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rev.3.00 mar 10, 2006 page 1 of 14 ha17339a series quadruple comparators rej03d0675-0300 rev.3.00 mar 10, 2006 description the ha17339a series products are comparators designed for general purpose, especially for power control systems. these ics operate from a single power-supply voltage over a wide range of voltages, and feature a reduced power- supply current since the supply current is independent of the supply voltage. these comparators have the merit which ground is included in the common-mode input voltage range at a single- voltage power supply operation. these products have a wide range of applications, including limit comparators, simple a/d converters, pulse/square-wave/time delay generators, wi de range vco circuits, mos clock timers, multivibrators, and high-voltage logic gates. features ? wide power-supply voltage range : 2 to 36 v ? very low supply current : 0.8 ma typ. ? low input bias current : 25 na typ. ? low input offset current : 5 na typ. ? low input offset voltage : 2 mv typ. ? the common-mode input voltage range includes ground ? output voltages compatible with cmos logic systems
ha17339a series rev.3.00 mar 10, 2006 page 2 of 14 ? low electro-magnetic susceptibility measurement condition 1 k ? + 1 k 0.01 f ? 10 dbm rf signal source (for quasi-rf noise) vcc = 5 v vcc vout vin 5.1 k ? ha17339a vout vs. vin vout (v) 6.0 5.0 4.0 3.0 2.0 1.0 0.0 ? 1.0 0.85 0.90 0.95 1.00 1.10 1.05 1.15 vin (v) 1 v ha17339a (10 mhz) ha17339a (100 mhz) ha17339a (0 hz) ha17339 vout vs. vin vout (v) 6.0 5.0 4.0 3.0 2.0 1.0 0.0 ? 1.0 0.85 0.90 0.95 1.00 1.10 1.05 1.15 vin (v) ha17339 (10 mhz) ha17339 (100 mhz) ha17339 (0 hz) ordering information type no. application package name package code ha17339a dip-14 pin prdp0014ab-b ha17339af sop-14 pin (jeita) prsp0014df-b ha17339arp sop-14 pin (jedec) prsp0014de-a ha17339at commercial use tssop-14 pin ptsp0014ja-b
ha17339a series rev.3.00 mar 10, 2006 page 3 of 14 pin arrangement 1 2 3 4 5 6 7 14 13 12 11 10 9 8 ? + 1 ? + 4 ? + 2 ? + 3 (top view) vout3 vout4 gnd vin(+)4 vin( ? )4 vin(+)3 vin( ? )3 vout2 vout1 v cc vin( ? )1 vin(+)1 vin( ? )2 vin(+)2 circuit structure (1/4) q 2 q 3 q 4 q 1 q 5 q 6 q 7 q 8 vout vin(+) vin( ? ) v cc note: if input/output terminals voltage over the absolute maximum ratings, there is possibility of mis-operation, characteristics deterioration and destruction, because of the current?s flowing to parasitic diode in ic. the input/output terminals are recommended to be protected with the clamp circuit which using the diode with low forward voltage (like schottky barrier diode) when there is a possibility for the input/output terminals voltage exceeds the absolute maximum ratings.
ha17339a series rev.3.00 mar 10, 2006 page 4 of 14 absolute maximum ratings (ta = 25 c) item symbol ratings unit power supply voltage v cc 36 v differential input voltage vin(diff) v cc v input voltage vin ? 0.3 to +v cc v output pin voltage vout ? 0.3 to +36 v output current iout * 1 20 ma dip 625 * 2 sop 625 * 3 allowable power dissipation tssop p t 400 * 4 mw operating temperature topr ? 40 to +85 c storage temperature tstg ? 55 to +125 c notes: 1. these products can be destroyed if the output and v cc are shorted together. t he maximum output current is the allowable value for continuous operation. 2. ha17339a: these are the allowable values up to ta = 50 c. derate by 8.3 mw/ c above that temperature. 3. ha17339af/arp: when it is mounted on glass epoxy board of 40 mm 40 mm 1.6 mmt with 10% wiring density, value at ta 25 c. if ta > 25 c, derated by 6.25 mw/ c. when it is mounted on glass epoxy board of 40 mm 40 mm 1.6 mmt with 30% wiring density. if ta > 32 c, derated by 6.70 mw/ c. 4. ha17339at: these are the allowable values up to ta = 25 c. derate by 4 mw/ c above that temperature. electrical characteristics (v cc = 5 v, ta = 25 c) item symbol min typ max unit test conditions input offset voltage v io ? 2 7 mv output switching point: when v o = 1.4v, r s = 0 ? input offset current i io ? 5 50 na ? i in(+) ? i in( ? ) ? input bias current i ib ? 25 250 na i in(+) or i in( ? ) common-mode input voltage * 1 v cm 0 ? v cc ? 1.5 v supply current i cc ? 0.8 2 ma r l = voltage gain * 3 a v ? (200) ? v/mv r l = 15k ? response time * 2,3 t r ? (1.3) ? s v rl = 5v, r l = 5.1k ? output sink current i o(sink) 6 16 ? ma v in( ? ) = 1v, v in(+) = 0, v o 1.5v output saturation voltage v o(sat) ? 200 400 mv v in( ? ) = 1v, v in(+) = 0, iosink = 3ma output leakage current * 3 i lo ? (0.1) ? na v in(+) = 1v, v in( ? ) = 0, v o = 5v notes: 1. voltages more negative than ? 0.3 v are not allowed for the common-mode input voltage or for either one of the input signal voltages. 2. the stipulated response time is the value for a 100 mv input step voltage that has a 5 mv overdrive. 3. design spec.
