Keterangan
Bently Nevada 141377-01 Isolator Terminal Base
Configured for electrical isolation between vibration transducers and monitoring modules in the 1701/06 vibration monitoring system, the Bently Nevada 141377-01 (141377-01 Isolator Terminal Base) provides direct physical/electrical execution of signal separation and ground loop suppression within sensor termination architecture.
Suffix Breakdown & Model Matrix
No validated functional suffix segmentation is defined for this order number.
Hardware Specifications
| Parameter |
Specification |
| Model |
141377-01 |
| Brand |
Bently Nevada |
| Weight |
1.6 kg |
| Dimensions |
127 x 203 x 508 mm |
| Operating Temp |
-40 deg C to +70 deg C |
| Power Consumption |
Passive (no active power draw) |
| Isolation Voltage |
250 VAC continuous, 1500 VAC test |
| Channels |
6 (1 per sensor/transducer) |
| Connections |
Screw terminals, 12–22 AWG |
| Mounting |
DIN rail |
| Storage Temperature |
-40 deg C to +85 deg C |
| Humidity |
5%–95% non-condensing |
| Housing Material |
Thermoplastic |
Signal Isolation and Transducer Interface Integrity in Vibration Monitoring Systems
The module operates as a passive isolation termination element within the vibration measurement chain. It enforces galvanic separation between vibration transducer inputs and downstream monitoring electronics, preventing ground loop formation across sensor return paths.
Within rotor dynamics measurement chains, the isolator terminal base supports stable eddy-current probe wiring topology by maintaining defined reference separation between signal return and system ground. This reduces susceptibility to cross-talk propagation in multi-channel vibration acquisition racks, particularly where long sensor lead routing is present.
The absence of active circuitry ensures that signal conditioning remains external to the terminal base, preserving raw transducer output integrity prior to conditioning stages in the 1701/06 monitoring architecture.
Frequently Asked Questions (FAQ)
Q: Does the 141377-01 require external power for operation?
A: No. The module is a passive terminal base and does not consume electrical power.
Q: Can the isolator maintain channel separation under mixed high-voltage and low-voltage routing conditions?
A: Yes, provided wiring separation rules are maintained and high-voltage conductors are physically isolated from signal terminals.
Q: Is the module hot-swappable during system operation?
A: It is not intended for live removal. System power isolation is required before mechanical disconnection to avoid signal interruption.
Field Installation Guidelines
-
Mount on a properly grounded DIN rail to maintain shielding reference stability
-
Ensure torque compliance on screw terminals for 12–22 AWG conductors to avoid intermittent contact resistance
-
Route transducer signal cables separately from high-voltage conductors to minimize induced noise coupling
-
Maintain full seating of terminal contacts across all 6 channels to preserve channel isolation integrity
-
Verify system grounding topology before energizing connected monitoring modules