AQ1 SOLID STATE RELAY 10 .394 33 1.299 UL File No.: E43149 (DC output type) E95895 (AC output type) CSA File No.: LR26550 25.1 .988 33 1.299 AQ1-RELAYS * Strong against high inrush current and long life Optical isolation: 5 x 107 operations * No chattering or bouncing and no arc generation * Both slim and flat package available * SIL (single in line) terminal layout * Zero-voltage turn-ON and Zero-current turn-OFF for eliminating surge and reducing inrush currents and EMI 25 .984 12 .472 mm inch TYPES 1. AQ1 Solid State Relays Zero-cross function Load Isolation AC Optically coupled isolation Zero-cross Optically coupled isolation DC -- Type Input voltage Load current Load voltage 2 A (Vertical) 2 A (flat) 3 to 28 V DC 3 to 28 V DC 2 A, 75 to 250 V AC 2 A, 75 to 250 V AC AQ2A2-ZP3/28VDC AQ2A2-J-ZP3/28VDC 5A 3 to 28 V DC 5 A, 75 to 250 V AC (3 A without heat sink) AQ5A2-ZP3/28VDC 1A 2A 3 to 28 V DC 3 to 28 V DC 1 A, 10 to 200 V DC 2 A, 3 to 60 V DC AQ1AD2-3/28VDC AQ2AD1-3/28VDC Part No. 2. Heat sink for AQ1 solid state relay (for 5 A types): AQ-HS-5A ORDERING INFORMATION AQ 2A 2 J ZP 3/28 VDC Load current Load voltage Shape Type Input voltage 1A 2A 5A 2: 75 to 250 V AC D1: 03 to 60 V DC D2: 10 to 200 V DC Nil: Vertical type J: Flat type Nil:DC output ZP: AC output (Zero-cross) 3/28 V DC: 3 to 28 V DC APPLICATIONS * Traffic signal control * Terminal equipment of data processing * Computer peripherals * NC machines * Automatic ticket punchers SPECIFICATIONS Rating (at 20C 68F, Ripple factor: less than 1%) 1. AC output type Zero-cross 2A Input voltage Input side Input impedance 5A Approx. 1.6 k (3 to 28 V DC) UL 5 A 125, 250 V AC FLA 2.5 A 125, 250 V AC LRA 15 A 125, 250 V AC 5 A 125 V AC "L" CSA 1 A 200 V DC 2 A 60 V DC 2 A 125, 250 V AC FLA 1 A 125, 250 V AC LRA 6 A 125, 250 V AC 2 A 125 V AC "L" 5 A 125, 250 V AC FLA 2.5 A 125, 250 V AC LRA 15 A 125, 250 V AC 5 A 125 V AC "L" 0.8 V Max. load current 2A Load voltage 75 to 250 V AC at ambient temperature 40C 104F 5 A* 100 A 80 A See "Data 2-(1), (2)" In one cycle at 60 Hz 5 mA at 200 V AC 60 Hz Max. "ON-state" voltage drop 1.6 V at Max. carrying current Min. load current 50 mA Output Zero-cross 2 A type 5 A type 1 A 10/200 V DC 2 A 3/60 V DC 2 A 125, 250 V AC FLA 1 A 125, 250 V AC LRA 6 A 125, 250 V AC 2 A 125 V AC "L" 3 to 28 V DC Drop-out voltage, min. Non-repetitive Load surge current side Max. "OFF-state" leakage current Output 1 A type 2 A type Remarks *5 A with heat sink 3 A without heat sink see "Data 1-(2)" 2. DC output type 1 A type 2 A type Remarks 1A 2A 10 to 200 V DC 3 to 60 V DC at ambient temperature 40C 104F Input voltage Input side 3 to 28 V DC Input impedance Approx. 1.6 k Drop-out voltage, min. 0.8 V Max. load current Load voltage Load side Non-repetitive surge current 5 A (1 s) Max. "OFF-state" leakage current 1 mA Max. "ON-state" voltage drop 2.3 V at 200 V AC 60 Hz 1.6 V Min. load current at Max. carrying current 5 mA Characteristics (at 20C 68F, Ripple factor: less than 1%) AC output DC output Zero-cross 5A 2A Operate time, Max. (1/2 cycle of voltage sine wave) + 1 ms 0.5 ms Release time, Max. (1/2 cycle of voltage sine wave) + 1 ms 2 ms 100 M for input, output and case 100 M for inputoutput Insulation resistance, Min. Breakdown voltage Vibration resistance Shock resistance Remarks 3,000 Vrms between input and output 3,000 Vrms between input and output 1,500 Vrms among input, output and case at 500 V DC 3,000 Vrms for input-output Destructive 117.6 m/s2 {12G}, 10 to 55 Hz at double amplitude of 2 mm 1 hour for X, Y, Z axis Functional 117.6 m/s2 {12G}, 10 to 55 Hz at double amplitude of 2 mm 10 minutes for X, Y, Z axis Destructive Min. 980 m/s2 {100 G} Min. 980 m/s2 {100 G} 5 times each for X, Y, Z axis Functional Min. 980 m/s2 {100 G} Min. 980 m/s2 {100 G} 4 times each for X, Y, Z axis Ambient temperature Storage temperature Operational method -30C to +80C -22F to +176F -30C to +100C -22F to +212F Zero-cross (Turn-ON and Turn-OFF) -- DIMENSIONS mm inch Mounting hole location (Copper-side view) 33 1.299 AC output, 2A type (vertical) 25.4 1.000 25 INPUT .984 +3 4 - 1 .039 LOAD 1 1 2 6 .236 3 0.8 .031 5.7 .224 2.54 x 5 .100 x 5 Schematic SSR LOAD 1 2 INPUT 3 4 + - Load Input Load power source power source 10 .394 General tolerance: 0.5 .020 AC output, 2A type (Flat) Tolerance: 0.1 .004 Mounting hole location (Copper-side view) 33 1.299 0.8 .031 1 Tolerance: 0.1 .004 General tolerance: 0.5 .020 AC output, 5A type Load Load power source 12.7 25 .500 .984 LOAD 4- 12.7 .500 4 2 INPUT 2 3 SSR LOAD LOAD INPUT 1 2 + 34 - 1 Copper foil 1 .039 15 min. .591 7.62 .300 0.8 .031 12.7 5.08 7.62 .500 .200 .300 C2 1 4 4-1.2DIA. 4-.047DIA. 2 .079 6.9 .272 12 max. .472 2 3 2.54 x 3 .100 x 3 2.54 x 5 .100 x 5 20 .787 0.6 .024 SSR LOAD 1 2 47.6 1.874 40 1.575 9 .354 302 1.181.079 2-M3 Screw depth: min. 10mm 8 8 8 8 8 8 8 .315.315.315.315.315.315.315 When using heat sink, please refer to "Thermal Design" (Page 487) INPUT 3 4 + - Load Input Load power source power source 13.8 .543 272 1.063.079 Knurl surface 2-3.5DIA.