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SN74LVC2G66YZPR

3.9ns, 6.3ns SPST - NO 10Ohm BOTTOM Analog Switches MAKE-BEFORE-BREAK 74LVC2G66 8 Pins 100nA 2.3V 8-XFBGA, DSBGA


  • Manufacturer: Texas Instruments
  • Nocochips NO: 815-SN74LVC2G66YZPR
  • Package: 8-XFBGA, DSBGA
  • Datasheet: -
  • Stock: 484
  • Description: 3.9ns, 6.3ns SPST - NO 10Ohm BOTTOM Analog Switches MAKE-BEFORE-BREAK 74LVC2G66 8 Pins 100nA 2.3V 8-XFBGA, DSBGA(Kg)

Details

Tags

Parameters
Factory Lead Time 1 Week
Lifecycle Status ACTIVE (Last Updated: 2 days ago)
Mount Surface Mount
Mounting Type Surface Mount
Package / Case 8-XFBGA, DSBGA
Number of Pins 8
Weight 2.296311mg
Operating Temperature -40°C~85°C TA
Packaging Cut Tape (CT)
JESD-609 Code e1
Pbfree Code yes
Part Status Active
Moisture Sensitivity Level (MSL) 1 (Unlimited)
Number of Terminations 8
ECCN Code EAR99
Resistance 10Ohm
Terminal Finish Tin/Silver/Copper (Sn/Ag/Cu)
Subcategory Multiplexers or Switches
Technology CMOS
Terminal Position BOTTOM
Terminal Form BALL
Peak Reflow Temperature (Cel) 260
Number of Functions 2
Supply Voltage 2.3V
Terminal Pitch 0.5mm
Base Part Number 74LVC2G66
Output SEPARATE OUTPUT
Pin Count 8
Polarity Non-Inverting
Power Supplies 3.3V
Number of Channels 2
Max Supply Voltage 5.5V
Min Supply Voltage 1.65V
Operating Supply Current 10μA
Max Supply Current 10μA
Throw Configuration SPST
Propagation Delay 600 ps
Turn On Delay Time 3.9 ns
Supply Type Single
Bandwidth 300MHz
Turn-Off Delay Time 6.3 ns
-3db Bandwidth 300MHz
On-State Resistance (Max) 10Ohm
Multiplexer/Demultiplexer Circuit 1:1
Off-state Isolation-Nom 42 dB
Current - Leakage (IS(off)) (Max) 100nA
Channel Capacitance (CS(off), CD(off)) 6pF
On-state Resistance Match-Nom 5Ohm
Switch Circuit SPST - NO
Switch Time (Ton, Toff) (Max) 3.9ns, 6.3ns
Channel-to-Channel Matching (ΔRon) 2 Ω (Max)
Crosstalk -58dB @ 1MHz
Switching MAKE-BEFORE-BREAK
Switch-on Time-Max 5.6ns
Switch-off Time-Max 6.9ns
Voltage - Supply, Single (V+) 1.65V~5.5V
Normal Position NO
Height 500μm
Length 1.25mm
Width 2.25mm
Thickness 310μm
Radiation Hardening No
RoHS Status ROHS3 Compliant
Lead Free Lead Free

SN74LVC2G66YZPR Overview


Packed in 8-XFBGA, DSBGA, the electronic component is convenient for shipping overseas. High reliability is ensured by the advanced packaging method Cut Tape (CT). There is an analog multiplexer mounted in position Surface Mount. Multiplexers and demultiplexers have the same number of circuits 1:1. Temperatures around -40°C~85°C TA are extended for operation. The total number of terminations is 8. A electrical component with 2 channels is capable of high-quality output. In the case of a voltage supply of 2.3V volts, the electrical part can be powered up and run. This electrical component is included in the 8 series of products. A SPST - NO switching circuit is used to build these analog multiplexers. Look for analog switch ic variants by searching with 74LVC2G66. In this multiplexer, the internal resistance is 10Ohm. To find out what the 8 pins do, please refer to the datasheets. There is a standard Multiplexers or Switches analogue multiplexer here. In normalcircumstances, users should not exceed 5.5V volts for the multiplexer. Analog switch ics with Single supply type are cost-effective. There should be 1.65V voltage fed to the electrical part below 1.65V. The switch device would be able to operate with 10μA current. A voltage of 1.65V~5.5V is required for this switch device, which drains from a single voltage source. The analogue multiplexer may be damaged if voltage is greater than 10μA. SEPARATE OUTPUT outputs are utilized by this digital multiplexer. This switch operates within the bandwidth of 300MHz.

SN74LVC2G66YZPR Features


2 Channels
Switch Circuit: SPST - NO
10μA Supply Current
-3db Bandwidth: 300MHz
Bandwidth: 300MHz

SN74LVC2G66YZPR Applications


There are a lot of Texas Instruments SN74LVC2G66YZPR Analog Switches & Multiplexers ICs applications.

  • High reliability control systems
  • Voice over IP/DSL – Integrated Access Devices, Smart
  • Industrial and process control systems
  • Communications systems
  • Automotive applications
  • New designs requiring multiplexer functions
  • Audio and video switching
  • Battery Powered Systems
  • Precision data acquisition
  • DSUs

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