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| ASSR-5211 high current, 1 form a, solid state relay (mosfet) (600v/0.2a/16 ) data sheet features ? compact solid-state bi-directional signal switch ? single channel normally-off single-pole-single-throw (spst) relay ? 600v output withstand voltage ? 0.2a or 0.4a current rating ? low input current: cmos compatibility ? low on-resistance: 2.5 typical for dc-only, 10 typical for ac/dc ? high speed switching: 0.7ms (ton), 0.07ms (toff ) typical @ i f = 5ma ? high transient immunity: >1kv/s ? high input-to-output insulation voltage (safety and regulatory approvals pending) - 3750 v rms for 1 min per ul1577 - csa component acceptance - *5000 v rms /1 minute rating is for option x21 only (please consult your regional avago representatives) applications ? industrial controls ? factory automation ? data acquisition ? measuring instrument ? medical system ? security system ? emr / reed relay replacement description the ASSR-5211 is specifi cally designed for high current applications, commonly found in the industrial equip- ments. the relay is a solid-state replacement for single- pole, normally-open, (1 form a) electromechanical relays. the ASSR-5211 consists of an algaas infrared light- emitting diode (led) input stage optically coupled to a high-voltage output detector circuit. the detector consists of a high-speed photovoltaic diode array and driver circuitry to switch on/off two discrete high voltage mosfets. the relay turns on (contact closes) with a minimum input current of 3ma through the input led. the relay turns off (contact opens) with an input voltage of 0.8v or less. the ASSR-5211 connection a, as shown in the schematic, allows the relay to switch either ac or dc loads. the con- nection b, with its advantages of reduced on-resistance and higher output current, allows the relays to switch dc loads only. the electrical and switching characteristics are specifi ed over the temperature range of -40c to +85c. functional diagram truth table led output off open on close opto-isolation turn-off circuit 1 2 3 4 6 5 caution: it is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by esd. lead (pb) free rohs 6 fully compliant rohs 6 full y co m pliant options available; -xxxe denotes a lead-f r ee p r oduct
2 ordering table ASSR-5211 is ul recognized with 3750 v rms and 5000 v rms (option x21*) for 1 minute per ul1577 and is approved under csa components acceptance notice #5. part number option package surface mount gullwing tape & reel quantity rohs compliant ASSR-5211 -001e 300mil dip-6 50 units per tube -301e x x -501e x x x 1000 units per reel to order, choose a part number from the part number column and combine with the desired option from the option column to form an order entry. example 1: ASSR-5211-501e to order product of 300mil dip-6 gull wing surface mount package in tape and reel packaging and rohs compliant. x21* - please consult your regional avago representatives connection b C dc only opto -isolation turn-off circuit 1 2 3 4 6 5 opto -isolation 1 2 6 4 equivalent relay diagram vo - turn-off circuit - 1 2 6 4 opto -isolation turn-off circuit 1 2 3 4 6 5 opto -isolation 1 2 4 and 6 5 equivalent relay diagram vo + - schematic connection a C ac/dc 3 package outline drawings ASSR-5211 6-pin dip package ASSR-5211 6-pin dip package with gull wing surface mount option 300 9.40 (0.370) 9.90 (0.390) pin one dot a xxxx yyww type number date code 2.16 (0.085) 2.54 (0.100) 2.28 (0.090) 2.80 (0.110) (0.020) (0.040) 0.45 (0.018) 0.65 (0.025) 4.70 (0.185) max. 2.66 (0.105) min. 6.10 (0.240) 6.60 (0.260) 0.20 (0.008) 0.33 (0.013) 5 typ. 7.36 (0.290) 7.88 (0.310) dimensions in millimeters and (inches). 