Fairchild/ON Semiconductor 74LVX161284MTDX
- Part Number:
- 74LVX161284MTDX
- Manufacturer:
- Fairchild/ON Semiconductor
- Ventron No:
- 3715984-74LVX161284MTDX
- Description:
- TXRX TRANSLATING IEEE 48TSSOP
- Datasheet:
- 74LVX161284MTDX
Fairchild/ON Semiconductor 74LVX161284MTDX technical specifications, attributes, parameters and parts with similar specifications to Fairchild/ON Semiconductor 74LVX161284MTDX.
- Factory Lead Time6 Weeks
- Lifecycle StatusACTIVE (Last Updated: 1 day ago)
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case48-TFSOP (0.240, 6.10mm Width)
- Number of Pins48
- Weight421mg
- Operating Temperature-40°C~85°C
- PackagingTape & Reel (TR)
- Series74LVX
- Part StatusActive
- Moisture Sensitivity Level (MSL)2 (1 Year)
- Supply Voltage3V~3.6V
- Base Part Number74LVX161284
- Max Supply Voltage3.6V
- Min Supply Voltage3V
- Nominal Supply Current45mA
- Max Supply Current70mA
- Number of Bits8
- Propagation Delay44 ns
- Logic FunctionTransceiver
- Logic TypeIEEE STD 1284 Translation Transceiver
- Min Dual Supply Voltage3V
- Number of Transceivers13
- Number of Receivers12
- Height900μm
- Length12.5mm
- Width6.1mm
- Radiation HardeningNo
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
74LVX161284MTDX Overview
A packaging method that uses Tape & Reel (TR) is employed.In the 48-TFSOP (0.240, 6.10mm Width) package, it can be found.3V~3.6V is provided to ensure that the device works normally.This electronic part is mounted by using the Surface Mount method.It is set to operate at -40°C~85°C.Memory has a bit size of 8.There are a number of similarities among the electronic parts of the 74LVX series.Its base part number 74LVX161284 identifies a number of related parts.The way of Surface Mount is used to mount it.For its construction, 48 pins are used.By keeping the minimum supply voltage at 3V, normal use can be maintained.A maximum supply voltage of 3.6V can maintain normal use.12 receivers are configured in its configuration.
74LVX161284MTDX Features
74LVX161284MTDX Applications
There are a lot of ON Semiconductor 74LVX161284MTDX Specialty Logic ICs applications.
interconnection between switches
Wireless interactive experience
Military satellite communications
Fiber distributed data interface (FDDI)
Wireless teaching
Vehicle, ship, aircraft navigation and positioning
Wired telephone
Televisions
Single to Multimode Fiber Conversion
Remote controls
A packaging method that uses Tape & Reel (TR) is employed.In the 48-TFSOP (0.240, 6.10mm Width) package, it can be found.3V~3.6V is provided to ensure that the device works normally.This electronic part is mounted by using the Surface Mount method.It is set to operate at -40°C~85°C.Memory has a bit size of 8.There are a number of similarities among the electronic parts of the 74LVX series.Its base part number 74LVX161284 identifies a number of related parts.The way of Surface Mount is used to mount it.For its construction, 48 pins are used.By keeping the minimum supply voltage at 3V, normal use can be maintained.A maximum supply voltage of 3.6V can maintain normal use.12 receivers are configured in its configuration.
74LVX161284MTDX Features
74LVX161284MTDX Applications
There are a lot of ON Semiconductor 74LVX161284MTDX Specialty Logic ICs applications.
