KS1-10B Yokogawa 40-Pin Signal Cable | New & Original Stock
KS1-10B Yokogawa 40-Pin Signal Cable | New & Original Stock
KS1-10B Yokogawa 40-Pin Signal Cable | New & Original Stock
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KS1-10B Yokogawa 40-Pin Signal Cable | New & Original Stock

  • Manufacturer: Yokogawa

  • Part Number: KS1-10*B

  • Condition:New with Original Package

  • Product Type: Signal Cables

  • Country of Origin: Japan

  • Payment:T/T, Western Union

  • Shipping port: Xiamen

  • Warranty: 12 months

Yokogawa KS1-10*B CENTUM CS Signal Cable

The Yokogawa KS1-10*B, also cataloged as the KS1 Signal Cable, operates as a dedicated hardware component for discrete and analog routing within CENTUM CS system platforms. This multi-conductor interconnecting harness features 40-pin to 40-pin molded termination boundaries engineered to establish low-impedance connection vectors between processing units and marshalling panels. It executes continuous physical-layer signal pass-through commands without generating inductive network degradation or propagation latency variations.

Suffix Breakdown & Model Matrix

  • KS1: Core model identification representing the 40-pin to 40-pin industrial signal interface platform.
  • -10: Cable length assignment designation specifying a fixed length metric of 10 m.
  • *B: Style identifier tracking specific component construction standards and connector pinout retention designs.

Hardware Specifications

Parameter Specification
Model KS1-10*B
Brand Yokogawa
Origin Japan
Weight 1.4 kg (Gross shipping allocation 2.0 kg)
Dimensions 10 m (Total physical linear path length)
Operating Temp -20 to 70 deg C
Power Consumption 0 W (Passive conductor array configuration)
Connector Type 40-pin to 40-pin molded terminal mating blocks
Signal Classification High-density control loop interface connection
Mating Orientation Mechanical keyway aligning configuration
Conductor Resistance Within standard milliohm engineering limits

Process Control Loops and Analog Field Configurations

The multiconductor cable assembly guides high-density wiring blocks that conduct the 4-20 mA HART loop protocol across system interfaces. Ground loops and capacitive cross-talk are mitigated by standard shield placement techniques implemented along the internal copper paths. By sustaining continuous electrical contact integrity across the 40 independent paths, the cable preserves low-level voltage drop parameters, maintaining absolute calibration baselines for terminal nodes running sensitive cold junction compensation (CJC) metrics or high-density channel-to-channel isolation circuits.

Frequently Asked Questions

Q: Can this cable be segmented or spliced manually in the field to adapt to custom rack geometries?

A: No. The KS1-10*B is a factory-assembled, vulcanized 40-pin to 40-pin module with molded terminations. Field cutting, splicing, or pinning violates factory loop impedance specifications and breaks the electrical shielding layout.

Q: Is hot-swap handling of this signal connector permitted while the control nodes are actively transmitting?

A: No. Disconnecting a 40-pin master link while energized will instantly drop up to 40 active process channels, causing immediate safety interlock trips and data dropouts. All associated I/O modules and power connections must be shut down before decoupling the interface.

Q: Does the -20 to 70 deg C operating temperature range allow for outdoor cable tray installations?

A: Although the inner insulation remains rated down to -20 deg C, the cable lacks UV-stabilized heavy outer armoring. It must be run inside sealed conduits or control room cable raceways, protected from direct weather exposure and mechanical shearing.

Field Installation Guidelines

  • Confirm that the host system node is completely de-energized before matching and tightening the 40-pin connector frames.
  • Adhere to standard industrial bend radius calculations to prevent physical conductor stress or mechanical fatigue near the molded connector boot.
  • Lock the integrated mechanical fasteners tightly to prevent intermittent connection failures caused by cabinet vibration.
  • Route the 10 m signal path through dedicated low-voltage wireways, keeping it separate from heavy high-voltage AC electrical lines.
  • Verify clean grounding continuity on the terminal panel grounding block to ensure that induced noise is properly drained from the shield lines.
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