
OTC2902K Dev Board – Polymorphic FPAA with 56 CABs & MSP430
OTC2902K
The OTC2902K is a development board with one (1) OTC2902E04 SoC FPAA chip, power regulation, programming circuitry, and prototyping headers. This single development board is fully supported by SoC FPAA Development Software.
Order Quantity: 1
For lower university and student pricing, please contact Okika Devices sales team at sales@okikadevices.com

OTC2902K Dev Board – Polymorphic FPAA with 56 CABs & MSP430
The OTC2902K SoC FPAA Development Board combines extensive analog and digital programmable blocks with an integrated MSP430 microcontroller, providing a compact, high-performance platform for mixed-signal prototyping and advanced analog computing.
Featured Highlights
- 56 Configurable Analog Blocks (CABs) – Support complex analog processing like filtering, amplification, and summing.
- 42 configurable logic blocks (CLBs) equivalent to ~10,000 digital FPGA gates
- 16 Signal DACs and 6 Programmable DACs – Flexible analog output options.
- Integrated Ramp ADC – For precise analog-to-digital conversion.
- Embedded MSP430 Microcontroller – Enables mixed-signal co-design and control.
- Programmable Interconnect Fabric – Dynamic routing for adaptable circuit topologies.
- On-Chip Clock Generator – Supports multiple clock domains for synchronized operation.
- Temperature-Compensated Bandgap Reference – Ensures stable voltage under varying conditions.
- SPI-Like Interface & Shadow Configuration – Rapid configuration loading without interrupting operation.

SoC FPAA Block Diagram
FAQs
What is the OTC2902K SoC FPAA Development Board used for?
It’s built for advanced analog and mixed-signal prototyping, combining configurable analog blocks with programmable logic and an integrated microcontroller. Typical uses include sensor processing, signal filtering, industrial control, audio and sonar classification, IoT, and robotics, especially where high channel counts or low-power signal processing are important.
Which software supports programming the OTC2902K?
The board is fully supported by Okika’s SoC FPAA Development Software, which offers schematic capture, simulation, and calibration tools.
Can I perform real-time analog and digital co-processing?
Yes, the integrated programmable logic and analog blocks allow seamless co-design of mixed-signal systems.
What microcontroller is integrated on the board?
The board features an integrated MSP430 microcontroller for control and system management.
How is the device configured?
Configuration is done via a fast, SPI-like serial interface with SRAM-based memory that supports shadow loading for seamless switching.
What power supply does the board require?
The board operates on a standard +3.3V supply for both analog and digital sections.
What temperature range can the board operate in?
It functions reliably between -40°C and +85°C.
Is the board suitable for educational or research use?
Absolutely. Its advanced features make it ideal for both cutting-edge research and higher education in analog/mixed-signal design.
