, D-82178 Puchheim, Germany Tel. +49 89 800 97 0 Fax +49 89 800 97 200 [email protected] www.ZETTLERelectronics.com 2004-08-22