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9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 1 of 22 philips semiconductors 74LVC1G384 bilateral switch 1. general description the 74LVC1G384 is a high-speed si-gate cmos device. the 74LVC1G384 provides an analog switch. the switch has input and output terminals (pins y and z) and an active low enable input (pin e). when pin e is high, the analog switch is turned off. 2. features n very low on-resistance: u 7.5 w (typ) at v cc = 2.7 v u 6.5 w (typ) at v cc = 3.3 v u 6.0 w (typ) at v cc =5v. n esd protection: u hbm eia/jesd22-a114-a exceeds 2 000 v u mm eia/jesd22-a115-a exceeds 200 v. n high noise immunity n cmos low power consumption n direct interface ttl-levels n latch-up performance meets requirements of jesd78 class i n multiple package options n speci?ed from - 40 c to +80 c and - 40 c to +125 c. 3. quick reference data 74LVC1G384 bilateral switch rev. 01 26 february 2004 product data sheet table 1: quick reference data ground = 0 v; t amb =25 c; t r =t f 3.0 ns. symbol parameter conditions min typ max unit t pzh , t pzl turn-on time e to y or z c l = 50 pf; r l = 500 w v cc = 3.3 v - 4.8 - ns v cc = 5.0 v - 3.3 - ns t phz , t plz turn-off time e to y or z c l = 50 pf; r l = 500 w v cc = 3.3 v - 5.4 - ns v cc = 5.0 v - 3.6 - ns c i input capacitance - 2 - pf
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 2 of 22 philips semiconductors 74LVC1G384 bilateral switch [1] c pd is used to determine the dynamic power dissipation (p d in m w). p d =c pd v cc 2 f i +(c l +c s ) v cc 2 f o where: f i = input frequency in mhz; f o = output frequency in mhz; c l = output load capacitance in pf; c s = maximum switch capacitance in pf; v cc = supply voltage in v. [2] the condition is v i = gnd to v cc . 4. ordering information 5. marking 6. functional diagram c pd power dissipation capacitance c l = 50 pf; f i = 10 mhz; v cc = 3.3 v [1] [2] - 15.2 - pf c s switch capacitance off-state - 5 - pf on-state - 9.5 - pf table 1: quick reference data continued ground = 0 v; t amb =25 c; t r =t f 3.0 ns. symbol parameter conditions min typ max unit table 2: ordering information type number package temperature range name description version 74LVC1G384gw - 40 c to +125 c - plastic surface mounted package; 5 leads sot353 74LVC1G384gv - 40 c to +125 c - plastic surface mounted package; 5 leads sot753 table 3: marking type number marking code 74LVC1G384gw yl 74LVC1G384gv yl fig 1. logic symbol. fig 2. iec logic symbol. 001aaa374 z y e 001aaa373 2 4# 1 x1 1 1
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 3 of 22 philips semiconductors 74LVC1G384 bilateral switch 7. pinning information 7.1 pinning 7.2 pin description 8. functional description 8.1 function table [1] h = high voltage level; l = low voltage level. fig 3. logic diagram. 001aaa372 y v cc z e fig 4. pin con?guration. 1 2 3 5 4 001aaa365 384 v cc z e gnd y table 4: pin description pin symbol description 1 y independent input or output 2 z independent output or input 3 gnd ground (0 v) 4 e enable input (active low) 5v cc supply voltage table 5: function table [1] input e switch l on-state h off-state
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 4 of 22 philips semiconductors 74LVC1G384 bilateral switch 9. limiting values [1] the input and output voltage ratings may be exceeded if the input and output current ratings are observed. 