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S216SE2 Dataheets PDF



Part Number S216SE2
Manufacturers Sharp Electrionic Components
Logo Sharp Electrionic Components
Description SIP Type SSR for Medium Power Control
Datasheet S216SE2 DatasheetS216SE2 Datasheet (PDF)

S202SE1/S202SE2/S216SE1/S216SE2 S202SE1/S202SE2 S216SE1/S216SE2 s Features 1. Comforms to European Safety Standard ( EN60950) ( Need of the insulation sheet when mounting external heat sink ) Internal insulation distance : 0.4mm or more Creepage distance : 5mm or more Space distance : 4mm or more 2. RMS ON-state current S202SE1 / S202SE2 : 8Arms at Tc <= 80˚C ( with heat sink ) S216SE1 / S216SE2 : 16Arms at Tc <= 60˚C ( with heat sink ) ( ) 3. Isolation voltage . .between input and output Viso .

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S202SE1/S202SE2/S216SE1/S216SE2 S202SE1/S202SE2 S216SE1/S216SE2 s Features 1. Comforms to European Safety Standard ( EN60950) ( Need of the insulation sheet when mounting external heat sink ) Internal insulation distance : 0.4mm or more Creepage distance : 5mm or more Space distance : 4mm or more 2. RMS ON-state current S202SE1 / S202SE2 : 8Arms at Tc <= 80˚C ( with heat sink ) S216SE1 / S216SE2 : 16Arms at Tc <= 60˚C ( with heat sink ) ( ) 3. Isolation voltage . .between input and output Viso : 3 000V rms 4. Approved by TUV, No. R9051479 5. Recognized by UL, No. E94758 ( S202SE1 / S202SE2 ) Approved by CSA, No. LR63705 ( S202SE1 , S202SE2 ) SIP Type SSR for Medium Power Control s Outline Dimensions ( Unit : mm ) * The metal parts marked * are common to terminal 1 g Do not allow external connection. ( ) : Typical dimensions 18.5 ± 0.2 16.4 ± 0.3 φ 3.2 ± 0.2 A (Model No.) B S202SE1 8A260VAC S202SE2 S216SE1 16A260VAC S216SE2 3.2 ± 0.2 5.5 ± 0.2 5.0 ± 0.3 * g 2.0MAX. A B + 4.2MAX. 1 2 3 4 11.2MIN. 0.6 ± 0.1 4 - 1.1 ± 0.2 4 - 1.25 ± 0.3 4 - 0.8 ± 0.2 19.6 ± 0.2 (36.0) s Applications 1. Copiers 2. Laser beam printers (5.08) (7.62) Internal connection diagram S202SE1 / S216SE1 (2.54) (1.4) S202SE2 / S216SE2 s Line-up RMS ON-state current MAX. 8Arms MAX. 16Arms S202SE1 S216SE1 S202SE2 S216SE2 1 2 3 4 zero-cross circuit 1 2 3 4 Output ( Triac. T2 ) Output ( Triac. T1 ) Input ( + ) Input ( - ) 1 2 3 4 Output ( Triac. T2 ) Output ( Triac. T1 ) Input ( + ) Input ( - ) No built-in Zero-cross circuit Built-in Zero-cross circuit 1 2 3 4 s Absolute Maximum Ratings Parameter Input Forward current Reverse voltage RMS ON-state current *1 Peak one cycle surge current Repetitive peak OFF-state voltage Non-repetitive peak OFF-state voltage Critical rate of rise of ON-state current Operating frequency *2 Isolation voltage Operating temperature Storage temperature *3 Soldering temperature Symbol IF VR IT I surge V DRM V DSM dI T /dt f V iso T opr T stg T sol ( Ta = 25˚C ) Rating S202SE1 / S202SE2 S216SE1 / S216SE2 50 6 *5 *4 8 16 80 160 600 600 50 45 to 65 3,000 - 25 to + 100 - 30 to + 125 260 Unit mA V A rms A V V A/µ s Hz V rms ˚C ˚C ˚C Output *1 60Hz sine wave, Tj = 25˚C start *2 AC 60Hz for 1 minute, 40 to 60% RH, Apply voltages between input and output by the dielectric withstand voltage tester with zero-cross circuit.( Input and output shall be shorted respectively) . ( Note) When the isolation voltage is necessary at using external heat sink, please use the insulation sheet. *3 For 10 seconds *4 TC <=80˚C *5 TC<=60˚C “ In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.” S202SE1/S202SE2/S216SE1/S216SE2 s Electrical Characteristics Parameter Forward voltage Input Reverse current Repetitive peak OFF-state current S202SE1 / S202SE2 ON-state voltage S216SE1 / S216SE2 Output Holding current Critical rate of rise of OFF-state voltage Critical rate of rise of commutating OFF-state voltage Zero-cross voltage S202SE2 / S216SE2 S202SE1 / S216SE1 Minimum trigger current S202SE2 / S216SE2 Transfer Isolation resistance characS202SE1 / S216SE1 teristics Turn-on time S202SE2 / S216SE2 Turn-off time Thermal resistance S202SE1 / S202SE2 ( Between junction and case ) S216SE1 / S216SE2 Thermal resistance ( Between junction and ambience ) *6 dIT /dt = - 4.0A/ms ( S202SE1 / S202SE2 ) dIT /dt = - 8.0A/ms ( S216SE1 / S216SE2 ) ( Ta = 25˚C ) Symbol VF IR I DRM VT IH dV/dt ( dV/dt ) c V OX I FT R ISO t on t off R th (j - c) R th (j - a) Conditions I F = 20mA V R = 3V V D = V DRM I T = 2A rms I T = 16A rms V D = 2/3V DRM Tj = 125˚C, VD = 400V *6 I F = 8mA V D = 12V, R L = 30 Ω V D = 6V, R L = 30 Ω DC500V, 40 to 60 % RH AC60Hz AC60Hz MIN. 30 5 1010 TYP. 1.2 4.5 3.3 40 MAX. 1.4 10 -4 10 -4 1.5 1.5 50 35 8 8 1 9.3 9.3 Unit V A A V rms mA V/ µ s V/ µ s V mA Ω ms ms ˚C/W ˚C/W Fig.1-a RMS ON-state Current vs. Ambient Temperature (S202SE1 / S202SE2 ) 4 RMS ON-state current I T ( Arms ) Fig.1-b RMS ON-state Current vs. Ambient Temperature (S216SE1 / S216SE2 ) 4 RMS ON-state current I T ( Arms ) 3 3 2 2 1 1 0 - 20 0 20 40 60 80 100 120 Ambient temperature T a ( ˚C ) 140 0 - 20 0 20 40 60 80 100 120 Ambient temperature T a ( ˚C ) 140 S202SE1/S202SE2/S216SE1/S216SE2 Fig.2-a RMS ON-state Current vs. Case Temperature (S202SE1 / S202SE2 ) 10 RMS ON-state current I T ( Arms ) Fig.2-b RMS ON-state Current vs. Case Temperature (S216SE1 / S216SE2 ) 20 RMS ON-state current I T ( Arms ) 0 25 50 75 100 Case temperature T c ( ˚C ) 125 8 16 6 12 4 8 2 4 0 - 25 0 - 25 0 25 50 75 100 Case temperature T c ( ˚C ) 125 Fig. 3 Forward Current vs. Ambient Temperature 60 Fig. 4 Forward Current vs. Forward Voltage 50 Forward current I F ( mA ) Forward cu.


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