9-238; Rev ; 5/4.8Ω, Low-Voltage, 4-Channel General Description The is a low on-resistance, low-voltage, 4- channel CMOS analog multiplexer that operates from a single.6v to 3.6V supply. This device has fast switching speeds (t ON = 25, t OFF = 2 max), handles rail-to-rail analog signals, and coumes less than 4µW of quiescent power. The has break-beforemake switching. When powered from a 3V supply, the features low.8ω (max) on-resistance (R ON ), with.2ω (max) R ON matching and.ω R ON flatness. The digital logic input is.8v CMOS compatible when using a single 3V supply. The is available in space-saving 2-pin thin QFN (3mm x 3mm) and -pin µmax packages. Applicatio Power Routing Battery-Powered Systems Audio and Video Signal Routing Low-Voltage Data-Acquisition Systems Communicatio Circuits PCMCIA Cards Cellular Phones Modems Hard Drives Features Low R ON.8Ω (max) (3V Supply) 2Ω (max) (.8V Supply).Ω (max) R ON Flatness (3V Supply).6V to 3.6V Single-Supply Operation Available in Thin QFN (3mm x 3mm) Package High-Current Handling Capacity (5mA Continuous).8V CMOS-Logic Compatible (3V Supply) Fast Switching: t ON = 25, t OFF = 2 Ordering Information PART TEMP RANGE PIN-PACKAGE EU -4 C to +85 C µmax ETC -4 C to +85 C 2 Thin QFN (3mm x 3mm) Pin Configuratio/Functional Diagrams/Truth Table TOP VIEW A 2 N.C. NO NO3 2 3 9 NO2 8 7 NO4 A NO NO3 2 3 4 5 LOGIC 9 8 7 6 NO2 NO4 A ON SWITCH X X NONE 2 3 4 X = DON'T CARE 4 5 6 N.C. Thin QFN µmax Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at -888-629-4642, or visit Maxim s website at www.maxim-ic.com.
ABSOLUTE MAXIMUM RATINGS (Voltages Referenced to ), A_, _...-.3V to +4V, NO_ (Note )...-.3V to ( +.3V) Continuous Current, NO_...±5mA Continuous Current (all other pi)...±2ma Peak Current, NO_ (pulsed at ms % duty cycle)...±3ma Continuous Power Dissipation (T A = +7 C) -Pin µmax (derate 5.6mW/ C above +7 C)...444mW 2-Pin Thin QFN (derate 4.7mW/ C above +7 C)..76mW Operating Temperature Range...-4 C to +85 C Maximum Junction Temperature...+5 C Storage Temperature Range...-65 C to +5 C Lead Temperature (soldering, s)...+3 C Note : Signals on or NO_ exceeding or are clamped by internal diodes. Limit forward current to maximum current rating. Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditio beyond those indicated in the operational sectio of the specificatio is not implied. Exposure to absolute maximum rating conditio for extended periods may affect device reliability. ELECTRICAL CHARACTERISTICS Single 3V Supply ( = 2.7V to 3.6V, V IH =.4V, V IL =.5V, T A = T MIN to T MAX, unless otherwise specified. Typical values are at = 3.V, T A = +25 C.) (Notes 2, 3) PARAMETER SYMBOL CONDITIONS T A MIN TYP MAX UNITS ANALOG SWITCH Analog Signal Range V, V NO _ V On-Resistance (Note 4) R ON I = ma, = 2.7V, +25 C.6.8 V NO _ =.5V T MIN to T MAX Ω On-Resistance Match Between Channels (Notes 4, 5) R ON = 2.7V, +25 C..2 I = ma, V NO _ =.5V T MIN to T MAX.3 Ω On-Resistance Flatness (Note 6) R FLAT(ON) = 2.7V, +25 C.5. I _ = ma, V NO _ = V,.5V, 2V T MIN to T MAX.2 Ω NO_ Off-Leakage Current (Note 7) I NO_(OFF) = 3.6V, +25 C - ±.2 + V =.3V, 3.3V, V NO _ = 3.3V,.3V T MIN to T MAX -5 +5 na Off-Leakage Current (Note 7) I (OFF) = 3.6V, +25 C - ±.2 + V =.3V, 3.3V, V NO _ = 3.3V,.3V T MIN to T MAX -5 +5 na On-Leakage Current (Note 7) I (ON) = 3.6V, V = 3.3V,.3V, V NO _ = 3.3V,.3V, or floating +25 C -2 ±.2 +2 T MIN to T MAX - + na 2