* 2-.138DIA. Schematic 582 2.283.079 2.5 .098 9.1 .358 2.54 x 2 .100 x 2 20 .787 General tolerance: 0.5 .020 5.2 .205 4 * There 2 holes are not necessary when not using heat sink (AQ-HS-5A) 2 2 .079 8.89 10.16 .079 .350 .400 2-M3 Screw INPUT 25.4 1.000 4 .157 Heat sink (for AC output, 5A type) AQ-HS-5A 1 Input power source + - Schematic Mounting hole location (Copper-side view) 54 2.126 41 1.614 33 1.299 25 .984 10.16 .400 6.55 .258 7.82 .308 25.4 1.000 3+ 2 3 1 .039 4-0.8DIA. 4-.031DIA. 4-1.2DIA. 4-.047DIA. 25.4 1.000 Copper foil 11 .433 10.16 .400 2.54 x 2 .100 x 2 5.0 .197 4-0.8DIA. 4-.031DIA. 6 .236 4 4-1.2DIA. 4-.047DIA. 2.54 x 3 .100 x 3 7.62 12.7 5.08 .300 .500 .200 25.4 1.000 C2 Copper foil 2 General tolerance: 0.5 .020 Tolerance: 0.1 .004 DC output, 1A, 2A types mm inch Mounting hole location (Copper-side view) 33 1.299 25.4 1.000 1 1 3 4 4-1.2DIA. 4-.047DIA. 25 .984 +3 4 - 1 .039 LOAD Copper foil 2 INPUT 2 6 .236 7.62 12.7 5.08 .300 .500 .200 25.4 1.000 C2 2.54 x 3 .100 x 3 2.54 x 5 .100 x 5 2.54 x 2 .100 x 2 Schematic 0.8 .031 5.7 .224 SSR LOAD 1 2 INPUT 3 4 5.3 .209 + - + - Load Input Load power source power source 10 .394 4-0.8DIA. 4-.031DIA. General tolerance: 0.5 .020 Tolerance: 0.1 .004 REFERENCE DATA 1. Load current vs. ambient temperature (1) AC output zero-cross type (2 A type) (2) AC output zero-cross type (5 A type) 2.5 (e) 5 Load current, A Load current, A 2.0 1.5 1.0 4 (d) 3 2 0.5 0 -30 1 0 0 -30 20 40 60 80 Ambient temperature, C 0 20 40 60 80 Ambient temperature, C d. External heat sink is not used. e. In the case of mounting on heat sink (AQ-HS-5A) or 66 x 66 x 2.0 thick aluminum plate. The AQ-HS-5A heat sink is mounted on the printed circuit board. The load current is improved compared with the unmounted condition as indicated in the diagram above. When the 5 A type heat sink (AQ-HS-5A) or a heat sink is not use, in order to provide good cooling conditions, the back surface plate should be exposed. Allowable ambient temperature: -30C to +80C -22F to +176F 2. Non-repetitive surge current vs. carrying time (1) AC output zero-crossing type (2 A type) 2.5 Load current, A 2.0 a. DC type (2 A type) Allowable temperature range: -30C to +80C -22F to +176F b. DC type (1 A type) Allowable temperature range: -30C to +80C -22F to +176F (a) 1.5 (b) 1.0 Non-repetitive surge current, A (3) DC type (1 A, 2 A type) 100 50 0.5 0 -30 0 20 40 60 80 Ambient temperature, C 10 50 No. of cycles at 60 Hz (2) AC output zero-cross type (5 A type) 100 3. Input voltage vs. input current characteristics (3) DC output type 100 50 28 20 Input current, mA Non-repetitive surge current, A Non-repetitive surge current, A 32 22 18 16 14 12 10 8 4 100 16 12 4 2 10 50 No. of cycles at 60 Hz 20 8 6 0 24 50 100 500 1,000 No. of cycles at 60 Hz 0 0 Input 3 to 28 V type (AC Output, 2 A, 5 A type and DC type) 8 12 16 20 24 28 32 4 Input voltage, V NOTES 1. When using bent output terminals To avoid applying mechanical stress on the main unit and molded section of the solid state relay, radio pliers should be used to grasp the terminals between the point of bending and the molded case when making the bends. Solid state relay Terminal bend section Printed circuit board 2. When a heat sink is mounted on the 5 A type The heat sink (AQ-HS-5A) or a heat sink which can make good contact should be used. If a heat sink is used in which the contact condition is bad, a heat conducting compound should be used to improve the heat radiation. (A silicon compound is a typical example.) The compound should be coated on the heat sink and the AQ1. AQ-HS-5A heat radiator 5 A SSR Printed circuit board 4-M3 screws (provided with AQ-HS-5A) About 4 kg-cm of torque should be used for tightening the M3 screws. Solder For Cautions for Use 6/1/1999 All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. AQ8-RELAYS SOLID STATE RELAY UL File No.: E95895 CSA File No.: LR26550 9 .354 45 1.772 24 .945 mm inch FEATURES 1. So slim with 9 mm .354 inch thickness The thin type (45 mm long x 24 mm high x 9 mm wide) (1.772 x .945 x .354 inch) permits high density mounting. 2. Excellent in noise resistance Since the input and output are insulated by the photo TRIAC coupler, the noise on the output side is not fed back to the input side. 3. Snubber circuit integrated The snubber circuit is integrated to prevent malfunction caused by the rapid rise of the voltage on the output side, such as inductive load and noise. 4. Zero-cross and nonzero-cross types are available. The zero-cross type generates minimal noise by suppressing occurrence of radio frequency interference (RFI) and electromagnetic interference (EMI). The nonzero-cross type features a short operation time which permits phase control. 5. High dielectric strength: 3,000 V AC (between input and output) 6. Two kinds of terminals distance are available. (5.08 mm and 7.62 mm) (.200 and .300 inch) 7. High reliability, long life and maintenance-free APPLICATIONS Most suitable as drivers for small size AC motors, solenoids, solenoid valves and so on. 1. Copying equipment 2. Air conditioners 3. Industrial equipment such as NC machines, sequencers, robots and so on TYPES 1. Zero-cross type Input terminals distance Max. load current 2. Nonzero-cross type Load voltage 75 to 125 V AC 2A 75 to 250 V AC 5.08 mm .200 inch type 75 to 125 V AC 3A 75 to 250 V AC 75 to 125 V AC 2A 75 to 250 V AC 7.62 mm .300 inch type 75 to 125 V AC 3A 75 to 250 V AC 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 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 AQ2A1-C1-ZT5VDC AQ2A1-C1-ZT12VDC AQ2A1-C1-ZT24VDC AQ2A2-C1-ZT5VDC AQ2A2-C1-ZT12VDC AQ2A2-C1-ZT24VDC AQ3A1-C1-ZT5VDC AQ3A1-C1-ZT12VDC AQ3A1-C1-ZT24VDC AQ3A2-C1-ZT5VDC AQ3A2-C1-ZT12VDC AQ3A2-C1-ZT24VDC AQ2A1-C2-ZT5VDC AQ2A1-C2-ZT12VDC AQ2A1-C2-ZT24VDC AQ2A2-C2-ZT5VDC AQ2A2-C2-ZT12VDC AQ2A2-C2-ZT24VDC AQ3A1-C2-ZT5VDC AQ3A1-C2-ZT12VDC AQ3A1-C2-ZT24VDC AQ3A2-C2-ZT5VDC AQ3A2-C2-ZT12VDC AQ3A2-C2-ZT24VDC Remark: Standard packing Carton: 20 pcs.; Case: 200 pcs. Input terminals distance Max. load current Load voltage 75 to 125 V AC 2A 75 to 250 V AC 5.08 mm .200 inch type 75 to 125 V AC 3A 75 to 250 V AC 75 to 125 V AC 2A 75 to 250 V AC 7.62 mm .300 inch type 75 to 125 V AC 3A 75 