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.