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Multi-point Input / Output Expander, Altera Cyclone® FPGA Design

Orchid Technologies Engineering and Consulting, Inc.

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Altera Cyclone FPGAs are a perfect cost-effective compliment to a microcomputer’s peripheral system. Often, pin-bound microcomputer designs may be cost effectively enhanced by ‘bolting-on’ a field programmable gate array. Maximizing board area while providing feature-packed smart IO signals is easily achieved with Cyclone FPGAs from Altera.

Altera Cyclone FPGAs allow OTEC to add programmable functions to our industrial controller designs. Some of the functions that we’ve incorporated include de-bounced digital inputs, registered digital outputs, 16 and 32 bit PWM control, 16 and 32 bit digital timers, 32 bit quadrature encoders, analog subsystem state machines, low cost UARTs with parity, power sub-system sequencers, watchdog timers, and PWM DAC subsystems.

Altera’s Quartus design system provides the ideal environment in which to perform Verilog FPGA circuit design, simulation and verification. OTEC’s experience with Verilog, VHDL, and AHDL design ...

Altera Cyclone FPGAs are a perfect cost-effective compliment to a microcomputer’s peripheral system. Often, pin-bound microcomputer designs may be cost effectively enhanced by ‘bolting-on’ a field programmable gate array. Maximizing board area while providing feature-packed smart IO signals is easily achieved with Cyclone FPGAs from Altera.

Altera Cyclone FPGAs allow OTEC to add programmable functions to our industrial controller designs. Some of the functions that we’ve incorporated include de-bounced digital inputs, registered digital outputs, 16 and 32 bit PWM control, 16 and 32 bit digital timers, 32 bit quadrature encoders, analog subsystem state machines, low cost UARTs with parity, power sub-system sequencers, watchdog timers, and PWM DAC subsystems.

Altera’s Quartus design system provides the ideal environment in which to perform Verilog FPGA circuit design, simulation and verification. OTEC’s experience with Verilog, VHDL, and AHDL design entry methods allow a great deal of design flexibility.

Key Features

Offering Brief

Offering Brief

Device Family Arria® 10 SX FPGA, Cyclone® IV GX FPGA, Agilex™ 5 FPGA E-Series, MAX® 10 FPGA, Cyclone® V SX FPGA, Arria® V GZ FPGA, Agilex™ 9 FPGA Direct RF-Series, MAX® V CPLD, Agilex™ 7 FPGA I-Series, Arria® V SX FPGA, Stratix® 10 DX FPGA, Stratix® 10 SX FPGA, Agilex™ 7 FPGA M-Series, Cyclone® V GT FPGA, Arria® 10 GT FPGA, Arria® V ST FPGA, Arria® 10 GX FPGA, Stratix® 10 TX FPGA, Cyclone® V SE FPGA, Stratix® IV E FPGA, Stratix® IV GX FPGA, Arria® V GX FPGA, Cyclone® V E FPGA, Agilex™ 3 FPGA C-Series, Cyclone® V GX FPGA, Stratix® V GS FPGA, Stratix® V GX FPGA, Cyclone® V ST FPGA, Agilex™ 5 FPGA D-Series, Stratix® 10 GX FPGA, Arria® V GT FPGA, Cyclone® 10 LP FPGA, Agilex™ 7 FPGA F-Series, Cyclone® 10 GX FPGA, Stratix® 10 AX FPGA, Cyclone® IV E FPGA, Stratix® III FPGA
Offering Status Production

Design Note #87

Documentation & Resources

Market Segment and Sub-Segments