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MAX4674EEE+MAXIMN/a1500avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674ESE+ |MAX4674ESEMAXIMN/a2083avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674ESE+T |MAX4674ESETMAXIMN/a2016avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674ESE+T |MAX4674ESETMAXN/a2500avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674ETE+TMAXIMN/a30avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674EUE+ |MAX4674EUEMAXN/a63avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
MAX4674EUE+T |MAX4674EUETMAXIMN/a5417avai3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer


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MAX4674EEE+-MAX4674ESE+-MAX4674ESE+T-MAX4674ETE+T-MAX4674EUE+-MAX4674EUE+T
3V/5V, 4 Ohm, Wideband Quad 2:1 Analog Multiplexer
General Description
The MAX4674 is a low-voltage CMOS analog switch con-
taining four 2:1 multiplexers/demultiplexer. When pow-
ered from a single +5V supply, it features a low 4Ωmax
on-resistance (RON), 0.4Ωmax RONmatching between
channels, and 0.8ΩRON flatness over the entire signal
range. Off-leakage current is only 0.5nA max at +25°C.
The MAX4674 features fast turn-on (tON) and turn-off
(tOFF) times of 18ns and 6ns, respectively, and is avail-
able in QFN, QSOP, TSSOP, and SO packages.
This low-voltage multiplexer operates with a +1.8V to
+5.5V single supply. All digital inputs have +0.8V and
+2.4V logic thresholds, ensuring TTL/CMOS-logic com-
patibility with +5V operation.
________________________Applications

10/100 Base-T
ATM Switching
Audio and Video Signal Routing
Low-Voltage Data-Acquisition Systems
Communications Circuits
Relay Replacement
Features
Guaranteed On-Resistance max (+5V Supply)max (+3V Supply)Guaranteed Match Between Channels
0.4Ωmax
Guaranteed Flatness Over Signal Range
0.8Ωmax
1.8V Operation
RON= 100Ωtyp Over Temperature
tON= 51ns typ
tOFF= 13ns typ
Guaranteed Low Leakage Currents
0.5nA max at +25°C
Single-Supply Operation from +1.8V to +5.5VRail-to-Rail Signal HandlingTTL/CMOS-Logic CompatibleCrosstalk: -114dB (1MHz)Off-Isolation: -67dB (1MHz)4mm ✕4mm QFN Package
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
78141516
NC1A0V+EN
NC4
NO4
COM4
NC3
NO3COM3GND
QFN

COM2
NO2
NC2
COM1
NO11910171920N.C.N.C.EN
NC4
NO4
COM4NC3
NO3
COM3N.C.N.C.
GND
QFN

COM2
NO2
NC2
NO1COM1
NC1
CONTROL LOGICCONTROL LOGICV+
NC4
NO4
COM4
NC3
NO3
COM3
TOP VIEW
MAX4674
MAX4674
MAX4674
QSOP/TSSOP/SO

NC1
NO1
NO2
COM1
NC2
COM2
GND
CONTROL LOGICEN
ON SWITCH

NONE
COM1-NC1
COM2-NC2
COM3-NC3
COM4-NC4
COM1-NO1
COM2-NO2
COM3-NO3
COM4-NO4
Pin Configuration/Functional Diagram/Truth Table

19-1708; Rev 3; 12/06
Ordering Information
PA R T T EM PA N G E
PIN -
PA C K A G E
PK G O D E
AX 4674E E E - 40°C to + 85° C 16 QS OP E 16- 4AX 4674E U E - 40°C to + 85° C 16 TS S O P U 16- 2AX 4674E S E - 40°C to + 85° C 16 N ar r ow S O S 16- 2AX 4674E GE - 40°C to + 85° C 16 QFN - E P *G 1644- 1AX 4674E GP - 40°C to + 85° C 20 QFN - E P *G 2044- 3
*EP = Exposed pad.
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS—Single +5V Supply

