2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB1 and a Daughter board, using 2, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00008
Double Width
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a double width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00015
3 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB2 and a Daughter board, using 3, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00028
2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard and an NB1/NB2 2-connector Daughter board, using 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00031
Peripheral Board
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a single width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00103
Advance Mezzanine Card Mating Connector
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. This template implements the 199 pin AMC backplane mating connector.
Vault Item: PDE-0001-00022
Advance Mezzanine Card Single Compact
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. The template implements the Single Bay, Compact variant (180.6mm x 73.5mm) form factor and includes component placement areas to assist meeting the AMC mechanical guidelines.
Vault Item: PDE-0001-00068
Computer Motherboard Form Factor
The ATX form factor was devised to supersede the popular Baby-AT Computer motherboard form factor in an effort reduce cost, improve ease of use and offer better support for existing and future I/O and processor technology. This template includes component placement and height constraints without limiting flexibility by implementing any one specific connector solution.
Vault Item: PDE-0001-00012
2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB1 and a Daughter board, using 2, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00008
Double Width
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a double width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00015
3 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB2 and a Daughter board, using 3, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00028
2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard and an NB1/NB2 2-connector Daughter board, using 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00031
Peripheral Board
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a single width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00103
Advance Mezzanine Card Mating Connector
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. This template implements the 199 pin AMC backplane mating connector.
Vault Item: PDE-0001-00022
Advance Mezzanine Card Single Compact
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. The template implements the Single Bay, Compact variant (180.6mm x 73.5mm) form factor and includes component placement areas to assist meeting the AMC mechanical guidelines.
Vault Item: PDE-0001-00068
Computer Motherboard Form Factor
The ATX form factor was devised to supersede the popular Baby-AT Computer motherboard form factor in an effort reduce cost, improve ease of use and offer better support for existing and future I/O and processor technology. This template includes component placement and height constraints without limiting flexibility by implementing any one specific connector solution.
Vault Item: PDE-0001-00012
2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB1 and a Daughter board, using 2, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00008
Double Width
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a double width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00015
3 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard NB2 and a Daughter board, using 3, 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00028
2 Connector
Altium's NanoBoard 1 and NB2 architecture is unique in that the target programmable device is housed on a plug-in swappable Daughter board. This enables you to easily change the project's target architecture, providing a device and vendor-independent development platform.
This template implements the interface between the NanoBoard and an NB1/NB2 2-connector Daughter board, using 100-pin high-reliability connectors. It also includes the Daughter board PCB, complete with height constraints and a STEP model for the Daughter board cover.
NanoBoard System Summary
Altium's NanoBoard series of development boards enhances your ability to design, implement and debug an entire FPGA-based system design before moving to a production PCB. Use the NanoBoard as a system prototyping and development platform, as an educational hands-on teaching tool, as a complete test bed for FPGA-based embedded system design, or even as part of your deliverable product. Its power, flexibility and tight integration with the Altium Designer software delivers a new approach to FPGA-based embedded system development.
Vault Item: PDE-0001-00031
Peripheral Board
With the NanoBoard NB2 and the NanoBoard 3000 series, a large range of the peripherals available to the host FPGA are delivered on removable peripheral boards, providing a simple and cost-effective method for rapid prototyping of hardware concepts.
The NanoBoard NB2 caters for up to three peripheral boards (2 single width, 1 double width). The NanoBoard 3000 can accommodate a single peripheral board (single or double width).
This template implements the interface between the NanoBoard and a single width Peripheral board, using a 100-pin high-reliability connector. It also includes the Peripheral board PCB, complete with height constraints.
Vault Item: PDE-0001-00103
Advance Mezzanine Card Mating Connector
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. This template implements the 199 pin AMC backplane mating connector.
Vault Item: PDE-0001-00022
Advance Mezzanine Card Single Compact
The Advanced Mezzanine Card form factor defines a number of high-speed add in cards for use with AdvancedTCA Carriers and PICMG Mirco Telecommunications Computing Modules. The template implements the Single Bay, Compact variant (180.6mm x 73.5mm) form factor and includes component placement areas to assist meeting the AMC mechanical guidelines.
Vault Item: PDE-0001-00068
Computer Motherboard Form Factor
The ATX form factor was devised to supersede the popular Baby-AT Computer motherboard form factor in an effort reduce cost, improve ease of use and offer better support for existing and future I/O and processor technology. This template includes component placement and height constraints without limiting flexibility by implementing any one specific connector solution.
Vault Item: PDE-0001-00012
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