to 250 V AC 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 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 AQ2A1-C1-T5VDC AQ2A1-C1-T12VDC AQ2A1-C1-T24VDC AQ2A2-C1-T5VDC AQ2A2-C1-T12VDC AQ2A2-C1-T24VDC AQ3A1-C1-T5VDC AQ3A1-C1-T12VDC AQ3A1-C1-T24VDC AQ3A2-C1-T5VDC AQ3A2-C1-T12VDC AQ3A2-C1-T24VDC AQ2A1-C2-T5VDC AQ2A1-C2-T12VDC AQ2A1-C2-T24VDC AQ2A2-C2-T5VDC AQ2A2-C2-T12VDC AQ2A2-C2-T24VDC AQ3A1-C2-T5VDC AQ3A1-C2-T12VDC AQ3A1-C2-T24VDC AQ3A2-C2-T5VDC AQ3A2-C2-T12VDC AQ3A2-C2-T24VDC RATINGS 1. Ratings (Ambient temperature: 20C, 68F; Voltage ripple on the input side: 1% or less) 1) Zero-cross type * 2 A type Part No. AQ2A1-C1-ZT5VDC AQ2A1-C1-ZT12VDC AQ2A1-C1-ZT24VDC AQ2A2-C1-ZT5VDC AQ2A1-C2-ZT5VDC AQ2A1-C2-ZT12VDC Input side Item Control voltage 5 V DC (4 to 6V) AQ2A1-C2-ZT24VDC AQ2A2-C2-ZT5VDC 12 V DC 24 V DC (9.6 to 14.4V) (21.6 to 26.4 V) Remarks The parenthesized 12 V DC 24 V DC values represent the (9.6 to 14.4V) (21.6 to 26.4 V) allowable voltage ranges Input impedance Approx. 0.18 k Approx. 0.55 k Approx. 1.4 k Approx. 0.18 k Approx. 0.55 k Approx. 1.4 k Drop-out voltage min. 0.5 V min. 1.2 V min. 2.4 V min. 0.5 V min. 1.2 V min. 2.4 V Max. load current Load side 5 V DC (4 to 6V) AQ2A2-C1-ZT12VDC AQ2A2-C1-ZT24VDC AQ2A2-C2-ZT12VDC AQ2A2-C2-ZT24VDC At ambient temperature of 30C or less 2 A*1 Load voltage Frequency Repetitive peak OFF voltage Non-repetitive surge current Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current 75 to 125 V AC 75 to 250 V AC 45 to 65 Hz 400 V 600 V 30 A*2 In one cycle at 60 Hz 5 mA/200 V applied 2.5 mA/100 V applied 1.6 V at max. carrying current 25 mA* 50 mA* 3 3 OFF state dV/dt At ambient temperature of 80C 50 V/s * 3 A type Part No. AQ3A1-C1-ZT5VDC AQ3A1-C1-ZT12VDC AQ3A1-C1-ZT24VDC AQ3A2-C1-ZT5VDC Input side Item Control voltage AQ3A1-C2-ZT5VDC AQ3A1-C2-ZT12VDC 5 V DC (4 to 6V) AQ3A1-C2-ZT24VDC AQ3A2-C2-ZT5VDC 12 V DC 24 V DC (9.6 to 14.4V) (21.6 to 26.4 V) Remarks The parenthesized 12 V DC 24 V DC values represent the (9.6 to 14.4V) (21.6 to 26.4 V) allowable voltage ranges Input impedance Approx. 0.18 k Approx. 0.55 k Approx. 1.4 k Approx. 0.18 k Approx. 0.55 k Approx. 1.4 k Drop-out voltage min. 0.5 V min. 1.2 V min. 2.4 V min. 0.5 V min. 1.2 V min. 2.4 V Max. load current Load side 5 V DC (4 to 6V) AQ3A2-C1-ZT12VDC AQ3A2-C1-ZT24VDC AQ3A2-C2-ZT12VDC AQ3A2-C2-ZT24VDC Load voltage Frequency Repetitive peak OFF voltage Non-repetitive surge current Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current OFF state dV/dt At ambient temperature of 30C or less 3 A*1 75 to 125 V AC 75 to 250 V AC 45 to 65 Hz 400 V 600 V 80 A*2 2.5 mA/100 V applied In one cycle at 60 Hz 5 mA/200 V applied 1.6 V 25 mA*3 at max. carrying current 50 mA*3 50 V/s Notes: *1) Refer Data 1, characteristics of load current vs. ambient temperature. *2) Refer to Data 2, characteristics of non-repetitive surge current vs. carrying time. *3) When the load current is less than the min. load current, refer to "Cautions for Use (Page 486)". At ambient temperature of 80C 2) Non zero-cross type * 2 A type Part No. AQ2A1-C1-T5VDC AQ2A1-C2-T5VDC Input side Item Control voltage Input impedance Drop-out voltage 5 V DC (4 to 6V) AQ2A1-C1-T12VDC AQ2A1-C2-T12VDC AQ2A1-C1-T24VDC AQ2A1-C2-T24VDC 12 V DC 24 V DC (9.6 to 14.4V) (21.6 to 26.4 V) Approx. 0.3 k Approx. 0.8 k min. 0.5 V min. 1.2 V AQ2A2-C1-T12VDC AQ2A2-C2-T12VDC min. 2.4 V AQ2A2-C1-T24VDC AQ2A2-C2-T24VDC Approx. 0.8 k Approx. 1.8 k min. 1.2 V min. 2.4 V min. 0.5 V At ambient temperature of 30C or less 2 A* 1 Load voltage Frequency Repetitive peak OFF voltage Non-repetitive surge current Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current Remarks The parenthesized 12 V DC 24 V DC values represent the (9.6 to 14.4V) (21.6 to 26.4 V) allowable voltage ranges 5 V DC (4 to 6V) Approx. 1.8 k Approx. 0.3 k Max. load current Load side AQ2A2-C1-T5VDC AQ2A2-C2-T5VDC 75 to 125 V AC 75 to 250 V AC 45 to 65 Hz 400 V 600 V 30 A*2 In one cycle at 60 Hz 5 mA/200 V applied 2.5 mA/100 V applied 1.6 V at max. load current 25 mA*3 50 mA*3 OFF state dv/dt At ambient temperature of 80C 50 V/s * 3 A type Part No. AQ3A1-C1-T5VDC AQ3A1-C2-T5VDC Input side Item Control voltage Input impedance Drop-out voltage 5 V DC (4 to 6V) AQ3A1-C1-T12VDC AQ3A1-C2-T12VDC AQ3A1-C1-T24VDC AQ3A1-C2-T24VDC 12 V DC 24 V DC (9.6 to 14.4V) (21.6 to 26.4 V) Approx. 0.3 k Approx. 0.8 k min. 0.5 V min. 1.2 V AQ3A2-C1-T12VDC AQ3A2-C2-T12VDC min. 2.4 V AQ3A2-C1-T24VDC AQ3A2-C2-T24VDC Approx. 0.8 k Approx. 1.8 k min. 1.2 V min. 2.4 V min. 0.5 V At ambient temperature of 30C or less 3 A*1 Load voltage Frequency Repetitive peak OFF voltage Non-repetitive surge current Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current Remarks The parenthesized 12 V DC 24 V DC values represent the (9.6 to 14.4V) (21.6 to 26.4 V) allowable voltage ranges 5 V DC (4 to 6V) Approx. 1.8 k Approx. 0.3 k Max. load current Load side AQ3A2-C1-T5VDC AQ3A2-C2-T5VDC 75 to 125 V AC 75 to 250 V AC 45 to 65 Hz 400 V 600 V 80 A*2 In one cycle at 60 Hz 5 mA/200 V applied 2.5 mA/100 V applied 1.6 V at max. carrying current 25 mA* 50 mA* 3 3 OFF state dv/dt At ambient temperature of 80C 50 V/s Notes: *1) Refer to Data 1, characteristics of load current vs. ambient temperature. *2) Refer to Data 2, characteristics of non-repetitive surge current vs. carrying time. *3) When the load current is less than the min. load current, refer to "Points to note for operation". 