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| mic1555/1557 ittybitty ? rc timer/oscillator ittybitty is a registered trademark of micrel, inc. micrel inc. ? 2180 fortune drive ? san jose, ca 95131 ? usa ? tel +1 (408) 944 - 0800 ? fax + 1 (408) 474 - 1000 ? http://www.micrel.com august 12 , 2015 revision 6.1 general description the mic1555 ittybitty ? cmos rc timer/oscillator and mic1557 ittybitty ? cmos rc oscillator are designed to provide rail - to - rail pulses for precise time delay or frequency generation. the devices are similar in function to the industry standard 555, without a frequency control (fc) pin or an open - collector discharge (d) pin. the threshold pin (th r ) has precedence over the trigger (tr g ) input, ensuring that the bicmos output is off when tr g is high. the mic1555 can be used as an astable (oscillator) or monostable (one - shot) with separate threshold and trigger inputs. in the on e- shot mode, the output pulse width is precisely controlled by an external resistor and a capacitor. time delays may be accurately controlled from micro - seconds to hours. in the oscillator mode, the output is used to provide precise feedback, with a minimum of one resistor and one capacitor producing a 50% duty cycle square wave. the mic1557 is designed for astable (oscillator) operation only, with a chip select/reset (cs) input for low power shut - down. one resistor and one capacitor provide a 50% duty cycl e square wave. other duty - cycle ratios may be produced using two diodes and two resistors. the mic1555/7 is powered from a +2.7v to +18v supply voltage and is rated for C 40c to +85c ambient temperature range . the mic1555/7 is available in sot - 23 - 5 , and thin sot23 -5 5- pin packages. a low profile, ultra - thin, (utdfn), version of the mic1555 (with chip select) is also available. datasheets and support documentation are available on micrels website at : www.micrel.com . features ? +2.7v to +18v operation ? low current ? <1a typical shutdown mode (mic1557) ? 200a typical (trg and thr low) at 3v supply ? timing from microseconds to hours ? zero leakage trigger and threshold inputs ? 50% square wave w ith one resistor, one capacitor ? th reshold input precedence over trigger input ? <15? output on resistance ? no output cross - conduction current spikes ? < 0.005%/c temperature stability ? <0.055%/v supply stability ? 10 - pin ultra - thin dfn package (2mm 2mm 0.4mm) ? small sot - 23 - 5 surface mount package applications ? precision timer ? pulse generation ? sequential timing ? time - delay generation ? missing pulse detector ? micropower oscillator to 5mhz ? charge - pump driver ? led blinker ? voltage converter ? linear sweep generator ? variable frequency and duty cycle osc illator downloaded from: http:///
micrel, inc. mic1555/1557 august 12 , 2015 2 revision 6.1 typical application s monostable (one -shot) monostable (with enable) astable (oscillator) downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 3 revision 6.1 ordering information part number top marking ( 1 , 2 ) temperature range package package height (mm) mic1555yd5 t1 2 C 40 c to +85 c 5- pin thin sot - 23 1.0 (max imum ) mic1555ymu t14 C 40 c to +85 c 10 - pin 2mm 2mm utdfn 0.4 (max imum ) mic1555ym5 t1 0 C 40 c to +85 c 5- pin sot - 23 0.9 C 1.45 mic1557yd5 t1 3 C 40 c to +85 c 5- pin thin sot - 23 1.0 (max imum ) mic1557ym5 t1 1 C 40 c to +85 c 5-pin sot - 23 0.9 C 1.45 note: 1. underbars ( ) shown for the top marking may not be to scale. 2. the top marking in the ymu package does not have an under bar . pin configuration (mic1555 sot -23 and tsot- 23) 5- pin sot - 23 (m5) (top view) 5- pin tsot - 23 (d5) (top view) pin description (mic1555 sot -23 and tsot- 23) pin number pin name pin function 1 vs supply (input): +2.7v to +18v supply. 2 gnd ground: supply return. 3 out output: cmos totem - pole output. 4 trg trigger (input): sets output high. active low (at 2/3v s nominal). 5 thr threshold (dominant input): sets o utput low. active high (at 2/3v s nominal). downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 4 revision 6.1 pin configuration (mic1555 utdfn) 10 - pin utdfn (mu) (top view) pin description (mic1555 utdfn) pin number pin name pin function 1 vs supply (input): +2.7 to +18v supply. 2 cs chip select/re set (input): active high at >2/ 3v s . output off when low at <1/ 3v s . if chip select functionality is not desired, cs may be connected directly to vs. 3, 4, 7, 9 nc no connect. this pin is not internally connected. 5 thr threshold (dominant input): sets o utput low. active high (at 2/ 3v s nominal). 6 trg trigger (input): sets output high. active low (at 2/3v s nominal). 8 gnd ground: supply return. 