ELECTRICAL CHARACTERISTICS Single 3V Supply (continued) ( = 2.7V to 3.6V, V IH =.4V, V IL =.5V, T A = T MIN to T MAX, unless otherwise specified. Typical values are at = 3.V, T A = +25 C.) (Notes 2, 3) PARAMETER SYMBOL CONDITIONS T A MIN TYP MAX UNITS SWITCH DYNAMIC CHARACTERISTICS Turn-On Time t ON R L = 5Ω, C L = 35pF, V NO _ =.5V, +25 C 2 25 Figure T MIN to T MAX 3 Turn-Off Time t OFF R L = 5Ω, C L = 35pF, V NO _ =.5V, +25 C 5 2 Figure T MIN to T MAX 25 Break-Before-Make (Note 8) t BBM R L = 5Ω, C L = 35pF, V NO _ =.5V, +25 C 5 Figure 2 T MIN to T MAX Charge Injection Q V G =, R G =, C L =.nf, Figure 3 +25 C 6 pc NO_ Off-Capacitance C OFF f = MHz, Figure 4 +25 C 33 pf Off-Capacitance C (OFF) f = MHz, Figure 4 +25 C 7 pf On-Capacitance C (ON) f = MHz, Figure 4 +25 C 7 pf -3dB On-Channel Bandwidth BW Signal =, R IN = R OUT = 5Ω, C L = 5pF, Figure 5 Off-Isolation (Note 9) V ISO f = M H z, V C OM = V P - P, R L = 5Ω, C L = 5p F, Fi g ur e 5 Crosstalk (Note ) V CT f = M H z, V C OM = V P - P, R L = 5Ω, C L = 5p F, Fi g ur e 5 Total Harmonic Distortion LOGIC INPUT (A_, ) THD f = 2Hz to 2kHz, V = 2V P-P, R L = 32Ω 9 MHz +25 C -56 db +25 C -56 db +25 C.8 % Input Logic High V IH.4 V Input Logic Low V IL.5 V Input Leakage Current I IN V = or 3.6V, V A _ = or 3.6V POWER SUPPLY -.5 + µa Power-Supply Range.6 3.6 V Positive Supply Current I+ = 3.6V, V, A _ = or, all channels on or off.4 µa 3
ELECTRICAL CHARACTERISTICS Single.8V Supply ( =.8V, V IH =.V, V IL =.4V, T A = T MIN to T MAX, unless otherwise specified. Typical values are at T A = +25 C.) (Notes 2, 3) PARAMETER SYMBOL CONDITIONS T A MIN TYP MAX UNITS ANALOG SWITCH Analog Signal Range V, V NO _ V I +25 C.5 2 On-Resistance R _ = ma, ON V NO _ = V T MIN to T MAX 3 SWITCH DYNAMIC CHARACTERISTICS Turn-On Time t ON RL = 5Ω, C L = 35pF, V NO _ = V, +25 C 25 3 Figure T MIN to T MAX 35 Ω Turn-Off Time t OFF R L = 5Ω, C L = 35pF, V NO _ = V, +25 C 8 25 Figure T MIN to T MAX 28 Break-Before-Make (Note 8) t BBM R L = 5Ω, C L = 35pF, V NO _ = V, +25 C 7 Figure 2 T MIN to T MAX Charge Injection Q V G =, R G =, C L = nf, Figure 3 +25 C 35 pc Off-Isolation (Note 9) V ISO = V P - P, R L = 5Ω, f = M H z, V N O _ C L = 5p F, Fi g ur e 5 Crosstalk (Note ) V CT R L = 5Ω, f = M H z, V C OM = V P - P, C L = 5p F, Fi g ur e 5 +25 C -56 db +25 C -56 db LOGIC INPUT (A_, ) Input Logic High V IH V Input Logic Low V IL.4 V Input Leakage Current I IN V = or 3.6V, V A_ = or 3.6V µa Note 2: The algebraic convention, where the most negative value is a minimum and the most positive value is a maximum, is used in this data sheet. Note 3: -4 C specificatio are guaranteed by design. Note 4: R ON and R ON matching specificatio for thin QFN packaged parts are guaranteed by design. Note 5: R ON = R ON(MAX) - R ON(MIN). Note 6: Flatness is defined as the difference between the maximum and the minimum value of on-resistance as measured over the specified analog signal ranges. Note 7: Leakage parameters are % tested at hot temperature and guaranteed by correlation at room temperature. Note 8: Guaranteed by design. Note 9: Off-Isolation = 2log (V /V NO _), V = output, V NO _ = input to off switch. Note : Between two switches. 4
