general description the max6305?ax6313 cmos microprocessor (?) supervisory circuits are designed to monitor more than one power supply. ideal for monitoring both 5v and 3.3v in personal computer systems, these devices assert a system reset if any of the monitored supplies falls outside the programmed threshold. low supply current (15?) and a small package suit them for portable applications. the max6305?ax6313 are specifically designed to ignore fast transients on any monitored supply. these devices are available in a sot23-5 package, have factory-programmed reset thresholds from 2.5v to 5.0v (in 100mv increments), and feature four power-on reset timeout periods. ten standard versions are avail- able. contact the factory for availability of non standard versions. applications portable computers computers controllers intelligent instruments portable/battery-powered equipment multivoltage systems: 3v/5v, 5v/12v, 5v/24v embedded control systems features � small 5-pin sot23 package � precision factory-set v cc reset thresholds; available in 0.1v increments from 2.5v to 5v � immune to short v cc transients � guaranteed reset valid to v cc = 1v � guaranteed over temperature � 8? supply current � factory-set reset timeout delay from 1ms (min) to 1120ms (min) � no external components � manual reset input � under/overvoltage supply monitoring max6305?ax6313 5-pin, multiple-input, programmable reset ics 19-1145; rev 6; 7/12 1 for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com. ordering information ? the max6306/max6307/max6309/max6310/max6312/ max6313 are available with factory-set v cc reset thresholds from 2.5v to 5v, in 0.1v increments. insert the desired nominal reset threshold (from table 1) into the blanks following the letters uk. all parts also offer factory-programmed reset timeout periods. insert the number corresponding to the desired nominal timeout period index following the ??in the part number (d1 = 1ms min, d2 = 20ms min, d3 = 140ms min, and d4 = 1120ms min). there are 10 standard versions with a required order increment of 2,500 pieces. sample stock is generally held on the standard versions only (see standard versions table). required order increment is 10,000 pieces for non-standard versions. contact factory for availability of non-standard versions. all devices available in tape- and-reel only. devices are available in both leaded and lead-free packaging. specify lead-free by replacing ?t?with ?t?when ordering. pin configurations and typical operating circuit appear at end of data sheet. ordering information continued at end of data sheet. standard versions table appears at end of data sheet. _______________________________________________________________selector table part open-drain reset output push/pull reset output push/pull reset output factory- set reset threshold on v cc additional undervoltage reset inputs negative/ overvoltage reset input max6305 � � � � 2 � max6306 � � � � 1 � max6307 � � � � 1 � max6308 � � � � 2 � max6309 � � � � 1 � max6310 � � � � 1 � max6311 � � � � 2 � max6312 � � � � 1 � max6313 � � � � 1 � manual- reset input � � � � � � � � � part ? temp range pin - pa c k a g e max6305 uk00d_-t -0? to +70? 5 sot23 max6305euk00d_-t -40? to +85? 5 sot23
max6305?ax6313 5-pin, multiple-input, programmable reset ics 2 absolute maximum ratings electrical characteristics v cc = +2.5v to +5.5v for the max6305/max6308/max6311, v cc = (v th + 2.5%) to +5.5v for the max6306/max6307/max6309/ max6310/max6312/max6313; t a = -40? to +85?; unless otherwise noted. typical values are at t a = +25?.) (note 1) stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. v cc ...........................................................................-0.3v to +6v all other pins..............................................-0.3v to (v cc + 0.3v) input/output current, all pins .............................................20ma rate of rise, v cc ............................................................100v/? continuous power dissipation (t a = +70?) sot23 (derate 7.1mw/? above +70?) ....................571mw operating temperature range max63_ _uk _ _d_-t.........................................0? to +70? max63_ _euk _ _d_-t ...................................