CD4051BC,CD4051BM,CD4052BC,CD4052BM, CD4053BC,CD4053BM CD4051BM CD4051BC Single 8-Channel Analog Multiplexer/Demultiplexer CD4052BM CD4052BC Dual 4-Channel Analog Multiplexer/Demultiplexer CD4053BM CD4053BC Triple 2-Channel Analog Multiplexer/Demultiplexer Literature Number: SNOS365A CD4051BM/CD4051BC Single 8-Channel Analog Multiplexer/Demultiplexer CD4052BM/CD4052BC Dual 4-Channel Analog Multiplexer/Demultiplexer CD4053BM/CD4053BC Triple 2-Channel Analog Multiplexer/Demultiplexer General Description e an inhibit input. Each control input selects one of a pair of channels which are connected in a single-pole double-throw configuration. Features Y Y Wide range of digital and analog signal levels: digital 3 - 15V, analog to 15Vp-p Low ``ON'' resistance: 80X (typ.) over entire 15Vp-p signal-input range for VDDbVEE e 15V High ``OFF'' resistance: channel leakage of g 10 pA (typ.) at VDDbVEE e 10V Logic level conversion for digital addressing signals of 3 - 15V (VDDbVSS e 3 - 15V) to switch analog signals to 15 Vp-p (VDDbVEE e 15V) Matched switch characteristics: DRON e 5X (typ.) for VDDbVEE e 15V Very low quiescent power dissipation under all digitalcontrol input and supply conditions: 1 mW (typ.) at VDDbVSS e VDDbVEE e 10V Binary address decoding on chip et These analog multiplexers/demultiplexers are digitally controlled analog switches having low ``ON'' impedance and very low ``OFF'' leakage currents. Control of analog signals up to 15Vp-p can be achieved by digital signal amplitudes of 3 - 15V. For example, if VDD e 5V, VSS e 0V and VEE eb5V, analog signals from b5V to a 5V can be controlled by digital inputs of 0-5V. The multiplexer circuits dissipate extremely low quiescent power over the full VDDbVSS and VDDbVEE supply voltage ranges, independent of the logic state of the control signals. When a logical ``1'' is present at the inhibit input terminal all channels are ``OFF''. CD4051BM/CD4051BC is a single 8-channel multiplexer having three binary control inputs. A, B, and C, and an inhibit input. The three binary signals select 1 of 8 channels to be turned ``ON'' and connect the input to the output. CD4052BM/CD4052BC is a differential 4-channel multiplexer having two binary control inputs, A and B, and an inhibit input. The two binary input signals select 1 or 4 pairs of channels to be turned on and connect the differential analog inputs to the differential outputs. CD4053BM/CD4053BC is a triple 2-channel multiplexer having three separate digital control inputs, A, B, and C, and Y Y bs ol Y Y Y Connection Diagrams Dual-In-Line Packages CD4052BM/CD4052BC CD4053BM/CD4053BC O CD4051BM/CD4051BC TL/F/5662 - 1 Order Number CD4051B, CD4052B, or CD4053B C1995 National Semiconductor Corporation TL/F/5662 RRD-B30M105/Printed in U. S. A. CD4051BM/CD4051BC, CD4052BM/CD4052BC, CD4053BM/CD4053BC Analog Multiplexer/Demultiplexers October 1989 Absolute Maximum Ratings Recommended Operating Conditions If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/Distributors for availability and specifications. DC Supply Voltage (VDD) Input Voltage (VIN) Operating Temperature Range (TA) 4051BM/4052BM/4053BM 4051BC/4052BC/4053BC b 0.5 VDC to a 18 VDC DC Supply Voltage (VDD) b 0.5 VDC to VDD a 0.5 VDC Input Voltage (VIN) b 65 C to a 150 C Storage Temperature Range (TS) Power Dissipation (PD) Dual-In-Line 700 mW Small Outline 500 mW Lead Temp. (TL) (soldering, 10 sec.) 260 C a 5 VDC to a 15 VDC 0V to VDD VDC b 55 C to a 125 C b 40 C to a 85 C DC Electrical Characteristics (Note 2) Symbol Parameter b 55 C Conditions Min IDD Quiescent Device Current VDD e 5V VDD e 10V VDD e 15V Max a 25 Min Typ 5 10 20 a 125 C Max Min 5 10 20 Units Max 150 300 600 mA mA