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MAX4558ESE+T

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MAX4558ESE+T

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Part Number MAX4558ESE+T
Manufacturer Maxim Integrated
Description IC MULTIPLEXER 8X1 16SOIC
Datasheet MAX4558ESE+T Datasheet
Package 16-SOIC (0.154", 3.90mm Width)
In Stock 5,034 piece(s)
Unit Price $ 3.2558 *
Lead Time Can Ship Immediately
Estimated Delivery Time Dec 4 - Dec 9 (Choose Expedited Shipping)
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Part Number # MAX4558ESE+T (Interface - Analog Switches, Multiplexers, Demultiplexers) is manufactured by Maxim Integrated and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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MAX4558ESE+T Specifications

ManufacturerMaxim Integrated
CategoryIntegrated Circuits (ICs) - Interface - Analog Switches, Multiplexers, Demultiplexers
Datasheet MAX4558ESE+TDatasheet
Package16-SOIC (0.154", 3.90mm Width)
Series-
Switch Circuit-
Multiplexer/Demultiplexer Circuit8:1
Number of Circuits1
On-State Resistance (Max)160 Ohm
Channel-to-Channel Matching (ΔRon)2 Ohm
Voltage - Supply, Single (V+)2 V ~ 12 V
Voltage - Supply, Dual (V±)��2 V ~ 6 V
Switch Time (Ton, Toff) (Max)150ns, 120ns
-3db Bandwidth-
Charge Injection2.4pC
Channel Capacitance (CS(off), CD(off))2.5pF, 10pF
Current - Leakage (IS(off)) (Max)1nA
Crosstalk-93dB @ 100kHz
Operating Temperature-40°C ~ 85°C (TA)
Package / Case16-SOIC (0.154", 3.90mm Width)
Supplier Device Package16-SO