10 out output: cmos totem - pole output. pin configuration (mic1557 sot -23 and tsot- 23) 5- pin sot - 23 (m5) (top view) 5- pin tsot - 23 (d5) (top view) pin description (mic1557 sot -23 and tsot- 23) pin number pin name pin function 1 t/t trigger/threshold (input): internally connected to both threshold and trigger functions . when the voltage at this pin is 2/ 3v s it will set the output high. when the voltage at this pin is 2/ 3v s it will set the output low . 2 gnd ground: supply return. 3 cs chip select/reset (input): active high at >2/ 3v s . output off when low at <1/ 3v s . if chip select functionality is not desired, cs may be connected directly to vs. 4 vs supply (input) : +2.7 to +18v supply. 5 out output: cmos totem - pole output. downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 5 revision 6.1 absolute maximum ratings ( 3 ) supply voltage (v s ) ...................................................... + 22 v threshold voltage (v thr , v t/t ). .................................... +22v trigger voltage (v tg r , v t/t ) .......................................... +22v lead temperature (soldering, 10s ) ............................ 300 c ambient storage temperature .................. C 65 c to + 150 c esd hbm rating ( 5 ) ......................................................... 2kv esd mm rating ............................................................ 200v operating ratings ( 4 ) supply voltage (v s ) ....................................... + 2.7 v to + 18 v am bient temperature (t a ) .......................... C 40c to +85c package thermal resistance sot23 - 5 and thin sot23 - 5 ( ja ) ................... 250 c/w 2mm 2mm utdfn ( ja ) ................................ . 90 c/w electrical characteristics t a = 25c, bold values indicate C 40c t a +85c, unless noted. parameter condition min . typ . max . units supply current v s = 5v 240 300 a v s = 1 5v 350 400 monostable timing accuracy r a = 10k ? , c =0.1f, v s = 5v 2 % r a = 10k ? , c =0.1f, v s = 5v 858 1161 s monostable drift overtemperature v s = 5v, C 55 c t a +125c ( 6 ) 100 ppm/c v s = 10 v, C 55 c t a +125c ( 6 ) 150 v s = 15v, C 55 c t a +125c ( 6 ) 200 monostable drift over supply v s = 5v to 15v ( 6 ) 0.5 %/v astable timing accuracy r a = r b = 10k ? , c = 0.1f, v s = 5v 2 % r a = r b = 10k ? , c = 0.1f, v s = 5v 1717 2323 s maximum astable frequency r t = 1k ? , c t = 47pf, v s = 8v 5 mhz astable drift overtemperature v s = 5v, C 55 c t a +125c ( 6 ) 100 ppm/c v s = 10 v, C 55 c t a +125c ( 6 ) 150 v s = 15v, C 55 c t a +125c ( 6 ) 200 astable drift over supply v s = 5v to 15v ( 6 ) 0.5 %/v threshold voltage v s = 15v 61 67 72 %/ v s trigger voltage v s = 15v 27 32 37 %/ v s trigger current v s = 15v 50 na threshold current v s = 15v 50 na chip select on > 2/3 v s 50 67 72 %/ v s off < 1 /3 v s 28 33 50 notes: 3. exceeding the absolute maximum ratings may damage the device 4. the device is not guaranteed to function outside its operating ratings. 5. devices are esd protected, however handling precautions recommended . 6. not tested . downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 6 revision 6.1 electrical characteristics (continued) t a = 25c, bold values indicate C 40c t a +85c, unless noted. parameter condition min . typ. max . units output voltage drop v s = 15v, i sink = 20ma 0.3 1.25 v v s = 5v, i sink = 3.2ma 0.08 0.5 v s = 15v, i source = 20ma 14.1 14.7 v s = 5v, i source = 3.2ma 3.8 4.7 supply voltage functional operation ( 6 ) 2.7 18 v output rise time r l = 10m ? , c l = 10pf, v s = 5v ( 6 ) 15 ns output fall time r l = 10m ? , c l = 10pf, v s = 5v ( 6 ) 15 ns downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 7 revision 6.1 typical characteristics t a = 25 c, v in = +5v. downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 8 revision 6.1 mic1555 functional block diagrams mic155ym5/mic155yd5 block diagram with external components (monostable confi guration) mic1555ymu block diagram with external components (monostable configuration) downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 9 revision 6.1 mic1557 functional block diagram mic1557ym5/mic1557yd5 block diagram with external components (astable config uration) downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 10 revision 6.1 functional description the mic1555/7 provides the logic for creating simple rc timer or oscillator circuits. the mic1555 has separate thr (threshold) and trg (trigger) connections for monostable (one - shot) or astable (oscillator) operation. the mic1557 has a single t/t (threshold and trigger) connection for astable (oscillator) operation only. the mic1557 includes a cs (chip select/reset) control. for more