SN65HVD1794 Series

70-V Fault-Protected RS-485 Transceiver With Cable Invert

Catalog

70-V Fault-Protected RS-485 Transceiver With Cable Invert

Part	Protocol	Type	Operating Temperature [Min]	Operating Temperature [Max]	Voltage - Supply [Min]	Voltage - Supply [Max]	Duplex	Receiver Hysteresis	Data Rate	Mounting Type	Package / Case	Package / Case [y]	Package / Case [x]	Supplier Device Package	Package / Case	Package / Case
Texas Instruments SN65HVD1794D	RS422 RS485	Transceiver	-40 °C	105 ░C	4.5 V	5.5 V	Half	50 mV	115 kbps	Surface Mount	8-SOIC	3.9 mm	0.154 in	8-SOIC
Texas Instruments SN65HVD1794DR	RS422 RS485	Transceiver	-40 °C	105 ░C	4.5 V	5.5 V	Half	50 mV	115 kbps	Surface Mount	8-SOIC	3.9 mm	0.154 in	8-SOIC
Texas Instruments SN65HVD1794P	RS422 RS485	Transceiver	-40 °C	105 ░C	4.5 V	5.5 V	Half	50 mV	115 kbps	Through Hole	8-DIP			8-PDIP	0.3 in	7.62 mm

Catalog

70-V Fault-Protected RS-485 Transceiver With Cable Invert

Key Features

• Bus-Pin Fault Protection to > ±70 VCable Invert Function Allows Correction for Reversed Bus PinsCommon-Mode Voltage Range (–20 V to 25 V) More Than Doubles TIA/EIA485 RequirementBus I/O Protection±16 kV JEDEC HBM ProtectionReduced Unit Load for Up to 256 NodesFailsafe Receiver for Open-Circuit, Short-Circuit and Idle-Bus ConditionsLow Power ConsumptionICC5 mA Quiescent During OperationPower-Up, Power-Down Glitch-Free OperationBus-Pin Fault Protection to > ±70 VCable Invert Function Allows Correction for Reversed Bus PinsCommon-Mode Voltage Range (–20 V to 25 V) More Than Doubles TIA/EIA485 RequirementBus I/O Protection±16 kV JEDEC HBM ProtectionReduced Unit Load for Up to 256 NodesFailsafe Receiver for Open-Circuit, Short-Circuit and Idle-Bus ConditionsLow Power ConsumptionICC5 mA Quiescent During OperationPower-Up, Power-Down Glitch-Free Operation

Description

These devices are designed to survive overvoltage faults such as direct shorts to power supplies, mis-wiring faults, connector failures, cable crushes, and tool mis-applications. They are also robust to ESD events, with high levels of protection to human-body model specifications. These devices combine a differential driver and a differential receiver, which operate from a single power supply. The driver differential outputs and the receiver differential inputs are connected internally to for a bus port suitable for half-duplex (two-wire bus) communication. A cable invert pin (INV) allows active correction of mis-wires that may occur during installation. Upon detecting communication errors, the user can apply a logic HIGH to the INV pin, effectively inverting the polarity of the differential bus port, thereby correcting for the reversed bus wires. These devices feature a wide common-mode voltage range, making them suitable for multi-point applications over long cable runs. These devices are characterized from –40°C to 105°C. For similar features with 3.3 V supply operation, see the SN65HVD1781 (SLLS877). These devices are designed to survive overvoltage faults such as direct shorts to power supplies, mis-wiring faults, connector failures, cable crushes, and tool mis-applications. They are also robust to ESD events, with high levels of protection to human-body model specifications. These devices combine a differential driver and a differential receiver, which operate from a single power supply. The driver differential outputs and the receiver differential inputs are connected internally to for a bus port suitable for half-duplex (two-wire bus) communication. A cable invert pin (INV) allows active correction of mis-wires that may occur during installation. Upon detecting communication errors, the user can apply a logic HIGH to the INV pin, effectively inverting the polarity of the differential bus port, thereby correcting for the reversed bus wires. These devices feature a wide common-mode voltage range, making them suitable for multi-point applications over long cable runs. These devices are characterized from –40°C to 105°C. For similar features with 3.3 V supply operation, see the SN65HVD1781 (SLLS877).