CD4066BM/CD4066BC Quad Bilateral Switch General Description The CD4066BM/CD4066BC is a quad bilateral switch intended for the transmission or multiplexing of analog or digital signals. It is pin-for-pin compatible with CD4016BM/ CD4016BC, but has a much lower ``ON'' resistance, and ``ON'' resistance is relatively constant over the input-signal range. Features Y Y Y Y Y Y Y Y Wide supply voltage range 3V to 15V High noise immunity 0.45 VDD (typ.) g 7.5 VPEAK Wide range of digital and analog switching ``ON'' resistance for 15V operation 80X Matched ``ON'' resistance DRON e 5X (typ.) over 15V signal input ``ON'' resistance flat over peak-to-peak signal range High ``ON''/``OFF'' 65 dB (typ.) @ f e 10 kHz, R e 10 kX output voltage ratio is L High degree linearity 0.1% distortion (typ.) @ f e 1 kHz, V e 5V High degree linearity is is p-p, High degree linearity VDDbVSS e 10V, RL e 10 kX Y Y Y Y Extremely low ``OFF'' 0.1 nA (typ.) @ V switch leakage DD b VSS e 10V, TA e 25 C Extremely high control input impedance 1012X(typ.) b 50 dB (typ.) Low crosstalk @ f e 0.9 MHz, R e 1 kX between switches is L Frequency response, switch ``ON'' 40 MHz (typ.) Applications Y Y Y Y Y Analog signal switching/multiplexing # Signal gating # Squelch control # Chopper # Modulator/Demodulator # Commutating switch Digital signal switching/multiplexing CMOS logic implementation Analog-to-digital/digital-to-analog conversion Digital control of frequency, impedance, phase, and analog-signal-gain Schematic and Connection Diagrams Order Number CD4066B Dual-In-Line Package TL/F/5665 - 1 Top View C1995 National Semiconductor Corporation TL/F/5665 RRD-B30M105/Printed in U. S. A. CD4066BM/CD4066BC Quad Bilateral Switch June 1992 Absolute Maximum Ratings (Notes 1 & 2) Recommended Operating Conditions (Note 2) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/Distributors for availability and specifications. Supply Voltage (VDD) Input Voltage (VIN) Storage Temperature Range (TS) Power Dissipation (PD) Dual-In-Line Small Outline Lead Temperature (TL) (Soldering, 10 seconds) Supply Voltage (VDD) Input Voltage (VIN) Operating Temperature Range (TA) CD4066BM CD4066BC b 0.5V to a 18V b 0.5V to VDD a 0.5V b 65 C to a 150 C 3V to 15V 0V to VDD b 55 C to a 125 C b 40 C to a 85 C 700 mW 500 mW 300 C DC Electrical Characteristics CD4066BM (Note 2) Symbol Parameter b 55 C Conditions Min IDD Quiescent Device Current VDD e 5V VDD e 10V VDD e 15V a 25 C Max Min a 125 C Min Units Typ Max Max 0.25 0.5 1.0 0.01 0.01 0.01 0.25 0.5 1.0 7.5 15 30 mA mA mA 800 310 200 270 120 80 1050 400 240 1300 550 320 X X X SIGNAL INPUTS AND OUTPUTS RON DRON ``ON'' Resistance D``ON'' Resistance Between any 2 of 4 Switches IIS Input or Output Leakage Switch ``OFF'' VDDbVSS 2 VC e VDD, VIS e VSS to VDD e VDD 5V VDD e 10V VDD e 15V VDDbVSS RL e 10 kX to 2 VC e VDD, VIS e VSS to VDD VDD e 10V VDD e 15V RL e 10 kX to 10 5 VC e 0 VIS e 15V and 0V, VOS e 0V and 15V X X g 50 g 0.1 g 50 g 500 nA 1.5 3.0 4.0 2.25 4.5 6.75 1.5 3.0 4.0 1.5 3.0 4.0 V V V CONTROL INPUTS VILC Low Level Input Voltage VIS e VSS and VDD VOS e VDD and VSS IIS e g 10 mA VDD e 5V VDD e 10V VDD e 15V VIHC High Level Input Voltage VDD e 5V VDD e 10V (see