10. recommended operating conditions [1] to avoid drawing v cc current out of terminal z, when switch current ?ows in terminal y, the voltage drop across the bidirectional switch must not exceed 0.4 v. if the switch current ?ows into terminal z, no v cc current will ?ow out of terminal y. in this case there is no limit for the voltage drop across the switch. table 6: limiting values in accordance with the absolute maximum rating system (iec 60134). voltages are referenced to gnd (ground = 0 v). symbol parameter conditions min max unit v cc supply voltage - 0.5 +6.5 v v i input voltage [1] - 0.5 +6.5 v i ik input diode current v i < - 0.5 v or v i >v cc + 0.5 v - - 50 ma i sk switch diode current v i < - 0.5 v or v i >v cc + 0.5 v - 50 ma v s dc switch voltage range enable and disable mode - 0.5 v cc + 0.5 v i s dc switch source or sink current v s > - 0.5 v or v s 9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 5 of 22 philips semiconductors 74LVC1G384 bilateral switch 11. static characteristics table 8: static characteristics at recommended operating conditions; voltages are referenced to gnd (ground = 0 v). symbol parameter conditions min typ max unit t amb = - 40 c to +85 c [1] v ih high-level input voltage v cc = 1.65 v to 1.95 v 0.65 v cc -- v v cc = 2.3 v to 2.7 v 1.7 - - v v cc = 2.7 v to 3.6 v 2.0 - - v v cc = 4.5 v to 5.5 v 0.7 v cc -- v v il low-level input voltage v cc = 1.65 v to 1.95 v - - 0.35 v cc v v cc = 2.3 v to 2.7 v - - 0.7 v v cc = 2.7 v to 3.6 v - - 0.8 v v cc = 4.5 v to 5.5 v - - 0.3 v cc v i li input leakage current on control pin v i = 5.5 v or gnd; v cc = 5.5 v [2] - 0.1 5 m a i s(off) analog switch off-state current v i =v ih or v il ; |v s |=v cc - gnd; v cc = 5.5 v; see figure 5 [2] - 0.1 5 m a i s(on) analog switch on-state current v i =v ih or v il ; |v s |=v cc - gnd; v cc = 5.5 v; see figure 6 [2] - 0.1 5 m a i cc quiescent supply current v i =v cc or gnd; v s = gnd or v cc ; i o = 0 a; v cc = 5.5 v [2] - 0.1 10 m a d i cc additional quiescent supply current per control pin v i =v cc - 0.6 v; v s = gnd or v cc ; i o = 0 a; v cc = 5.5 v [2] - 5 500 m a c i input capacitance - 2 - pf r on(peak) switch on-state resistance (peak) v i = gnd to v cc ; see figure 7 and figure 8 i s = 4 ma; v cc = 1.65 v to 1.95 v - 35 130 w i s = 8 ma; v cc = 2.3 v to 2.7 v - 14 30 w i s = 12 ma; v cc = 2.7 v - 11.5 25 w i s = 24 ma; v cc = 3.0 v to 3.6 v - 8.5 20 w i s = 32 ma; v cc = 4.5 v to 5.5 v - 6.5 15 w r on(rail) switch on-state resistance rail v i = gnd i s = 4 ma; v cc = 1.65 v to 1.95 v - 10 30 w i s = 8 ma; v cc = 2.3 v to 2.7 v - 8.5 20 w i s = 12 ma; v cc = 2.7 v - 7.5 18 w i s = 24 ma; v cc = 3.0 v to 3.6 v - 6.5 15 w i s = 32 ma; v cc = 4.5 v to 5.5 v - 6 10 w v i =v cc i s = 4 ma; v cc = 1.65 v to 1.95 v - 12 30 w i s = 8 ma; v cc = 2.3 v to 2.7 v - 8.5 20 w i s = 12 ma; v cc = 2.7 v - 7.5 18 w i s = 24 ma; v cc = 3.0 v to 3.6 v - 6.5 15 w i s = 32 ma; v cc = 4.5 v to 5.5 v - 6 10 w
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 6 of 22 philips semiconductors 74LVC1G384 bilateral switch r on(?at) switch on-state resistance ?atness v i = gnd to v cc ; see figure 9 [3] i s = 4 ma; v cc = 1.8 v - 100 - w i s = 8 ma; v cc = 2.5 v - 17 - w i s = 12 ma; v cc = 2.7 v - 10 - w i s = 24 ma; v cc = 3.3 v - 5 - w i s = 32 ma; v cc = 5.0 v - 3 - w t amb = - 40 c to +125 c v ih high-level input voltage v cc = 1.65 v to 1.95 v 0.65 v cc -- v v cc = 2.3 v to 2.7 v 1.7 - - v v cc = 2.7 v to 3.6 v 2.0 - - v v cc = 4.5 v to 5.5 v 0.7 v cc -- v v il low-level input voltage v cc = 1.65 v to 1.95 v - - 0.35 v cc v v cc = 2.3 v to 2.7 v - - 0.7 v v cc = 2.7 v to 3.6 v - - 0.8 v v cc = 4.5 v to 5.5 v - - 0.3 v cc v i li input leakage current on control pin v i = 5.5 v or gnd; v cc = 5.5 v - - 100 m a i s(off) analog switch off-state current v i =v ih or v il ; |v s |=v cc - gnd; v cc = 5.5 v; see figure 5 - - 200 m a i s(on) analog switch on-state current v i =v ih or v il ; |v s |=v cc - gnd; v cc = 5.5 v; see figure 6 - - 200 m a i cc quiescent supply current v i =v cc or