mA D``ON'' Resistance Between Any Two Channels RL e 10 kX (any channel selected) RL e 10 kX (any channel selected) VDD e 2.5V, VEE eb2.5V or VDD e 5V, VEE e 0V 800 VDD e 5V VEE eb5V or VDD e 10V, VEE e 0V 310 VDD e 7.5V, VEE eb7.5V or VDD e 15V, VEE e 0V 200 270 1050 1300 X 120 400 550 X 80 240 320 X VDD e 2.5V, VEE eb2.5V or VDD e 5V, VEE e 0V 10 X VDD e 5V, VEE eb5V or VDD e 10V, VEE e 0V 10 X VDD e 7.5V, VEE eb7.5V or VDD e 15V, VEE e 0V 5 X bs ol DRON ``ON'' Resistance (Peak for VEEsVISsVDD) et RON e Signal Inputs (VIS) and Outputs (VOS) VDD e 7.5V, VEE eb7.5V O/I e g 7.5V, I/O e 0V ``OFF'' Channel Leakage Current, all channels ``OFF'' (Common OUT/IN) Inhibit e 7.5V VDD e 7.5V, VEE eb7.5V, O/I e 0V, I/O e g 7.5V O ``OFF'' Channel Leakage Current, any channel ``OFF'' g 50 g 0.01 g 50 g 500 nA CD4051 g 200 g 0.08 g 200 g 2000 nA CD4052 g 200 g 0.04 g 200 g 2000 nA CD4053 g 200 g 0.02 g 200 g 2000 nA 1.5 3.0 4.0 1.5 3.0 4.0 V V V Control Inputs A, B, C and Inhibit VIL VIH Low Level Input Voltage High Level Input Voltage VEE e VSS RL e 1 kX to VSS IISk2 mA on all OFF channels VIS e VDD thru 1 kX VDD e 5V VDD e 10V VDD e 15V VDD e 5 VDD e 10 VDD e 15 1.5 3.0 4.0 3.5 7 11 3.5 7 11 3.5 7 11 V V V Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. Except for ``Operating Temperature Range'' they are not meant to imply that the devices should be operated at these limits. The table of ``Electrical Characteristics'' provides conditions for actual device operation. Note 2: All voltages measured with respect to VSS unless otherwise specified. 2 DC Electrical Characteristics Symbol Parameter (Note 2) (Continued) b 40 C Conditions Min IIN IDD Input Current Quiescent Device Current VDD e 15V, VIN e 0V VDD e 15V, VIN e 15V Max a 25 C Min Typ VEE e 0V b 0.1 b 10 b 5 VEE e 0V 0.1 10b5 VDD e 5V VDD e 10V VDD e 15V 20 40 80 a 85 C Max Min Units Max b 0.1 b 1.0 mA 0.1 1.0 mA 20 40 80 150 300 600 mA mA mA Signal Inputs (VIS) and Outputs (VOS) ``ON'' Resistance (Peak for VEEsVISsVDD) RL e 10 kX (any channel selected) VDD e 2.5V, VEE eb2.5V or VDD e 5V, VEE e 0V 850 270 1050 1200 X VDD e 5V, VEE eb5V or VDD e 10V, VEE e 0V 330 120 400 520 X D``ON'' Resistance Between Any Two Channels RL e 10 kX (any channel selected) 80 Inhibit e 7.5V VDD e 7.5V, VEE eb7.5V, O/I e 0V I/O e g 7.5V 300 X 10 X VDD e 5V VEE eb5V or VDD e 10V, VEE e 0V 10 X VDD e 7.5V, VEE eb7.5V or VDD e 15V, VEE e 0V 5 ``OFF'' Channel Leakage VDD e 7.5V, VEE eb7.5V Current, any channel ``OFF'' O/I e g 7.5V, I/O e 0V ``OFF'' Channel Leakage Current, all channels ``OFF'' (Common OUT/IN) 240 VDD e 2.5V, VEE eb2.5V or VDD e 5V, VEE e 0V bs ol DRON 210 et VDD e 7.5V, VEE eb7.5V or VDD e 15V, VEE e 0V e RON X g 50 g 0.01 g 50 g 500 nA CD4051 g 200 g 0.08 g 200 g 2000 nA CD4052 g 200 g 0.04 g 200 g 2000 nA CD4053 g 200 g 0.02 g 200 g 2000 nA 1.5 3.0 4.0 1.5 3.0 4.0 V V V Control Inputs A, B, C and Inhibit Low Level Input Voltage O VIL VEE e VSS RL e 1 kX to VSS IISk2 mA on all OFF Channels VIS e VDD thru 1 kX VDD e 5V VDD e 10V VDD e 15V VIH High Level Input Voltage VDD e 5 VDD e 10 VDD e 15 IIN Input Current VDD e 15V, VIN e 0V VDD e 15V, VIN e 15V 1.5 3.0 4.0 3.5 7 11 3.5 7 11 3.5 7 11 VEE e 0V b 0.1 b 10 b 5 VEE e 0V 0.1 10b5 b 0.1 0.1 V V V b 1.0 mA 1.0 mA Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. Except for ``Operating Temperature Range'' they are not meant to imply that the devices should be operated at these limits. The table of ``Electrical Characteristics'' provides conditions for actual device operation. Note 2: All voltages measured with respect to VSS unless otherwise specified. 