Bently nevada 3500/22-Transient Data Interface Module

Bently Nevada 3500/22M-01-01 Transient Data Interface (TDI) is the interface between the 3500 monitoring system and compatible software (System 1 Condition Monitoring and Diagnostic software and 3500 System Configuration software).

Manufacturer: Bently Nevada
Model Number: 3500/22M (complete di order choose last part number if require)
Part Number: 3500/22
price: $4200
Description: Bently Nevada 3500/22M-01-01-00 288055-01 Transient Data Interface
Origin: United States (US)
Product Type: Transient Data Interface Module
Dimensions: 9.50 in x 0.96 in x 9.52 in
Weight: 0.91 kg (2.0 lbs)
Series: 3500
shipping port: validate
Availability: In stock

For more details see datasheet here

Ordering Information

List of Options and Part Numbers
3500/22M TDI Module and I/O
3500/22-AXX-BXX-CXX

A: Transient Data Interface Type
0 1 Standard (Use for standard monitoring applications)
0 2 TMR (Use only for applications that require a Triple Modular Redundant Configuration).

B: I/O Module Type
0 1 10Base-T/100Base-TX Ethernet I/O module

0 2 100Base-FX (Fiber Optic) Ethernet I/O module

C: Agency Approval Option
0 0 None
0 1 CSA/NRTL/C
0 2 CSA/ATEX

Spares

288055-01
Standard Transient Data Interface Module with USB cable
288055-02
TMR Transient Data Interface Module with USB cable
100M2833
10 foot A to B USB cable
146031-01
10Base-T/100Base-TX I/O Module
146031-02
100Base-FX (Fiber Optic) I/O Module
147364-01
3500 Buffered Signal Output Module

Functional Description

Bently Nevada 3500/22M-01-01 Transient Data Interface (TDI) is the interface between the 3500 monitoring system and compatible software (System 1 Condition Monitoring and Diagnostic software and 3500 System Configuration software). The TDI combines the function of a 3500/20 Rack Interface Module (RIM) with the data collection capability of a communication processor such as TDXnet.
The TDI resides in the slot adjacent to the power supplies of a 3500 rack. It interfaces with M series monitors (3500/40M, 3500/42M, etc.) to continuously collect steady state and transient dynamic (waveform) data and pass this data through an Ethernet link to the host software. Refer to the Compatibility section at the end of this document for more information.
Static data capture capability is standard with the TDI. However, using an optional Channel Enabling Disk will allow the TDI to capture dynamic and high-resolution transient data as well. The TDI incorporates the communication processor function within the 3500 rack.
Although the TDI provides certain functions common to the entire rack, it is not part of the critical monitoring path and has no effect on the proper, normal operation of the overall monitor system for automatic machinery protection. Every 3500 rack requires one TDI or RIM, which always occupies Slot 1 (next to the power supplies)

Data Interface Module

Manufacturer: Bently Nevada
Model Number: 3500/22M
Part Number: 288055-02
Product Type: TMR Transient Data Interface Module with USB cable
Dimensions: 9.50 in x 0.96 in x 9.52 in
Weight: 2.0 lbs
Availability: In stock

Functional Description

Bently nevada 288055-02 TMR Transient Data Interface Module with USB cable is a part of the Bently Nevada 3500-22M Transient Data Interface Module.
3500/22M is a Transient Data Interface Module manufactured and designed by Bently Nevada as part of the 3500 Series used for monitoring seismic activity. The 3500/22M Transient Data Interface (TDI) is the interface between the 3500 monitoring system and compatible software (System 1 Condition Monitoring and Diagnostic software and 3500 System Configuration software). The TDI combines the function of a 3500/20 Rack Interface Module (RIM) with the data collection capability of a communication processor such as TDXnet.

FEATURES

1. In a 3500 rack, the TDI is located in the slot next to the power supplies. In order to continually gather steady-state and transient dynamic (waveform) data and transmit this data through an Ethernet link to the host software, it interacts with M series monitors (3500/40M, 3500/42M, etc.).
   2. The TDI comes with conventional static data-collecting capabilities. However, the TDI may also record dynamic, high-resolution transient data with the use of an optional Channel Enabling Disk.
   3. The 3500 rack houses the TDI's communication processing function. Although the TDI performs some tasks that are shared by the entire rack, it is not a crucial component of the monitoring system and has no bearing on how well the system as a whole monitors the autonomous machinery protection.
   4. The link between the 3500 monitoring system and compatible software is called the 3500/22M Transient Data Interface (TDI) (System 1 Condition Monitoring and Diagnostic software and 3500 System Configuration software). The TDI combines the 3500/20 Rack Interface Module (RIMfunctionality ) with a communication processor, like TDXnet, to collect data.
   5. In a 3500 rack, the TDI is located in the slot next to the power supplies. In order to continually gather steady state and transient dynamic (waveform) data and transmit this data through an Ethernet link to the host software, it interacts with M series monitors (3500/40M, 3500/42M, etc.). The TDI comes with conventional static data-collecting capabilities. However, the TDI may also record dynamic, high-resolution transient data with the use of an optional Channel Enabling Disk.
   6. The 3500 rack houses the TDI's communication processing function. Although the TDI performs some tasks that are shared by the entire rack, it is not a crucial component of the monitoring system and has no bearing on how well the system as a whole monitors the autonomous machinery protection.
   7. It is utilized to switch the 3500 rack between "RUN" and "PROGRAM" modes. RUN mode keeps out configuration modifications while allowing the rack to operate normally. The rack can be configured locally or remotely while still operating normally in PROGRAM mode.
   8. The switch can stay in either the RUN or PROGRAM position by removing the key from the rack in either position. You can prevent unwanted rack reconfiguration by locking the switch in the RUN position. Anytime a rack needs to be remotely reconfigured, the switch can be locked in the PROGRAM position.