aqg_forPDF.fm 1 y [ W Q O O P N P O Q oe @ j oe @ O P P R R " AQ-G UL CSA VDE Pending Pending Pending AQ-G SOLID STATE RELAY AQ-G RELAYS FEATURES 4.5 max. .177 max. 1. Space saving, Slim size with a maximum thickness of 4.5 mm. Mounting space has been reduced to 30% (compared to conventional SSR's) while meeting high density PC board mounting requirements. 2. 1A and 2A load types available 3. Zero-cross type and Non zero-cross type available 24.5 max. .965 max. 13.5 max. .531 max. 4.5 max. .177 max. 24.5 max. .965 max. 4. High dielectric strength of 3,000V AC (between input and output) 5. Snubber circuit integrated The snubber circuit is integrated to prevent malfunction caused by the rapid rise of voltage on the output side, such as inductive load and current. 20.5 max. .807 max. mm inch TYPES Type TYPICAL APPLICATIONS Load current Load voltage 1A 75 to 264 V AC 2A 75 to 264 V AC 1A 75 to 264 V AC 2A 75 to 264 V AC Zero-cross Non zero-cross Input voltage Part No. 5 V DC 12 V DC 24 V DC 5 V DC 12 V DC 24 V DC 5 V DC 12 V DC 24 V DC 5 V DC 12 V DC 24 V DC AQG12105 AQG12112 AQG12124 AQG22105 AQG22112 AQG22124 AQG12205 AQG12212 AQG12224 AQG22205 AQG22212 AQG22224 * Manufacturing equipment * NC machines * Injection molders * Robots * Air conditioners * Computers ORDERING INFORMATION Ex. AQG 1 2 1 0 5 Load current Load voltage Type Input voltage 1: 1 A 2: 2 A 2: 75 to 264 V AC 1: Zero-cross (3,000 V) 2: Non zero-cross (3,000 V) 05: 5 V DC 12: 12 V DC 24: 24 V DC (Note) Standard packing: Carton 20 pcs., Case 500 pcs. 1 aqg_forPDF.fm 2 y [ W Q O O P N P O Q oe @ j oe @ O P P R R " AQ-G SPECIFICATIONS 1. Ratings (at 20C 68F, Input voltage ripple: 1% or less) 1) Zero-cross type Item Type Input voltage AQG12105 4 to 6 V DC Part No. AQG12112 AQG12124 AQG22105 9.6 to 14.4 V DC 19.2 to 28.8 V DC 4 to 6 V DC Remarks AQG22112 AQG22124 9.6 to 14.4 V DC 19.2 to 28.8 V DC Input impedance Approx. 0.3k Approx. 0.8k Approx. 1.6k Approx. 0.3k Approx. 0.8k Approx. 1.6k Input side Drop-out 1V voltage, min. Reverse voltage 3V Max. load current 1 A AC 2 A AC Load voltage 75 to 264V AC Frequency 45 to 65 Hz Non-repetitive 8A 30 A In one cycle at 60 Hz Load surge current side Max. "OFF-state" 1.5 mA (applied 200 V) leakage current Max. "ON-state" at Max. carrying 1.6 V voltage drop current Min. load curent 20 mA 2) Non zero-cross type Item Type Input voltage Input impedance Input side Drop-out voltage, min. Reverse voltage Max. load current Load voltage Frequency Non-repetitive Load surge current side Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load curent Part No. AQG12205 AQG12212 AQG12224 AQG22205 AQG22212 AQG22224 4 to 6 V DC 4 to 6 V DC 9.6 to 14.4 V DC 19.2 to 28.8 V DC 9.6 to 14.4 V DC 19.2 to 28.8 V DC Approx. 0.3k Approx. 0.8k Approx. 1.6k Approx. 0.3k Approx. 0.8k Approx. 1.6k Remarks 1V 3V 1 A AC 2 A AC 75 to 264V AC 45 to 65 Hz 8A 30 A In one cycle at 60 Hz 1.5 mA (applied 200 V) 1.6 V at Max. carrying current 20 mA 2. Characteristics (at 20C 68F, Input voltage ripple: 1% or less) Item Operate time max. Release time, max. Insulation resistance, min. Breakdown voltage Vibration resistance Shock resistance Zero-cross type Non zero-cross type (1/2 cycle of voltage sine wave) + 1 ms 1 ms (1/2 cycle of voltage sine wave) + 1 ms 109 between input and output 3,000 Vrms between input and output 10 to 55 Hz double amplitude of 0.75 mm 1,000 m/s2 Ambient temperature -30C to +80C -22F to +176F Storage temperature Operational method -30C to +100C -22F to +212F Zero-cross (Turn-ON and Turn-OFF) Random turn ON, zero-cross turn OFF 2 Remarks Using 500 V DC megger Initial for 1 min. X, Y, Z axes X, Y, Z axes Non-condensing at low temperatures aqg_forPDF.fm 3 y [ W Q O O P N P O Q oe @ j oe @ O P P R R " AQ-G DIMENSIONS mm inch 1. 1A type PC board pattern (Bottom view) 4.5 max. .177 max. 24.5 max. .965 max. 2.54 .100 10.16 .400 7.62 .300 1.2 .047 0.8 13.5 max. .031 .531 max. 4-1.0 dia. 4-.039 dia. 4-1.6 4-.063 2.54 .100 4-0.7 4-.028 Tolerance: 0.1 .004 1.2 .047 10.16 .400 0.25 .010 3.7 .146 7.62 .300 Schematic AC type Input - + Output General tolerance: 0.2 .008 2. 2A type PC board pattern (Bottom view) 4.5 max. .177 max. 24.5 max. .965 max. 2.54 .100 10.16 .400 20.5 max. 0.8 .807 max. .031 7.62 .300 1.2 .047 4-1.0 dia. 4-.039 dia. Tolerance: 0.1 .004 4-1.6 4-.063 2.54 .100 1.2 .047 4-0.7 4-.028 10.16 .400 0.25 .010 3.7 .146 7.62 .300 Schematic AC type Input - + Output General tolerance: 0.2 .008 REFERENCE DATA 1. Load current vs. ambient temperature 2.