Honeywell CC-PAOH01 51405039-175 Analog Output Module Configured for analog current signal generation in Experion PKS Series C I/O architecture, the...
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SKU: CC-PAOH01 51405039-175
Country of origin: USA
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Description
Honeywell CC-PAOH01 51405039-175 Analog Output Module
Configured for analog current signal generation in Experion PKS Series C I/O architecture, the Honeywell CC-PAOH01 51405039-175 (51405039-175 Analog Output Module) provides direct physical/electrical execution of 4-20 mA HART loop outputs for field actuator and final control element driving.
The module implements 16 independent current sourcing channels with configurable output behavior per channel, supporting HOLD LAST VALUE and SHED TO SAFE STATE (FAILOPT). Each channel continuously regulates loop current with internal diagnostics for open wire detection, output discrepancy monitoring, and HART-capable multivariable communication over the same 4-20 mA loop interface.
Suffix Breakdown & Model Matrix
No validated manufacturer-specified suffix decomposition is provided for CC-PAOH01 51405039-175. The ordering code 51405039-175 is treated as a unique catalog identifier mapped to the CC-PAOH01 Series C analog output hardware instance.
Hardware Specifications
Parameter
Specification
Model
CC-PAOH01 51405039-175
Brand
Honeywell
Origin
USA
Weight
0.4 kg
Dimensions
6 x 15.5 x 14.5 cm
Operating Temp
Not specified in provided data
Power Consumption
0.46 A at 24 VDC (module supply)
Output Type
4-20 mA HART Analog Output
Output Channels
16
Maximum Resistive Load
800 ohm
Maximum Output Compliant Voltage
16 V
Maximum Open Circuit Voltage
22 V
Output Linearity
+/- 0.05% of Full Scale
Calibrated Accuracy
+/- 0.35% of Full Scale at 25 deg C
Resolution
+/- 0.05% of Full Scale
Temperature Drift
0.005% FS per deg C
Honeywell 4-20 mA HART Loop Execution Characteristics
The module operates as a loop-powered current sourcing device implementing 4-20 mA HART protocol signaling over each output channel. Each channel maintains regulated current drive using internal DAC control and loop feedback measurement, enabling simultaneous analog control signal transmission and HART digital communication.
Channel-level diagnostics support open circuit detection and discrepancy monitoring between commanded and readback current values. The output stage is designed for field instrumentation interfacing where loop impedance, compliance voltage, and signal integrity are constrained by 800 ohm maximum load and 16 V compliance limit.
HART modem integration allows bidirectional communication for field device configuration, process variable access, and instrument diagnostics without interrupting analog control current.
Frequently Asked Questions (FAQ)
Q: Does the CC-PAOH01 support per-channel fail-safe configuration? A: Yes. Each channel supports FAILOPT configuration with HOLD LAST VALUE or SHED TO SAFE VALUE behavior. In hardware failure conditions, outputs transition to zero state.
Q: What is the maximum load supported per output channel? A: Each channel supports up to 800 ohm resistive load, constrained by 16 V maximum output compliance voltage.
Q: Is hot-swap supported during module operation? A: Hot insertion/removal is dependent on Series C I/O rack implementation. Field wiring should remain de-energized unless system architecture explicitly supports live replacement procedures.
Field Installation Guidelines
The module shall be installed in a Series C I/O chassis slot with verified backplane seating to ensure stable 24 VDC distribution and communication integrity. Field wiring for 4-20 mA loops must be routed using shielded twisted pair conductors with single-point grounding of the shield at the cabinet earth reference.
Loop resistance must be calculated to ensure total load remains within compliance voltage limits under worst-case field device conditions. Terminal tightening must follow manufacturer torque specifications for spring-clamp or screw-type termination blocks.
HART communication performance depends on maintaining proper loop impedance stability and avoiding excessive capacitance across long cable runs. Separation from high-voltage switching conductors is required to prevent induced noise on analog current loops.