MAX4558ESE+T Datasheet

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For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800. For small orders, phone 1-800-835-8769. General Description The MAX4558/MAX4559/MAX4560 are low-voltage, CMOS analog ICs configured as an 8-to-1 multiplexer (MAX4558), a dual 4-to-1 multiplexer (MAX4559), and a triple single-pole/double-throw (SPDT) switch (MAX4560). Each switch is protected against ±15kV electrostatic discharge (ESD) shocks, without latchup or damage. These CMOS devices can operate continuously from dual supplies of ±2V to ±6V or from a +2V to +12V sin- gle supply. Each switch can handle Rail-to-Rail® ana- log signals. The off-leakage current is only 1nA at +25°C or 10nA at +85°C max. All digital inputs have +0.8V to +2.4V logic thresholds, ensuring TTL/CMOS-logic compatibility when using a single +5V supply or dual ±5V supplies. Applications Battery-Operated Equipment Audio and Video Signal Routing Low-Voltage Data-Acquisition Systems Communications Circuits High-ESD Environments Features ♦ ESD-Protected X, Y, Z and X_, Y_, Z_ Pins ±15kV (Human Body Model) ±12kV (IEC 1000-4-2, Air-Gap Discharge) ±8kV (IEC 1000-4-2, Contact Discharge) ♦ Pin-Compatible with Industry-Standard 74HC4051/74HC4052/74HC4053 ♦ Guaranteed On-Resistance 220Ω with Single +5V Supply 160Ω with ±5V Supply ♦ RON Match Between Channels: 2Ω (typ) ♦ Guaranteed Low leakage Currents 1nA Off-Leakage (at +25°C) 1nA On-Leakage (at +25°C) ♦ TTL-Compatible Inputs with +5V/±5V Supplies ♦ Low Distortion: < 0.02% (600Ω ) ♦ Low Crosstalk: < -93dB (50Ω ) ♦ High Off-Isolation: < -96dB (50Ω ) M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches ________________________________________________________________ Maxim Integrated Products 1 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 VCC X2 X1 X0 X3 A B C X4 X6 X X7 X5 ENABLE VEE GND TOP VIEW MAX4558 DIP/SO/QSOP LOGIC 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 VCC Y X X1 X0 A B C Y1 Y0 Z1 Z Z0 ENABLE VEE GND MAX4560 DIP/SO/QSOP 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 VCC X2 X1 X X0 X3 A B Y0 Y2 Y Y3 Y1 ENABLE VEE GND MAX4559 DIP/SO/QSOP LOGIC 19-1443; Rev 0; 4/99 PART MAX4558CEE MAX4558CSE MAX4558CPE 0°C to +70°C 0°C to +70°C 0°C to +70°C TEMP. RANGE PIN-PACKAGE 16 QSOP 16 Narrow SO 16 Plastic DIP Ordering Information continued at end of data sheet. Pin Configurations/Functional Diagrams Ordering Information Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches 2 _______________________________________________________________________________________ ABSOLUTE MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS—Dual ±5V Supplies (VCC = +4.5V to +5.5V, VEE = -4.5V to -5.5V, V_H = +2.4V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) 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 conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Note 1: Signals on any terminal exceeding VCC or VEE are clamped by internal diodes. Limit forward diode current to maximum cur- rent rating. (Voltages referenced to VEE) VCC........................................................................ -0.3V to +13V Voltage into Any Terminal (Note 1).... (VEE - 0.3V) to (VCC + 0.3V) Continuous Current into Any Terminal .............................±10mA Peak Current, X, Y, Z, X_, Y_, Z_ (pulsed at 1ms, 10% duty cycle) ..................................±30mA ESD per Method IEC 1000-4-2 (X, Y, Z, X_, Y_, Z_) Air-Gap Discharge ......................................................... ±12kV Contact Discharge ............................................................±8kV ESD per Method 3015.7 VCC, VEE, A, B, C, ENABLE, GND ................................ ±2.5kV X, Y, Z, X_, Y_, Z_............................................................±15kV Continuous Power Dissipation (TA = +70°C) QSOP (derate 8.00mW/°C above +70°C).................... 640mW Narrow SO (derate 8.70mW/°C above +70°C) .............696mW DIP (derate 10.53mW/°C above +70°C) .......................842mW Operating Temperature Ranges MAX45_ _C_E ......................................................0°C to +70°C MAX45_ _E_E ...................................................-40°C to +85°C Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10sec) .............................+300°C VV- V+ VX_, VY_, VZ_, VX, VY, VZ Analog Signal Range VCC = 4.5V; VEE = -4.5V; IX, IY, IZ = 1mA; VX_, VY_, VZ_ = ±3V Ω 180 RONOn-Resistance 110 160 VCC = 4.5V; VEE = -4.5V; IX, IY, IZ = 1mA; VX_, VY_, VZ_ = -3V, 0V, 3V VCC = 4.5V; VEE = -4.5V; IX, IY, IZ = 1mA; VX_, VY_, VZ_ = ±3V 3 8On-Resistance Flatness (Note 4) Ω 2 6 ∆ RON On-Resistance Match Between Channels (Note 3) VCC = 5.5V; VEE = -5.5V; VX_, VY_, VZ_ = 4.5V, -4.5V; VX, VY, VZ = -4.5V, 4.5V -20 20 -2 0.002 2 VCC = 5.5V; VEE = -5.5V; VX_, VY_, VZ_ = 4.5V, -4.5V; VX, VY, VZ = -4.5V, 4.5V nA -1 0.002 1IX_(OFF), IY_(OFF), IZ_(OFF) X_, Y_ , Z_ Off-Leakage Current (Note 5) nA -10 0.002 10 IX(OFF), IY(OFF), IZ(OFF) X, Y, Z Off-Leakage Current (Note 5) -1 0.002 1 Ω 10 C, E C, E +25°C +25°C +25°C +25°C C, E +25°C C, E C, E +25°C CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA C, E RFLAT(ON) C, E -10 10 MAX4558 MAX4559 MAX4560 MAX4558 MAX4559 MAX4560 -20 20 -2 0.002 2 VCC = 5.5V; VEE = -5.5V; VX_, VY_, VZ_ = 4.5V, 4.5V; VX, VY, VZ = 4.5V, -4.5V nA -10 0.002 10 IX(ON), IY(ON), IZ(ON) X, Y, Z On-Leakage Current (Note 5) -1 0.002 1 C, E +25°C C, E +25°C 8 ANALOG SWITCH