gnd; v s = gnd or v cc ; i o = 0 a; v cc = 5.5 v - - 200 m a d i cc additional quiescent supply current per control pin v i =v cc - 0.6 v; v s = gnd or v cc ; i o = 0 a; v cc = 5.5 v - - 5000 m a r on(peak) switch on-state resistance (peak) v i = gnd to v cc ; see figure 7 i s = 4 ma; v cc = 1.65 v to 1.95 v - - 180 w i s = 8 ma; v cc = 2.3 v to 2.7 v - - 45 w i s = 12 ma; v cc = 2.7 v - - 38 w i s = 24 ma; v cc = 3.0 v to 3.6 v - - 30 w i s = 32 ma; v cc = 4.5 v to 5.5 v - - 23 w table 8: static characteristics continued at recommended operating conditions; voltages are referenced to gnd (ground = 0 v). symbol parameter conditions min typ max unit
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 7 of 22 philips semiconductors 74LVC1G384 bilateral switch [1] typical values are measured at t amb =25 c. [2] these typical values are measured at v cc = 3.3 v [3] these typical values are measured over the operating temperature range from - 40 c to +125 c. r on(rail) switch on-state resistance rail v i = gnd i s = 4 ma; v cc = 1.65 v to 1.95 v - - 45 w i s = 8 ma; v cc = 2.3 v to 2.7 v - - 30 w i s = 12 ma; v cc = 2.7 v - - 27 w i s = 24 ma; v cc = 3.0 v to 3.6 v - - 23 w i s = 32 ma; v cc = 4.5 v to 5.5 v - - 15 w v i =v cc i s = 4 ma; v cc = 1.65 v to 1.95 v - - 45 w i s = 8 ma; v cc = 2.3 v to 2.7 v - - 30 w i s = 12 ma; v cc = 2.7 v - - 27 w i s = 24 ma; v cc = 3.0 v to 3.6 v - - 23 w i s = 32 ma; v cc = 4.5 v to 5.5 v - - 15 w table 8: static characteristics continued at recommended operating conditions; voltages are referenced to gnd (ground = 0 v). symbol parameter conditions min typ max unit
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 8 of 22 philips semiconductors 74LVC1G384 bilateral switch v i =v cc and v o = gnd; v i = gnd and v o =v cc v i =v cc and v o = open circuit; v i = gnd and v o = open circuit fig 5. test circuit for measuring switch off-state current. fig 6. test circuit for measuring switch on-state current. 001aaa370 z y i s v i gnd v cc v ih v o e i s 001aaa369 z y i s v i gnd v cc v il v o e v i = gnd to v cc ; r on =v s /i s v s = gnd to v cc. fig 7. test circuit for measuring switch on-resistance. fig 8. typical switch on-resistance as a function of input voltage. 001aaa371 z y i s v i gnd v cc v il v s e 5 01234 v i (v) r on ( w ) 10 2 10 1 mna673 v cc = 1.8 v 2.5 v 2.7 v 3.3 v 5.0 v
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 9 of 22 philips semiconductors 74LVC1G384 bilateral switch a. v cc = 2.5 v b. v cc = 2.7 v c. v cc = 3.3 v d. v cc = 5.0 v fig 9. switch on-resistance at various supply voltages as a function of input voltage. 0 01 3 15 5 10 2 v l (v) r on ( w ) mna663 t amb = + 85 c + 25 c - 40 c 0 01 3 15 5 10 2 v l (v) r on ( w ) mna664 t amb = + 85 c + 25 c - 40 c 012 4 10 0 8 3 6 4 2 mna665 v l (v) r on ( w ) + 85 c t amb = + 25 c - 40 c 05 8 2 4 6 3 5 7 1234 mna666 v i (v) r on ( w ) t amb = + 85 c + 25 c - 40 c
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 10 of 22 philips semiconductors 74LVC1G384 bilateral switch 12. dynamic characteristics table 9: dynamic characteristics at recommended operating conditions; voltages are referenced to gnd (ground = 0 v); test circuit figure 12 . symbol parameter conditions min typ max unit t amb = - 40 c to +85 c [1] t phl , t plh propagation delay y to z or z to y see figure 10 [2] v cc = 1.65 v to 1.95 v - 0.8 2.0 ns v cc = 2.3 v to 2.7 v - 0.4 1.2 ns v cc = 2.7 v - 0.4 1.0 ns v cc = 3.0 v to 3.6 v - 0.3 0.8 ns v cc = 4.5 v to 5.5 v - 0.2 0.6 ns t pzh , t pzl turn-on time e to y or z see figure 11 v cc = 1.65 v to 1.95 v 1.0 10.0 12.0 ns v cc = 2.3 v to 2.7 v 1.0 5.7 6.5 ns v cc = 2.7 v 1.0 5.4 6.0 ns v cc = 3.0 v to 3.6 v 1.0 4.8 5.0 ns v cc = 4.5 v to 5.5 v 1.0 3.3 