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Supported chassis

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Supported chassis

Owned by Sylvain Ménard
Last updated: Jan 23, 2025 by Fabien Ducat
6 min read

In order to run the examples provided by the eFPGASIM electrical machine library, the user must be equipped with one of the simulators below.

OP4815/OP4810 Chassis (High End)

Application Scope

We recommend the use of the OP4815-OP4810 for models requiring any of the followings:

  • Up to 32 Analog I/O channels (Aout at 10 MSPS)

  • Up to 64 bi-directional Digital I/O channels

  • More than two similar electrical machines model required on a single FPGA

  • OP4815 is dedicated to large converter topologies that need to be simulated on the FPGA (eHSx128 is required)

  • OP4810 is dedicated to medium converter topologies that need to be simulated on the FPGA (eHSx64 is required)

  • More than four high-speed serials I/O links

Chassis Overview

Recommended I/O Module Configuration

Table 1 describes the standard I/O modules provides with the OP4815 simulators for testing machine controls. This configuration allows running the various off-the-shelf machines examples that come with eFPGASIM software.

Table 1: IOConfig 1 - Standard I/O module configuration for OP4815-OP4810 Chassis

 

Slot 1A

Slot 1B

Slot 1C

Ext (Section A-B)

 

Slot 1A

Slot 1B

Slot 1C

Ext (Section A-B)

Slot 1

OP48H10 32 Digital Input Output channels

OP48H10 16 Analog Output channels 10 MSPS 

OP48H10 16 Analog Inputs 5 MSPS

N/A

Slot 2

OP48H10 32 Digital Input Output channels

OP48H10 16 Analog Output channels 10 MSPS

OP48H10 16 Analog Inputs 5 MSPS

N/A

Slot 3 (Extension)

N/A

N/A

N/A

RS422 Transceiver Base board

Table 2: IOConfig 2 - Standard I/O module configuration for OP4815-OP4810 Chassis

 

Slot 1A

Slot 1B

Slot 1C

Slot 1D

Ext (Section A-B)

 

Slot 1A

Slot 1B

Slot 1C

Slot 1D

Ext (Section A-B)

Slot 1

OP48H20 16 Digital Input channels

OP48H20 16 Digital Output channels 10 MSPS

OP48H20 24 Analog Outputs 1 MSPS
or 12 Analog Outputs 2 MSPS

OP48H20 8 Analog Inputs 2 MSPS

N/A

Slot 2

OP48H20 16 Digital Input channels

OP48H20 16 Digital Output channels 10 MSPS

OP48H20 24 Analog Outputs 1 MSPS
or 12 Analog Outputs 2 MSPS

OP48H20 8 Analog Inputs 2 MSPS

N/A

Slot 3 (Extension)

N/A

N/A

N/A

N/A

RS422 Transceiver Base board

Note: Custom I/O configuration for specific applications are available via service request.

OP5607/OP5707 Chassis (High End)

Application Scope

We recommend the use of the OP5707 / OP5607 for models requiring any of the followings:

  • More than 32 Analog I/O channels

  • More than 64 Digital I/O channels

  • More than two similar electrical machines model required on a single FPGA

  • Large converter topologies that need to be simulated on the FPGA (eHSx128 is required)

  • Complex multi-core CPU simulation (more than 3 cores is required) used for simulating controls or large power system network

  • More than four high-speed serials I/O links

Chassis Overview

Recommended I/O Module Configuration

Table 1 describes the standard I/O modules provides with the OP5607/OP5707 simulators for testing machine controls. This configuration allows running the various off-the-shelf machines examples that come with eFPGASIM software.

Table 1: Standard I/O module configuration for OP5607 / OP5707 Chassis

 

Section A

Section B

 

Section A

Section B

Slot 1

OP5330-3 16 Analog Output channels 1 MSPS

OP5340 16 Analog Inputs 500 KSPS

Slot 2

OP5353 32 Digital Input channels

OP5360-2 32 Digital Output channels

Slot 3

OP5330-3 16 Analog Output channels 1 MSPS

OP5330-3 16 Analog Output channels 1 MSPS

Slot 4

OP5353 32 Digital Input channels

OP5360-2 32 Digital Output channels

Note: Custom I/O configuration for specific applications are available via service request.