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches _______________________________________________________________________________________ 3 ELECTRICAL CHARACTERISTICS—Dual ±5V Supplies (continued) (VCC = +4.5V to +5.5V, VEE = -4.5V to -5.5V, V_H = +2.4V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) V 0.8 VA_, VB_, VC_, VEN Input Logic High 2.4 CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA C, E C, E VA_, VB_, VC_, VEN Input Logic Low V VA, VB, VC, VEN = VCC or 0 µA VA_, VB_, VC_, VEN Input Current Logic High or Low -1 1C, E VCC, VEE ±2 ±6 VCC = 5.5V; VEE = -5.5V; VA, VB, VC, VEN = 0 or VCC µAICC Supply Current, VCC or VEE Power-Supply Range -1 1+25°C VC, E 90 150 VX, VY, VZ = 0; RS = 0; CL = 1nF; Figure 3 pCQCharge Injection 2.4+25°C VX_, VY_, VZ_ = 0; f = 1MHz; Figure 5 pF CX_(OFF), CY_(OFF), CZ_(OFF) VX_, VY_, VZ_ Off-Capacitance 2.5 6 10 +25°C +25°C VX, VY, VZ = GND; f = 1MHz; Figure 5 pF CX(OFF), CY(OFF), CZ(OFF) VX, VY, VZ Off-Capacitance 4 +25°C VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 175 tONTurn-On Time ns C, E VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 150 tOFFTurn-Off Time ns C, E 55 120+25°C VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 175 tTRANSAddress Transition Time ns C, E VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 2 4 15tOPENBreak-Before-Make Delay ns 90 150 +25°C +25°C MAX4558 MAX4559 MAX4560 11 15 VX_, VY_, VZ_ = GND; f = 1MHz; Figure 5 pFCONSwitch On-Capacitance 9 +25°CMAX4559 MAX4558 MAX4560 C, E -10 10 DIGITAL I/O POWER SUPPLY SWITCH DYNAMIC CHARACTERISTICS

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C, E ΩTotal Harmonic Distortion THD 180RL = 600Ω , TBD = 5Vp-p, f = 20Hz to M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches 4 _______________________________________________________________________________________ ELECTRICAL CHARACTERISTICS—Dual ±5V Supplies (continued) (VCC = +4.5V to +5.5V, VEE = -4.5V to -5.5V, V_H = +2.4V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) mA 110+25°C CL = 15pF; RL = 50Ω ; f = 100kHz; VX_, VY_, VZ_ = 1VRMS; Figure 4 -96 CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA VISOOff-Isolation dB+25°C CL = 15pF; RL = 50Ω ; f = 100kHz; VX_, VY_, VZ_ = 1VRMS; Figure 4 dBVCTChannel-to-Channel Crosstalk -93+25°C IH+ ESD SCR Positive Holding Current 70+85°C IH- ESD SCR Negative Holding Current 65+85°C mA 95+25°C L Ω ; VX_, VY_, VZ_ = 5Vp-p; f = 20Hz to 20kHz 0.02THDTotal Harmonic Distortion %+25°C ELECTRICAL CHARACTERISTICS—Single +5V Supply (VCC = +4.5V to +5.5V, VEE = 0, V_H = +2.4V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) C, E VCC = 4.5V; IX, IY, IZ = 1mA; VX, VY, VZ = 3V Ω 350 RONOn-Resistance 150 220 C, E -10 10 VCC = 4.5V; IX, IY, IZ = 1mA; VX, VY, VZ = 3V MAX4558 Ω MAX4558 3 10 ∆ RON MAX4559 MAX4560 MAX4559 MAX4560 V0 V+ VX_, VY_, VZ_, VX, VY, VZ Analog Signal Range -20 20 -2 0.002 2 VCC = 5.5V; VX_, VY_, VZ_ = 1V, 4.5V; VX, VY, VZ = 1V, 4.5V On-Resistance Match Between Channels (Note 3, 6) nA -10 0.002 10 IX(ON), IY(ON), IZ(ON) X, Y, Z On-Leakage Current (Note 6) VCC = 5.5V; VX, VY, VZ = 1V, 4.5V, VX, VY, VZ = 4.5V, 1V -1 0.002 1 C, E +25°C -20 20 C, E +25°C 12 -2 0.002 2 VCC = 5.5V; VX_, VY_, VZ_ = 1V, 4.5V; VX, VY, VZ = 4.5V, 1V nA -1 0.002 1IX_(OFF), IY_(OFF), IZ_(OFF) X_, Y_ , Z_ Off-Leakage Current (Note 6) nA -10 10 IX(OFF), IY(OFF), IZ(OFF) X, Y, Z Off-Leakage Current (Note 6) -1 0.002 1 CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA C, E C, E +25°C +25°C +25°C C, E +25°C C, E +25°C ANALOG SWITCH

