100% Genuine. 100,000+ Parts in Stock. Ready to Ship.

  • en

YOKOGAWA SDV144-S33 Digital Input Module

The YOKOGAWA SDV144-S33, also cataloged as the SDV144 Digital Input Module, operates as a dedicated hardware component for contact signal acquisition within ProSafe-RS Safety Instrumented System (SIS) platforms. This module provides direct electrical interface for field-side no-voltage contacts, facilitating secure discrete input monitoring across safety-critical control loops.

Suffix Breakdown & Model Matrix

Code Specification
SDV144 Base Model (16-channel, 24 V DC, module isolation)
-S Standard type
3 Signal cable interface adapter; no explosion protection
3 ISA Standard G3 compliance; temperature range -20 deg C to +70 deg C

Hardware Specifications

Parameter Specification
Model SDV144-S33
Brand YOKOGAWA
Origin USA
Weight 0.2 kg
Dimensions 8.3 cm x 12.7 cm x 4.4 cm
Operating Temp -20 deg C to 70 deg C
Power Consumption 290 mA (5 V DC), 140 mA (24 V DC)
Input Channels 16 channels
Input Signal No-voltage contact (ON <= 1 kOhm, OFF >= 100 kOhm)
Response Time <= 40 ms
Isolation 2 kV AC between input and system

Safety Instrumented System (SIS) Integrity

The SDV144-S33 integrates within the ProSafe-RS architecture to ensure fail-safe state execution during critical process events. The module supports triple modular redundancy (TMR) configurations or dual-redundant pairings, which maintain system availability despite localized hardware faults. Galvanic isolation between the field input and the system bus prevents common-mode noise propagation, while integrated diagnostic circuitry, including compatibility with SCB100 open-circuit and SCB110 short-circuit detection, ensures continuous loop health verification.

Frequently Asked Questions

Q: Is the SDV144-S33 compatible with hot-swapping during active system operation?

A: Yes, the module supports hot-swapping within the ProSafe-RS I/O nest. However, users must ensure the redundant module is fully synchronized and in a healthy state before initiating the removal of the primary unit to prevent unintended safety trips.

Q: How is signal integrity maintained in high-interference environments?

A: The module adheres to ISA Standard G3 for environmental durability. For maximum signal integrity, users must utilize shielded field wiring and ensure that the cable shield is grounded at the designated module entry point to minimize electromagnetic coupling.

Field Installation Guidelines

  1. Confirm the module suffix compatibility with the existing backplane and I/O nest before insertion.
  2. Verify that the field wiring interface (Pressure clamp terminal or MIL cable) is rated for the specific signal levels and installation environment.
  3. Align the prevention pin to ensure the module is keyed correctly to the intended slot, preventing improper mechanical insertion.
  4. Secure the module using the provided front-locking mechanism to ensure full electrical contact with the system bus.
  5. Perform a loop check to verify the "ON" resistance threshold (<= 1 kOhm) and "OFF" resistance threshold (>= 100 kOhm) under actual field conditions.

What's clients say about us

Translation missing: en.general.search.loading