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| www.fairchildsemi.com features � powered from the ac line � built-in bridge recti?r � direct interface to scr � 350 m a quiescent current � adjustable trip current � adjustable time delay � minimum external components � meets ul 943 requirements � speci?ally for two-wire systems � for use with 110v or 220v systems block diagram 65-4140a-01 1 2 3 4 8 7 6 5 latch 4.7k delay v cc rv4140a rv4140a low power two-wire ground fault interrupter controller rev. 1.0.0 description the rv4140a is a low power controller for ac outlet appliance leakage circuit interrupters. these devices detect hazardous current paths to ground such as an appliance falling into water. the interrupter then open circuits the line before a harmful or lethal shock occurs. internally, the rv4140a has a diode bridge recti?r, zener shunt regulator, op amp, current reference, time delay circuit, latch and scr driver. an external sense transformer, scr, relay, two resistors and three capacitors complete the design of the circuit interrupter. the simple layout and minimum component count ensure ease of application and long term reliability.
rv4140a product specification 2 functional description (refer to block diagram and figure 1 ) the shunt regulator generated by a 6.5v zener diode is built into the internal bridge recti?r. it is divided to create an internal reference voltage of 2.9v connected to pin 3. the secondary of the sense transformer is ac coupled to the inverting input of the sense ampli?r at pin 2; the non-invert- ing input is referenced to pin 3. a current feedback loop around the sense ampli?r ensures a virtual ground will be presented to the secondary of the sense transformer. in this manner it acts as a current transformer instead of a voltage transformer. in this mode, the transformer�s characteristics are very predictable and circuit adjustments are not neces- sary in production. the sense transformer has a toroidal core made of laminated steel rings or solid ferrite material. the secondary of the transformer is 500 to 1000 turns of #40 wire wound through the toroid. the primary�s one turn made by passing the ac hot and neutral wires through the center of the toroid. when a ground fault exists, a difference exists between the current ?wing in hot and neutral wires. the difference primary current, divided by the number of secondary turns, ?ws through the secondary wire of the transformer. the ac coupled transformer secondary current then ?ws through the sense ampli?r�s feedback loop, creating a full wave recti?d version of the secondary fault current. this current passes through r set at pin 1, generating a voltage equal to r set times the peak fault current divided by the sense transformer turns ratio. this voltage is compared with the reference voltage at pin 3. if the voltage at pin 1 is greater than pin 3, a comparator will charge c2 through a 29 m a current source at pin 8. if the voltage at pin 1 exceeds pin 3 for longer than the delay time, a 400 m a current will pulse between pins 7 and 6 which will trigger the gate of the scr. if the voltage at pin 1 exceeds pin 3 for less than the delay time, the scr will not trigger. the fault current at which the controller triggers the scr is dependent on the value of r set and the time delay determined by c2. ul 943 requires the circuit interrupter trip when the ground fault exceeds 6 ma and not trip when the fault current is less than 4 ma. supply current requirements the rv4140a has a built-in diode bridge recti?r that provides power to the chip independent of the polarity of the ac line. this eliminates the external recti?r required for previous gfci controllers. r llne limits the shunt regulator current to 2 ma. the rec- ommended value is 47k to 91k for 110v systems and 91k to 150k for 220v systems. the recommended maximum peak line current through r llne is 7 ma. do not connect a ?ter capacitor between pins 5 and 6 in an attempt to ?ter the supply voltage at the rv4140a. proper operaton of the rv4140a requires the internal supply voltage to be un?tered. scr driver the scr must have a high dv/dt rating to ensure that line noise (generated by electrically noisy appliances) does not falsely trigger the scr. also, the scr must have a gate drive requirement less than 200 m a. c3 is a noise ?ter that prevents high frequency line pulses from triggering the scr. the relay solenoid used should have a 3 ms or less response time to meet the ul 943 timing requirement. supplier of sense transformers and cores magnetic metals corporation, camden, nj 08101, (609) 964-7842, supplies a full line of ring cores and trans- formers designed speci?ally for gfci and related applica- tions. determining the values of rset and c2 determine the ground fault trip current requirement. this will be typically 5 ma in north america (117 vac) and 10 ma in the uk and europe. determine the minimum amount of time delay required to prevent nuisance tripping. this will typically be 1 to 2 ms. the value of c2 required to provide the desired delay time is: c2 = 10 x t where c2 is in nf, and t is the desired delay time in ms. product specification rv4140a 3 the value of r set to meet nominal ground fault tip current specitcation is: where: r set is in kw t is the time delay in ms p is the period of the line frequency in