XC74UL4066M

XC74UL4066M CMOS Logic Mar. 6, 01 Ver. I "CMOS Logic Analog Switch "Operating Voltage Range 2V to 5.5V "High Speed Operations tpd =3ns TYP "Low Power Consumption 1µA MAX "Low ON Resistance Ron=22Ω TYP !Applications #Palmtops #Digital Equipment !Description XC74UL4066M is CMOS Analog Switch manufactured using silicon gate CMOS processes. The small quiescent current, which is !Features High Speed Operations tpd = 3ns TYP Operating Voltage Range 2V to 5.5V Low Power Consumption 1µA MAX (Ta = 25OC) Low ON Resistance 22Ω TYP Small Package SOT-25 one of the features of the CMOS logic, gives way to high speed analog or digital signal switching. As the series is integrated into a mini molded, SOT-25 package, high density mounting is possible. !Pin Configuration !Functions Control State IN/OUT OUT/IN GND 1 5 VCC L H OFF ON 2 3 SOT-25 (TOP VIEW) 4 CONT H = High Level L = Low Level !Logic Diagram IN/OUT OUT/IN CONT 1 XC74UL4066M CMOS Logic !Absolute Maximum Ratings Ta = -40OC ~ 85OC PARAMETER Power Supply Voltage Control Input Voltage Switch Output Voltage Control Input Diode Current Switch Output Diode Current Switch Output Current VCC, GND Current Power Dissipation (Ta = 25OC) Storage Temperature SYMBOL VCC VCONT Vout IIK IOK IOUT ICC, IGND Pd Tstg RATINGS -0.5 ~ +6.0 -0.5 ~ +6.0 -0.5 ~ VCC +0.5 -20 ±20 ±25 ±50 200 -65 ~+150 UNITS V V V mA mA mA mA mW O C Note : Voltage is all Ground standardized. !Recommended Operating Conditions PARAMETER Supply Voltage Input Voltage Output Voltage Operating Temperature Input Rise and Fall Time SYMBOL VCC Vin Vout Topr tr, tf Vcc(V) 3.3 5.0 RATINGS 2 ~5.5 0 ~ 5.5 0 ~ VCC -40 ~ +85 0 ~ 100 0 ~ 20 UNITS V V V O C ns / V !DC Electrical Characteristics Ta=25OC Ta=-40 ~ 85OC UNITS MIN TYP MAX MIN MAX VCC(V) 2.0 1.5 1.5 3.0 V 2.1 2.1 5.5 3.85 3.85 2.0 0.5 0.5 3.0 V 0.9 0.9 5.5 1.65 1.65 130 350 550 2.0 VCONT=VIH 22 50 65 3.0 Vin=0~VCC Ω 35 4.5 Iin/out=1mA 12 25 2.0 VCONT=VIH 23 50 65 3.0 Vin=GND or VCC 14 30 40 Ω 4.5 Iin/out=1mA 25 10 20 5.5 VCONT=VIL, Vin=VCC, Vout=GN ±1.0 ±0.1 µA 5.5 VCONT=VIH, Vin=VCC or GND ±0.1 ±1.0 µA 5.5 Vin=VCC or GND ±1.0 ±0.1 µA 5.5 Vin=VCC or GND 1.0 5.0 µA CONDITIONS PARAMETER "High" Level Control Input Voltage" "Low" Level Control Input Voltage" SYMBOL VIH VIL Peak ON Resistance RONmax ON Resistance Power Off Leakage Current Power On Leakage Current RON(1) IS(OFF) IS(ON) ICONT ICC Control Input Current Quiscent Supply Current 2 XC74UL4066M !Switching Electrical Characteristics CMOS Logic (tr = tf = 3ns) PARAMETER SYMBOL CL Propagation Delay Time CONDITIONS VCC(V) tPLH tPHL tZL tZH tLZ tHZ 50pF Output Enable Time 50pF Output Disable Time 50pF 2.0 3.3 5.0 2.0 3.3 5.0 2.0 3.3 5.0 3.0 RL=10kΩ RL=1kΩ RL=1kΩ RL=10kΩ fIN=1kHz RL=600kΩ Vout = - 