-40? to +85? storage temperature range .............................-65? to +160? lead temperature (soldering, 10sec) .............................+300? soldering temperature (reflow) lead (pb) - free packages............................................+260? packages containing lead (pb).....................................+240? parameter symbol conditions min typ max units v cc range t a = -40? to +85? (note 2) 1.0 5.5 v supply current i cc v cc = 5.5v 8 16 �a t a = +25? v th - 1.5% v th v th + 1.5% max6306/max6307/ max6309/max6310/ max6312/max6313 t a = 0? to +70? v th - 2.5% v th v th + 2.5% reset threshold (note 3) v th max6306e/max6307/ max6309e/max6310e/ max6312e/max6313e t a = -40? to +85? v th - 2.5% v th v th + 2.5% v reset threshold v th /? 40 ppm/? reset threshold v th hyst 2 x v th mv d1 1.0 1.4 2.0 d2 20 28 40 d3 140 200 280 reset timeout period t rp d4 1120 1570 2240 ms v cc > 4.25v, i sink = 3.2ma 0.4 v cc > 2.5v, i sink = 1.2ma 0.3 v cc > 1.2v, i sink = 500? 0.3 v ol max6305?ax6310 v cc > 1.0v, i sink = 50? 0.3 v v cc > 4.25v, i source = 800? v cc - 1.5 reset output voltage v oh max6308/max6309/ max6310 v cc > 2.5v, i source = 500? 0.8 x v cc v v cc > 4.25v, i sink = 3.2ma 0.4 v ol v cc > 2.5v, i sink = 1.2ma 0.3 v cc > 1.8v, i source = 150? 0.8 x v cc reset output voltage v oh max6311/max6312/ max6313 v cc > 1.0v, i source = 10? 0.8 x v cc v
max6305?ax6313 5-pin, multiple-input, programmable reset ics 3 electrical characteristics (continued) v cc = +2.5v to +5.5v for the max6305/max6308/max6311, v cc = (v th + 2.5%) to +5.5v for the max6306/max6307/max6309/ max6310/max6312/max6313; t a = -40? to +85?; unless otherwise noted. typical values are at t a = +25?.) (note 1) note 1: overtemperature limits are guaranteed by design, not production tested. note 2: the max6305/max6308/max6311 switch from undervoltage reset to normal operation between 1.5v < v cc < 2.5v. note 3: the max6306/max6307/max6309/max6310/max6312/max6313 monitor v cc through an internal factory-trimmed voltage divider, which programs the nominal reset threshold. factory-trimmed reset thresholds are available in approximately 100mv increments from 2.5v to 5v (table 1). note 4: guaranteed by design. parameter symbol conditions min typ max units manual-reset input (max6306/max6309/max6312) v il 0.8 v ih v th > 4.0v 2.4 v il 0.3 x v cc mr input v ih v th < 4.0v 0.7 x v cc v t a = 0? to +70? 1 mr minimum input pulse width t a = -40? to +85? 1.5 ? mr glitch rejection 0.1 ? mr to reset delay 500 nsv mr pullup resistance 32 63.5 100 k ? adjustable reset comparator inputs t a = +25? 1.21 1.23 1.25 max6305?ax6313, t a = 0? to +70? 1.20 1.26 rst in_/ovrst_in input threshold v rsth max6305e?ax6313e, t a = -40? to +85? 1.20 1.26 v rst in_/ovrst_in input current i rst in_ 0v < v rst in < v cc - 0.3v (note 4) -25 +25 na rst in_/ovrst_in hysteresis 2.5 mv
max6305?ax6313 5-pin, multiple-input, programmable reset ics 4 __________________________________________typical operating characteristics (v cc = +5v, t a = +25?, unless otherwise noted.) 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 -60 -40 -20 0 20 40 60 80 100 supply current vs. temperature 6305 toc01 temperature (?) supply current ( a) v cc = 2.5v v cc = 3.5v v cc = 5.5v v cc = 4.5v 0 10 20 30 40 50 60 70 80 -60 -40 -20 0 20 40 60 80 100 v cc falling propagation delay vs. temperature 6305 toc02 temperature (?) propagation delay (ns) 1mv s 10mv s 0 10 20 30 40 50 60 70 -60 -40 -20 0 20 40 60 80 100 ovrst in rising propagation delay vs. temperature (overvoltage reset input) 6305 toc03 temperature (?) propagation delay (ns) 1mv s 10mv s 0 20 40 60 80 100 120 -60 -40 -20 0 20 40 60 80 100 rst in_ falling propagation delay vs. temperature 6305 toc04 temperature (?) rst in_ propagation delay (ns) 1mv s 10mv s 1 0 400 1200 800 maximum transient duration vs. v cc reset threshold overdrive 10 6305 toc7 overdrive, v th - v cc (mv) transient duration ( s) 100 1000 10,000 v