4.2 ns t phz , t plz turn-off time e to y or z see figure 11 v cc = 1.65 v to 1.95 v 1.0 7.4 10.0 ns v cc = 2.3 v to 2.7 v 1.0 4.1 6.9 ns v cc = 2.7 v 1.0 4.9 7.5 ns v cc = 3.0 v to 3.6 v 1.0 5.4 6.5 ns v cc = 4.5 v to 5.5 v 1.0 3.6 5.0 ns c pd power dissipation capacitance c l = 50 pf; f i = 10 mhz; v i = gnd to v cc [3] [4] v cc = 2.5 v - 13.7 - pf v cc = 3.3 v - 15.2 - pf v cc = 5.0 v - 18.3 - pf t amb = - 40 c to +125 c t phl , t plh propagation delay y to z or z to y see figure 10 [2] v cc = 1.65 v to 1.95 v - - 3.0 ns v cc = 2.3 v to 2.7 v - - 2.0 ns v cc = 2.7 v - - 1.5 ns v cc = 3.0 v to 3.6 v - - 1.5 ns v cc = 4.5 v to 5.5 v - - 1.0 ns t pzh , t pzl turn-on time e to y or z see figure 11 v cc = 1.65 v to 1.95 v 1.0 - 15.5 ns v cc = 2.3 v to 2.7 v 1.0 - 8.5 ns v cc = 2.7 v 1.0 - 8.0 ns v cc = 3.0 v to 3.6 v 1.0 - 6.5 ns v cc = 4.5 v to 5.5 v 1.0 - 5.5 ns
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 11 of 22 philips semiconductors 74LVC1G384 bilateral switch [1] all typical values are measured at t amb =25 c. [2] t phl and t plh propagation delay is the calculated rc time constant of the typical switch on-resistance of the switch and the speci?ed capacitance when driven by an ideal voltage source (zero output impedance). [3] c pd is used to determine the dynamic power dissipation (p d in m w). p d =c pd v cc 2 f i +(c l +c s ) v cc 2 f o where: f i = input frequency in mhz; f o = output frequency in mhz; c l = output load capacitance in pf; c s = maximum switch capacitance in pf; v cc = supply voltage in v. [4] the condition is v i = gnd to v cc . 13. waveforms t phz , t plz turn-off time e to y or z see figure 11 v cc = 1.65 v to 1.95 v 1.0 - 13.0 ns v cc = 2.3 v to 2.7 v 1.0 - 9.0 ns v cc = 2.7 v 1.0 - 9.5 ns v cc = 3.0 v to 3.6 v 1.0 - 8.5 ns v cc = 4.5 v to 5.5 v 1.0 - 6.5 ns table 9: dynamic characteristics continued at recommended operating conditions; voltages are referenced to gnd (ground = 0 v); test circuit figure 12 . symbol parameter conditions min typ max unit measurement points are given in t ab le 10 . logic levels: v ol and v oh are typical output voltage drop that occur with the output load. fig 10. input (y or z) to output (z or y) propagation delays. table 10: measurement points supply voltage input output v cc v m v m 1.65 v to 1.95 v 0.5 v cc 0.5 v cc 2.3 v to 2.7 v 0.5 v cc 0.5 v cc 2.7 v 1.5 v 1.5 v 3.0 v to 3.6 v 1.5 v 1.5 v 4.5 v to 5.5 v 0.5 v cc 0.5 v cc mna667 t phl t plh v m v m y or z input z or y output gnd v i v oh v ol
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 12 of 22 philips semiconductors 74LVC1G384 bilateral switch measurement points are given in t ab le 11 . logic levels: v ol and v oh are typical output voltage drop that occur with the output load. fig 11. turn-on and turn-off times. table 11: measurement points supply voltage input output v cc v m v m v x v y 1.65 v to 1.95 v 0.5 v cc 0.5 v cc v ol + 0.1 v cc v oh - 0.1 v cc 2.3 v to 2.7 v 0.5 v cc 0.5 v cc v ol + 0.1 v cc v oh - 0.1 v cc 2.7 v 1.5 v 1.5 v v ol + 0.3 v v oh - 0.3 v 3.0 v to 3.6 v 1.5 v 1.5 v v ol + 0.3 v v oh - 0.3 v 4.5 v to 5.5 v 0.5 v cc 0.5 v cc v ol + 0.3 v v oh - 0.3 v 001aaa375 t plz t phz switch disabled switch enabled v y v x switch enabled output low-to-off off-to-low output high-to-off off-to-high y or z y or z e v i v ol v oh v cc v m gnd gnd t pzl t pzh v m v m