2. Characteristics (Amdient temperature: 20C 68F; Input voltage ripple: 1% or less) Type Item Operate time, max. Release time, max. 1/2 cycle of voltage sine wave + 1 ms 1 ms Remarks 1/2 cycle of voltage sine wave + 1 ms at 500 V DC 3,000 V AC between input and output For 1 minute Functional 10 to 55 Hz at double amplitude of 3 mm 10 min. for X, Y, Z axis Destructive 10 to 55 Hz at double amplitude of 3 mm 1 hour for X, Y, Z axis Breakdown voltage Shock resistance Non-zero-cross type 109 between input and output Insulation resistance, min. Vibration resistance Zero-cross type 2 Functional Min. 980 m/s {100 G} 4 times each for X, Y, Z axis Destructive Min. 980 m/s2 {100 G} 5 times each for X, Y, Z axis Ambient temperature -30C to +80C -22F to +176F Storage temperature -30C to +100C -22F to +212F Operational method Zero-cross (Turn ON and Turn OFF) Random turn ON, zero-cross turn OFF DIMENSIONS mm inch Mounting hole location (Bottom view) (Common for zero-cross and nonzero-cross types) 9 max. .354 45 max. 1.772 Terminal 4 1. Input terminals distance 5.08 mm .200 inch 1) 2 A type - 4INPUT3 + 3 2.54 x 2 .100 x 2 24 max. .945 Copper foil 27.94 1.100 2 1 2.54 x 4 .100 x 4 2.54 x 5 .100 x5 4-1.2 dia. 4-.047 Tolerance: 0.1 .004 Schematic 2 LOAD 1 8 min. .315 5.08 .200 4 3 2) 3 A type LOAD 2 1 INPUT 4 3 5.08 .200 10.16 .400 12.7 .500 4-0.8 dia. 4-.031 2.5 .098 2 1 General tolerance: 0.5 .020 9 max. .354 43 max. 1.693 - + Load Input Load power source power source Mounting hole location (Bottom view) Terminal 4 - 4INPUT3 + 4 2. Input terminals distance 7.62 mm .300 inch 1) 2A type 2.54 x 4 .100 x 4 4-1.2 dia. 4-.047 2 LOAD 1 5.08 .200 10.16 .400 12.7 .500 3 2.54 x 5 .100 x5 1 Tolerance: 0.1 .004 Schematic 8 min. .315 5.08 .200 3 2.54 x 2 .100 x 2 32 max. 1.259 Copper foil 27.94 1.100 2 2 INPUT 4 3 LOAD 2 1 4-0.8 dia. 4-.031 2.5 .098 General tolerance: 0.5 .020 1 - + Load Load Input power source power source Mounting hole location (Bottom view) 9 max. .354 45 max. 1.772 Terminal 4 - 4INPUT 3+ 3 2.54 x 3 .100 x 3 24 max. .945 30.48 1.200 2 2.54 x 5 .100 x 5 Copper foil 1 2.54 x 4 .100 x 4 4-1.2 dia. 4-.047 Tolerance: 0.1 .004 Schematic 2 LOAD 1 8 min. .315 7.62 .300 4 5.08 .200 10.16 .400 12.7 .500 3 2) 3 A type 2 INPUT 4 3 4-0.8 dia. 4-.031 2.5 .098 1 General tolerance: 0.5 .020 9 max. .354 43 max. 1.693 - + Load Input Load power source power source Mounting hole location (Bottom view) Terminal 4 32 max. 1.259 - 4 INPUT3+ 4 3 12.7 .500 30.48 1.200 2 3 2.54 x 3 .100 x 3 2.54 x 5 .100 x 5 5.08 .200 10.16 .400 2 INPUT 4 3 LOAD 2 1 4-0.8 dia. 4-.031 2.5 .098 1 General tolerance: 0.5 .020 Copper foil 1 2.54 x 4 .100 x 4 4-1.2 dia. 4-.047 Tolerance: 0.1 .004 Schematic 2 LOAD 1 8 min. .315 7.62 .300 LOAD 2 1 - + Load Input Load power source power source AQ8 REFERENCE DATA (2 A type) 3 A type 2.5 2 A type 2.0 1.5 1.0 (3 A type) Non-repetitive surge current, A 3.0 Load current, A 2. Characteristics of non-repetitive surge current vs. carrying time Non-repetitive surge current, A 1. Characteristics of load current vs. ambient temperature Conditions: Natural cooling 100 80 60 40 20 0.5 0 -30 0 3. Characteristics of input current vs. input voltage zero-cross type Nonzero-cross type 80 60 40 20 0 20 40 60 80 Ambient temperature, C 100 5 10 50 No. of cycles at 60 Hz 0 100 5 10 50 No. of cycles at 60 Hz 100 4. Characteristics of load current vs. ambient temperature for adjacent mounting Conditions: Natural cooling (2 A type) (3 A type) 30 2.5 3.0 20 15 (12 V type) 10 (24 V type) 1.5 Load current, A R=20.32 mm .800 inch R=12.7 mm .500 inch R=9.0 mm .354 inch 2.0 Load current, A Input current, mA 25 1.0 2.0 1.0 (5 V type) 0.5 5 R R R R=Adjacent mounting pitch 0 0 10 0 -30 20 30 Input voltage, V 0 Product name 20 40 60 80 Ambient temperature, C Qualified ratings UL E95895 2A type: 2 A 125, 250 V AC 2 A 125 V AC (Tungsten) FLA 1 A, LRA 6 A 125, 250 V AC CSA LR26550 20 40 60 80 Ambient temperature, C 1. When used for the load less than rated In case of the load current less than rated, malfunction may result from the residual voltage across the both ends of the load even if the solid state relay is turned off. Use a dummy resistor as a countermeasure. The total of the current through the resistor and the load current must exceed the min. rated load current. 3A type: 3 A 125, 250 V AC 3 A 125 V AC (Tungsten) FLA 1.5 A, LRA 9 A 125, 250 V AC * Characteristics of load impedance vs. residual voltage R0 Dummy resistor 1 0 NOTES File No. AQ8 R R=Adjacent mounting pitch 0 -30 Approved standards list SSR R=20.32 mm .800 inch R=12.7 mm .500 inch R=9.0 mm .354 inch Load Load power source 2 100 80 f= 60Hz Ve: Residual voltage V: Power voltage Load 1 In case the dummy resistor is not used, keep in mind that the residual voltage becomes as follows: Example: For the inductive load by the 20 mA load current and the 200 V AC load voltage, the load impedance becomes 10 k and Ve/V = 14% is estimated from the right above graph. Accordingly, the 28 V voltage remains across the both ends of the load when the solid state relay is turned off. 60 Ve x 100 V (%) 40 SSR 2 V Ve Max. 45 Power factor: 1 (resistor load) Power factor: 0.4 (induction load) 20 0 10 2. Solder the terminals within 5 seconds at 260C 500F. 3. when the terminal is bent Care shall be taken neither to apply mechanical stresses to the mold area of the solid state relay nor to bend the terminal 45 degrees or more. 20 30 40 Solid state relay 50 Printed board Solder Load impedance (k) For Cautions for Use 6/1/1999 All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. AQ-B RELAYS AQ-B SOLID STATE RELAY UL File No.: E43149 CSA File No.: LR48894M14 * Two types available: Non zero-cross type and Zero-cross type Non zero-cross type permits phase control and Zero-cross type suppresses occurrence of noise. * Slim type The small-sized slim type (43 mm long x 9 mm wide x 24 mm high) (1.693 x .354 x .945 inch) permits high density mounting to PC board. * High dielectric strength: 1500 V AC (between input and output) TYPES APPLICATIONS Type Load voltage 75 to 125 V AC Zero-cross 1 A 75 to 250 V AC 75 to 125 V AC Zero-cross 2 A 75 to 250 V AC 75 to 125 V AC Non zero-cross 1 A 75 to 250 V AC 75 to 125 V AC Non zero-cross 2 A 75 to 250 V AC Input voltage Part No. 