information, refer to the mic1555 functional block diagrams and mic1557 functional block diagram . supply voltage supply (vs) is rated for +2.7v to +18v. an external capacitor is recommended to decouple no ise. resistive divider the resistive voltage divider is constructed of three equal value resistors to produce 1/3vs and 2/3vs voltage for trigger and threshold reference voltages. chip select/reset (mic1555ymu and mic1557 only) chip select/reset (cs) controls the bias supply to the oscillators internal circuitry. cs must be connected to cmos logic - high or logic - low levels. floating cs will result in unpredictable operation. when the chip is deselected, the supply current is less than 1a. forcing cs low resets the device by setting the flip flop, forcing the output low. if chip select functionality is not desired, cs may be connected directly to vs. threshold comparator the threshold comparator is connected to s (set) on the rs flip - flop. when the threshold voltage (2/3vs) is reached, the flip - flop is set, making the output low. thr is dominant over trg. trigger comparator the trigger comparator is connected to r (reset) on the rs flip - flop. when trg (trigger) goes below the trigger voltage (1/3vs), th e flip - flop resets, making the output high. flip - flop and output a reset signal causes q to go low, turning on the p - channel mosfet and turning off the n - channel mosfet. this makes the output rise to nearly vs. a set signal causes q to go high, turning off the p - channel mosfet, and turning on the n - channel mosfet, grounding out. basic monostable operation a momentary low signal applied to trg causes the output to go high. the external capacitor charges slowly through the external resistor. when threshold voltage (v thr ) reaches 2/3vs, the output is switched off, discharging the capacitor. during power - on, a single pulse may be generated. for more information, refer to the mic1555 functional block diagrams . basic astable operation refer to the mic1557 functional diagram. the mic1557 starts with t/t low, causing the output to go high. the external capacitor charges slowly through the external resistor. when v t/t reaches 2/3vs (threshold voltage), the output is switched off, slowly discharging the capacitor. when v t/t decreases to 1/3vs (trigger voltage), the output is switched on, causing v t/t to rise again, repeating the cycle. for more information, refer to the mic1557 functional block diagram . downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 11 revision 6.1 application information basic monostable (one - shot) circuit a monostable oscillator produces a single pulse each time that it is triggered, and is often referred to as a one - shot. the pulse width is constant, while the time between pulses depends on the trigger input. one - shots are generally used to stre tch incoming pulses, of varying widths, to a fixed width. the ittybitty mic1555 is designed for monostable operation, but may also be connected to provide astable oscillations. the pulse width is determined by the time it takes to charge a capacitor from ground to a comparator trip point. if the capacitor (c t ) is charged through a resistor (r t ) connected to the output of an mic1555, the trip point is approximately 1.1r t c t (the same time as the initial power - on cycle of an astable circuit.) if the trigger pulse of an mic1555 remains low longer than the output pulse width, short oscilla tions may be seen in the output of a one - shot circuit, since the threshold pin has precedence over the trigger pin. these occur since the output goes low when the threshold is exceeded, and then goes high again as the trigger function is asserted. ac coupling the input with a series capacitor and a pull - up resistor, with an rc time constant less than the pulse width, will prevent these short oscillations. a diode (d t ) in parall el with (r t ) resets the one - shot quickly. figure 1 . one - shot diagram the period of a monostable circuit is: t = k 2 rc where: t = period (s) k 2 = c onstan t (see typical characteristics ) r = resistance (?) c = capacitance (f) basic astable (oscillator) circuits an astable oscillator switches between two states, on and off, producing a continuous square wave. the ittybitty mic1557 is optimized for this function, with the two comparator inputs, threshold and trigger (t/t), tied together internally. cs is brought out to allow on - off control of the oscillator. the mic1555 may also be used as an astable oscillator by t ying the threshold and trigger pins together, forming a t/t pin. if a resistor (r t ) is connected from the output to a grounded timing capacitor (c t ), the voltage at their junction will ramp