NCS22, NCS22, NCS222, NCS222 Comparators,.8 V to 6 V,, s, Rail-to-Rail, Open Drain and Push-Pull Outputs The NCS22 series is an industry first subone volt, low power comparator family. These devices consume only of supply current. They are guaranteed to operate at a low voltage of.8 V which allows them to be used in systems that require less than. V and are fully operational up to 6. V which makes them convenient for use in both 3. V and. V systems. dditional features include no output phase inversion with overdriven inputs, internal hysteresis, which allows for clean output switching, and railtorail input and output performance. The NCS22 Series is available in complementary pushpull and open drain outputs and a variety of packages. There are two industry standard pinouts for SOT23 and SC7 packages. The NCS22 is also available in the tiny DFN 2x2.2 package. The NCS22 and NCS222 are available in a UDFN.2x. package. See package option information in Table on page 2 for more information. 6 SOT23 (TSOP) SN SUFFIX CSE 483 DFN 2x2.2 SQL SUFFIX CSE 488 SC7 SQ SUFFIX CSE 49 Features Operating Voltage of.8 V to 6. V RailtoRail Input/Output Performance Low Supply Current of No Phase Inversion with Overdriven Input Signals Glitchless Transitioning in or out of TriState Mode Complementary or Open Drain Output Configuration Internal Hysteresis Propagation Delay of. s for NCS22 NCV Prefix for utomotive and Other pplications Requiring Unique Site and Control Change Requirements; ECQ Qualified and PPP Capable These Devices are PbFree and are RoHS Compliant Typical pplications Single Cell NiCd/NiMH Battery Powered pplications utomotive UDFN.2x. MU SUFFIX CSE 7 ORDERING INFORMTION See detailed ordering and shipping information in the package dimensions section on page 3 of this data sheet. DEVICE MRKING INFORMTION See general marking information in the device marking section on page 4 of this data sheet. End Products Cellphones, Smart Phones larm and Security Systems Personal Digital ssistants Semiconductor Components Industries, LLC, 2 March, 28 Rev. 2 Publication Order Number: NCS22/D
Table. COMPRTOR SELECTOR GUIDE Output Type Package Pinout Style utomotive Device Complementary PushPull Open Drain UDFN,.2x. SOT23 SC7 2 N/ No NCS22MUTG N/ Yes NCV22MUTBG* 2 No Yes No Yes No Yes NCS22SNTG NCV22SNTG* NCS22SN2TG NCV22SN2TG* NCS22SQ2T2G NCV22SQ2T2G* DFN, 2x2.2 N/ No NCS22SQLTG SOT23 SC7 No NCS222SNTG 2 No Yes NCS222SN2TG NCV222SN2TG* No NCS222SQT2G 2 No NCS222SQ2T2G UDFN,.2 x. N/ No NCS222MUTBG *NCV Prefix for utomotive and Other pplications Requiring Unique Site and Control Change Requirements; ECQ Qualified and PPP Capable. Output NonInverting Input 2 3 PIN CONNECTIONS V EE V EE 2 + - + - 4 Inverting NonInverting 3 Input Input Style Pinout (SNT) Output 4 Inverting Input Style 2 Pinout (SN2T, SQ2T2) Figure. SOT23 (NCS22, NCS222), SC7 (NCS22, NCS222) V EE 6 V OUT V EE 6 V OUT 2 NC NC 2 IN 3 4 IN+ IN 3 4 IN+ Top View Figure 2. DFN 2x2.2 (NCS22) Top View Figure 3. UDFN.2x. (NCS22/NCS222) 2