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches _______________________________________________________________________________________ 5 ELECTRICAL CHARACTERISTICS—Single +5V Supply (continued) (VCC = +4.5V to +5.5V, VEE = 0, V_H = +2.4V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 V 0.8 VA_, VB_, VC_, VEN Input Logic High VA_, VB_, VC_, VEN 2.4 VA, VB, VC, VEN = VCC or 0 µA 300 VA_, VB_, VC_, VEN Input Current Logic High or Low Input Logic Low tON -1 1 Turn-On Time ns C, E C, E VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 V 200 tOFFTurn-Off Time ns C, E 50 150 110 250 VX, VY, VZ = 2.5V; RS = 0; CL = 1nF; Figure 3 pCQCharge Injection +25°C 1+25°C +25°C CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 1 300 tTRANSAddress Transition Time ns C, E VX_, VY_, VZ_ = 3V; RL = 300Ω ; CL = 35pF; Figure 3 10tOPENBreak-Before-Make Delay ns 110 250 C, E +25°C C, E C, E VCC, VEE VPower-Supply Range +2 +12C, E VCC = 5.5V; VAH, VBH, VCH, VEN = 0 or VCC µAICCVCC Supply Current -1 1+25°C C, E -10 10 DIGITAL I/O POWER SUPPLY SWITCH DYNAMIC CHARACTERISTICS (Note 6)

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches 6 _______________________________________________________________________________________ ELECTRICAL CHARACTERISTICS—Single +3V Supply (VCC = +2.7V to +3.6V, V_H = +2.0V, V_L = +0.8V, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) Note 2: The algebraic convention is used in this data sheet; the most negative value is shown in the minimum column. Note 3: ∆ RON = RON(MAX) - RON(MIN). Note 4: Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured over the specified analog signal ranges; i.e., VON = 3V to 0 and 0 to -3V. Note 5: Leakage parameters are 100% tested at the maximum-rated hot operating temperature and are guaranteed by correlation at TA = +25°C. Note 6: Guaranteed by design, not production tested. VX_, VY_, VZ_ = 1.5V; RL = 1kΩ ; CL = 35pF; Figure 1 VCC = 2.7V; IX, IY, IZ = 0.1mA; VX, VY, VZ = 1.5V Ω 0.5 RONOn-Resistance VA_, VB_, VC_, VEN 220 400 VA, VB, VC, VEN = VCC or 0 µA 400 VA_, VB_, VC_, VEN Input Current Logic High or Low Input Logic Low tON -1 1 Turn-On Time ns C, E C, E VX_, VY_, VZ_ = 1.5V; RL = 1kΩ ; CL = 35pF; Figure 1 V 300 tOFFTurn-Off Time ns C, E 90 250 180 350 VX, VY, VZ = 1.5V; RS = 0; CL = 1nF; Figure 3 pCQCharge Injection +25°C 0.5+25°C +25°C CONDITIONS UNITS MIN TYP MAX (Note 2) SYMBOLPARAMETER TA VX_, VY_, VZ_ = 1.5V; RL = 1kΩ ; CL = 35pF; Figure 1 400 tTRANSAddress Transition Time ns C, E VX_, VY_, VZ_ = 1.5V; RL = 1kΩ ; CL = 35pF; Figure 2 1.5tOPENBreak-Before-Make Delay ns 180 350 C, E +25°C C, E +25°C V VA_, VB_, VC_, VEN Input Logic High 1.5C, E C, E 450 VCC = 3.6V; VA_, VB_, VC_, VEN = 0 or VCC µAICCVCC Supply Current 1 0.5 1+25°C ANALOG SWITCH DIGITAL I/O SWITCH DYNAMIC CHARACTERISTICS (Note 6) POWER SUPPLY C, E -10 10

