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New Product: sbRIO-9687 Universal Semikron Interface Board for NI General Purpose Inverter Controller (GPIC)

sbRIO-9687 Universal Semikron Interface Board for NI General Purpose Inverter Controller (GPIC)

 

The sbRIO-9687 is a universal interface board for the NI sbRIO General Purpose Inverter Controller (GPIC) that provides direct cable connectivity to Semikron power electronics stacks ranging from 50 kW to 3.2 MW. Now engineers developing power conversion equipment for grid tied inverters, battery energy storage, power electronics test systems, and electric motor drive applications can reduce development time significantly by avoiding the need to design a custom interface PCB.

 

sbRIO-9687 Semikron Universal Interface Board for NI GPIC - angle.png

 

 

Key Features

 

  • Direct cable connectivity to nearly the entire Semikron platform of power electronics stacks from 50 kW to 3.2 MW
  • Multiple connectors for Semikron SKiiP3 GB (7), SKiiP3 GD (2), SKiiP4 (4), Semikube GB (6), Semikube GD (2)
  • Pluggable breakout connectors for all NI sbRIO GPIC input/output channels including AI, AO, DI, DO
  • Fast over-range comparator circuits for detecting over-current conditions (8), onboard humidity and temperature sensor, thermistor inputs (2), relay control switches (4), and serial connector for local HMI display
  • Signal conditioning for GPIC simultaneous analog inputs (16) including current sense resistors, low pass filters and gain stage
  • Expansion connectors for making custom daughterboard PCBs with 32 LVTTL lines and power rails

sbRIO-9687 Semikron Universal Interface Board for NI GPIC - top.png

 

NI Ordering Information

 

785636-01 sbRIO-9687 Universal Semikron Interface Board for NI GPIC (Add to Cart)

 

786176-01 Pluggable Connector Set for sbRIO-9687 Universal Semikron Interface Board (Add to Cart)

 

785637-01 Mounting Plate and Mechanical Accessories for sbRIO-9687 Universal Semikron Interface Board (Add to Cart)

 

785258-01 Development Bundle: sbRIO-9687 Universal I/F Board, sbRIO-9607 + NI 9684 GPIC OEM Bundle, Pluggable Connector Set for sbRIO-9687, Mounting Plate and Accessories for sbRIO-9687 (Add to Cart)

 

785254-01 Development Bundle: NI 9684 GPIC 16-bit 180 kS/s, sbRIO-9607 Zynq-7020 (45 Day SW,Thermal,Power,Standoffs,Accessories): Does not include Universal Interface Board (Add to Cart)

 

Documentation

 

Specifications

 

Getting Started Guide

 

User Manual

 

Dimensional Drawings

 

Block Diagram

 

sbRIO-9687 Block Diagram.png

 

 

Open Source Reference Design Code

 

ftp://ftp.ni.com/evaluation/powerdev/training/

 

When unzipping these code repositories, you must unzip in a very short path (like C:\LV 2018) using 7-Zip or WinZip (not the default Windows Zip utility).

 

Please reply to this post with any questions or comments.

 

 

Message 1 of 3
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Hi ..

I just wanted to ask about the number of inverters that can be controlled through one of this device.

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The number of inverters you can control depends on which output connector type you are using.

 

The 9687 has 7 connectors of Semikron SKiiP3 GB type. These are typically half-bridge type converters, with two IGBT/SiCs/FETs per half-bridge, which are used to control one phase of a multiple phase converter. If we are talking about controlling three phase inverters, that means 3 half-bridges per inverter. So you can control 2 three phase inverters and have one Semikron SKiiP3 GB type connector left over. This is commonly used for brake choppers or the like.

 

The 9687 has 2 SKiiP3 GD connectors. These are typically three phase type converters (also known as 6-packs), which have three half-bridges that are controlled from a single connector.

 

Summary of Semikron connector types on the 9687: Semikron SKiiP3 GB (7), SKiiP3 GD (2), SKiiP4 (4), Semikube GB (6), Semikube GD (2)

 

Now... in addition to that you have a breakout board connector on the 9687 that exposes 32 raw FPGA I/O lines which are 3.3 V logic. With these you could theoretically control an additional 32 transistors. However, if you want the same type of gate driver command signal I/O like the other GPIC outputs, then you would need to put those driver chips on your daughter board. Reply if you want more information on that. I can share recommended chipsets, series resistors, etc.

 

 

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