MXIMUM RTINGS Rating Symbol Value Unit Supply Voltage Range ( to V EE ) V S 6. V Noninverting/Inverting Input to V EE V CM.2 to ( +.2) V Operating Junction Temperature T J C Operating mbient Temperature Range NCS22, NCS222, NCS22, NCS222 NCV22, NCV222, NCV22 T 4 to + 4 to +2 Storage Temperature Range T stg 6 to + C Output Short Circuit Duration Time (Note ) t S Indefinite s ESD Tolerance (Note 2) NCS22 Human Body Model Machine Model NCS222 Human Body Model Machine Model NCS22 Human Body Model Machine Model NCS222 Human Body Model all pins except output Human Body Model output pin Machine Model Thermal Resistance, Junctiontombient TSOP DFN (Note 3) SC7 UDFN ESD HBM MM HBM MM HBM MM HBM HBM MM 2 2 2 2 9 2 R J 238 2 283 3 Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.. The maximum package power dissipation limit must not be exceeded. PD T J(max) T R J 2. ESD data available upon request. 3. For more information, refer to application note, ND88/D. C V C/W 3
NCS22 ELECTRICL CHRCTERISTICS (For all values =.8 V to 6. V, V EE = V,, unless otherwise noted.) (Note 4) Symbol Parameter Conditions Min Typ Max Unit V HYS Input Hysteresis 2. 8. 2 mv V IO Input Offset Voltage =.8 V T = T Low to T High (Note ) 2. + +2 mv = 3. V 6. T = T Low to T High 8. = 6. V. T = T Low to T High 7. V CM Common Mode Voltage Range V EE to V I LEK Output Leakage Current = 6. V 3.3 n I SC Output ShortCircuit Sourcing or Sinking V out = GND 7 m CMRR Common Mode Rejection Ratio V CM = 3 6 db I IB Input Bias Current. p PSRR Power Supply Rejection Ratio V S = 2.7 V 4 db I CC Supply Current =.8 V T = T Low to T High (Note ) 7.. = 3. V T = T Low to T High = 6. V T = T Low to T High V OH Output Voltage High =.8 V, I source =. m T = T Low to T High (Note ).2.22 = 3. V, I source = 3. m.2 T = T Low to T High.2 = 6. V, I source =. m.2 T = T Low to T High.2 V OL Output Voltage Low =.8 V, I sink =. m T = T Low to T High (Note )..2.2 V EE +. = 3. V, I sink = 3. m T = T Low to T High V EE +.2 = 6. V, I sink =. m V EE +.2 T = T Low to T High +6. +8. +. +7. 7 7 V EE +.2 V EE +.22 V EE +.2 V EE +.2 V EE +.2 V EE +.2 t PHL Propagation Delay, HightoLow 2 mv Overdrive, C L = pf 8 ns t PLH Propagation Delay, LowtoHigh 2 mv Overdrive, C L = pf 9 ns t FLL Output Fall Time = 6. V, C L = pf 3 ns t RISE Output Rise Time = 6. V, C L = pf 8. ns t PU Powerup Time 3 s Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions. 4. The limits over the extended temperature range are guaranteed by design only.. NCS22: T Low = 4 C, T High = + C; NCV22: T Low = 4 C, T High = +2 C V V 4