note 6) VDD e 15V IIN Input Current VDDbVSS e 15V VDDtVIStVSS VDDtVCtVSS 3.5 7.0 11.0 3.5 7.0 11.0 g 0.1 2.75 5.5 8.25 3.5 7.0 11.0 g 10 b 5 V V V g 0.1 g 1.0 mA DC Electrical Characteristics CD4066BC (Note 2) Symbol Parameter Conditions b 40 C Min IDD Quiescent Device Current VDD e 5V VDD e 10V VDD e 15V Max 1.0 2.0 4.0 2 a 25 C Min a 85 C Typ Max 0.01 0.01 0.01 1.0 2.0 4.0 Min Units Max 7.5 15 30 mA mA mA DC Electrical Characteristics Symbol Parameter (Continued) CD4066BC (Note 2) b 40 C Conditions Min Max a 25 C Min a 85 C Typ Max Min 270 120 80 1050 400 240 Units Max SIGNAL INPUTS AND OUTPUTS RON DRON ``ON'' Resistance D``ON'' Resistance Between Any 2 of 4 Switches IIS Input or Output Leakage Switch ``OFF'' VDDbVSS 2 VC e VDD, VSS to VDD VDD e 5V VDD e 10V VDD e 15V VDDbVSS RL e 10 kX to 2 VCC e VDD, VIS e VSS to VDD e VDD 10V VDD e 15V RL e 10 kX to 850 330 210 1200 520 300 10 5 VC e 0 X X X X X g 50 g 0.1 g 50 g 200 nA 1.5 3.0 4.0 2.25 4.5 6.75 1.5 3.0 4.0 1.5 3.0 4.0 V V V CONTROL INPUTS VILC Low Level Input Voltage VIS e VSS and VDD VOS e VDD and VSS IIS e g 10mA VDD e 5V VDD e 10V VDD e 15V VIHC High Level Input Voltage VDD e 5V VDD e 10V (See note 6) VDD e 15V IIN Input Current VDDbVSS e 15V VDDtVIStVSS VDDtVCtVSS 3.5 7.0 11.0 3.5 7.0 11.0 g 0.3 2.75 5.5 8.25 3.5 7.0 11.0 g 10 b 5 g 0.3 V V V g 1.0 mA AC Electrical Characteristics* TA e 25 C, tr e tf e 20 ns and VSS e 0V unless otherwise noted Symbol Parameter tPHL, tPLH Propagation Delay Time Signal Input to Signal Output tPZH, tPZL tPHZ, tPLZ Conditions VC e VDD, CL e 50 pF, (Figure 1 ) RL e 200k VDD e 5V VDD e 10V VDD e 15V Propagation Delay Time Control Input to Signal Output High Impedance to Logical Level RL e 1.0 kX, CL e 50 pF, (Figures 2 and 3 ) VDD e 5V VDD e 10V VDD e 15V Propagation Delay Time Control Input to Signal Output Logical Level to High Impedance Sine Wave Distortion RL e 1.0 kX, CL e 50 pF, (Figures 2 and 3 ) VDD e 5V VDD e 10V VDD e 15V VC e VDD e 5V, VSS eb5V RL e 10 kX, VIS e 5Vp-p, f e 1 kHz, (Figure 4 ) VC e VDD e 5V, VSS eb5V, RL e 1 kX, VIS e 5Vp-p, 20 Log10 VOS/VOS (1 kHz)bdB, (Figure 4 ) Frequency Response-Switch ``ON'' (Frequency at b3 dB) 3 Min Typ Max Units 25 15 10 55 35 25 ns ns ns 125 60 50 ns ns ns 125 60 50 0.1 ns ns ns % 40 MHz AC Electrical Characteristics* (Continued) TA e 25 C, tr e tf e 20 ns and VSS e 0V unless otherwise noted Symbol Parameter Feedthrough Switch ``OFF'' (Frequency at b50 dB) Crosstalk Between Any Two Switches (Frequency at b50 dB) Crosstalk; Control Input to Signal Output Maximum Control Input Conditions Min Typ VDD e 5.0V, VCC e VSS eb5.0V, RL e 1 kX, VIS e 5.0Vp-p, 20 Log10, VOS/VIS eb50 dB, (Figure 4) VDD e VC(A) e 5.0V; VSS e VC(B) e 5.0V, RL1 kX, VIS(A) e 5.0 Vp-p, 20 Log10, VOS(B)/VIS(A) eb50 dB (Figure 5) VDD e 10V, RL e 10 kX, RIN e 1.0 kX, VCC e 10V Square Wave, CL e 50 pF (Figure 6) RL e 1.0 kX, CL e 50 pF, (Figure 7) VOS(f) e (/2 VOS(1.0 kHz) VDD e 5.0V VDD e 10V VDD e 15V 1.25 Max Units 0.9 MHz 150 mVp-p 6.0 8.0 8.5 MHz MHz MHz CIS Signal Input Capacitance 8.0 pF COS Signal Output Capacitance VDD e 10V 8.0 pF CIOS Feedthrough Capacitance VC e 0V 0.5 CIN Control Input Capacitance 5.0 pF 7.5 pF *AC Parameters are guaranteed by DC correlated testing. Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices should be operated at these limits. The tables of ``Recommended Operating Conditions'' and ``Electrical Characteristics'' provide conditions for actual device operation. Note 2: VSS e 0V unless otherwise specified. Note 3: These devices should not be connected to circuits with the power ``ON''. Note 4: In all cases, there is approximately 5 pF of probe and jig capacitance in the output; however, this capacitance is included in CL wherever it is specified. Note 5: VIS is the voltage at the in/out pin and VOS is the voltage at the out/in pin. VC is the voltage at the control input. Note 6: Conditions for VIHC: a) VIS e VDD, IOS e standard B series IOH b) VIS e 0V, IOL e standard B series IOL. AC Test Circuits and Switching Time Waveforms FIGURE 1. tPHL, tPLH Propagation Delay Time Signal Input to Signal Output FIGURE 2. tPZH, tPHZ Propagation Delay Time Control to Signal Output TL/F/5665 - 2 FIGURE 3. tPZL, tPLZ Propagtion Delay Time Control to Signal Output 4 AC Test Circuits and Switching Time Waveforms (Continued) VC e VDD for distortion and frequency response tests VC e VSS for feedthrough test FIGURE 4. Sine Wave Distortion, Frequency Response and Feedthrough FIGURE 5. Crosstalk Between Any Two Switches FIGURE 6. Crosstalk: Control Input to Signal Output TL/F/5665 - 3 FIGURE 7. Maximum Control Input Frequency 5 Typical Performance Characteristics ``ON'' Resistance vs Signal Voltage for TA e 25 C ``ON'' Resistance as a Function of Temperature for VDDbVSS e 15V ``ON'' Resistance as a Function of Temperature for VDDbVSS e 10V ``ON'' Resistance as a Function of Temperature for VDDbVSS e 5V TL/F/5665 - 4 Special Considerations drawing VDD current when switch current flows into terminals 1, 4, 8 or 11, the voltage drop across the bidirectional switch must not exceed 0.6V at TAs25 C, or 0.4V at TAl25 C (calculated from RON values shown). No VDD current will flow through RL if the switch current flows into terminals 2, 3, 9 or 10. In applications where separate power sources are used to drive VDD and the signal input, the VDD current capability should exceed VDD/RL (RL e effective external load of the 4 CD4066BM/CD4066BC bilateral switches). This provision avoids any permanent current flow or clamp action of the VDD supply when power is applied or removed from CD4066BM/CD4066BC. In certain applications, the external load-resistor current may include both VDD and signal-line components. To avoid 6 Physical Dimensions inches (millimeters) Cerdip (J) Order Number CD4066BMJ or CD4066BCJ NS Package Number J14A S.O. Package (M) Order Number CD4066BCM NS Package Number M14A 7 CD4066BM/CD4066BC Quad Bilateral Switch Physical Dimensions inches (millimeters) (Continued) Dual-In-Line Package (N) Order Number CD4066BMN or CD4066BCN NS Package Number N14A LIFE SUPPORT POLICY NATIONAL'S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. National Semiconductor Corporation 1111 West Bardin Road Arlington, TX 76017 Tel: 1(800) 272-9959 Fax: 1(800) 737-7018 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. 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