(V+ = +4.5V to +5.5V, VIH= 2.4V, VIL= 0.8V, TA= TMIN to TMAX, unless otherwise noted. Typical values at TA= +25°C.) (Notes 2, 3)
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.
V+, A0, EN................................................................-0.3V to +6V
COM_, NO_, NC_ (Note1)...............................-0.3V to (V + 0.3V)
Continuous Current COM_, NO_, NC_ ..........................±100mA
Peak Current (COM_, NO_, NC_)
(pulsed at 1ms, 10% duty cycle) ..............................±300mA
Continuous Power Dissipation (TA= +70°C)
16-Pin QSOP (derate 8.3mW/°C above +70°C) ........667mW
16-Pin TSSOP (derate 6.7mW/°C above +70°C) .......533mW
16-Pin Narrow SO (derate 8mW/°C above +70°C) ....640mW
16-Pin QFN (derate 18.5mW/°C above +70°C)........1481mW
20-Pin QFN (derate 20mW/°C above +70°C)...........1600mW
Operating Temperature Range
MAX4674E_E .................................................-40°C to +85°C
Die Temperature..............................................................+150°C
Storage Temperature Range ............................-65°C to +150°C
Lead Temperature (soldering, 10s) ................................+300°C
Note 1:
Signals on NO_, NC_, and COM_ exceeding V+ or GND are clamped by internal diodes. Limit forward-diode current to max-
imum current rating.
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
ANALOG SWITCH

Analog Signal RangeVCOM_,VNO_,
VNC_0V+V
TA = +25°C2.24
On-ResistanceRONV+ = 4.5V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX5Ω
TA = +25°C0.150.4
On-Resistance Match Between
Channels (Notes 4, 5)ΔRONV+ = 4.5V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX0.5Ω
TA = +25°C0.50.8
On-Resistance Flatness
(Note 6)RFLAT (ON)V+ = 4.5V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX1Ω
TA = +25°C-0.5±0.01+0.5
NO_, NC_ Off-Leakage
Current (Note 7)
INO_(OFF),
INC_(OFF)
V+ = 5.5V; VCOM_ = 1V,
4.5V; VNO_ or VNC_ = 4.5V,
TA = TMIN to
TMAX-1+1nA
TA = +25°C-0.5±0.01+0.5
COM_ Off-Leakage Current
(Note 7)ICOM_(OFF)
V+ = 5.5V; VCOM_ = 1V,
4.5V; VNO_ or VNC_ = 4.5V,
TA = TMIN to
TMAX-1+1nA
TA = +25°C-0.5±0.01+0.5
COM_ On-Leakage Current
(Note 7)ICOM_(ON)
V+ = 5.5V; VCOM_ = 1V,
4.5V; VNO_ or VNC_ = 1,
4.5V, or floating
TA = TMIN to
TMAX-1+1nA
DIGITAL I/O (A0, EN)

Input Logic HighVIH2.4V
Input Logic LowVIL0.8V
Input Leakage CurrentIINVIN = 0 or +5.5V-0.5±1+0.5µA
DYNAMIC

TA = +25°C1018
Turn-On Time (Note 7)tON
VNO_ or VNC_ = 3V,
RL = 100Ω, CL = 35pF,
Figure 2
TA = TMIN to
TMAX20ns
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
ELECTRICAL CHARACTERISTICS—Single +5V Supply (continued)

(V+ = +4.5V to +5.5V, VIH= 2.4V, VIL= 0.8V, TA= TMIN to TMAX, unless otherwise noted. Typical values at TA= +25°C.) (Notes 2, 3)
ELECTRICAL CHARACTERISTICS—Single +3V Supply

(V+ = +2.7V to +3.3V, VIH= 2.0V, VIL= 0.4V, TA=TMINto TMAX, unless otherwise noted. Typical values at TA= +25°C.) (Notes 2, 3)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS