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 13 of 22 philips semiconductors 74LVC1G384 bilateral switch test data is given in t ab le 12 . de?nitions test circuit: r t = termination resistance should be equal to output impedance z o of the pulse generator. c l = load capacitance including jig and probe capacitance. r l = load resistance. v ext = test voltage for switching times. fig 12. load circuitry for switching times. table 12: test data supply voltage input load v ext v cc v i t r , t f c l r l t plh, t phl t pzh, t phz t pzl, t plz 1.65 v to 1.95 v v cc 2.0 ns 30 pf 1 k w open gnd 2 v cc 2.3 v to 2.7 v v cc 2.0 ns 30 pf 500 w open gnd 2 v cc 2.7 v 2.7 v 2.5 ns 50 pf 500 w open gnd 6.0 v 3.0 v to 3.6 v 2.7 v 2.5 ns 50 pf 500 w open gnd 6.0 v 4.5 v to 5.5 v v cc 2.5 ns 50 pf 500 w open gnd 2 v cc v ext v cc v i v o mna616 d.u.t. c l r t r l r l pulse generator
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 14 of 22 philips semiconductors 74LVC1G384 bilateral switch 14. additional dynamic characteristics table 13: additional dynamic characteristics at recommended conditions; typical values measured at t amb =25 c. symbol parameter conditions min typ max unit d sin sine-wave distortion f i = 1 khz; r l =10k w ; c l = 50 pf; see figure 13 v cc = 1.65 v - 0.032 - % v cc = 2.3 v - 0.008 - % v cc = 3.0 v - 0.006 - % v cc = 4.5 v - 0.001 - % f i = 10 khz; r l =10k w ; c l =50pf; see figure 13 v cc = 1.65 v - 0.068 - % v cc = 2.3 v - 0.009 - % v cc = 3.0 v - 0.008 - % v cc = 4.5 v - 0.006 - % f on-state(res) switch on-state signal frequency response r l = 600 w ; c l = 50 pf; f i = 1 mhz; see figure 14 [1] v cc = 1.65 v - 135 - mhz v cc = 2.3 v - 145 - mhz v cc = 3.0 v - 150 - mhz v cc = 4.5 v - 155 - mhz r l =50 w ; c l = 5 pf; f i = 1 mhz; see figure 14 [1] v cc = 1.65 v - >500 - mhz v cc = 2.3 v - >500 - mhz v cc = 3.0 v - >500 - mhz v cc = 4.5 v - >500 - mhz a off(ft) switch off-state signal feed-through attenuation r l = 600 w ; c l = 50 pf; f i = 1 mhz; see figure 15 [2] v cc = 1.65 v - - 46 - db v cc = 2.3 v - - 46 - db v cc = 3.0 v - - 46 - db v cc = 4.5 v - - 46 - db r l =50 w ; c l = 5 pf; f i = 1 mhz; see figure 15 [2] v cc = 1.65 v - - 37 - db v cc = 2.3 v - - 37 - db v cc = 3.0 v - - 37 - db v cc = 4.5 v - - 37 - db
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 15 of 22 philips semiconductors 74LVC1G384 bilateral switch [1] adjust f i voltage to obtain 0 dbm level at output. increase f i frequency until db meter reads - 3db. [2] adjust f i voltage to obtain 0 dbm level at input. [3] de?nition: q = d v out c l . guaranteed by design. v ct crosstalk between control input to signal output r l = 600 w ; c l = 50 pf; f i = 1 mhz; t r =t f = 2 ns; see figure 16 v cc = 1.65 v - 69 - mv v cc = 2.3 v - 87 - mv v cc = 3.0 v - 156 - mv v cc = 4.5 v - 302 - mv f max frequency response ( - 3 db) r l =50 w ; c l = 10 pf; see figure 14 [1] v cc = 1.65 v - 200 - mhz v cc = 2.3 v - 350 - mhz v cc = 3.0 v - 410 - mhz v cc = 4.5 v - 440 - mhz q injection charge c l = 0.1 nf; v gen =0v; r gen =0 w ; f = 1 mhz; r l =1m w ; v cc = 1.65 v to 5.5 v; see figure 17 [3] - 0.05 - pc table 13: additional dynamic characteristics continued at recommended conditions; typical values measured at t amb =25 c. symbol parameter conditions min typ max unit test conditions: v cc = 1.65 v: v i = 1.4 v (p-p). v cc = 2.3 v: v i = 2 v (p-p). v cc =3v: v i = 2.5 v (p-p). v cc =4v:v i = 4 v (p-p). fig 13. test circuit for measuring sine-wave distortion. 001aaa366 z or y y or z f i gnd 600 w 10 m f v cc 0.5 v cc v il d c l r l e
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 16 of 22 philips semiconductors 74LVC1G384 bilateral switch fig 14. test circuit for measuring the frequency response when switch is in on-state. fig 15. test circuit for measuring feed-through attenuation when switch is in off-state. fig 16. test circuit for measuring crosstalk between control input and output. 001aaa364 z or y y or z f i gnd 50 w 0.1 m f v cc 0.5 v cc v il db c l r l e 001aaa367 z or y y or z f i gnd 50 w 0.1 m f v cc 0.5 v cc 0.5 v cc v ih db c l r l r l e 001aaa363 z or y y or z gnd 50 w v cc 0.5 v cc 0.5 v cc v o c l = 50 pf r i = 600 w r l = 600 w e logic input