-(1) Non-repetitive surge current vs. carrying time (1A type) 10 2A type 1.5 1A type 1.0 0.5 40 Non-repetitive surge current, A 2.0 Non-repetitive surge current, A 2.5 Load current, A 2.-(2) Non-repetitive surge current vs. carrying time (2A type) 8 6 4 2 35 30 25 20 15 10 5 0 -30 0 0 20 40 60 80 Ambient temperature, C 3. Input voltage vs. input current characteristics 10 No. of cycles at 60 Hz 0 100 4.-(1) Load current vs. ambient temperature characteristics for adjacent mounting (1A type) 30 (24 V type) 15 0.8 0.6 10 0.4 5 0.2 0 5 10 15 20 25 30 Input voltage, V 35 =5 mm .197 inch 0 -30 Load current, A (12 V type) Load current, A (5 V type) 10 No. of cycles at 60 Hz 100 2.5 =15 mm .591 inch =10 mm .394 inch 1.0 20 1 4.-(2) Load current vs. ambient temperature characteristics for adjacent mounting (2A type) 1.2 25 Input current, mA 1 2.0 =15 mm .591 inch 1.5 =10mm .394 inch =5mm .197 inch 1.0 0.5 = Adjacent mounting pitch 0 20 40 60 80 Ambient temperature, C 0 -30 = Adjacent mounting pitch 0 20 40 60 80 Ambient temperature, C 3 aqg_forPDF.fm 4 y [ W Q O O P N P O Q oe @ j oe @ O P P R R " AQ-G CAUTIONS FOR USE 1. Regarding output noise surge protection A high noise surge voltage applied to the SSR load circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use a varistor across the SSR output. Load 1 Load power supply SSR 2 Varistor 4. When the input terminals are connected with reverse polarity Reversing the polarity may cause permanent damage to the device. Take special care to avoid polarity reversal or use a protection diode in the input circuit. 5. In the case of operating voltage containing ripple If the SSR control voltage contains ripple, the peak of the ripple should not exceed the maximum rated control voltage. The bottom of the ripple should exceed the minimum rated control voltage. 2. When used for the load less than rated An SSR may malfunction if it is used below the specified load. In such an event, use a dummy resistor in parallel with the load. R0 (dummy resistor) Load 1 Load power supply SSR 2 Load specification: Load current 20 mA 3. Noise and surge protection at the input side A high noise surge voltage applied to the SSR input circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use C or R noise absorber in the input circuit. R 3 Control voltage source Peak ripple voltage Valley ripple voltage 0V 6. Cleaning solvents compatibility Dip cleaning with an organic solvent is recommended for removal of solder flux, dust, etc. Select a cleaning solvent from the following table. If ultrasonic cleaning must be used, the severity of factors such as frequency, output power and cleaning solvent selected may cause loose wires and other defects. Make sure these conditions are correct before use. For details, please consult us. Cleaning solvent Chlorinebase Adueous C SSR 4 Alcoholbase Others 10/1/2001 4 * Trichlene * Chloroethlene * Indusco * Hollis * Lonco Terg * IPA * Ethanol * Thinner * Gasoline 7. Others (1) If an SSR is used in close proximity to another SSR or heat-generating device, its ambient temperature may exceed the allowable level. Carefully plan SSR layout and ventilation. (2) Soldering to SSR terminals should be completed within 5 seconds at 260C. (3) Terminal connections should be made by referring to the associated wiring diagram. (4) For higher reliability, check device quality under actual operating conditions. 8. Thermal Design SSRs used in high-reliability equipment require careful thermal design. In particular, junction temperature control has a significant effect on device function and life time. The rated load current for boardmounting SSRs is defined as the maximum current possible at an ambient temperature of 40C (30C) while allowing natural cooling (self cooling). If the ambient temperature exceeds 40C (30C), load current derating is necessary according to the load current versus ambient temperature curve. If adjacent devices act as heat sources, the SSR should be located more than 10 mm away from those devices. Compatibility : Yes x: No x All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. Go To Online Catalog