TA = +25°C46
Turn-Off Time (Note 7)tOFF
VNO_ or VNC_ = 3V,
RL = 100Ω, CL = 35pF,
Figure 2
TA = TMIN to
TMAX8ns
TA = +25°C5
Break-Before-Make (Note 7)tBBM
VNO_ or VNC_ = 3V,
RL = 100Ω, CL = 35pF,
Figure 3
TA = TMIN to
TMAX1ns
Charge InjectionQVGEN = 4V, RGEN = 0, CL = 1.0nF, Figure 410pC
f = 10MHz-47
Off-Isolation (Note 8)VISOCL = 5pF, RL = 100Ω,
f = 10MHz, Figure 5f = 1MHz-67dB
f = 10MHz-68Crosstalk (Note 9)VCTCL = 5pF, RL = 100Ω,
f = 10MHz, Figure 5f = 1MHz-114
Total Harmonic DistortionTHDRL = 600Ω, f = 20Hz to 20kHz0.015%
NO_, NC_ Off-CapacitanceCNO_(OFF),
CNC_(OFF)VNO_, VNC_ = GND, f = 1MHz, Figure 610pF
COM_ Off-CapacitanceCCOM_(OFF)VCOM_ = GND, f = 1MHz, Figure 620pF
COM_ On-CapacitanceC(ON)V C OM_ = VN O_, VN C _ = GN D , f = 1M Hz, Fi g ure 630pF
SUPPLY

Supply RangeV+1.85.5V
Positive Supply CurrentI+V+ = +5.5V, VIN = 0 or V+0.0011.0µA
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
ANALOG SWITCH

Analog Signal RangeVCOM, VNO,
VNC_0V+V
TA = +25°C46
On-ResistanceRONV+ = 2.7V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX8Ω
TA = +25°C0.150.4
On-Resistance Match Between
Channels (Notes 4, 5)ΔRONV+ = 2.7V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX0.5Ω
TA = +25°C23
On-Resistance Flatness
(Note 6)RFLAT(ON)V+ = 2.7V, ICOM_ = 10mA,
VNO_ or VNC_ = 0 to V+TA = TMIN to
TMAX4Ω
TA = +25°C-0.5±0.01+0.5
NO_, NC_ Off-Leakage
Current (Note 7)
INO_(OFF),
INC_(OFF)+ = 3.3V ; V C OM _ = 1V , 3V ;N O_ or V N C _ = 3V , 1V TA = TMIN to
TMAX-1+1nA
Note 2:The algebraic convention, where the most negative value is a minimum and the most positive value a maximum, is used in
this data sheet.
Note 3:
Parts are tested at the maximum hot-rated temperature. Limits across the entire temperature range are guaranteed by
design and correlation.
Note 4:
ΔRON= RON(MAX)- RON(MIN).
Note 5:
ΔRONmatching specifications for QFN packaged parts are guaranteed by design.
Note 6:
Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured over the
specified analog signal range.
Note 7:
Guaranteed by design.
Note 8:
Off-Isolation = 20log10(VCOM/VNO), VCOM= output, VNO= input to off switch.
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
ELECTRICAL CHARACTERISTICS—Single +3V Supply (continued)

(V+ = +2.7V to +3.3V, VIH= 2.0V, VIL= 0.4V, TA=TMINto TMAX, unless otherwise noted. Typical values at TA= +25°C.) (Notes 2, 3)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS

TA = +25°C-0.5±0.01+0.5
COM_ Off-Leakage Current
(Note 7)ICOM_(OFF)V + = 3.3V ; V C OM _ = 1V , 3V ;N O_ or V N C _ = 3V , 1V TA = TMIN to
TMAX-1+1nA
TA = +25°C-0.5±0.01+0.5
COM_ On-Leakage Current
(Note 7)ICOM_(ON)+ = 3.3V ; V C OM _ = 1V , 3V ;
VNO_ or VNC_ = 1V, 3V, or
floating
TA = TMIN to
TMAX-1+1nA
DIGITAL I/O (A0, EN)

Input Logic HighVIH2.0V
Input Logic LowVIL0.4V
Input Leakage CurrentIINVIN = 0 or +5.5V-0.5±1+0.5µA
DYNAMIC