(T A = +25 C, unless otherwise noted.) RON (Ω) 3. 2.5 2..5..5 ON-RESISTANCE vs. V = 3.V =.6V =.8V = 2.5V = 3.6V.4.8.2.6 2. 2.4 2.8 3.2 3.6 V (V) toc RON (Ω) 2.5 2..5..5 ON-RESISTANCE vs. V AND TEMPERATURE =.8V, T A = -4 C = 3.V, T A = -4 C.5..5 2. 2.5 3. V (V) Typical Operating Characteristics =.8V, T A = +25 C =.8V, T A = +85 C = 3.V, T A = +85 C = 3.V, T A = +25 C toc2 LEAKAGE CURRT (pa), ON/OFF-LEAKAGE CURRT vs. TEMPERATURE OFF, = 3.V ON, =.8V ON, = 3.V OFF, =.8V -4-5 35 6 85 TEMPERATURE ( C) toc3 Q (pc) 7 6 5 4 3 2 - CHARGE INJECTION vs. V =.8V = 3.V toc4 SUPPLY CURRT (na)... SUPPLY CURRT vs. SUPPLY VOLTAGE AND TEMPERATURE T A = +85 C T A = +25 C T A = -4 C toc5 THRESHOLD (V).2...9.8.7.6 LOGIC-LEVEL THRESHOLD vs. SUPPLY VOLTAGE RISING FALLING toc6-2.5..5 2. 2.5 3. V (V)..4.8.2.6 2. 2.4 2.8 3.2 3.6 SUPPLY VOLTAGE (V).5.6 2. 2.4 2.8 3.2 3.6 SUPPLY VOLTAGE (V) 3 25 TURN-ON/OFF TIME vs. SUPPLY VOLTAGE toc7 3 25 TURN-ON/OFF TIME vs. TEMPERATURE t ON, =.8V toc8 t ON ton/toff () 2 5 t OFF ton/toff () 2 5 t OFF, =.8V t ON, = 3.V t OFF, = 3.V 5 5.6 2. 2.4 2.8 3.2 3.6 SUPPLY VOLTAGE (V) -4-5 35 6 85 TEMPERATURE ( C) 5
(T A = +25 C, unless otherwise noted.) LOSS (db) 5-5 -3-45 -6 FREQUCY RESPONSE ON-RESPONSE OFF-ISOLATION CROSSTALK -75-9 -5-2.. FREQUCY (MHz) Typical Operating Characteristics (continued) toc9 THD (%).2.8.6.4.2..8.6.4.2 TOTAL HARMONIC DISTORTION vs. FREQUCY =.8V V =.2V P-P = 3.V V = 2V P-P k k FREQUCY (Hz) R L = 32Ω toc k Pin Description PIN µmax QFN NAME FUNCTION 2 A Address Input 2 NO Analog Switch Normally Open Terminal 3 2 Ground 4 3 NO3 Analog Switch 3 Normally Open Terminal 5 4 Enable Logic Input 6 6 Positive-Supply Voltage Input 7 7 NO4 Analog Switch 4 Normally Open Terminal 8 8 Analog Switch Common Terminal 9 9 NO2 Analog Switch 2 Normally Open Terminal Address Input 5, N.C. No Connection. Not internally connected. EP Exposed Pad. Connect to Ground. 6
Detailed Description The is a low.8ω (max) (at = 2.7V) onresistance, low-voltage, 4-channel CMOS analog multiplexer that operates from a.6v to 3.6V single supply. CMOS switch cotruction allows switching analog signals that range from to. When powered from a 2.7V supply, the.8ω (max) R ON allows high continuous currents to be switched in a variety of applicatio. Applicatio Information Proper power-supply sequencing is recommended for all CMOS devices. Do not exceed the absolute maximum ratings, because stresses beyond the listed ratings can cause permanent damage to the devices. Always sequence on first, followed by NO_ or. Although it is not required, power-supply bypassing improves noise margin and prevents switching noise propagation from the supply to other components. A.µF capacitor, connected from to, is adequate for most applicatio. Logic Inputs The logic inputs can be driven up to 3.6V regardless of the supply voltage. For example, with a.8v supply, A_ and may be driven low to and high to 3.6V. Driving A_ and rail-to-rail minimizes power coumption. Analog Signal Levels Analog signals that range over the entire supply voltage ( to ) can be passed with very little change in onresistance (see the Typical Operating Characteristics). The switches are bidirectional, so the NO_ and _ pi can be used as either inputs or outputs. Layout High-speed switches require proper layout and design procedures for optimum performance. Reduce stray inductance and capacitance by keeping traces short and wide. Eure that bypass capacitors are as close to the device as possible. Use large ground planes where possible. Test Circuits/Timing Diagrams V NO NO2 NO4 V NO _ V = V IH +.5 5% t R < 5 t F < 5 A R L 35pF 9% 9% t ON t OFF Figure. Switching Time 7
