Texas Instruments SN65LVDM176DGK
- Part Number:
- SN65LVDM176DGK
- Manufacturer:
- Texas Instruments
- Ventron No:
- 3675539-SN65LVDM176DGK
- Description:
- IC HS DIFF LINE TXRX 8VSSOP
- Datasheet:
- sn65lvdm176
Texas Instruments SN65LVDM176DGK technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments SN65LVDM176DGK.
- Factory Lead Time6 Weeks
- Lifecycle StatusACTIVE (Last Updated: 5 days ago)
- Contact PlatingGold
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case8-TSSOP, 8-MSOP (0.118, 3.00mm Width)
- Number of Pins8
- Weight18.99418mg
- Operating Temperature-40°C~85°C
- PackagingTube
- JESD-609 Codee4
- Pbfree Codeyes
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations8
- ECCN CodeEAR99
- SubcategoryLine Driver or Receivers
- Max Power Dissipation424mW
- TechnologyCMOS
- Voltage - Supply3V~3.6V
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)260
- Number of Functions1
- Supply Voltage3.3V
- Terminal Pitch0.65mm
- Base Part Number65LVDM176
- Pin Count8
- Operating Supply Voltage3.3V
- Number of Elements1
- Nominal Supply Current15mA
- Power Dissipation424mW
- Propagation Delay4.5 ns
- Turn On Delay Time4.5 ns
- Max Output Voltage454mV
- Data Rate400Mbps
- Differential OutputYES
- ProtocolLVDS
- Input CharacteristicsDIFFERENTIAL
- Number of Drivers/Receivers1/1
- Driver Number of Bits1
- Max Input Current20μA
- Receiver Number of Bits1
- DuplexHalf
- Interface StandardGENERAL PURPOSE
- Transmit Delay-Max2.7 ns
- Supply Voltage1-Nom3.3V
- Out Swing-Min0.05 V
- High Level Input Current-Max0.00002A
- Ambient Temperature Range High85°C
- Height1.07mm
- Length3mm
- Width3mm
- Thickness970μm
- Radiation HardeningNo
- REACH SVHCNo SVHC
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
SN65LVDM176DGK Description
Texas Instruments is a well-known brand in the electronics industry. One of its popular products is the Interface - Drivers, Receivers, Transceivers chip, which falls under the Interface - Drivers, Receivers, Transceivers category. This chip has an ECCN Code of EAR99 and a maximum power dissipation of 424mW. It operates at a supply voltage of 3V~3.6V, with a specific supply voltage of 3.3V. Additionally, it has a receiver number of bits of 1 and operates in half duplex mode. The interface standard for this chip is GENERAL PURPOSE, and it has a high level input current of 0.00002A. With a length of 3mm, this chip is compact and efficient. However, it is not designed for radiation hardening.
SN65LVDM176DGK Features
Low-Voltage Differential Driver and Receiver for Half-Duplex Operation Designed for Signaling Rates of 400 Mbit/s ESD Protection Exceeds 15 kV on Bus Pins Operates From a Single 3.3-V Supply Low-Voltage Differential Signaling With Typical Output Voltages of 350 mV and a 50-Ω Load Valid Output With as Little as 50 mV Input Voltage Difference
SN65LVDM176DGK Applications
Automotive Body electronics & lighting Communications equipment Datacom module Industrial Power delivery
Texas Instruments is a well-known brand in the electronics industry. One of its popular products is the Interface - Drivers, Receivers, Transceivers chip, which falls under the Interface - Drivers, Receivers, Transceivers category. This chip has an ECCN Code of EAR99 and a maximum power dissipation of 424mW. It operates at a supply voltage of 3V~3.6V, with a specific supply voltage of 3.3V. Additionally, it has a receiver number of bits of 1 and operates in half duplex mode. The interface standard for this chip is GENERAL PURPOSE, and it has a high level input current of 0.00002A. With a length of 3mm, this chip is compact and efficient. However, it is not designed for radiation hardening.
SN65LVDM176DGK Features
Low-Voltage Differential Driver and Receiver for Half-Duplex Operation Designed for Signaling Rates of 400 Mbit/s ESD Protection Exceeds 15 kV on Bus Pins Operates From a Single 3.3-V Supply Low-Voltage Differential Signaling With Typical Output Voltages of 350 mV and a 50-Ω Load Valid Output With as Little as 50 mV Input Voltage Difference
SN65LVDM176DGK Applications
Automotive Body electronics & lighting Communications equipment Datacom module Industrial Power delivery
SN65LVDM176DGK More Descriptions
DIFFERENTIAL LINE TRANSCEIVER, VSSOP-8;; MSL:MSL 1 - Unlimited; SVHC:No SVHC (15-Jan-2019)
Low Voltage Differtial Signal (LVDS) Transceiver 0.454 Volt 8-Pin VSSOP
EAR99 65LVDM176 Tube LVDS interface transceiver 454mV 0.00002A 18.99418mg 4.5ns
Half-duplex LVDM transceiver 8-VSSOP -40 to 85
LVDS Transceiver 400Mbps 0.454V 8-Pin VSSOP Tube
Line Transceiver, 1 Func, 1 Driver, 1 Rcvr, CMOS, PDSO8
IC TRANSCEIVER HALF 1/1 8VSSOP
LVDS/M-LVDS/ECL/CML Low V Diff
POST BINDING STD HEAD 10/32 WHT
Low Voltage Differtial Signal (LVDS) Transceiver 0.454 Volt 8-Pin VSSOP
EAR99 65LVDM176 Tube LVDS interface transceiver 454mV 0.00002A 18.99418mg 4.5ns
Half-duplex LVDM transceiver 8-VSSOP -40 to 85
LVDS Transceiver 400Mbps 0.454V 8-Pin VSSOP Tube
Line Transceiver, 1 Func, 1 Driver, 1 Rcvr, CMOS, PDSO8
IC TRANSCEIVER HALF 1/1 8VSSOP
LVDS/M-LVDS/ECL/CML Low V Diff
POST BINDING STD HEAD 10/32 WHT
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
29 November 2023
TDA7293 Audio Power Amplifier: Symbol, Features, Applications and TDA7293 vs TDA8954
Ⅰ. Overview of TDA7293Ⅱ. Symbol, footprint and pin configuration of TDA7293Ⅲ. Features of TDA7293Ⅳ. Technical parameters of TDA7293Ⅴ. What are the applications of TDA7293?Ⅵ. What is the difference... -
29 November 2023
All You Need to Know the CD4013 CMOS Dual D Flip Flop
Ⅰ. What is a D flip-flop?Ⅱ. Overview of CD4013Ⅲ. Pin configuration of CD4013Ⅳ. What are the features of CD4013?Ⅴ. How does the CD4013 work?Ⅵ. What are the applications... -
30 November 2023
LM2576 Voltage Regulator Equivalents, Internal Structure, Working Principle and More
Ⅰ. What is LM2576 voltage regulator?Ⅱ. What are the features of LM2576 voltage regulator?Ⅲ. Pin configuration of LM2576 voltage regulatorⅣ. Internal structure of LM2576 voltage regulatorⅤ. How does... -
30 November 2023
LM358 Dual Operational Amplifier Symbol, Features, LM393 vs LM358 and Applications
Ⅰ. Overview of LM358 operational amplifierⅡ. Features of LM358 operational amplifierⅢ. Symbol, footprint and pin configuration of LM358Ⅳ. Internal structure of LM358 chipⅤ. Working principle of LM358 operational...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.