up from ground when the output goes high. if the t/t pin is connected to this junction, the output will switch low when the ramp exceeds 2/3 of the input voltage. the junction's voltage ramps down toward ground while the output is low. when the ramp is below 1/3 of the input voltage, the output switches to high, and the junction ramps up again. the continuing frequency of an mic1555/7 astable oscillator depends on the rc time constant, and is approximately 0.7/rc below 1mhz. at frequencies above 1mhz the rc multiplier increases as capacitance is decreased, and propagation delay becomes dominant. non - symmetrical oscillator operation is possible at frequencies up to 5mhz. if a duty cycle other than 50% is desired, a low - power signal diode may be connected in series with the timing resistor (r a ), and a second resistor (r b ) in series with an opposite facing switching diode and resistor connected in parallel (see figure 2 ). the frequency is then made up of two components, the charging time (t a ) and the discharging time (t b ) t a = 0.7r a c t and t b = 0.7r b c t . the frequency is the reciprocal of the sum of the two times t a + t b , so the total time is 1.4r t c t . the first half - cycle of an astable, after power - on or cs enable, is lengthened since the capacitor is charging from ground instead of the 1/3 input trigger trip voltage, to 1.1r c , the same as a monostable pulse. downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 12 revision 6.1 figure 2 . oscillator diagram the mic1555 or mic1557 can be used to construct an os cillator. the frequency of an astable oscillator is: rc k 1 f 1 = where: f = frequency (hz) k 1 = c onstan t (see typical characteristics ) r = resistance (?) c = capacitance (f) to use the mic1555 as an oscillator, connect trg to thr. figure 3 . mic1555 oscillator configuration the mic1555 ymu and mic1557 feature a cs input. with a logic - low signal , cs places the part into a <1 a shutdown state. if unused, the cs input must be pulled up. figure 4 . mic1557 oscillator configuration falling - edge triggered monostable circuit the mic1555 may be triggered by an ac - coupled falling - edge, as sho wn in figure 5 . the rc time constant of the input capacitor and pull - up resistor should be less than the output pulse time, to prevent multiple output pulses. a diode across the timing resistor provides a fast reset at the end of the positive timing pulse. figure 5 . falling edge trigger configuration downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 13 revision 6.1 rising - edge triggered monostable circuit the mic1555 may be triggered by a n ac - coupled rising - edge, as shown in figure 6 . the pulse begins when the ac - coupled input rises, and a diode from the output holds the thr input low until trg discharges to 1/3vs. this circuit provides a low - going output pulse. figure 6 . rising edge trigger configuration accuracy the two comparators in the mic1555/7 use a resistor voltage divider to set the threshold and trigger trip points to approximately 2/3 and 1/3 of the input voltage, respectively. since the charge and discharge rates of an rc circuit are dependent on the applied voltage, the timing remains constant if the input voltage varies. if a duty cycle of exactly 50% (or any other value from 1 to 99%), two resistors (or a variable resistor) and two diodes are needed to vary the charge and discharge times. the forward voltage of diodes varies with temperature, so some change in frequency will be seen with tempera ture extremes, but the duty cycle should track. for absolute timing accuracy, the mic1555/7 output could be used to control constant current sources to linearly charge and discharge the capacitor, at the expense of added components and board space. long ti me delays timing resistors larger than 1m? or capacitors larger than 10f are not recommended due to leakage current inaccuracies. time delays greater than 10 seconds are more accurately produced by dividing the output of an oscillator by a chain of flip -f lop counter stages. to produce an accurate one - hour delay, for example, divide a 4.55hz mic1557 oscillator by 16,384 (4000hex, 214) using a cd4020 cmos divider. 