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| DQ 30A POWER LATCHING RELAY DQ-RELAYS 3. High insulation Designed with an insulation distance of at least 8 mm. 4. Cadmium and lead free 5. Complies with safety standards UL, CSA and VDE approved. FEATURES 38.0 1.496 29.0 1.142 17.3 .681 1. Compact with high capacity Although compact this relay can handle high capacity control of 30A. 2. Latching type With latching this relay contributes to energy conservation in devices. SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 V DC 1 A) Contact material Rating (resistive load) Nominal switching capacity Max. switching power Max. switching voltage Max. switching current Mechanical (at 180 cpm) Electrical (Resistive load) 1 Form A 30 m Silver alloy 30 A 250V AC 7,500 V A 250V AC 30 A 106 10 * 41 Characteristics Max. operating speed (at rated load) Initial insulation resistance*2 Between open Initial breakdown contacts voltage*3 Between contacts and coil Surge voltage between contact and coil*4 Operate time [Set time]*5 (at 20C) (at nominal voltage) Release time [Reset time]*5 (at 20C) (at nominal voltage) Temperature rise (at 65C)*6 Functional*7 Shock resistance Destructive*8 Vibration resistance Functional*9 Destructive 180 cpm Min. 1,000 M (at 500 V DC) 1,500 Vrms for 1 min. 4,000 Vrms for 1 min. Min. 10,000 V (initial) Max. 20ms Expected life (min. operations) Coil 1 coil latching 2 coil latching Remarks * Specifications will vary with foreign standards certification ratings. *1 At nominal switching capacity, operating frequency: 3s ON, 3s OFF *2 Measurement at same location as "Initial breakdown voltage" section. *3 Detection current: 10mA *4 Wave is standard shock voltage of 1.2 x 50s according to JEC-212-1981 *5 Excluding contact bounce time. *6 By resistive method, max. switching current *7 Half-wave pulse of sine wave: 11 ms; detection time: 10 s *8 Half-wave pulse of sine wave: 6 ms *9 Detection time: 10 s *10Refer to 5. Usage, transport and storage conditions mentioned in NOTES *11Under the packing condition, allowable temperature range is from -40 to +65C -40 to +149F. Max. 20ms Max. 50C Min. 200 m/s2{20 G} Min. 1,000 m/s2{100 G} 10 to 55Hz at double amplitude of 1.5mm 10 to 55Hz at double amplitude of 2.0mm -40C to +65C -40F to +149F Nominal operating power 800 mW 1,600 mW Conditions for Ambient operation, temperature*11 transport and storage*10 (Not freezing and Humidity condensing at low temperature) Unit weight 5 to 75% R.H. Approx. 35 g 1.23 oz TYPICAL APPLICATIONS * Time switches * Electric water heaters * Remote control of electric power meters 1 DQ ORDERING INFORMATION ADQ 3 Q 0 Operating function 1: 1 coil latching 2: 2 coil latching Contact capacity 3: 30 A Terminal shape Q: 250 Faston terminal Contact characteristics 0: Standard contact Coil voltage (DC) 4H: 4.5 V 06: 6 V 09: 9 V 12: 12 V 24: 24 V TYPES AND COIL DATA (at 20C 68F) * 1 coil latching type Contact arrangement Part No. ADQ13Q04H ADQ13Q006 ADQ13Q009 ADQ13Q012 ADQ13Q024 Nominal voltage, V DC 4.5 6 9 12 24 Set voltage, max. V DC (initial) 3.15 4.2 6.3 8.4 16.8 Reset voltage, max. V DC (initial) 3.15 4.2 6.3 8.4 16.8 Coil resistance, (10%) 25.3 45 101 180 720 Nominal operating current, mA (10%) 177.8 133.3 88.9 66.7 33.3 Nominal operating power, mW 800 800 800 800 800 Max. allowable voltage, V DC 5.85 7.8 11.7 15.6 31.2 1 Form A * 2 coil latching type Contact arrangement Nominal voltage, V DC 4.5 6 9 12 24 Set voltage, max. V DC (initial) 3.15 4.2 6.3 8.4 16.8 Reset voltage, max. V DC (initial) 3.15 4.2 6.3 8.4 16.8 Coil resistance, (10%) Set coil 12.7 22.5 50.6 90 360 Reset coil 12.7 22.5 50.6 90 360 Nominal operating current, mA (10%) Set coil 355.6 266.7 177.8 133.3 66.7 Reset coil 355.6 266.7 177.8 133.3 66.7 Nominal operating power, mW Set coil 1,600 1,600 1,600 1,600 1,600 Reset coil 1,600 1,600 1,600 1,600 1,600 Max. allowable voltage, V DC 5.85 7.8 11.7 15.6 31.2 mm inch Part No. 1 Form A ADQ23Q04H ADQ23Q006 ADQ23Q009 ADQ23Q012 ADQ23Q024 DIMENSIONS Schematic (Bottom view) 38.0 1.496 2 29.0 1.142 40.1 1.579 Reset coil 250 faston terminal 6.35 .250 4.5 .177 7.9 .311 6.9 272 1.5 .059 5.08 .200 5.08 .200 35.8 1.409 . dia . 