1 daripada 3

General Electric DS3800HVDB1K1G Mark IV DS3800 Video Driver Board

General Electric DS3800HVDB1K1G Mark IV DS3800 Video Driver Board

Hanya 5 item tinggal dalam stok
  • Pengilang: General Electric

  • No. Produk: DS3800HVDB1K1G

  • Negara asal:Amerika Syarikat

  • Jenis Produk: Video Driver Boards

  • Kod bar: 8537101190

  • Pembayaran: T/T, Western Union

  • Berat: 1250g

  • Dimensi: 130 mm x 130 mm x 85 mm (H x W x D)

  • Pelabuhan penghantaran: Xiamen

  • Jaminan: 12 bulan

Kuantiti
Lihat butiran penuh

Description

The DS3800HVDB1K1G is a video driver board manufactured by General Electric as part of the Mark IV DS3800 series turbine control and industrial drive framework. This circuit board functions as a high-reliability hardware interface designed to facilitate data visualization processing within industrial automation drives. The DS3800HVDB1K1G incorporates a multi-jumper layout paired with multiple electrically erasable programmable read-only memory (EEPROM) modules that permanently store active processing firmware and drive instructions. To simplify physical service tasks, the card supports in-circuit electronic firmware modifications, enabling ongoing configuration maintenance without removing components from the substrate. Engineered for secure mechanical housing inside drive enclosures, the board layout is outfitted with built-in retention levers and multi-pin terminal sockets for steady backplane mating.

Features

  • Processes data visualization logic configurations for industrial turbine drive system integration
  • Equipped with multiple integrated EEPROM sockets housing electronically updatable driver code
  • Supports direct, in-circuit electronic firmware modification without chip removal
  • Outfitted with fifteen individual manual hardware jumper switches to manage board paths
  • Designed with specialized mechanical retention levers on one border for fast module extraction
  • Includes a robust modular connection port at the insertion boundary and an onboard 20-pin terminal plug

Applications

  • Mark IV industrial drive telemetry and diagnostic processing systems
  • Utility-scale gas and steam turbine automated control panel visualization
  • High-density industrial data interface display conditioning

Technical Specifications

Parameter Specification
Manufacturer General Electric
Part Number DS3800HVDB1K1G
Series Mark IV DS3800
Board Type Video Driver Board
Memory Subsystem Electrically Erasable Programmable Read-Only Memory (EEPROM) Modules
Onboard Hardware Jumpers 15 total
Primary Plug Interfaces 1 modular card edge connector, 1 20-pin connector
Mechanical Ejection Mechanism Integrated dual retention levers

 

Connections/Interfaces

Port / Connector Designation Function / Technical Description
Modular Edge Connector Primary insertion interface situated on 1 end of the printed circuit board for backplane communication
20-Pin Connector Specialized terminal plug situated directly between the mechanical retention levers for auxiliary routing
EEPROM Module Sockets Multiple front-facing socket banks holding firmware logic and drive instructions

 

Installation Guidelines

  • Module Transfer During Replacement: When substituting a faulty driver card, manually transfer the existing EEPROM modules from the old board to the replacement board using a standard screwdriver to carefully pry each chip out of its socket.
  • Firmware Installation: Align the pin layout of each EEPROM module over its corresponding chip socket on the replacement card and press straight down until it is seated firmly.
  • Jumper Configuration: Set the 15 onboard jumpers to replicate the operational configuration and system bus mappings of your original module before applying power.
  • Mechanical Securing: Slide the video driver board into the designated drive track slot, locking the physical retention levers securely into the structural chassis bracket.
Loading product navigation…

Can the firmware on the EEPROM modules be updated while they are still attached to the board?

Yes. The EEPROM modules are designed to be electronically updated, meaning the operator can refresh or upgrade the programming code without removing the chips from the board assembly.

Does a replacement video driver board ship with the firmware modules pre-installed?

No. The replacement card is supplied without the firmware modules installed in the socket banks. Operators must transfer the existing memory modules from the original hardware during replacement.

What tools are required to extract the memory modules from their on-board sockets?

No specialized tools are required to extract the modules. A standard screwdriver can be used as a lever to gently pry each chip out of its designated socket.

Where is the 20-pin interface connector physically located on the board?

The 20-pin connector is positioned on the edge of the printed circuit board, populated directly between the mechanical retention levers.

Penghantaran Ekspres Global

  • Penghantaran Standard: 4-6 Hari Perniagaan melalui DHL, FedEx, dan UPS.
  • Penghantaran Ekspres: Penghantaran pada hari yang sama untuk pesanan dalam stok yang dibuat sebelum 2:00 PM (GMT+8).
  • Liputan Seluruh Dunia: Berkhidmat di lebih 150 negara, termasuk penghantaran pantas ke Arab Saudi dan UAE.

Pemulangan & Jaminan

  • Jaminan 30 Hari: Pemulangan diterima untuk produk dalam stok dalam pembungkusan asal yang disegel kilang.
  • Jaminan 12 Bulan: Setiap komponen industri disokong oleh jaminan teknikal profesional kami.

Pesanan diproses dan dihantar Isnin-Jumaat (tidak termasuk cuti umum).


Untuk kelayakan penuh, yuran penyimpanan semula, dan butiran pemulangan antarabangsa, sila lihat rasmi kami Polisi Pemulangan & Bayaran Balik .

TECHNICAL SPECIFICATIONS

Color pattern
Kuning
Country of origin
Amerika Syarikat

Produk yang Baru Dilihat

Pengetahuan teknikal

Penggerak Elektrik Direka untuk Menggantikan Sistem Kuasa Cecair: Panduan Automasi Industri Praktikal

Artikel ini menerangkan bagaimana aktuator elektrik bersepadu, seperti siri e-Actuator SMC, mengubah kawalan gerakan industri dengan menggantikan sistem pneumatik dan hidraulik tradisional. Ia...

Operasi Matematik Menggunakan OpenPLC untuk Aplikasi Automasi Industri

Artikel ini menerangkan bagaimana sistem PLC melaksanakan operasi matematik teras seperti penambahan, penolakan, pendaraban, pembahagian, modulo, dan perpangkatan dalam automasi industri. Ia...

Logik Boolean Lanjutan dengan Pengaturcaraan PLC FBD: Aplikasi Industri Praktikal Melebihi Logik Asas

Artikel ini menerangkan beberapa fungsi logik Boolean lanjutan yang digunakan dalam pengaturcaraan PLC selain operasi asas AND, OR, dan NOT. Ia merangkumi bagaimana alat seperti jadual kebenaran,...

Logik Boolean dalam Pengaturcaraan PLC: Memahami Pintu Logik FBD

Logik Boolean adalah asas bagi setiap program PLC. Dari kawalan mesin yang mudah hingga sistem automasi industri yang kompleks, pintu logik menentukan bagaimana pengawal bertindak balas terhadap...

Panduan Mendalam tentang Firewall Industri dan Segmentasi Rangkaian OT

Firewall industri memainkan peranan penting dalam keselamatan siber OT, melindungi rangkaian PLC, DCS, dan SCADA melalui segmentasi, kawalan masuk/keluar, dan integrasi IDS/IPS yang selaras dengan...

Panduan untuk Pengapit Robotik: Dari Pengendalian Halus hingga Automasi Tugas Berat

Pengapit robotik moden sedang berkembang melebihi rahang mekanikal tradisional. Daripada sistem pelekat yang diilhamkan oleh cicak dan pengapit lembut gred makanan hingga alat gudang yang dikuasakan...