interconnection between switches
Wireless interactive experience
Military satellite communications
Fiber distributed data interface (FDDI)
Wireless teaching
Vehicle, ship, aircraft navigation and positioning
Wired telephone
Televisions
Single to Multimode Fiber Conversion
Remote controls
74LVX161284MTDX More Descriptions
TSSOP-48-EP-6.1mm Buffer/Driver/Transceiver ROHS
Transceiver, Translating, -40 To 85Deg C Rohs Compliant: Yes |Onsemi 74LVX161284MTDX
IEEE 1284 Transceiver 13TX 12RX 48-Pin TSSOP W T/R - Tape and Reel
Line Transceiver, 13 Func, 14 Driver, 13 Rcvr, CMOS, PDSO48
The LVX161284 contains eight bidirectional data buffers and eleven control/status buffers to implement a full IEEE 1284 compliant interface. The device supports the IEEE 1284 standard and is intended to be used in an Extended Capabilities Port mode (ECP). The pinout allows for easy connection from the Peripheral (A-side) to the Host (cable side). Outputs on the cable side can be configured to be either open drain or high drive ( 14 mA) and are connected to a separate power supply pin (VCC-cable) to allow these outputs to be driven by a higher supply voltage than the A-side. The pull-up and pull-down series termination resistance of these outputs on the cable side is optimized to drive an external cable. In addition, all inputs (except HLH) and outputs on the cable side contain internal pull-up resistors connected to the VCC-cable supply to provide proper termination and pull-ups for open drain mode. Outputs on the Peripheral side are standard low-drive CMOS outputs designed to interface with 3V logic. The DIR input controls data flow on the A1-A8/B1-B8 transceiver pins.
Transceiver, Translating, -40 To 85Deg C Rohs Compliant: Yes |Onsemi 74LVX161284MTDX
IEEE 1284 Transceiver 13TX 12RX 48-Pin TSSOP W T/R - Tape and Reel
Line Transceiver, 13 Func, 14 Driver, 13 Rcvr, CMOS, PDSO48
The LVX161284 contains eight bidirectional data buffers and eleven control/status buffers to implement a full IEEE 1284 compliant interface. The device supports the IEEE 1284 standard and is intended to be used in an Extended Capabilities Port mode (ECP). The pinout allows for easy connection from the Peripheral (A-side) to the Host (cable side). Outputs on the cable side can be configured to be either open drain or high drive ( 14 mA) and are connected to a separate power supply pin (VCC-cable) to allow these outputs to be driven by a higher supply voltage than the A-side. The pull-up and pull-down series termination resistance of these outputs on the cable side is optimized to drive an external cable. In addition, all inputs (except HLH) and outputs on the cable side contain internal pull-up resistors connected to the VCC-cable supply to provide proper termination and pull-ups for open drain mode. Outputs on the Peripheral side are standard low-drive CMOS outputs designed to interface with 3V logic. The DIR input controls data flow on the A1-A8/B1-B8 transceiver pins.
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
27 October 2023
CD4511BE Decoder: Pin Configuration, Features, Circuit and Applications
Ⅰ. What is a decoder?Ⅱ. Overview of CD4511BE decoderⅢ. Symbol, footprint and pin configuration of CD4511BE decoderⅣ. Technical parameters of CD4511BE decoderⅤ. What are the features of CD4511BE... -
27 October 2023
A Complete Guide to The BC639 BJT Transistor
Ⅰ. Overview of BC639 transistorⅡ. BC639 transistor symbol, footprint and pin configurationⅢ. Technical parameters of BC639 transistorⅣ. Characteristics of BC639 transistorⅤ. Working principle of BC639 transistorⅥ. Maximum ratings... -
30 October 2023
Car Audio Power Amplifier TDA7388: Equivalents, Features, TPA3116D2 vs TDA7388
Ⅰ. Overview of TDA7388 amplifierⅡ. TDA7388 symbol, footprint and pin configurationⅢ. Technical parameters of TDA7388 amplifierⅣ. What are the features of TDA7388 amplifier?Ⅴ. Differences between TPA3116D2 and TDA7388Ⅵ.... -
30 October 2023
TDA2822 Dual Power Amplifier: Pin Configuration, Applications and Additional Information
Ⅰ. Overview of TDA2822 amplifierⅡ. TDA2822 symbol, footprint and pin configurationⅢ. Technical parameters of TDA2822 amplifierⅣ. Features of TDA2822 amplifierⅤ. How does the TDA2822 amplifier work?Ⅵ. What are...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.