TA = +25°C1222
Turn-On Time (Note 7)tON
VNO_ or VNC_ = 1.5V,
RL = 100Ω, CL = 35pF,
Figure 2
TA = TMIN to
TMAX25ns
TA = +25°C58
Turn-Off Time (Note 7)tOFF
VNO_ or VNC_ = 1.5V,
RL = 100Ω, CL = 35pF,
Figure 2
TA = TMIN to
TMAX10ns
TA = +25°C5
Break-Before-Make (Note 7)tBBM
VNO_ or VNC = 1.5V,
RL = 100Ω, CL = 35pF,
Figure 3
TA = TMIN to
TMAX1ns
Charge InjectionQVGEN = 2V, RGEN = 0, CL = 1.0nF,
Figure 418pC
f = 10MHz-47Off-Isolation (Note 8)VISOCL = 5pF, RL = 100Ω,
f = 10MHz, Figure 5f = 1MHz-67dB
f = 10MHz-68Crosstalk (Note 9)VCTCL = 5pF, RL = 100Ω,
f = 10MHz, Figure 5f = 1MHz-114dB
NO_, NC_ Off-CapacitanceCNO_(OFF),
CNC_(OFF)VNO_ or VNC_ = GND, f = 1MHz, Figure 610pF
COM_ Off-CapacitanceCCOM_(OFF)VCOM_ = GND, f = 1MHz, Figure 620pF
COM_ On-CapacitanceC(ON)VCOM_ = VNO_, VNC_ = GND, f = 1MHz,
Figure 630pF
SUPPLY

Positive Supply CurrentI+V+ = 3.3V, VIN = 0 or V+0.0011.0µA
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
1345
ON-RESISTANCE vs. VCOM

MAX4674-01
VCOM (V)
V+ = 2.5V
V+ = 1.8V
V+ = 3.0V
V+ = 5.0V
ON-RESISTANCE vs. VCOM
MAX4674-02
VCOM (V)
TA = +85°C
V+ = 5V
TA = +25°C
TA = -40°C
ON/OFF-LEAKAGE CURRENT
vs. TEMPERATURE
MAX4674-03
TEMPERATURE (°C)
ICOM
(pA)60
ION_LEAK
IOFF_LEAK1345
CHARGE INJECTION
vs. VCOM

MAX4674-04
VCOM (V)
Q (pC)31456
SUPPLY CURRENT
vs. SUPPLY VOLTAGE

MAX4674-05
V+ (V)
I+ (pA)
TURN-ON/-OFF TIME
vs. SUPPLY VOLTAGE
MAX4674-06
V+ (V)
tON
OFF
(ns)
tON
tOFF
TURN-ON/-OFF TIME
vs. TEMPERATURE
MAX4674-07
TEMPERATURE (°C)
OFF
(ns)
tON
tOFF
OFF-ISOLATION, ON-RESPONSE,
AND CROSSTALK vs. FREQUENCY
MAX4674-08
FREQUENCY (MHz)
AMPLITUDE (dB)
OFF-ISOLATION
ON-RESPONSE
CROSSTALK
0.0021k10k100100k
TOTAL HARMONIC DISTORTION
vs. FREQUENCY

MAX4674-09
FREQUENCY (Hz)
THD (%)
Typical Operating Characteristics
(V+ = +5V, TA= +25°C, unless otherwise noted.)
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer
Detailed Description

The MAX4674 is a low on-resistance (RON), low-volt-
age, quad 2:1 analog multiplexer/demultiplexer that
operates from a +1.8V to +5.5V single supply. The
MAX4674 features very fast switching speed (tON=
18ns max, tOFF= 6ns max) and guaranteed break-
before-make switching. Its low RONallows high continu-
ous currents to be switched in a variety of applications.
Digital Interface

A0 and ENare CMOS digital inputs that meet TTL logic
levels when V+ = 5V. Note that A0 and ENcan exceed
the voltage at V+ to a maximum of +5.5V. This feature
allows operation of the MAX4674 from a +3.3V supply
while controlling it with 5V CMOS logic signals.
The Pin Configuration/Functional Diagram/Truth Table
located on the first page of this data sheet details the
operation of the MAX4674.
Applications Information
Power-Supply Considerations
Overview