ha17339a series rev.3.00 mar 10, 2006 page 5 of 14 test circuits 1. input offset voltage (v io ), input offset current (i io ), and input bias current (i ib ) test circuit v ? + + ? v cc r l 51k v o 470 sw2 rf 5 k r 20 k r 20 k sw1 r s 50 r s 50 v c2 v c1 rf 5k sw1 on off on off sw2 on off off on vout v o1 v o2 v o3 v o4 v c1 = 1 2 v cc v c2 = 1.4v v io = | v o1 | 1 + rf / r s (mv) i io = | v o2 ? v o1 | r(1 + rf / r s ) (na) i ib = | v o4 ? v o3 | 2 ? r(1 + rf / r s ) (na) 2. output saturation voltage (v o sat) output sink current (iosink), and common-mode input voltage (v cm ) test circuit v c1 v cc 50 50 50 5k 1.6k 1 sw1 sw3 2 1 2 item v o sat v c1 2v v c2 0v v c3 ? sw1 1 sw2 1 sw3 1 at v cc = 5v 3 at v cc = 15v unit v iosink 2v 0v 1.5v 1 1 2 ma v cm 2v ? 1 to v cc ? 2 switched between 1 and 2 3 v ? + sw2 v c2 4.87k v c3 3. supply current (i cc ) test circuit a ? + v cc i cc : r l = 1v
ha17339a series rev.3.00 mar 10, 2006 page 6 of 14 4. voltage gain (a v ) test circuit (r l = 15k ? ) + + ? ? v cc r l 15k v o 50 50 10 vin 30k 20k 20k 10k +v ? v a v = 20 log v o1 ? v o2 v in1 ? v in2 (db) 5. response time (t r ) test circuit ? + v cc v o r l 5.1k 12v sw 120k 50 30k 50 p.g vin +v 24k v r 5 k ? v t r : r l = 5.1k ? , a 100mv input step voltage that has a 5mv overdrive ? with v in not applied, set the switch sw to the off position and adjust v r so that v o is in the vicinity of 1.4v. ? apply v in and turn the switch sw on. 90% 10% t r
ha17339a series rev.3.00 mar 10, 2006 page 7 of 14 characteristic curves 010203040 60 50 40 30 20 10 input bias current i ib (na) power-supply voltage v cc (v) input bias current vs. power-supply voltage characteristics ? 55 ? 15 45 85 125 90 80 70 60 50 40 30 20 10 0 input bias current i ib (na) ambient temperature ta ( c) input bias current vs. ambient temperature characteristics ? 35 5 25 65 105 ? 55 ? 15 45 85 125 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 supply current i cc (ma) ambient temperature ta ( c) supply current vs. ambient temperature characteristics 010203040 1.6 1.4 1.2 1.0 0.8 0.6 supply current i cc (ma) power-supply voltage v cc (v) supply current vs. power-supply voltage characteristics ? 35 5 25 65 105 v cc = 5 v ta = 25 c ta = 25 c r l = v cc = 5 v r l =
ha17339a series rev.3.00 mar 10, 2006 page 8 of 14 ? 55 ? 15 45 85 125 45 40 35 30 25 20 15 10 5 0 output sink current iosink (ma) ambient temperature ta ( c) output sink current vs. ambient temperature characteristics ? 35 5 25 65 105 ? 55 ? 15 45 85 125 130 125 120 115 110 105 100 95 90 85 voltage gain a v (db) ambient temperature ta ( c) voltage gain vs. ambient temperature characteristics ? 35 5 25 65 105 010203040 30 25 20 15 10 5 0 output sink current iosink (ma) power-supply voltage v cc (v) output sink current vs. power-supply voltage characteristics 010203040 130 120 110 100 90 80 70 voltage gain a v (db) power-supply voltage v cc (v) voltage gain vs. power-supply voltage characteristics v cc = 5 v vin( ? ) = 1 v vin(+) = 0 vout = 1.5 v v cc = 5 v r l = 15 k ? ta = 25 c r l = 15 k ?