1.7 7 dia .06 ia. 3.3 d ia. d .130 -- 5 4 3 Set coil 6 7 1 + Note) Terminal No.3 is only for 2 coil latching type. 0.3 17.3 .012 .681 21.4 .843 PC board pattern (Bottom view) 5.08 .200 15.24 .600 10.16 .400 5.08 .200 0.8 .031 3.6 .142 0.8 .031 0.8 .031 5.08 .200 20.32 .800 0.8 .031 0.4 .016 1.5 .059 0.4 .016 3.7 .146 1.8 .071 5.08 .200 25.4 1.000 10.16 .400 25.4 1.000 a. di . 0 dia 2. 4- .079 4- General tolerance: 0.3 .012 . dia . 5 dia 1. 3- 059 . 3- Tolerance: 0.1 .004 2 DQ NOTES 1. Coil operating power Pure DC current should be applied to the coil. The wave form should be rectangular. If it includes ripple, the ripple factor should be less than 5%. However, check it with the actual circuit since the characteristics may be slightly different. 2. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. Soldering We recommend the following soldering conditions Soldering: 300C 572 F, max. 5 s 4. Others 1) If the relay has been dropped, the appearance and characteristics should always be checked before use. 2) The cycle lifetime is defined under the standard test condition specified in the JIS* C 5442-1996 standard (temperature 15 to 35C 59 to 95F, humidity 25 to 75%). Check this with the real device as it is affected by coil driving circuit, load type, activation frequency, activation phase,ambient conditions and other factors. Also, be especially careful of loads such as those listed below. (1) When used for AC load-operating and the operating phase is synchronous. Rocking and fusing can easily occur due to contact shifting. (2) High-frequency load-operating When high-frequency opening and closing of the relay is performed with a load that causes arcs at the contacts, nitrogen and oxygen in the air is fused by the arc energy and HNO3 is formed. This can corrode metal materials. Three countermeasures for these are listed here. 6) Check the ambient conditions when storing or transporting the relays and devices containing the relays. Freezing or condensation may occur in the relay, causing functional damage. Avoid subjecting the relays to heavy loads, or strong vibration and shocks. 5. Usage, transport and storage conditions 1) Ambient temperature, humidity, and atmospheric pressure during usage, transport, and storage of the relay: (1) Temperature: -40 to +65C - 40 to +149 F (2) Humidity: 5 to 75% RH (Avoid freezing and condensation.) The humidity range varies with the temperature. Use within the range indicated in the graph below. Humidity, %RH ,,,, ,, ,,,,,,,, ,,,,,,,,,, ,,,,,,,, ,, ,,,,,, ,, ,, ,,,, ,, ,, ,, ,, ,, ,, ,, ,, ,,,,, 75 Tolerance range (Avoid freezing when used at temperatures lower than 0C 32F) 5 -40 -40 (Avoid condensation when used at temperatures higher than 0C 32F) 0 65 +32 +119 Temperature, C F (3) Atmospheric pressure: 86 to 106 kPa Temperature and humidity range for usage, transport, and storage: 1. Incorporate an arc-extinguishing circuit. 2. Lower the operating frequency 3. Lower the ambient humidity 3) For secure operations, the voltage applied to the coil should be nominal voltage. In addition, please note that pick-up and drop-out voltage will vary according to the ambient temperature and operation conditions. 4) Heat, smoke, and even a fire may occur if the relay is used in conditions outside of the allowable ranges for the coil ratings, contact ratings, operating cycle lifetime, and other specifications. Therefore, do not use the relay if these ratings are exceeded. Also, make sure that the relay is wired correctly. 5) Incorrect wiring may cause unexpected events or the generation of heat or flames. 2) Condensation Condensation forms when there is a sudden change in temperature under high temperature and high humidity conditions. Condensation will cause deterioration of the relay insulation. 3) Freezing Condensation or other moisture may freeze on the relay when the temperatures is lower than 0C 32 F. This causes problems such as sticking of movable parts or operational time lags. 4) Low temperature, low humidity environments The plastic becomes brittle if the relay is exposed to a low temperature, low humidity environment for long periods of time. 12/1/2001 All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. 3 Go To Online Catalog |
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