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MAX391ESE+T

MAX391ESE+T

MAX391ESE+T

Maxim Integrated

130ns, 75ns SPST - NC 35Ohm Analog Switches BREAK-BEFORE-MAKE MAX391 16 Pins 100pA 5V 16-SOIC (0.154, 3.90mm Width)

SOT-23

MAX391ESE+T Datasheet

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Specifications
Name Value
Type Parameter
Factory Lead Time 6 Weeks
Contact Plating Tin
Mount Surface Mount
Mounting Type Surface Mount
Package / Case 16-SOIC (0.154, 3.90mm Width)
Number of Pins 16
Operating Temperature -40°C~85°C TA
Packaging Tape & Reel (TR)
Published 2007
JESD-609 Code e3
Pbfree Code yes
Part Status Active
Moisture Sensitivity Level (MSL) 1 (Unlimited)
Number of Terminations 16
ECCN Code EAR99
Resistance 35Ohm
Subcategory Multiplexer or Switches
Max Power Dissipation 696mW
Technology CMOS
Terminal Form GULL WING
Peak Reflow Temperature (Cel) 260
Number of Functions 4
Supply Voltage 5V
Terminal Pitch 1.27mm
Time@Peak Reflow Temperature-Max (s) 30
Base Part Number MAX391
Output SEPARATE OUTPUT
Pin Count 16
Operating Supply Voltage 8V
Polarity Non-Inverting
Number of Channels 1
Number of Circuits 4
Max Supply Voltage 15V
Min Supply Voltage 3V
Operating Supply Current 1μA
Nominal Supply Current 1μA
Max Supply Current 1μA
Throw Configuration SPST
Turn On Delay Time 130 ns
Voltage - Supply, Single/Dual (±) 3V~15V ±3V~8V
Supply Type Dual, Single
Neg Supply Voltage-Nom (Vsup) -5V
Turn-Off Delay Time 75 ns
Max Dual Supply Voltage 8V
On-State Resistance (Max) 35Ohm
Min Dual Supply Voltage 3V
Dual Supply Voltage 5V
Multiplexer/Demultiplexer Circuit 1:1
Off-state Isolation-Nom 72 dB
Current - Leakage (IS(off)) (Max) 100pA
Channel Capacitance (CS(off), CD(off)) 9pF 9pF
On-state Resistance Match-Nom 0.3Ohm
Switch Circuit SPST - NC
Switch Time (Ton, Toff) (Max) 130ns, 75ns
Charge Injection 2pC
Channel-to-Channel Matching (ΔRon) 300m Ω
Crosstalk -85dB @ 1MHz
Switching BREAK-BEFORE-MAKE
Normal Position NC
Height Seated (Max) 1.75mm
Length 9.9mm
Width 3.9mm
Radiation Hardening No
RoHS Status ROHS3 Compliant
Pricing & Ordering
Quantity Unit Price Ext. Price
1 $3.217492 $3.217492
10 $3.035370 $30.3537
100 $2.863557 $286.3557
500 $2.701469 $1350.7345
1000 $2.548555 $2548.555
MAX391ESE+T Product Details

MAX391ESE+T Overview


Presented in 16-SOIC (0.154, 3.90mm Width), this electrical component is convenient for overseas shipping. High reliability is ensured by the advanced packaging method Tape & Reel (TR). Surface Mount is where this multiplexer is located. Multiplexer and demultiplexer circuits have a number 1:1. Increasing operating temperature to around -40°C~85°C TA. Totally, there are 16 terminations. A high-quality output is provided by the electrical component's 1 channels. It is safe to turn on and run the electronic component with a 5V voltage supply. A total of 16 pins are injected into the electrical part body. A SPST - NC switching circuit is used for these analog switches. The circuits in this analogue multiplexer number 4. Using the MAX391 search parameter, you can discover variants of the switch. In this multiplexer, the internal resistance is 35Ohm. For details about the functions of 16 pins, please refer to the datasheets. There is Multiplexer or Switches analog multiplexer like this in the world. It is generally not recommended to supply a voltage higher than 15V to the switch device in normal circumstances. The digital multiplexer has a low cost Dual, Single supply. 3V is the lowest voltage the electrical component should receive. For this digital switch to work, 1μA current would suffice. Putting voltage greater than 1μA on the multiplexer may cause damage. There is no problem with using dual supply voltage, but it should not exceed 8V. With dual power supplies, you should attach at least 3V. As far as the outputs go, this switch multiplexer utilizes SEPARATE OUTPUT of them. The electrical part can be operated at 8V voltage levels.

MAX391ESE+T Features


1 Channels
Switch Circuit: SPST - NC
1μA Supply Current


MAX391ESE+T Applications


There are a lot of Maxim Integrated
MAX391ESE+T Analog Switches & Multiplexers ICs applications.


  • Precision data acquisition
  • Battery-powered systems
  • Sample-and-hold systems
  • Communication systems
  • Data Acquisition Systems
  • Relay Replacement
  • Battery Powered Systems
  • Existing multiplexer applications (both fault-protected and nonfault-protected)
  • New designs requiring multiplexer functions
  • Cellular phones

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