1 dari 3

Bently Nevada 330500-05-01 Velomitor Piezo-velocity Sensor

Bently Nevada 330500-05-01 Velomitor Piezo-velocity Sensor

Hanya 4 item tersisa di stok
  • Produsen: Bently Nevada

  • Nomor Produk: 330500-05-01

  • Negara asal:Amerika Serikat

  • Jenis Produk: Velomitor Piezo-velocity Sensor

  • Kode batang: 8537101190

  • Pembayaran: T/T, Western Union

  • Berat: 142g

  • Dimensi: 25 mm x 25 mm x 63 mm (H x W x D)

  • Pelabuhan pengiriman: Xiamen

  • Garansi: 12 bulan

Jumlah
Lihat detail lengkap

Description

330500-05-01: Bently Nevada Velomitor piezo-velocity sensor configured with Option 05 mounting thread adaptor (unavailable for standard 330500, directing NPT installations to model 330525) and Option 01 CSA/US/C hazardous area certification.

This specific configuration incorporates a hermetically-sealed 316L stainless steel case housing embedded solid-state electronics, making it immune to mechanical wear and degradation. Unlike moving-parts velocity transducers, this piezo-velocity sensor can be mounted at any orientation angle. The sensor provides an output sensitivity of 3.94 mV/mm/s (100 mV/in/s) to measure absolute structural, casing, or bearing housing vibration in demanding industrial machinery environments.

Features

  • Option 05 mounting thread option indicating specialized configuration or standard adapter substitution.
  • Option 01 CSA/US/C hazardous area approval package for Class I, Division 1 (Groups A, B, C, D) locations.
  • Solid-state piezoelectric design with no moving parts to prevent mechanical wear and degradation.
  • 3.94 mV/mm/s (100 mV/in/s) output sensitivity with plus or minus 5% accuracy.
  • Broad frequency response from 4.5 Hz to 5 kHz (plus or minus 3.0 dB) or 6.0 Hz to 2.5 kHz (plus or minus 0.9 dB).
  • Case-isolated electrical grounding to prevent noise interference.
  • Hermetically-sealed 316L stainless steel case with a 2-pin Mil-C-5015 receptacle connector.
  • Operating temperature range of -55 degC to 121 degC.

Applications

  • Shaft casing, structural, or bearing housing vibration monitoring.
  • Rotating machinery protection (unbalance, misalignment, rotor faults).
  • Power generation, oil and gas, petrochemical, and other heavy-industry environments.

Ordering Information

Option / Segment Code on This SKU Description
Orderable Part Number 330500-05-01 Velomitor Piezo-velocity Sensor
A - Mounting Thread Adaptor Option 05 Unavailable for 330500 (Note: For 1/4-18 NPT mounting, order 330525).
B - Agency Approval Option 01 CSA/US/C (Class I, Div 1 Groups A, B, C, D; Class II, Groups E, F, G; Class III).

Technical Specifications

Manufacturer Bently Nevada
Part Number 330500-05-01
Sensitivity 3.94 mV/mm/s (100 mV/in/s) plus or minus 5%
Frequency Response 4.5 Hz to 5 kHz (270 cpm to 300 kcpm) plus or minus 3.0 dB; 6.0 Hz to 2.5 kHz (360 cpm to 150 kcpm) plus or minus 0.9 dB
Temperature Sensitivity -14% to +7.5% typical over the operating temperature range
Velocity Range 1270 mm/s (50 in/s) peak
Transverse Sensitivity Less than 5% of sensitivity
Amplitude Linearity plus or minus 2% to 152 mm/s (6 in/s) peak
Mounted Resonant Frequency Greater than 12 kHz
Output Bias Voltage -12 plus or minus 3.0 VDC over temperature referenced to Pin A
Dynamic Output Impedance Less than 2400 ohms
Broadband Noise Floor 0.004 mm/s (160 u in/s) rms, nominal (4.5 Hz to 5 kHz)
Grounding Case isolated
Maximum Cable Length 305 m (1,000 ft) of cable (part number 02173006) with no signal degradation
Operating Temperature Range -55 degC to 121 degC (-67 degF to 250 degF)
Shock Survivability 5,000 g peak, maximum
Relative Humidity To 100% non-submerged (hermetically-sealed case)
Base Strain Sensitivity 0.005 in/s/mstrdin.
Magnetic Field Susceptibility Less than 51 micro-in/s/gauss (50 gauss, 50-60 Hz)
Case Material 316L stainless steel
Connector 2-pin Mil-C-5015 hermetically-sealed, 316L stainless steel shell
Mounting Torque 32-46 kg cm (24-40 in-lb) maximum
Polarity When the sensor case motion is toward the connector, Pin A becomes positive with respect to Pin B

Connections and Interfaces

Connector Pin Function
Pin A Signal / Positive Output (referenced for output bias voltage; becomes positive with respect to Pin B when motion is toward connector)
Pin B Common / Return

Installation Guidelines

  • Mount the sensor on a flat, clean surface of the bearing housing or machine casing to maintain optimal amplitude and frequency response.
  • Apply mounting torque within the specified range of 32 to 46 kg-cm (24 to 40 in-lb) maximum. Do not exceed these limits.
  • Ensure proper electrical shielding. The sensor case is electrically isolated, requiring proper termination of the cable shield to prevent noise.
  • Avoid integrating the sensor output to measure displacement unless electrical noise from interference is actively mitigated.
  • Use only compatible twisted, shielded 2-conductor cable assemblies (such as Bently Nevada part number 02173006) for connections.