ha17339a series rev.3.00 mar 10, 2006 page 9 of 14 ha17339a application examples the ha17339a houses four independent comparators in a single package, and operates over a wide voltage range at low power from a single-voltage power supply. since the common-mode input voltage range starts at the ground potential, the ha17339a is particularly suited for single-v oltage power supply applications. this section presents several sample ha17339a applications. ha17339a application notes 1. square-wave oscillator the circuit shown in figure one has the same structure as a single-voltage power supply astable multivibrator. figure 2 shows the waveforms generated by this circuit. 100k c 75pf v cc v cc 4.3k v cc vout 100k ? + ha17339a 100k r 100k figure 1 square-wave oscillator (2) horizontal: 5 v/div, vertical: 5 s/div, v cc = 15 v (1) horizontal: 2 v/div, vertical: 5 s/div, v cc = 5 v figure 2 operating waveforms
ha17339a series rev.3.00 mar 10, 2006 page 10 of 14 2. pulse generator the charge and discharge circuits in the circuit from figure 1 are separated by diodes in this circuit. (see figure 3.) this allows the pulse width and the duty cycle to be set independently. figure 4 shows the waveforms generated by this circuit. 1m 80pf c v cc v cc v cc vout 1m ? + ha17339a 1m r 2 100k r 1 1m d 2 is2076 d 1 is2076 figure 3 pulse generator horizontal: 5 v/div, vertical: 20 s/div, v cc = 15 v horizontal: 2 v/div, vertical: 20 s/div, v cc = 5 v figure 4 operating waveforms 3. voltage controlled oscillator in the circuit in figure 5, comparator a 1 operates as an integrator, a 2 operates as a comparat or with hysteresis, and a 3 operates as the switch that controls the oscillator freq uency. if the output vout1 is at the low level, the a 3 output will go to the low level and the a1 inverting input will be come a lower level than the a1 noninverting input. the a1 output will integrate this state and its output will increase towa rds the high level. when the output of the integrator a 1 exceeds the level on the comparator a 2 inverting input, a 2 inverts to the high level and both the output vout1 and the a 3 output go to the high level. this causes the integrator to integrate a negative state, resulting in its output decreasing towards the low level. then, when the a 1 output level becomes lower than the level on the a 2 noninverting input, the output vout1 is once again inverted to the low level. this operation generates a square wave on vout1 and a triangular wave on vout2. v cc ? + v cc +v c v cc /2 v cc /2 v cc v cc a 3 a 1 a 2 50k frequency control voltage input v cc = 30v +250mv < +v c < +50v 700hz < / < 100khz output 2 output 1 10 100k 20k 5.1k 3k v cc 3k 100k 20k 0.1 ha17339a ? + ha17339a 0.01 500p ha17339a ? + figure 5 voltage controlled oscillator
ha17339a series rev.3.00 mar 10, 2006 page 11 of 14 4. basic comparator the circuit shown in figure 6 is a basic comparator. when the input voltage v in exceeds the reference voltage v ref , the output goes to the high level. + ? v cc 3k ? vin v ref ha17339a figure 6 basic comparator 5. noninverting comparat or (with hysteresis) assuming +v in is 0v, when v ref is applied to the inverting input, the output will go to the low level (approximately 0v). if the voltage applied to +v in is gradually increased, the output will go high when the value of the noninverting input, +v in r 2 /(r 1 + r 2 ), exceeds +v ref . next, if +v in is gradually lowered, vout will be inverted to the low level once again when the value of the noninverting input, (vout ? v in ) r 1 /(r 1 + r 2 ), becomes lower than v ref . with the circuit constants shown in figure 7, assuming v cc = 15v and +v ref = 6v, the following formula can be derived, i.e. +v in 10m/(5.1m + 10m) > 6v, and vout will invert from low to high when +v in is > 9.06v. (vout ? v in ) (assuming vout = 15v) + v in < 6v r 1 r 1 + r 2 when +v in is lowered, the output will invert from high to low when +v in < 1.41v. therefore this circuit has a hysteresis of 7.65v. figure 8 shows the input characteristics. ? + vout 3k 10m r 1 r 2 5.1m v cc v cc +v ref +vin ha17339a figure 7 noninverting comparator 0 5 10 15 20 16 12 8 4 0 output voltage vout (v) input voltage v in (v) v cc = 15 v, +v ref = 6 v +vin = 0 to 10 v figure 8 noninverting comparator i/o transfer characteristics