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches _______________________________________________________________________________________ 7 0 40 20 80 60 100 120 160 140 180 -5 -3 -2 -1-4 0 1 2 3 4 5 ON-RESISTANCE vs. VX, VY, VZ (DUAL SUPPLIES) M A X 4 5 5 8 -0 1 VX, VY, VZ (V) R O N ( Ω ) VCC = +2V VEE = -2V VCC = +3V VEE = -3VVCC = +5V VEE = -5V 0 120 60 240 180 300 360 420 480 0 1.0 1.5 2.00.5 2.5 3.0 3.5 4.0 4.5 5.0 ON-RESISTANCE vs. VX, VY, VZ (SINGLE SUPPLY) M A X 4 5 5 8 -0 2 VX, VY, VZ (V) R O N ( Ω ) VCC = +2V VCC = +2.7V VCC = +3.3V VCC = +5V VEE = 0 ON-RESISTANCE vs. VX, VY, VZ AND TEMPERATURE (DUAL SUPPLIES) TA = +85°C TA = +70°C VCC = +5V VEE = -5V TA = +25°C TA = -40°C TA = 0°C 40 60 50 80 70 100 90 110 130 120 140 R O N ( Ω ) -5 -3 -2 -1-4 0 1 2 3 4 5 VX, VY, VZ (V) M A X 4 5 5 8 -0 3 40 70 60 50 100 90 80 120 110 130 160 150 140 170 0 1.0 1.5 2.00.5 2.5 3.0 3.5 4.0 4.5 5.0 ON-RESISTANCE vs. VX, VY, VZ AND TEMPERATURE (SINGLE SUPPLY) M A X 4 5 5 8 -0 4 VX, VY, VZ (V) R O N ( Ω ) VCC = +5V VEE = 0 TA = +85°C TA = +25°C TA = -40°C TA = +70°C TA = 0°C 10 0.0001 -50 -10-30 30 50 70 10090 POWER-SUPPLY CURRENT vs. TEMPERATURE 0.001 0.01 0.1 1 M A X 4 5 5 8 -0 7 TEMPERATURE (°C) I C C , I EE ( nA ) 10 IEE ICC VA, VB, VC, VENABLE = 0.5V VCC = +5V VEE = -5V 1000 0.01 -50 -20 -5-35 25 55 70 10085 ON/OFF-LEAKAGE CURRENT vs. TEMPERATURE 0.1 1 10 100 M A X 4 5 5 8 -0 5 TEMPERATURE (°C) LE A K A G E C U R R EN T (p A ) 10 40 ON_LEAKAGE IX, IY, IZ OFF_LEAKAGE IX, IY, IZ OFF_LEAKAGE IX_, IY_, IZ_ VCC = +5V VEE = -5V -10 -6 -4 -8 0 -2 2 4 10 8 6 12 -5 -3 -2 -1-4 0 1 2 3 4 5 CHARGE INJECTION vs. VX, VY, VZ M A X 4 5 5 8 -0 6 VX, VY, VZ (V) Q (p C ) VCC = +5V VEE = -5V VCC = +3V VEE = 0 VCC = +5V VEE = 0 0 40 20 80 60 120 100 140 180 160 200 -60 -20 0-40 20 40 60 80 100 SCR HOLDING CURRENT vs. TEMPERATURE M A X 4 5 5 8 -0 8 TEMPERATURE (°C) H O LD IN G C U R R EN T (m A ) IH+ IH- 30 50 90 70 110 130 150 170 ±2.0 ±3.0 ±3.5±2.5 ±4.0 ±4.5 ±5.0 ±5.5 ±6.0 TURN-ON/TURN-OFF TIME vs. SUPPLY VOLTAGE M A X 4 5 5 8 -0 9 SUPPLY VOLTAGE (VCC, VEE) t O N , t O FF ( ns ) tON tOFF Typical Operating Characteristics (VCC = +5V, VEE = -5V, TA = +25°C, unless otherwise noted.)