NCS222 ELECTRICL CHRCTERISTICS (For all values =.8 V to 6. V, V EE = V,, R pullup = k, unless otherwise noted.) (Note 6) Symbol Parameter Conditions Min Typ Max Unit V HYS Input Hysteresis 2. 8. 2 mv V IO Input Offset Voltage =.8 V T = T Low to T High (Note 7) 2. + +2 mv = 3. V 6. T = T Low to T High 8. = 6. V. T = T Low to T High 7. V CM Common Mode Voltage Range V EE to V I LEK Output Leakage Current = 6. V 3.3 n I SC Output ShortCircuit Sourcing or Sinking V out = GND 7 m CMRR Common Mode Rejection Ratio V CM = 3 6 db I IB Input Bias Current. p PSRR Power Supply Rejection Ratio V S = 2.7 V 4 db I CC Supply Current =.8 V T = T Low to T High (Note 7) 7.. = 3. V T = T Low to T High = 6. V T = T Low to T High V OL Output Voltage Low =.8 V, I sink =. m T = T Low to T High (Note 7) V EE +. = 3. V, I sink = 3. m T = T Low to T High V EE +.2 = 6. V, I sink =. m V EE +.2 T = T Low to T High +6. +8. +. +7. 7 7 V EE +.2 V EE +.22 V EE +.2 V EE +.2 V EE +.2 V EE +.2 t PHL Propagation Delay, HightoLow 2 mv Overdrive, C L = pf ns t PLH Propagation Delay, LowtoHigh 2 mv Overdrive, C L = pf 8 ns t FLL Output Fall Time = 6. V, C L = pf 6. ns t RISE Output Rise Time = 6. V, C L = pf 26 ns t PU Powerup Time 3 s Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions. 6. The limits over the extended temperature range are guaranteed by design only. 7. NCS222: T Low = 4 C, T High = + C; NCV222: T Low = 4 C, T High = +2 C V
NCS22 ELECTRICL CHRCTERISTICS (For all values =.8 V to 6. V, V EE = V,, unless otherwise noted.) (Note 8) Symbol Parameter Conditions Min Typ Max Unit V HYS Input Hysteresis 2. 4. 2 mv V IO Input Offset Voltage =.8 V T = T LOW to T HIGH 2 = 3. V 6. T = T LOW to T HIGH 8. = 6. V. T = T LOW to T HIGH 7. V CM Common Mode Voltage Range V EE to V I SC Output ShortCircuit Sourcing or V out = GND 6 m Sinking CMRR Common Mode Rejection Ratio V CM = 3 7 db I IB Input Bias Current. p PSRR Power Supply Rejection Ratio V S = 2.7 V 4 8 db I CC Supply Current =.8 V T = T LOW to T HIGH 7. 7... = 3. V T = T LOW to T HIGH 8. = 6. V 9. T = T LOW to T HIGH V OH Output Voltage High =.8 V, I source =. m T = T LOW to T HIGH CC.27 = 3. V, I source = 3. m T = T LOW to T HIGH CC.3 = 6. V, I source =. m T = T LOW to T HIGH CC.3..2.2 V OL Output Voltage Low =.8 V, I sink =. m T = T LOW to T HIGH EE = 3. V, I sink = 3. m V EE +.2 T = T LOW to T HIGH = 6. V, I sink =. m V EE +.2 T = T LOW to T HIGH t PHL Propagation Delay, HightoLow 2 mv Overdrive, C L = pf, + +2 +6. +8. +. +7. 7 7 V EE +.2 V EE +.27 V EE +.3 V EE +.3 V EE +.3 V EE +.3 62 ns t PLH Propagation Delay, LowtoHigh = 2.8 V 7 ns t FLL Output Fall Time = 6. V, C L = pf (Note 9) 22 ns t RISE Output Rise Time = 6. V, C L = pf (Note 9) 2 ns Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions. 8. The limits over the extended temperature range are guaranteed by design only. 9. Input signal: khz, squarewave signal with ns edge rate..ncs22: T LOW = 4 C, T HIGH = + C; NCV22: T LOW = 4 C, T HIGH = +2 C. mv V V 6