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 17 of 22 philips semiconductors 74LVC1G384 bilateral switch fig 17. test circuit for measuring injection charge. 001aaa362 z or y y or z gnd v gen r gen v cc v o c l = 0.1 nf r l = 1 m w e logic input 001aaa368 d v out off on off logic input v o (e)
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 18 of 22 philips semiconductors 74LVC1G384 bilateral switch 15. package outline fig 18. package outline sot353. references outline version european projection issue date iec jedec eiaj sot353 wb m b p d e 1 e a a 1 l p q detail x h e e v m a a b y 0 1 2 mm scale c x 13 2 4 5 plastic surface mounted package; 5 leads sot353 unit a 1 max b p cd e (2) e 1 h e l p qy w v mm 0.1 0.30 0.20 2.2 1.8 0.25 0.10 1.35 1.15 0.65 e 1.3 2.2 2.0 0.2 0.1 0.2 dimensions (mm are the original dimensions) 0.45 0.15 0.25 0.15 a 1.1 0.8 97-02-28 sc-88a
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 19 of 22 philips semiconductors 74LVC1G384 bilateral switch fig 19. package outline sot753. references outline version european projection issue date iec jedec jeita sot753 sc-74a wb m b p d e a a 1 l p q detail x h e e v m a a b y 0 1 2 mm scale c x 13 2 4 5 plastic surface mounted package; 5 leads sot753 unit a 1 b p cd e h e l p qy w v mm 0.100 0.013 0.40 0.25 3.1 2.7 0.26 0.10 1.7 1.3 e 0.95 3.0 2.5 0.2 0.1 0.2 dimensions (mm are the original dimensions) 0.6 0.2 0.33 0.23 a 1.1 0.9 02-04-16
9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 20 of 22 philips semiconductors 74LVC1G384 bilateral switch 16. revision history table 14: revision history document id release date data sheet status change notice order number supersedes 74LVC1G384_1 20040226 product data - 9397 750 12675 -
philips semiconductors 74LVC1G384 bilateral switch 9397 750 12675 ? koninklijke philips electronics n.v. 2004. all rights reserved. product data sheet rev. 01 26 february 2004 21 of 22 17. data sheet status [1] please consult the most recently issued data sheet before initiating or completing a design. [2] the product status of the device(s) described in this data sheet may have changed since this data sheet was published. the l atest information is available on the internet at url http://www.semiconductors.philips.com. [3] for data sheets describing multiple type numbers, the highest-level product status determines the data sheet status. 18. de?nitions short-form speci?cation the data in a short-form speci?cation is extracted from a full data sheet with the same type number and title. for detailed information see the relevant data sheet or data handbook. limiting values de?nition limiting values given are in accordance with the absolute maximum rating system (iec 60134). stress above one or more of the limiting values may cause permanent damage to the device. these are stress ratings only and operation of the device at these or at any other conditions above those given in the characteristics sections of the speci?cation is not implied. exposure to limiting values for extended periods may affect device reliability. application information applications that are described herein for any of these products are for illustrative purposes only. philips semiconductors make no representation or warranty that such applications will be suitable for the speci?ed use without further testing or modi?cation. 