3 AC Electrical Characteristics* TA e 25 C, tr e tf e 20 ns, unless otherwise specified. Typ Max Units tPZH, tPZL Propagation Delay Time from Inhibit to Signal Output (channel turning on) VEE e VSS e 0V RL e 1 kX CL e 50 pF 5V 10V 15V 600 225 160 1200 450 320 ns ns ns tPHZ, tPLZ Propagation Delay Time from Inhibit to Signal Output (channel turning off) VEE e VSS e 0V RL e 1 kX CL e 50 pF 5V 10V 15V 210 100 75 420 200 150 ns ns ns CIN Input Capacitance Control input Signal Input (IN/OUT) 5 10 7.5 15 pF pF Conditions Min Output Capacitance (common OUT/IN) CD4051 CD4052 CD4053 CIOS Feedthrough Capacitance CPD Power Dissipation Capacitance Signal Inputs (VIS) and Outputs (VOS) 30 15 8 pF pF pF 0.2 pF 110 140 70 pF pF pF RL e 10 kX fIS e 1 kHz VIS e 5 Vp-p VEE e VSI e 0V 10V 0.04 % bs ol Sine Wave Response (Distortion) 10V 10V 10V VEE e VSS e 0V CD4051 CD4052 CD4053 tPHL tPLH VDD e COUT Parameter et Symbol Frequency Response, Channel ``ON'' (Sine Wave Input) RL e 1 kX, VEE e 0V, VIS e 5Vp-p, 20 log10 VOS/VIS eb3 dB 10V 40 MHz Feedthrough, Channel ``OFF'' RL e 1 kX, VEE e VSS e 0V, VIS e 5Vp-p, 20 log10 VOS/VIS eb40 dB 10V 10 MHz Crosstalk Between Any Two Channels (frequency at 40 dB) RL e 1 kX, VEE e VSS e 0V, VIS(A) e 5Vp-p 20 log10 VOS(B)/VIS(A) eb40 dB (Note 3) 10V 3 MHz Propagation Delay Signal Input to Signal Output VEE e VSS e 0V CL e 50 pF 5V 10V 15V 25 15 10 10V 65 5V 10V 15V 500 180 120 55 35 25 ns ns ns Control Inputs, A, B, C and Inhibit VEE e VSS e 0V, RL e 10 kX at both ends of channel. Input Square Wave Amplitude e 10V O Control Input to Signal Crosstalk tPHL, tPLH Propagation Delay Time from Address to Signal Output (channels ``ON'' or ``OFF'') VEE e VSS e 0V CL e 50 pF *AC Parameters are guaranteed by DC correlated testing. Note 3: A, B are two arbitrary channels with A turned ``ON'' and B ``OFF''. 4 mV (peak) 1000 360 240 ns ns ns Block Diagrams et e CD4051BM/CD4051BC O bs ol CD4052BM/CD4052BC TL/F/5662 - 2 5 Block Diagrams (Continued) et e CD4053BM/CD4053BC TL/F/5662 - 3 bs ol Truth Table INPUT STATES ``ON'' CHANNELS INHIBIT C B A CD4051B CD4052B CD4053B 0 0 0 0 0 0 0 0 1 0 0 0 0 1 1 1 1 * 0 0 1 1 0 0 1 1 * 0 1 0 1 0 1 0 1 * 0 1 2 3 4 5 6 7 NONE 0X, 0Y 1X, 1Y 2X, 2Y 3X, 3Y cx, bx, ax cx, bx, ay cx, by, ax cx, by, ay cy, bx, ax cy, bx, ay cy, by, ax cy, by, ay NONE O *Don't Care condition. 6 NONE O bs ol et e Switching Time Waveforms TL/F/5662 - 4 7 Special Considerations not exceed 0.6V at TAs 25 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 OUT/IN pin. In certain applications the external load-resistor current may include both VDD and signal-line components. To avoid drawing VDD current when switch current flows into IN/OUT pin, the voltage drop across the bidirectional switch must Typical Performance Characteristics ``ON'' Resistance as a Function of Temperature for VDDbVEE e 15V ``ON'' Resistance as a Function of Temperature for VDDbVEE e 5V O bs ol ``ON'' Resistance as a Function of Temperature for VDDbVEE e 10V et e ``ON'' Resistance vs Signal Voltage for TA e 25 C 8 TL/F/5662 - 5 et e Physical Dimensions inches (millimeters) O bs ol Cavity Dual-In-Line Package (J) Order Number CD4051BMJ, CD4051BCJ, CD4052BMJ, CD4052BCJ, CD4053BMJ or CD4053BCJ NS Package Number J16A Small Outline Package (M) Order Number CD4051BCM, CD4052BCM or CD4053BCM NS Package Number M16A 9 e bs ol et Molded Dual-In-Line Package (N) Order CD4051BM, CD4051BC, CD4052BM, CD4052BC, CD4053BM, CD4053BC NS Package Number N16E 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: O CD4051BM/CD4051BC, CD4052BM/CD4052BC, CD4053BM/CD4053BC Analog Multiplexer/Demultiplexers Physical Dimensions inches (millimeters) (Continued) 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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