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC 3 to 6 V DC 7 to 14 V DC 10 to 18 V DC 18 to 30 V DC AQB1A1-ZT3/6VDC AQB1A1-ZT7/14VDC AQB1A1-ZT10/18VDC AQB1A1-ZT18/30VDC AQB1A2-ZT3/6VDC AQB1A2-ZT7/14VDC AQB1A2-ZT10/18VDC AQB1A2-ZT18/30VDC AQB2A1-ZT3/6VDC AQB2A1-ZT7/14VDC AQB2A1-ZT10/18VDC AQB2A1-ZT18/30VDC AQB2A2-ZT3/6VDC AQB2A2-ZT7/14VDC AQB2A2-ZT10/18VDC AQB2A2-ZT18/30VDC AQB1A1-T3/6VDC AQB1A1-T7/14VDC AQB1A1-T10/18VDC AQB1A1-T18/30VDC AQB1A2-T3/6VDC AQB1A2-T7/14VDC AQB1A2-T10/18VDC AQB1A2-T18/30VDC AQB2A1-T3/6VDC AQB2A1-T7/14VDC AQB2A1-T10/18VDC AQB2A1-T18/30VDC AQB2A2-T3/6VDC AQB2A2-T7/14VDC AQB2A2-T10/18VDC AQB2A2-T18/30VDC * Copying equipment * NC machines, sequencers, robots * Air conditioners ORDERING INFORMATION Ex. AQB 1A 1 ZT 3/6VDC Load current Load voltage Type Input voltage 1A 2A 1: 75 to 125 V AC 2: 75 to 250 V AC ZT: Zero-cross type T: Non zero-cross type 3/6, 7/14, 10/18, 18/30 V DC SPECIFICATIONS Ratings (at 20C 68F, Input voltage ripple: 1% or less) 1. Zero-cross type 1 A type Item Part No. AQB1A1-ZT AQB1A1-ZT AQB1A1-ZT AQB1A1-ZT AQB1A2-ZT AQB1A2-ZT AQB1A2-ZT AQB1A2-ZT 7/14VDC 10/18VDC 18/30VDC 3/6VDC 7/14VDC 10/18VDC 18/30VDC 3/6VDC Input voltage Input Input impedance side 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Drop-out voltage, min. 1V Max. load current 1A Load voltage See "DATA 1" 75 to 125 V AC Frequency Remarks 75 to 250 V AC 45 to 65 Hz Repetitive peak voltage, max. 400 V 600 V Load Non-repetitive side surge current In one cycle at 60 Hz 10A "OFF-state" leakage current 0.6 mA/100 V applied Max. "ON-state" voltage drop 1.1 mA/200 V applied at 60 Hz at max. carrying current 1.6 V Min. load current 10 mA 20 mA OFF state dV/dt 100 V/s 2 A type Item Part No. AQB2A1-ZT AQB2A1-ZT AQB2A1-ZT AQB2A1-ZT AQB2A2-ZT AQB2A2-ZT AQB2A2-ZT AQB2A2-ZT 3/6VDC 7/14VDC 10/18VDC 18/30VDC 3/6VDC 7/14VDC 10/18VDC 18/30VDC Input voltage Input Input impedance side 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Drop-out voltage, min. 1V Max. load current 2A Load voltage 75 to 125 V AC Frequency Repetitive peak voltage, max. Min. load current 75 to 250 V AC 400 V 600 V In one cycle at 60 Hz 20 A 0.6 mA/100 V applied Max. "ON-state" voltage drop OFF state dV/dt See "DATA 1" 45 to 65 Hz Load Non-repetitive side surge current "OFF-state" leakage current Remarks 1.1 mA/200 V applied at max. carrying current 1.6 V 10 mA 20 mA 100 V/s at 60 Hz 2. Non zero-cross type 1 A type Item Part No. AQB1A1-T 3/6VDC Input voltage Input Input impedance side AQB1A1-T 7/14VDC AQB1A1-T 10/18VDC AQB1A1-T 18/30VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k AQB1A2-T 3/6VDC Drop-out voltage, min. 1V Max. load current 1A Load voltage AQB1A2-T 7/14VDC AQB1A2-T 10/18VDC AQB1A2-T 18/30VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Remarks See "DATA 1" 75 to 125 V AC 75 to 250 V AC Frequency 45 to 65 Hz Repetitive peak voltage, max. 400 V 600 V Load Non-repetitive side surge current In one cycle at 60 Hz 10A "OFF-state" leakage current 0.6 mA/100 V applied 1.1 mA/200 V applied Max. "ON-state" voltage drop at 60 Hz at max. carrying current 1.6 V Min. load current 10 mA 20 mA OFF state dV/dt 100 V/s 2 A type Item Part No. AQB2A1-T 3/6VDC Input voltage Input Input impedance side AQB2A1-T 7/14VDC AQB2A1-T 10/18VDC AQB2A1-T 18/30VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k AQB2A2-T 3/6VDC Drop-out voltage, min. 1V Max. load current 2A Load voltage AQB2A2-T 7/14VDC AQB2A2-T 10/18VDC AQB2A2-T 18/30VDC 3 to 6 VDC 7 to 14 VDC 10 to 18 VDC 18 to 30 VDC Approx. 0.18 k Approx. 0.75 k Approx. 1.2 k Approx. 2.15 k Remarks See "DATA 1" 75 to 125 V AC 75 to 250 V AC Frequency 45 to 65 Hz Repetitive peak voltage, max. 400 V 600 V Load Non-repetitive side surge current In one cycle at 60 Hz 20 A "OFF-state" leakage current 0.6 mA/100 V applied 1.1 mA/200 V applied Max. "ON-state" voltage drop at max. carrying current 1.6 V Min. load current at 60 Hz 10 mA 20 mA OFF state dV/dt 100 V/s Characteristics (at 20C 68F, Input voltage ripple: less than 1%) Item Operate time, max. Release time, max. (1/2 cycle of voltage sine wave) +1 ms 0.5 ms 109 between input and output For 1 minute Functional 10 to 55 Hz at double amplitude of 3 mm 10 minutes for X, Y, Z axes Destructive 10 to 55 Hz at double amplitude of 3 mm 1 hour for X, Y, Z axes Functional Min. 980 m/s2 {100 G} 4 times for X, Y, Z axes Destructive Min. 980 m/s2 {100 G} 5 times for X, Y, Z axes Ambient temperature -20C to +80C -4F to +176F Storage temperature -25C to +85C -13F to +185F Operational method Remarks 1,500 V AC between input and output Breakdown voltage Shock resistance Non zero-cross type (1/2 cycle of voltage sine wave) +1 ms Insulation resistance, min. Vibration resistance Zero-cross type Zero-cross Turn-ON Zero-cross Turn-OFF Radom Turn-ON Zero-cross Turn-OFF OPERATING PRINCIPLE Internal circuit Zero-cross type Wave form of input and output (Resistive load) Snubber circuit Phototriac coupler Zerocross circuit Input Input terminal circuit Load voltage Trigger circuit + Triac Input signal R Output terminal C ON OFF Load current _ Non zero-cross type Snubber circuit + Trigger circuit Phototriac coupler Input Input terminal