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DG408DY-T1-E3

  • DG408DY-T1-E3
  • DG408DY-T1-E3

DG408DY-T1-E3

DG408DY-T1-E3

Vishay Siliconix

150ns, 150ns 100Ohm Analog Switches BREAK-BEFORE-MAKE DG408 16 Pins 500pA 15V 16-SOIC (0.154, 3.90mm Width)

SOT-23

DG408DY-T1-E3 Datasheet

non-compliant

In-Stock: 0 items
Specifications
Name Value
Type Parameter
Factory Lead Time 13 Weeks
Contact Plating Tin
Mount Surface Mount
Mounting Type Surface Mount
Package / Case 16-SOIC (0.154, 3.90mm Width)
Number of Pins 16
Weight 665.986997mg
Operating Temperature -40°C~85°C TA
Packaging Tape & Reel (TR)
Published 2013
JESD-609 Code e3
Pbfree Code yes
Part Status Active
Moisture Sensitivity Level (MSL) 1 (Unlimited)
Number of Terminations 16
Resistance 100Ohm
Max Power Dissipation 600mW
Technology CMOS
Terminal Form GULL WING
Peak Reflow Temperature (Cel) 260
Number of Functions 1
Supply Voltage 15V
Time@Peak Reflow Temperature-Max (s) 30
Base Part Number DG408
Pin Count 16
Operating Supply Voltage 36V
Number of Channels 8
Number of Circuits 1
Max Supply Voltage 44V
Min Supply Voltage 13V
Operating Supply Current 1μA
Nominal Supply Current 10μA
Power Dissipation 600mW
Max Supply Current 500μA
Turn On Delay Time 150 ns
Logic Function Multiplexer
Voltage - Supply, Single/Dual (±) 12V ±5V~20V
Supply Type Dual, Single
Neg Supply Voltage-Nom (Vsup) -15V
Turn-Off Delay Time 150 ns
Max Dual Supply Voltage 20V
On-State Resistance (Max) 100Ohm
Min Dual Supply Voltage 5V
High Level Output Current 30mA
Dual Supply Voltage 15V
Multiplexer/Demultiplexer Circuit 8:1
Off-state Isolation-Nom 75 dB
Current - Leakage (IS(off)) (Max) 500pA
Channel Capacitance (CS(off), CD(off)) 3pF 26pF
On-state Resistance Match-Nom 15Ohm
Switch Time (Ton, Toff) (Max) 150ns, 150ns
Charge Injection 20pC
Channel-to-Channel Matching (ΔRon) 15 Ω (Max)
Switching BREAK-BEFORE-MAKE
Drain to Source Resistance 100Ohm
Signal Current-Max 0.02A
Height 1.55mm
Length 10mm
Width 4mm
Radiation Hardening No
REACH SVHC Unknown
RoHS Status ROHS3 Compliant
Lead Free Lead Free
Pricing & Ordering
Quantity Unit Price Ext. Price
2,500 $0.81135 $1.6227
5,000 $0.78130 $3.9065
12,500 $0.75125 $9.015
DG408DY-T1-E3 Product Details

DG408DY-T1-E3 Overview


Shipping overseas is convenient due to the electrical component's packing in 16-SOIC (0.154, 3.90mm Width). This packaging method provides high reliability because it uses advanced packaging techniques. Multiplexers like this are mounted in the Surface Mount position. Multiplexers and demultiplexers have a number of circuits 8:1. Operational temperature extended around -40°C~85°C TA. 16 terminations have been made so far. Due to its 8 channels, the electrical component produces high-quality output. When a voltage supply of 15V is used, the electronic component should be turned on and run. It is injected into the electrical part body with 16 pins. It consists of 1 circuits. Try searching for the analog switch ic with DG408 if you are looking for variants. As far as internal resistance is concerned, it has 100Ohm. To find out what the functions of 16 pins are, please refer to their datasheets. Users shouldn't supply more than 44V voltage to the switch device. An effective Dual, Single supply digital multiplexer. It is recommended that the electrical component receives a voltage of 13V. This digital switch can be operated with a current of 1μA. Put voltage above 500μA on the multiplexer to cause damage. Despite this switch's dual supply capability, its voltage should not exceed 20V. When using dual power supplies, you should attach at least 5V. Operating voltages range from 36V. There is 100Ohm resistance between Drain and Source for this electronic part.

DG408DY-T1-E3 Features


8 Channels
1μA Supply Current
Drain-to-Source resistance: 100Ohm


DG408DY-T1-E3 Applications


There are a lot of Vishay Siliconix
DG408DY-T1-E3 Analog Switches & Multiplexers ICs applications.


  • Automatic test equipment
  • 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

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