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M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches 8 _______________________________________________________________________________________ Typical Operating Characteristics (continued) (VCC = +5V, VEE = -5V, TA = +25°C, unless otherwise noted.) Pin Description 40 50 70 60 80 90 100 110 -40 0-20 20 40 60 80 TURN-ON/TURN-OFF TIME vs. TEMPERATURE M A X 4 5 5 8 -1 0 TEMPERATURE (°C) t O N , t O FF ( ns ) tON tOFF VCC = +5V VEE = -5V 10 1k100 10k 100k TOTAL HARMONIC DISTORTION vs. FREQUENCY M A X 4 5 5 8 -1 1 FREQUENCY (Hz) TH D ( % ) 0.025 0.024 0.018 0.019 0.022 0.021 0.020 0.023 VCC = +5V VEE = -5V 600Ω IN AND OUT 10k 100k 1M 10M 100M 1G FREQUENCY RESPONSE M A X 4 5 5 8 t o c1 2 FREQUENCY (Hz) R ES P O N S E (d B ) 0 -100 -70 -40 -20 -10 -60 -90 -50 -80 -30 INSERTION LOSS CROSSTALK OFF-ISOLATION VCC = +5V VEE = -5V X0–X7— Analog Switch Inputs 0–7— 1, 2, 4, 5, 12–15 X— X0, X1, X2, X3— Analog Switch “X” Inputs 0–311, 12, 14, 15— Analog Switch Output—3 X14 X113 Analog Switch “X” Normally Open Input—— X012 Y11 Analog Switch “C” Normally Open Input—— Analog Switch “X” Normally Closed Input—— Analog Switch “X” Output 13— Y02 ENABLE6 Digital Enable Input. Connect to GND to enable device. Drive high to set all switches off. 66 VEE7 GND8 Ground88 Negative Analog Supply Voltage Input. Connect to GND for single-supply operation. 77 A11 B10 Digital Address “B” Input910 C9 Y0, Y1, Y2, Y3— Analog Switch “Y” Inputs 0–3 Analog Switch “C” Normally Closed Input—— 1, 2, 4, 5— Digital Address “C” Input—9 Digital Address “A” Input1011 Y15 Analog Switch “Y” Output 3— Z13 Analog Switch “Z” Normally Open Input—— Z05 Analog Switch “Z” Normally Closed Input—— VCC16 Positive Analog and Digital Supply Voltage Input1616 Z4 Analog Switch “Z” Output—— PIN MAX4558 MAX4559 MAX4560 NAME FUNCTION

