F3YD14-0N Yokogawa Transistor Output Module | New Original Stock
F3YD14-0N Yokogawa Transistor Output Module | New Original Stock
F3YD14-0N Yokogawa Transistor Output Module | New Original Stock
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F3YD14-0N Yokogawa Transistor Output Module | New Original Stock

  • Manufacturer: Yokogawa

  • Part Number: F3YD14-0N

  • Condition:New with Original Package

  • Product Type: Digital I/O Cards

  • Country of Origin: Japan

  • Payment:T/T, Western Union

  • Shipping port: Xiamen

  • Warranty: 12 months

Yokogawa F3YD14-0N FA-M3 Output Module

The Yokogawa F3YD14-0N, also cataloged as the F3YD14-0N Transistor Output Module, operates as a dedicated hardware component for driving discrete external actuators and process loads within FA-M3 controller platforms.

Hardware Specifications

Parameter Specification
Model F3YD14-0N
Brand Yokogawa
Origin Japan
Weight 130 g
Dimensions 28.9 mm x 100 mm x 83.2 mm
Operating Temp -10 to 55 deg C
Storage Temp -20 to 70 deg C
Relative Humidity 10% to 90% non-condensing
Power Consumption 100 mA at 5 VDC internal draw / ~3 W maximum
Number of Outputs 16 discrete transistor channels
Rated Output Voltage 24 VDC
Output Current 7 mA per point
Output Resistance 3.4 kOhm
Response Time ON-to-OFF: 1 ms / OFF-to-ON: 1 ms
Isolation Method Photocoupler isolation between output terminals and internal circuit
Withstand Voltage 500 VAC for 1 minute

Industrial Control & I/O Density Scaling

The F3YD14-0N architecture utilizes high-density internal transistor switching matrices governed by precise thermal dissipation profiles. When scaling I/O density within multi-slot FA-M3 base units, the concurrent activation of all 16 transistor channels requires strict monitoring of the cumulative 5 VDC backplane bus current load, which is capped at an internal draw of 100 mA. Dynamic output switching intervals are cross-synchronized with the backplane bus communication velocity to maintain deterministic 1 ms response profiles, preventing propagation delays or internal logic skewing from affecting the execution of high-speed machine control loop assignments.

Frequently Asked Questions

Q: What are the continuous electrical limitations of the photocoupler isolation circuit?

A: The integrated optical isolation barrier provides galvanic separation rated for a withstand voltage of 500 VAC sustained over a 1-minute period. Operating above this threshold risks breaking down the dielectric barrier and exposing the logic bus to field-side electrical surges.

Q: Can this module directly switch alternating current (AC) field loads?

A: No. The solid-state switching configuration is designed exclusively for 24 VDC polarized operations. Interfacing with AC actuators requires intermediate interposing relays or external voltage converters wired down-circuit from the transistor terminals.

Q: How does the 3.4 kOhm output resistance impact low-impedance external loads?

A: The internal 3.4 kOhm output resistance limits the continuous current delivery to approximately 7 mA per point at 24 VDC. Connected loads must be matched to this low-current source profile to prevent voltage sag across the output channels.

Field Installation Guidelines

  • Module Insertion Alignment: Insert the module vertically into the FA-M3 base unit slot, aligning the edge-card interface with the internal backplane connector. Secure the housing locking clip completely to ensure stable ground continuity and prevent electrical arcing across the data traces.
  • Terminal Block Shield Routing: Route all external 24 VDC field wiring away from high-voltage AC power lines within the cable trunking. Utilize shielded multi-conductor cables for the output lines, grounding the cable shield at a single panel star-ground terminal to maintain isolation integrity.
  • Inductive Leakage Suppression: When driving inductive DC components such as miniature relay coils or solenoids, install an external flyback diode in parallel with the load. This layout suppresses transient reverse-voltage spikes that could exceed the breakdown ratings of the module's output transistors.
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