SLLA635 May   2024 THVD4411 , THVD4421 , THVD4431

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. Introduction
  5. Application Use-Case of Multiprotocol Transceivers
  6. Key Design Goals of a Versatile Multiprotocol Transceiver
  7. Discrete Multiprotocol Transceiver Implementation
  8. TI's THVD44xx Multiprotocol Transceiver Family
  9. MODE Configurations for THVD4431
  10. Application Diagrams for THVD4431
  11. Waveforms for THVD4431
  12. Benefits of THVD4431 Over Competition Devices
  13. 10Conclusion

9 Benefits of THVD4431 Over Competition Devices

Table 9-1 Benefits of THVD4431 Over Competition Devices
Parameter THVD4431 Competition A Competition B Competition C System Implication
Logic level support 1.65V -5.5V 1.7V-5.5V Not supported Not supported TI is future proof with logic level support to interface to 1.8V MCU
Typical RS-232 output voltage level @5Vcc ±9V (regulated) ±5.5V ±9V (unregulated) ±9V (unregulated) TI's RS232 output will be regulated across data rate and varying cap load. Higher amplitude = better SNR in noisy industrial environment
Diagnostic loopback mode Full path loopback for both RS-232 and RS-485 Logic loopback only Logic loopback only Not supported TI supports chip health monitoring and cable/connector short detection
Integrated 120Ω switchable termination for RS-485 Yes for both TX and RX pins Yes for both TX and RX pins Only RX pins Only RX pins TI device has more flexibility for RS-485 network placement as termination on individual bus pins can be turned on/off
Operating ambient temperature -40°C to 125°C -40°C to 125°C -40°C to 85°C -40°C to 85°C TI supports higher ambient temperature enabling smaller PCB's/end systems
Flow through layout Yes Yes Yes No All left side pins in THVD4431 are MCU logic pins, right side are bus (connector) side pins enabling clean PCB layout