OP4610 Chassis (Mid-Range)

Application Scope

We advise the use of this simulator for models requiring any of the following:

  • Up to 32 Analog I/O channels

  • Up to 64 Digital I/O channels

  • Two electrical machines model on a single FPGA

  • Large converter topologies that need to be simulated on the FPGA (eHSx128 is required)

  • CPU simulation on up to 6 cores

  • Up to four high-speed serial links

Chassis Overview

Recommended I/O Module Configuration

Table 2 describes the standard I/O modules provided with the OP4610 simulator for testing machine controls. This configuration allows running the various off-the-shelf machines examples that come with eFPGASIM software.

Table 2: Standard I/O module configuration for the OP4610 Chassis

 

Section A

Section B

 

Section A

Section B

Slot 1

OP5369 32 Digital Input/Output channels

OP5330-3 16 Analog Output channels 1MSPS

Slot 2

OP5342 16 Analog Inputs 2 MSPS

OP5330-3 16 Analog Output channels 1MSPS

Extension slot

RS422 TransceiverBase board

 

Note: Custom configuration I/O configuration for specific applications are available via service request.

OP4512 Chassis (Entry level)

Application Scope

We advise the use of this simulator for models requiring any of the following:

  • Up to 32 Analog I/O channels

  • Up to 64 Digital I/O channels

  • Two electrical machines model on a single FPGA

  • eHSx64 is sufficient to simulate the converter topology

  • CPU simulation on up to 4 cores

  • Up to four high-speed serial links

Chassis Overview

Recommended I/O Module Configuration

Table 3 describes the standard I/O modules provided with the OP4512 simulator for testing machine controls. This configuration allows running the various off-the-shelf machines examples that come with eFPGASIM software.

Table 3: Standard I/O module configuration for the OP4512 Chassis

 

Section A

Section B

 

Section A

Section B

Slot 1

OP5369 32 Digital Input/Output channels

OP5330-3 16 Analog Output channels 1MSPS

Slot 2

OP5342 16 Analog Inputs 2 MSPS

OP5330-3 16 Analog Output channels 1MSPS

Extension slot

RS422 TransceiverBase board

 

Note: Custom configuration I/O configuration for specific applications are available via service request.

OP4510 Chassis (Low End)

Application Scope

We advise the use of this simulator for models requiring any of the following:

  • Up to 32 Analog I/O channels

  • Up to 64 Digital I/O channels

  • Two electrical machines model on a single FPGA

  • eHSx64 is sufficient to simulate the converter topology

  • CPU simulation on up to 4 cores

  • Up to four high-speed serial links

Chassis Overview

Recommended I/O Module Configuration

Table 4 describes the standard I/O modules provides with the OP4510 simulator for testing machine controls. This configuration allows running the various off-the-shelf machines examples that come with eFPGASIM software.

Table 4: Standard I/O module configuration for the OP4510 Chassis

 

Section A

Section B

 

Section A

Section B

Slot 1

OP5353 32 Digital Input channels

OP5360-2 32 Digital Output channels

Slot 2

OP5340 16 Analog Inputs 500KSPS

OP5330-3 16 Analog Output channels 1MSPS

Extension slot

RS422 TransceiverBase board

 

Note: Custom configuration I/O configuration for specific applications are available via service request.

OP4200 Chassis (Low End)

The OP4200 Chassis is not currently supported by the eFPGASIM electrical machine model packages.

Legacy Chassis Support and Retro-Compatibility

The OP5600 Virtex 6 and Spartan 3 based simulators, the OP4500 and earlier chassis generation are excluded from the hardware list supported by the machine package.

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