Parameters |
Factory Lead Time |
1 Week |
Lifecycle Status |
ACTIVE (Last Updated: 2 days ago) |
Contact Plating |
Gold |
Mount |
Surface Mount |
Mounting Type |
Surface Mount |
Package / Case |
14-TSSOP (0.173, 4.40mm Width) |
Number of Pins |
14 |
Weight |
57.209338mg |
Operating Temperature |
-40°C~85°C |
Packaging |
Cut Tape (CT) |
Series |
74CBTLV |
JESD-609 Code |
e4 |
Pbfree Code |
yes |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
1 (Unlimited) |
Number of Terminations |
14 |
ECCN Code |
EAR99 |
Type |
Bus Switch |
Resistance |
7Ohm |
Subcategory |
Bus Driver/Transceivers |
Packing Method |
TR |
Technology |
CMOS |
Voltage - Supply |
2.3V~3.6V |
Terminal Position |
DUAL |
Terminal Form |
GULL WING |
Peak Reflow Temperature (Cel) |
260 |
Number of Functions |
1 |
Supply Voltage |
2.5V |
Base Part Number |
74CBTLV3125 |
Pin Count |
14 |
Operating Supply Voltage |
3.3V |
Circuit |
1 x 1:1 |
Polarity |
Non-Inverting |
Supply Voltage-Max (Vsup) |
3.6V |
Supply Voltage-Min (Vsup) |
2.3V |
Number of Channels |
4 |
Load Capacitance |
50pF |
Number of Ports |
2 |
Nominal Supply Current |
10μA |
Output Current |
64mA |
Number of Bits |
4 |
Throw Configuration |
SPST |
Propagation Delay |
4.6 ns |
Quiescent Current |
10μA |
Turn On Delay Time |
4.6 ns |
Family |
CBTLV/3B |
Output Characteristics |
3-STATE |
Supply Type |
Single |
Bandwidth |
200MHz |
High Level Output Current |
-128mA |
Low Level Output Current |
128mA |
Power Supply Current-Max (ICC) |
0.01mA |
Voltage Supply Source |
Single Supply |
Count Direction |
BIDIRECTIONAL |
Height |
1.2mm |
Length |
5mm |
Width |
4.4mm |
Thickness |
1mm |
Radiation Hardening |
No |
REACH SVHC |
No SVHC |
RoHS Status |
ROHS3 Compliant |
Lead Free |
Lead Free |
SN74CBTLV3125PWR Overview
As a means of saving space, digital switch is provided in the 14-TSSOP (0.173, 4.40mm Width).The package is packaged in the manner of Cut Tape (CT).As far as mounting is concerned, digital switch ic uses Surface Mount.For the analog part of the multiplexers, an IC Bus Switch is used.The operating temperature of -40°C~85°C will not be susceptible to external factors.Designers have greater flexibility using digital controlled switch when it works with 2.3V~3.6V voltage.With the 74CBTLV series, the multiplexers are suitable for a diverse range of applications.It is designed with 14 terminations as part of its basic configuration.To find signal switch's related components, a base part number of 74CBTLV3125 may also be used.For multiplexer's system, a voltage of 2.5V is supplied.This turn signal switch has 14 component pins.At the end of a conductor, it uses GULL WING as the point where the conductor ends.In this case, the supply type is Single.The board is configured with 14 pins.The multiplexer ic is mounted in the direction of Surface Mount.The logic switch is a member of the CBTLV/3B family.Signal multiplexer consists of 4 bits.Keep Vsup at 2.3V to avoid unnecessary failures.Avoid unnecessary failures by keeping Vsup at 3.6V.The digital switch ic is a part of an electronic system classified as Bus Driver/Transceivers.Without any external influences, it consumes 10μA current of multiplexer ic at all times.Using a supply voltage of 3.3V can result in reliable performance of the multiplexers.Currently, the switches is packaged in accordance with the TR method.With a resistance of 0, it operates.With a resistance of 7Ohm, it operates.A total of 4 transmission channels are available in the turn signal switch's circuit.Higher switches' flexibility is provided by providing 64mA as the output current.
SN74CBTLV3125PWR Features
Supplied in the 14-TSSOP (0.173, 4.40mm Width) package
Adopting a supply type of Single
Operating with the supply voltage of 3.3V
SN74CBTLV3125PWR Applications
There are a lot of Texas Instruments SN74CBTLV3125PWR Signal Switches / Multiplexers / Decoders applications.
- PCIe
- Encrypted communications system
- Signal router
- Idle motor
- Electronics industry
- Electronically controlled engine system
- Home automation system
- Microprocessor instruction decoding
- Used to connect a single source to multiple destinations
- Computer memory