1 / 3

Bently Nevada 3500/15-04-04-01 133300-01 Legacy Low Voltage DC Power Input Module

Bently Nevada 3500/15-04-04-01 133300-01 Legacy Low Voltage DC Power Input Module

Only 3 item(s) left in stock
  • Manufacturer: Bently Nevada

  • Product No.: 3500/15-04-04-01 133300-01

  • Country of origin:Egyesült Államok

  • Product Type: Power Input Module

  • Barcode: 8537101190

  • Payment: T/T, Western Union

  • Weight: 1080g

  • Dimensions: 285 mm x 210 mm x 155 mm

  • Shipping port: Xiamen

  • Warranty: 12 months

Mennyiség
Minden részlet megtekintése

The Bently Nevada 3500/15-04-04-01, operating in absolute conjunction with the 133300-01 rear interface, is an industrial-grade half-height rack power conversion engine designed for the 3500 Series Machinery Protection System. This specific hardware combination forms a legacy low-voltage direct current input infrastructure, receiving raw plant supply vectors and executing high-isolation step-down regulation to feed the internal passive backplane rails with tightly monitored DC operating potentials.

Key Features

  • True N+1 Redundant Topology: Supports continuous dual-supply allocation within a single rack configuration where the lower bay functions as the primary power source and the upper bay serves as an un-interrupted hot-standby unit.
  • Zero-Downtime Hot Swappability: Internal dynamic balancing circuits permit the physical removal or insertion of either power card while the machinery monitor rack remains fully energized, preventing false trips or protection blind spots.
  • Galvanic Isolation Barrier: Designed with heavily separated circuitry paths between input terminals and backplane connections to absorb massive field-side voltage transients and ground-loop fluctuations.
  • Dedicated Power Input Module (PIM): Paired with the legacy 133300-01 rear module featuring robust terminal blocks and optimized input filter footprints dedicated to low-voltage battery banks.

Applications

  • Critical Turbomachinery Protection: Delivers stable operational rails for critical shaft vibration, thrust position, and speed monitoring modules across steam and gas turbine trains.
  • Plant Battery Bank Integration: Direct connection to central industrial 24V DC battery backup systems inside power generation and petrochemical processing facilities.
  • High-Availability Control Cabinets: Deployment in remote machine enclosures demanding maximum system uptime via redundant instrumentation power.

Ordering Information

Option Code Engineering Selection Detail
3500/15-AA-BB-CC Base Configuration
AA - 04 Legacy Low Voltage DC Power Supply (20 to 30 Vdc range)
BB - 04 Legacy Low Voltage DC Power Input Module (PIM)
CC - 01 Agency Approval Option: CSA-c-US (Class I, Division 2, Groups A, B, C, D)
Component Breakdown Part Numbers
106M1081-01 Legacy Low Voltage DC Power Supply Main Card Assembly
133300-01 Legacy Low Voltage DC Power Input Module (PIM) Rear Hardware

Technical Specifications

Technical Parameter Verified Engineering Value
Input Voltage Range 20 Vdc to 30 Vdc
Maximum Input Current 10.0 A continuous
Typical Power Consumption 230 Watts maximum under full chassis load configuration
Output Regulated Rails +5 Vdc, -5 Vdc, +15 Vdc, -15 Vdc distributed via passive backplane
Dielectric Isolation Strength 500 Vdc terminal-to-chassis ground resistance rating
Form Factor Size Half-height card layout (Occupies specific left-side rack slots)
Operating Temperature Limits -20 Celsius to +65 Celsius
Storage Temperature Limits -40 Celsius to +85 Celsius
Relative Humidity Range Up to 95% relative humidity, non-condensing
Front Panel Status Monitoring Integrated green 'Supply OK' LED diode matrix
Manufacturer Bently Nevada (A Baker Hughes Company)
Country of Origin United States
Main Supply Card Weight 0.77 kg (1.70 lb)
Rear Input PIM Card Weight 0.31 kg (0.68 lb)
Total System Net Weight 1.08 kg (2.38 lb)
Shipping Weight (Calculated) 1.55 kg (Complete double-card boxed system)
Package Dimensions (Calculated) 285 mm x 210 mm x 155 mm

Connections and Interfaces

Terminal Designation Circuit Interface Assignment
DC+ Positive DC Input Line (Accepts +20 to +30 Vdc reference)
DC- Negative DC Return Line (Power circuit common return path)
GND Safety Earth Ground Connection (Direct metal frame path link)

Installation Guidelines

CRITICAL WARNING: Isolate the primary 24V DC upstream supply loop breaker before starting installation. Do not manipulate or wire live power lines directly to the 133300-01 rear compression block. Bridging live lines risks continuous arc flash generation, internal short circuits across the copper layers, and permanent failure of all monitoring cards on the common backplane.
1

Connect a verified anti-static grounding wrist strap to the unpainted rack frame to discharge potential personal static build-up before opening module protection envelopes.

