Honeywell CC-TDIL01 Digital Input Module Configured for 24 VDC discrete signal acquisition in Honeywell Experion PKS C300 I/O architectures, the...
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Honeywell CC-TDIL01 Digital Input Module
Configured for 24 VDC discrete signal acquisition in Honeywell Experion PKS C300 I/O architectures, the Honeywell CC-TDIL01 (CC-TDIL01 Digital Input Module) provides direct electrical interface termination between field-level digital devices and controller-side input processing circuitry within Series C IOTA assemblies. The module conditions 24 VDC input states and routes channel status information to the backplane via standardized I/O communication paths.
Within Honeywell Experion PKS Series C I/O systems, digital input IOTA modules such as CC-TDIL01 are implemented as part of a channel-terminated acquisition layer where field signal integrity is maintained through controlled impedance routing and channel segmentation.
Signal conditioning and backplane transfer logic are aligned with Honeywell’s distributed control topology, where discrete inputs are sampled and mapped into controller memory via deterministic I/O scanning cycles.
Although CC-TDIL01 is a discrete input module, it coexists within the same I/O ecosystem that supports mixed-signal architectures including 4-20 mA HART loop interfaces, channel-to-channel electrical isolation schemes, and field termination assemblies designed for noise rejection in high-density cabinet layouts.
Suffix Breakdown & Model Matrix
No manufacturer-published suffix segmentation or functional sub-code definition is available for CC-TDIL01 in the provided technical dataset. The model is treated as a single-variant IOTA module designation within Series C digital input assemblies.
Hardware Specifications
Parameter
Specification
Model
CC-TDIL01
Brand
Honeywell
Origin
USA
Weight
0.4kg
Dimensions
Not specified in provided data
Operating Temp
Not specified in provided data
Power Consumption
0.190 A @ 24 VDC / ~4.220 W
Input Channels
Not specified in provided data
Nominal Input Voltage
24 VDC
Dissipation
4.220 W
System Role
Digital Input Termination Interface
Honeywell Series C IOTA Digital Input Signal Processing Behavior
The CC-TDIL01 operates within Honeywell’s Series C backplane I/O framework, where discrete field inputs are scanned through synchronized controller execution cycles. Channel states are digitized at the termination assembly level and transmitted through backplane communication paths to the C300 processing environment.
Electrical design assumptions include:
24 VDC nominal input threshold recognition
Internal signal conditioning for state stabilization
Backplane-driven polling and status mapping
Compatibility with distributed I/O node architectures
Frequently Asked Questions
Q: Does CC-TDIL01 support hot-swapping under C300 system operation? A: Hot-swap capability depends on system cabinet configuration and IOTA slot assignment. In Series C architectures, replacement is typically permitted only under controlled maintenance mode with power isolation at the module level.
Q: What is the backplane load contribution of CC-TDIL01? A: Backplane load is determined by Series C IOTA power distribution rules. The module’s field-side consumption is specified as 0.190 A @ 24 VDC, corresponding to approximately 4.220 W dissipation.
Q: Is channel-to-channel isolation implemented on CC-TDIL01? A: Channel isolation characteristics are defined at the IOTA design level. The CC-TDIL01 participates in Honeywell’s Series C termination architecture where isolation strategy is implemented through module grouping and system grounding topology.
Field Installation Guidelines
Install module only in certified Honeywell Series C IOTA chassis slots
Ensure 24 VDC field wiring is de-energized prior to termination
Maintain separation between input wiring and high-voltage conductors to reduce EMI coupling
Use shielded cable where long field runs are present, with shield grounded at cabinet single-point earth
Verify correct channel mapping before energizing controller scan cycle
Confirm backplane seating integrity to avoid intermittent input detection faults
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