th = 5.0v reset occurs above lines v th = 2.5v 0.90 0.92 0.94 0.96 0.98 1.00 1.02 1.04 1.06 1.08 1.10 -60 -40 -20 0 20 40 60 80 100 reset timeout vs. temperature 6305 toc05 temperature (?) normalized reset timeout 0.990 0.992 0.994 0.996 0.998 1.000 1.002 1.004 1.006 1.008 1.010 -60 -40 -20 0 20 40 60 80 100 reset threshold vs. temperature 6305 toc06 temperature (?) normalized reset threshold (v/v) 1 0 400 1200 800 maximum transient duration vs. ovrst in threshold overdrive 10 6305 toc8 overdrive, v ovrst in - v ref (mv) transient duration ( s) 100 1000 10,000 v th = 5.0v reset occurs above lines v th = 3.0v 1 0 400 1200 800 maximum transient duration vs. rst in_ threshold overdrive 10 6305 toc9 overdrive, v ref - v rst in (mv) transient duration ( s) 100 1000 10,000 v th = 5.0v reset occurs above lines v th = 3.0v
_______________detailed description the max6305?ax6313 cmos microprocessor (?) supervisory circuits are designed to monitor more than one power supply and issue a system reset when any monitored supply falls out of regulation. the max6305/ max6308/max6311 have two adjustable undervoltage reset inputs (rst in1 and rst in2). the max6306/ max6307/max6309/max6310/max6312/max6313 mon- itor v cc through an internal, factory-trimmed voltage divider. the max6306/max6309/max6312 have, in addition, an adjustable undervoltage reset input and a manual-reset input. the internal voltage divider sets the reset threshold as specified in the device part number (table 1). the max6307/max6310/ max6313 feature an adjustable undervoltage reset input (rst in) and an adjustable overvoltage reset input (ovrst in) in addition to the factory-trimmed reset threshold on the v cc moni- tor. program the adjustable reset inputs with an external resistor divider (see adjustable reset inputs section). reset outputs a ?? reset input starts the ? in a known state. these ? supervisory circuits assert reset to prevent code- execution errors during power-up, power-down, or brownout conditions. reset (max6305?ax6310) and reset (max6311/ max6312/max6313) are guaranteed to be asserted at a valid logic level for v cc > 1v (see electrical characteristics ). once all monitored voltages exceed their programmed reset thresholds, an internal timer keeps reset asserted for the reset timeout period (t rp ); after this interval, reset deasserts. if a brownout condition occurs (any or all monitored volt- ages dip outside their programmed reset threshold), reset asserts (reset goes high; reset goes low). any time any of the monitored voltages dip below their reset threshold, the internal timer resets to zero and reset asserts. the internal timer starts when all of the moni- tored voltages return above their reset thresholds, and reset remains asserted for a reset timeout period. the max6305/max6306/max6307 feature an active-low, max6305?ax6313 5-pin, multiple-input, programmable reset ics 5 ______________________________________________________________pin description max6305 max6308 max6311 name function active-low, open-drain reset output for the max6305/max6306/ max6307. active-low, push/pull reset output (sources and sinks current) for the max6308/max6309/max6310. 1 reset active-high, push/pull reset output for the max6311/max6312/max6313 2 gnd system ground � ovrst in overvoltage reset comparator input. asserts reset when the monitored voltage exceeds the programmed threshold. set the reset threshold with an external resistor divider. connect to gnd if unused. � rst in undervoltage reset comparator input. asserts reset when the monitored voltage falls below the programmed threshold. set the reset threshold with an external resistor divider. connect to v cc if unused. 3, 4 rst in1, rst in2 � mr manual-reset input. pull low to force a reset. reset/reset remains active as long as mr is low and for the timeout period after mr goes high. leave unconnected or connect to v cc if unused. 