circuit Load voltage Triac R Output terminal C Input signal ON OFF Load current _ DIMENSIONS Max. 9 .354 Max. 43 1.693 (Common for zero-cross and Non zero-cross type) PC board pattern (Bottom view) mm inch Copper foil 4-1.4 dia. 4-.055 dia. 27.5 1.083 4 3 2 Terminal 1 Max. 20 .787 1 .039 1 .039 3.75 .148 5 12.5 .197 .492 4 3 1 .039 1 .039 10 .394 Terminal connection diagram 0.5 .020 Max. 2 .079 INPUT 4 3 2 1 10.0 .394 12.5 .492 5.0 .197 4 .157 1... Output: AC 2... Output: AC 3... Input: DC + 4... Input: DC - General tolerance: 0.5 .020 LOAD 2 1 - + Load Input power Load power source source DATA 1. Load current vs. ambient temperature 2-1. Non-repetitive surge current vs. carrying time (1 A type) 3.0 30 2.0 2 A type 1.5 1 A type 1.0 Non-repetitive surge current, A Non-repetitive surge current, A 30 2.5 Load current, A 2-2. Non-repetitive surge current vs. carrying time (2 A type) 25 20 15 10 0.5 25 20 15 10 5 5 0 -30 0 0 20 40 60 80 Ambient temperature, C 3. Input voltage vs. input current 1 2 0 3 4 5 7 10 20 30 40 50 70 100 No. of cycles at 60 Hz 1 2 3 4 5 7 10 20 30 40 50 70 100 No. of cycles at 60 Hz 4. Load current vs. ambient temperature for adjacent mounting 2 A type 1 A type 45 (3 to 6 V type) 30 25 (7 to 14 V type) (18 to 30 V type) (10 to 18 V type) 20 15 R=20.32 mm .800 inch R=12.7 mm .500 inch R=9.0 mm .354 inch 0.5 R=20.32 mm .800 inch R=12.7 mm .500 inch R=9.0 mm .354 inch 1.5 1.0 0.5 10 R R R R 5 0 2.0 Load current, A 1.0 Load current, A Input current, mA 40 35 R=Adjacent mounting R=Adjacent mounting 0 10 20 Input voltage, V 30 0 0 20 40 60 80 Ambient temperature, C 0 20 40 60 80 Ambient temperature, C AQ-B NOTE When used for the load less than rated In case of the load current less than rated, malfunction may result from the residual voltage across the both ends of the load even if the solid state relay is turned off. Use a dummy resistor as a countermeasure. The total of the current through the resistor and the load current must exceed the min. rated load current. In case the dummy resistor is not used, keep in mind that the residual voltage becomes as follows: Example: For the inductive load by the 5 mA load current and the 200 V AC load voltage, the load impedance becomes 40 k and Ve/V = 16% is estimated from the right above graph. Accordingly, the 32 V voltage remains across the both ends of the load when the solid state relay is turned off. * Characteristics of load impedance vs. residual voltage 100 80 f = 60 Hz Ve: Residual voltage V: Power voltage Load 1 60 Ve x 100 , V % 40 SSR 2 V Ve 20 R0 (dummy resistor) 1 0 Load Load power source SSR 10 20 Power factor: 1 (resistive load) Power factor: 0.4 (inductive load) 30 40 50 Load impedance, k 2 For Cautions for Use 6/1/1999 All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. AQ-C RELAYS AQ-C SOLID STATE RELAY 20 .787 UL File No.: E43149 CSA File No.: LR26550 10 .394 * Compact DIL type: 20 mm (length) x 10 mm (width) x 12.8 mm (height) (.787 x .394 x .504 inch) * Excellent in noise resistance * Snubber circuit integrated * High dielectric strength: 2,500 V between input and output * Reverse polarity type available 12.8 .504 mm inch TYPES 1. Input module Type AC input DC input Output voltage 4 to 32 V DC 4 to 32 V DC 2. Output module Input voltage 80 to 250 V AC 3 to 32 V DC Type Part No. Load voltage 75 to 125 V AC AQCD3-IM 100/240 V AC AC output Zero-cross AQCD3-IM 4/24 V DC 75 to 250 V AC 75 to 125 V AC AC output Non Zero-cross 75 to 250 V AC DC output 3 to 60 V DC Part No. AQC1A1D- ZT05 V DC AQC1A1D- ZT12 V DC AQC1A1D- ZT24 V DC AQC1A2D- ZT05 V DC AQC1A2D- ZT12 V DC AQC1A2D- ZT24 V DC AQC1A1D- TZ05 V DC AQC1A1D- TZ12 V DC AQC1A1D- TZ24 V DC AQC1A2D- TZ05 V DC AQC1A2D- TZ12 V DC AQC1A2D- TZ24 V DC AQC1AD1- ZT05 V DC AQC1AD1- ZT12 V DC AQC1AD1- ZT24 V DC Input voltage 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 5 V DC 12 V DC 24 V DC ORDERING INFORMATION AQC Load current Nil: Input module 1A: Output module 1A D1 Load voltage 1: 75 to 125 V AC (Output module) 2: 75 to 250 V AC (Output module) D1: 3 to 60 V DC (Output module) D3: 4 to 32 V DC (Input module) ZT 5VDC R Type Input voltage Input polarity Nil: DC output IM: Input module T: AC output Non Zero-cross ZT: AC output Zero-cross Output module: 5, 12, 24 V DC Input module: 4/24 V DC, 100/240 V AC Nil: Standard polarity R: Reverse polarity (Only for output module) Standard packing: Carton: 50 pcs.; Case: 500 pcs. SPECIFICATIONS Rating [at 20C 68F; Input voltage ripple (output module) and output voltage ripple (input module): max. 1%] 1. Input module Type Item Input side Output side Input voltage Input current Pick-up voltage Drop-out voltage Load voltage Load current Max. "OFF-state" leakage current Max. "ON-state" voltage drop AC input AQCD3-M 100/240 V AC 80 to 250 V AC Max. 5 mA Max. 80 V AC Min. 10 V AC 4 to 32 V DC 0.1 to 25 mA Max. 5A Max. 1.6 V DC input AQCD3-IM 4/24 V DC 3 to 32 V DC Max. 5 mA Max. 3 V DC Min. 1 V DC 4 to 32 V DC 0.1 to 25 mA Max. 5A Max. 1.6 V Remarks When 32 V DC applied at max. carrying current 2. Output module (1) AC output type Type AQC1A1- AQC1A1- AQC1A1- AQC1A2- AQC1A2- AQC1A2ZT5VDC ZT12VDC ZT24VDC ZT5VDC ZT12VDC ZT24VDC Remarks AQC1A1- AQC1A1- AQC1A1- AQC1A2- AQC1A2- AQC1A2Item T5VDC T12VDC T24VDC T5VDC T12VDC T24VDC (5 V type) (12 V type) (24 V type) (5 V type) (12 V type) (24 V type) 4 to 9.6 to 21.6 to 4 to 9.6 to 21.6 to Input voltage Input 6 V DC 14.4 V DC 26.4 V DC 6 V DC 14.4 V DC 26.4 V DC See "Data 3". side 1.8 k 0.8 k 0.8 k 1.8 k 0.3 k Input impedance (Approx.) 