19. disclaimers life support these products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. philips semiconductors customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify philips semiconductors for any damages resulting from such application. right to make changes philips semiconductors reserves the right to make changes in the products - including circuits, standard cells, and/or software - described or contained herein in order to improve design and/or performance. when the product is in full production (status production), relevant changes will be communicated via a customer product/process change noti?cation (cpcn). philips semiconductors assumes no responsibility or liability for the use of any of these products, conveys no licence or title under any patent, copyright, or mask work right to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless otherwise speci?ed. 20. contact information for additional information, please visit http://www.semiconductors.philips.com for sales of?ce addresses, send an email to: sales.addresses@www.semiconductors.philips.com level data sheet status [1] product status [2] [3] de?nition i objective data development this data sheet contains data from the objective speci?cation for product development. philips semiconductors reserves the right to change the speci?cation in any manner without notice. ii preliminary data quali?cation this data sheet contains data from the preliminary speci?cation. supplementary data will be published at a later date. philips semiconductors reserves the right to change the speci?cation without notice, in order to improve the design and supply the best possible product. iii product data production this data sheet contains data from the product speci?cation. philips semiconductors reserves the right to make changes at any time in order to improve the design, manufacturing and supply. relevant changes will be communicated via a customer product/process change noti?cation (cpcn).
? koninklijke philips electronics n.v. 2004 all rights are reserved. reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. no liability will be accepted by the publisher for any consequence of its use. publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights. date of release: 26 february 2004 document order number: 9397 750 12675 published in the netherlands philips semiconductors 74LVC1G384 bilateral switch 21. contents 1 general description . . . . . . . . . . . . . . . . . . . . . . 1 2 features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 3 quick reference data . . . . . . . . . . . . . . . . . . . . . 1 4 ordering information . . . . . . . . . . . . . . . . . . . . . 2 5 marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 6 functional diagram . . . . . . . . . . . . . . . . . . . . . . 2 7 pinning information . . . . . . . . . . . . . . . . . . . . . . 3 7.1 pinning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 7.2 pin description . . . . . . . . . . . . . . . . . . . . . . . . . 3 8 functional description . . . . . . . . . . . . . . . . . . . 3 8.1 function table . . . . . . . . . . . . . . . . . . . . . . . . . . 3 9 limiting values. . . . . . . . . . . . . . . . . . . . . . . . . . 4 10 recommended operating conditions. . . . . . . . 4 11 static characteristics. . . . . . . . . . . . . . . . . . . . . 5 12 dynamic characteristics . . . . . . . . . . . . . . . . . 10 13 waveforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 14 additional dynamic characteristics . . . . . . . . 14 15 package outline . . . . . . . . . . . . . . . . . . . . . . . . 18 16 revision history . . . . . . . . . . . . . . . . . . . . . . . . 20 17 data sheet status . . . . . . . . . . . . . . . . . . . . . . . 21 18 de?nitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 19 disclaimers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 20 contact information . . . . . . . . . . . . . . . . . . . . 21

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