2

Push the main half-height power card smoothly down its dedicated slot runners on the front left side of the 3500 chassis until it mates with the backplane pin assembly.

3

Align the legacy 133300-01 power input card into the parallel rear bay position. Fully tighten the rear retaining screws to secure the unit against persistent mechanical vibrations.

4

Strip field feeder cables back by 7 millimeters, insert them firmly into the DC terminal clamp block matching the verified polarities, and torque the clamping screws down to specification.

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

Bently Nevada 3500/15-04-04-01 133300-01 Legacy Low Voltage DC Power Input Module

How is power balancing managed between primary and backup power cards?

When two modules are populated in a single chassis, internal logic automatically configures the lower bay card as primary and the upper bay card as the backup standby. If the lower unit experiences a fatal drop in input voltage, internal hardware traces switch the full current load to the backup card in microseconds with no disruption.

Can I pair this legacy low-voltage DC power card with a modern standard DC power input module?

No. The legacy low-voltage module card is completely incompatible with newer standard low-voltage PIM assemblies. It must be paired exclusively with the legacy 133300-01 rear input module to function correctly and avoid hardware mismatch faults.

Is an auxiliary cooling fan required for this half-height card assembly?

No. The system utilizes structured natural convection currents running up through the integrated chassis slots. Maintaining the standard environmental clearances around the rack enclosure ensures optimal thermal dissipation.

What is the continuous operational current limitation of the input circuitry?

The module is designed to safely handle a continuous maximum current input threshold of 10.0 Amperes across its full rated low-voltage operating range.

Globális expressz szállítás

  • Normál szállítás: 4-6 munkanap a DHL, FedEx és UPS szolgáltatásával.
  • Gyors kiszállítás: A raktáron lévő, 14:00 (GMT+8) előtt leadott megrendeléseket aznap feladjuk.
  • Világszintű lefedettség: Több mint 150 országban szolgálunk ki, beleértve a gyors szállítást Szaúd-Arábiába és az Egyesült Arab Emírségekbe.

Visszaküldés és garancia

  • 30 napos garancia: Csak a raktáron lévő termékek eredeti, gyári zárt csomagolásban történő visszaküldését fogadjuk el.
  • 12 hónapos garancia: Minden ipari alkatrészünket szakmai műszaki garancia védi.

A megrendeléseket hétfőtől péntekig dolgozzuk fel és szállítjuk (állami ünnepnapok kivételével).


A teljes jogosultság, a készletfeltöltési díjak és a nemzetközi visszaküldési részletek megtekintéséhez kérjük, tekintse meg hivatalos oldalunkat Visszatérítési és Visszaküldési Szabályzat .

TECHNICAL SPECIFICATIONS

Color pattern
Szürkésfehér Ezüst
Country of origin
Egyesült Államok

Nemrég megtekintett termékek

Műszaki ismeretek

Electric Actuators Designed to Replace Fluid Power Systems: A Practical Industrial Automation Guide

This article explains how integrated electric actuators, such as SMC’s e-Actuator series, are transforming industrial motion control by replacing traditional pneumatic and hydraulic systems. It...

Math Operations Using OpenPLC for Industrial Automation Applications

This article explains how PLC systems perform core mathematical operations such as addition, subtraction, multiplication, division, modulo, and exponentiation within industrial automation. It shows...

Advanced Boolean Logic with FBD PLC Programming: Practical Industrial Applications Beyond Basic Logic

The article explains several advanced Boolean logic functions used in PLC programming beyond basic AND, OR, and NOT operations. It covers how tools like truth tables, multiplexers, pulse generators,...

Boolean Logic in PLC Programming: Understanding FBD Logic Gates

Boolean logic is the foundation of every PLC program. From simple machine controls to complex industrial automation systems, logic gates determine how controllers respond to changing inputs and...

Deep-Dive Guide to Industrial Firewalls and OT Network Segmentation

Industrial firewalls play a critical role in OT cybersecurity, protecting PLC, DCS, and SCADA networks through segmentation, ingress/egress control, and IDS/IPS integration aligned with IEC 62443...

Guide to Robotic Grippers: From Delicate Handling to Heavy-Duty Automation

Modern robotic grippers are evolving beyond traditional mechanical jaws. From gecko-inspired adhesive systems and soft food-grade grippers to AI-powered warehouse tools, advanced gripping...