100 % original. Más de 100 000 piezas en stock. Listas para enviar.

  • es

Yokogawa AAI143-S53/K4A00 Analog Input Module

The Yokogawa AAI143-S53/K4A00 serves as the primary AAI143 Analog Input Module utilized to execute 4-20 mA DC signal acquisition and HART parameter parsing across CENTUM field network platforms.

Suffix Breakdown & Model Matrix

  • AAI143: 16-Channel Isolated Analog Input Module (4-20 mA DC)
  • -S: Standard hardware type
  • 5: Basic configuration indicating no intrinsic explosion protection (requires external barriers for hazardous areas)
  • 3: ISA G3 environmental rating for enhanced corrosion resistance
  • /K4A00: Optional KS cable interface adapter supporting pass-through HART communication

Hardware Specifications

Parameter Specification
Model AAI143-S53/K4A00
Brand Yokogawa
Origin USA
Weight 1.5 kg
Dimensions 2.2 x 12.4 x 12.6 cm
Operating Temp -20 deg C to +70 deg C
Power Consumption 230 mA (5 V DC), 540 mA (24 V DC)
Channels 16 isolated channels
Signal Type 4-20 mA DC
Allowable Input Current Up to 24 mA
Input Resistance 270 to 350 ohms (Power ON), >= 500 kohms (Power OFF)
Accuracy +/- 16 uA
Temperature Drift +/- 16 uA per 10 deg C
Data Update Period 10 ms
Transmitter Power Supply 19.0 to 25.5 V DC (limit 25 mA)
Isolation 1500 V AC between input and system (1 min)

4-20 mA HART Loop Protocol Integration

Engineered for industrial process topologies, the module executes concurrent 4-20 mA analog signal processing and bidirectional HART digital communication. The hardware digitizes the primary process variable (PV) via an internal analog-to-digital converter while simultaneously demodulating the Frequency Shift Keying (FSK) signals superimposed on the continuous analog loop. Consequently, system controllers extract secondary variables and diagnostic payloads from intelligent field devices without disrupting the deterministic 10 ms update rate of the base analog input measurement.

Frequently Asked Questions

Q: Does the module supply loop power directly to 2-wire field transmitters?

A: Yes. The internal circuitry generates a 19.0 to 25.5 V DC loop power supply, capped at a maximum current output of 25 mA per individual channel to prevent overload conditions.

Q: What happens to the input loop dynamics when the module loses operational power?

A: During active operation (Power ON), the input resistance operates between 270 and 350 ohms. Upon a loss of power (Power OFF), the hardware isolates the loop by physically shifting the input resistance to 500 kohms or greater.

Q: Can the AAI143-S53 operate within a redundant physical configuration?

A: Yes. The hardware accommodates dual-redundant pairing when installed in adjacent node slots. Upon detecting a localized hardware fault, the backplane logic transfers data acquisition duties to the secondary standby module.

Field Installation Guidelines

  • Backplane Mounting: Align the unit guides with the designated slot on the base plate and apply firm pressure until the latch mechanism engages. Verify the physical dimensions (2.2 x 12.4 x 12.6 cm) clear adjacent conduit routes before securing the module screws.
  • Terminal Interface: Depending on the selected /K4A00 terminal block option, connect process wiring using the specified MIL connector or KS1 cable matrix. Route the standard 4-20 mA twisted-pair cables securely into the pressure clamp terminals.
  • Thermal Management: Maintain adequate vertical clearance within the control cabinet. If ambient temperatures exceed 60 deg C, implement forced-air cooling or physically space out high-density modules to prevent thermal drift (exceeding +/- 16 uA per 10 deg C) within the measurement circuits.
  • Shielding and Grounding: Terminate all field transmitter cable shields to the designated instrument earth (IE) busbar. Maintain physical segregation between analog signal wiring and heavy AC power distribution cables to uphold the 1500 V AC isolation barrier against electromagnetic interference.

¿Qué dicen nuestros clientes sobre nosotros?

Translation missing: es.general.search.loading