Product Type:Digital Output Module
Manufacturer:Triconex
Model Number:DO3401
Nominal Output Voltage:24 VDC
Operational Voltage Range:15 to 30 VDC
Absolute Maximum Output Voltage:33 VDC
Absolute Maximum Reverse Input Voltage:- 0.6 VDC
Output Current (Switching):<4.8 A, self-limiting; 3.0 A, typical
Output Current (Degraded Mode):> 0.7 A, self-limiting; 1.5 A, typical
Field Alarms:Loss of field power, output point shorted
On or Off Loop-back Thresholds:0–5 VDC = Off region; 6–14 VDC = transition region; 15–30 VDC = On region
Leakage to Load (Off State Glitch):Duration <2 ms; Magnitude ≈36% test voltage
Output Impedance:0–5 VDC, ≈ 100 kΩ
ADC Scan Time:<1 ms for all 32 points
Functional Earth to Protective Earth Isolation:500 VDC, minimum
Functional Earth to Functional Earth (Logic Ground) Isolation:800 VDC, minimum
The Triconex D03401 – DO3401 Digital Output Module is engineered to provide unparalleled reliability and performance in industrial automation environments. This module is part of the renowned Triconex PLC family, known for its superior fault tolerance and safety integrity.
Featuring a wide operational voltage range of 15 to 30 VDC, this module ensures compatibility across various power supplies, making it suitable for diverse industrial applications. Its absolute maximum output voltage of 33 VDC ensures robust performance under demanding conditions.
With a self-limiting output current of less than 4.8 A and a typical output current of 3.0 A, this module is designed for efficient power management, reducing the risk of overloading and ensuring stable operation. The degraded mode output current specifications further enhance system resilience.
Equipped with advanced diagnostic capabilities, including force-to-value diagnostics (FVD) with a response time of less than 2 ms, this module guarantees continuous monitoring and early detection of faults, preventing system failures and downtime.
The Triconex D03401 – DO3401 Digital Output Module is meticulously designed with isolation features to protect against ground loops and electromagnetic interference, ensuring reliable signal transmission and minimizing electrical noise. This makes it an ideal choice for applications requiring high precision and safety.
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