5 v cc system supply. the max6306/max6307/max6309/max6310/ max6312/max6313 also monitor v cc through an internal factory- trimmed resistor divider to the reset comparator. max6306 max6309 max6312 1 2 � 4 � 3 5 max6307 max6310 max6313 pin 1 2 4 3 � � 5 reset
max6305?ax6313 open-drain, n-channel output. the max6308/max6309/ max6310 feature an active-low, complementary output structure that both sinks and sources current, and the max6311/max6312/max6313 have an active-high com- plementary reset output. the max6305/max6308/max6311 switch from under- voltage lockout operation to normal operation between 1.5v < v cc < 2.5v. below 1.5v, v cc undervoltage- lockout mode asserts reset. above 2.5v, v cc normal- operation mode asserts reset if rst in_ falls below the rst in_ threshold. manual-reset input (max6306/max6309/max6312) many ?-based products require manual-reset capability, allowing an operator or external logic circuitry to initiate a reset. a logic low on mr asserts reset. reset remains asserted while mr is low, and for a reset active timeout period (t rp ) after mr returns high. this input has an inter- nal 63.5k ? pull-up resistor, so it can be left open if it is not used. mr can be driven with ttl-logic levels in 5v sys- tems, with cmos-logic levels in 3v systems, or with open- drain/collector output devices. connect a normally open momentary switch from mr to gnd to create a manual- reset function; external debounce circuitry is not required. if mr is driven from long cables or if the device is used in a noisy environment, connecting a 0.1? capacitor from mr to ground provides additional noise immunity. the mr pin has internal esd-protection circuitry that may be forward biased under certain conditions, drawing excessive current. for example, assume the circuitry driv- ing mr uses a +5v supply other than v cc . if v cc drops or browns out lower than +4.7v, mr? absolute maximum rat- ing is violated (-0.3v to (v cc + 0.3v)), and undesirable current flows through the esd structure from mr to v cc . to avoid this, it is recommended that the supply for the mr pin be the same as the supply monitored by v cc . in this way, the voltage at mr will not exceed v cc . adjustable reset inputs the max6305?ax6313 each have one or more reset inputs (rst in_ /ovrst in). these inputs are com- pared to the internal reference voltage (figure 1). connect a resistor voltage divider to rst in_ such that v rst in_ falls below v rsth (1.23v) when the monitored voltage (v in ) falls below the desired reset threshold (v th ) (figure 2). calculate the desired reset voltage with the following formula: r1 + r2 v th = ________ x v rsth r2 5-pin, multiple-input, programmable reset ics 6 rst in1 * ?? ? ??? +1.23v +1.23v +1.23v +1.23v rst in2 reset generator reset*** ovrst in gnd v cc v cc mr reset** max6306/max6307/max6309/max6310/max6312/max6313 only max6305?ax6310 only max6311/max6312/max6313 only max6307/max6310/max6313 only max6305/max6308/max6311 only max6306/max6309/max6312 only max6305?ax6313 * ** *** ? ?? ??? figure 1. functional diagram
max6305?ax6313 5-pin, multiple-input, programmable reset ics 7 the ?5na max input leakage current allows resistors on the order of megohms. choose the pull-up resistor in the divider to minimize the error due to the input leakage cur- rent. the error term in the calculated threshold is simply: ?5na x r1 if you choose r1 to be 1m? , the resulting error is ?5 x 10 -9 x 1 x 10 6 = ?5mv. like the v cc voltage monitors on the max6306/max6307/ max6309/max6310/max6312/max6313, the rst in_ inputs (when used with a voltage divider) are designed to ignore fast voltage transients. increase the noise immunity by connecting a capacitor on the order of 0.1? between rst in and gnd (figure 2). this creates a single-pole lowpass filter with a corner frequency given by: f = (1/2 ) / (r1 + r2)(r1 x r2 x c) for example, if r1 = 1m? and r2 = 1.6m?, adding a 0.1? capacitor from rst in_ to ground results in a lowpass corner frequency of f = 2.59hz. note that adding capacitance to rst in slows the circuit? overall response time. __________applications information interfacing to ?s with bidirectional reset pins since the reset output on the max6305/max6306/ max6307 is open drain, these devices interface easily with ?s that have