NCS222 ELECTRICL CHRCTERISTICS (For all values =.8 V to 6. V, V EE = V,, R pullup = k, unless otherwise noted.) (Note ) Symbol Parameter Conditions Min Typ Max Unit V HYS Input Hysteresis 2. 4. 2 mv V IO Input Offset Voltage =.8 V T = 4 C to C = 3. V T = 4 C to C = 6. V T = 4 C to C V CM Common Mode Voltage Range V EE to V I SC Output ShortCircuit Sourcing or V out = GND 6 m Sinking CMRR Common Mode Rejection Ratio V CM = 3 8 db I IB Input Bias Current. p PSRR Power Supply Rejection Ratio V S = 2.7 V 4 8 db I CC Supply Current =.8 V T = 4 C to C 7. 7 = 3. V T = 4 C to C = 6. V T = 4 C to C V OL Output Voltage Low =.8 V, I sink =. m T = 4 C to C = 3. V, I sink = 3. m T = 4 C to C = 6. V, I sink =. m T = 4 C to C t PHL Propagation Delay High to Low 2 mv Overdrive, C L = pf, = 2.8 V mv Overdrive, C L = pf, = 2.8 V mv Overdrive, C L = pf, = 2.8 V t PLH Propagation Delay Low to High 2 mv Overdrive, C L = pf, = 2.8 V mv Overdrive, C L = pf, = 2.8 V mv Overdrive, C L = pf, = 2.8 V t FLL Output Fall Time = 6. V, C L = pf (Note 2) t RISE Output Rise Time = 6. V, C L = pf (Note 2) 2 6. 8.. 7..3.4.4 8. 9. V EE +.4 V EE +.8 V EE +.2 + +2 +6. +8. +. +7. 7 7 V EE +.2 V EE +.27 V EE +.3 V EE +.3 V EE +.3 V EE +.3 mv 8 ns 3 22 ns 4 34. ns 23 ns Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions.. The limits over the extended temperature range are guaranteed by design only. 2.Input signal: khz, squarewave signal with ns edge rate. V 7
I CC, SUPPLY CURRENT ( ) 2 9. 8. 7. =. V I CC, SUPPLY CURRENT ( ) =. V = 2.7 V 6. 2 2 T, MBIENT TEMPERTURE ( C) Figure. NCS22 Series Supply Current versus Temperature 7.... 3 FREQUENCY (khz) Figure 2. NCS22 Series Supply Current versus Output Transition Frequency I CC, SUPPLY CURRENT ( ) 2 8. 6. 4. 2. T = 8 C T = 4 C V OH, OUTPUT VOLTGE HIGH STTE (mv). =. V. 2. 3. 4.. 6., SUPPLY VOLTGE (V) Figure 3. NCS22 Series Supply Current versus Supply Voltage.... I source, OUTPUT SOURCE CURRENT (m) Figure 4. NCS22 Output Voltage High State versus Output Source Current V OL, OUTPUT VOLTGE LOW STTE (mv). =. V.... I sink, OUTPUT SINK CURRENT, (m) Figure. NCS22 Series Output Voltage Low State versus Output Sink Current V OL, OUTPUT VOLTGE LOW STTE (mv) 6 4 2 8 6 4 2 =. V I LOD = 4. m T, MBIENT TEMPERTURE ( C) Figure 6. NCS22 Series Output Voltage Low State versus Temperature 8
V OH, OUTPUT VOLTGE HIGH STTE (mv) 4.9 4.94 4.93 4.92 4.9 4.9 4.89 4.88 T, MBIENT TEMPERTURE ( C) =. V I LOD = 4. m PROPGTION DELY ( s)..8.6.4 t PLH t PHL.2 =. V Input Overdrive = mv 2 2 T, MBIENT TEMPERTURE ( C) 7 Figure 7. NCS22 Series Output Voltage High State versus Temperature Figure 8. NCS22 Series Propagation Delay versus Temperature OUTPUT RESPONSE TIME (ns) 7 6 4 3 2 Input Overdrive = mv. 2. 3. 4.. 6. t LH t HL, SUPPLY VOLTGE (V) Figure 9. NCS22 Series Output Response Time versus Supply Voltage PROPGTION DELY ( s).2..8.6.4.2 t PLH t PHL = 2.7 V 2 INPUT OVERDRIVE (mv) Figure. NCS22 Series Propagation Delay versus Input Overdrive PROPGTION DELY ( s).8.7.6..4.3.2. t PLH t PHL 2 INPUT OVERDRIVE (mv) =. V 2 V/Div Output Input Overdrive = mv s/div Figure. NCS22 Series Propagation Delay versus Input Overdrive Figure 2. NCS22 Series Powerup Delay 9