3dB Vin RL=600kΩ fIN=1MHz RL=600kΩ fIN=1MHz RL=1kΩ VOUT=VCC/2 Ta=25OC Ta=-40 ~ 85OC MIN TYP MAX MIN MAX 4 20 23 8 3 6 2 6 5 9 50 65 5 10 12 3 8 10 12 60 75 10 23 27 8 20 25 0.05 - UNITS ns ns ns Sine Wave Distortion Rate 50pF % -3dB Band Width 50pF 3.0 20log10 - 200 - - - MHz Feed Through (Switch-off) Cross Talk (Control Switch) Maximum Control Input Frequency Control Input Capacitance Switch Input/Output Capacitance 50pF 3.0 2.0 3.0 4.5 2.0 3.0 4.5 - - -60 60 100 150 30 30 30 5 6 0.5 13 10 - - 10 - dB 50pF mV 15pF Cin Cin/out Cin-out CPD - MHz pF pF pF pF Feed Through Capacitance Power Dissipation Capacitance Note: CPD is defined as the value of the internal equivalent capacitance which is derived from the operating supply current at times of "No Load". Ensure that the average operating supply current at times of "No Load" meets the following conditions: ICC (opr)=CPD, VCC, Fin+ICC 3 XC74UL4066M CMOS Logic !Propagation Delay Time !Waveforms tr 90% 90% 50% tf VCC PRR=1MHz duty cycle 50% tr=tf=3ns 10% INPUT 10% 50% GND VCC tPLH tPHL OUTPUT 50% 50% GND !Test Circuits VCC INPUT CONT VCC Pulse Generator OUTPUT ON GND R L= 10kΩ C L= 50pF Note: open output when measuring supply current 4 XC74UL4066M !Output Enable Time, Output Disable Time !Waveforms tr 90% 90% 50% CMOS Logic tf VCC PRR=1MHz duty cycle 50% tr=tf=3ns 10% INPUT 10% 50% GND VCC tZH tHZ 90% OUTPUT tZL 50% tLZ GND VCC OUTPUT 50% 10% GND !Test Circuits VCC Pulse Generator INPUT VCC CONT VCC OUTPUT ON/OFF GND RL= 1kΩ CL= 50pF VCC 5 XC74UL4066M !Sine Wave Distortion Rate !Test Circuits CMOS Logic VCC INPUT VCC/2 RL= 10kΩ OUTPUT CONT VCC fIN 10µF ON GND CL = 50pF * Input by sine wave ! -3dB Band Width !Test Circuits VCC INPUT CONT VCC VOUT OUTPUT fIN 0.1µF ON GND RL= 600Ω CL= 50pF * Input by sine wave 6 XC74UL4066M !Feed Through Test Circuits CMOS Logic VCC VCC/2 INPUT 0.1µF CONT VCC RL= 600Ω OUPUT CL= 50pF fIN RIN= 600Ω VCC/2 * Input by sine wave OFF GND !Cross Talk !Waveforms tr 90% 90% tf VCC PRR=1MHz duty cycle 50% tr=tf=3ns 10% INPUT 10% GND !Test Circuits Pulse Generator VCC VCC/2 RL= 600Ω OUPUT CONT VCC VCC/2 RIN= 600Ω OFF/ON GND CL= 50pF 7 XC74UL4066M !Maximum Control Input Frequency !Waveforms CMOS Logic tr 90% 90% tf VCC tr=tf=3ns 10% INPUT 10% GND OUTPUT VCC/2 !Test Circuits Pulse Generator INPUT VCC CONT VCC OUTPUT OFF/ON GND RL= 1kΩ CL= 15pF 8 XC74UL4066M !On Resistance !Test Circuits CMOS Logic VCC VCONT =VIH INPUT CONT ON VCC OUTPUT GND VIN-OUT RON = 10 1.0 mA -3 (Ω) V VIN-OUT !Voltage Dependancies of ON Resistance RON RONmax RON(1) 0 VCC VIN 9 XC74UL4066M !Power Off Leakage Current !Test Circuits CMOS Logic VCC VCONT=VIL VCC CONT VCC A OFF GND VCC !Power On Leakage Current !Test Circuits VCC VCONT=VIH VCC CONT VCC A ON GND OPEN 10