bidirectional reset pins, such as the motorola 68hc11. connecting the ? supervisor? reset output directly to the microcontroller? reset pin with a single pull-up resistor allows either device to assert reset (figure 3). negative-going v cc transients in addition to issuing a reset to the ? during power-up, power-down, and brownout conditions, these devices are relatively immune to short-duration, negative-going v cc transients (glitches). the typical operating characteristics show the maximum transient duration vs. v cc reset threshold overdrive, for which reset pulses are not generated. the graph was produced using negative-going pulses, starting at v th max, and ending below the pro- grammed reset threshold by the magnitude indicated (reset threshold overdrive). the graph shows the maxi- mum pulse width that a negative-going v cc transient may typically have without causing a reset pulse to be issued. as the amplitude of the transient increases (i.e., goes farther below the reset threshold), the maximum allowable pulse width decreases. rst in_/ovrst in are also immune to negative/positive- going transients (see typical operating characteristics ). a 0.1? bypass capacitor mounted close to the rst in_, ovrst in, and/or the v cc pin provides additional tran- sient immunity. ensuring a valid reset /reset output down to v cc = 0v when v cc falls below 1v, push/pull structured reset/ reset current sinking (or sourcing) capabilities decrease drastically. high-impedance cmos-logic inputs connected to reset can drift to undetermined voltages. this presents no problem in most applica- tions, since most ?s and other circuitry do not operate with v cc below 1v. in those applications where reset must be valid down to 0v, adding a pull-down resistor between reset and ground sinks any stray leakage figure 2. increasing noise immunity max6305� max6313 c* v in r1 r2 rst in_ gnd *for additional noise immunity v cc v th = ( ) v rsth r1 + r2 r2 *� c = ( ) r1 + r2 r1 x r2 x c 1 2 figure 3. interfacing to ?s with bidirectional reset i/o max6305 max6306 max6307 reset generator gnd gnd v cc v cc reset reset p
currents, holding reset low (figure 4). the pull-down resistor? value is not critical; 100k? is large enough not to load reset and small enough to pull reset to ground. for applications where reset must be valid to v cc , a 100k? pull-up resistor between reset and v cc will hold reset high when v cc falls below 1v (figure 5). since the max6305/max6306/max6307 have open- drain, active-low outputs, they typically use a pull-up resistor. with these devices and under these conditions (v cc < 1v), reset will most likely not maintain an active condition, but will drift toward a nonactive level due to the pull-up resistor and the reset output? reduction in sinking capability. these devices are not recommended for applications that require a valid reset output below 1v. suffix t a = +25? t a = -40? to +85? 00 preprogrammed threshold not available preprogrammed threshold not available 50 4.925 5.000 5.075 4.875 5.125 49 4.827 4.900 4.974 4.778 5.023 48 4.728 4.800 4.872 4.680 4.920 47 4.630 4.700 4.771 4.583 4.818 46 4.561 4.630 4.699 4.514 4.746 45 4.433 4.500 4.568 4.388 4.613 44 4.314 4.380 4.446 4.270 4.490 43 4.236 4.300 4.365 4.193 4.408 42 4.137 4.200 4.263 4.095 4.305 41 4.039 4.100 4.162 3.998 4.203 40 3.940 4.000 4.060 3.900 4.100 39 3.842 3.900 3.959 3.803 3.998 38 3.743 3.800 3.857 3.705 3.895 37 3.645 3.700 3.756 3.608 3.793 36 3.546 3.600 3.654 3.510 3.690 35 3.448 3.500 3.553 3.413 3.588 34 3.349 3.400 3.451 3.315 3.485 33 3.251 3.300 3.350 3.218 3.383 32 3.152 3.200 3.248 3.120 3.280 31 3.034 3.080 3.126 3.003 3.157 30 2.955 3.000 3.045 2.925 3.075 29 2.886 2.930 2.974 2.857 3.000 28 2.758 2.800 2.842 2.730 2.870 27 2.660 2.700 2.741 2.633 2.768 26 2.591 2.630 2.669 2.564 2.696 25 2.463 2.500 2.538 2.438 2.563 * factory-trimmed reset thresholds are available in approximately 100mv increments with a ?.5% room-temperature variance. min typ max min max max6305?ax6313 5-pin, multiple-input, programmable reset ics 8 max6308 max6309 max6310 gnd 100k v cc v cc reset max6311 max6312 max6313 gnd 100k v cc v cc reset figure 4. ensuring reset valid to v cc = 0v figure 5. ensuring reset valid to v cc = 0v table 1. factory-trimmed reset thresholds*
