PDF AQY221N5VW Data sheet ( Hoja de datos )

Número de pieza	AQY221N5VW
Descripción	PHOTOMOS
Fabricantes	Panasonic
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No Preview Available ! C✕R3 type, SSOP package, 20 V load voltage RF SSOP 1 Form A C×R3 (AQY22❍❍❍V) New 2.65 .104 1 2 4.45 .175 1.80 .071 mm inch 4 3 RoHS compliant FEATURES 1. Miniature SSOP package (Compared to SOP 4-pin models, volume ratio can be reduced by approximately 53%.) 2. Load voltage: 20 V 3. Low C×R (C×R3) Output capacitance: 1.1 pF (typical), On resistance: 2.8Ω (typical) TYPICAL APPLICATIONS 1. Measuring and testing equipment IC tester, Probe card, Board tester and other testing equipment 2. Telecommunication equipment Does not support automotive applications. TYPES Type AC/DC dual use Output rating1 Load voltage New 20 V Load current 180 mA Part No. (Tape and reel packing style)2 Picked from the 1 and 4-pin side Picked from the 2 and 3-pin side AQY221N5VY AQY221N5VW Packing quantity in the tape and reel 3,500 pcs. Notes: 1. Indicate the peak AC and DC values. *2. Only tape and reel package is available. Packing quantity of 1,000 pieces is possible. Please consult us. For space reasons, the three initial letters of the part number “AQY”, the package (SSOP) indication “V”, and the packaging style “Y” or “W” are not marked on the device. RATING 1. Absolute maximum ratings (Ambient temperature: 25°C 77°F) Item Symbol AQY221N5V LED forward current Input side LED reverse voltage Peak forward current Power dissipation Load voltage (peak AC) Output side Continuous load current Peak load current Power dissipation Total power dissipation I/O isolation voltage Operating temperature Storage temperature IF VR IFP Pin VL IL Ipeak Pout PT Viso Topr Tstg 50 mA 5V 1A 75 mW 20 V 0.18 A 0.3 A 250 mW 300 mW 1,500 V AC –40°C to +85°C –40°F to +185°F –40°C to +100°C –40°F to +212°F Remarks f = 100 Hz, Duty factor = 0.1% Peak AC, DC 100 ms (1shot), VL = DC Non-condensing at low temperatures –1– ASCTB350E 201407-T 1 page RF SSOP 1 Form A C×R3 (AQY22❍❍❍V) PhotoMOS® CAUTIONS FOR USE SAFETY WARNINGS • Do not use the product under conditions that exceed the range of its speciﬁca- tions. It may cause overheating, smoke, or ﬁre. • Do not touch the recharging unit while the power is on. There is a danger of electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the device (including connecting parts such as the terminal board and socket). • Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheat- ing, or ﬁre. 1. Derating design Derating is essential in any reliable design and is a signiﬁcant factor for product life. Even if the conditions of use (temperature, current, voltage, etc.) of the product fall within the absolute maximum ratings, reliability can be reduced remarkably when used under high load (high temperature, high humidity, high current, high voltage, etc.). Therefore, please derate sufﬁciently below the absolute maximum rating and verify operation of the actual design before use. Also, if there is the possibility that the inferior quality of this product could possibility cause great adverse affect on human life or physical property we recommend that, from the perspective of a manufacturer’s liability, sufﬁcient amount of derating to be added to the maximum rating value and implement safety measures such as fail-safe circuit. 2. Applying stress that exceeds the absolute maximum rating If the voltage or current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the excessive voltage or current. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. Therefore, the circuit should be designed in such a way that the load never exceed the absolute maximum ratings, even momentarily. 3. Deterioration and destruction caused by discharge of static electricity (RF C×R3 / C×R5 / C×R10) This phenomenon is generally called static electricity destruction, and occurs when static electricity generated by various factors is discharged while the PhotoMOS® terminals are in contact, producing internal destruction of the element. To prevent problems from static electricity, the following precautions and measures should be taken when using your device. 1) Employees handling PhotoMOS® should wear anti-static clothing and should be grounded through protective resistance of 500 kΩ to 1 MΩ. 2) A conductive metal sheet should be placed over the worktable. Measuring instruments and jigs should be grounded. 3) When using soldering irons, either use irons with low leakage current, or ground the tip of the soldering iron. (Use of low- voltage soldering irons is also recommended.) 4) Devices and equipment used in assembly should also be grounded. 5) When packing printed circuit boards and equipment, avoid using high-polymer materials such as foam styrene, plastic, and other materials which carry an electrostatic charge. 6) When storing or transporting devices, the environment should not be conducive to generating static electricity (for instance, the humidity should be between 45 and 60%), and PhotoMOS® should be protected using conductive packing materials. 4. Short across terminals Do not short circuit between terminals when PhotoMOS® is energized, since there is possibility of breaking of the internal IC. 5. Output spike voltages 1) If an inductive load generates spike voltages which exceed the absolute maximum rating, the spike voltage must be limited. Typical circuits are shown below. (Typical circuits of AC/DC dual use type are shown below. It is the same with DC only type.) 14 6. Ripple in the input power supply If ripple is present in the input power supply, observe the following: 1) For LED forward current at Emin, please maintain min. 5 mA. 2) Please make sure for Emax. is no higher the LED current at than 50 mA. Emin. Emax. 7. About the exposed terminals on the sides of the package As shown in the following ﬁgure, part of the input and output frames are exposed on the sides of the package. Due to this, please be keep in mind the cautions listed below. 1) Shorting the exposed terminals may cause deterioration of the insulation between the inputs and outputs, and may damage the internal IC. 2) Since the exposed terminals are connected electrically to the internal element, please refer to item “3. Deterioration and destruction caused by discharge of static electricity”, and implement sufﬁcient measures to control static electricity. 3) When mounting the PhotoMOS® in the vicinity, please keep in mind that if the exposed frames of adjacent PhotoMOS® get too close, a short between PhotoMOS® may occur. Part of frame of output side Load 23 Add a clamp diode to the load 14 Load 23 Add a CR snubber circuit to the load 2) Even if spike voltages generated at the load are limited with a clamp diode if the circuit wires are long, spike voltages will occur by inductance. Keep wires as short as possible to minimize inductance. Part of frame of input side 8. Regarding close installations When many PhotoMOS® are mounted close to other parts, the ambient temperature may rise due to heating of the internal element when power is applied. Be sure to use with a reduced load current after testing under actual conditions, because the degree of temperature rise depends on the mounting layout of the PhotoMOS® and conditions of use. –5– ASCTB345E 201407-T 5 Page

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