5 6 3 2 1 1.78 (0.070) max. r u 4 ul recognition lead free 4.19 (0.165) 2.29 (0.090) 2.54 (0.100) typ. 0.635 0.130 (0.025 0.005) 9.65 0.25 (0.380 0.010) 7.62 0.25 (0.300 0.010) 0.635 0.25 (0.025 0.010) 12 nom. 0.20 (0.008) 0.30 (0.013) 1.78 (0.070) max. 9.65 0.25 (0.380 0.010) 6.35 0.25 (0.250 0.010) 1.27 (0.050) 10.9 (0.430) max. 2.0 (0.080) note: floating lead protrusion is 0.25 mm (10 mils) max. land pattern recommendation 4 solder refl ow temperature profi le recommended refl ow condition as per jedec standard, j-std-020 (latest revision). non-halide flux should be used. regulatory information the ASSR-5211 is approved by the following organizations: ul approved under ul 1577, component recognition program up to v iso = 3750 v rms and 5000 v rms (option x21). csa approved under csa component acceptance notice #5. insulation and safety related specifi cations parameter symbol ASSR-5211 units conditions minimum external air gap (clearance) l(101) 7.1 mm measured from input terminals to output terminals, shortest distance through air. minimum external tracking (creepage) l(102) 7.4 mm measured from input terminals to output terminals, shortest distance path along body. minimum internal plastic gap (internal clearance) 0.08 mm through insulation distance conductor to conductor, usually the straight line distance thickness between the emitter and detector. tracking resistance (comparative tracking index) cti 175 v din iec 112/vde 0303 part 1 isolation group (din vde0109) iiia material group (din vde 0109) 5 absolute maximum ratings parameter symbol min. max. units note storage temperature t s -55 125 c operating temperature t a -40 85 c junction temperature t j 125 c lead soldering cycle temperature 260 c time 10 sec input current average i f 25 ma surge 50 ma transient 1000 ma reversed input voltage v r 5v input power dissipation p in 40 mw output power dissipation connection a p o 640 mw connection b 640 mw average output current (t a =25 c, t c 100 c) connection a i o 0.2 a connection b 0.4 a output voltage (t a =25 c) connection a v o - 600 600 v 1 connection b 0 600 v esd human body model: mil-std-883 method 3015.7 4kv solder refl ow temperature profi le see lead free ir profi le recommended operating conditions parameter symbol min. max. units note input current (on) i f(on) 320ma input voltage (off) v f(off) 0 0.8 v operating temperature t a -40 +85 c package characteristics unless otherwise specifi ed, operating temperature t a = 25c. parameter symbol min. typ. max. units conditions note input-output momentary withstand voltage v iso 3750 v rms rh 50%, t = 1min, t a = 25c 3, 4 5000 rh 50%, t = 1min, t a = 25c, option x21 input-output resistance r i-o 10 14 v i-o = 500 vdc 3 input-output capacitance c i-o 0.8 pf v i-o = 0vdc, f = 1mhz 3 6 electrical specifi cations (dc) over recommended operating t a = - 40c to 85c, i f = 5ma to 10ma, unless otherwise specifi ed. parameter sym. min. typ. max. units conditions fig. note output withstand voltage | v o(off) | 600 650 v v f =0.8v, i o =250 a, t a =25 c 550 v v f =0.8v, i o =250 a output on-resistance connection a r (on) 10 16 i f =5ma, i o =0.2a, pulse 30ms, t a =25c 3 10 - 6 connection b r (on) 2.5 4 i f =5ma, i o =0.4a, pulse 30ms, t a =25c 11 6 output leakage current i o(off) 0.001 0.1 a v f =0.8v, v o =600v, t a =25c 5 - 1 a v f =0.8v, v o =550v 4 - output off -capacitance c (off) 500 pf v f =0.8v, v o =0v, f=1mhz 6 - output off set voltage | v (os) |1 v i f =5ma, i o =0ma input reverse breakdown voltage v r 5v i r =10 a input forward voltage v f 1.1 1.3 1.7 v i f =5ma 7,8 - switching specifi cations (ac) over recommended operating t a = - 40c to 85c, i f = 5ma to 10ma, unless otherwise specifi ed. parameter sym. min. typ. max. units conditions fig. note turn on time t on 0.7 2.5 ms i f =5ma, i o =0.2a, t a =25c 12,16 5.0 ms i f =5ma, i o =0.2a 13,16 0.4 1.5 ms i f =10ma, i o =0.2a, t a =25c 12,16 3.0 ms i f =10ma, i o =0.2a 13,16 turn off time t off 0.07 0.5 ms i f =5ma, i o =0.2a, t a =25c 14,16 1msi f =5ma, i o =0.2a 15,16 0.06 0.2 ms i f =10ma, i o =0.2a, t a =25c 14,16 0.5 ms i f =10ma, i o =0.2a 15,16 output transient rejection dv o /dt 1 7 kv/ s v o =600v, r m 1m, c m =1000pf, t a =25c 17 5 input-output transient rejection dv i-o /dt 1 20 kv/ s v dd =5v, v i-o =1000v, r l =1k, c l =25pf, t a =25c 18 5 notes: 1. for derating, refer to figure 1 and 2. 2. the voltage across the output terminal of the relay should not exceed this rated withstand voltage. over-voltage protection circuits should be added in some applications to protect against over-voltage transients. 3. device is considered as a two terminal device: pins 1, 2, and 3 shorted together and pins 5, 6, and 7 shorted together. 4. the input-output momentary withstand voltage is a dielectric voltage rating that should not be interpreted as an input-outpu t continuous voltage rating. for the continuous voltage rating refer to the iec/en/din en 60747-5-2 insulation characteristics table (if app licable), your equipment level safety specifi cation, or avago application note 1074, optocoupler input-output endurance voltage. 