V CM, INPUT COMMON MODE VOLTGE RNGE (V) 3. 2... 2. 3.. 2. 3. 4. V S, SUPPLY VOLTGE (V). 6. Figure 3. NCS22 Series Input Common Mode Voltage Range versus Supply Voltage I LEK, OUTPUT LEKGE CURRENT (n) 8 6 4 2 8 6 4 2 T = 4 C T = 8 C. 2. 3. 4. V OUT, OUTPUT VOLTGE (V). 6. 7. 8. Figure 4. NCS222 Output Leakage Current versus Output Voltage 4 INPUT BIS CURRENT (p) 3 2 4 2 2 4 6 8 2 TEMPERTURE ( C) Figure. Input Bias Current versus Temperature
OPERTING DESCRIPTION The NCS22 series is an industry first subone volt, low power comparator family. This series is designed for railtorail input and output performance. These devices consume only of supply current while achieving a typical propagation delay of. s at a 2 mv input overdrive. Figures and show propagation delay with various input overdrives. This comparator family is guaranteed to operate at a low voltage of.8 V up to 6. V. This is accomplished by the use of a modified analog CMOS process that implements depletion MOSFET devices. The commonmode input voltage range extends. V beyond the upper and lower rail without phase inversion or other adverse effects. This series is available in the SOT23 package. dditionally, the NCS22 device is available in the tiny DFN 2x2.2 package and the SC7 package. NCS22 is available in UDFN package. Output Stage The NCS22 has a complementary P and N Channel output stage that has capability of driving a railtorail output swing with a load ranging up to. m. It is designed such that shootthrough current is minimized while switching. This feature eliminates the need for bypass capacitors under most circumstances. The NCS222 has an open drain Nchannel output stage that can be pulled up to 6. V (max) with an external resistor. This facilitates mixed voltage system applications. IN (+) IN (+) Output Output IN () IN () V EE Figure 6. NCS22/NCS22 Complementary PushPull Output V EE Figure 7. NCS222/NCS222 Open Drain Output Configuration R x C x IN () NCS 22 IN (+) OUT V O R 2 R The oscillation frequency can be programmed as follows: f T 2.2 RxCx Figure 8. Schmitt Trigger Oscillator
M R t pf R 2 M IN () NCS 22 IN (+) OUT C V O t t R 3 The resistor divider R and R 2 can be used to set the magnitude of the input pulse. The pulse width is set by adjusting C and R 3. Figure 9. OneShot Multivibrator + V k +3 V R pullup IN () NCS k +3 V Logic Output 222 OUT IN (+) + V Logic Input This circuit converts V logic to 3 V logic. Using the NCS222/ allows for full V logic swing without creating overvoltage on the 3 V logic input. Figure 2. Logic Level Translator mv IN () NCS 22 IN (+) OUT Figure 2. ZeroCrossing Detector 2