V IH +.5V V A V A NO NO4 R L V NO _ Test Circuits/Timing Diagrams (continued) 35pF LOGIC INPUT V A_ SWITCH OUTPUT V NO _ VIH +.5V V V 5% 9% t BBM t R < 5 t F < 5 Figure 2. Break-Before-Make Interval R S V S CHANNEL SELECT V NO A LOGIC INPUT V V IH +.5V V OFF ON OFF C L = 5nF IS THE MEASURED VOLTAGE DUE TO CHARGE TRANSFER ERROR Q WH THE CHANNEL TURNS OFF. Q = x C L Figure 3. Charge Injection NO CHANNEL SELECT A NO4 MHz CAPACITANCE ANALYZER f = MHz V IH OR V IL Figure 4. Channel Off/On-Capacitance 8
nf NO A V IN Test Circuits/Timing Diagrams (continued) NETWORK ANALYZER 5Ω 5Ω MEAS REF OFF-ISOLATION = 2log V REF ON-LOSS = 2log V REF CROSSTALK = 2log V REF 5Ω 5Ω NOTES: MEASUREMTS ARE STANDARDIZED AGAINST SHORTS AT SOCKET TERMINALS. OFF-ISOLATION IS MEASURED BETWE AND OFF TERMINAL ON EACH SWITCH. ON-LOSS IS MEASURED BETWE AND ON TERMINAL ON EACH SWITCH. CROSSTALK IS MEASURED BETWE ADJACT CHANNELS WITH ONE CHANNEL ON AND THE OTHER OFF. Figure 5. Off-Isolation/On-Channel/Crosstalk Bandwidth Chip Information TRANSISTOR COUNT: 379 PROCESS: CMOS 9
Package Information (The package drawing(s) in this data sheet may not reflect the most current specificatio. For the latest package outline information, go to www.maxim-ic.com/packages.) LC D D/2 E/2 E (NE - ) X e D2/2 D2 b. M C A B E2/2 E2 2x6L QFN THIN.EPS L LC e k (ND - ) X e LC C L. C.8 C A A2 L L e e PACKAGE OUTLINE 2, 6L, THIN QFN, 3x3x.8mm 2-36 E 2 EXPOSED PAD VARIATIONS DOWN BONDS ALLOWED NOTES:. DIMSIONING & TOLERANCING CONFORM TO ASME Y4.5M-994. 2. ALL DIMSIONS ARE IN MILLIMETERS. ANGLES ARE IN DEGREES. 3. N IS THE TOTAL NUMBER OF TERMINALS. 4. THE TERMINAL # IDTIFIER AND TERMINAL NUMBERING CONVTION SHALL CONFORM TO JESD 95- SPP-2. DETAILS OF TERMINAL # IDTIFIER ARE OPTIONAL, BUT MUST BE LOCATED WITHIN THE ZONE INDICATED. THE TERMINAL # IDTIFIER MAY BE EITHER A MOLD OR MARKED FEATURE. 5. DIMSION b APPLIES TO METALLIZED TERMINAL AND IS MEASURED BETWE.2 mm AND.25 mm FROM TERMINAL TIP. 6. ND AND NE REFER TO THE NUMBER OF TERMINALS ON EACH D AND E SIDE RESPECTIVELY. 7. DEPOPULATION IS POSSIBLE IN A SYMMETRICAL FASHION. 8. COPLANARITY APPLIES TO THE EXPOSED HEAT SINK SLUG AS WELL AS THE TERMINALS. 9. DRAWING CONFORMS TO JEDEC MO22 REVISION C. PACKAGE OUTLINE 2, 6L, THIN QFN, 3x3x.8mm 2-36 E 2 2
Package Information (continued) (The package drawing(s) in this data sheet may not reflect the most current specificatio. For the latest package outline information, go to www.maxim-ic.com/packages.).6±. e.5±..6±. TOP VIEW 4X S H BOTTOM VIEW DIM A MIN -.2 MAX.43.6 MIN -.5 MAX..5 A2.3.37.75.95 D.2 3.5.8 D2 E E2 H L L b e c S α.6.4.6.4.87.57 INCHES.2.8.99.275 MILLIMETERS 2.95 2.89 2.95 2.89 4.75.4 3. 3.5 3. 5.5.7.37 REF.94 REF.7.6.77.27.97 BSC.5 BSC.35.78.9.2.96 REF.498 REF 6 6 LUMAX.EPS D2 E2 GAGE PLANE A2 A c D b α E L L FRONT VIEW SIDE VIEW PROPRIETARY INFORMATION TITLE: PACKAGE OUTLINE, L umax/usop APPROVAL DOCUMT CONTROL NO. REV. 2-6 I Maxim cannot assume respoibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licees are implied. Maxim reserves the right to change the circuitry and specificatio without notice at any time. Maxim Integrated Products, 2 San Gabriel Drive, Sunnyvale, CA 9486 48-737-76 24 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.