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_______________Detailed Description The MAX4558/MAX4559/MAX4560 are ESD protected (per IEC 1000-4-2) at their X, Y, Z output pins and X_, Y_, Z_ input pins. These ICs feature on-chip bidirection- al silicon-controlled rectifiers (SCRs) between the pro- tected pins and GND. The SCRs are normally off and have a negligible effect on the switches’ performance. During an ESD strike, the voltages at the protected pins go Beyond-the-Rails™, causing the corresponding SCR(s) to turn on in a few nanoseconds. This bypasses the surge current safely to ground. This protection method is superior to using diode clamps to the sup- plies. Unless the supplies are very carefully decoupled through low-ESR capacitors, the ESD current through a diode clamp could cause a significant spike in the sup- plies, which might damage or compromise the reliabili- ty of any other chip powered by those same supplies. In addition to the SCRs at the ESD-protected pins, these devices provide internal diodes connected to the supplies. Resistors placed in series with these diodes limit the current flowing into the supplies during an ESD strike. The diodes protect the X, Y, Z and X_, Y_, Z_ pins from overvoltages due to improper power-supply sequencing. Once the SCR turns on because of an ESD strike, it remains on until the current through it falls below its “holding current.” The holding current is typically 110mA in the positive direction (current flowing into the pin) and 95mA in the negative direction at room tem- perature (see SCR Holding Current vs. Temperature in the Typical Operating Characteristics). The system should be designed so that any sources connected to the X, Y, Z or X_, Y_, Z_ pins are current limited to a value below the holding current. This ensures that the SCR turns off and normal operation resumes after an ESD event. Keep in mind that the holding currents vary significantly with temperature; they drop to 70mA (typ) in the posi- tive direction and 65mA (typ) in the negative direction, at +85°C worst case. To guarantee turn-off of the SCRs under all conditions, current limit the sources connect- ed to these pins to not more than half of these typical values. When the SCR is latched, the voltage across it is about ±3V, depending on the polarity of the pin cur- rent. The supply voltages do not affect the holding cur- rents appreciably. When one or more SCRs turn on because of an ESD event, all switches in the part turn off to prevent current through the switch(es) from sus- taining latchup. Even though most of the ESD current flows to GND through the SCRs, a small portion of it goes into the supplies. Therefore, it is a good idea to bypass the supply pins with 100nF capacitors to the ground plane. __________Applications Information ESD Protection The MAX4558/MAX4559/MAX4560 are characterized for protection to the following: • ±15kV using the Human Body Model • ±8kV using the Contact Discharge method specified in IEC 1000-4-2 (formerly IEC 801-2) • ±12kV using the Air-Gap Discharge method speci- fied in IEC 1000-4-2 (formerly IEC 801-2). M A X 4 5 5 8 /M A X 4 5 5 9 /M A X 4 5 6 0 ±15kV ESD-Protected, Low-Voltage, CMOS Analog Multiplexers/Switches _______________________________________________________________________________________ 9 Table 1. Truth Table/Switch Programming ENABLE INPUT C* B A SELECT INPUTS XX LLLL XH HL LHLL HH LLHL LL LL HLHL LHHL HHHL X-X0, Y-Y1, Z-Z1 MAX4558 MAX4559 MAX4560 X-X2, Y-Y2X-X6 ON SWITCHES X-X1, Y-Y1, Z-Z1X-X3, Y-Y3X-X7 All switches openAll switches open X-X0, Y-Y0, Z-Z0X-X0, Y-Y0X-X0 All switches open X-X1, Y-Y0, Z-Z0X-X1, Y-Y1 X-X0, Y-Y1, Z-Z0X-X2, Y-Y2X-X2 X-X1, Y-Y1, Z-Z0X-X3, Y-Y3 X-X0, Y-Y0, Z-Z1X-X0, Y-Y0X-X4 X-X3 X-X1 X-X1, Y-Y0, Z-Z1X-X1, Y-Y1X-X5 X = Don’t care * C not present on MAX4559. Note: Input and output pins are identical and interchangeable. Either may be considered an input or output; signals pass equally well in either direction. Beyond-the-Rails is a trademark of Maxim Integrated Products.

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