ORDERING INFORMTION Device Pinout Style Output Type Package Shipping NCS22MUTG N/ Complementary PushPull UDFN (PbFree) NCV22MUTBG* N/ Complementary PushPull UDFN (PbFree) NCS22SNTG Complementary PushPull SOT23 (TSOP) (PbFree) NCV22SNTG* Complementary PushPull SOT23 (TSOP) (PbFree) NCS22SN2TG 2 Complementary PushPull SOT23 (TSOP) (PbFree) NCV22SN2TG* 2 Complementary PushPull SOT23 (TSOP) (PbFree) NCS22SQ2T2G 2 Complementary PushPull SC7 (PbFree) NCV22SQ2T2G* 2 Complementary PushPull SC7 (PbFree) NCS22SQLTG N/ Complementary PushPull DFN, 2x2.2 (PbFree) NCS222SNTG Open Drain SOT23 (TSOP) (PbFree) NCS222SN2TG 2 Open Drain SOT23 (TSOP) (PbFree) NCV222SN2TG* 2 Open Drain SOT23 (TSOP) (PbFree) NCS222SQT2G Open Drain SC7 (PbFree) NCS222SQ2T2G 2 Open Drain SC7 (PbFree) NCS222MUTBG N/ Open Drain UDFN (PbFree) This device contains 93 active transistors. For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8/D. *NCV Prefix for utomotive and Other pplications Requiring Unique Site and Control Change Requirements; ECQ Qualified and PPP Capable. 3
MRKING DIGRMS SOT23 (TSOP) SN SUFFIX CSE 483 Cx YW x = I for NCS22SNT J for NCS22SN2T M for NCS222SNT N for NCS222SN2T = ssembly Location Y = Year W = Work Week = PbFree Package (Note: Microdot may be in either location) SC7 SQ SUFFIX CSE 49 CBx M CBx = Specific Device Code x = for NCS22SQ2T2 D for NCS222SQT2G E for NCS222SQ2T2G M = Date Code* = PbFree Package (Note: Microdot may be in either location) *Date Code orientation, position, and underbar may vary depending upon manufacturing location. CB M DFN6 2x2.2 SQL SUFFIX CSE 488 CB M = Specific Device Code = Date Code* = PbFree Package (Note: Microdot may be in either location) *Date Code overbar and underbar may vary depending upon manufacturing location. x M UDFN6.2x. MU SUFFIX CSE 7 x M (Top View) S for Specific Device Code V for NCS222 (V with 8 Rotation) = Date Code = PbFree Package 4
PCKGE DIMENSIONS SOT23 / TSOP / SC9 SN SUFFIX CSE 4832 ISSUE M 2X 2X.2 NOTE T. B. T B 4 2 3 H G TOP VIEW SIDE VIEW C D X S.2 C SETING PLNE C B M K DETIL Z DETIL Z J END VIEW NOTES:. DIMENSIONING ND TOLERNCING PER SME Y4.M, 994. 2. CONTROLLING DIMENSION: MILLIMETERS. 3. MXIMUM LED THICKNESS INCLUDES LED FINISH THICKNESS. MINIMUM LED THICKNESS IS THE MINIMUM THICKNESS OF BSE MTERIL. 4. DIMENSIONS ND B DO NOT INCLUDE MOLD FLSH, PROTRUSIONS, OR GTE BURRS. MOLD FLSH, PROTRUSIONS, OR GTE BURRS SHLL NOT EXCEED. PER SIDE. DIMENSION.. OPTIONL CONSTRUCTION: N DDITIONL TRIMMED LED IS LLOWED IN THIS LOCTION. TRIMMED LED NOT TO EXTEND MORE THN.2 FROM BODY. MILLIMETERS DIM MIN MX B C 2.8.3.9 3..6. D.2. G.9 BSC H.. J..26 K.2.6 M S 2. 3. SOLDERING FOOTPRINT*.9.37.9.74 2.4.94..39.7.28 SCLE : mm inches *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.