4.5hz may be generated with a 1f ct and approximately 156k?. inverting schmitt trigger as sho wn in figure 7 , t he trip points of the mic1555/7 are defined as 1/3 and 2/3vs, which allows either device to be used as a signal conditioning inverter, with hysteresis. a slowly changing input on t/t will be converted to a fast rise or fall - time opposite direction rail - to - rail output voltage. this output maybe used to directly drive the gate of a logic - level p - channel mosfet with a gate pull - up resistor. this is an inverted logic low - side logic level mosfet driver. a standard n - channel mosfet may be driven by a second mic1555/7, powered by 12v to 15v, to level - shift the input. figure 7 . schmitt trigger charge - pump low - side mosfet drivers a standard mosfet requires approximately >5v to fully enhance the gate for minimum r ds(on) . substituting a logic - level mosfet reduces the required gate voltage, allowing an mic1557 to be used as an inverting schmitt t rigger, described above. an mic1557 may be configured as a voltage quadruple r to boost a 5v input to over 15v to fully enhance an n - channel mosfet which may have its drain connected to a higher voltage, through a high - side load. attl high signal applied to cs enables a 1 0khz oscillator, which quickly develops 15v at the gate of the mosfet, clamped by a z ener diode. a resistor from the gate to ground ensures that the fet will turn off quickly when the mic1557 is turned off. figure 8 . charge pump downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 14 revision 6.1 audible voltmeter if an additional charge or discharge source is connected to the timing capacitor, the frequency may be shifted by turning the source on or off. an mic1555 oscillator, powered by the circuit under test, may be used to drive a small loud speaker or piezo - electric transducer to provide a medium frequency for an open or high impedance state at the probe. a high tone is generated for a high level, and a lower frequency for a logic low on the probe. figure 9 . audibl e voltmeter downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 15 revision 6.1 package information and recommended land pattern ( 7 ) 5- pin sot - 23 (m5) note: 7. package information is correct as of the publication date. for updates and most current information, go to www.micrel.com . downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 16 revision 6.1 package information and recommended land pattern ( 7 ) (continued) 5- pin thin sot - 23 (d5) downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 17 revision 6.1 package information and recommended land pattern ( 7 ) (continued) 10 - pin 2mm 2mm utdfn ( mu ) downloaded from: http:/// micrel, inc. mic1555/1557 august 12 , 2015 18 revision 6.1 micrel, inc. 2180 fortune drive san jose, ca 95131 usa tel +1 (408) 944 - 0800 fax +1 (408) 474 - 1000 web http://www.micrel.com micrel, inc. is a leading global manufacturer of ic solutions for the worldwide high performance linear and power, lan, and timing & communications markets. the companys products include advanced mixed - signal, analog & power semiconductors; high - performance communication, clock manageme nt, mems - based clock oscillators & crystal - less clock generators, eth ernet switches, and physical layer transceiver ics. company customers include leading manufacturers of enterprise, consumer, industrial, mobile, telecommunications, automotive, and comp uter products. corpor ation headquarters and state - of - the - art wafer fabrication facilities are located in san jose, ca, with regional sales and support offices and advanced technology design centers situated throughout the americas, europe, and asia. additionally, the company maintains an extensive network of distributors and reps worldwide. micrel makes no representations or warranties with respect to the accuracy or completenes s of the information furnished in th is datasheet. this information is not intended as a warranty and micrel does not assume responsibility for its use. micrel reserves the right to change circuitry, specifications and descriptions at any time without notice. no license, whether express, implied, arising by estoppel or otherwise, to any intellectual pr operty rights is granted by this document. except as provided in micrels terms and conditions of sale f or such products, mic rel assumes no liability whatsoever, and micrel disclaims any express or implied warranty relating to the sale and/or use of mi crel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right. micrel products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can reasonably be expected to result in personal injury. life support devices or systems are device s or systems that (a) are intended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expec ted to result in a significant injury to the user . a purchasers use or sale of micrel products for use in life support appliances, devic es or systems is a purchasers own risk a nd purchaser agrees to fully indemnify micrel for any damages resulting from such use or sale. ? 20 04 micrel, incorporated. downloaded from: http:/// |
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