0.3 k 2.4 V 1.2 V 0.5 V 1.2 V 2.4 V 0.5 V Drop-out voltage, min 1A See "Data 1". Ta = Min. 40C Max. load current 75 to 250 V AC 75 to 125 V AC Load voltage Load Non-repetitive surge current 20 A See "Data 2". In one cycle at 60 Hz side Max. "OFF-state" leakage current 0.6 m A (When 100 V AC applied) 1.1 m A (When 200 V AC applied) at 60 Hz 1.6 A at max. carrying current Max. "ON-state" voltage drop 20 mA 10 mA Min. load current (2) DC output type Type Item Input voltage Input side Input impedance (Approx.) Drop-out voltage, min Max. load current Load voltage Load Non-repetitive surge current side Max. "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current AQC1AD1-5VDC (5 V type) 4 to 6 V DC 430 AQC1AD1-12VDC AQC1AD1-24VDC (12 V type) (24 V type) 9.6 to 14.4 V DC 21.6 to 26.4 V DC 2.8 k 1.2 k 0.8 V 1A 3 to 60 V DC 1.5 A 0.1 mA (When 60 V DC applied) 1.6 V 1 mA Remarks See "Data 3". See "Data 1". Ta = Min. 40C See "Data 2". at 1 s at max. carrying current Characteristics [at 20C 68F; Input voltage ripple (output module) and output voltage ripple (input module): max. 1%] Input module Type Item Operate time, max. Release time, max. Insulation resistance, min. Breakdown voltage Functional Vibration resistance Destructive Functional Shock resistance Destructive Ambient temperature Storage temperature AC Input 20 ms 20 ms DC Input 0.5 ms 0.5 ms 109 between input and output 2,500 Vrms between input and output 10 to 55Hz double amplitude of 3 mm 10 to 55Hz double amplitude of 3 mm Min. 980 m/s2 {100 G} Min. 980 m/s2 {100 G} -30C to +80C -22F to +176F -30C to +100C -22F to +212F Remarks Input voltage: 24 V DC or 100V AC Output voltage: 24 V DC Output current: 25mA at 500 V DC For 1 minute 10 minutes for X,Y, Z, axis 1 hour for X,Y, Z, axis 4 time each for X,Y,Z axis 5 time each for X,Y,Z axis Output module Type Item Operate time, max. Release time, max. Insulation resistance, min. Breakdown voltage Functional Vibration resistance Destructive Functional Shock resistance Destructive Ambient temperature Storage temperature Operational method AC output DC output Non zero-cross Zero-cross 1 ms (1/2 cycle of voltage sine wave)+1ms 0.5 ms (1/2 cycle of voltage sine wave)+1ms 1 ms 109 between input and output 2,500 Vrms between input and output 10 to 55Hz double amplitude of 3 mm 10 to 55Hz double amplitude of 3 mm Min. 980 m/s2 {100 G} Min. 980 m/s2 {100 G} -30C to +80C -22F to +176F -30C to +100C -22F to +212F Random Turn-ON, Zero-cross Turn-OFF Zero-cross (Turn-ON and Turn-OFF) -- Conditions at 500 V DC For 1 minute 10 minutes for X,Y, Z, axis 1 hour for X,Y, Z, axis 4 time each for X,Y,Z axis 5 time each for X,Y,Z axis DIMENSIONS mm inch 1. Input module (AC, DC) PC board pattern (Copper-side view) 10 .394 2.7 .106 10.16 .400 7.62 .300 Terminal 1 2.7 .106 12.5 .492 5.5 .217 0.3 .012 3.9 .154 0.3 .012 0.3 .012 0.8 .031 0.4 .016 0.8 .031 20 .787 0.3 .012 7.62 .300 Terminal 8 4-1.1 dia. 4-.043 dia. Terminal 5 Tolerance: 0.1 .004 Terminal 16 0.3 .012 0.4 .016 Schematic (+) 16 AC input 5... Output: DC - 8... Output: DC + r... Input: AC 1... Input: AC Case color: Yellow 10.16 .400 DC input 5... Output: DC - 8... Output: DC + r... Input: DC + 1... Input: DC - Case color: White 7.62 .300 1 Load power source 1 7.62 .300 8 5 8 5 (-) Load r + - Specified polarities for DC types are shown in the parentheses. Input power source General tolerance: 0.5 .020 2. Output module (AC, DC) mm inch PC board pattern (Copper-side view) 10 .394 2.7 .106 10.16 .400 7.62 .300 Terminal 1 2.7 .106 12.5 .492 5.5 .217 0.3 .012 3.9 .154 0.3 .012 0.3 .012 0.8 .031 0.4 .016 0.8 .031 20 .787 0.3 .012 7.62 .300 Terminal 8 4-1.1 dia. 4-.043 dia. Terminal 5 Tolerance: 0.1 .004 Terminal 16 0.3 .012 0.4 .016 Schematic 16 AC output 5... Output: AC 8... Output: AC r... Input: DC + 1... Input: DC - Case color: Black 10.16 .400 DC output 5... Output: DC - 8... Output: DC + r... Input: DC + 1... Input: DC - Case color: Red 7.62 .300 1 7.62 .300 5 8 1 8 5 + - Input power source Load r (+) (-) Load power source Specified polarities for DC types are shown in the parentheses. General tolerance: 0.5 .020 ACCESSORY PCIA-PS REFERENCE DATA 0.8 0.6 0.4 30 20 10 0.2 0 -30 2.-(2) Non-repetitive surge current vs. carrying time (DC output) Non-repetitive surge current, A 1.0 Load current, A 2.-(1) Non-repetitive surge current vs. carrying time (AC output) Non-repetitive surge current, A 1. Load current vs. ambient temperature 5 4 3 2 1 0 20 40 60 80 Ambient temperature, C 0 1 2 3 4 5 7 10 20 30 40 50 70 100 No. of cycles at 60 Hz 0 10 20 30 4050 70 100 200 300 Carrying time, ms 1,000 AQ-C 3. Input voltage vs. input current characteristics (AC/DC output) 4.-(1) Input voltage vs. input current characteristics (AC input) 4.-(2) Input voltage vs. input current characteristics (DC input) Tested sample: AQCD3-IM100/240 V AC, 5 pcs. Tested sample: AQCD3-IM4/24 V DC AC output DC output 9 20 15 8 Input current, mA Input current, mA 25 Input current, mA 10 10 30 6 4 10 8 7 6 5 4 3 (5 V type) (12 V type) (24 V type) 5 2 2 1 0 0 10 20 Input voltage, V 0 30 100 200 Input voltage, V AC 300 0 5 10 15 20 25 30 Input voltage, V DC 35 5. Load current vs. ambient temperature characteristics for adjacent mounting Load current, A 1.0 R=20.32 mm .800 inch R=12.7 mm .500 inch 0.8 0.6 0.4 0.2 R R R=Adjacent mounting pitch 0 -30 0 20 40 60 80 Ambient temperature, C NOTE When used for the load less than rated In the case of the load current less than rated, malfunction may result from the residual voltage across the both ends of the load even if the solid state relay is turned off. Use a dummy resistor as a countermeasure. The total of the current through the resistor and the load current must exceed the min. rated load