PCKGE DIMENSIONS DFN6, 2x2.2 SQL SUFFIX CSE 4883 ISSUE G 6X 2X. C. C PIN ONE REFERENCE. C 2X. C. C.8 C B NOTE 3 b D ÍÍÍ ÍÍÍ ÍÍÍ TOP VIEW SIDE VIEW DETIL B 3 3 e B E DETIL D2 C SETING PLNE.4.6 NOTES:. DIMENSIONING ND TOLERNCING PER SME Y4.M, 994. 2. CONTROLLING DIMENSION: MILLIMETERS. 3. DIMENSION b PPLIES TO PLTED TERMINL ND IS MESURED BETWEEN.2 ND.3mm FROM TERMINL. 4. COPLNRITY PPLIES TO THE EXPOSED PD S WELL S THE TERMINLS.. TERMINL b MY HVE MOLD COMPOUND MTERIL LONG SIDE EDGE. 6. DETILS ND B SHOW OPTIONL VIEWS FOR END OF TERMINL LED T EDGE OF PCKGE ND SIDE EDGE OF PCKGE. MILLIMETERS DIM MIN NOM MX.8.9...3. 3.2 REF b.2.2.3 b.3.3.4 D 2. BSC D2.4..6 E 2.2 BSC e.6 BSC L.3.3.4 L... SOLDERING FOOTPRINT*..2.6.2 L 6X L DETIL Bottom View (Optional) 6 EDGE OF PCKGE 4 BOTTOM VIEW MOLD CMPD b X. C. C ÉÉ DETIL B Side View (Optional) B NOTE 3 EXPOSED Cu 3..2.9.7.6.2 SCLE : *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. 6
PCKGE DIMENSIONS SC88 (SC7/SOT33) SQ SUFFIX CSE 492 ISSUE L S G 4 B 2 3 D PL.2 (.8) M B M N NOTES:. DIMENSIONING ND TOLERNCING PER NSI Y4.M, 982. 2. CONTROLLING DIMENSION: INCH. 3. 49 OBSOLETE. NEW STNDRD 492. 4. DIMENSIONS ND B DO NOT INCLUDE MOLD FLSH, PROTRUSIONS, OR GTE BURRS. INCHES MILLIMETERS DIM MIN MX MIN MX.7.87.8 2.2 B.4.3..3 C.3.43.8. D.4.2..3 G.26 BSC.6 BSC H ---.4 ---. J.4...2 K.4.2..3 N.8 REF.2 REF S.79.87 2. 2.2 C J H K SOLDERING FOOTPRINT*..97.6.2.4.7.6.2.9.748 SCLE 2: mm inches *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. 7
PCKGE DIMENSIONS UDFN6,.2x.,.4P CSE 7 ISSUE D 2X X PIN ONE REFERENCE. C 2X. C.8 C. C L2 D ÉÉ ÉÉ TOP VIEW SIDE VIEW 3 B E (3) X L C L EXPOSED Cu SETING PLNE DETIL Bottom View (Optional) DETIL B Side View (Optional) EDGE OF PCKGE MOLD CMPD 3 NOTES:. DIMENSIONING ND TOLERNCING PER SME Y4.M, 994. 2. CONTROLLING DIMENSION: MILLIMETERS. 3. DIMENSION b PPLIES TO PLTED TERMINL ND IS MESURED BETWEEN.2 ND.3 mm FROM TERMINL. 4. COPLNRITY PPLIES TO THE EXPOSED PD S WELL S THE TERMINLS. MILLIMETERS DIM MIN MX.4... 3.27 REF b..2 D.2 BSC E. BSC e.4 BSC L.3.4 L.. L2.4. MOUNTING FOOTPRINT* 6X.42 6X.22 6X b. C B. C NOTE 3 6 4 e BOTTOM VIEW.4 PITCH.7 DIMENSIONS: MILLIMETERS *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. ON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. listing of ON Semiconductor s product/patent coverage may be accessed at /site/pdf/patentmarking.pdf. ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. Typical parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. ll operating parameters, including Typicals must be validated for each customer application by customer s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FD Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/ffirmative ction Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner. PUBLICTION ORDERING INFORMTION LITERTURE FULFILLMENT: Literature Distribution Center for ON Semiconductor 92 E. 32nd Pkwy, urora, Colorado 8 US Phone: 336727 or 8344386 Toll Free US/Canada Fax: 3367276 or 83443867 Toll Free US/Canada Email: orderlit@onsemi.com N. merican Technical Support: 828298 Toll Free US/Canada Europe, Middle East and frica Technical Support: Phone: 42 33 79 29 8 ON Semiconductor Website: Order Literature: http:///orderlit For additional information, please contact your local Sales Representative NCS22/D