The MAX4674 construction is typical of most CMOS
analog switches. It has two supply pins, V+ and GND,
used to drive the internal CMOS switches and set the
limits of the analog voltage on any switches. Reverse
ESD-protection diodes are internally connected
between each analog-signal pin and both V+ and
GND. If any analog signal exceeds V+ and GND, one
of these diodes conducts. During normal operation,
these and other reverse-biased ESD diodes leak, form-
ing the only current drawn from VCCor GND.
Virtually all the analog leakage current comes from the
ESD diodes. Although the ESD diodes on a given sig-
nal pin are identical and therefore fairly well balanced,
they are reverse biased differently. Each is biased by
either V+ or GND and the analog signal. This means
Pin Description
PIN
QSOP/TSSOP/SO20 QFN16 QFNNAMEFUNCTION
2015A0Address Input116NC1Normally Closed Terminal21NO1Normally Open Terminal2COM1Analog Switch Common Terminal43NC2Normally Closed Terminal54NO2Normally Open Terminal5COM2Analog Switch Common Terminal7, 9, 17, 19—N.C.No Connection86GNDGround
9107COM3Analog Switch Common Terminal118NO3Normally Open Terminal129NC3Normally Closed Terminal1310COM4Analog Switch Common Terminal1411NO4Normally Open Terminal1512NC4Normally Closed Terminal1613ENOutput Enable, Active Low1814V+Positive Supply VoltageEPEPEPExposed Pad. Connect to GND.
MAX4674
3V/5V, 4Ω, Wideband Quad
2:1 Analog Multiplexer

their leakages will vary as the signal varies. The differ-
ence in the two-diode leakages to the V+ and GND
pins constitutes the analog-signal-path leakage current.
All analog leakage current flows between each pin and
one of the supply terminals, not to the other switch ter-
minal, which is why both sides of a given switch can
show leakage currents of either the same or opposite
polarity.
V+ and GND power the internal logic and set the input
logic limits. Logic inputs have ESD-protection diodes to
ground.
The logic-level thresholds are TTL/CMOS compatible
when V+ is +5V. As V+ rises, the threshold increases;
as V+ falls, the threshold decreases. For example,
when V+ = +3V, the guaranteed minimum logic-high
threshold decreases to 2.0V.
Low-Voltage Operation

The MAX4674 operates from a single supply between
+1.8V and +5.5V. At room temperature, it actually
“works” with a single supply near or below +1.7V; as
supply voltage decreases, however, switch on-resis-
tance becomes very high.
Overvoltage Protection

Proper power-supply sequencing is recommended for
all CMOS devices. Do not exceed the absolute maxi-
mum ratings because stresses beyond the listed rat-
ings can cause permanent damage to the device.
Always sequence V+ on first, followed by the logic
inputs and analog signals. If power-supply sequencing
is not possible, add two small signal diodes (D1, D2) in
series with the supply pins for overvoltage protection
(Figure 1).
Adding diodes reduces the analog-signal range to one
diode drop below V+ and one diode drop above GND,
but does not affect the device’s low switch resistance
and low leakage characteristics. Device operation is
unchanged, and the difference between V+ and GND
should not exceed 6V. These protection diodes are not
recommended if signal levels must extend to ground.
High-Frequency Performance

In 50Ωsystems, signal response is reasonably flat up
to 50MHz (see the Typical Operating Characteristics).
Above 20MHz, the on response has several minor
peaks that are highly layout dependent. The problem is
not turning the switch on, but turning it off. The off-state
switch acts like a capacitor and passes higher frequen-
cies with less attenuation. At 10MHz, off-isolation is
about -50dB in 50Ωsystems, becoming worse (approx-
imately 20dB per decade) as frequency increases.
Higher circuit impedances also degrade off-isolation.
Adjacent channel attenuation is about 3dB above that
of a bare IC socket and is entirely due to capacitive
coupling.
Chip Information

TRANSISTOR COUNT: 478
GND
*INTERNAL PROTECTION DIODES
EXTERNAL
BLOCKING DIODE
EXTERNAL
BLOCKING DIODE
GND
MAX4674*
Figure 1. Overvoltage Protection Using External Blocking
Diodes
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