ms i fault is the desired ground fault trip current in ma rms. n is the number of sense transformer secondary turns. this formula assumes an ideal sense transformer is used. the calculated value of r set may have to be changed up to 30% when using a non-ideal transformer. figure 1. appliance leakage detector circuit application r set 2.05 n i fault cos 180 tp () --------------------------------------------------------------- = 65-4140a-02 closed contacts load solinoid c3 10 nf q1 tag x0103da r l ne c2 0.02 f m 1 2 3 4 8 7 6 5 r set c1 10 f hot neutral line sense transformer 1:500 turns ratio 3 ring steel core rv4140a m normally latching mov r test c4 0.1 f m press to test 15k 191k 91k rv4140a product specification 4 pin assignments absolute maximum ratings thermal characteristics parameter min. typ. max. units supply current 7ma internal power dissipation 500 mw storage temperature range -65 +150 c operating temperature range -35 +80 c lead soldering temperature 60 seconds, dip +300 c 10 seconds, soic +260 c parameter 8 lead plastic soic 8 lead plastic dip maximum junction temperature +125 c +125 c maximum p d t a <50 c 300 mw 468 mw thermal resistance, q ja 240 c/w 160 c/w for t a > 50 c derate at 4.1 mw/ c 6.25 mw/ c pdip (top view) 65-4140a-03 1 2 3 4 r set vfb 2.9v ground 5 6 7 8 line neutral scr trigger c delay soic (top view) 1 2 3 4 r set vfb 2.9v ground 5 6 7 8 line neutral scr trigger c delay product specification rv4140a 5 electrical characteristics i line = 1.2ma and t a = +25 c, r set = 290k w note: 1. delay time is defined as starting when the instantaneous sense current (i 2-3 ) exceeds 2.9v/r set and ending when the scr trigger voltage v 7-6 goes high. parameters test conditions min. typ. max. units shunt regulator (pins 5 to 4) regulated voltage i 2-3 = 11 m a 6.8 7.2 7.6 v regulated voltage i line = 700 m a, i 2-3 = 9 m a 6.8 7.2 7.6 v sense ampli?r (pins 2 to 3) offset voltage design value -3.0 0 3.0 mv gain bandwidth design value 2.0 mhz input bias current design value 30 100 na scr trigger (pins 7 to 6) output resistance v 5-6 = open, i 2-3 = 0 m a 4.0 4.7 5.4 k w output voltage i 2-3 = 9 m a 0 0.1 10 mv output voltage i 2-3 = 11 m a 1.4 2.0 2.6 v output current v 7-6 = 0v, i 2-3 = 11 m a 300 420 600 m a reference voltage (pins 3 to 4) reference voltage i line = 700 m a 2.6 2.9 3.2 v delay timer (pins 8 to 4) delay time 1 c 8-4 = 20nf � 2.0 � ms delay current i 2-3 = 11 m a 232935 m a rv4140a product specification 6 schematic diagram 65-4653 v fb (2) (1) r set q3 q44 r3 8.5k q5 q7 q8 q6 r4 50k r5 50k q9 r2 10k c1 6.5 pf q10 r6 2.5k q11 r8 23k q16 q21 q23 q26 q24 q25 q22 q27 q35 q34 q39 q32 r9 83k q38 q40 q31 q29 q30 q36 r10 4.7k q49 q50 cap (8) scr (7) neutral (6) line (5) sub sub sub q33 common r1 10k (3) v cc r7 23k q19 q20 q18 q37 q28 q48 q47 q43 q44 q15 q14 q12 q13 q41 q42 sub q46 q17 q45 q2 ground (4) product specification rv4140a 7 notes: rv4140a product specification 8 notes: product specification rv4140a 9 notes: rv4140a product specification 10 mechanical dimensions 8-lead plastic dip package a � .210 � 5.33 symbol inches min. max. min. max. millimeters notes a1 .015 � .38 � .022 .56 b .014 .36 b1 .045 .070 1.14 1.78 d .348 .430 8.84 10.92 .300 .325 7.62 8.26 .240 .280 6.10 7.11 e e � .430 � 10.92 .005 � .13 � 4 a2 .115 .195 2.93 4.95 2 e1 .100 bsc 2.54 bsc 2 eb a2 .115 .160 2.92 4.06 l d1 8 ? 8 ? 5 n c .008 .015 .20 .38 notes: 1. 2. 3. 4. 5. dimensioning and tolerancing per ansi y14.5m-1982. "d" and "e1" do not include mold flashing. mold flash or protrusions shall not exceed .010 inch (0.25mm). terminal numbers are for reference only. "c" dimension does not include solder finish thickness. symbol "n" is the maximum number of terminals. d b1 e b e1 a1 a l 4 5 8 1 e eb c d1 product specification rv4140a 11 mechanical dimensions (continued) 8-lead soic package 85 14 d a a1 ?c � ccc c lead coplanarity seating plane e b l h x 45 ? c a eh a .053 .069 1.35 1.75 symbol inches min. max. min. max. millimeters notes a1 .004 .010 0.10 0.25 .020 0.51 b .013 0.33 c .008 .010 0.20 0.25 e .150 .158 3.81 4.01 e .228 .244 5.79 6.20 .010 .020 0.25 0.50 h .050 bsc 1.27 bsc h l .016 .050 0.40 1.27 0 ? 8 ? 0 ? 8 ? 3 6 5 2 2 n8 8 a ccc .004 0.10 ?? d .189 .197 4.80 5.00 notes: 1. 2. 3. 4. 5. 6. dimensioning and tolerancing per ansi y14.5m-1982. "d" and "e" do not include mold flash. mold flash or protrusions shall not exceed .010 inch (0.25mm). "l" is the length of terminal for soldering to a substrate. terminal numbers are shown for reference only. "c" dimension does not include solder finish thickness. symbol "n" is the maximum number of terminals. rv4140a product specification 7/27/98 0.0m 002 stock#ds20004140a 1998 fairchild semiconductor corpora ion life support policy fairchild?s products are not authorized for use as critical components in life support devices or systems without the express written approval of the president of fairchild semiconductor corporation. as used herein: 1. life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury of the user. 2. a critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. www.fairchildsemi.com ordering information part number package operating temperature range rv4140an 8-lead plastic dip -35 c to +80 c rv4140am 8-lead plastic soic -35 c to +80 c |
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