current. In case the dummy resistor is not used, keep in mind that the residual voltage becomes as follows: Example: For the inductive load by the 5 mA load current and the 200 V AC load voltage, the load impedance becomes 40 k and Ve/V = 16% is estimated from the below graph. Accordingly, the 32 V voltage remains across the both ends of the load when the solid state relay is turned off. * Characteristics of load impedance vs. residual voltage R0 (Dummy resistor) 100 (+) Load 8 Load power source (-) 80 1 5 60 Ve x100,% V 1 f = 60 Hz Ve: Residual voltage V: Power voltage Load SSR 2 V Ve 16 40 Input power source - + 20 0 20 40 Power factor: 1 (resistive load) Power factor: 0.4 (inductive load) 60 80 100 Load impedance, k For Cautions for Use 6/1/1999 All Rights Reserved, (c) Copyright Matsushita Electric Works, Ltd. UL CSA VDE Pending Pending Pending AQ-E RELAYS AQ-E SOLID STATE RELAY FEATURES 28.0 1.102 5.0 .197 1. Conforms to European safety standards (VDE0110) dielectric distance between input and output 15.0 .591 * Creepage distance: Min. 3.0 mm * Clearances distance: Min. 2.5 mm 2. The small-sized slim type 28 mm (L)x5 mm (W)x15 mm 1.063 inch (L)x.197 inch (W)x.591 inch permits high density mounting to PC board 3. High dielectric strength: 2,500V AC (between input and output) 4. Two load types available: DC output type (3A) AC output type (1A) 5. Zero-cross type are availale (AC type) The zero-cross type generates minimal noise 6. Snubber circuit integrated (AC type) 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. mm inch TYPES Type TYPICAL APPLICATIONS Load voltage AC output 75 to 250 V AC DC output 3 to 60 V DC Input voltage 5 V DC 12 V DC 24 V DC 5 V DC 12 V DC 24 V DC Part No. AQE12105 AQE12112 AQE12124 AQE34205 AQE34212 AQE34224 * Interface relays for programmable controllers * Industrial equipment * Timers and counters * Air conditioners ORDERING INFORMATION Ex. AQE 1 2 1 0 5 Load current Load voltage Type Input voltage 1: 1 A 3: 3 A 2: 75 to 250 V AC 4: 3 to 60 V DC 1: AC output (Zero-cross) 2: DC output 05: 5 V DC 12: 12 V DC 24: 24 V DC (Note) Standard packing: Carton 20 pcs., Case 1,000 pcs. 1 AQ-E SPECIFICATIONS Ratings (at 20C 68F, Input voltage ripple: 1% or less) Type Part No. AQE12105 Input voltage 4 to 6 V DC Item Input Input impedance side Drop-out voltage, min. Reverse voltage Max. load current Load voltage Frequency Non-repetitive surge current Max. "OFF-state" Load leakage current side Max. "ON-state" voltage drop Min. load curent OFF state dV/dt Max. operating speed Approx. 0.5k AC output AQE12112 9.6 to 14.4 V DC Approx. 1.3k 0.5 V DC 1.2 V DC Approx. 3k Approx. 0.5k DC output AQE34212 9.6 to 14.4 V DC Approx. 1.3k 2.4 V DC 0.5 V DC 1.2 V DC AQE12124 21.6 to 26.4 V DC AQE34205 4 to 6 V DC AQE34224 21.6 to 26.4 V DC Remarks Approx. 3k 2.4 V DC 3V 1 A AC 75 to 250 V AC 45 to 65 Hz 3 A DC 3 to 60 V DC -- 20 A 15 A 1.5 mA (applied 200 V) 10A 1.6 V 0.3 V 20 mA 50 V/s 1 mA -- -- 0.5cps. AC: In one cycle at 60 Hz DC: 10 ms at Max. carrying current at rated operating voltage, rated load voltage and current Characteristics (at 20C 68F, Input voltage ripple: 1% or less) Item Operate time max. Release time, max. Insulation resistance, min. Breakdown voltage Functional Vibration resistance Destructive Functional Shock resistance Destructive Ambient temperature Storage temperature Operational method AC output DC output (1/2 cycle of voltage sine wave) + 1 ms 2 ms (1/2 cycle of voltage sine wave) + 1 ms 0.4 ms 109 between input and output 2,500 Vrms between input and output 10 to 55 Hz double amplitude of 1.5 mm 10 to 55 Hz double amplitude of 1.5 mm Min. 490 m/s2 {50 G} Min. 490 m/s2 {50 G} -30C to +80C -22F to +176F -30C to +100C -22F to +212F Zero-cross (Turn-ON and Turn-OFF) -- Remarks Using 500 V DC megger Initial for 1 min. 1 hour for X, Y, Z axes 10 min. for X, Y, Z axes 5 times each for X, Y, Z axes 4 times each for X, Y, Z axes REFERENCE DATA 1. Load current vs. ambient temperature 2.-(1) Non-repetitive surge current vs. carrying time (AC output) 2.-(2) Non-repetitive surge current vs. carrying time (DC output) 20 2.5 DC type 2.0 1.5 AC type 1.0 Non-repetitive surge current, A Load current, A 3.0 Non-repetitive surge current, A 3.5 30 20 10 15 10 5 0.5 0 -30 2 0 20 40 60 80 Ambient temperature, C 0 1 2 3 4 5 7 10 20 30 4050 70 100 No. of cycles at 60 Hz 0 10 100 Carrying time, ms 1,000 AQ-E 4.-(1) Load current vs. ambient temperature characteristics for adjacent mounting (AC output) 30 1.2 25 1.0 =15 mm .591 inch 0.8 =10 mm .394 inch 0.6 =5 mm .197 inch 20 15 (5 V type) (12 V type) 10 (24 V type) 5 4.-(2) Load current vs. ambient temperature characteristics for adjacent mounting (DC output) 3.5 0.4 3.0 Load current, A Load current, A Input current, mA 3. Input voltage vs. input current characteristics =15 mm .591 inch =10mm .394 inch =5mm .197 inch 2.5 2.0 1.5 1.0 0.2 0.5 = Adjacent mounting pitch = Adjacent mounting pitch 0 5 10 15 20 25 Input voltage, V 30 0 0 -20 0 20 40 60 80 100 Ambient temperature, C -20 0 20 40 60 80 100 Ambient temperature, C DIMENSIONS mm inch 15.0 max. 0.5 .591 max. .020 3.78 .149 0.50.1 .020.004 1.2 .047 5.0 .197 2-0.5+0.2 -0.1 2-.020+.008 -.004 0.3 3.78.012 .149 2-1.0 0.1 2-.039 .004 0.3 21.42.012 .843 28.0 max. 1.102 max. 2-1 2-. .6 dia 06 . 3d ia. 2-1 . 2-.02 dia. 47 dia . Mounting hole location (Bottom view) 21.42 .843 0.5 5.04 0.3 3.5.020 .198 .012 .138 1.9 .075 5.04 .198 1.2 .047 1.9 .075 Tolerance: 0.1 .004 Schematic AC type Input - + Output General tolerance: 0.5 .020 DC type Input - + 9/1/2000 Output + - All Rights Reserved, (c) Copyright Matsushita Electric Works, 641 Ltd.