Compliance and Certifications

  • CSA/NRTL/C: Class I, Div 1 Groups A, B, C, D; Class II, Groups E, F, G; Class III (Ex ia IIC T3, AEx ia IIC T3, Temp Code T3 @ -55 degC to 121 degC).
  • EMC Directive: 2014/30/EU.
  • RoHS Directive: 2011/65/EU.
  • FCC: Part 15 Compliant.
  • Maritime: ABS Marine Vessels, Offshore Units and Structures, Mobile Offshore Units.
Loading product navigation…

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

Bently Nevada 330500-05-01 Velomitor Piezo-velocity Sensor

What does the 330500-05-01 part number represent?

The part number represents a Bently Nevada Velomitor Piezo-velocity Sensor. The '05' mounting option indicates that a mounting thread adapter is unavailable for this specific configuration, directing standard NPT applications to model 330525, while the '01' indicates CSA/US/C hazardous area approvals.

How does a piezo-velocity sensor differ from moving-part velocity transducers?

This sensor utilizes solid-state piezoelectric electronics rather than moving coils or magnets. This eliminates mechanical wear and allows the sensor to be mounted at any angle (vertical, horizontal, or oblique) without degradation of performance.

What is the nominal output sensitivity of this sensor?

The sensor has a nominal output sensitivity of 3.94 mV/mm/s (100 mV/in/s) with a tolerance of plus or minus 5%.

What mounting torque is recommended for installation?

The recommended mounting torque is 32 to 46 kg-cm (24 to 40 in-lb) maximum. Proper installation on a flat, clean surface is critical to prevent loss of frequency response.

Is the case of the 330500-05-01 sensor grounded?

No, the sensor case is electrically isolated from the internal transducer circuitry to prevent ground loops and electromagnetic interference.

Pengiriman Ekspres Global

  • Pengiriman Standar: 4-6 Hari Kerja melalui DHL, FedEx, dan UPS.
  • Pengiriman Ekspres: Pengiriman pada hari yang sama untuk pesanan dalam stok yang dilakukan sebelum pukul 2:00 PM (GMT+8).
  • Cakupan Seluruh Dunia: Melayani lebih dari 150 negara, termasuk pengiriman cepat ke Arab Saudi dan UAE.

Pengembalian & Garansi

  • Jaminan 30 Hari: Pengembalian diterima untuk produk yang tersedia dalam stok dengan kemasan asli yang tersegel pabrik.
  • Garansi 12 Bulan: Setiap komponen industri didukung oleh garansi teknis profesional kami.

Pesanan diproses dan dikirimkan Senin-Jumat (tidak termasuk hari libur nasional).


Untuk kelayakan penuh, biaya pengisian ulang, dan detail pengembalian internasional, silakan lihat resmi kami Kebijakan Pengembalian & Pengembalian Dana .

TECHNICAL SPECIFICATIONS

Country of origin
Amerika Serikat

Produk yang Baru Dilihat

Pengetahuan teknis

Aktuator Elektrik yang Dirancang untuk Menggantikan Sistem Tenaga Fluida: Panduan Praktis Otomasi Industri

Artikel ini menjelaskan bagaimana aktuator listrik terintegrasi, seperti seri e-Actuator dari SMC, mengubah kontrol gerak industri dengan menggantikan sistem pneumatik dan hidrolik tradisional....

Operasi Matematika Menggunakan OpenPLC untuk Aplikasi Otomasi Industri

Artikel ini menjelaskan bagaimana sistem PLC melakukan operasi matematika inti seperti penjumlahan, pengurangan, perkalian, pembagian, modulo, dan perpangkatan dalam otomasi industri. Artikel ini...

Logika Boolean Lanjutan dengan Pemrograman FBD PLC: Aplikasi Industri Praktis di Luar Logika Dasar

Artikel ini menjelaskan beberapa fungsi logika Boolean lanjutan yang digunakan dalam pemrograman PLC selain operasi dasar AND, OR, dan NOT. Artikel ini membahas bagaimana alat seperti tabel...

Logika Boolean dalam Pemrograman PLC: Memahami Gerbang Logika FBD

Logika Boolean adalah dasar dari setiap program PLC. Dari kontrol mesin sederhana hingga sistem otomasi industri yang kompleks, gerbang logika menentukan bagaimana pengendali merespons perubahan...

Panduan Mendalam tentang Firewall Industri dan Segmentasi Jaringan OT

Firewall industri memainkan peran penting dalam keamanan siber OT, melindungi jaringan PLC, DCS, dan SCADA melalui segmentasi, kontrol masuk/keluar, dan integrasi IDS/IPS yang sesuai dengan prinsip...

Panduan untuk Gripper Robotik: Dari Penanganan Halus hingga Otomasi Berat

Gripper robot modern berkembang melampaui rahang mekanis tradisional. Mulai dari sistem adhesif yang terinspirasi oleh tokek dan gripper lembut yang aman untuk makanan hingga alat gudang bertenaga...