5. during the pulsed r (on) measurement ( i o duration 30ms), ambient (t a ) and case temperature (t c ) are equal. 6. for the transient rejection measurements, refer to avago whitepaper, av01-0610en, solid state relay transient immunity. 7 0 0.05 0.1 0.15 0.2 0.25 -40 -20 0 20 40 60 80 100 t a - temperature - ct a - temperature - c t a - temperature - c t a - temperature - c i o - output current - a i f = 10ma, 4-layer safe operating area 1.e-12 1.e-11 1.e-10 1.e-09 1.e-08 1.e-07 -40 -15 10 35 60 85 i o(off) - output leakage curent - a i o(off) - output leakage current - a 0 0.1 0.2 0.3 0.4 0.5 -40 -20 0 20 40 60 80 100 i o - output current - a i f = 10ma, 4-layer safe operating area 0.0e+00 5.0e-05 1.0e-04 1.5e-04 2.0e-04 2.5e-04 0 150 300 450 600 vo - output voltage - v 0.9 0.95 1 1.05 1.1 -40 -20 0 20 40 60 80 100 normalized output withstand voltage 0 200 400 600 800 1000 0 20 40 60 80 100 v o(off) - output voltage - v c out - output capacitance - pf figure 1. maximum output current rating vs ambient temperature (ac/dc connection) figure 2. maximum output current rating vs ambient temperature (dc connection) figure 3. normalized typical outupt withstand voltage vs tempera ture figure 4. typical output leakage current vs ambient tempe rature figure 5. typical output leakage current vs output voltage figure 6. typical output off -state capacitance vs output voltage 8 1 1.1 1.2 1.3 1.4 1.5 1.6 1.7 -40 -20 0 20 40 60 80 100 v f - forward voltage - v i f = 10ma i f = 5ma 0 5 10 15 20 -50 -25 0 25 50 75 100 125 r on(ac) - on-resistance - i f = 5ma i f = 10ma 2 4 6 8 10 12 14 16 18 20 0.8 1 1.2 1.4 1.6 1.8 v f - forward voltage - v i f - forward currrent - ma t a =-40 c t a = 0 c t a = 25 c t a = 85 c -0.20 -0.15 -0.10 -0.05 0.00 0.05 0.10 0.15 0.20 -3 -2 -1 0 1 2 3 v o - output voltage - v i o - output current - a t a = -40 c t a = 25 c t a = 85 c t a - temperature - c t a - temperature - c figure 7. typical forward voltage vs ambient temperature f igure 8. typical forward current vs forward voltage figure 9. typical output current vs output voltage figur e 10. typical on resistance (ac/dc connection) vs temperature figure 11. typical on resistance (dc connection) vs tempera ture figure 12. typical turn on time vs input current 0 2 4 6 8 10 -50 -25 0 25 50 75 100 125 r on(dc) - on-resistance - i f = 5ma i f = 10ma t a -temperature - c 0 300 600 900 1200 1500 5101520 i f - control current - ma t on - turn on time - s 9 figure 13. typical turn on time vs temperature figure 14. typical turn off time vs input current figure 15. typical turn off time vs temperature 10% t on pulse gen. zo = 50 tf=tr=5ns i f c l * r l v dd r 200ohm t off 90% 50% 50% p.w. = 10ms 1 2 6 5 3 4 ASSR-5211 input monitoring node output vo monitoring node outpu t vo output i f (*clis approximately 25pf which includes probe and stray wiring capacitance) figure 16 switching circuit for ton, toff i f = 5ma 0 200 400 600 800 1000 -40 -20 0 20 40 60 80 100 t on - turn on time - s i f = 10ma t a - temperature - c 0 20 40 60 80 100 5101520 i f - control current - ma t off - turn off time - s i f = 5ma 0 20 40 60 80 100 -40 -20 0 20 40 60 80 100 t off - turn off time - - s i f = 10ma t a -temperature- o c 10 pulse gen zo = 50 + ASSR-5211 1 2 6 5 3 4 c m =1nf r m =1mohm v peak 90% 10% 90% 10% input open v o(max) < 0.6v t f v peak or t r v peak dt dv 0 ) 8 . 0 ( ) 8 . 0 ( = over shoot on v peak is to be 10% c m includes probe and fixture capacitance r m includes probe and fixture resistance output vo monitoring node v peak t r t f figure 17 test circuit for output transient immunity figure 18 . test circuit for input-output transient immunity i f pulse gen. zo = 50 v ff a b + 1 2 6 5 3 4 cl* rl = 1koh m v dd = 5v + t r v i-o(peak) 90% 10% t f 90% 10% ASSR-5211 output vo monitoring node (*clis approximately 25pf which includes probe and stray wiring capacitance) v o(off) switch at position a: i f = 0ma v o(on) switch at position b: i f = 5ma v o(off) (min)> 4v v o(on) (min)> 0.8v v i-o for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2012 avago technologies. all rights reserved. av02-0152en - march 19, 2012 |
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