max6305?ax6313 5-pin, multiple-input, programmable reset ics 9 max6309 5v 3.3v rst in mr gnd v cc reset reset in 3.3v p typical operating circuit ordering information (continued) ? the max6306/max6307/max6309/max6310/max6312/ max6313 are available with factory-set v cc reset thresholds from 2.5v to 5v, in 0.1v increments. insert the desired nominal reset threshold (from table 1) into the blanks following the letters uk. all parts also offer factory-programmed reset timeout periods. insert the number corresponding to the desired nominal timeout period index following the ??in the part number (d1 = 1ms min, d2 = 20ms min, d3 = 140ms min, and d4 = 1120ms min). there are 10 standard versions with a required order increment of 2,500 pieces. sample stock is generally held on the standard versions only (see standard versions table). required order increment is 10,000 pieces for non-standard versions. contact factory for avail- ability of non-standard versions. all devices available in tape-and- reel only. devices are available in both leaded and lead-free packaging. specify lead-free by replacing ?t?with ?t?when ordering. standard versions table part ? temp range pin - pa c k a g e max6306 uk_ _d_-t -0? to +70? 5 sot23 max6306euk_ _d_-t -40? to +85? 5 sot23 max6307 uk_ _d_-t -0? to +70? 5 sot23 max6307euk_ _d_-t -40? to +85? 5 sot23 max6308 uk00d_-t -0? to +70? 5 sot23 max6308euk00d_-t -40? to +85? 5 sot23 max6309 uk_ _d_-t -0? to +70? 5 sot23 max6309euk_ _d_-t -40? to +85? 5 sot23 max6310 uk_ _d_-t -0? to +70? 5 sot23 max6310euk_ _d_-t -40? to +85? 5 sot23 max6311 uk00d_-t -0? to +70? 5 sot23 max6311euk00d_-t -40? to +85? 5 sot23 max6312 uk_ _d_-t -0? to +70? 5 sot23 max6312euk_ _d_-t -40? to +85? 5 sot23 max6305uk00d3-t max6309uk29d3-t max6306uk29d3-t max6309uk46d3-t max6306uk46d3-t max6311uk00d3-t max6307uk46d3-t max6312uk29d3-t max6308uk00d3-t max6312uk46d3-t
max6305?ax6313 5-pin, multiple-input, programmable reset ics 10 gnd ovrst in rst in 1 5 v cc (reset) reset max6307 max6310 max6313 sot23-5 2 3 4 gnd rst in mr 1 5 v cc (reset) reset max6306 max6309 max6312 sot23-5 2 3 4 gnd rst in2 rst in1 1 5 v cc (reset) reset max6305 max6308 max6311 sot23-5 top view 2 3 4 ( ) are for max6311 ( ) are for max6312 ( ) are for max6313 pin configurations package information for the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages . note that a ?? ?? or ??in the package code indicates rohs status only. package drawings may show a different suffix character, but the drawing pertains to the package regardless of rohs status. package type package code outline no. land pattern no. 5 sot23 u5+1 21-0057 90-0174
max6305?ax6313 5-pin, multiple-input, programmable reset ics maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circuit patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. the parametric values (min and max limits) shown in the electrical characteristics table are guaranteed. other parametric values quoted in this data sheet are provided for guidance. maxim integrated products, inc. 160 rio robles, san jose, ca 95134 usa 1-408-601-1000 ________________ 11 � 2012 maxim integrated products maxim is a registered trademark of maxim integrated products, inc. revision history revision number revision date description pages changed 0 9/96 initial release � 1 8/98 make corrections to ec table and figures 1 and 8. 3, 6, 8 2 4/99 added standard versions table and note to the ordering information table. text added to the general description . 1, 13 3 11/05 added lead-free option to the ordering information table. 1, 13 4 12/07 updated table 2 and package outline. 9, 10, 14 5 4/08 added max6305e?ax6313e to ordering information table, updated electrical characteristics table and global conditions, updated table 1, and removed table 2. 1, 2, 3, 8?5 6 7/12 updated the electrical characteristics table. 2
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