ha17339a series rev.3.00 mar 10, 2006 page 12 of 14 6. inverting comparator (with hysteresis) in this circuit, the output vout inverts from high to low when +v in > (v cc + vout)/3. similarly, the output vout inverts from low to high when +v in < v cc /3. with the circuit constants shown in figure 9, assuming v cc = 15v and vout = 15v, this circuit will have a 5v hysteresis. figure 10 shows the i/o characteristics for the circuit in figure 9. ? + v cc vout 3k v cc v cc +vin 1m 1m 1m ha17339a figure 9 inverting comparator 0 5 10 15 20 16 12 8 4 0 output voltage vout (v) input voltage v in (v) v cc = 15 v figure 10 inverting comparator i/o transfer characteristics 7. zero-cross detector (single-voltage power supply) in this circuit, the noninverting input will essentially beheld at the potential determined by dividing v cc with 100k ? and 10k ? resistors. when v in is 0v or higher, the output will be low, and when v in is negative, vout will invert to the high level. (see figure 11.) ? + v cc vout vin v cc 5.1k 5.1k 5.1k 100k 100k 1s2076 10k 20m ha17339a figure 11 zero-cross detector
ha17339a series rev.3.00 mar 10, 2006 page 13 of 14 package dimensions ( ni/pd/au plating ) 7.62 max nom min dimension in millimeters symbol reference 19.2 6.3 5.06 a 1 z b 3 d e a b p c e l e 1 0.51 0.56 1.30 0.19 0.25 0.31 2.29 2.54 2.79 0 15 20.32 7.4 0.40 0.48 2.39 2.54 8 14 7 1 p 3 1 1 b d e e z b la a c e p-dip14-6.3x19.2-2.54 0.97g mass[typ.] dp-14av prdp0014ab-b renesas code jeita package code previous code 1.42 0.15 1.27 7.50 8.00 0.40 0.34 a 1 10.5 max nom min dimension in millimeters symbol reference 2.20 0.90 0.70 0.50 5.50 0.20 0.10 0.00 0.46 0.25 0.20 0.15 7.80 8 0 0.12 1.15 10.06 l 1 z h e y x c b p a 2 e d b 1 c 1 e l a index mark e 1 * 2 * 1 7 14 8 f * 3 p m x y d e h z b a p terminal cross section ( ni/pd/au plating ) b c detail f 1 1 l l a note) 1. dimensions" * 1 (nom)"and" * 2" do not include mold flash. 2. dimension" * 3"does not include trim offset. e p-sop14-5.5x10.06-1.27 0.23g mass[typ.] fp-14dav prsp0014df-b renesas code jeita package code previous code
ha17339a series rev.3.00 mar 10, 2006 page 14 of 14 14 8 7 f * 1 * 2 * 3 p m x y 1 e index mark b a z h e d terminal cross section ( ni/pd/au plating ) p b c 1 1 detail f l l a a l e e c 1 b 1 d e a 2 b p c x y h e z l 1 8.65 1.08 0.25 0 8 6.10 0.15 0.20 0.25 0.46 0.10 0.14 0.25 3.95 0.40 0.60 1.27 1.75 reference symbol dimension in millimeters min nom max 9.05 a 1 0.34 0.40 6.20 5.80 1.27 0.15 0.635 note) 1. dimensions" * 1 (nom)"and" * 2" do not include mold flash. 2. dimension" * 3"does not include trim offset. p-sop14-3.95x8.65-1.27 0.13g mass[typ.] fp-14dnv prsp0014de-a renesas code jeita package code previous code 0.83 0.10 0.65 6.20 6.60 0.20 0.15 a 1 5.30 max nom min dimension in millimeters symbol reference 1.10 0.6 0.5 0.4 4.40 0.10 0.07 0.03 0.25 0.20 0.15 0.10 6.40 8 0 0.13 1.0 5.00 l 1 z h e y x c b p a 2 e d b 1 c 1 e e l a index mark f * 1 * 2 * 3 p m x y 1 e 7 14 8 b z e h d a p terminal cross section ( ni/pd/au plating ) b c 1 1 detail f a l l note) 1. dimensions" * 1 (nom)"and" * 2" do not include mold flash. 2. dimension" * 3"does not include trim offset. p-tssop14-4.4x5-0.65 0.05g mass[typ.] ttp-14dv ptsp0014ja-b renesas code jeita package code previous code
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